0,0 → 1,11705 |
CCS PCH C Compiler, Version 4.090, 47914 30-IV-10 18:05 |
|
Filename: D:\svnKaklik\programy\C\PIC_C\mereni\inertial\main.lst |
|
ROM used: 9680 bytes (30%) |
Largest free fragment is 23084 |
RAM used: 1650 (81%) at main() level |
1869 (91%) worst case |
Stack: 17 worst case (8 in main + 9 for interrupts) |
|
* |
0000: GOTO 1F62 |
* |
0008: MOVWF 05 |
000A: MOVFF FD8,06 |
000E: MOVFF FE0,07 |
0012: MOVLB 0 |
0014: MOVFF FE9,0D |
0018: MOVFF FEA,08 |
001C: MOVFF FE1,09 |
0020: MOVFF FE2,0A |
0024: MOVFF FD9,0B |
0028: MOVFF FDA,0C |
002C: MOVFF FF3,14 |
0030: MOVFF FF4,15 |
0034: MOVFF FFA,16 |
0038: MOVFF 00,0F |
003C: MOVFF 01,10 |
0040: MOVFF 02,11 |
0044: MOVFF 03,12 |
0048: MOVFF 04,13 |
004C: BTFSS FF2.5 |
004E: GOTO 0058 |
0052: BTFSC FF2.2 |
0054: GOTO 025E |
0058: BTFSS FA0.5 |
005A: GOTO 0064 |
005E: BTFSC FA1.5 |
0060: GOTO 1274 |
0064: MOVFF 0F,00 |
0068: MOVFF 10,01 |
006C: MOVFF 11,02 |
0070: MOVFF 12,03 |
0074: MOVFF 13,04 |
0078: MOVFF 0D,FE9 |
007C: MOVFF 08,FEA |
0080: BSF 08.7 |
0082: MOVFF 09,FE1 |
0086: MOVFF 0A,FE2 |
008A: MOVFF 0B,FD9 |
008E: MOVFF 0C,FDA |
0092: MOVFF 14,FF3 |
0096: MOVFF 15,FF4 |
009A: MOVFF 16,FFA |
009E: MOVF 05,W |
00A0: MOVFF 07,FE0 |
00A4: MOVFF 06,FD8 |
00A8: RETFIE 0 |
.................... #include "main.h" |
.................... #include <18F4550.h> |
.................... //////// Standard Header file for the PIC18F4550 device //////////////// |
.................... #device PIC18F4550 |
.................... #list |
.................... |
.................... #device adc=10 |
.................... |
.................... #FUSES NOWDT //No Watch Dog Timer |
.................... #FUSES WDT128 //Watch Dog Timer uses 1:128 Postscale |
.................... #FUSES HSPLL //Crystal/Resonator with PLL enabled |
.................... #FUSES NOPROTECT //Code not protected from reading |
.................... #FUSES NOBROWNOUT //No brownout reset |
.................... #FUSES BORV20 //Brownout reset at 2.0V |
.................... #FUSES NOPUT //No Power Up Timer |
.................... #FUSES NOCPD //No EE protection |
.................... #FUSES STVREN //Stack full/underflow will cause reset |
.................... #FUSES NODEBUG //No Debug mode for ICD |
.................... #FUSES NOLVP //No low voltage prgming, B3(PIC16) or B5(PIC18) used for I/O |
.................... #FUSES NOWRT //Program memory not write protected |
.................... #FUSES NOWRTD //Data EEPROM not write protected |
.................... #FUSES IESO //Internal External Switch Over mode enabled |
.................... #FUSES FCMEN //Fail-safe clock monitor enabled |
.................... #FUSES PBADEN //PORTB pins are configured as analog input channels on RESET |
.................... #FUSES NOWRTC //configuration not registers write protected |
.................... #FUSES NOWRTB //Boot block not write protected |
.................... #FUSES NOEBTR //Memory not protected from table reads |
.................... #FUSES NOEBTRB //Boot block not protected from table reads |
.................... #FUSES NOCPB //No Boot Block code protection |
.................... #FUSES MCLR //Master Clear pin enabled |
.................... #FUSES LPT1OSC //Timer1 configured for low-power operation |
.................... #FUSES NOXINST //Extended set extension and Indexed Addressing mode disabled (Legacy mode) |
.................... #FUSES PLL5 //Divide By 5(20MHz oscillator input) |
.................... #FUSES CPUDIV4 //System Clock by 4 |
.................... #FUSES USBDIV //USB clock source comes from PLL divide by 2 |
.................... #FUSES VREGEN //USB voltage regulator enabled |
.................... #FUSES ICPRT //ICPRT enabled |
.................... |
.................... #use delay(clock=24000000) |
.................... |
.................... |
.................... |
.................... #define REV "$Rev$" |
.................... |
.................... unsigned int32 time; // pocitadlo preteceni casovace |
.................... |
.................... #define BUFLEN 100 |
.................... |
.................... #int_RTCC |
.................... void RTCC_isr(void) // preruseni od pretekleho casovace |
.................... { |
.................... time++; |
* |
025E: MOVLW 01 |
0260: ADDWF 19,F |
0262: BTFSC FD8.0 |
0264: INCF 1A,F |
0266: BTFSC FD8.2 |
0268: INCF 1B,F |
026A: BTFSC FD8.2 |
026C: INCF 1C,F |
.................... } |
.................... |
.................... // Includes all USB code and interrupts, as well as the CDC API |
.................... #include <usb_cdc.h> |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// usb_cdc.h //// |
.................... //// //// |
.................... //// Library for adding a virtual COM port on your PC over USB using //// |
.................... //// the standard Communication Device Class (CDC) specification. //// |
.................... //// Including this file in your code will add all USB code, //// |
.................... //// interrupts, descriptors and handlers required. No other //// |
.................... //// modifications need to be made. //// |
.................... //// //// |
.................... //// This library creates a virtual RS232 link between the PC and //// |
.................... //// the PIC, therefore the library provided will be familiar to //// |
.................... //// anyone with standard UART stream I/O: //// |
.................... //// //// |
.................... //// usb_cdc_kbhit() - Returns TRUE if there is one or more //// |
.................... //// character received and waiting in the receive buffer. //// |
.................... //// //// |
.................... //// usb_cdc_getc() - Gets a character from the receive buffer. If //// |
.................... //// there is no data in the receive buffer it will wait until //// |
.................... //// there is data in the receive buffer. If you do not want //// |
.................... //// to wait in an infinit loop, use usb_cdc_kbhit() first to //// |
.................... //// check if there is data before calling usb_cdc_getc(). //// |
.................... //// //// |
.................... //// usb_cdc_putc(char c) - Puts a character into the transmit //// |
.................... //// buffer. If the transmit buffer is full it will wait until //// |
.................... //// the transmit buffer is not full before putting the char //// |
.................... //// into the transmit buffer. The transmit buffer is read by //// |
.................... //// the PC very quickly, and therefore the buffer should only //// |
.................... //// be full for a few milli-seconds. If you are concerned //// |
.................... //// and don't want to be stuck in a long or infinite loop, //// |
.................... //// use usb_cdc_putready() to see if there is space in the //// |
.................... //// transmit buffer before putting data into the transmit //// |
.................... //// buffer. //// |
.................... //// //// |
.................... //// usb_cdc_putready() - Returns TRUE if there is room left in the //// |
.................... //// transmit buffer for another character. //// |
.................... //// //// |
.................... //// usb_cdc_connected() - Returns TRUE if we received a //// |
.................... //// Set_Line_Coding. On most serial terminal programs (such //// |
.................... //// as Hyperterminal), they will send a Set_Line_Coding //// |
.................... //// message when the program starts and it opens the virtual //// |
.................... //// COM port. This is a simple way to determine if the PC //// |
.................... //// is ready to display data on a serial terminal program, //// |
.................... //// but is not garaunteed to work all the time or on other //// |
.................... //// terminal programs. //// |
.................... //// //// |
.................... //// usb_cdc_putc_fast(char c) - Similar to usb_cdc_putc(), except //// |
.................... //// if the transmit buffer is full it will skip the char. //// |
.................... //// //// |
.................... //// usb_cdc_line_coding - A structure used for Set_Line_Coding and //// |
.................... //// Get_Line_Coding. Most of the time you can ignore this. //// |
.................... //// //// |
.................... //// usb_cdc_break - If the PC has sent a break command, this will //// |
.................... //// hold the break time (in milli-seconds). If the PC sends //// |
.................... //// a value of 0xFFFF the device is supposed to hold the //// |
.................... //// break until it sends a value of 0 //// |
.................... //// //// |
.................... //// usb_cdc_carrier - Where Set_Control_Line_State value is stored. //// |
.................... //// Of most relevance is the field dte_present, which is the //// |
.................... //// DTR setting. //// |
.................... //// //// |
.................... //// The following functions are also provided, and are ports of the //// |
.................... //// I/O functions in input.c. See input.c and the CCS manual for //// |
.................... //// documentation: //// |
.................... //// get_float_usb() - Read a float number from the user //// |
.................... //// get_long_usb() - Read a long number from the user //// |
.................... //// get_int_usb() - Read an integer number from the user //// |
.................... //// get_string_usb(char *s, int max) - Read a string from the user. //// |
.................... //// gethex_usb() - Read a byte, in HEX, from the user //// |
.................... //// gethex1_usb() - Read a HEX character //// |
.................... //// //// |
.................... //// This driver will load all the rest of the USB code, and a set //// |
.................... //// of descriptors that will properly describe a CDC device for a //// |
.................... //// virtual COM port (usb_desc_cdc.h) //// |
.................... //// //// |
.................... //// An .INF file is provided (cdc_NTXP.inf) that will load the //// |
.................... //// standard CDC drivers for a virtual COM port in Windows //// |
.................... //// NT/2000/XP and above. //// |
.................... //// //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// VERSION HISTORY //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... //// Nov 26th, 2007: //// |
.................... //// usb_cdc_put_buffer_free() should be more stable. //// |
.................... //// Fixed a hang-up that would happen if you sent //// |
.................... //// exactly 64 bytes. //// |
.................... //// //// |
.................... //// Nov 6th, 2007: //// |
.................... //// Compatabible with latest pic18_usb.h, which //// |
.................... //// reduces RAM footprint of USB driver. //// |
.................... //// This driver now fits on 18F4450/2450 PICs. //// |
.................... //// //// |
.................... //// October 27th, 2005: Changed the way incoming packets are //// |
.................... //// handled in that CDC driver will not flush //// |
.................... //// endpoint until user has handled all data. This //// |
.................... //// will prevent overflows as the USB will NAK //// |
.................... //// incoming packets until it is ready to receive //// |
.................... //// more. //// |
.................... //// When using 18F4550 family, the RX buffer is //// |
.................... //// mapped directly to the endpoint buffer - this //// |
.................... //// saves a chunk of RAM. //// |
.................... //// When using the 18F4550 family, you can increase //// |
.................... //// the TX and RX size over 64 bytes. //// |
.................... //// No longer send 0len packets in the TBE interrupt. //// |
.................... //// Hopefully fixed bugs that caused random crashes //// |
.................... //// if you tried sending more than 64 bytes. //// |
.................... //// //// |
.................... //// July 6th, 2005: Global interrupts disabled when writing to TX //// |
.................... //// buffer. //// |
.................... //// //// |
.................... //// July 1st, 2005: Initial Release. //// |
.................... //// //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2005 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... |
.................... |
.................... //api for the user: |
.................... #define usb_cdc_kbhit() (usb_cdc_get_buffer_status.got) |
.................... #define usb_cdc_putready() (usb_cdc_put_buffer_nextin<USB_CDC_DATA_IN_SIZE) |
.................... #define usb_cdc_connected() (usb_cdc_got_set_line_coding) |
026E: BCF FF2.2 |
0270: GOTO 0064 |
.................... void usb_cdc_putc_fast(char c); |
.................... char usb_cdc_getc(void); |
.................... void usb_cdc_putc(char c); |
.................... |
.................... //input.c ported to use CDC: |
.................... float get_float_usb(); |
.................... signed long get_long_usb(); |
.................... signed int get_int_usb(); |
.................... void get_string_usb(char* s, unsigned int max); |
.................... BYTE gethex_usb(); |
.................... BYTE gethex1_usb(); |
.................... |
.................... //functions automatically called by USB handler code |
.................... void usb_isr_tkn_cdc(void); |
.................... void usb_cdc_init(void); |
.................... void usb_isr_tok_out_cdc_control_dne(void); |
.................... void usb_isr_tok_in_cdc_data_dne(void); |
.................... void usb_isr_tok_out_cdc_data_dne(void); |
.................... |
.................... void usb_cdc_flush_out_buffer(void); |
.................... |
.................... ///////////////////////////////////////////////////////////////////////////// |
.................... // |
.................... // Include the CCS USB Libraries. See the comments at the top of these |
.................... // files for more information |
.................... // |
.................... ///////////////////////////////////////////////////////////////////////////// |
.................... #ifndef __USB_PIC_PERIF__ |
.................... #define __USB_PIC_PERIF__ 1 |
.................... #endif |
.................... |
.................... #if __USB_PIC_PERIF__ |
.................... #if defined(__PCH__) |
.................... #include <pic18_usb.h> //Microchip 18Fxx5x hardware layer for usb.c |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// pic18_usb.h //// |
.................... //// //// |
.................... //// Hardware layer for CCS's USB library. This hardware layer //// |
.................... //// supports the USB peripheral on the PIC18 family chips. Current //// |
.................... //// supported families are: //// |
.................... //// PIC18F2455/2550/4455/4550 //// |
.................... //// PIC18F2450/4450 //// |
.................... //// PIC18F2458/2553/4458/4553 //// |
.................... //// PIC18F13K50/14K50 //// |
.................... //// PIC18F65J50/66J50/66J55/67J50/85J50/86J50/86J55/87J50 //// |
.................... //// //// |
.................... //// This file is part of CCS's PIC USB driver code. See USB.H //// |
.................... //// for more documentation and a list of examples. //// |
.................... //// //// |
.................... //// See the section labeled EXTRA USER FUNCTIONS for functions //// |
.................... //// that are specific to only this HW peripheral that you may //// |
.................... //// find useful to use in your application. //// |
.................... //// //// |
.................... //// *********** NOTE ABOUT 18F2450/4450 LIMITATIONS ********** //// |
.................... //// Due to the limited USB RAM of this family, a limitation of //// |
.................... //// this driver is that there are only 3 endpoints (0, 1 and 2). //// |
.................... //// The HW actually supports more endpoints, but to simplify //// |
.................... //// driver development this driver will only support the first 3 //// |
.................... //// so there is an easier memory block to work with. //// |
.................... //// //// |
.................... //// USB_MAX_EP0_PACKET_LENGTH will also be set to 8 regardless //// |
.................... //// of USB speed, to save RAM. //// |
.................... //// //// |
.................... //// ************** NOTE ABOUT HW REQUIREMENTS **************** //// |
.................... //// If you are not using internal pullups, you will need to put //// |
.................... //// an internal pullup resistor on D+ or D+ depending on if you //// |
.................... //// want to use slow speed or full speed. This code configures //// |
.................... //// the device to use internal pullups, see usb_init() if you //// |
.................... //// want to change that. //// |
.................... //// //// |
.................... //// You need approximately 470nF cap on Vusb, even if you are //// |
.................... //// using the internal 3.3V USB regulator. //// |
.................... //// //// |
.................... //// To run at full speed, you must use the oscillator //// |
.................... //// configuration (PLLx) to set the PLL divide to 4MHz. You can //// |
.................... //// configure the MCU clock to any speed (up to 48MHz) but the //// |
.................... //// PLL must run at 4Mhz to provide the USB peripheral with a //// |
.................... //// 96MHz clock. See the datasheet for details. //// |
.................... //// //// |
.................... //// To run at slow speed you must configure your MCU to run at //// |
.................... //// 24Mhz. See the datasheet for details. //// |
.................... //// //// |
.................... //// **************** NOTE ABOUT INTERRUPTS ****************** //// |
.................... //// This driver uses INT_USB. It requires INT_USB to interrupt the //// |
.................... //// PIC when an event has happened on the USB Bus. Therfore //// |
.................... //// this code enables interrupts. A user modification can be made //// |
.................... //// to poll the USB interrupt flag instead of relying on an //// |
.................... //// interrupt. //// |
.................... //// //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// Version History: //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// 18F14K50 family added. //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... //// Nov 3rd, 2008: //// |
.................... //// * 4553 family added. //// |
.................... //// //// |
.................... //// Dec 18, 2007: //// |
.................... //// * usb_kbhit() moved to device driver. //// |
.................... //// * USB Token handler changed to workaround a flaw in the USB //// |
.................... //// peripheral to prevent the USB peripheral from //// |
.................... //// inadvertantly STALLing the endpoint. Happened most often //// |
.................... //// in bulk demo applications, especially CDC. //// |
.................... //// //// |
.................... //// 11-6-07: Fixed a bug where usb_data_buffer[] was reserving //// |
.................... //// too much RAM. //// |
.................... //// USB_MAX_EP0_PACKET_LENGTH value can be overwritten. //// |
.................... //// For the 18F4450/2450 family this should be 8 //// |
.................... //// because of limited RAM. Reducing this value //// |
.................... //// frees RAM for application. //// |
.................... //// Based upon which endpoints have been configured for //// |
.................... //// use, will free up unused USB data RAM for //// |
.................... //// application dynamically. This should free up //// |
.................... //// at least 128 bytes of RAM. //// |
.................... //// CDC now fits on a 18F4450/2450 //// |
.................... //// //// |
.................... //// 09-19-07: Fixed problems with 18F4450 family. //// |
.................... //// //// |
.................... //// 07-17-07: Added 18F4450,2450 support //// |
.................... //// //// |
.................... //// 07-13-07: Added 87J50 family support //// |
.................... //// //// |
.................... //// 11-01-05: usb_detach(), usb_attach() and usb_init_cs() //// |
.................... //// changed for the better. //// |
.................... //// //// |
.................... //// 10-28-05: Added usb_rx_packet_size() //// |
.................... //// //// |
.................... //// 07-13-05: usb_put_packet() changed for 16bit packet sizes //// |
.................... //// usb_flush_in() changed for 16bit packet sizes //// |
.................... //// usb_get_packet() changed for 16bit packet sizes //// |
.................... //// usb_flush_out() changed for 16bit packet sizes //// |
.................... //// usb_set_configured() changed for 16bit packet sizes //// |
.................... //// //// |
.................... //// 06-30-05: usb_tbe() added //// |
.................... //// The way endpoint 0 DTS is set has been changed. //// |
.................... //// //// |
.................... //// 06-20-05: Initial Release //// |
.................... //// //// |
.................... //// 05-13-05: Beta Release (Full Speed works) //// |
.................... //// //// |
.................... //// 03-21-05: Initial Alpha Release //// |
.................... //// //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2005 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... |
.................... #IFNDEF __PIC18_USB_H__ |
.................... #DEFINE __PIC18_USB_H__ |
.................... |
.................... #DEFINE __USB_HARDWARE__ |
.................... |
.................... //let the USB Stack know that we are using a PIC with internal USB peripheral |
.................... #DEFINE __PIC__ 1 |
.................... |
.................... #ifndef USB_USE_FULL_SPEED |
.................... #define USB_USE_FULL_SPEED TRUE |
.................... #endif |
.................... |
.................... #ifndef USB_MAX_EP0_PACKET_LENGTH |
.................... #if ((getenv("DEVICE")=="PIC18F2450") || (getenv("DEVICE")=="PIC18F4450")) |
.................... //due to limited ram, force max packet length to 8 for this chip |
.................... #define USB_MAX_EP0_PACKET_LENGTH 8 |
.................... #else |
.................... #if USB_USE_FULL_SPEED==FALSE |
.................... //slow speed requires 8byte max packet size for endpoint 0 |
.................... #DEFINE USB_MAX_EP0_PACKET_LENGTH 8 |
.................... #else |
.................... //for full speed you can still use 8bytes, but 64 will be faster |
.................... #DEFINE USB_MAX_EP0_PACKET_LENGTH 64 |
.................... #endif |
.................... #endif |
.................... #endif |
.................... |
.................... #if (!USB_USE_FULL_SPEED && (USB_MAX_EP0_PACKET_LENGTH!=8)) |
.................... #error Slow speed devices must use a max packet size of 8 for endpoint 0! |
.................... #endif |
.................... |
.................... #if USB_MAX_EP0_PACKET_LENGTH < 8 |
.................... #error Max Endpoint 0 length can't be less than 8! |
.................... #endif |
.................... |
.................... #if USB_MAX_EP0_PACKET_LENGTH > 64 |
.................... #error Max Endpoint 0 length can't be greater than 64! |
.................... #endif |
.................... |
.................... #include <usb_hw_layer.h> |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// usb_hw_layer.h //// |
.................... //// //// |
.................... //// HW Layer for the USB Stack. //// |
.................... //// //// |
.................... //// HW drivers for the USB stack must support this API. //// |
.................... //// //// |
.................... //// The HW driver must also have a token handler that will call //// |
.................... //// usb_token_reset() when the device is init/reset, will call //// |
.................... //// usb_isr_tok_setup_dne() when it receives a setup packet, //// |
.................... //// will call usb_isr_tok_out_dne() when a new packet is received, //// |
.................... //// and will call usb_isr_tok_in_dne() when a new packet is sent. //// |
.................... //// See usb.h for documentation of these functions. //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// Version History: //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2009 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... |
.................... #ifndef __USB_HW_LAYER_H__ |
.................... #define __USB_HW_LAYER_H__ |
.................... |
.................... enum USB_DTS_BIT {USB_DTS_DATA1=1, USB_DTS_TOGGLE=2, USB_DTS_DATA0=0, |
.................... USB_DTS_STALL=3, USB_DTS_USERX=4}; |
.................... |
.................... |
.................... // USER LEVEL FUNCTIONS: |
.................... |
.................... /***************************************************************************** |
.................... /* usb_init() |
.................... /* |
.................... /* Summary: See API section of USB.H for documentation. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_init(void); |
.................... |
.................... /***************************************************************************** |
.................... /* usb_init_cs() |
.................... /* |
.................... /* Summary: See API section of USB.H for documentation. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_init_cs(void); |
.................... |
.................... /***************************************************************************** |
.................... /* usb_task() |
.................... /* |
.................... /* Summary: See API section of USB.H for documentation. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_task(void); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_attach() |
.................... /* |
.................... /* Summary: Attach the D+/D- lines to the USB bus. Enable the USB peripheral. |
.................... /* |
.................... /* You should wait until UCON_SE0 is clear before enabling reset/idle interrupt. |
.................... /* |
.................... /* Shouldn't be called by user, let usb_task() handle this. |
.................... /* |
.................... /* NOTE: If you are writing a new HW driver, this routine should call |
.................... /* usb_token_reset() to reset the CH9 stack. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_attach(void); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_detach() |
.................... /* |
.................... /* Summary: Remove the D+/D- lines from the USB bus. Basically, disable USB. |
.................... /* |
.................... /* Shouldn't be called by user, let usb_task() handle this. |
.................... /* |
.................... /* If the user does call this function while USB is connected, the USB |
.................... /* peripheral will be disabled only momentarily because usb_task() will |
.................... /* reconnect. But this is a great way to cause the PC/HOST to cause a USB |
.................... /* reset of the device. |
.................... /* |
.................... /* NOTE: If you are writing a new HW driver, this routine should call |
.................... /* usb_token_reset() to reset the CH9 stack. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_detach(void); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_put_packet() |
.................... /* |
.................... /* Input: endpoint - endpoint to send packet to (0..15). |
.................... /* ptr - points to data to send. |
.................... /* len - amount of data to send. |
.................... /* toggle - whether to send data with a DATA0 pid, a DATA1 pid, |
.................... /* or toggle from the last DATAx pid. |
.................... /* |
.................... /* Output: TRUE if data was sent correctly, FALSE if it was not. The only |
.................... /* reason it will return FALSE is if because the TX buffer is still full |
.................... /* from the last time it tried to send a packet. |
.................... /* |
.................... /* Summary: Sends one packet out the EP to the host. Notice that there is a |
.................... /* difference between a packet and a message. If you wanted to send a |
.................... /* 512 byte message on an endpoint that only supported 64 byte packets, |
.................... /* this would be accomplished this by sending 8 64-byte packets, |
.................... /* followed by a 0 length packet. If the last (or only packet) being |
.................... /* sent is less than the max packet size defined in your descriptor |
.................... /* then you do not need to send a 0 length packet to identify |
.................... /* an end of message. |
.................... /* |
.................... /* usb_puts() (provided in usb.c) will send a multi-packet message |
.................... /* correctly and know if a 0 lenght packet needs to be sent. |
.................... /* |
.................... /* The result will be invalid if the specified input has not been configured for |
.................... /* use by the API with USB_EPx_TX_SIZE |
.................... /* |
.................... /*****************************************************************************/ |
.................... int1 usb_put_packet(int8 endpoint, int8 * ptr, unsigned int16 len, USB_DTS_BIT tgl); |
.................... |
.................... /******************************************************************************* |
.................... /* usb_get_packet(endpoint, *ptr, max) |
.................... /* |
.................... /* Input: endpoint - endpoint to get data from |
.................... /* ptr - where to save data to local PIC RAM |
.................... /* max - max amount of data to receive from buffer |
.................... /* |
.................... /* Output: the amount of data taken from the buffer and saved to ptr. |
.................... /* |
.................... /* NOTE - IF THERE IS NO PACKET TO GET YOU WILL GET INVALID RESULTS! |
.................... /* VERIFY WITH USB_KBHIT() BEFORE YOU CALL USB_GET_PACKET()! |
.................... /* |
.................... /* Summary: Gets a packet of data from the USB endpoint buffer. |
.................... /* Until this is called, if there is data in the receive buffer the |
.................... /* PC/HOST will be prevented from sending more data. Upon completion |
.................... /* of this call, the endpoint will be freed and the PC/HOST will be |
.................... /* allowed to send a new packet. Only receives one packet, if you need |
.................... /* to receive multiple packets or handle 0-length terminator packets, |
.................... /* then use usb_gets(). |
.................... /* |
.................... /* The result will be invalid if the specified input has not been configured for |
.................... /* use by the API with USB_EPx_RX_SIZE |
.................... /* |
.................... /********************************************************************************/ |
.................... unsigned int16 usb_get_packet(int8 endpoint, int8 * ptr, unsigned int16 max); |
.................... |
.................... /**************************************************************************** |
.................... /* usb_kbhit(endpoint) |
.................... /* |
.................... /* Input: endpoint - endpoint to check (0..15) |
.................... /* |
.................... /* Output: TRUE if there is new data in RX buffer, FALSE if there is not. |
.................... /* |
.................... /* Summary: Similar to kbhit(), sees if there is new data in the RX USB buffers. |
.................... /* See API section of USB.H for more information. |
.................... /* |
.................... /* The result will be invalid if the specified input has not been configured for |
.................... /* use by the API with USB_EPx_RX_SIZE |
.................... /* |
.................... /*****************************************************************************/ |
.................... int1 usb_kbhit(int8 en); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_tbe(endpoint) |
.................... /* |
.................... /* Input: endpoint - endpoint to check |
.................... /* ptr - where to save data to local PIC RAM |
.................... /* max - max amount of data to receive from buffer |
.................... /* |
.................... /* Output: returns TRUE if this endpoint's IN buffer (PIC-PC) is empty and ready |
.................... /* returns FALSE if this endpoint's IN buffer is still processing the last |
.................... /* transmit or if this endpoint is invalid. |
.................... /* |
.................... /* The result will be invalid if the specified input has not been configured for |
.................... /* use by the API with USB_EPx_TX_SIZE |
.................... /* |
.................... /*****************************************************************************/ |
.................... int1 usb_tbe(int8 en); |
.................... |
.................... //////////////// END USER LEVEL FUNCTIONS ///////////////////////////////////// |
.................... |
.................... |
.................... /// |
.................... /// BEGIN STACK LEVEL FUNCTIONS: These functions are meant to be called by |
.................... /// the USB stack, and are not meant to be called by the |
.................... /// user/application. |
.................... /// |
.................... |
.................... /***************************************************************************** |
.................... /* usb_stall_ep() |
.................... /* |
.................... /* Input: endpoint - endpoint to stall. |
.................... /* top most bit indicates direction (set is IN, clear is OUT) |
.................... /* |
.................... /* Summary: Stalls specified endpoint. If endpoint is stalled it will |
.................... /* send STALL packet if the host tries to access this endpoint's |
.................... /* buffer. |
.................... /* |
.................... /* NOTE: WE ASSUME ENDPOINT IS VALID. USB.C SHOULD CHECK IF VALID BEFORE |
.................... /* CALLING THIS ROUTINE. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_stall_ep(int8 endpoint); |
.................... |
.................... |
.................... /***************************************************************************** |
.................... /* usb_unstall_ep(endpoint, direction) |
.................... /* |
.................... /* Input: endpoint - endpoint to un-stall. |
.................... /* top most bit indicates direction (set is IN, clear is OUT) |
.................... /* |
.................... /* Summary: Un-stalls endpoint. |
.................... /* |
.................... /* NOTE: WE ASSUME ENDPOINT IS VALID. USB.C SHOULD CHECK IF VALID BEFORE |
.................... /* CALLING THIS ROUTINE. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_unstall_ep(int8 endpoint); |
.................... |
.................... /***************************************************************************** |
.................... /* usb_endpoint_stalled() |
.................... /* |
.................... /* Input: endpoint - endpoint to check |
.................... /* top most bit indicates direction (set is IN, clear is OUT) |
.................... /* |
.................... /* Output: returns a TRUE if endpoint is stalled, FALSE if it is not. |
.................... /* |
.................... /* Summary: Looks to see if an endpoint is stalled, or not. Does not look to |
.................... /* see if endpoint has been issued a STALL, just whether or not it is |
.................... /* configured to STALL on the next packet. See Set_Feature and |
.................... /* Clear_Feature Chapter 9 requests. |
.................... /* |
.................... /* NOTE: WE ASSUME ENDPOINT IS VALID. USB.C SHOULD CHECK IF VALID BEFORE |
.................... /* CALLING THIS ROUTINE. |
.................... /* |
.................... /*****************************************************************************/ |
.................... int1 usb_endpoint_stalled(int8 endpoint); |
.................... |
.................... /***************************************************************************** |
.................... /* usb_set_address(address) |
.................... /* |
.................... /* Input: address - address the host specified that we use |
.................... /* |
.................... /* Summary: Configures the USB Peripheral for the specified device address. |
.................... /* The host will now talk to use with the following address. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_set_address(int8 address); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_set_configured() |
.................... /* |
.................... /* Input: config - Configuration to use. 0 to uncofigure device. |
.................... /* |
.................... /* Summary: Configures or unconfigures device. If configuring device it will |
.................... /* enable all the endpoints the user specified for this configuration. |
.................... /* If un-configuring device it will disable all endpoints. |
.................... /* |
.................... /* NOTE: CCS only provides code to handle 1 configuration. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_set_configured(int8 config); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_disable_endpoints() |
.................... /* |
.................... /* Summary: Disables endpoints (all endpoints but 0) |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_disable_endpoints(void); |
.................... |
.................... |
.................... /******************************************************************************* |
.................... /* usb_disable_endpoint() |
.................... /* |
.................... /* Input: Endpoint to disable (0..15) |
.................... /* |
.................... /* Summary: Disables specified endpoint |
.................... /* |
.................... /********************************************************************************/ |
.................... void usb_disable_endpoint(int8 en); |
.................... |
.................... /************************************************************** |
.................... /* usb_request_send_response(len) |
.................... /* usb_request_get_data() |
.................... /* usb_request_stall() |
.................... /* |
.................... /* Input: len - size of packet to send |
.................... /* |
.................... /* Summary: One of these 3 functions will be called by the USB stack after |
.................... /* handling a SETUP packet. |
.................... /* |
.................... /* After we process a SETUP request, we have 1 of three responses: |
.................... /* 1.) send a response IN packet |
.................... /* 2.) wait for followup OUT packet(s) with data |
.................... /* 3.) stall because we don't support that SETUP request |
.................... /* |
.................... /* If we are sending data, the array usb_ep0_tx_buffer[] will hold |
.................... /* the response and the USB Request handler code will call |
.................... /* usb_request_send_response() to let us know how big the packet is. |
.................... /* |
.................... /* If we are waiting for more data, usb_request_get_data() will |
.................... /* be called by the USB request handler code to configure the EP0 OUT |
.................... /* endpoint to be ready for more data |
.................... /* |
.................... /* If we don't support a request, usb_request_stall() will be called |
.................... /* by the USB request handler code to stall the endpoint 0. |
.................... /* |
.................... /* The operation of these functions depends on how SETUP packets |
.................... /* are handled in the hardware layer. |
.................... /* |
.................... /***************************************************************/ |
.................... void usb_request_send_response(unsigned int8 len); |
.................... void usb_request_get_data(void); |
.................... void usb_request_stall(void); |
.................... |
.................... |
.................... #endif |
.................... |
.................... |
.................... //////////////////////// EXTRA USER FUNCTIONS ///////////////////////////////// |
.................... |
.................... /************************************************************** |
.................... /* usb_flush_in() |
.................... /* |
.................... /* Input: endpoint - which endpoint to mark for transfer |
.................... /* len - length of data that is being tramsferred |
.................... /* tgl - Data toggle synchronization for this packet |
.................... /* |
.................... /* Output: TRUE if success, FALSE if error (we don't control the endpoint) |
.................... /* |
.................... /* Summary: Marks the endpoint ready for transmission. You must |
.................... /* have already loaded the endpoint buffer with data. |
.................... /* (IN is PIC -> PC). |
.................... /* This routine is useful if you want to setup an endpoint by |
.................... /* writing to the buffer directly. |
.................... /* This routine is not necessary if you use usb_put_packet(). |
.................... /***************************************************************/ |
.................... int1 usb_flush_in(int8 endpoint, int16 len, USB_DTS_BIT tgl); |
.................... |
.................... /************************************************************** |
.................... /* usb_flush_out() |
.................... /* |
.................... /* Input: endpoint - which endpoint to mark for release |
.................... /* tgl - Data toggle synchronization to expect in the next packet |
.................... /* |
.................... /* Output: NONE |
.................... /* |
.................... /* Summary: Clears the previously received packet, and then marks this |
.................... /* endpoint's receive buffer as ready for more data. |
.................... /* (OUT is PC -> PIC). This routine is useful if you do not |
.................... /* want to use usb_get_packet(), instead you want to handle with |
.................... /* the endpoint buffer directly. Also see usb_rx_packet_size(). |
.................... /* This routine is not necessary if you use usb_get_packet(). |
.................... /***************************************************************/ |
.................... void usb_flush_out(int8 endpoint, USB_DTS_BIT tgl); |
.................... |
.................... /************************************************************** |
.................... /* usb_rx_packet_size() |
.................... /* |
.................... /* Input: endpoint - which endpoint to mark to check |
.................... /* |
.................... /* Output: Returns the number of bytes in the endpoint's receive buffer. |
.................... /* |
.................... /* Summary: Read the number of data stored in the receive buffer. When you |
.................... /* have handled the data, use usb_flush_out() to clear the buffer. The |
.................... /* result may be invalid if usb_kbhit() returns false for this endpoint. |
.................... /* This routine is not necessary if you use usb_get_packet(). |
.................... /***************************************************************/ |
.................... int16 usb_rx_packet_size(int8 endpoint); |
.................... |
.................... #ENDIF |
.................... |
.................... #else |
.................... #include <pic24_usb.h> //Microchip 18Fxx5x hardware layer for usb.c |
.................... #endif |
.................... #else |
.................... #include <usbn960x.h> |
.................... #endif |
.................... #include <usb_desc_cdc.h> //USB Configuration and Device descriptors for this UBS device |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// usb_desc_cdc.h //// |
.................... //// //// |
.................... //// An example set of device / configuration descriptors for use with //// |
.................... //// CCS's CDC Virtual COM Port driver (see usb_cdc.h) //// |
.................... //// //// |
.................... //// This file is part of CCS's PIC USB driver code. See USB.H //// |
.................... //// for more documentation and a list of examples. //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// Version History: //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... //// 10/28/05: //// |
.................... //// Bulk endpoint sizes updated to allow more than 255 byte //// |
.................... //// packets. //// |
.................... //// Changed device to USB 1.10 //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2005 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... |
.................... #IFNDEF __USB_DESCRIPTORS__ |
.................... #DEFINE __USB_DESCRIPTORS__ |
.................... |
.................... ///////// config options, although it's best to leave alone for this demo ///// |
.................... #define USB_CONFIG_PID 0x0033 |
.................... #define USB_CONFIG_VID 0x0461 |
.................... #define USB_CONFIG_BUS_POWER 100 //100mA (range is 0..500) |
.................... #define USB_CONFIG_VERSION 0x0100 //01.00 //range is 00.00 to 99.99 |
.................... //////// end config /////////////////////////////////////////////////////////// |
.................... |
.................... #DEFINE USB_HID_DEVICE FALSE |
.................... #DEFINE USB_CDC_DEVICE TRUE |
.................... |
.................... #define USB_CDC_COMM_IN_ENDPOINT 1 |
.................... #define USB_CDC_COMM_IN_SIZE 8 |
.................... #define USB_EP1_TX_ENABLE USB_ENABLE_INTERRUPT |
.................... #define USB_EP1_TX_SIZE USB_CDC_COMM_IN_SIZE |
.................... |
.................... //pic to pc endpoint config |
.................... #define USB_CDC_DATA_IN_ENDPOINT 2 |
.................... #define USB_CDC_DATA_IN_SIZE 64 |
.................... #define USB_EP2_TX_ENABLE USB_ENABLE_BULK |
.................... #define USB_EP2_TX_SIZE USB_CDC_DATA_IN_SIZE |
.................... |
.................... //pc to pic endpoint config |
.................... #define USB_CDC_DATA_OUT_ENDPOINT 2 |
.................... #define USB_CDC_DATA_OUT_SIZE 64 |
.................... #define USB_EP2_RX_ENABLE USB_ENABLE_BULK |
.................... #define USB_EP2_RX_SIZE USB_CDC_DATA_OUT_SIZE |
.................... |
.................... #include <usb.h> |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// usb.h //// |
.................... //// //// |
.................... //// Function protypes, defintions and globals used by CCS USB driver //// |
.................... //// //// |
.................... //// This file is part of CCS's USB driver code //// |
.................... //// //// |
.................... //// The following USB examples are provided by CCS: //// |
.................... //// ex_usb_mouse.c - A HID Mouse. //// |
.................... //// ex_usb_hid.c - A custom application using HID protocol. //// |
.................... //// ex_usb_kbmouse.c - A HID Mouse/Keyboard combo using multiple //// |
.................... //// interfaces. //// |
.................... //// ex_usb_kbmouse2.c - A HID Mouse/Keyboard combo using multiple //// |
.................... //// HID Reports. //// |
.................... //// ex_usb_scope.c - A digital oscilloscope using a custom //// |
.................... //// protocol requiring custom Windows drivers. //// |
.................... //// ex_usb_serial.c - //// |
.................... //// ex_usb_serial2.c - Two examples of using the CDC driver for //// |
.................... //// a virtual COM port. //// |
.................... //// ex_usb_bootloader.c - CDC/Virtual COM port bootloader. //// |
.................... //// ex_usb_loadmouse.c - A conversion of ex_usb_mouse.c that is //// |
.................... //// compatible with ex_usb_mouse.c. //// |
.................... //// //// |
.................... //// ********************** API ********************* //// |
.................... //// //// |
.................... //// These are the functions that are meant to be called by the user: //// |
.................... //// //// |
.................... //// usb_init() - Initializes the USB stack, the USB peripheral and //// |
.................... //// attaches the unit to the usb bus. Enables //// |
.................... //// interrupts. Will wait in an infinite loop until //// |
.................... //// the device enumerates - if you are using //// |
.................... //// connection sense or if the processor should run //// |
.................... //// even if it's not connected to USB then use //// |
.................... //// usb_init_cs() instead. //// |
.................... //// //// |
.................... //// usb_init_cs() - A smaller usb_init(), does not attach unit //// |
.................... //// to usb bus or enable interrupts. Since this does //// |
.................... //// not attach to the USB, you must periodically call //// |
.................... //// usb_task(). See usb_task() for more information. //// |
.................... //// //// |
.................... //// usb_task() - If usb_init_cs() was used to initiate the USB //// |
.................... //// peripheral, usb_task() should then be called periodically //// |
.................... //// to check the connection sense pin. If the connection //// |
.................... //// sense pin denotes USB is connected and the USB peripheral //// |
.................... //// is not attached, this will attach the USB peripheral //// |
.................... //// so the PC can start the enumeration process (and it //// |
.................... //// will enable interrupts). If the connection sense pin //// |
.................... //// denotes USB is not attached and the USB peripheral is //// |
.................... //// running, this will reset the USB peripheral and wait //// |
.................... //// for USB to reconnect (and usb_enumerated() will start //// |
.................... //// returning FALSE). If connection sense (USB_CON_SENSE_PIN) //// |
.................... //// is not defined the usb_task() assumes that USB is always //// |
.................... //// connected. //// |
.................... //// //// |
.................... //// usb_attached() - Returns TRUE if the device is attached to a //// |
.................... //// USB cable. A macro that looks at the defined //// |
.................... //// connection sense pin. If this returns TRUE //// |
.................... //// it does not mean the PC has connected to it, //// |
.................... //// you need to use usb_enumerated() to check this. //// |
.................... //// //// |
.................... //// usb_enumerated() - Returns TRUE if device has been enumerated //// |
.................... //// (configured) by host, FALSE if it has not. //// |
.................... //// Do not try to use the USB peripheral for //// |
.................... //// sending and receiving packets until you //// |
.................... //// are enumerated. //// |
.................... //// //// |
.................... //// usb_wait_for_enumeration() - Sits in an infinte loop until device //// |
.................... //// is enumerated. //// |
.................... //// //// |
.................... //// usb_tbe(endpoint) - Returns TRUE if the endpoint transmit buffer //// |
.................... //// is free and ready to accept a new packet for transmission. //// |
.................... //// //// |
.................... //// usb_put_packet(endpoint, ptr, len, tgl) - Sends one packet to the //// |
.................... //// host. If you need to send a message that //// |
.................... //// spans more than one packet then use //// |
.................... //// usb_puts(). Fore more detailed documentation //// |
.................... //// see usb_hw_layer.h //// |
.................... //// //// |
.................... //// usb_puts(endpoint, ptr, len, timeout) - Sends a multiple packet //// |
.................... //// message to the host. If you only need to send one packet, //// |
.................... //// it is more effecient to use usb_put_packet(). This is //// |
.................... //// documented in more detail above the prototype in USB.H. //// |
.................... //// //// |
.................... //// usb_kbhit(endpoint) - Returns true if OUT endpoint contains data //// |
.................... //// from host. This will remain TRUE until //// |
.................... //// usb_put_packet() or usb_flush_out() used. //// |
.................... //// This function will return an invalid response //// |
.................... //// if specified endpoint is not enabled for //// |
.................... //// receiving data. //// |
.................... //// //// |
.................... //// len = usb_get_packet(endpoint, ptr, max) - Gets one packet that //// |
.................... //// from the host/PC. usb_kbhit() must return TRUE before you //// |
.................... //// call this routine or your data may not be valid. This //// |
.................... //// only receives one packet, if you are trying to receive a //// |
.................... //// multi-packet message use usb_gets(). For more detailed //// |
.................... //// documentation see usb_hw_layer.h. //// |
.................... //// //// |
.................... //// len = usb_gets(endpoint, ptr, max, timeout) - Gets multiple //// |
.................... //// packets from the host, you would use this instead //// |
.................... //// of usb_get_packet() if you wanted to handle multi-packet //// |
.................... //// messages. This is documented in more detail above the //// |
.................... //// prototype in USB.H. //// |
.................... //// //// |
.................... //// //// |
.................... //// ********* DEFINITIONS / CONFIGURATION ********** //// |
.................... //// //// |
.................... //// The following definitions are declared here, but can be //// |
.................... //// overwritten in your code. Unless needed otherwise, leave //// |
.................... //// to default value. If confused about a definition read the //// |
.................... //// comments at each defintion //// |
.................... //// //// |
.................... //// USB_HID_IDLE (TRUE) - Set to TRUE if your device supports //// |
.................... //// Set_Idle HID class request. Set to //// |
.................... //// False if you do not (device will //// |
.................... //// send a Wrong-state if computer //// |
.................... //// sends a Set_Idle / Get_Idle command) //// |
.................... //// NOTE: If you set to TRUE you must //// |
.................... //// provide your own code. See //// |
.................... //// usb_isr_tkn_setup_ClassInterface() in //// |
.................... //// usb.c //// |
.................... //// //// |
.................... //// USB_HID_BOOT_PROTOCOL (FALSE) - Set to TRUE if your device supports //// |
.................... //// Set_Protocl HID class request. Set to //// |
.................... //// False if you do not (device will //// |
.................... //// send a Wrong-state if computer //// |
.................... //// sends a Set_Protocl / Get_Protocol //// |
.................... //// command). //// |
.................... //// NOTE: If you set to TRUE you must //// |
.................... //// provide your own code in the //// |
.................... //// application that properly send boot //// |
.................... //// or HID packets. //// |
.................... //// //// |
.................... //// USB_MAX_EP0_PACKET_LENGTH (8) - Max Packet size for Endpoint 0. //// |
.................... //// The hardware level driver (ex //// |
.................... //// pic18_usb.h will define this value if //// |
.................... //// not already overwritten). Increasing //// |
.................... //// this size will speed up the //// |
.................... //// enumeration process. //// |
.................... //// //// |
.................... //// USB_EPx_RX_ENABLE (USB_ENABLE_DISABLED) - Where x is the //// |
.................... //// endpoint number. Change this define //// |
.................... //// to specify what kind of transfer method //// |
.................... //// this RX (PC to device) endpoint uses. //// |
.................... //// Here is the list of valid transfer methods: //// |
.................... //// USB_ENABLE_CONTROL //// |
.................... //// USB_ENABLE_ISOCHRONOUS //// |
.................... //// USB_ENABLE_BULK //// |
.................... //// USB_ENABLE_INTERRUPT //// |
.................... //// USB_ENABLE_DISABLED //// |
.................... //// Don't forget that you must specify the //// |
.................... //// transfer method properly in your endpoint //// |
.................... //// descriptor, too. //// |
.................... //// //// |
.................... //// USB_EPx_RX_SIZE (0) - For some hardware it is important to know //// |
.................... //// how much memory to reserve for receiving //// |
.................... //// packets. //// |
.................... //// //// |
.................... //// *** NOTE *** You must have both USB_EPx_RX_ENABLE defined and //// |
.................... //// USB_EPx_RX_SIZE defined (non 0) to enable a RX //// |
.................... //// endpoint. //// |
.................... //// *** NOTE *** Endpoint 0 is always enabled. //// |
.................... //// //// |
.................... //// USB_EPx_TX_ENABLE (USB_ENABLE_DISABLED) - Where x is the //// |
.................... //// endpoint number. Change this define //// |
.................... //// to specify what kind of transfer method //// |
.................... //// this TX (device to PC) endpoint uses. //// |
.................... //// Here is the list of valid transfer methods: //// |
.................... //// USB_ENABLE_CONTROL //// |
.................... //// USB_ENABLE_ISOCHRONOUS //// |
.................... //// USB_ENABLE_BULK //// |
.................... //// USB_ENABLE_INTERRUPT //// |
.................... //// USB_ENABLE_DISABLED //// |
.................... //// Don't forget that you must specify the //// |
.................... //// transfer method properly in your endpoint //// |
.................... //// descriptor, too. //// |
.................... //// //// |
.................... //// USB_EPx_TX_SIZE (0) - For some hardware it is important to know //// |
.................... //// how much memory to reserve for transmitting //// |
.................... //// packets. //// |
.................... //// //// |
.................... //// *** NOTE *** You must have both USB_EPx_TX_ENABLE defined and //// |
.................... //// USB_EPx_TX_SIZE defined (non 0) to enable a TX //// |
.................... //// endpoint. //// |
.................... //// //// |
.................... //// //// |
.................... //// USB_HID_DEVICE (TRUE) - HID devices require extra code to handle //// |
.................... //// HID requests. You can disable to save //// |
.................... //// ROM space if you are not using a HID //// |
.................... //// device. If you are not using a HID //// |
.................... //// device you must provide your own O/S //// |
.................... //// (Windows) driver. //// |
.................... //// //// |
.................... //// The other definitions should not be changed. //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// Version History: //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... //// July 13th, 2005: //// |
.................... //// usb_ep_tx_size[] and usb_ep_rx_size[] changed to 16bits //// |
.................... //// //// |
.................... //// June 20th, 2005: //// |
.................... //// Initial 18fxx5x release //// |
.................... //// //// |
.................... //// May 13th, 2005: //// |
.................... //// Beta release, only works with 18Fxx5x hardware layer. //// |
.................... //// Now supports multiple interfaces (many defines in descriptors //// |
.................... //// will have to be changed, see examples) //// |
.................... //// //// |
.................... //// Mar 21st, 2005: //// |
.................... //// Initial Alpha Release with PIC18Fxx5x support. (ONLY TESTED //// |
.................... //// WITH 18F4550) //// |
.................... //// usb_gets() and usb_puts() changed (see usb.c) //// |
.................... //// //// |
.................... //// June 24th, 2004: //// |
.................... //// Optimization and cleanup. //// |
.................... //// The following definitions changed: //// |
.................... //// USB_EPx_TX_ENABLE and USB_EPx_RX_ENABLE have changed. See usb.h //// |
.................... //// USB_CONFIG_DESCRIPTORS[] removed //// |
.................... //// USB_CONFIG_DESC_LEN changed to USB_DESC_CONFIG_LEN //// |
.................... //// USB_INTERFACE_DESC_LEN changed to USB_DESC_INTERFACE_LEN //// |
.................... //// USB_CLASS_DESC_LEN changed to USB_DESC_CLASS_LEN //// |
.................... //// USB_ENDPOINT_DESC_LEN changed to USB_DESC_ENDPOINT_LEN //// |
.................... //// USB_CONFIG_DESC_KEY changed to USB_DESC_CONFIG_TYPE //// |
.................... //// USB_INTERFACE_DESC_KEY changed to USB_DESC_INTERFACE_TYPE //// |
.................... //// USB_CLASS_DESC_KEY changed to USB_DESC_CLASS_TYPE //// |
.................... //// USB_ENDPOINT_DESC_KEY changed to USB_DESC_ENDPOINT_TYPE //// |
.................... //// USB_STRING_X[] arrays removed, see USB_STRING_DESC[] and //// |
.................... //// USB_STRING_DESC_OFFSET[] //// |
.................... //// dev_req, curr_config, status_device and getdesc_type global //// |
.................... //// variables moved into struct USB_stack_status //// |
.................... //// //// |
.................... //// October 15th, 2003: Support for boot protocol added. //// |
.................... //// Set USB_HID_BOOT_PROTOCOL to TRUE to support this. //// |
.................... //// The array hid_protocol[] saves which protocol mode each //// |
.................... //// interface is in. It is your applications job to send //// |
.................... //// data that either fit the boot protocol or HID protocol. //// |
.................... //// //// |
.................... //// May 6th, 2003: Fixed a potential stack overflow using PCM //// |
.................... //// //// |
.................... //// October 29th, 2002: New definition added to USB_STATES //// |
.................... //// //// |
.................... //// August 2nd, 2002: Initial Public Release //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2009 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... |
.................... #IFNDEF __USB_PROTOTYPES__ |
.................... #DEFINE __USB_PROTOTYPES__ |
.................... |
.................... //// CONFIGURATION //////////////////////////////////////////////////////////// |
.................... |
.................... #ifndef USB_CON_SENSE_PIN |
.................... #define USB_CON_SENSE_PIN 0 |
.................... #endif |
.................... |
.................... #IFNDEF USB_HID_BOOT_PROTOCOL |
.................... #DEFINE USB_HID_BOOT_PROTOCOL FALSE |
.................... #ENDIF |
.................... |
.................... #IFNDEF USB_HID_IDLE |
.................... #DEFINE USB_HID_IDLE FALSE |
.................... #ENDIF |
.................... |
.................... //should the compiler add the extra HID handler code? Defaults to yes. |
.................... #IFNDEF USB_HID_DEVICE |
.................... #DEFINE USB_HID_DEVICE TRUE |
.................... #ENDIF |
.................... |
.................... #IFNDEF USB_CDC_DEVICE |
.................... #DEFINE USB_CDC_DEVICE FALSE |
.................... #ENDIF |
.................... |
.................... //set to false to opt for less RAM, true to opt for less ROM |
.................... #ifndef USB_OPT_FOR_ROM |
.................... #define USB_OPT_FOR_ROM TRUE |
.................... #endif |
.................... |
.................... #IFNDEF USB_MAX_EP0_PACKET_LENGTH |
.................... #DEFINE USB_MAX_EP0_PACKET_LENGTH 8 |
.................... #ENDIF |
.................... |
.................... |
.................... ////// USER-LEVEL API ///////////////////////////////////////////////////////// |
.................... |
.................... /************************************************************** |
.................... /* usb_enumerated() |
.................... /* |
.................... /* Input: Global variable USB_Curr_Config |
.................... /* Returns: Returns a 1 if device is configured / enumerated, |
.................... /* Returns a 0 if device is un-configured / not enumerated. |
.................... /* |
.................... /* Summary: See API section of USB.H for more documentation. |
.................... /***************************************************************/ |
.................... int1 usb_enumerated(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_wait_for_enumeration() |
.................... /* |
.................... /* Input: Global variable USB_Curr_Config |
.................... /* |
.................... /* Summary: Waits in-definately until device is configured / enumerated. |
.................... /* See API section of USB.H for more information. |
.................... /***************************************************************/ |
.................... void usb_wait_for_enumeration(void); |
.................... |
.................... /**************************************************************************** |
.................... /* usb_gets(endpoint, ptr, max, timeout) |
.................... /* |
.................... /* Input: endpoint - endpoint to get data from |
.................... /* ptr - place / array to store data to |
.................... /* max - max amount of data to get from USB and store into ptr |
.................... /* timeout - time in milliseconds, for each packet, to wait before |
.................... /* timeout. set to 0 for no timeout. |
.................... /* |
.................... /* Output: Amount of data returned. It may be less than max. |
.................... /* |
.................... /* Summary: Gets data from the host. Will get multiple-packet messages |
.................... /* and finish when either it receives a 0-len packet or a packet |
.................... /* of less size than maximum. |
.................... /* |
.................... /*****************************************************************************/ |
.................... unsigned int16 usb_gets(int8 endpoint, int8 * ptr, unsigned int16 max, unsigned int16 timeout); |
.................... |
.................... /**************************************************************************** |
.................... /* usb_puts() |
.................... /* |
.................... /* Inputs: endpoint - endpoint to send data out |
.................... /* ptr - points to array of data to send |
.................... /* len - amount of data to send |
.................... /* timeout - time in milli-seconds, for each packet, to wait before |
.................... /* timeout. set to 0 for no timeout. |
.................... /* |
.................... /* Outputs: Returns TRUE if message sent succesfully, FALSE if it was not |
.................... /* sent before timeout period expired. |
.................... /* |
.................... /* Summary: Used for sending multiple packets of data as one message. This |
.................... /* function can still be used to send messages consiting of only one |
.................... /* packet. See usb_put_packet() documentation for the rules about when |
.................... /* multiple packet messages or 0-lenght packets are needed. |
.................... /* |
.................... /*****************************************************************************/ |
.................... int1 usb_puts(int8 endpoint, int8 * ptr, unsigned int16 len, unsigned int8 timeout); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_attached() |
.................... /* |
.................... /* Summary: Returns TRUE if the device is attached to a USB cable. |
.................... /* See the API section of USB.H for more documentation. |
.................... /* |
.................... /*****************************************************************************/ |
.................... #if USB_CON_SENSE_PIN |
.................... #define usb_attached() input(USB_CON_SENSE_PIN) |
.................... #else |
.................... #define usb_attached() TRUE |
.................... #endif |
.................... |
.................... ////// END USER-LEVEL API ///////////////////////////////////////////////////// |
.................... |
.................... |
.................... ////// STACK-LEVEL API USED BY HW DRIVERS //////////////////////////////////// |
.................... |
.................... enum USB_STATES {GET_DESCRIPTOR=1,SET_ADDRESS=2,NONE=0}; |
.................... |
.................... enum USB_GETDESC_TYPES {USB_GETDESC_CONFIG_TYPE=0,USB_GETDESC_HIDREPORT_TYPE=1,USB_GETDESC_STRING_TYPE=2,USB_GETDESC_DEVICE_TYPE=3}; |
.................... |
.................... #if USB_OPT_FOR_ROM |
.................... typedef struct { |
.................... USB_STATES dev_req; //what did the last setup token set us up to do?. init at none |
.................... int curr_config; //our current config. start at none/powered (NOT THAT THIS LIMITS US TO 3 CONFIGURATIONS) |
.................... int status_device; //Holds our state for Set_Feature and Clear_Feature |
.................... USB_GETDESC_TYPES getdesc_type; //which get_descriptor() we are handling |
.................... } TYPE_USB_STACK_STATUS; |
.................... #else |
.................... typedef struct { |
.................... USB_STATES dev_req:2; //what did the last setup token set us up to do?. init at none |
.................... int Curr_config:2; //our current config. start at none/powered (NOT THAT THIS LIMITS US TO 3 CONFIGURATIONS) |
.................... int status_device:2; //Holds our state for Set_Feature and Clear_Feature |
.................... USB_GETDESC_TYPES getdesc_type:2; //which get_descriptor() we are handling |
.................... } TYPE_USB_STACK_STATUS; |
.................... #endif |
.................... |
.................... extern TYPE_USB_STACK_STATUS USB_stack_status; |
.................... |
.................... /************************************************************** |
.................... /* usb_token_reset() |
.................... /* |
.................... /* Output: No output (but many global registers are modified) |
.................... /* |
.................... /* Summary: Resets the token handler to initial (unconfigured) state. |
.................... /***************************************************************/ |
.................... void usb_token_reset(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_setup_dne() |
.................... /* |
.................... /* Input: usb_ep0_rx_buffer[] contains the the setup packet. |
.................... /* |
.................... /* Output: None (many globals are changed) |
.................... /* |
.................... /* Summary: This function is that handles the setup token. |
.................... /* We must handle all relevant requests, such as Set_Configuration, |
.................... /* Get_Descriptor, etc. |
.................... /* |
.................... /* usb_ep0_rx_buffer[] contains setup data packet, which has the |
.................... /* following records: |
.................... /* ------------------------------------------------------------------------------------------- |
.................... /* usb_ep0_rx_buffer[ 0 ]=bmRequestType; Where the setup packet goes |
.................... /* bit7 (0) host-to-device |
.................... /* (1) device-to-host |
.................... /* bit6-5 (00) usb standard request; |
.................... /* (01) class request; |
.................... /* (10) vendor request |
.................... /* (11) reserved |
.................... /* bit4-0 (0000) device |
.................... /* (0001) interface |
.................... /* (0010) endpoint |
.................... /* (0011) other element |
.................... /* (0100) to (1111) reserved |
.................... /* usb_ep0_rx_buffer[ 1 ]=bRequest ; the request |
.................... /* usb_ep0_rx_buffer[2,3]=wValue ; a value which corresponds to request |
.................... /* usb_ep0_rx_buffer[4,5]=wIndex ; could correspond to interface or endpoint... |
.................... /* usb_ep0_rx_buffer[6,7]=wLength ; number of bytes in next data packet; |
.................... /* for host-to-device, this exactly how many bytes in data packet. |
.................... /* for device-to-host, this is the maximum bytes that can fit one packet. |
.................... /***************************************************************/ |
.................... void usb_isr_tok_setup_dne(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_out_dne() |
.................... /* |
.................... /* Input: endpoint contains which endpoint we are receiving data (0..15) |
.................... /* |
.................... /* Summary: Processes out tokens (out is respective of the host, so actualy |
.................... /* incoming to the pic), but not out setup tokens. Normally when |
.................... /* data is received it is left in the buffer (user would use |
.................... /* usb_kbhit() and usb_get_packet() to receive data), but certain |
.................... /* libraries (like CDC) have to answer setup packets. |
.................... /* |
.................... /***************************************************************/ |
.................... void usb_isr_tok_out_dne(int8 endpoint); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_in_dne(endpoint) |
.................... /* |
.................... /* Input: endpoint - which endpoint we are processing a setup token. |
.................... /* |
.................... /* Summary: This handles an IN packet (HOST <- PIC). For endpoint 0, this |
.................... /* is usually to setup a response packet to a setup packet. Endpoints 1..15 |
.................... /* are generally ignored, and the user has to use usb_tbe() to determine if |
.................... /* if the buffer is ready for a new transmit packet (there are special cases, |
.................... /* like CDC which handles the CDC protocl). |
.................... /* |
.................... /***************************************************************/ |
.................... void usb_isr_tok_in_dne(int8 endpoint); |
.................... |
.................... ////// END STACK-LEVEL API USED BY HW DRIVERS ///////////////////////////////// |
.................... |
.................... |
.................... //CCS only supports one configuration at this time |
.................... #DEFINE USB_NUM_CONFIGURATIONS 1 //DO NOT CHANGE |
.................... |
.................... //PID values for tokens (see page 48 of USB Complete ed.1) |
.................... #define PID_IN 0x09 //device to host transactions |
.................... #define PID_OUT 0x01 //host to device transactions |
.................... #define PID_SETUP 0x0D //host to device setup transaction |
.................... #define PID_ACK 0x02 //receiver accepts error-free data packet |
.................... #define PID_DATA0 0x03 //data packet with even sync bit |
.................... #define PID_SOF 0x05 //start of framer marker and frame number |
.................... #define PID_NAK 0x0A //receiver can't accept data or sender cant send data or has no data to transmit |
.................... #define PID_DATA1 0x0B //data packet with odd sync bit |
.................... #define PID_PRE 0x0C //preamble issued by host. enables downstream traffic to low-speed device |
.................... #define PID_STALL 0x0E //a control request isnt supported or the endpoint is halted |
.................... |
.................... //Key which identifies descritpors |
.................... #DEFINE USB_DESC_DEVICE_TYPE 0x01 //#DEFINE USB_DEVICE_DESC_KEY 0x01 |
.................... #DEFINE USB_DESC_CONFIG_TYPE 0x02 //#DEFINE USB_CONFIG_DESC_KEY 0x02 |
.................... #DEFINE USB_DESC_STRING_TYPE 0x03 //#DEFINE USB_STRING_DESC_KEY 0x03 |
.................... #DEFINE USB_DESC_INTERFACE_TYPE 0x04 //#DEFINE USB_INTERFACE_DESC_KEY 0x04 |
.................... #DEFINE USB_DESC_ENDPOINT_TYPE 0x05 //#DEFINE USB_ENDPOINT_DESC_KEY 0x05 |
.................... #DEFINE USB_DESC_CLASS_TYPE 0x21 //#DEFINE USB_CLASS_DESC_KEY 0x21 |
.................... #DEFINE USB_DESC_HIDREPORT_TYPE 0x22 |
.................... |
.................... //The length of each descriptor |
.................... #DEFINE USB_DESC_DEVICE_LEN 18 //#DEFINE USB_DEVICE_DESC_LEN 18 |
.................... #DEFINE USB_DESC_CONFIG_LEN 9 //#DEFINE USB_CONFIG_DESC_LEN 9 |
.................... #DEFINE USB_DESC_INTERFACE_LEN 9 //#DEFINE USB_INTERFACE_DESC_LEN 9 |
.................... #DEFINE USB_DESC_CLASS_LEN 9 //#DEFINE USB_CLASS_DESC_LEN 9 |
.................... #DEFINE USB_DESC_ENDPOINT_LEN 7 //#DEFINE USB_ENDPOINT_DESC_LEN 7 |
.................... |
.................... //Standard USB Setup bRequest Codes |
.................... #define USB_STANDARD_REQUEST_GET_STATUS 0x00 |
.................... #define USB_STANDARD_REQUEST_CLEAR_FEATURE 0x01 |
.................... #define USB_STANDARD_REQUEST_SET_FEATURE 0x03 |
.................... #define USB_STANDARD_REQUEST_SET_ADDRESS 0x05 |
.................... #define USB_STANDARD_REQUEST_GET_DESCRIPTOR 0x06 |
.................... #define USB_STANDARD_REQUEST_SET_DESCRIPTOR 0x07 |
.................... #define USB_STANDARD_REQUEST_GET_CONFIGURATION 0x08 |
.................... #define USB_STANDARD_REQUEST_SET_CONFIGURATION 0x09 |
.................... #define USB_STANDARD_REQUEST_GET_INTERFACE 0x0A |
.................... #define USB_STANDARD_REQUEST_SET_INTERFACE 0x0B |
.................... #define USB_STANDARD_REQUEST_SYNCH_FRAME 0x0C |
.................... |
.................... //HID Class Setup bRequest Codes |
.................... #define USB_HID_REQUEST_GET_REPORT 0x01 |
.................... #define USB_HID_REQUEST_GET_IDLE 0x02 |
.................... #define USB_HID_REQUEST_GET_PROTOCOL 0x03 |
.................... #define USB_HID_REQUEST_SET_REPORT 0x09 |
.................... #define USB_HID_REQUEST_SET_IDLE 0x0A |
.................... #define USB_HID_REQUEST_SET_PROTOCOL 0x0B |
.................... |
.................... //types of endpoints as defined in the descriptor |
.................... #define USB_ENDPOINT_TYPE_CONTROL 0x00 |
.................... #define USB_ENDPOINT_TYPE_ISOCHRONOUS 0x01 |
.................... #define USB_ENDPOINT_TYPE_BULK 0x02 |
.................... #define USB_ENDPOINT_TYPE_INTERRUPT 0x03 |
.................... |
.................... //types of endpoints used internally in this api |
.................... #define USB_ENABLE_DISABLED -1 |
.................... #define USB_ENABLE_BULK USB_ENDPOINT_TYPE_BULK |
.................... #define USB_ENABLE_ISOCHRONOUS USB_ENDPOINT_TYPE_ISOCHRONOUS |
.................... #define USB_ENABLE_INTERRUPT USB_ENDPOINT_TYPE_INTERRUPT |
.................... #define USB_ENABLE_CONTROL USB_ENDPOINT_TYPE_CONTROL |
.................... |
.................... |
.................... //*** ENABLE RX ENDPOINTS AND BUFFERS |
.................... |
.................... //--------- endpoint 0 defines ---------- |
.................... #define USB_EP0_TX_ENABLE USB_ENABLE_CONTROL |
.................... #define USB_EP0_RX_ENABLE USB_ENABLE_CONTROL |
.................... #define USB_EP0_RX_SIZE USB_MAX_EP0_PACKET_LENGTH //endpoint 0 is setup, and should always be the MAX_PACKET_LENGTH. Slow speed specifies 8 |
.................... #define USB_EP0_TX_SIZE USB_MAX_EP0_PACKET_LENGTH //endpoint 0 is setup, and should always be the MAX_PACKET_LENGTH. Slow speed specifies 8 |
.................... |
.................... //--------- endpoint 1 defines ---------- |
.................... #ifndef USB_EP1_TX_ENABLE |
.................... #define USB_EP1_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP1_RX_ENABLE |
.................... #define USB_EP1_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP1_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP1_RX_SIZE |
.................... #undef USB_EP1_RX_SIZE |
.................... #endif |
.................... #define USB_EP1_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP1_RX_SIZE |
.................... #error You enabled EP1 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP1_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP1_TX_SIZE |
.................... #undef USB_EP1_TX_SIZE |
.................... #endif |
.................... #define USB_EP1_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP1_TX_SIZE |
.................... #error You enabled EP1 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 2 defines ---------- |
.................... #ifndef USB_EP2_TX_ENABLE |
.................... #define USB_EP2_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP2_RX_ENABLE |
.................... #define USB_EP2_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP2_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP2_RX_SIZE |
.................... #undef USB_EP2_RX_SIZE |
.................... #endif |
.................... #define USB_EP2_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP2_RX_SIZE |
.................... #error You enabled EP2 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP2_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP2_TX_SIZE |
.................... #undef USB_EP2_TX_SIZE |
.................... #endif |
.................... #define USB_EP2_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP2_TX_SIZE |
.................... #error You enabled EP2 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 3 defines ---------- |
.................... #ifndef USB_EP3_TX_ENABLE |
.................... #define USB_EP3_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP3_RX_ENABLE |
.................... #define USB_EP3_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP3_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP3_RX_SIZE |
.................... #undef USB_EP3_RX_SIZE |
.................... #endif |
.................... #define USB_EP3_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP3_RX_SIZE |
.................... #error You enabled EP3 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP3_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP3_TX_SIZE |
.................... #undef USB_EP3_TX_SIZE |
.................... #endif |
.................... #define USB_EP3_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP3_TX_SIZE |
.................... #error You enabled EP3 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 4 defines ---------- |
.................... #ifndef USB_EP4_TX_ENABLE |
.................... #define USB_EP4_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP4_RX_ENABLE |
.................... #define USB_EP4_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP4_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP4_RX_SIZE |
.................... #undef USB_EP4_RX_SIZE |
.................... #endif |
.................... #define USB_EP4_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP4_RX_SIZE |
.................... #error You enabled EP4 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP4_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP4_TX_SIZE |
.................... #undef USB_EP4_TX_SIZE |
.................... #endif |
.................... #define USB_EP4_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP4_TX_SIZE |
.................... #error You enabled EP4 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 5 defines ---------- |
.................... #ifndef USB_EP5_TX_ENABLE |
.................... #define USB_EP5_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP5_RX_ENABLE |
.................... #define USB_EP5_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP5_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP5_RX_SIZE |
.................... #undef USB_EP5_RX_SIZE |
.................... #endif |
.................... #define USB_EP5_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP5_RX_SIZE |
.................... #error You enabled EP5 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP5_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP5_TX_SIZE |
.................... #undef USB_EP5_TX_SIZE |
.................... #endif |
.................... #define USB_EP5_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP5_TX_SIZE |
.................... #error You enabled EP5 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 6 defines ---------- |
.................... #ifndef USB_EP6_TX_ENABLE |
.................... #define USB_EP6_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP6_RX_ENABLE |
.................... #define USB_EP6_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP6_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP6_RX_SIZE |
.................... #undef USB_EP6_RX_SIZE |
.................... #endif |
.................... #define USB_EP6_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP6_RX_SIZE |
.................... #error You enabled EP6 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP6_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP6_TX_SIZE |
.................... #undef USB_EP6_TX_SIZE |
.................... #endif |
.................... #define USB_EP6_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP6_TX_SIZE |
.................... #error You enabled EP6 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 7 defines ---------- |
.................... #ifndef USB_EP7_TX_ENABLE |
.................... #define USB_EP7_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP7_RX_ENABLE |
.................... #define USB_EP7_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP7_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP7_RX_SIZE |
.................... #undef USB_EP7_RX_SIZE |
.................... #endif |
.................... #define USB_EP7_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP7_RX_SIZE |
.................... #error You enabled EP7 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP7_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP7_TX_SIZE |
.................... #undef USB_EP7_TX_SIZE |
.................... #endif |
.................... #define USB_EP7_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP7_TX_SIZE |
.................... #error You enabled EP7 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 8 defines ---------- |
.................... #ifndef USB_EP8_TX_ENABLE |
.................... #define USB_EP8_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP8_RX_ENABLE |
.................... #define USB_EP8_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP8_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP8_RX_SIZE |
.................... #undef USB_EP8_RX_SIZE |
.................... #endif |
.................... #define USB_EP8_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP8_RX_SIZE |
.................... #error You enabled EP8 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP8_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP8_TX_SIZE |
.................... #undef USB_EP8_TX_SIZE |
.................... #endif |
.................... #define USB_EP8_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP8_TX_SIZE |
.................... #error You enabled EP8 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 9 defines ---------- |
.................... #ifndef USB_EP9_TX_ENABLE |
.................... #define USB_EP9_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP9_RX_ENABLE |
.................... #define USB_EP9_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP9_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP9_RX_SIZE |
.................... #undef USB_EP9_RX_SIZE |
.................... #endif |
.................... #define USB_EP9_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP9_RX_SIZE |
.................... #error You enabled EP9 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP9_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP9_TX_SIZE |
.................... #undef USB_EP9_TX_SIZE |
.................... #endif |
.................... #define USB_EP9_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP9_TX_SIZE |
.................... #error You enabled EP9 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 10 defines ---------- |
.................... #ifndef USB_EP10_TX_ENABLE |
.................... #define USB_EP10_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP10_RX_ENABLE |
.................... #define USB_EP10_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP10_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP10_RX_SIZE |
.................... #undef USB_EP10_RX_SIZE |
.................... #endif |
.................... #define USB_EP10_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP10_RX_SIZE |
.................... #error You enabled EP10 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP10_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP10_TX_SIZE |
.................... #undef USB_EP10_TX_SIZE |
.................... #endif |
.................... #define USB_EP10_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP10_TX_SIZE |
.................... #error You enabled EP10 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 11 defines ---------- |
.................... #ifndef USB_EP11_TX_ENABLE |
.................... #define USB_EP11_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP11_RX_ENABLE |
.................... #define USB_EP11_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP11_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP11_RX_SIZE |
.................... #undef USB_EP11_RX_SIZE |
.................... #endif |
.................... #define USB_EP11_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP11_RX_SIZE |
.................... #error You enabled EP11 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP11_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP11_TX_SIZE |
.................... #undef USB_EP11_TX_SIZE |
.................... #endif |
.................... #define USB_EP11_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP11_TX_SIZE |
.................... #error You enabled EP11 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 12 defines ---------- |
.................... #ifndef USB_EP12_TX_ENABLE |
.................... #define USB_EP12_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP12_RX_ENABLE |
.................... #define USB_EP12_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP12_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP12_RX_SIZE |
.................... #undef USB_EP12_RX_SIZE |
.................... #endif |
.................... #define USB_EP12_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP12_RX_SIZE |
.................... #error You enabled EP12 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP12_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP12_TX_SIZE |
.................... #undef USB_EP12_TX_SIZE |
.................... #endif |
.................... #define USB_EP12_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP12_TX_SIZE |
.................... #error You enabled EP12 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 13 defines ---------- |
.................... #ifndef USB_EP13_TX_ENABLE |
.................... #define USB_EP13_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP13_RX_ENABLE |
.................... #define USB_EP13_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP13_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP13_RX_SIZE |
.................... #undef USB_EP13_RX_SIZE |
.................... #endif |
.................... #define USB_EP13_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP13_RX_SIZE |
.................... #error You enabled EP13 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP13_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP13_TX_SIZE |
.................... #undef USB_EP13_TX_SIZE |
.................... #endif |
.................... #define USB_EP13_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP13_TX_SIZE |
.................... #error You enabled EP13 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 14 defines ---------- |
.................... #ifndef USB_EP14_TX_ENABLE |
.................... #define USB_EP14_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP14_RX_ENABLE |
.................... #define USB_EP14_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP14_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP14_RX_SIZE |
.................... #undef USB_EP14_RX_SIZE |
.................... #endif |
.................... #define USB_EP14_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP14_RX_SIZE |
.................... #error You enabled EP14 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP14_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP14_TX_SIZE |
.................... #undef USB_EP14_TX_SIZE |
.................... #endif |
.................... #define USB_EP14_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP14_TX_SIZE |
.................... #error You enabled EP14 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 15 defines ---------- |
.................... #ifndef USB_EP15_TX_ENABLE |
.................... #define USB_EP15_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP15_RX_ENABLE |
.................... #define USB_EP15_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP15_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP15_RX_SIZE |
.................... #undef USB_EP15_RX_SIZE |
.................... #endif |
.................... #define USB_EP15_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP15_RX_SIZE |
.................... #error You enabled EP15 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP15_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP15_TX_SIZE |
.................... #undef USB_EP15_TX_SIZE |
.................... #endif |
.................... #define USB_EP15_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP15_TX_SIZE |
.................... #error You enabled EP15 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... const int8 usb_ep_tx_type[16]={ |
.................... USB_EP0_TX_ENABLE, USB_EP1_TX_ENABLE, USB_EP2_TX_ENABLE, |
.................... USB_EP3_TX_ENABLE, USB_EP4_TX_ENABLE, USB_EP5_TX_ENABLE, |
.................... USB_EP6_TX_ENABLE, USB_EP7_TX_ENABLE, USB_EP8_TX_ENABLE, |
.................... USB_EP9_TX_ENABLE, USB_EP10_TX_ENABLE, USB_EP11_TX_ENABLE, |
.................... USB_EP12_TX_ENABLE, USB_EP13_TX_ENABLE, USB_EP14_TX_ENABLE, |
.................... USB_EP15_TX_ENABLE |
.................... }; |
.................... |
.................... const int8 usb_ep_rx_type[16]={ |
.................... USB_EP0_RX_ENABLE, USB_EP1_RX_ENABLE, USB_EP2_RX_ENABLE, |
.................... USB_EP3_RX_ENABLE, USB_EP4_RX_ENABLE, USB_EP5_RX_ENABLE, |
.................... USB_EP6_RX_ENABLE, USB_EP7_RX_ENABLE, USB_EP8_RX_ENABLE, |
.................... USB_EP9_RX_ENABLE, USB_EP10_RX_ENABLE, USB_EP11_RX_ENABLE, |
.................... USB_EP12_RX_ENABLE, USB_EP13_RX_ENABLE, USB_EP14_RX_ENABLE, |
.................... USB_EP15_RX_ENABLE |
.................... }; |
.................... |
.................... const unsigned int16 usb_ep_tx_size[16]={ |
.................... USB_EP0_TX_SIZE, USB_EP1_TX_SIZE, USB_EP2_TX_SIZE, |
.................... USB_EP3_TX_SIZE, USB_EP4_TX_SIZE, USB_EP5_TX_SIZE, |
.................... USB_EP6_TX_SIZE, USB_EP7_TX_SIZE, USB_EP8_TX_SIZE, |
.................... USB_EP9_TX_SIZE, USB_EP10_TX_SIZE, USB_EP11_TX_SIZE, |
.................... USB_EP12_TX_SIZE, USB_EP13_TX_SIZE, USB_EP14_TX_SIZE, |
.................... USB_EP15_TX_SIZE |
.................... }; |
.................... |
.................... const unsigned int16 usb_ep_rx_size[16]={ |
.................... USB_EP0_RX_SIZE, USB_EP1_RX_SIZE, USB_EP2_RX_SIZE, |
.................... USB_EP3_RX_SIZE, USB_EP4_RX_SIZE, USB_EP5_RX_SIZE, |
.................... USB_EP6_RX_SIZE, USB_EP7_RX_SIZE, USB_EP8_RX_SIZE, |
.................... USB_EP9_RX_SIZE, USB_EP10_RX_SIZE, USB_EP11_RX_SIZE, |
.................... USB_EP12_RX_SIZE, USB_EP13_RX_SIZE, USB_EP14_RX_SIZE, |
.................... USB_EP15_RX_SIZE |
.................... }; |
.................... |
.................... #ENDIF |
.................... |
.................... |
.................... ////////////////////////////////////////////////////////////////// |
.................... /// |
.................... /// start config descriptor |
.................... /// right now we only support one configuration descriptor. |
.................... /// the config, interface, class, and endpoint goes into this array. |
.................... /// |
.................... ////////////////////////////////////////////////////////////////// |
.................... |
.................... #DEFINE USB_TOTAL_CONFIG_LEN 67 //config+interface+class+endpoint+endpoint (2 endpoints) |
.................... |
.................... const char USB_CONFIG_DESC[] = { |
.................... //IN ORDER TO COMPLY WITH WINDOWS HOSTS, THE ORDER OF THIS ARRAY MUST BE: |
.................... // config(s) |
.................... // interface(s) |
.................... // class(es) |
.................... // endpoint(s) |
.................... |
.................... //config_descriptor for config index 1 |
.................... USB_DESC_CONFIG_LEN, //length of descriptor size ==0 |
.................... USB_DESC_CONFIG_TYPE, //constant CONFIGURATION (CONFIGURATION 0x02) ==1 |
.................... USB_TOTAL_CONFIG_LEN,0, //size of all data returned for this config ==2,3 |
.................... 2, //number of interfaces this device supports ==4 |
.................... 0x01, //identifier for this configuration. (IF we had more than one configurations) ==5 |
.................... 0x00, //index of string descriptor for this configuration ==6 |
.................... #if USB_CONFIG_BUS_POWER |
.................... 0x80, //bit 6=1 if self powered, bit 5=1 if supports remote wakeup (we don't), bits 0-4 unused and bit7=1 ==7 |
.................... #else |
.................... 0xC0, //bit 6=1 if self powered, bit 5=1 if supports remote wakeup (we don't), bits 0-4 unused and bit7=1 ==7 |
.................... #endif |
.................... USB_CONFIG_BUS_POWER/2, //maximum bus power required (maximum milliamperes/2) (0x32 = 100mA) ==8 |
.................... |
.................... |
.................... //interface descriptor 0 (comm class interface) |
.................... USB_DESC_INTERFACE_LEN, //length of descriptor =9 |
.................... USB_DESC_INTERFACE_TYPE, //constant INTERFACE (INTERFACE 0x04) =10 |
.................... 0x00, //number defining this interface (IF we had more than one interface) ==11 |
.................... 0x00, //alternate setting ==12 |
.................... 1, //number of endpoints ==13 |
.................... 0x02, //class code, 02 = Comm Interface Class ==14 |
.................... 0x02, //subclass code, 2 = Abstract ==15 |
.................... 0x01, //protocol code, 1 = v.25ter ==16 |
.................... 0x00, //index of string descriptor for interface ==17 |
.................... |
.................... //class descriptor [functional header] |
.................... 5, //length of descriptor ==18 |
.................... 0x24, //dscriptor type (0x24 == ) ==19 |
.................... 0, //sub type (0=functional header) ==20 |
.................... 0x10,0x01, // ==21,22 //cdc version |
.................... |
.................... //class descriptor [acm header] |
.................... 4, //length of descriptor ==23 |
.................... 0x24, //dscriptor type (0x24 == ) ==24 |
.................... 2, //sub type (2=ACM) ==25 |
.................... 2, //capabilities ==26 //we support Set_Line_Coding, Set_Control_Line_State, Get_Line_Coding, and the notification Serial_State. |
.................... |
.................... //class descriptor [union header] |
.................... 5, //length of descriptor ==27 |
.................... 0x24, //dscriptor type (0x24 == ) ==28 |
.................... 6, //sub type (6=union) ==29 |
.................... 0, //master intf ==30 //The interface number of the Communication or Dat a Cl ass interface, designated as the masteror controlling interface for the union. |
.................... 1, //save intf0 ==31 //Interface number of first slave or associated interface in the union. * |
.................... |
.................... //class descriptor [call mgmt header] |
.................... 5, //length of descriptor ==32 |
.................... 0x24, //dscriptor type (0x24 == ) ==33 |
.................... 1, //sub type (1=call mgmt) ==34 |
.................... 0, //capabilities ==35 //device does not handle call management itself |
.................... 1, //data interface ==36 //interface number of data class interface |
.................... |
.................... //endpoint descriptor |
.................... USB_DESC_ENDPOINT_LEN, //length of descriptor ==37 |
.................... USB_DESC_ENDPOINT_TYPE, //constant ENDPOINT (ENDPOINT 0x05) ==38 |
.................... USB_CDC_COMM_IN_ENDPOINT | 0x80, //endpoint number and direction |
.................... 0x03, //transfer type supported (0x03 is interrupt) ==40 |
.................... USB_CDC_COMM_IN_SIZE,0x00, //maximum packet size supported ==41,42 |
.................... 250, //polling interval, in ms. (interrupt endpoint cant be smaller than 10 for slow speed devices) ==43 |
.................... |
.................... //interface descriptor 1 (data class interface) |
.................... USB_DESC_INTERFACE_LEN, //length of descriptor =44 |
.................... USB_DESC_INTERFACE_TYPE, //constant INTERFACE (INTERFACE 0x04) =45 |
.................... 0x01, //number defining this interface (IF we had more than one interface) ==46 |
.................... 0x00, //alternate setting ==47 |
.................... 2, //number of endpoints ==48 |
.................... 0x0A, //class code, 0A = Data Interface Class ==49 |
.................... 0x00, //subclass code ==50 |
.................... 0x00, //protocol code ==51 |
.................... 0x00, //index of string descriptor for interface ==52 |
.................... |
.................... //endpoint descriptor |
.................... USB_DESC_ENDPOINT_LEN, //length of descriptor ==53 |
.................... USB_DESC_ENDPOINT_TYPE, //constant ENDPOINT (ENDPOINT 0x05) ==54 |
.................... USB_CDC_DATA_OUT_ENDPOINT, //endpoint number and direction (0x02 = EP2 OUT) ==55 |
.................... 0x02, //transfer type supported (0x02 is bulk) ==56 |
.................... (USB_CDC_DATA_OUT_SIZE+1) & 0xFF, ((USB_CDC_DATA_OUT_SIZE+1) >> 8) & 0xFF, //maximum packet size supported ==57, 58 |
.................... 1, //polling interval, in ms. ==59 |
.................... |
.................... //endpoint descriptor |
.................... USB_DESC_ENDPOINT_LEN, //length of descriptor ==60 |
.................... USB_DESC_ENDPOINT_TYPE, //constant ENDPOINT (ENDPOINT 0x05) ==61 |
.................... USB_CDC_DATA_IN_ENDPOINT | 0x80, //endpoint number and direction (0x82 = EP2 IN) ==62 |
.................... 0x02, //transfer type supported (0x02 is bulk) ==63 |
.................... (USB_CDC_DATA_IN_SIZE+1) & 0xFF, ((USB_CDC_DATA_IN_SIZE+1) >> 8) & 0xFF, //maximum packet size supported ==66, 67 |
.................... 1, //polling interval, in ms. ==68 |
.................... }; |
.................... |
.................... //****** BEGIN CONFIG DESCRIPTOR LOOKUP TABLES ******** |
.................... //since we can't make pointers to constants in certain pic16s, this is an offset table to find |
.................... // a specific descriptor in the above table. |
.................... |
.................... //the maximum number of interfaces seen on any config |
.................... //for example, if config 1 has 1 interface and config 2 has 2 interfaces you must define this as 2 |
.................... #define USB_MAX_NUM_INTERFACES 2 |
.................... |
.................... //define how many interfaces there are per config. [0] is the first config, etc. |
.................... const char USB_NUM_INTERFACES[USB_NUM_CONFIGURATIONS]={2}; |
.................... |
.................... //define where to find class descriptors |
.................... //first dimension is the config number |
.................... //second dimension specifies which interface |
.................... //last dimension specifies which class in this interface to get, but most will only have 1 class per interface |
.................... //if a class descriptor is not valid, set the value to 0xFFFF |
.................... const int8 USB_CLASS_DESCRIPTORS[USB_NUM_CONFIGURATIONS][USB_MAX_NUM_INTERFACES][4]= |
.................... { |
.................... //config 1 |
.................... //interface 0 |
.................... //class 1-4 |
.................... 18,23,27,32, |
.................... //interface 1 |
.................... //no classes for this interface |
.................... 0xFF,0xFF,0xFF,0xFF |
.................... }; |
.................... |
.................... #if (sizeof(USB_CONFIG_DESC) != USB_TOTAL_CONFIG_LEN) |
.................... #error USB_TOTAL_CONFIG_LEN not defined correctly |
.................... #endif |
.................... |
.................... |
.................... ////////////////////////////////////////////////////////////////// |
.................... /// |
.................... /// start device descriptors |
.................... /// |
.................... ////////////////////////////////////////////////////////////////// |
.................... |
.................... const char USB_DEVICE_DESC[USB_DESC_DEVICE_LEN] ={ |
.................... //starts of with device configuration. only one possible |
.................... USB_DESC_DEVICE_LEN, //the length of this report ==0 |
.................... 0x01, //the constant DEVICE (DEVICE 0x01) ==1 |
.................... 0x10,0x01, //usb version in bcd ==2,3 |
.................... 0x02, //class code. 0x02=Communication Device Class ==4 |
.................... 0x00, //subclass code ==5 |
.................... 0x00, //protocol code ==6 |
.................... USB_MAX_EP0_PACKET_LENGTH, //max packet size for endpoint 0. (SLOW SPEED SPECIFIES 8) ==7 |
.................... USB_CONFIG_VID & 0xFF, ((USB_CONFIG_VID >> 8) & 0xFF), //vendor id ==9, 10 |
.................... USB_CONFIG_PID & 0xFF, ((USB_CONFIG_PID >> 8) & 0xFF), //product id, don't use 0xffff ==11, 12 |
.................... USB_CONFIG_VERSION & 0xFF, ((USB_CONFIG_VERSION >> 8) & 0xFF), //device release number ==13,14 |
.................... 0x01, //index of string description of manufacturer. therefore we point to string_1 array (see below) ==14 |
.................... 0x02, //index of string descriptor of the product ==15 |
.................... 0x00, //index of string descriptor of serial number ==16 |
.................... USB_NUM_CONFIGURATIONS //number of possible configurations ==17 |
.................... }; |
.................... |
.................... |
.................... ////////////////////////////////////////////////////////////////// |
.................... /// |
.................... /// start string descriptors |
.................... /// String 0 is a special language string, and must be defined. People in U.S.A. can leave this alone. |
.................... /// |
.................... /// You must define the length else get_next_string_character() will not see the string |
.................... /// Current code only supports 10 strings (0 thru 9) |
.................... /// |
.................... ////////////////////////////////////////////////////////////////// |
.................... |
.................... #if !defined(USB_STRINGS_OVERWRITTEN) |
.................... //the offset of the starting location of each string. offset[0] is the start of string 0, offset[1] is the start of string 1, etc. |
.................... char USB_STRING_DESC_OFFSET[]={0,4,12}; |
.................... |
.................... // Here is where the "CCS" Manufacturer string and "SERIAL DEMO" are stored. |
.................... // Strings are saved as unicode. |
.................... // These strings are mostly only displayed during the add hardware wizard. |
.................... // Once the operating system drivers have been installed it will usually display |
.................... // the name from the drivers .INF. |
.................... char const USB_STRING_DESC[]={ |
.................... //string 0 |
.................... 4, //length of string index |
.................... USB_DESC_STRING_TYPE, //descriptor type 0x03 (STRING) |
.................... 0x09,0x04, //Microsoft Defined for US-English |
.................... //string 1 - manufacturer |
.................... 8, //length of string index |
.................... USB_DESC_STRING_TYPE, //descriptor type 0x03 (STRING) |
.................... 'C',0, |
.................... 'C',0, |
.................... 'S',0, |
.................... //string 2 - product |
.................... 24, //length of string index |
.................... USB_DESC_STRING_TYPE, //descriptor type 0x03 (STRING) |
.................... 'S',0, |
.................... 'E',0, |
.................... 'R',0, |
.................... 'I',0, |
.................... 'A',0, |
.................... 'L',0, |
.................... ' ',0, |
.................... 'D',0, |
.................... 'E',0, |
.................... 'M',0, |
.................... 'O',0 |
.................... }; |
.................... #endif //!defined(USB_STRINGS_OVERWRITTEN) |
.................... |
.................... #ENDIF |
.................... |
.................... #include <usb.c> //handles usb setup tokens and get descriptor reports |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// usb.c //// |
.................... //// //// |
.................... //// Standard USB request and token handler code. //// |
.................... //// //// |
.................... //// This file is part of CCS's PIC USB driver code. See USB.H //// |
.................... //// for more documentation and a list of examples. //// |
.................... //// //// |
.................... //// The majority of this code is called and used by the interrupt //// |
.................... //// generated by the hardware level, and therefore it is not meant //// |
.................... //// to be called by the user. The functions that are meant to be //// |
.................... //// called by the user (init, put packet, get packet, etc) are //// |
.................... //// documented in USB.H. //// |
.................... //// //// |
.................... //// ************************* NOTE ************************** //// |
.................... //// This code will not create a multiple configuration device. //// |
.................... //// If you wish to create a multiple configuration device then you //// |
.................... //// will have to modify these drivers. //// |
.................... //// //// |
.................... //// ************************* NOTE ************************** //// |
.................... //// This code does not support Get_Idle or Set_Idle HID-specific //// |
.................... //// requests. These requests are optional. If you want to support //// |
.................... //// these requests you must provide the code yourself. See //// |
.................... //// usb_isr_tkn_setup_ClassInterface() if you wish to add this //// |
.................... //// support. //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// If you wish to provide your own USB peripheral hardware layer, it //// |
.................... //// must must provide the API as described in usb_hw_layer.h. //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// Version History: //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... //// Dec 14, 2007: //// |
.................... //// usb_kbhit() moved to device driver. //// |
.................... //// //// |
.................... //// July 13th, 2005: //// |
.................... //// usb_puts() packet_size and this_packet_len changed to 16bits. //// |
.................... //// usb_gets() len, packet_size and this_packet_len to 16bits. //// |
.................... //// //// |
.................... //// June 20th, 2005: //// |
.................... //// Initial 18fxx5x release. //// |
.................... //// usb_kbhit() removed, usb_kbhit() now implemented in hardware //// |
.................... //// layer. //// |
.................... //// //// |
.................... //// May 13th, 2005: //// |
.................... //// Beta release, only works with 18Fxx5x hardware layer. //// |
.................... //// Now supports multiple interfaces (many defines in descriptors //// |
.................... //// will have to be changed, see examples) //// |
.................... //// TODO: alot of indexing and length handling for descriptors is //// |
.................... //// only 8bit, so make sure all descriptor tables are less than //// |
.................... //// 256 bytes long. //// |
.................... //// //// |
.................... //// Apr 21st, 2005: //// |
.................... //// Initial Alpha Release with PIC18Fxx5x support. (ONLY TESTED //// |
.................... //// WITH 18F4550) //// |
.................... //// usb_puts() doesn't need max packet size as a paremeter, uses //// |
.................... //// usb_ep_tx_size[] defined in usb.h //// |
.................... //// usb_puts() timeout parameter now in ms, not seconds. //// |
.................... //// USB Stack no longer buffers incoming data. If there is data to //// |
.................... //// get usb_kbhit(en) will return TRUE and the data will sit in //// |
.................... //// the endpoint buffer until you usb_get_packet(), which will //// |
.................... //// then free the endpoint buffer for more data. This affects //// |
.................... //// routines such as usb_gets() and usb_kbhit(). //// |
.................... //// usb_gets() no longer reads buffered data (see above note), //// |
.................... //// now it reads multiple packets in the same way usb_puts() //// |
.................... //// writes multiple packets //// |
.................... //// usb_kbhit() is hardware specific, so has been moved to hardware //// |
.................... //// layer. //// |
.................... //// //// |
.................... //// Nov 11th, 2004: //// |
.................... //// No longer includes wrong descriptor header. //// |
.................... //// //// |
.................... //// June 24th, 2004: //// |
.................... //// Optimization and cleanup. //// |
.................... //// The following definitions changed: //// |
.................... //// USB_EPx_TX_ENABLE and USB_EPx_RX_ENABLE have changed. See usb.h //// |
.................... //// USB_CONFIG_DESCRIPTORS[] removed //// |
.................... //// USB_CONFIG_DESC_LEN changed to USB_DESC_CONFIG_LEN //// |
.................... //// USB_INTERFACE_DESC_LEN changed to USB_DESC_INTERFACE_LEN //// |
.................... //// USB_CLASS_DESC_LEN changed to USB_DESC_CLASS_LEN //// |
.................... //// USB_ENDPOINT_DESC_LEN changed to USB_DESC_ENDPOINT_LEN //// |
.................... //// USB_CONFIG_DESC_KEY changed to USB_DESC_CONFIG_TYPE //// |
.................... //// USB_INTERFACE_DESC_KEY changed to USB_DESC_INTERFACE_TYPE //// |
.................... //// USB_CLASS_DESC_KEY changed to USB_DESC_CLASS_TYPE //// |
.................... //// USB_ENDPOINT_DESC_KEY changed to USB_DESC_ENDPOINT_TYPE //// |
.................... //// USB_STRING_X[] arrays removed, see USB_STRING_DESC[] and //// |
.................... //// USB_STRING_DESC_OFFSET[] //// |
.................... //// dev_req, curr_config, status_device and getdesc_type global //// |
.................... //// variables moved into struct USB_stack_status //// |
.................... //// //// |
.................... //// December 5th, 2003: Fixed a potential bug where descriptors are //// |
.................... //// evenly dividable by 8 (MAX_EP0_PACKET_SIZE) //// |
.................... //// //// |
.................... //// October 15th, 2003: Support for boot protocol added. //// |
.................... //// Set USB_HID_BOOT_PROTOCOL to TRUE to support this. //// |
.................... //// The array hid_protocol[] saves which protocol mode each //// |
.................... //// interface is in. It is your applications job to send //// |
.................... //// data that either fit the boot protocol or HID protocol. //// |
.................... //// //// |
.................... //// May 6th, 2003: Fixed a potential stack overflow using PCM //// |
.................... //// //// |
.................... //// October 28th, 2002: Problem with usb_puts and timeout fixed. //// |
.................... //// //// |
.................... //// October 28th, 2002: Typo fixed in get_next_string_character(), //// |
.................... //// although it didn't cause any serious problems //// |
.................... //// //// |
.................... //// October 25th, 2002: Another change to usb_puts() was made to fix //// |
.................... //// problems with multiple packet messages //// |
.................... //// October 29th, 2002: Fixed a problem with multiple packet string //// |
.................... //// descriptors that require a 0 len packet to //// |
.................... //// end message. //// |
.................... //// //// |
.................... //// October 23rd, 2002: usb_puts() will bomb out of error quicker //// |
.................... //// //// |
.................... //// August 2nd, 2002: Initial Public Release //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2005 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... |
.................... #IFNDEF __USB_DRIVER__ |
.................... #DEFINE __USB_DRIVER__ |
.................... |
.................... #include <usb.h> |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// usb.h //// |
.................... //// //// |
.................... //// Function protypes, defintions and globals used by CCS USB driver //// |
.................... //// //// |
.................... //// This file is part of CCS's USB driver code //// |
.................... //// //// |
.................... //// The following USB examples are provided by CCS: //// |
.................... //// ex_usb_mouse.c - A HID Mouse. //// |
.................... //// ex_usb_hid.c - A custom application using HID protocol. //// |
.................... //// ex_usb_kbmouse.c - A HID Mouse/Keyboard combo using multiple //// |
.................... //// interfaces. //// |
.................... //// ex_usb_kbmouse2.c - A HID Mouse/Keyboard combo using multiple //// |
.................... //// HID Reports. //// |
.................... //// ex_usb_scope.c - A digital oscilloscope using a custom //// |
.................... //// protocol requiring custom Windows drivers. //// |
.................... //// ex_usb_serial.c - //// |
.................... //// ex_usb_serial2.c - Two examples of using the CDC driver for //// |
.................... //// a virtual COM port. //// |
.................... //// ex_usb_bootloader.c - CDC/Virtual COM port bootloader. //// |
.................... //// ex_usb_loadmouse.c - A conversion of ex_usb_mouse.c that is //// |
.................... //// compatible with ex_usb_mouse.c. //// |
.................... //// //// |
.................... //// ********************** API ********************* //// |
.................... //// //// |
.................... //// These are the functions that are meant to be called by the user: //// |
.................... //// //// |
.................... //// usb_init() - Initializes the USB stack, the USB peripheral and //// |
.................... //// attaches the unit to the usb bus. Enables //// |
.................... //// interrupts. Will wait in an infinite loop until //// |
.................... //// the device enumerates - if you are using //// |
.................... //// connection sense or if the processor should run //// |
.................... //// even if it's not connected to USB then use //// |
.................... //// usb_init_cs() instead. //// |
.................... //// //// |
.................... //// usb_init_cs() - A smaller usb_init(), does not attach unit //// |
.................... //// to usb bus or enable interrupts. Since this does //// |
.................... //// not attach to the USB, you must periodically call //// |
.................... //// usb_task(). See usb_task() for more information. //// |
.................... //// //// |
.................... //// usb_task() - If usb_init_cs() was used to initiate the USB //// |
.................... //// peripheral, usb_task() should then be called periodically //// |
.................... //// to check the connection sense pin. If the connection //// |
.................... //// sense pin denotes USB is connected and the USB peripheral //// |
.................... //// is not attached, this will attach the USB peripheral //// |
.................... //// so the PC can start the enumeration process (and it //// |
.................... //// will enable interrupts). If the connection sense pin //// |
.................... //// denotes USB is not attached and the USB peripheral is //// |
.................... //// running, this will reset the USB peripheral and wait //// |
.................... //// for USB to reconnect (and usb_enumerated() will start //// |
.................... //// returning FALSE). If connection sense (USB_CON_SENSE_PIN) //// |
.................... //// is not defined the usb_task() assumes that USB is always //// |
.................... //// connected. //// |
.................... //// //// |
.................... //// usb_attached() - Returns TRUE if the device is attached to a //// |
.................... //// USB cable. A macro that looks at the defined //// |
.................... //// connection sense pin. If this returns TRUE //// |
.................... //// it does not mean the PC has connected to it, //// |
.................... //// you need to use usb_enumerated() to check this. //// |
.................... //// //// |
.................... //// usb_enumerated() - Returns TRUE if device has been enumerated //// |
.................... //// (configured) by host, FALSE if it has not. //// |
.................... //// Do not try to use the USB peripheral for //// |
.................... //// sending and receiving packets until you //// |
.................... //// are enumerated. //// |
.................... //// //// |
.................... //// usb_wait_for_enumeration() - Sits in an infinte loop until device //// |
.................... //// is enumerated. //// |
.................... //// //// |
.................... //// usb_tbe(endpoint) - Returns TRUE if the endpoint transmit buffer //// |
.................... //// is free and ready to accept a new packet for transmission. //// |
.................... //// //// |
.................... //// usb_put_packet(endpoint, ptr, len, tgl) - Sends one packet to the //// |
.................... //// host. If you need to send a message that //// |
.................... //// spans more than one packet then use //// |
.................... //// usb_puts(). Fore more detailed documentation //// |
.................... //// see usb_hw_layer.h //// |
.................... //// //// |
.................... //// usb_puts(endpoint, ptr, len, timeout) - Sends a multiple packet //// |
.................... //// message to the host. If you only need to send one packet, //// |
.................... //// it is more effecient to use usb_put_packet(). This is //// |
.................... //// documented in more detail above the prototype in USB.H. //// |
.................... //// //// |
.................... //// usb_kbhit(endpoint) - Returns true if OUT endpoint contains data //// |
.................... //// from host. This will remain TRUE until //// |
.................... //// usb_put_packet() or usb_flush_out() used. //// |
.................... //// This function will return an invalid response //// |
.................... //// if specified endpoint is not enabled for //// |
.................... //// receiving data. //// |
.................... //// //// |
.................... //// len = usb_get_packet(endpoint, ptr, max) - Gets one packet that //// |
.................... //// from the host/PC. usb_kbhit() must return TRUE before you //// |
.................... //// call this routine or your data may not be valid. This //// |
.................... //// only receives one packet, if you are trying to receive a //// |
.................... //// multi-packet message use usb_gets(). For more detailed //// |
.................... //// documentation see usb_hw_layer.h. //// |
.................... //// //// |
.................... //// len = usb_gets(endpoint, ptr, max, timeout) - Gets multiple //// |
.................... //// packets from the host, you would use this instead //// |
.................... //// of usb_get_packet() if you wanted to handle multi-packet //// |
.................... //// messages. This is documented in more detail above the //// |
.................... //// prototype in USB.H. //// |
.................... //// //// |
.................... //// //// |
.................... //// ********* DEFINITIONS / CONFIGURATION ********** //// |
.................... //// //// |
.................... //// The following definitions are declared here, but can be //// |
.................... //// overwritten in your code. Unless needed otherwise, leave //// |
.................... //// to default value. If confused about a definition read the //// |
.................... //// comments at each defintion //// |
.................... //// //// |
.................... //// USB_HID_IDLE (TRUE) - Set to TRUE if your device supports //// |
.................... //// Set_Idle HID class request. Set to //// |
.................... //// False if you do not (device will //// |
.................... //// send a Wrong-state if computer //// |
.................... //// sends a Set_Idle / Get_Idle command) //// |
.................... //// NOTE: If you set to TRUE you must //// |
.................... //// provide your own code. See //// |
.................... //// usb_isr_tkn_setup_ClassInterface() in //// |
.................... //// usb.c //// |
.................... //// //// |
.................... //// USB_HID_BOOT_PROTOCOL (FALSE) - Set to TRUE if your device supports //// |
.................... //// Set_Protocl HID class request. Set to //// |
.................... //// False if you do not (device will //// |
.................... //// send a Wrong-state if computer //// |
.................... //// sends a Set_Protocl / Get_Protocol //// |
.................... //// command). //// |
.................... //// NOTE: If you set to TRUE you must //// |
.................... //// provide your own code in the //// |
.................... //// application that properly send boot //// |
.................... //// or HID packets. //// |
.................... //// //// |
.................... //// USB_MAX_EP0_PACKET_LENGTH (8) - Max Packet size for Endpoint 0. //// |
.................... //// The hardware level driver (ex //// |
.................... //// pic18_usb.h will define this value if //// |
.................... //// not already overwritten). Increasing //// |
.................... //// this size will speed up the //// |
.................... //// enumeration process. //// |
.................... //// //// |
.................... //// USB_EPx_RX_ENABLE (USB_ENABLE_DISABLED) - Where x is the //// |
.................... //// endpoint number. Change this define //// |
.................... //// to specify what kind of transfer method //// |
.................... //// this RX (PC to device) endpoint uses. //// |
.................... //// Here is the list of valid transfer methods: //// |
.................... //// USB_ENABLE_CONTROL //// |
.................... //// USB_ENABLE_ISOCHRONOUS //// |
.................... //// USB_ENABLE_BULK //// |
.................... //// USB_ENABLE_INTERRUPT //// |
.................... //// USB_ENABLE_DISABLED //// |
.................... //// Don't forget that you must specify the //// |
.................... //// transfer method properly in your endpoint //// |
.................... //// descriptor, too. //// |
.................... //// //// |
.................... //// USB_EPx_RX_SIZE (0) - For some hardware it is important to know //// |
.................... //// how much memory to reserve for receiving //// |
.................... //// packets. //// |
.................... //// //// |
.................... //// *** NOTE *** You must have both USB_EPx_RX_ENABLE defined and //// |
.................... //// USB_EPx_RX_SIZE defined (non 0) to enable a RX //// |
.................... //// endpoint. //// |
.................... //// *** NOTE *** Endpoint 0 is always enabled. //// |
.................... //// //// |
.................... //// USB_EPx_TX_ENABLE (USB_ENABLE_DISABLED) - Where x is the //// |
.................... //// endpoint number. Change this define //// |
.................... //// to specify what kind of transfer method //// |
.................... //// this TX (device to PC) endpoint uses. //// |
.................... //// Here is the list of valid transfer methods: //// |
.................... //// USB_ENABLE_CONTROL //// |
.................... //// USB_ENABLE_ISOCHRONOUS //// |
.................... //// USB_ENABLE_BULK //// |
.................... //// USB_ENABLE_INTERRUPT //// |
.................... //// USB_ENABLE_DISABLED //// |
.................... //// Don't forget that you must specify the //// |
.................... //// transfer method properly in your endpoint //// |
.................... //// descriptor, too. //// |
.................... //// //// |
.................... //// USB_EPx_TX_SIZE (0) - For some hardware it is important to know //// |
.................... //// how much memory to reserve for transmitting //// |
.................... //// packets. //// |
.................... //// //// |
.................... //// *** NOTE *** You must have both USB_EPx_TX_ENABLE defined and //// |
.................... //// USB_EPx_TX_SIZE defined (non 0) to enable a TX //// |
.................... //// endpoint. //// |
.................... //// //// |
.................... //// //// |
.................... //// USB_HID_DEVICE (TRUE) - HID devices require extra code to handle //// |
.................... //// HID requests. You can disable to save //// |
.................... //// ROM space if you are not using a HID //// |
.................... //// device. If you are not using a HID //// |
.................... //// device you must provide your own O/S //// |
.................... //// (Windows) driver. //// |
.................... //// //// |
.................... //// The other definitions should not be changed. //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// Version History: //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... //// July 13th, 2005: //// |
.................... //// usb_ep_tx_size[] and usb_ep_rx_size[] changed to 16bits //// |
.................... //// //// |
.................... //// June 20th, 2005: //// |
.................... //// Initial 18fxx5x release //// |
.................... //// //// |
.................... //// May 13th, 2005: //// |
.................... //// Beta release, only works with 18Fxx5x hardware layer. //// |
.................... //// Now supports multiple interfaces (many defines in descriptors //// |
.................... //// will have to be changed, see examples) //// |
.................... //// //// |
.................... //// Mar 21st, 2005: //// |
.................... //// Initial Alpha Release with PIC18Fxx5x support. (ONLY TESTED //// |
.................... //// WITH 18F4550) //// |
.................... //// usb_gets() and usb_puts() changed (see usb.c) //// |
.................... //// //// |
.................... //// June 24th, 2004: //// |
.................... //// Optimization and cleanup. //// |
.................... //// The following definitions changed: //// |
.................... //// USB_EPx_TX_ENABLE and USB_EPx_RX_ENABLE have changed. See usb.h //// |
.................... //// USB_CONFIG_DESCRIPTORS[] removed //// |
.................... //// USB_CONFIG_DESC_LEN changed to USB_DESC_CONFIG_LEN //// |
.................... //// USB_INTERFACE_DESC_LEN changed to USB_DESC_INTERFACE_LEN //// |
.................... //// USB_CLASS_DESC_LEN changed to USB_DESC_CLASS_LEN //// |
.................... //// USB_ENDPOINT_DESC_LEN changed to USB_DESC_ENDPOINT_LEN //// |
.................... //// USB_CONFIG_DESC_KEY changed to USB_DESC_CONFIG_TYPE //// |
.................... //// USB_INTERFACE_DESC_KEY changed to USB_DESC_INTERFACE_TYPE //// |
.................... //// USB_CLASS_DESC_KEY changed to USB_DESC_CLASS_TYPE //// |
.................... //// USB_ENDPOINT_DESC_KEY changed to USB_DESC_ENDPOINT_TYPE //// |
.................... //// USB_STRING_X[] arrays removed, see USB_STRING_DESC[] and //// |
.................... //// USB_STRING_DESC_OFFSET[] //// |
.................... //// dev_req, curr_config, status_device and getdesc_type global //// |
.................... //// variables moved into struct USB_stack_status //// |
.................... //// //// |
.................... //// October 15th, 2003: Support for boot protocol added. //// |
.................... //// Set USB_HID_BOOT_PROTOCOL to TRUE to support this. //// |
.................... //// The array hid_protocol[] saves which protocol mode each //// |
.................... //// interface is in. It is your applications job to send //// |
.................... //// data that either fit the boot protocol or HID protocol. //// |
.................... //// //// |
.................... //// May 6th, 2003: Fixed a potential stack overflow using PCM //// |
.................... //// //// |
.................... //// October 29th, 2002: New definition added to USB_STATES //// |
.................... //// //// |
.................... //// August 2nd, 2002: Initial Public Release //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2009 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... |
.................... #IFNDEF __USB_PROTOTYPES__ |
.................... #DEFINE __USB_PROTOTYPES__ |
.................... |
.................... //// CONFIGURATION //////////////////////////////////////////////////////////// |
.................... |
.................... #ifndef USB_CON_SENSE_PIN |
.................... #define USB_CON_SENSE_PIN 0 |
.................... #endif |
.................... |
.................... #IFNDEF USB_HID_BOOT_PROTOCOL |
.................... #DEFINE USB_HID_BOOT_PROTOCOL FALSE |
.................... #ENDIF |
.................... |
.................... #IFNDEF USB_HID_IDLE |
.................... #DEFINE USB_HID_IDLE FALSE |
.................... #ENDIF |
.................... |
.................... //should the compiler add the extra HID handler code? Defaults to yes. |
.................... #IFNDEF USB_HID_DEVICE |
.................... #DEFINE USB_HID_DEVICE TRUE |
.................... #ENDIF |
.................... |
.................... #IFNDEF USB_CDC_DEVICE |
.................... #DEFINE USB_CDC_DEVICE FALSE |
.................... #ENDIF |
.................... |
.................... //set to false to opt for less RAM, true to opt for less ROM |
.................... #ifndef USB_OPT_FOR_ROM |
.................... #define USB_OPT_FOR_ROM TRUE |
.................... #endif |
.................... |
.................... #IFNDEF USB_MAX_EP0_PACKET_LENGTH |
.................... #DEFINE USB_MAX_EP0_PACKET_LENGTH 8 |
.................... #ENDIF |
.................... |
.................... |
.................... ////// USER-LEVEL API ///////////////////////////////////////////////////////// |
.................... |
.................... /************************************************************** |
.................... /* usb_enumerated() |
.................... /* |
.................... /* Input: Global variable USB_Curr_Config |
.................... /* Returns: Returns a 1 if device is configured / enumerated, |
.................... /* Returns a 0 if device is un-configured / not enumerated. |
.................... /* |
.................... /* Summary: See API section of USB.H for more documentation. |
.................... /***************************************************************/ |
.................... int1 usb_enumerated(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_wait_for_enumeration() |
.................... /* |
.................... /* Input: Global variable USB_Curr_Config |
.................... /* |
.................... /* Summary: Waits in-definately until device is configured / enumerated. |
.................... /* See API section of USB.H for more information. |
.................... /***************************************************************/ |
.................... void usb_wait_for_enumeration(void); |
.................... |
.................... /**************************************************************************** |
.................... /* usb_gets(endpoint, ptr, max, timeout) |
.................... /* |
.................... /* Input: endpoint - endpoint to get data from |
.................... /* ptr - place / array to store data to |
.................... /* max - max amount of data to get from USB and store into ptr |
.................... /* timeout - time in milliseconds, for each packet, to wait before |
.................... /* timeout. set to 0 for no timeout. |
.................... /* |
.................... /* Output: Amount of data returned. It may be less than max. |
.................... /* |
.................... /* Summary: Gets data from the host. Will get multiple-packet messages |
.................... /* and finish when either it receives a 0-len packet or a packet |
.................... /* of less size than maximum. |
.................... /* |
.................... /*****************************************************************************/ |
.................... unsigned int16 usb_gets(int8 endpoint, int8 * ptr, unsigned int16 max, unsigned int16 timeout); |
.................... |
.................... /**************************************************************************** |
.................... /* usb_puts() |
.................... /* |
.................... /* Inputs: endpoint - endpoint to send data out |
.................... /* ptr - points to array of data to send |
.................... /* len - amount of data to send |
.................... /* timeout - time in milli-seconds, for each packet, to wait before |
.................... /* timeout. set to 0 for no timeout. |
.................... /* |
.................... /* Outputs: Returns TRUE if message sent succesfully, FALSE if it was not |
.................... /* sent before timeout period expired. |
.................... /* |
.................... /* Summary: Used for sending multiple packets of data as one message. This |
.................... /* function can still be used to send messages consiting of only one |
.................... /* packet. See usb_put_packet() documentation for the rules about when |
.................... /* multiple packet messages or 0-lenght packets are needed. |
.................... /* |
.................... /*****************************************************************************/ |
.................... int1 usb_puts(int8 endpoint, int8 * ptr, unsigned int16 len, unsigned int8 timeout); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_attached() |
.................... /* |
.................... /* Summary: Returns TRUE if the device is attached to a USB cable. |
.................... /* See the API section of USB.H for more documentation. |
.................... /* |
.................... /*****************************************************************************/ |
.................... #if USB_CON_SENSE_PIN |
.................... #define usb_attached() input(USB_CON_SENSE_PIN) |
.................... #else |
.................... #define usb_attached() TRUE |
.................... #endif |
.................... |
.................... ////// END USER-LEVEL API ///////////////////////////////////////////////////// |
.................... |
.................... |
.................... ////// STACK-LEVEL API USED BY HW DRIVERS //////////////////////////////////// |
.................... |
.................... enum USB_STATES {GET_DESCRIPTOR=1,SET_ADDRESS=2,NONE=0}; |
.................... |
.................... enum USB_GETDESC_TYPES {USB_GETDESC_CONFIG_TYPE=0,USB_GETDESC_HIDREPORT_TYPE=1,USB_GETDESC_STRING_TYPE=2,USB_GETDESC_DEVICE_TYPE=3}; |
.................... |
.................... #if USB_OPT_FOR_ROM |
.................... typedef struct { |
.................... USB_STATES dev_req; //what did the last setup token set us up to do?. init at none |
.................... int curr_config; //our current config. start at none/powered (NOT THAT THIS LIMITS US TO 3 CONFIGURATIONS) |
.................... int status_device; //Holds our state for Set_Feature and Clear_Feature |
.................... USB_GETDESC_TYPES getdesc_type; //which get_descriptor() we are handling |
.................... } TYPE_USB_STACK_STATUS; |
.................... #else |
.................... typedef struct { |
.................... USB_STATES dev_req:2; //what did the last setup token set us up to do?. init at none |
.................... int Curr_config:2; //our current config. start at none/powered (NOT THAT THIS LIMITS US TO 3 CONFIGURATIONS) |
.................... int status_device:2; //Holds our state for Set_Feature and Clear_Feature |
.................... USB_GETDESC_TYPES getdesc_type:2; //which get_descriptor() we are handling |
.................... } TYPE_USB_STACK_STATUS; |
.................... #endif |
.................... |
.................... extern TYPE_USB_STACK_STATUS USB_stack_status; |
.................... |
.................... /************************************************************** |
.................... /* usb_token_reset() |
.................... /* |
.................... /* Output: No output (but many global registers are modified) |
.................... /* |
.................... /* Summary: Resets the token handler to initial (unconfigured) state. |
.................... /***************************************************************/ |
.................... void usb_token_reset(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_setup_dne() |
.................... /* |
.................... /* Input: usb_ep0_rx_buffer[] contains the the setup packet. |
.................... /* |
.................... /* Output: None (many globals are changed) |
.................... /* |
.................... /* Summary: This function is that handles the setup token. |
.................... /* We must handle all relevant requests, such as Set_Configuration, |
.................... /* Get_Descriptor, etc. |
.................... /* |
.................... /* usb_ep0_rx_buffer[] contains setup data packet, which has the |
.................... /* following records: |
.................... /* ------------------------------------------------------------------------------------------- |
.................... /* usb_ep0_rx_buffer[ 0 ]=bmRequestType; Where the setup packet goes |
.................... /* bit7 (0) host-to-device |
.................... /* (1) device-to-host |
.................... /* bit6-5 (00) usb standard request; |
.................... /* (01) class request; |
.................... /* (10) vendor request |
.................... /* (11) reserved |
.................... /* bit4-0 (0000) device |
.................... /* (0001) interface |
.................... /* (0010) endpoint |
.................... /* (0011) other element |
.................... /* (0100) to (1111) reserved |
.................... /* usb_ep0_rx_buffer[ 1 ]=bRequest ; the request |
.................... /* usb_ep0_rx_buffer[2,3]=wValue ; a value which corresponds to request |
.................... /* usb_ep0_rx_buffer[4,5]=wIndex ; could correspond to interface or endpoint... |
.................... /* usb_ep0_rx_buffer[6,7]=wLength ; number of bytes in next data packet; |
.................... /* for host-to-device, this exactly how many bytes in data packet. |
.................... /* for device-to-host, this is the maximum bytes that can fit one packet. |
.................... /***************************************************************/ |
.................... void usb_isr_tok_setup_dne(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_out_dne() |
.................... /* |
.................... /* Input: endpoint contains which endpoint we are receiving data (0..15) |
.................... /* |
.................... /* Summary: Processes out tokens (out is respective of the host, so actualy |
.................... /* incoming to the pic), but not out setup tokens. Normally when |
.................... /* data is received it is left in the buffer (user would use |
.................... /* usb_kbhit() and usb_get_packet() to receive data), but certain |
.................... /* libraries (like CDC) have to answer setup packets. |
.................... /* |
.................... /***************************************************************/ |
.................... void usb_isr_tok_out_dne(int8 endpoint); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_in_dne(endpoint) |
.................... /* |
.................... /* Input: endpoint - which endpoint we are processing a setup token. |
.................... /* |
.................... /* Summary: This handles an IN packet (HOST <- PIC). For endpoint 0, this |
.................... /* is usually to setup a response packet to a setup packet. Endpoints 1..15 |
.................... /* are generally ignored, and the user has to use usb_tbe() to determine if |
.................... /* if the buffer is ready for a new transmit packet (there are special cases, |
.................... /* like CDC which handles the CDC protocl). |
.................... /* |
.................... /***************************************************************/ |
.................... void usb_isr_tok_in_dne(int8 endpoint); |
.................... |
.................... ////// END STACK-LEVEL API USED BY HW DRIVERS ///////////////////////////////// |
.................... |
.................... |
.................... //CCS only supports one configuration at this time |
.................... #DEFINE USB_NUM_CONFIGURATIONS 1 //DO NOT CHANGE |
.................... |
.................... //PID values for tokens (see page 48 of USB Complete ed.1) |
.................... #define PID_IN 0x09 //device to host transactions |
.................... #define PID_OUT 0x01 //host to device transactions |
.................... #define PID_SETUP 0x0D //host to device setup transaction |
.................... #define PID_ACK 0x02 //receiver accepts error-free data packet |
.................... #define PID_DATA0 0x03 //data packet with even sync bit |
.................... #define PID_SOF 0x05 //start of framer marker and frame number |
.................... #define PID_NAK 0x0A //receiver can't accept data or sender cant send data or has no data to transmit |
.................... #define PID_DATA1 0x0B //data packet with odd sync bit |
.................... #define PID_PRE 0x0C //preamble issued by host. enables downstream traffic to low-speed device |
.................... #define PID_STALL 0x0E //a control request isnt supported or the endpoint is halted |
.................... |
.................... //Key which identifies descritpors |
.................... #DEFINE USB_DESC_DEVICE_TYPE 0x01 //#DEFINE USB_DEVICE_DESC_KEY 0x01 |
.................... #DEFINE USB_DESC_CONFIG_TYPE 0x02 //#DEFINE USB_CONFIG_DESC_KEY 0x02 |
.................... #DEFINE USB_DESC_STRING_TYPE 0x03 //#DEFINE USB_STRING_DESC_KEY 0x03 |
.................... #DEFINE USB_DESC_INTERFACE_TYPE 0x04 //#DEFINE USB_INTERFACE_DESC_KEY 0x04 |
.................... #DEFINE USB_DESC_ENDPOINT_TYPE 0x05 //#DEFINE USB_ENDPOINT_DESC_KEY 0x05 |
.................... #DEFINE USB_DESC_CLASS_TYPE 0x21 //#DEFINE USB_CLASS_DESC_KEY 0x21 |
.................... #DEFINE USB_DESC_HIDREPORT_TYPE 0x22 |
.................... |
.................... //The length of each descriptor |
.................... #DEFINE USB_DESC_DEVICE_LEN 18 //#DEFINE USB_DEVICE_DESC_LEN 18 |
.................... #DEFINE USB_DESC_CONFIG_LEN 9 //#DEFINE USB_CONFIG_DESC_LEN 9 |
.................... #DEFINE USB_DESC_INTERFACE_LEN 9 //#DEFINE USB_INTERFACE_DESC_LEN 9 |
.................... #DEFINE USB_DESC_CLASS_LEN 9 //#DEFINE USB_CLASS_DESC_LEN 9 |
.................... #DEFINE USB_DESC_ENDPOINT_LEN 7 //#DEFINE USB_ENDPOINT_DESC_LEN 7 |
.................... |
.................... //Standard USB Setup bRequest Codes |
.................... #define USB_STANDARD_REQUEST_GET_STATUS 0x00 |
.................... #define USB_STANDARD_REQUEST_CLEAR_FEATURE 0x01 |
.................... #define USB_STANDARD_REQUEST_SET_FEATURE 0x03 |
.................... #define USB_STANDARD_REQUEST_SET_ADDRESS 0x05 |
.................... #define USB_STANDARD_REQUEST_GET_DESCRIPTOR 0x06 |
.................... #define USB_STANDARD_REQUEST_SET_DESCRIPTOR 0x07 |
.................... #define USB_STANDARD_REQUEST_GET_CONFIGURATION 0x08 |
.................... #define USB_STANDARD_REQUEST_SET_CONFIGURATION 0x09 |
.................... #define USB_STANDARD_REQUEST_GET_INTERFACE 0x0A |
.................... #define USB_STANDARD_REQUEST_SET_INTERFACE 0x0B |
.................... #define USB_STANDARD_REQUEST_SYNCH_FRAME 0x0C |
.................... |
.................... //HID Class Setup bRequest Codes |
.................... #define USB_HID_REQUEST_GET_REPORT 0x01 |
.................... #define USB_HID_REQUEST_GET_IDLE 0x02 |
.................... #define USB_HID_REQUEST_GET_PROTOCOL 0x03 |
.................... #define USB_HID_REQUEST_SET_REPORT 0x09 |
.................... #define USB_HID_REQUEST_SET_IDLE 0x0A |
.................... #define USB_HID_REQUEST_SET_PROTOCOL 0x0B |
.................... |
.................... //types of endpoints as defined in the descriptor |
.................... #define USB_ENDPOINT_TYPE_CONTROL 0x00 |
.................... #define USB_ENDPOINT_TYPE_ISOCHRONOUS 0x01 |
.................... #define USB_ENDPOINT_TYPE_BULK 0x02 |
.................... #define USB_ENDPOINT_TYPE_INTERRUPT 0x03 |
.................... |
.................... //types of endpoints used internally in this api |
.................... #define USB_ENABLE_DISABLED -1 |
.................... #define USB_ENABLE_BULK USB_ENDPOINT_TYPE_BULK |
.................... #define USB_ENABLE_ISOCHRONOUS USB_ENDPOINT_TYPE_ISOCHRONOUS |
.................... #define USB_ENABLE_INTERRUPT USB_ENDPOINT_TYPE_INTERRUPT |
.................... #define USB_ENABLE_CONTROL USB_ENDPOINT_TYPE_CONTROL |
.................... |
.................... |
.................... //*** ENABLE RX ENDPOINTS AND BUFFERS |
.................... |
.................... //--------- endpoint 0 defines ---------- |
.................... #define USB_EP0_TX_ENABLE USB_ENABLE_CONTROL |
.................... #define USB_EP0_RX_ENABLE USB_ENABLE_CONTROL |
.................... #define USB_EP0_RX_SIZE USB_MAX_EP0_PACKET_LENGTH //endpoint 0 is setup, and should always be the MAX_PACKET_LENGTH. Slow speed specifies 8 |
.................... #define USB_EP0_TX_SIZE USB_MAX_EP0_PACKET_LENGTH //endpoint 0 is setup, and should always be the MAX_PACKET_LENGTH. Slow speed specifies 8 |
.................... |
.................... //--------- endpoint 1 defines ---------- |
.................... #ifndef USB_EP1_TX_ENABLE |
.................... #define USB_EP1_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP1_RX_ENABLE |
.................... #define USB_EP1_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP1_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP1_RX_SIZE |
.................... #undef USB_EP1_RX_SIZE |
.................... #endif |
.................... #define USB_EP1_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP1_RX_SIZE |
.................... #error You enabled EP1 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP1_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP1_TX_SIZE |
.................... #undef USB_EP1_TX_SIZE |
.................... #endif |
.................... #define USB_EP1_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP1_TX_SIZE |
.................... #error You enabled EP1 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 2 defines ---------- |
.................... #ifndef USB_EP2_TX_ENABLE |
.................... #define USB_EP2_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP2_RX_ENABLE |
.................... #define USB_EP2_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP2_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP2_RX_SIZE |
.................... #undef USB_EP2_RX_SIZE |
.................... #endif |
.................... #define USB_EP2_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP2_RX_SIZE |
.................... #error You enabled EP2 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP2_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP2_TX_SIZE |
.................... #undef USB_EP2_TX_SIZE |
.................... #endif |
.................... #define USB_EP2_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP2_TX_SIZE |
.................... #error You enabled EP2 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 3 defines ---------- |
.................... #ifndef USB_EP3_TX_ENABLE |
.................... #define USB_EP3_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP3_RX_ENABLE |
.................... #define USB_EP3_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP3_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP3_RX_SIZE |
.................... #undef USB_EP3_RX_SIZE |
.................... #endif |
.................... #define USB_EP3_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP3_RX_SIZE |
.................... #error You enabled EP3 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP3_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP3_TX_SIZE |
.................... #undef USB_EP3_TX_SIZE |
.................... #endif |
.................... #define USB_EP3_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP3_TX_SIZE |
.................... #error You enabled EP3 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 4 defines ---------- |
.................... #ifndef USB_EP4_TX_ENABLE |
.................... #define USB_EP4_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP4_RX_ENABLE |
.................... #define USB_EP4_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP4_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP4_RX_SIZE |
.................... #undef USB_EP4_RX_SIZE |
.................... #endif |
.................... #define USB_EP4_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP4_RX_SIZE |
.................... #error You enabled EP4 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP4_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP4_TX_SIZE |
.................... #undef USB_EP4_TX_SIZE |
.................... #endif |
.................... #define USB_EP4_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP4_TX_SIZE |
.................... #error You enabled EP4 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 5 defines ---------- |
.................... #ifndef USB_EP5_TX_ENABLE |
.................... #define USB_EP5_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP5_RX_ENABLE |
.................... #define USB_EP5_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP5_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP5_RX_SIZE |
.................... #undef USB_EP5_RX_SIZE |
.................... #endif |
.................... #define USB_EP5_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP5_RX_SIZE |
.................... #error You enabled EP5 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP5_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP5_TX_SIZE |
.................... #undef USB_EP5_TX_SIZE |
.................... #endif |
.................... #define USB_EP5_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP5_TX_SIZE |
.................... #error You enabled EP5 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 6 defines ---------- |
.................... #ifndef USB_EP6_TX_ENABLE |
.................... #define USB_EP6_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP6_RX_ENABLE |
.................... #define USB_EP6_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP6_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP6_RX_SIZE |
.................... #undef USB_EP6_RX_SIZE |
.................... #endif |
.................... #define USB_EP6_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP6_RX_SIZE |
.................... #error You enabled EP6 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP6_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP6_TX_SIZE |
.................... #undef USB_EP6_TX_SIZE |
.................... #endif |
.................... #define USB_EP6_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP6_TX_SIZE |
.................... #error You enabled EP6 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 7 defines ---------- |
.................... #ifndef USB_EP7_TX_ENABLE |
.................... #define USB_EP7_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP7_RX_ENABLE |
.................... #define USB_EP7_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP7_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP7_RX_SIZE |
.................... #undef USB_EP7_RX_SIZE |
.................... #endif |
.................... #define USB_EP7_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP7_RX_SIZE |
.................... #error You enabled EP7 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP7_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP7_TX_SIZE |
.................... #undef USB_EP7_TX_SIZE |
.................... #endif |
.................... #define USB_EP7_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP7_TX_SIZE |
.................... #error You enabled EP7 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 8 defines ---------- |
.................... #ifndef USB_EP8_TX_ENABLE |
.................... #define USB_EP8_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP8_RX_ENABLE |
.................... #define USB_EP8_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP8_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP8_RX_SIZE |
.................... #undef USB_EP8_RX_SIZE |
.................... #endif |
.................... #define USB_EP8_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP8_RX_SIZE |
.................... #error You enabled EP8 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP8_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP8_TX_SIZE |
.................... #undef USB_EP8_TX_SIZE |
.................... #endif |
.................... #define USB_EP8_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP8_TX_SIZE |
.................... #error You enabled EP8 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 9 defines ---------- |
.................... #ifndef USB_EP9_TX_ENABLE |
.................... #define USB_EP9_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP9_RX_ENABLE |
.................... #define USB_EP9_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP9_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP9_RX_SIZE |
.................... #undef USB_EP9_RX_SIZE |
.................... #endif |
.................... #define USB_EP9_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP9_RX_SIZE |
.................... #error You enabled EP9 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP9_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP9_TX_SIZE |
.................... #undef USB_EP9_TX_SIZE |
.................... #endif |
.................... #define USB_EP9_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP9_TX_SIZE |
.................... #error You enabled EP9 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 10 defines ---------- |
.................... #ifndef USB_EP10_TX_ENABLE |
.................... #define USB_EP10_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP10_RX_ENABLE |
.................... #define USB_EP10_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP10_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP10_RX_SIZE |
.................... #undef USB_EP10_RX_SIZE |
.................... #endif |
.................... #define USB_EP10_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP10_RX_SIZE |
.................... #error You enabled EP10 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP10_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP10_TX_SIZE |
.................... #undef USB_EP10_TX_SIZE |
.................... #endif |
.................... #define USB_EP10_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP10_TX_SIZE |
.................... #error You enabled EP10 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 11 defines ---------- |
.................... #ifndef USB_EP11_TX_ENABLE |
.................... #define USB_EP11_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP11_RX_ENABLE |
.................... #define USB_EP11_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP11_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP11_RX_SIZE |
.................... #undef USB_EP11_RX_SIZE |
.................... #endif |
.................... #define USB_EP11_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP11_RX_SIZE |
.................... #error You enabled EP11 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP11_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP11_TX_SIZE |
.................... #undef USB_EP11_TX_SIZE |
.................... #endif |
.................... #define USB_EP11_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP11_TX_SIZE |
.................... #error You enabled EP11 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 12 defines ---------- |
.................... #ifndef USB_EP12_TX_ENABLE |
.................... #define USB_EP12_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP12_RX_ENABLE |
.................... #define USB_EP12_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP12_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP12_RX_SIZE |
.................... #undef USB_EP12_RX_SIZE |
.................... #endif |
.................... #define USB_EP12_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP12_RX_SIZE |
.................... #error You enabled EP12 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP12_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP12_TX_SIZE |
.................... #undef USB_EP12_TX_SIZE |
.................... #endif |
.................... #define USB_EP12_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP12_TX_SIZE |
.................... #error You enabled EP12 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 13 defines ---------- |
.................... #ifndef USB_EP13_TX_ENABLE |
.................... #define USB_EP13_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP13_RX_ENABLE |
.................... #define USB_EP13_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP13_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP13_RX_SIZE |
.................... #undef USB_EP13_RX_SIZE |
.................... #endif |
.................... #define USB_EP13_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP13_RX_SIZE |
.................... #error You enabled EP13 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP13_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP13_TX_SIZE |
.................... #undef USB_EP13_TX_SIZE |
.................... #endif |
.................... #define USB_EP13_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP13_TX_SIZE |
.................... #error You enabled EP13 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 14 defines ---------- |
.................... #ifndef USB_EP14_TX_ENABLE |
.................... #define USB_EP14_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP14_RX_ENABLE |
.................... #define USB_EP14_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP14_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP14_RX_SIZE |
.................... #undef USB_EP14_RX_SIZE |
.................... #endif |
.................... #define USB_EP14_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP14_RX_SIZE |
.................... #error You enabled EP14 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP14_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP14_TX_SIZE |
.................... #undef USB_EP14_TX_SIZE |
.................... #endif |
.................... #define USB_EP14_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP14_TX_SIZE |
.................... #error You enabled EP14 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 15 defines ---------- |
.................... #ifndef USB_EP15_TX_ENABLE |
.................... #define USB_EP15_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP15_RX_ENABLE |
.................... #define USB_EP15_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP15_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP15_RX_SIZE |
.................... #undef USB_EP15_RX_SIZE |
.................... #endif |
.................... #define USB_EP15_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP15_RX_SIZE |
.................... #error You enabled EP15 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP15_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP15_TX_SIZE |
.................... #undef USB_EP15_TX_SIZE |
.................... #endif |
.................... #define USB_EP15_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP15_TX_SIZE |
.................... #error You enabled EP15 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... const int8 usb_ep_tx_type[16]={ |
.................... USB_EP0_TX_ENABLE, USB_EP1_TX_ENABLE, USB_EP2_TX_ENABLE, |
.................... USB_EP3_TX_ENABLE, USB_EP4_TX_ENABLE, USB_EP5_TX_ENABLE, |
.................... USB_EP6_TX_ENABLE, USB_EP7_TX_ENABLE, USB_EP8_TX_ENABLE, |
.................... USB_EP9_TX_ENABLE, USB_EP10_TX_ENABLE, USB_EP11_TX_ENABLE, |
.................... USB_EP12_TX_ENABLE, USB_EP13_TX_ENABLE, USB_EP14_TX_ENABLE, |
.................... USB_EP15_TX_ENABLE |
.................... }; |
.................... |
.................... const int8 usb_ep_rx_type[16]={ |
.................... USB_EP0_RX_ENABLE, USB_EP1_RX_ENABLE, USB_EP2_RX_ENABLE, |
.................... USB_EP3_RX_ENABLE, USB_EP4_RX_ENABLE, USB_EP5_RX_ENABLE, |
.................... USB_EP6_RX_ENABLE, USB_EP7_RX_ENABLE, USB_EP8_RX_ENABLE, |
.................... USB_EP9_RX_ENABLE, USB_EP10_RX_ENABLE, USB_EP11_RX_ENABLE, |
.................... USB_EP12_RX_ENABLE, USB_EP13_RX_ENABLE, USB_EP14_RX_ENABLE, |
.................... USB_EP15_RX_ENABLE |
.................... }; |
.................... |
.................... const unsigned int16 usb_ep_tx_size[16]={ |
.................... USB_EP0_TX_SIZE, USB_EP1_TX_SIZE, USB_EP2_TX_SIZE, |
.................... USB_EP3_TX_SIZE, USB_EP4_TX_SIZE, USB_EP5_TX_SIZE, |
.................... USB_EP6_TX_SIZE, USB_EP7_TX_SIZE, USB_EP8_TX_SIZE, |
.................... USB_EP9_TX_SIZE, USB_EP10_TX_SIZE, USB_EP11_TX_SIZE, |
.................... USB_EP12_TX_SIZE, USB_EP13_TX_SIZE, USB_EP14_TX_SIZE, |
.................... USB_EP15_TX_SIZE |
.................... }; |
.................... |
.................... const unsigned int16 usb_ep_rx_size[16]={ |
.................... USB_EP0_RX_SIZE, USB_EP1_RX_SIZE, USB_EP2_RX_SIZE, |
.................... USB_EP3_RX_SIZE, USB_EP4_RX_SIZE, USB_EP5_RX_SIZE, |
.................... USB_EP6_RX_SIZE, USB_EP7_RX_SIZE, USB_EP8_RX_SIZE, |
.................... USB_EP9_RX_SIZE, USB_EP10_RX_SIZE, USB_EP11_RX_SIZE, |
.................... USB_EP12_RX_SIZE, USB_EP13_RX_SIZE, USB_EP14_RX_SIZE, |
.................... USB_EP15_RX_SIZE |
.................... }; |
.................... |
.................... #ENDIF |
.................... |
.................... |
.................... #if defined(__PIC16_USB_H__) |
.................... #include <pic_usb.c> |
.................... #endif |
.................... |
.................... #if defined(__PIC18_USB_H__) |
.................... #include <pic18_usb.c> |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// pic18_usb.c //// |
.................... //// //// |
.................... //// Hardware layer for CCS's USB library. See pic18_usb.h more //// |
.................... //// documentation about the PIC18 hardware layer. //// |
.................... //// //// |
.................... //// This file is part of CCS's PIC USB driver code. See USB.H //// |
.................... //// for more documentation and a list of examples. //// |
.................... //// //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// Version History: //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// 18F14K50 family added. //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... //// Nov 3rd, 2008: //// |
.................... //// * 4553 family added. //// |
.................... //// //// |
.................... //// Dec 18, 2007: //// |
.................... //// * usb_kbhit() moved to device driver. //// |
.................... //// * USB Token handler changed to workaround a flaw in the USB //// |
.................... //// peripheral to prevent the USB peripheral from //// |
.................... //// inadvertantly STALLing the endpoint. Happened most often //// |
.................... //// in bulk demo applications, especially CDC. //// |
.................... //// //// |
.................... //// 11-6-07: Fixed a bug where usb_data_buffer[] was reserving //// |
.................... //// too much RAM. //// |
.................... //// USB_MAX_EP0_PACKET_LENGTH value can be overwritten. //// |
.................... //// For the 18F4450/2450 family this should be 8 //// |
.................... //// because of limited RAM. Reducing this value //// |
.................... //// frees RAM for application. //// |
.................... //// Based upon which endpoints have been configured for //// |
.................... //// use, will free up unused USB data RAM for //// |
.................... //// application dynamically. This should free up //// |
.................... //// at least 128 bytes of RAM. //// |
.................... //// CDC now fits on a 18F4450/2450 //// |
.................... //// //// |
.................... //// 09-19-07: Fixed problems with 18F4450 family. //// |
.................... //// //// |
.................... //// 07-17-07: Added 18F4450,2450 support //// |
.................... //// //// |
.................... //// 07-13-07: Added 87J50 family support //// |
.................... //// //// |
.................... //// 11-01-05: usb_detach(), usb_attach() and usb_init_cs() //// |
.................... //// changed for the better. //// |
.................... //// //// |
.................... //// 10-28-05: Added usb_rx_packet_size() //// |
.................... //// //// |
.................... //// 07-13-05: usb_put_packet() changed for 16bit packet sizes //// |
.................... //// usb_flush_in() changed for 16bit packet sizes //// |
.................... //// usb_get_packet() changed for 16bit packet sizes //// |
.................... //// usb_flush_out() changed for 16bit packet sizes //// |
.................... //// usb_set_configured() changed for 16bit packet sizes //// |
.................... //// //// |
.................... //// 06-30-05: usb_tbe() added //// |
.................... //// The way endpoint 0 DTS is set has been changed. //// |
.................... //// //// |
.................... //// 06-20-05: Initial Release //// |
.................... //// //// |
.................... //// 05-13-05: Beta Release (Full Speed works) //// |
.................... //// //// |
.................... //// 03-21-05: Initial Alpha Release //// |
.................... //// //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2009 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... ///////////////////////////////////////////////////////////////////////// |
.................... |
.................... #IFNDEF __PIC18_USB_C__ |
.................... #DEFINE __PIC18_USB_C__ |
.................... |
.................... #INCLUDE <usb.h> |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// usb.h //// |
.................... //// //// |
.................... //// Function protypes, defintions and globals used by CCS USB driver //// |
.................... //// //// |
.................... //// This file is part of CCS's USB driver code //// |
.................... //// //// |
.................... //// The following USB examples are provided by CCS: //// |
.................... //// ex_usb_mouse.c - A HID Mouse. //// |
.................... //// ex_usb_hid.c - A custom application using HID protocol. //// |
.................... //// ex_usb_kbmouse.c - A HID Mouse/Keyboard combo using multiple //// |
.................... //// interfaces. //// |
.................... //// ex_usb_kbmouse2.c - A HID Mouse/Keyboard combo using multiple //// |
.................... //// HID Reports. //// |
.................... //// ex_usb_scope.c - A digital oscilloscope using a custom //// |
.................... //// protocol requiring custom Windows drivers. //// |
.................... //// ex_usb_serial.c - //// |
.................... //// ex_usb_serial2.c - Two examples of using the CDC driver for //// |
.................... //// a virtual COM port. //// |
.................... //// ex_usb_bootloader.c - CDC/Virtual COM port bootloader. //// |
.................... //// ex_usb_loadmouse.c - A conversion of ex_usb_mouse.c that is //// |
.................... //// compatible with ex_usb_mouse.c. //// |
.................... //// //// |
.................... //// ********************** API ********************* //// |
.................... //// //// |
.................... //// These are the functions that are meant to be called by the user: //// |
.................... //// //// |
.................... //// usb_init() - Initializes the USB stack, the USB peripheral and //// |
.................... //// attaches the unit to the usb bus. Enables //// |
.................... //// interrupts. Will wait in an infinite loop until //// |
.................... //// the device enumerates - if you are using //// |
.................... //// connection sense or if the processor should run //// |
.................... //// even if it's not connected to USB then use //// |
.................... //// usb_init_cs() instead. //// |
.................... //// //// |
.................... //// usb_init_cs() - A smaller usb_init(), does not attach unit //// |
.................... //// to usb bus or enable interrupts. Since this does //// |
.................... //// not attach to the USB, you must periodically call //// |
.................... //// usb_task(). See usb_task() for more information. //// |
.................... //// //// |
.................... //// usb_task() - If usb_init_cs() was used to initiate the USB //// |
.................... //// peripheral, usb_task() should then be called periodically //// |
.................... //// to check the connection sense pin. If the connection //// |
.................... //// sense pin denotes USB is connected and the USB peripheral //// |
.................... //// is not attached, this will attach the USB peripheral //// |
.................... //// so the PC can start the enumeration process (and it //// |
.................... //// will enable interrupts). If the connection sense pin //// |
.................... //// denotes USB is not attached and the USB peripheral is //// |
.................... //// running, this will reset the USB peripheral and wait //// |
.................... //// for USB to reconnect (and usb_enumerated() will start //// |
.................... //// returning FALSE). If connection sense (USB_CON_SENSE_PIN) //// |
.................... //// is not defined the usb_task() assumes that USB is always //// |
.................... //// connected. //// |
.................... //// //// |
.................... //// usb_attached() - Returns TRUE if the device is attached to a //// |
.................... //// USB cable. A macro that looks at the defined //// |
.................... //// connection sense pin. If this returns TRUE //// |
.................... //// it does not mean the PC has connected to it, //// |
.................... //// you need to use usb_enumerated() to check this. //// |
.................... //// //// |
.................... //// usb_enumerated() - Returns TRUE if device has been enumerated //// |
.................... //// (configured) by host, FALSE if it has not. //// |
.................... //// Do not try to use the USB peripheral for //// |
.................... //// sending and receiving packets until you //// |
.................... //// are enumerated. //// |
.................... //// //// |
.................... //// usb_wait_for_enumeration() - Sits in an infinte loop until device //// |
.................... //// is enumerated. //// |
.................... //// //// |
.................... //// usb_tbe(endpoint) - Returns TRUE if the endpoint transmit buffer //// |
.................... //// is free and ready to accept a new packet for transmission. //// |
.................... //// //// |
.................... //// usb_put_packet(endpoint, ptr, len, tgl) - Sends one packet to the //// |
.................... //// host. If you need to send a message that //// |
.................... //// spans more than one packet then use //// |
.................... //// usb_puts(). Fore more detailed documentation //// |
.................... //// see usb_hw_layer.h //// |
.................... //// //// |
.................... //// usb_puts(endpoint, ptr, len, timeout) - Sends a multiple packet //// |
.................... //// message to the host. If you only need to send one packet, //// |
.................... //// it is more effecient to use usb_put_packet(). This is //// |
.................... //// documented in more detail above the prototype in USB.H. //// |
.................... //// //// |
.................... //// usb_kbhit(endpoint) - Returns true if OUT endpoint contains data //// |
.................... //// from host. This will remain TRUE until //// |
.................... //// usb_put_packet() or usb_flush_out() used. //// |
.................... //// This function will return an invalid response //// |
.................... //// if specified endpoint is not enabled for //// |
.................... //// receiving data. //// |
.................... //// //// |
.................... //// len = usb_get_packet(endpoint, ptr, max) - Gets one packet that //// |
.................... //// from the host/PC. usb_kbhit() must return TRUE before you //// |
.................... //// call this routine or your data may not be valid. This //// |
.................... //// only receives one packet, if you are trying to receive a //// |
.................... //// multi-packet message use usb_gets(). For more detailed //// |
.................... //// documentation see usb_hw_layer.h. //// |
.................... //// //// |
.................... //// len = usb_gets(endpoint, ptr, max, timeout) - Gets multiple //// |
.................... //// packets from the host, you would use this instead //// |
.................... //// of usb_get_packet() if you wanted to handle multi-packet //// |
.................... //// messages. This is documented in more detail above the //// |
.................... //// prototype in USB.H. //// |
.................... //// //// |
.................... //// //// |
.................... //// ********* DEFINITIONS / CONFIGURATION ********** //// |
.................... //// //// |
.................... //// The following definitions are declared here, but can be //// |
.................... //// overwritten in your code. Unless needed otherwise, leave //// |
.................... //// to default value. If confused about a definition read the //// |
.................... //// comments at each defintion //// |
.................... //// //// |
.................... //// USB_HID_IDLE (TRUE) - Set to TRUE if your device supports //// |
.................... //// Set_Idle HID class request. Set to //// |
.................... //// False if you do not (device will //// |
.................... //// send a Wrong-state if computer //// |
.................... //// sends a Set_Idle / Get_Idle command) //// |
.................... //// NOTE: If you set to TRUE you must //// |
.................... //// provide your own code. See //// |
.................... //// usb_isr_tkn_setup_ClassInterface() in //// |
.................... //// usb.c //// |
.................... //// //// |
.................... //// USB_HID_BOOT_PROTOCOL (FALSE) - Set to TRUE if your device supports //// |
.................... //// Set_Protocl HID class request. Set to //// |
.................... //// False if you do not (device will //// |
.................... //// send a Wrong-state if computer //// |
.................... //// sends a Set_Protocl / Get_Protocol //// |
.................... //// command). //// |
.................... //// NOTE: If you set to TRUE you must //// |
.................... //// provide your own code in the //// |
.................... //// application that properly send boot //// |
.................... //// or HID packets. //// |
.................... //// //// |
.................... //// USB_MAX_EP0_PACKET_LENGTH (8) - Max Packet size for Endpoint 0. //// |
.................... //// The hardware level driver (ex //// |
.................... //// pic18_usb.h will define this value if //// |
.................... //// not already overwritten). Increasing //// |
.................... //// this size will speed up the //// |
.................... //// enumeration process. //// |
.................... //// //// |
.................... //// USB_EPx_RX_ENABLE (USB_ENABLE_DISABLED) - Where x is the //// |
.................... //// endpoint number. Change this define //// |
.................... //// to specify what kind of transfer method //// |
.................... //// this RX (PC to device) endpoint uses. //// |
.................... //// Here is the list of valid transfer methods: //// |
.................... //// USB_ENABLE_CONTROL //// |
.................... //// USB_ENABLE_ISOCHRONOUS //// |
.................... //// USB_ENABLE_BULK //// |
.................... //// USB_ENABLE_INTERRUPT //// |
.................... //// USB_ENABLE_DISABLED //// |
.................... //// Don't forget that you must specify the //// |
.................... //// transfer method properly in your endpoint //// |
.................... //// descriptor, too. //// |
.................... //// //// |
.................... //// USB_EPx_RX_SIZE (0) - For some hardware it is important to know //// |
.................... //// how much memory to reserve for receiving //// |
.................... //// packets. //// |
.................... //// //// |
.................... //// *** NOTE *** You must have both USB_EPx_RX_ENABLE defined and //// |
.................... //// USB_EPx_RX_SIZE defined (non 0) to enable a RX //// |
.................... //// endpoint. //// |
.................... //// *** NOTE *** Endpoint 0 is always enabled. //// |
.................... //// //// |
.................... //// USB_EPx_TX_ENABLE (USB_ENABLE_DISABLED) - Where x is the //// |
.................... //// endpoint number. Change this define //// |
.................... //// to specify what kind of transfer method //// |
.................... //// this TX (device to PC) endpoint uses. //// |
.................... //// Here is the list of valid transfer methods: //// |
.................... //// USB_ENABLE_CONTROL //// |
.................... //// USB_ENABLE_ISOCHRONOUS //// |
.................... //// USB_ENABLE_BULK //// |
.................... //// USB_ENABLE_INTERRUPT //// |
.................... //// USB_ENABLE_DISABLED //// |
.................... //// Don't forget that you must specify the //// |
.................... //// transfer method properly in your endpoint //// |
.................... //// descriptor, too. //// |
.................... //// //// |
.................... //// USB_EPx_TX_SIZE (0) - For some hardware it is important to know //// |
.................... //// how much memory to reserve for transmitting //// |
.................... //// packets. //// |
.................... //// //// |
.................... //// *** NOTE *** You must have both USB_EPx_TX_ENABLE defined and //// |
.................... //// USB_EPx_TX_SIZE defined (non 0) to enable a TX //// |
.................... //// endpoint. //// |
.................... //// //// |
.................... //// //// |
.................... //// USB_HID_DEVICE (TRUE) - HID devices require extra code to handle //// |
.................... //// HID requests. You can disable to save //// |
.................... //// ROM space if you are not using a HID //// |
.................... //// device. If you are not using a HID //// |
.................... //// device you must provide your own O/S //// |
.................... //// (Windows) driver. //// |
.................... //// //// |
.................... //// The other definitions should not be changed. //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// Version History: //// |
.................... //// //// |
.................... //// March 5th, 2009: //// |
.................... //// Cleanup for Wizard. //// |
.................... //// PIC24 Initial release. //// |
.................... //// //// |
.................... //// July 13th, 2005: //// |
.................... //// usb_ep_tx_size[] and usb_ep_rx_size[] changed to 16bits //// |
.................... //// //// |
.................... //// June 20th, 2005: //// |
.................... //// Initial 18fxx5x release //// |
.................... //// //// |
.................... //// May 13th, 2005: //// |
.................... //// Beta release, only works with 18Fxx5x hardware layer. //// |
.................... //// Now supports multiple interfaces (many defines in descriptors //// |
.................... //// will have to be changed, see examples) //// |
.................... //// //// |
.................... //// Mar 21st, 2005: //// |
.................... //// Initial Alpha Release with PIC18Fxx5x support. (ONLY TESTED //// |
.................... //// WITH 18F4550) //// |
.................... //// usb_gets() and usb_puts() changed (see usb.c) //// |
.................... //// //// |
.................... //// June 24th, 2004: //// |
.................... //// Optimization and cleanup. //// |
.................... //// The following definitions changed: //// |
.................... //// USB_EPx_TX_ENABLE and USB_EPx_RX_ENABLE have changed. See usb.h //// |
.................... //// USB_CONFIG_DESCRIPTORS[] removed //// |
.................... //// USB_CONFIG_DESC_LEN changed to USB_DESC_CONFIG_LEN //// |
.................... //// USB_INTERFACE_DESC_LEN changed to USB_DESC_INTERFACE_LEN //// |
.................... //// USB_CLASS_DESC_LEN changed to USB_DESC_CLASS_LEN //// |
.................... //// USB_ENDPOINT_DESC_LEN changed to USB_DESC_ENDPOINT_LEN //// |
.................... //// USB_CONFIG_DESC_KEY changed to USB_DESC_CONFIG_TYPE //// |
.................... //// USB_INTERFACE_DESC_KEY changed to USB_DESC_INTERFACE_TYPE //// |
.................... //// USB_CLASS_DESC_KEY changed to USB_DESC_CLASS_TYPE //// |
.................... //// USB_ENDPOINT_DESC_KEY changed to USB_DESC_ENDPOINT_TYPE //// |
.................... //// USB_STRING_X[] arrays removed, see USB_STRING_DESC[] and //// |
.................... //// USB_STRING_DESC_OFFSET[] //// |
.................... //// dev_req, curr_config, status_device and getdesc_type global //// |
.................... //// variables moved into struct USB_stack_status //// |
.................... //// //// |
.................... //// October 15th, 2003: Support for boot protocol added. //// |
.................... //// Set USB_HID_BOOT_PROTOCOL to TRUE to support this. //// |
.................... //// The array hid_protocol[] saves which protocol mode each //// |
.................... //// interface is in. It is your applications job to send //// |
.................... //// data that either fit the boot protocol or HID protocol. //// |
.................... //// //// |
.................... //// May 6th, 2003: Fixed a potential stack overflow using PCM //// |
.................... //// //// |
.................... //// October 29th, 2002: New definition added to USB_STATES //// |
.................... //// //// |
.................... //// August 2nd, 2002: Initial Public Release //// |
.................... //// //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2009 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS //// |
.................... //// C compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, //// |
.................... //// reproduction or distribution is permitted without written //// |
.................... //// permission. Derivative programs created using this software //// |
.................... //// in object code form are not restricted in any way. //// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... |
.................... #IFNDEF __USB_PROTOTYPES__ |
.................... #DEFINE __USB_PROTOTYPES__ |
.................... |
.................... //// CONFIGURATION //////////////////////////////////////////////////////////// |
.................... |
.................... #ifndef USB_CON_SENSE_PIN |
.................... #define USB_CON_SENSE_PIN 0 |
.................... #endif |
.................... |
.................... #IFNDEF USB_HID_BOOT_PROTOCOL |
.................... #DEFINE USB_HID_BOOT_PROTOCOL FALSE |
.................... #ENDIF |
.................... |
.................... #IFNDEF USB_HID_IDLE |
.................... #DEFINE USB_HID_IDLE FALSE |
.................... #ENDIF |
.................... |
.................... //should the compiler add the extra HID handler code? Defaults to yes. |
.................... #IFNDEF USB_HID_DEVICE |
.................... #DEFINE USB_HID_DEVICE TRUE |
.................... #ENDIF |
.................... |
.................... #IFNDEF USB_CDC_DEVICE |
.................... #DEFINE USB_CDC_DEVICE FALSE |
.................... #ENDIF |
.................... |
.................... //set to false to opt for less RAM, true to opt for less ROM |
.................... #ifndef USB_OPT_FOR_ROM |
.................... #define USB_OPT_FOR_ROM TRUE |
.................... #endif |
.................... |
.................... #IFNDEF USB_MAX_EP0_PACKET_LENGTH |
.................... #DEFINE USB_MAX_EP0_PACKET_LENGTH 8 |
.................... #ENDIF |
.................... |
.................... |
.................... ////// USER-LEVEL API ///////////////////////////////////////////////////////// |
.................... |
.................... /************************************************************** |
.................... /* usb_enumerated() |
.................... /* |
.................... /* Input: Global variable USB_Curr_Config |
.................... /* Returns: Returns a 1 if device is configured / enumerated, |
.................... /* Returns a 0 if device is un-configured / not enumerated. |
.................... /* |
.................... /* Summary: See API section of USB.H for more documentation. |
.................... /***************************************************************/ |
.................... int1 usb_enumerated(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_wait_for_enumeration() |
.................... /* |
.................... /* Input: Global variable USB_Curr_Config |
.................... /* |
.................... /* Summary: Waits in-definately until device is configured / enumerated. |
.................... /* See API section of USB.H for more information. |
.................... /***************************************************************/ |
.................... void usb_wait_for_enumeration(void); |
.................... |
.................... /**************************************************************************** |
.................... /* usb_gets(endpoint, ptr, max, timeout) |
.................... /* |
.................... /* Input: endpoint - endpoint to get data from |
.................... /* ptr - place / array to store data to |
.................... /* max - max amount of data to get from USB and store into ptr |
.................... /* timeout - time in milliseconds, for each packet, to wait before |
.................... /* timeout. set to 0 for no timeout. |
.................... /* |
.................... /* Output: Amount of data returned. It may be less than max. |
.................... /* |
.................... /* Summary: Gets data from the host. Will get multiple-packet messages |
.................... /* and finish when either it receives a 0-len packet or a packet |
.................... /* of less size than maximum. |
.................... /* |
.................... /*****************************************************************************/ |
.................... unsigned int16 usb_gets(int8 endpoint, int8 * ptr, unsigned int16 max, unsigned int16 timeout); |
.................... |
.................... /**************************************************************************** |
.................... /* usb_puts() |
.................... /* |
.................... /* Inputs: endpoint - endpoint to send data out |
.................... /* ptr - points to array of data to send |
.................... /* len - amount of data to send |
.................... /* timeout - time in milli-seconds, for each packet, to wait before |
.................... /* timeout. set to 0 for no timeout. |
.................... /* |
.................... /* Outputs: Returns TRUE if message sent succesfully, FALSE if it was not |
.................... /* sent before timeout period expired. |
.................... /* |
.................... /* Summary: Used for sending multiple packets of data as one message. This |
.................... /* function can still be used to send messages consiting of only one |
.................... /* packet. See usb_put_packet() documentation for the rules about when |
.................... /* multiple packet messages or 0-lenght packets are needed. |
.................... /* |
.................... /*****************************************************************************/ |
.................... int1 usb_puts(int8 endpoint, int8 * ptr, unsigned int16 len, unsigned int8 timeout); |
.................... |
.................... /****************************************************************************** |
.................... /* usb_attached() |
.................... /* |
.................... /* Summary: Returns TRUE if the device is attached to a USB cable. |
.................... /* See the API section of USB.H for more documentation. |
.................... /* |
.................... /*****************************************************************************/ |
.................... #if USB_CON_SENSE_PIN |
.................... #define usb_attached() input(USB_CON_SENSE_PIN) |
.................... #else |
.................... #define usb_attached() TRUE |
.................... #endif |
.................... |
.................... ////// END USER-LEVEL API ///////////////////////////////////////////////////// |
.................... |
.................... |
.................... ////// STACK-LEVEL API USED BY HW DRIVERS //////////////////////////////////// |
.................... |
.................... enum USB_STATES {GET_DESCRIPTOR=1,SET_ADDRESS=2,NONE=0}; |
.................... |
.................... enum USB_GETDESC_TYPES {USB_GETDESC_CONFIG_TYPE=0,USB_GETDESC_HIDREPORT_TYPE=1,USB_GETDESC_STRING_TYPE=2,USB_GETDESC_DEVICE_TYPE=3}; |
.................... |
.................... #if USB_OPT_FOR_ROM |
.................... typedef struct { |
.................... USB_STATES dev_req; //what did the last setup token set us up to do?. init at none |
.................... int curr_config; //our current config. start at none/powered (NOT THAT THIS LIMITS US TO 3 CONFIGURATIONS) |
.................... int status_device; //Holds our state for Set_Feature and Clear_Feature |
.................... USB_GETDESC_TYPES getdesc_type; //which get_descriptor() we are handling |
.................... } TYPE_USB_STACK_STATUS; |
.................... #else |
.................... typedef struct { |
.................... USB_STATES dev_req:2; //what did the last setup token set us up to do?. init at none |
.................... int Curr_config:2; //our current config. start at none/powered (NOT THAT THIS LIMITS US TO 3 CONFIGURATIONS) |
.................... int status_device:2; //Holds our state for Set_Feature and Clear_Feature |
.................... USB_GETDESC_TYPES getdesc_type:2; //which get_descriptor() we are handling |
.................... } TYPE_USB_STACK_STATUS; |
.................... #endif |
.................... |
.................... extern TYPE_USB_STACK_STATUS USB_stack_status; |
.................... |
.................... /************************************************************** |
.................... /* usb_token_reset() |
.................... /* |
.................... /* Output: No output (but many global registers are modified) |
.................... /* |
.................... /* Summary: Resets the token handler to initial (unconfigured) state. |
.................... /***************************************************************/ |
.................... void usb_token_reset(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_setup_dne() |
.................... /* |
.................... /* Input: usb_ep0_rx_buffer[] contains the the setup packet. |
.................... /* |
.................... /* Output: None (many globals are changed) |
.................... /* |
.................... /* Summary: This function is that handles the setup token. |
.................... /* We must handle all relevant requests, such as Set_Configuration, |
.................... /* Get_Descriptor, etc. |
.................... /* |
.................... /* usb_ep0_rx_buffer[] contains setup data packet, which has the |
.................... /* following records: |
.................... /* ------------------------------------------------------------------------------------------- |
.................... /* usb_ep0_rx_buffer[ 0 ]=bmRequestType; Where the setup packet goes |
.................... /* bit7 (0) host-to-device |
.................... /* (1) device-to-host |
.................... /* bit6-5 (00) usb standard request; |
.................... /* (01) class request; |
.................... /* (10) vendor request |
.................... /* (11) reserved |
.................... /* bit4-0 (0000) device |
.................... /* (0001) interface |
.................... /* (0010) endpoint |
.................... /* (0011) other element |
.................... /* (0100) to (1111) reserved |
.................... /* usb_ep0_rx_buffer[ 1 ]=bRequest ; the request |
.................... /* usb_ep0_rx_buffer[2,3]=wValue ; a value which corresponds to request |
.................... /* usb_ep0_rx_buffer[4,5]=wIndex ; could correspond to interface or endpoint... |
.................... /* usb_ep0_rx_buffer[6,7]=wLength ; number of bytes in next data packet; |
.................... /* for host-to-device, this exactly how many bytes in data packet. |
.................... /* for device-to-host, this is the maximum bytes that can fit one packet. |
.................... /***************************************************************/ |
.................... void usb_isr_tok_setup_dne(void); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_out_dne() |
.................... /* |
.................... /* Input: endpoint contains which endpoint we are receiving data (0..15) |
.................... /* |
.................... /* Summary: Processes out tokens (out is respective of the host, so actualy |
.................... /* incoming to the pic), but not out setup tokens. Normally when |
.................... /* data is received it is left in the buffer (user would use |
.................... /* usb_kbhit() and usb_get_packet() to receive data), but certain |
.................... /* libraries (like CDC) have to answer setup packets. |
.................... /* |
.................... /***************************************************************/ |
.................... void usb_isr_tok_out_dne(int8 endpoint); |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tok_in_dne(endpoint) |
.................... /* |
.................... /* Input: endpoint - which endpoint we are processing a setup token. |
.................... /* |
.................... /* Summary: This handles an IN packet (HOST <- PIC). For endpoint 0, this |
.................... /* is usually to setup a response packet to a setup packet. Endpoints 1..15 |
.................... /* are generally ignored, and the user has to use usb_tbe() to determine if |
.................... /* if the buffer is ready for a new transmit packet (there are special cases, |
.................... /* like CDC which handles the CDC protocl). |
.................... /* |
.................... /***************************************************************/ |
.................... void usb_isr_tok_in_dne(int8 endpoint); |
.................... |
.................... ////// END STACK-LEVEL API USED BY HW DRIVERS ///////////////////////////////// |
.................... |
.................... |
.................... //CCS only supports one configuration at this time |
.................... #DEFINE USB_NUM_CONFIGURATIONS 1 //DO NOT CHANGE |
.................... |
.................... //PID values for tokens (see page 48 of USB Complete ed.1) |
.................... #define PID_IN 0x09 //device to host transactions |
.................... #define PID_OUT 0x01 //host to device transactions |
.................... #define PID_SETUP 0x0D //host to device setup transaction |
.................... #define PID_ACK 0x02 //receiver accepts error-free data packet |
.................... #define PID_DATA0 0x03 //data packet with even sync bit |
.................... #define PID_SOF 0x05 //start of framer marker and frame number |
.................... #define PID_NAK 0x0A //receiver can't accept data or sender cant send data or has no data to transmit |
.................... #define PID_DATA1 0x0B //data packet with odd sync bit |
.................... #define PID_PRE 0x0C //preamble issued by host. enables downstream traffic to low-speed device |
.................... #define PID_STALL 0x0E //a control request isnt supported or the endpoint is halted |
.................... |
.................... //Key which identifies descritpors |
.................... #DEFINE USB_DESC_DEVICE_TYPE 0x01 //#DEFINE USB_DEVICE_DESC_KEY 0x01 |
.................... #DEFINE USB_DESC_CONFIG_TYPE 0x02 //#DEFINE USB_CONFIG_DESC_KEY 0x02 |
.................... #DEFINE USB_DESC_STRING_TYPE 0x03 //#DEFINE USB_STRING_DESC_KEY 0x03 |
.................... #DEFINE USB_DESC_INTERFACE_TYPE 0x04 //#DEFINE USB_INTERFACE_DESC_KEY 0x04 |
.................... #DEFINE USB_DESC_ENDPOINT_TYPE 0x05 //#DEFINE USB_ENDPOINT_DESC_KEY 0x05 |
.................... #DEFINE USB_DESC_CLASS_TYPE 0x21 //#DEFINE USB_CLASS_DESC_KEY 0x21 |
.................... #DEFINE USB_DESC_HIDREPORT_TYPE 0x22 |
.................... |
.................... //The length of each descriptor |
.................... #DEFINE USB_DESC_DEVICE_LEN 18 //#DEFINE USB_DEVICE_DESC_LEN 18 |
.................... #DEFINE USB_DESC_CONFIG_LEN 9 //#DEFINE USB_CONFIG_DESC_LEN 9 |
.................... #DEFINE USB_DESC_INTERFACE_LEN 9 //#DEFINE USB_INTERFACE_DESC_LEN 9 |
.................... #DEFINE USB_DESC_CLASS_LEN 9 //#DEFINE USB_CLASS_DESC_LEN 9 |
.................... #DEFINE USB_DESC_ENDPOINT_LEN 7 //#DEFINE USB_ENDPOINT_DESC_LEN 7 |
.................... |
.................... //Standard USB Setup bRequest Codes |
.................... #define USB_STANDARD_REQUEST_GET_STATUS 0x00 |
.................... #define USB_STANDARD_REQUEST_CLEAR_FEATURE 0x01 |
.................... #define USB_STANDARD_REQUEST_SET_FEATURE 0x03 |
.................... #define USB_STANDARD_REQUEST_SET_ADDRESS 0x05 |
.................... #define USB_STANDARD_REQUEST_GET_DESCRIPTOR 0x06 |
.................... #define USB_STANDARD_REQUEST_SET_DESCRIPTOR 0x07 |
.................... #define USB_STANDARD_REQUEST_GET_CONFIGURATION 0x08 |
.................... #define USB_STANDARD_REQUEST_SET_CONFIGURATION 0x09 |
.................... #define USB_STANDARD_REQUEST_GET_INTERFACE 0x0A |
.................... #define USB_STANDARD_REQUEST_SET_INTERFACE 0x0B |
.................... #define USB_STANDARD_REQUEST_SYNCH_FRAME 0x0C |
.................... |
.................... //HID Class Setup bRequest Codes |
.................... #define USB_HID_REQUEST_GET_REPORT 0x01 |
.................... #define USB_HID_REQUEST_GET_IDLE 0x02 |
.................... #define USB_HID_REQUEST_GET_PROTOCOL 0x03 |
.................... #define USB_HID_REQUEST_SET_REPORT 0x09 |
.................... #define USB_HID_REQUEST_SET_IDLE 0x0A |
.................... #define USB_HID_REQUEST_SET_PROTOCOL 0x0B |
.................... |
.................... //types of endpoints as defined in the descriptor |
.................... #define USB_ENDPOINT_TYPE_CONTROL 0x00 |
.................... #define USB_ENDPOINT_TYPE_ISOCHRONOUS 0x01 |
.................... #define USB_ENDPOINT_TYPE_BULK 0x02 |
.................... #define USB_ENDPOINT_TYPE_INTERRUPT 0x03 |
.................... |
.................... //types of endpoints used internally in this api |
.................... #define USB_ENABLE_DISABLED -1 |
.................... #define USB_ENABLE_BULK USB_ENDPOINT_TYPE_BULK |
.................... #define USB_ENABLE_ISOCHRONOUS USB_ENDPOINT_TYPE_ISOCHRONOUS |
.................... #define USB_ENABLE_INTERRUPT USB_ENDPOINT_TYPE_INTERRUPT |
.................... #define USB_ENABLE_CONTROL USB_ENDPOINT_TYPE_CONTROL |
.................... |
.................... |
.................... //*** ENABLE RX ENDPOINTS AND BUFFERS |
.................... |
.................... //--------- endpoint 0 defines ---------- |
.................... #define USB_EP0_TX_ENABLE USB_ENABLE_CONTROL |
.................... #define USB_EP0_RX_ENABLE USB_ENABLE_CONTROL |
.................... #define USB_EP0_RX_SIZE USB_MAX_EP0_PACKET_LENGTH //endpoint 0 is setup, and should always be the MAX_PACKET_LENGTH. Slow speed specifies 8 |
.................... #define USB_EP0_TX_SIZE USB_MAX_EP0_PACKET_LENGTH //endpoint 0 is setup, and should always be the MAX_PACKET_LENGTH. Slow speed specifies 8 |
.................... |
.................... //--------- endpoint 1 defines ---------- |
.................... #ifndef USB_EP1_TX_ENABLE |
.................... #define USB_EP1_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP1_RX_ENABLE |
.................... #define USB_EP1_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP1_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP1_RX_SIZE |
.................... #undef USB_EP1_RX_SIZE |
.................... #endif |
.................... #define USB_EP1_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP1_RX_SIZE |
.................... #error You enabled EP1 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP1_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP1_TX_SIZE |
.................... #undef USB_EP1_TX_SIZE |
.................... #endif |
.................... #define USB_EP1_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP1_TX_SIZE |
.................... #error You enabled EP1 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 2 defines ---------- |
.................... #ifndef USB_EP2_TX_ENABLE |
.................... #define USB_EP2_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP2_RX_ENABLE |
.................... #define USB_EP2_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP2_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP2_RX_SIZE |
.................... #undef USB_EP2_RX_SIZE |
.................... #endif |
.................... #define USB_EP2_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP2_RX_SIZE |
.................... #error You enabled EP2 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP2_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP2_TX_SIZE |
.................... #undef USB_EP2_TX_SIZE |
.................... #endif |
.................... #define USB_EP2_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP2_TX_SIZE |
.................... #error You enabled EP2 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 3 defines ---------- |
.................... #ifndef USB_EP3_TX_ENABLE |
.................... #define USB_EP3_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP3_RX_ENABLE |
.................... #define USB_EP3_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP3_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP3_RX_SIZE |
.................... #undef USB_EP3_RX_SIZE |
.................... #endif |
.................... #define USB_EP3_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP3_RX_SIZE |
.................... #error You enabled EP3 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP3_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP3_TX_SIZE |
.................... #undef USB_EP3_TX_SIZE |
.................... #endif |
.................... #define USB_EP3_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP3_TX_SIZE |
.................... #error You enabled EP3 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 4 defines ---------- |
.................... #ifndef USB_EP4_TX_ENABLE |
.................... #define USB_EP4_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP4_RX_ENABLE |
.................... #define USB_EP4_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP4_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP4_RX_SIZE |
.................... #undef USB_EP4_RX_SIZE |
.................... #endif |
.................... #define USB_EP4_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP4_RX_SIZE |
.................... #error You enabled EP4 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP4_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP4_TX_SIZE |
.................... #undef USB_EP4_TX_SIZE |
.................... #endif |
.................... #define USB_EP4_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP4_TX_SIZE |
.................... #error You enabled EP4 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 5 defines ---------- |
.................... #ifndef USB_EP5_TX_ENABLE |
.................... #define USB_EP5_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP5_RX_ENABLE |
.................... #define USB_EP5_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP5_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP5_RX_SIZE |
.................... #undef USB_EP5_RX_SIZE |
.................... #endif |
.................... #define USB_EP5_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP5_RX_SIZE |
.................... #error You enabled EP5 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP5_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP5_TX_SIZE |
.................... #undef USB_EP5_TX_SIZE |
.................... #endif |
.................... #define USB_EP5_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP5_TX_SIZE |
.................... #error You enabled EP5 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 6 defines ---------- |
.................... #ifndef USB_EP6_TX_ENABLE |
.................... #define USB_EP6_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP6_RX_ENABLE |
.................... #define USB_EP6_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP6_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP6_RX_SIZE |
.................... #undef USB_EP6_RX_SIZE |
.................... #endif |
.................... #define USB_EP6_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP6_RX_SIZE |
.................... #error You enabled EP6 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP6_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP6_TX_SIZE |
.................... #undef USB_EP6_TX_SIZE |
.................... #endif |
.................... #define USB_EP6_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP6_TX_SIZE |
.................... #error You enabled EP6 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 7 defines ---------- |
.................... #ifndef USB_EP7_TX_ENABLE |
.................... #define USB_EP7_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP7_RX_ENABLE |
.................... #define USB_EP7_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP7_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP7_RX_SIZE |
.................... #undef USB_EP7_RX_SIZE |
.................... #endif |
.................... #define USB_EP7_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP7_RX_SIZE |
.................... #error You enabled EP7 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP7_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP7_TX_SIZE |
.................... #undef USB_EP7_TX_SIZE |
.................... #endif |
.................... #define USB_EP7_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP7_TX_SIZE |
.................... #error You enabled EP7 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 8 defines ---------- |
.................... #ifndef USB_EP8_TX_ENABLE |
.................... #define USB_EP8_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP8_RX_ENABLE |
.................... #define USB_EP8_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP8_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP8_RX_SIZE |
.................... #undef USB_EP8_RX_SIZE |
.................... #endif |
.................... #define USB_EP8_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP8_RX_SIZE |
.................... #error You enabled EP8 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP8_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP8_TX_SIZE |
.................... #undef USB_EP8_TX_SIZE |
.................... #endif |
.................... #define USB_EP8_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP8_TX_SIZE |
.................... #error You enabled EP8 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 9 defines ---------- |
.................... #ifndef USB_EP9_TX_ENABLE |
.................... #define USB_EP9_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP9_RX_ENABLE |
.................... #define USB_EP9_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP9_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP9_RX_SIZE |
.................... #undef USB_EP9_RX_SIZE |
.................... #endif |
.................... #define USB_EP9_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP9_RX_SIZE |
.................... #error You enabled EP9 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP9_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP9_TX_SIZE |
.................... #undef USB_EP9_TX_SIZE |
.................... #endif |
.................... #define USB_EP9_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP9_TX_SIZE |
.................... #error You enabled EP9 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 10 defines ---------- |
.................... #ifndef USB_EP10_TX_ENABLE |
.................... #define USB_EP10_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP10_RX_ENABLE |
.................... #define USB_EP10_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP10_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP10_RX_SIZE |
.................... #undef USB_EP10_RX_SIZE |
.................... #endif |
.................... #define USB_EP10_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP10_RX_SIZE |
.................... #error You enabled EP10 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP10_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP10_TX_SIZE |
.................... #undef USB_EP10_TX_SIZE |
.................... #endif |
.................... #define USB_EP10_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP10_TX_SIZE |
.................... #error You enabled EP10 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 11 defines ---------- |
.................... #ifndef USB_EP11_TX_ENABLE |
.................... #define USB_EP11_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP11_RX_ENABLE |
.................... #define USB_EP11_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP11_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP11_RX_SIZE |
.................... #undef USB_EP11_RX_SIZE |
.................... #endif |
.................... #define USB_EP11_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP11_RX_SIZE |
.................... #error You enabled EP11 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP11_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP11_TX_SIZE |
.................... #undef USB_EP11_TX_SIZE |
.................... #endif |
.................... #define USB_EP11_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP11_TX_SIZE |
.................... #error You enabled EP11 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 12 defines ---------- |
.................... #ifndef USB_EP12_TX_ENABLE |
.................... #define USB_EP12_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP12_RX_ENABLE |
.................... #define USB_EP12_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP12_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP12_RX_SIZE |
.................... #undef USB_EP12_RX_SIZE |
.................... #endif |
.................... #define USB_EP12_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP12_RX_SIZE |
.................... #error You enabled EP12 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP12_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP12_TX_SIZE |
.................... #undef USB_EP12_TX_SIZE |
.................... #endif |
.................... #define USB_EP12_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP12_TX_SIZE |
.................... #error You enabled EP12 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 13 defines ---------- |
.................... #ifndef USB_EP13_TX_ENABLE |
.................... #define USB_EP13_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP13_RX_ENABLE |
.................... #define USB_EP13_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP13_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP13_RX_SIZE |
.................... #undef USB_EP13_RX_SIZE |
.................... #endif |
.................... #define USB_EP13_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP13_RX_SIZE |
.................... #error You enabled EP13 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP13_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP13_TX_SIZE |
.................... #undef USB_EP13_TX_SIZE |
.................... #endif |
.................... #define USB_EP13_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP13_TX_SIZE |
.................... #error You enabled EP13 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 14 defines ---------- |
.................... #ifndef USB_EP14_TX_ENABLE |
.................... #define USB_EP14_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP14_RX_ENABLE |
.................... #define USB_EP14_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP14_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP14_RX_SIZE |
.................... #undef USB_EP14_RX_SIZE |
.................... #endif |
.................... #define USB_EP14_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP14_RX_SIZE |
.................... #error You enabled EP14 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP14_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP14_TX_SIZE |
.................... #undef USB_EP14_TX_SIZE |
.................... #endif |
.................... #define USB_EP14_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP14_TX_SIZE |
.................... #error You enabled EP14 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... |
.................... //--------- endpoint 15 defines ---------- |
.................... #ifndef USB_EP15_TX_ENABLE |
.................... #define USB_EP15_TX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... #ifndef USB_EP15_RX_ENABLE |
.................... #define USB_EP15_RX_ENABLE USB_ENABLE_DISABLED |
.................... #endif |
.................... |
.................... #if USB_EP15_RX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP15_RX_SIZE |
.................... #undef USB_EP15_RX_SIZE |
.................... #endif |
.................... #define USB_EP15_RX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP15_RX_SIZE |
.................... #error You enabled EP15 for RX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... #if USB_EP15_TX_ENABLE==USB_ENABLE_DISABLED |
.................... #ifdef USB_EP15_TX_SIZE |
.................... #undef USB_EP15_TX_SIZE |
.................... #endif |
.................... #define USB_EP15_TX_SIZE 0 |
.................... #else |
.................... #ifndef USB_EP15_TX_SIZE |
.................... #error You enabled EP15 for TX but didn't specify endpoint size |
.................... #endif |
.................... #endif |
.................... |
.................... const int8 usb_ep_tx_type[16]={ |
.................... USB_EP0_TX_ENABLE, USB_EP1_TX_ENABLE, USB_EP2_TX_ENABLE, |
.................... USB_EP3_TX_ENABLE, USB_EP4_TX_ENABLE, USB_EP5_TX_ENABLE, |
.................... USB_EP6_TX_ENABLE, USB_EP7_TX_ENABLE, USB_EP8_TX_ENABLE, |
.................... USB_EP9_TX_ENABLE, USB_EP10_TX_ENABLE, USB_EP11_TX_ENABLE, |
.................... USB_EP12_TX_ENABLE, USB_EP13_TX_ENABLE, USB_EP14_TX_ENABLE, |
.................... USB_EP15_TX_ENABLE |
.................... }; |
.................... |
.................... const int8 usb_ep_rx_type[16]={ |
.................... USB_EP0_RX_ENABLE, USB_EP1_RX_ENABLE, USB_EP2_RX_ENABLE, |
.................... USB_EP3_RX_ENABLE, USB_EP4_RX_ENABLE, USB_EP5_RX_ENABLE, |
.................... USB_EP6_RX_ENABLE, USB_EP7_RX_ENABLE, USB_EP8_RX_ENABLE, |
.................... USB_EP9_RX_ENABLE, USB_EP10_RX_ENABLE, USB_EP11_RX_ENABLE, |
.................... USB_EP12_RX_ENABLE, USB_EP13_RX_ENABLE, USB_EP14_RX_ENABLE, |
.................... USB_EP15_RX_ENABLE |
.................... }; |
.................... |
.................... const unsigned int16 usb_ep_tx_size[16]={ |
.................... USB_EP0_TX_SIZE, USB_EP1_TX_SIZE, USB_EP2_TX_SIZE, |
.................... USB_EP3_TX_SIZE, USB_EP4_TX_SIZE, USB_EP5_TX_SIZE, |
.................... USB_EP6_TX_SIZE, USB_EP7_TX_SIZE, USB_EP8_TX_SIZE, |
.................... USB_EP9_TX_SIZE, USB_EP10_TX_SIZE, USB_EP11_TX_SIZE, |
.................... USB_EP12_TX_SIZE, USB_EP13_TX_SIZE, USB_EP14_TX_SIZE, |
.................... USB_EP15_TX_SIZE |
.................... }; |
.................... |
.................... const unsigned int16 usb_ep_rx_size[16]={ |
.................... USB_EP0_RX_SIZE, USB_EP1_RX_SIZE, USB_EP2_RX_SIZE, |
.................... USB_EP3_RX_SIZE, USB_EP4_RX_SIZE, USB_EP5_RX_SIZE, |
.................... USB_EP6_RX_SIZE, USB_EP7_RX_SIZE, USB_EP8_RX_SIZE, |
.................... USB_EP9_RX_SIZE, USB_EP10_RX_SIZE, USB_EP11_RX_SIZE, |
.................... USB_EP12_RX_SIZE, USB_EP13_RX_SIZE, USB_EP14_RX_SIZE, |
.................... USB_EP15_RX_SIZE |
.................... }; |
.................... |
.................... #ENDIF |
.................... |
.................... |
.................... //if you are worried that the PIC is not receiving packets because a bug in the |
.................... //DATA0/DATA1 synch code, you can set this to TRUE to ignore the DTS on |
.................... //receiving. |
.................... #ifndef USB_IGNORE_RX_DTS |
.................... #define USB_IGNORE_RX_DTS FALSE |
.................... #endif |
.................... |
.................... #ifndef USB_IGNORE_TX_DTS |
.................... #define USB_IGNORE_TX_DTS FALSE |
.................... #endif |
.................... |
.................... #if ((getenv("DEVICE")=="PIC18F87J50") || (getenv("DEVICE")=="PIC18F86J55") || \ |
.................... (getenv("DEVICE")=="PIC18F86J50") || (getenv("DEVICE")=="PIC18F85J50") || \ |
.................... (getenv("DEVICE")=="PIC18F67J50") || (getenv("DEVICE")=="PIC18F66J55") || \ |
.................... (getenv("DEVICE")=="PIC18F66J50") || (getenv("DEVICE")=="PIC18F65J50")) |
.................... #define __USB_87J50__ |
.................... #define USB_TOTAL_RAM_SPACE ((int16)getenv("RAM")-0x400) |
.................... #define USB_RAM_START 0x400 |
.................... #define USB_LAST_ALLOWED_ENDPOINT 16 |
.................... #elif ((getenv("DEVICE")=="PIC18F2450") || (getenv("DEVICE")=="PIC18F4450")) |
.................... #define __USB_4450__ |
.................... #define USB_TOTAL_RAM_SPACE ((int16)0x100) |
.................... #define USB_RAM_START 0x400 |
.................... #define USB_LAST_ALLOWED_ENDPOINT 3 |
.................... #elif ((getenv("DEVICE")=="PIC18F13K50") || (getenv("DEVICE")=="PIC18F14K50")) |
.................... #define __USB_K50__ |
.................... #define USB_TOTAL_RAM_SPACE ((int16)0x200) |
.................... #define USB_RAM_START 0x200 |
.................... #define USB_LAST_ALLOWED_ENDPOINT 8 |
.................... #elif ((getenv("DEVICE")=="PIC18F2455") || (getenv("DEVICE")=="PIC18F2550") || \ |
.................... (getenv("DEVICE")=="PIC18F4455") || (getenv("DEVICE")=="PIC18F4550") || \ |
.................... (getenv("DEVICE")=="PIC18F2458") || (getenv("DEVICE")=="PIC18F2553") || \ |
.................... (getenv("DEVICE")=="PIC18F4458") || (getenv("DEVICE")=="PIC18F4553") \ |
.................... ) |
.................... #define __USB_4550__ |
.................... #define USB_TOTAL_RAM_SPACE ((int16)0x400) |
.................... #define USB_RAM_START 0x400 |
.................... #define USB_LAST_ALLOWED_ENDPOINT 16 |
.................... #else |
.................... #error Unknown PIC device, USB not supported in this library. |
.................... #endif |
.................... |
.................... #if USB_EP15_TX_SIZE || USB_EP15_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 15 |
.................... #elif USB_EP14_TX_SIZE || USB_EP14_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 14 |
.................... #elif USB_EP13_TX_SIZE || USB_EP13_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 13 |
.................... #elif USB_EP12_TX_SIZE || USB_EP12_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 12 |
.................... #elif USB_EP11_TX_SIZE || USB_EP11_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 11 |
.................... #elif USB_EP10_TX_SIZE || USB_EP10_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 10 |
.................... #elif USB_EP9_TX_SIZE || USB_EP9_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 9 |
.................... #elif USB_EP8_TX_SIZE || USB_EP8_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 8 |
.................... #elif USB_EP7_TX_SIZE || USB_EP7_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 7 |
.................... #elif USB_EP6_TX_SIZE || USB_EP6_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 6 |
.................... #elif USB_EP5_TX_SIZE || USB_EP5_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 5 |
.................... #elif USB_EP4_TX_SIZE || USB_EP4_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 4 |
.................... #elif USB_EP3_TX_SIZE || USB_EP3_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 3 |
.................... #elif USB_EP2_TX_SIZE || USB_EP2_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 2 |
.................... #elif USB_EP1_TX_SIZE || USB_EP1_RX_SIZE |
.................... #define USB_LAST_DEFINED_ENDPOINT 1 |
.................... #else |
.................... #define USB_LAST_DEFINED_ENDPOINT 0 |
.................... #endif |
.................... |
.................... #define USB_CONTROL_REGISTER_SIZE ((USB_LAST_DEFINED_ENDPOINT+1)*8) |
.................... |
.................... #define USB_DATA_BUFFER_NEEDED (USB_EP0_TX_SIZE+USB_EP0_RX_SIZE+USB_EP1_TX_SIZE+\ |
.................... USB_EP1_RX_SIZE+USB_EP2_TX_SIZE+USB_EP2_RX_SIZE+\ |
.................... USB_EP3_TX_SIZE+USB_EP3_RX_SIZE+USB_EP4_TX_SIZE+\ |
.................... USB_EP4_RX_SIZE+USB_EP5_TX_SIZE+USB_EP5_RX_SIZE+\ |
.................... USB_EP6_TX_SIZE+USB_EP6_RX_SIZE+USB_EP7_TX_SIZE+\ |
.................... USB_EP7_RX_SIZE+USB_EP8_TX_SIZE+USB_EP8_RX_SIZE+\ |
.................... USB_EP9_TX_SIZE+USB_EP9_RX_SIZE+USB_EP10_TX_SIZE+\ |
.................... USB_EP10_RX_SIZE+USB_EP11_TX_SIZE+USB_EP11_RX_SIZE+\ |
.................... USB_EP12_TX_SIZE+USB_EP12_RX_SIZE+USB_EP13_TX_SIZE+\ |
.................... USB_EP13_RX_SIZE+USB_EP14_TX_SIZE+USB_EP14_RX_SIZE+\ |
.................... USB_EP15_TX_SIZE+USB_EP15_RX_SIZE) |
.................... |
.................... #if ((USB_DATA_BUFFER_NEEDED+USB_CONTROL_REGISTER_SIZE) > USB_TOTAL_RAM_SPACE) |
.................... #error You are trying to allocate more memory for endpoints than the PIC can handle |
.................... #endif |
.................... |
.................... #if (USB_LAST_DEFINED_ENDPOINT > USB_LAST_ALLOWED_ENDPOINT) |
.................... #error You are trying ot use an invalid endpoint for this hardware! |
.................... #endif |
.................... |
.................... #define USB_DATA_BUFFER_LOCATION ((int16)USB_RAM_START+USB_CONTROL_REGISTER_SIZE) |
.................... |
.................... typedef struct |
.................... { |
.................... int8 stat; |
.................... int8 cnt; |
.................... int16 addr; |
.................... } STRUCT_BD; |
.................... |
.................... struct |
.................... { |
.................... struct |
.................... { |
.................... STRUCT_BD out; //pc -> pic |
.................... STRUCT_BD in; //pc <- pic |
.................... } bd[USB_LAST_DEFINED_ENDPOINT+1]; |
.................... union |
.................... { |
.................... struct |
.................... { |
.................... int8 ep0_rx_buffer[USB_MAX_EP0_PACKET_LENGTH]; |
.................... int8 ep0_tx_buffer[USB_MAX_EP0_PACKET_LENGTH]; |
.................... |
.................... //these buffer definitions needed for CDC library |
.................... #if USB_EP1_RX_SIZE |
.................... int8 ep1_rx_buffer[USB_EP1_RX_SIZE]; |
.................... #endif |
.................... #if USB_EP1_TX_SIZE |
.................... int8 ep1_tx_buffer[USB_EP1_TX_SIZE]; |
.................... #endif |
.................... #if USB_EP2_RX_SIZE |
.................... int8 ep2_rx_buffer[USB_EP2_RX_SIZE]; |
.................... #endif |
.................... #if USB_EP2_TX_SIZE |
.................... int8 ep2_tx_buffer[USB_EP2_TX_SIZE]; |
.................... #endif |
.................... }; |
.................... int8 general[USB_DATA_BUFFER_NEEDED]; |
.................... } buffer; |
.................... } g_USBRAM; |
.................... #locate g_USBRAM=USB_RAM_START |
.................... |
.................... #define usb_ep0_rx_buffer g_USBRAM.buffer.ep0_rx_buffer |
.................... #define usb_ep0_tx_buffer g_USBRAM.buffer.ep0_tx_buffer |
.................... |
.................... //these buffer definitions needed for CDC library |
.................... #define usb_ep1_rx_buffer g_USBRAM.buffer.ep1_rx_buffer |
.................... #define usb_ep1_tx_buffer g_USBRAM.buffer.ep1_tx_buffer |
.................... #define usb_ep2_rx_buffer g_USBRAM.buffer.ep2_rx_buffer |
.................... #define usb_ep2_tx_buffer g_USBRAM.buffer.ep2_tx_buffer |
.................... |
.................... #define debug_usb(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u,v,w,x,y,z) |
.................... //#define debug_usb printf |
.................... //#define debug_putc putc_tbe |
.................... #define debug_display_ram(x,y) |
.................... /* |
.................... void debug_display_ram(int8 len, int8 *ptr) { |
.................... int8 max=16; |
.................... debug_usb(debug_putc,"%U - ",len); |
.................... if (max>len) {max=len;} |
.................... while(max--) { |
.................... debug_usb(debug_putc,"%X",*ptr); |
.................... len--; |
.................... ptr++; |
.................... } |
.................... if (len) {debug_usb(debug_putc,"...");} |
.................... } |
.................... */ |
.................... |
.................... //if you enable this it will keep a counter of the 6 possible errors the |
.................... //pic can detect. disabling this will save you ROM, RAM and execution time. |
.................... #if !defined(USB_USE_ERROR_COUNTER) |
.................... #define USB_USE_ERROR_COUNTER FALSE |
.................... #endif |
.................... |
.................... #define USB_PING_PONG_MODE_OFF 0 //no ping pong |
.................... #define USB_PING_PONG_MODE_E0 1 //ping pong endpoint 0 only |
.................... #define USB_PING_PONG_MODE_ON 2 //ping pong all endpoints |
.................... |
.................... //NOTE - PING PONG MODE IS NOT SUPPORTED BY CCS! |
.................... #if !defined(USB_PING_PONG_MODE) |
.................... #define USB_PING_PONG_MODE USB_PING_PONG_MODE_OFF |
.................... #endif |
.................... |
.................... #if USB_USE_ERROR_COUNTER |
.................... int ERROR_COUNTER[6]; |
.................... #endif |
.................... |
.................... //---pic18fxx5x memory locations |
.................... #if defined(__USB_4550__) || defined(__USB_4450__) |
.................... #byte UFRML = 0xF66 |
.................... #byte UFRMH = 0xF67 |
.................... #byte UIR = 0xF68 |
.................... #byte UIE = 0xF69 |
.................... #byte UEIR = 0xF6A |
.................... #byte UEIE = 0xF6B |
.................... #byte USTAT = 0xF6C |
.................... #byte UCON = 0xF6D |
.................... #byte UADDR = 0xF6E |
.................... #byte UCFG = 0xF6F |
.................... #define UEP0_LOC 0xF70 |
.................... #elif defined(__USB_K50__) |
.................... #byte UFRML = 0xF5D |
.................... #byte UFRMH = 0xF5E |
.................... #byte UIR = 0xF62 |
.................... #byte UIE = 0xF60 |
.................... #byte UEIR = 0xF5F |
.................... #byte UEIE = 0xF5B |
.................... #byte USTAT = 0xF63 |
.................... #byte UCON = 0xF64 |
.................... #byte UADDR = 0xF5C |
.................... #byte UCFG = 0xF61 |
.................... #define UEP0_LOC 0xF53 |
.................... #else |
.................... #byte UFRML = 0xF60 |
.................... #byte UFRMH = 0xF61 |
.................... #byte UIR = 0xF62 |
.................... #byte UIE = 0xF5C |
.................... #byte UEIR = 0xF63 |
.................... #byte UEIE = 0xF5D |
.................... #byte USTAT = 0xF64 |
.................... #byte UCON = 0xF65 |
.................... #byte UADDR = 0xF5E |
.................... #byte UCFG = 0xF5F |
.................... #define UEP0_LOC 0xF4C |
.................... #endif |
.................... |
.................... int8 g_UEP[16]; |
.................... #locate g_UEP=UEP0_LOC |
.................... #define UEP(x) g_UEP[x] |
.................... |
.................... #BIT UIR_SOF = UIR.6 |
.................... #BIT UIR_STALL = UIR.5 |
.................... #BIT UIR_IDLE = UIR.4 |
.................... #BIT UIR_TRN = UIR.3 |
.................... #BIT UIR_ACTV = UIR.2 |
.................... #BIT UIR_UERR = UIR.1 |
.................... #BIT UIR_URST = UIR.0 |
.................... |
.................... #BIT UIE_SOF = UIE.6 |
.................... #BIT UIE_STALL = UIE.5 |
.................... #BIT UIE_IDLE = UIE.4 |
.................... #BIT UIE_TRN = UIE.3 |
.................... #BIT UIE_ACTV = UIE.2 |
.................... #BIT UIE_UERR = UIE.1 |
.................... #BIT UIE_URST = UIE.0 |
.................... |
.................... #bit UCON_PBRST=UCON.6 |
.................... #bit UCON_SE0=UCON.5 |
.................... #bit UCON_PKTDIS=UCON.4 |
.................... #bit UCON_USBEN=UCON.3 |
.................... #bit UCON_RESUME=UCON.2 |
.................... #bit UCON_SUSPND=UCON.1 |
.................... |
.................... #if (USB_PING_PONG_MODE==USB_PING_PONG_MODE_OFF) |
.................... #define EP_BDxST_O(x) g_USBRAM.bd[x].out.stat |
.................... #define EP_BDxCNT_O(x) g_USBRAM.bd[x].out.cnt |
.................... #define EP_BDxADR_O(x) g_USBRAM.bd[x].out.addr |
.................... #define EP_BDxST_I(x) g_USBRAM.bd[x].in.stat |
.................... #define EP_BDxCNT_I(x) g_USBRAM.bd[x].in.cnt |
.................... #define EP_BDxADR_I(x) g_USBRAM.bd[x].in.addr |
.................... #else |
.................... #error Right now this driver only supports no ping pong |
.................... #endif |
.................... |
.................... //See UEPn (0xF70-0xF7F) |
.................... #define ENDPT_DISABLED 0x00 //endpoint not used |
.................... #define ENDPT_IN_ONLY 0x02 //endpoint supports IN transactions only |
.................... #define ENDPT_OUT_ONLY 0x04 //endpoint supports OUT transactions only |
.................... #define ENDPT_CONTROL 0x06 //Supports IN, OUT and CONTROL transactions - Only use with EP0 |
.................... #define ENDPT_NON_CONTROL 0x0E //Supports both IN and OUT transactions |
.................... |
.................... //Define the states that the USB interface can be in |
.................... enum {USB_STATE_DETACHED=0, USB_STATE_ATTACHED=1, USB_STATE_POWERED=2, USB_STATE_DEFAULT=3, |
.................... USB_STATE_ADDRESS=4, USB_STATE_CONFIGURED=5} usb_state=0; |
.................... |
.................... //--BDendST has their PIDs upshifed 2 |
.................... #define USB_PIC_PID_IN 0x24 //device to host transactions |
.................... #define USB_PIC_PID_OUT 0x04 //host to device transactions |
.................... #define USB_PIC_PID_SETUP 0x34 //host to device setup transaction |
.................... |
.................... #define USTAT_IN_E0 4 |
.................... #define USTAT_OUT_SETUP_E0 0 |
.................... |
.................... #define __USB_UIF_RESET 0x01 |
.................... #define __USB_UIF_ERROR 0x02 |
.................... #define __USB_UIF_ACTIVE 0x04 |
.................... #define __USB_UIF_TOKEN 0x08 |
.................... #define __USB_UIF_IDLE 0x10 |
.................... #define __USB_UIF_STALL 0x20 |
.................... #define __USB_UIF_SOF 0x40 |
.................... |
.................... #if USB_USE_ERROR_COUNTER |
.................... #define STANDARD_INTS __USB_UIF_STALL|__USB_UIF_IDLE|__USB_UIF_TOKEN|__USB_UIF_ACTIVE|__USB_UIF_ERROR|__USB_UIF_RESET |
.................... #else |
.................... #define STANDARD_INTS __USB_UIF_STALL|__USB_UIF_IDLE|__USB_UIF_TOKEN|__USB_UIF_ACTIVE|__USB_UIF_RESET |
.................... #endif |
.................... |
.................... #define __USB_UCFG_UTEYE 0x80 |
.................... #if defined(__USB_4550__) |
.................... #define __USB_UCFG_UOEMON 0x40 |
.................... #endif |
.................... #define __USB_UCFG_UPUEN 0x10 |
.................... #define __USB_UCFG_UTRDIS 0x08 |
.................... #define __USB_UCFG_FSEN 0x04 |
.................... |
.................... #if USB_USE_FULL_SPEED |
.................... #define __UCFG_VAL_ENABLED__ (__USB_UCFG_UPUEN | __USB_UCFG_FSEN | USB_PING_PONG_MODE) |
.................... #else |
.................... #define __UCFG_VAL_ENABLED__ (__USB_UCFG_UPUEN | USB_PING_PONG_MODE); |
.................... #endif |
.................... |
.................... #define __UCFG_VAL_DISABLED__ 0x08 |
.................... |
.................... int8 __setup_0_tx_size; |
.................... |
.................... //interrupt handler, specific to PIC18Fxx5x peripheral only |
.................... void usb_handle_interrupt(); |
.................... void usb_isr_rst(); |
.................... void usb_isr_uerr(); |
.................... void usb_isr_sof(void); |
.................... void usb_isr_activity(); |
.................... void usb_isr_uidle(); |
.................... void usb_isr_tok_dne(); |
.................... void usb_isr_stall(void); |
.................... void usb_init_ep0_setup(void); |
.................... |
.................... //// BEGIN User Functions: |
.................... |
.................... // see usb_hw_layer.h for more documentation |
.................... int1 usb_kbhit(int8 en) |
.................... { |
.................... return((UEP(en)!=ENDPT_DISABLED)&&(!bit_test(EP_BDxST_O(en),7))); |
.................... } |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... int1 usb_tbe(int8 en) |
.................... { |
.................... return((UEP(en)!=ENDPT_DISABLED)&&(!bit_test(EP_BDxST_I(en),7))); |
* |
0D06: CLRF 03 |
0D08: MOVLB 7 |
0D0A: MOVF x47,W |
0D0C: ADDLW 70 |
0D0E: MOVWF FE9 |
0D10: MOVLW 0F |
0D12: ADDWFC 03,W |
0D14: MOVWF FEA |
0D16: MOVF FEF,F |
0D18: BZ 0D50 |
0D1A: CLRF x49 |
0D1C: MOVFF 747,748 |
0D20: CLRF x4B |
0D22: MOVLW 08 |
0D24: MOVWF x4A |
0D26: MOVLB 0 |
0D28: CALL 02BA |
0D2C: MOVFF 02,749 |
0D30: MOVFF 01,748 |
0D34: MOVLW 04 |
0D36: MOVLB 7 |
0D38: ADDWF x48,F |
0D3A: MOVLW 00 |
0D3C: ADDWFC x49,F |
0D3E: MOVFF 748,FE9 |
0D42: MOVLW 04 |
0D44: ADDWF x49,W |
0D46: MOVWF FEA |
0D48: MOVFF FEF,748 |
0D4C: BTFSS x48.7 |
0D4E: BRA 0D54 |
0D50: MOVLW 00 |
0D52: BRA 0D56 |
0D54: MOVLW 01 |
0D56: MOVWF 01 |
.................... } |
0D58: MOVLB 0 |
0D5A: RETLW 00 |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_detach(void) |
.................... { |
.................... UCON = 0; //disable USB hardware |
* |
12F4: CLRF F6D |
.................... UIE = 0; //disable USB interrupts |
12F6: CLRF F69 |
.................... UCFG = __UCFG_VAL_DISABLED__; |
12F8: MOVLW 08 |
12FA: MOVWF F6F |
.................... |
.................... // set D+/D- to inputs |
.................... #if defined(__USB_87J50__) |
.................... set_tris_f(get_tris_f() | 0x18); |
.................... #elif defined(__USB_K50__) |
.................... set_tris_a(get_tris_a() | 0x3); |
.................... #else |
.................... set_tris_c(get_tris_c() | 0x30); |
12FC: MOVF F94,W |
12FE: IORLW 30 |
1300: MOVLB 6 |
1302: MOVWF F94 |
.................... #endif |
.................... |
.................... usb_state = USB_STATE_DETACHED; |
1304: CLRF 24 |
1306: CLRF 18 |
1308: BTFSC FF2.7 |
130A: BSF 18.7 |
130C: BCF FF2.7 |
.................... |
.................... usb_token_reset(); //clear the chapter9 stack |
130E: MOVLB 0 |
1310: CALL 037E |
1314: BTFSC 18.7 |
1316: BSF FF2.7 |
.................... //__usb_kbhit_status=0; |
.................... } |
1318: GOTO 131E (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_attach(void) |
.................... { |
* |
1322: CLRF 18 |
1324: BTFSC FF2.7 |
1326: BSF 18.7 |
1328: BCF FF2.7 |
.................... usb_token_reset(); |
132A: CALL 037E |
132E: BTFSC 18.7 |
1330: BSF FF2.7 |
.................... UCON = 0; |
1332: CLRF F6D |
.................... UCFG = __UCFG_VAL_ENABLED__; |
1334: MOVLW 14 |
1336: MOVWF F6F |
.................... UIE = 0; // Mask all USB interrupts |
1338: CLRF F69 |
.................... UCON_USBEN = 1; // Enable module & attach to bus |
133A: BSF F6D.3 |
.................... usb_state = USB_STATE_ATTACHED; // Defined in usbmmap.c & .h |
133C: MOVLW 01 |
133E: MOVWF 24 |
.................... } |
1340: GOTO 134A (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_init_cs(void) |
.................... { |
.................... usb_detach(); |
* |
131C: BRA 12F4 |
.................... } |
131E: GOTO 136A (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_task(void) |
.................... { |
.................... if (usb_attached()) |
.................... { |
.................... if (UCON_USBEN==0) |
* |
1344: BTFSC F6D.3 |
1346: BRA 134A |
.................... { |
.................... debug_usb(debug_putc, "\r\n\nUSB TASK: ATTACH"); |
.................... usb_attach(); |
1348: BRA 1322 |
.................... } |
.................... } |
.................... else |
.................... { |
.................... if (UCON_USBEN==1) |
.................... { |
.................... debug_usb(debug_putc, "\r\n\nUSB TASK: DE-ATTACH"); |
.................... usb_detach(); |
.................... } |
.................... } |
.................... |
.................... if ((usb_state == USB_STATE_ATTACHED)&&(!UCON_SE0)) |
134A: DECFSZ 24,W |
134C: BRA 1364 |
134E: BTFSC F6D.5 |
1350: BRA 1364 |
.................... { |
.................... UIR=0; |
1352: CLRF F68 |
.................... UIE=0; |
1354: CLRF F69 |
.................... enable_interrupts(INT_USB); |
1356: BSF FA0.5 |
.................... enable_interrupts(GLOBAL); |
1358: MOVLW C0 |
135A: IORWF FF2,F |
.................... UIE=__USB_UIF_IDLE | __USB_UIF_RESET; //enable IDLE and RESET USB ISR |
135C: MOVLW 11 |
135E: MOVWF F69 |
.................... usb_state=USB_STATE_POWERED; |
1360: MOVLW 02 |
1362: MOVWF 24 |
.................... debug_usb(debug_putc, "\r\n\nUSB TASK: POWERED"); |
.................... } |
.................... } |
1364: GOTO 136C (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_init(void) |
.................... { |
.................... usb_init_cs(); |
1368: BRA 131C |
.................... |
.................... do |
.................... { |
.................... usb_task(); |
136A: BRA 1344 |
.................... } while (usb_state != USB_STATE_POWERED); |
136C: MOVF 24,W |
136E: SUBLW 02 |
1370: BNZ 136A |
.................... } |
1372: GOTO 1FE4 (RETURN) |
.................... |
.................... |
.................... // see pic18_usb.h for documentation |
.................... int1 usb_flush_in(int8 endpoint, int16 len, USB_DTS_BIT tgl) |
.................... { |
.................... int8 i; |
.................... |
.................... debug_usb(debug_putc,"\r\nPUT %X %U %LU",endpoint, tgl, len); |
.................... |
.................... if (usb_tbe(endpoint)) |
* |
0D5C: MOVFF 742,747 |
0D60: RCALL 0D06 |
0D62: MOVF 01,F |
0D64: BTFSC FD8.2 |
0D66: BRA 0E74 |
.................... { |
.................... EP_BDxCNT_I(endpoint)=len; |
0D68: MOVLB 7 |
0D6A: CLRF x49 |
0D6C: MOVFF 742,748 |
0D70: CLRF x4B |
0D72: MOVLW 08 |
0D74: MOVWF x4A |
0D76: MOVLB 0 |
0D78: CALL 02BA |
0D7C: MOVFF 02,748 |
0D80: MOVFF 01,747 |
0D84: MOVLW 04 |
0D86: MOVLB 7 |
0D88: ADDWF x47,F |
0D8A: MOVLW 00 |
0D8C: ADDWFC x48,F |
0D8E: MOVLW 01 |
0D90: ADDWF x47,W |
0D92: MOVWF 01 |
0D94: MOVLW 00 |
0D96: ADDWFC x48,W |
0D98: MOVWF 03 |
0D9A: MOVFF 01,FE9 |
0D9E: MOVLW 04 |
0DA0: ADDWF 03,W |
0DA2: MOVWF FEA |
0DA4: MOVFF 743,FEF |
.................... |
.................... debug_display_ram(len, EP_BDxADR_I(endpoint)); |
.................... |
.................... #if USB_IGNORE_TX_DTS |
.................... i=0x80; |
.................... #else |
.................... if (tgl == USB_DTS_TOGGLE) |
0DA8: MOVF x45,W |
0DAA: SUBLW 02 |
0DAC: BNZ 0DEE |
.................... { |
.................... i = EP_BDxST_I(endpoint); |
0DAE: CLRF x49 |
0DB0: MOVFF 742,748 |
0DB4: CLRF x4B |
0DB6: MOVLW 08 |
0DB8: MOVWF x4A |
0DBA: MOVLB 0 |
0DBC: CALL 02BA |
0DC0: MOVFF 02,748 |
0DC4: MOVFF 01,747 |
0DC8: MOVLW 04 |
0DCA: MOVLB 7 |
0DCC: ADDWF x47,F |
0DCE: MOVLW 00 |
0DD0: ADDWFC x48,F |
0DD2: MOVFF 747,FE9 |
0DD6: MOVLW 04 |
0DD8: ADDWF x48,W |
0DDA: MOVWF FEA |
0DDC: MOVFF FEF,746 |
.................... if (bit_test(i,6)) |
0DE0: BTFSS x46.6 |
0DE2: BRA 0DE8 |
.................... tgl = USB_DTS_DATA0; //was DATA1, goto DATA0 |
0DE4: CLRF x45 |
.................... else |
0DE6: BRA 0DEC |
.................... tgl = USB_DTS_DATA1; //was DATA0, goto DATA1 |
0DE8: MOVLW 01 |
0DEA: MOVWF x45 |
.................... } |
.................... else if (tgl == USB_DTS_USERX) |
0DEC: BRA 0E22 |
0DEE: MOVF x45,W |
0DF0: SUBLW 04 |
0DF2: BNZ 0E22 |
.................... { |
.................... i = EP_BDxST_O(endpoint); |
0DF4: CLRF x49 |
0DF6: MOVFF 742,748 |
0DFA: CLRF x4B |
0DFC: MOVLW 08 |
0DFE: MOVWF x4A |
0E00: MOVLB 0 |
0E02: CALL 02BA |
0E06: MOVLB 7 |
0E08: MOVFF 01,FE9 |
0E0C: MOVLW 04 |
0E0E: ADDWF 02,W |
0E10: MOVWF FEA |
0E12: MOVFF FEF,746 |
.................... if (bit_test(i,6)) |
0E16: BTFSS x46.6 |
0E18: BRA 0E20 |
.................... tgl = USB_DTS_DATA1; |
0E1A: MOVLW 01 |
0E1C: MOVWF x45 |
.................... else |
0E1E: BRA 0E22 |
.................... tgl = USB_DTS_DATA0; |
0E20: CLRF x45 |
.................... } |
.................... if (tgl == USB_DTS_DATA1) |
0E22: DECFSZ x45,W |
0E24: BRA 0E2C |
.................... i=0xC8; //DATA1, UOWN |
0E26: MOVLW C8 |
0E28: MOVWF x46 |
.................... else //if (tgl == USB_DTS_DATA0) |
0E2A: BRA 0E30 |
.................... i=0x88; //DATA0, UOWN |
0E2C: MOVLW 88 |
0E2E: MOVWF x46 |
.................... #endif |
.................... |
.................... //set BC8 and BC9 |
.................... if (bit_test(len,8)) {bit_set(i,0);} |
0E30: BTFSC x44.0 |
0E32: BSF x46.0 |
.................... if (bit_test(len,9)) {bit_set(i,1);} |
0E34: BTFSC x44.1 |
0E36: BSF x46.1 |
.................... |
.................... debug_usb(debug_putc, " %X", i); |
.................... |
.................... EP_BDxST_I(endpoint) = i;//save changes |
0E38: CLRF x49 |
0E3A: MOVFF 742,748 |
0E3E: CLRF x4B |
0E40: MOVLW 08 |
0E42: MOVWF x4A |
0E44: MOVLB 0 |
0E46: CALL 02BA |
0E4A: MOVFF 02,748 |
0E4E: MOVFF 01,747 |
0E52: MOVLW 04 |
0E54: MOVLB 7 |
0E56: ADDWF x47,F |
0E58: MOVLW 00 |
0E5A: ADDWFC x48,F |
0E5C: MOVFF 747,FE9 |
0E60: MOVLW 04 |
0E62: ADDWF x48,W |
0E64: MOVWF FEA |
0E66: MOVFF 746,FEF |
.................... |
.................... //putc('!'); |
.................... |
.................... return(1); |
0E6A: MOVLW 01 |
0E6C: MOVWF 01 |
0E6E: BRA 0E7A |
.................... } |
.................... else |
0E70: BRA 0E72 |
0E72: MOVLB 0 |
.................... { |
.................... //putc('_'); |
.................... debug_usb(debug_putc,"\r\nPUT ERR"); |
.................... } |
.................... return(0); |
0E74: MOVLW 00 |
0E76: MOVWF 01 |
0E78: MOVLB 7 |
.................... } |
0E7A: MOVLB 0 |
0E7C: RETLW 00 |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... int1 usb_put_packet(int8 endpoint, int8 * ptr, int16 len, USB_DTS_BIT tgl) |
.................... { |
.................... int8 * buff_add; |
.................... |
.................... if (usb_tbe(endpoint)) |
* |
0F88: MOVFF 73A,747 |
0F8C: RCALL 0D06 |
0F8E: MOVF 01,F |
0F90: BZ 1026 |
.................... { |
.................... buff_add = EP_BDxADR_I(endpoint); |
0F92: MOVLB 7 |
0F94: CLRF x49 |
0F96: MOVFF 73A,748 |
0F9A: CLRF x4B |
0F9C: MOVLW 08 |
0F9E: MOVWF x4A |
0FA0: MOVLB 0 |
0FA2: CALL 02BA |
0FA6: MOVFF 02,743 |
0FAA: MOVFF 01,742 |
0FAE: MOVLW 04 |
0FB0: MOVLB 7 |
0FB2: ADDWF x42,F |
0FB4: MOVLW 00 |
0FB6: ADDWFC x43,F |
0FB8: MOVLW 02 |
0FBA: ADDWF x42,W |
0FBC: MOVWF 01 |
0FBE: MOVLW 00 |
0FC0: ADDWFC x43,W |
0FC2: MOVWF 03 |
0FC4: MOVFF 01,FE9 |
0FC8: MOVLW 04 |
0FCA: ADDWF 03,W |
0FCC: MOVWF FEA |
0FCE: MOVFF FEC,03 |
0FD2: MOVF FED,F |
0FD4: MOVFF FEF,740 |
0FD8: MOVFF 03,741 |
.................... memcpy(buff_add, ptr, len); |
0FDC: MOVFF 741,FEA |
0FE0: MOVFF 740,FE9 |
0FE4: MOVFF 73C,FE2 |
0FE8: MOVFF 73B,FE1 |
0FEC: MOVFF 73E,02 |
0FF0: MOVFF 73D,01 |
0FF4: MOVF 01,F |
0FF6: BZ 0FFC |
0FF8: INCF 02,F |
0FFA: BRA 1000 |
0FFC: MOVF 02,F |
0FFE: BZ 100C |
1000: MOVFF FE6,FEE |
1004: DECFSZ 01,F |
1006: BRA 1000 |
1008: DECFSZ 02,F |
100A: BRA 1000 |
.................... |
.................... return(usb_flush_in(endpoint, len, tgl)); |
100C: MOVFF 73A,742 |
1010: MOVFF 73E,744 |
1014: MOVFF 73D,743 |
1018: MOVFF 73F,745 |
101C: MOVLB 0 |
101E: RCALL 0D5C |
1020: MOVF 01,W |
1022: BRA 102A |
.................... } |
.................... else |
1024: BRA 1026 |
.................... { |
.................... //putc('-'); |
.................... //printf("%X", EP_BDxST_I(endpoint)); |
.................... debug_usb(debug_putc,"\r\nPUT ERR"); |
.................... } |
.................... |
.................... return(0); |
1026: MOVLW 00 |
1028: MOVWF 01 |
.................... } |
102A: RETLW 00 |
.................... |
.................... // see pic18_usb.h for documentation |
.................... void usb_flush_out(int8 endpoint, USB_DTS_BIT tgl) |
.................... { |
.................... int8 i; |
.................... int16 len; |
.................... |
.................... #if USB_IGNORE_RX_DTS |
.................... if (tgl == USB_DTS_STALL) |
.................... { |
.................... debug_usb(debug_putc, '*'); |
.................... EP_BDxCNT_O(endpoint) = 0x84; |
.................... EP_BDxST_I(endpoint) = 0x84; |
.................... return; |
.................... } |
.................... else |
.................... i=0x80; |
.................... #else |
.................... i = EP_BDxST_O(endpoint); |
* |
0BEA: MOVLB 7 |
0BEC: CLRF x49 |
0BEE: MOVFF 6FD,748 |
0BF2: CLRF x4B |
0BF4: MOVLW 08 |
0BF6: MOVWF x4A |
0BF8: MOVLB 0 |
0BFA: CALL 02BA |
0BFE: MOVLB 7 |
0C00: MOVFF 01,FE9 |
0C04: MOVLW 04 |
0C06: ADDWF 02,W |
0C08: MOVWF FEA |
0C0A: MOVFF FEF,6FF |
0C0E: MOVLB 6 |
.................... if (tgl == USB_DTS_TOGGLE) |
0C10: MOVF xFE,W |
0C12: SUBLW 02 |
0C14: BNZ 0C22 |
.................... { |
.................... if (bit_test(i,6)) |
0C16: BTFSS xFF.6 |
0C18: BRA 0C1E |
.................... tgl = USB_DTS_DATA0; //was DATA1, goto DATA0 |
0C1A: CLRF xFE |
.................... else |
0C1C: BRA 0C22 |
.................... tgl = USB_DTS_DATA1; //was DATA0, goto DATA1 |
0C1E: MOVLW 01 |
0C20: MOVWF xFE |
.................... } |
.................... if (tgl == USB_DTS_STALL) |
0C22: MOVF xFE,W |
0C24: SUBLW 03 |
0C26: BNZ 0C64 |
.................... { |
.................... i = 0x84; |
0C28: MOVLW 84 |
0C2A: MOVWF xFF |
.................... EP_BDxST_I(endpoint) = 0x84; //stall both in and out endpoints |
0C2C: MOVLB 7 |
0C2E: CLRF x49 |
0C30: MOVFF 6FD,748 |
0C34: CLRF x4B |
0C36: MOVLW 08 |
0C38: MOVWF x4A |
0C3A: MOVLB 0 |
0C3C: CALL 02BA |
0C40: MOVFF 02,703 |
0C44: MOVFF 01,702 |
0C48: MOVLW 04 |
0C4A: MOVLB 7 |
0C4C: ADDWF x02,F |
0C4E: MOVLW 00 |
0C50: ADDWFC x03,F |
0C52: MOVFF 702,FE9 |
0C56: MOVLW 04 |
0C58: ADDWF x03,W |
0C5A: MOVWF FEA |
0C5C: MOVLW 84 |
0C5E: MOVWF FEF |
.................... } |
.................... else if (tgl == USB_DTS_DATA1) |
0C60: BRA 0C74 |
0C62: MOVLB 6 |
0C64: DECFSZ xFE,W |
0C66: BRA 0C6E |
.................... i = 0xC8; //DATA1, UOWN |
0C68: MOVLW C8 |
0C6A: MOVWF xFF |
.................... else //if (tgl == USB_DTS_DATA0) |
0C6C: BRA 0C72 |
.................... i = 0x88; //DATA0, UOWN |
0C6E: MOVLW 88 |
0C70: MOVWF xFF |
0C72: MOVLB 7 |
.................... #endif |
.................... |
.................... //bit_clear(__usb_kbhit_status,endpoint); |
.................... |
.................... len = usb_ep_rx_size[endpoint]; |
0C74: BCF FD8.0 |
0C76: MOVLB 6 |
0C78: RLCF xFD,W |
0C7A: CLRF 03 |
0C7C: MOVFF FF2,702 |
0C80: BCF FF2.7 |
0C82: MOVLB 0 |
0C84: CALL 011A |
0C88: TBLRD*+ |
0C8A: MOVFF FF5,03 |
0C8E: MOVLB 7 |
0C90: BTFSC x02.7 |
0C92: BSF FF2.7 |
0C94: MOVWF x00 |
0C96: MOVFF 03,701 |
.................... EP_BDxCNT_O(endpoint) = len; |
0C9A: CLRF x49 |
0C9C: MOVFF 6FD,748 |
0CA0: CLRF x4B |
0CA2: MOVLW 08 |
0CA4: MOVWF x4A |
0CA6: MOVLB 0 |
0CA8: CALL 02BA |
0CAC: MOVFF 01,702 |
0CB0: MOVLW 01 |
0CB2: MOVLB 7 |
0CB4: ADDWF 01,W |
0CB6: MOVWF 01 |
0CB8: MOVLW 00 |
0CBA: ADDWFC 02,W |
0CBC: MOVWF 03 |
0CBE: MOVFF 01,FE9 |
0CC2: MOVLW 04 |
0CC4: ADDWF 03,W |
0CC6: MOVWF FEA |
0CC8: MOVFF 700,FEF |
.................... if (bit_test(len,8)) {bit_set(i,0);} |
0CCC: BTFSS x01.0 |
0CCE: BRA 0CD6 |
0CD0: MOVLB 6 |
0CD2: BSF xFF.0 |
0CD4: MOVLB 7 |
.................... if (bit_test(len,9)) {bit_set(i,1);} |
0CD6: BTFSS x01.1 |
0CD8: BRA 0CE0 |
0CDA: MOVLB 6 |
0CDC: BSF xFF.1 |
0CDE: MOVLB 7 |
.................... |
.................... EP_BDxST_O(endpoint) = i; |
0CE0: CLRF x49 |
0CE2: MOVFF 6FD,748 |
0CE6: CLRF x4B |
0CE8: MOVLW 08 |
0CEA: MOVWF x4A |
0CEC: MOVLB 0 |
0CEE: CALL 02BA |
0CF2: MOVLB 7 |
0CF4: MOVFF 01,FE9 |
0CF8: MOVLW 04 |
0CFA: ADDWF 02,W |
0CFC: MOVWF FEA |
0CFE: MOVFF 6FF,FEF |
.................... } |
0D02: MOVLB 0 |
0D04: RETLW 00 |
.................... |
.................... // see pic18_usb.h for documentation |
.................... int16 usb_rx_packet_size(int8 endpoint) |
.................... { |
.................... return(EP_BDxCNT_O(endpoint)); |
* |
0EE6: MOVLB 7 |
0EE8: CLRF x49 |
0EEA: MOVFF 6FE,748 |
0EEE: CLRF x4B |
0EF0: MOVLW 08 |
0EF2: MOVWF x4A |
0EF4: MOVLB 0 |
0EF6: CALL 02BA |
0EFA: MOVFF 02,700 |
0EFE: MOVFF 01,6FF |
0F02: MOVLW 01 |
0F04: MOVLB 6 |
0F06: ADDWF 01,W |
0F08: MOVWF 01 |
0F0A: MOVLW 00 |
0F0C: MOVLB 7 |
0F0E: ADDWFC 02,W |
0F10: MOVWF 03 |
0F12: MOVFF 01,FE9 |
0F16: MOVLW 04 |
0F18: ADDWF 03,W |
0F1A: MOVWF FEA |
0F1C: CLRF 03 |
0F1E: MOVFF FEF,01 |
0F22: MOVFF 03,02 |
.................... } |
0F26: MOVLB 0 |
0F28: GOTO 0F3A (RETURN) |
.................... |
.................... /// END User Functions |
.................... |
.................... |
.................... /// BEGIN Hardware layer functions required by USB. |
.................... |
.................... /***************************************************************************** |
.................... /* usb_get_packet_buffer(endpoint, *ptr, max) |
.................... /* |
.................... /* Input: endpoint - endpoint to get data from |
.................... /* ptr - where to save data to local PIC RAM |
.................... /* max - max amount of data to receive from buffer |
.................... /* |
.................... /* Output: the amount of data taken from the buffer. |
.................... /* |
.................... /* Summary: Gets a packet of data from the USB buffer and puts into local PIC |
.................... /* RAM. |
.................... /* Does not mark the endpoint as ready for more data. Once you are |
.................... /* done with data, call usb_flush_out() to mark the endpoint ready |
.................... /* to receive more data. |
.................... /* |
.................... /*****************************************************************************/ |
.................... static int16 usb_get_packet_buffer(int8 endpoint, int8 *ptr, int16 max) |
.................... { |
.................... int8 * al; |
.................... int8 st; |
.................... int16 i; |
.................... |
.................... al = EP_BDxADR_O(endpoint); |
.................... i = EP_BDxCNT_O(endpoint); |
.................... st = EP_BDxST_O(endpoint); |
.................... |
.................... //read BC8 and BC9 |
.................... if (bit_test(st,0)) {bit_set(i,8);} |
.................... if (bit_test(st,1)) {bit_set(i,9);} |
.................... |
.................... if (i < max) {max = i;} |
.................... |
.................... memcpy(ptr, al ,max); |
.................... |
.................... return(max); |
.................... } |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... unsigned int16 usb_get_packet(int8 endpoint, int8 * ptr, unsigned int16 max) |
.................... { |
.................... max = usb_get_packet_buffer(endpoint, ptr, max); |
.................... usb_flush_out(endpoint, USB_DTS_TOGGLE); |
.................... |
.................... return(max); |
.................... } |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_stall_ep(int8 endpoint) |
.................... { |
.................... int1 direction; |
.................... |
.................... direction = bit_test(endpoint,7); |
* |
09B4: MOVLB 6 |
09B6: BCF xFE.0 |
09B8: BTFSC xFD.7 |
09BA: BSF xFE.0 |
.................... endpoint &= 0x7F; |
09BC: BCF xFD.7 |
.................... |
.................... if (direction) |
09BE: BTFSS xFE.0 |
09C0: BRA 09FC |
.................... { |
.................... EP_BDxST_I(endpoint) = 0x84; |
09C2: MOVLB 7 |
09C4: CLRF x49 |
09C6: MOVFF 6FD,748 |
09CA: CLRF x4B |
09CC: MOVLW 08 |
09CE: MOVWF x4A |
09D0: MOVLB 0 |
09D2: RCALL 02BA |
09D4: MOVFF 02,700 |
09D8: MOVFF 01,6FF |
09DC: MOVLW 04 |
09DE: MOVLB 6 |
09E0: ADDWF xFF,F |
09E2: MOVLW 00 |
09E4: MOVLB 7 |
09E6: ADDWFC x00,F |
09E8: MOVFF 6FF,FE9 |
09EC: MOVLW 04 |
09EE: MOVLB 7 |
09F0: ADDWF x00,W |
09F2: MOVWF FEA |
09F4: MOVLW 84 |
09F6: MOVWF FEF |
.................... } |
.................... else |
09F8: BRA 0A1E |
09FA: MOVLB 6 |
.................... { |
.................... EP_BDxST_O(endpoint) = 0x84; |
09FC: MOVLB 7 |
09FE: CLRF x49 |
0A00: MOVFF 6FD,748 |
0A04: CLRF x4B |
0A06: MOVLW 08 |
0A08: MOVWF x4A |
0A0A: MOVLB 0 |
0A0C: RCALL 02BA |
0A0E: MOVFF 01,FE9 |
0A12: MOVLW 04 |
0A14: MOVLB 7 |
0A16: ADDWF 02,W |
0A18: MOVWF FEA |
0A1A: MOVLW 84 |
0A1C: MOVWF FEF |
.................... } |
.................... } |
0A1E: MOVLB 0 |
0A20: GOTO 0AD6 (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_unstall_ep(int8 endpoint) |
.................... { |
.................... int1 direction; |
.................... |
.................... direction = bit_test(endpoint,7); |
* |
0946: MOVLB 6 |
0948: BCF xFE.0 |
094A: BTFSC xFD.7 |
094C: BSF xFE.0 |
.................... endpoint &= 0x7F; |
094E: BCF xFD.7 |
.................... |
.................... if (direction) |
0950: BTFSS xFE.0 |
0952: BRA 098E |
.................... { |
.................... #if USB_IGNORE_RX_DTS |
.................... EP_BDxST_I(endpoint) = 0x80; |
.................... #else |
.................... EP_BDxST_I(endpoint) = 0x88; |
0954: MOVLB 7 |
0956: CLRF x49 |
0958: MOVFF 6FD,748 |
095C: CLRF x4B |
095E: MOVLW 08 |
0960: MOVWF x4A |
0962: MOVLB 0 |
0964: RCALL 02BA |
0966: MOVFF 02,700 |
096A: MOVFF 01,6FF |
096E: MOVLW 04 |
0970: MOVLB 6 |
0972: ADDWF xFF,F |
0974: MOVLW 00 |
0976: MOVLB 7 |
0978: ADDWFC x00,F |
097A: MOVFF 6FF,FE9 |
097E: MOVLW 04 |
0980: MOVLB 7 |
0982: ADDWF x00,W |
0984: MOVWF FEA |
0986: MOVLW 88 |
0988: MOVWF FEF |
.................... #endif |
.................... } |
.................... else |
098A: BRA 09AE |
098C: MOVLB 6 |
.................... { |
.................... EP_BDxST_O(endpoint) = 0x00; |
098E: MOVLB 7 |
0990: CLRF x49 |
0992: MOVFF 6FD,748 |
0996: CLRF x4B |
0998: MOVLW 08 |
099A: MOVWF x4A |
099C: MOVLB 0 |
099E: RCALL 02BA |
09A0: MOVFF 01,FE9 |
09A4: MOVLW 04 |
09A6: MOVLB 7 |
09A8: ADDWF 02,W |
09AA: MOVWF FEA |
09AC: CLRF FEF |
.................... } |
.................... } |
09AE: MOVLB 0 |
09B0: GOTO 0AC6 (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... int1 usb_endpoint_stalled(int8 endpoint) |
.................... { |
.................... int1 direction; |
.................... int8 st; |
.................... |
.................... direction = bit_test(endpoint,7); |
* |
0A24: MOVLB 6 |
0A26: BCF xFE.0 |
0A28: BTFSC xFD.7 |
0A2A: BSF xFE.0 |
.................... endpoint &= 0x7F; |
0A2C: BCF xFD.7 |
.................... |
.................... if (direction) |
0A2E: BTFSS xFE.0 |
0A30: BRA 0A68 |
.................... { |
.................... st=EP_BDxST_I(endpoint); |
0A32: MOVLB 7 |
0A34: CLRF x49 |
0A36: MOVFF 6FD,748 |
0A3A: CLRF x4B |
0A3C: MOVLW 08 |
0A3E: MOVWF x4A |
0A40: MOVLB 0 |
0A42: RCALL 02BA |
0A44: MOVFF 02,701 |
0A48: MOVFF 01,700 |
0A4C: MOVLW 04 |
0A4E: MOVLB 7 |
0A50: ADDWF x00,F |
0A52: MOVLW 00 |
0A54: ADDWFC x01,F |
0A56: MOVFF 700,FE9 |
0A5A: MOVLW 04 |
0A5C: ADDWF x01,W |
0A5E: MOVWF FEA |
0A60: MOVFF FEF,6FF |
0A64: MOVLB 6 |
.................... } |
.................... else |
0A66: BRA 0A8C |
.................... { |
.................... st=EP_BDxST_O(endpoint); |
0A68: MOVLB 7 |
0A6A: CLRF x49 |
0A6C: MOVFF 6FD,748 |
0A70: CLRF x4B |
0A72: MOVLW 08 |
0A74: MOVWF x4A |
0A76: MOVLB 0 |
0A78: RCALL 02BA |
0A7A: MOVLB 7 |
0A7C: MOVFF 01,FE9 |
0A80: MOVLW 04 |
0A82: ADDWF 02,W |
0A84: MOVWF FEA |
0A86: MOVFF FEF,6FF |
0A8A: MOVLB 6 |
.................... } |
.................... |
.................... return(bit_test(st,7) && bit_test(st,2)); |
0A8C: BTFSS xFF.7 |
0A8E: BRA 0A94 |
0A90: BTFSC xFF.2 |
0A92: BRA 0A98 |
0A94: MOVLW 00 |
0A96: BRA 0A9A |
0A98: MOVLW 01 |
0A9A: MOVWF 01 |
.................... } |
0A9C: MOVLB 0 |
0A9E: GOTO 0AEE (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_set_address(int8 address) |
.................... { |
.................... UADDR = address; |
* |
0F60: MOVFF 6FE,F6E |
.................... |
.................... if (address) |
0F64: MOVLB 6 |
0F66: MOVF xFE,F |
0F68: BZ 0F70 |
.................... { |
.................... usb_state = USB_STATE_ADDRESS; |
0F6A: MOVLW 04 |
0F6C: MOVWF 24 |
.................... } |
.................... else |
0F6E: BRA 0F74 |
.................... { |
.................... usb_state = USB_STATE_POWERED; |
0F70: MOVLW 02 |
0F72: MOVWF 24 |
.................... } |
.................... } |
0F74: MOVLB 0 |
0F76: GOTO 0F84 (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_set_configured(int8 config) |
.................... { |
.................... int8 en; |
.................... int16 addy; |
.................... int8 new_uep; |
.................... int16 len; |
.................... int8 i; |
.................... |
.................... if (config == 0) |
* |
055C: MOVLB 6 |
055E: MOVF xFD,F |
0560: BNZ 056E |
.................... { |
.................... // if config=0 then set addressed state |
.................... usb_state = USB_STATE_ADDRESS; |
0562: MOVLW 04 |
0564: MOVWF 24 |
.................... usb_disable_endpoints(); |
0566: MOVLB 0 |
0568: RCALL 033E |
.................... } |
.................... else |
056A: BRA 0786 |
056C: MOVLB 6 |
.................... { |
.................... // else set configed state |
.................... usb_state = USB_STATE_CONFIGURED; |
056E: MOVLW 05 |
0570: MOVWF 24 |
.................... addy = (int16)USB_DATA_BUFFER_LOCATION+(2*USB_MAX_EP0_PACKET_LENGTH); |
0572: MOVLW 04 |
0574: MOVLB 7 |
0576: MOVWF x00 |
0578: MOVLW 98 |
057A: MOVLB 6 |
057C: MOVWF xFF |
.................... for (en=1; en<16; en++) |
057E: MOVLW 01 |
0580: MOVWF xFE |
0582: MOVF xFE,W |
0584: SUBLW 0F |
0586: BTFSS FD8.0 |
0588: BRA 0786 |
.................... { |
.................... // enable and config endpoints based upon user configuration |
.................... usb_disable_endpoint(en); |
058A: MOVFF 6FE,706 |
058E: MOVLB 0 |
0590: RCALL 02DC |
.................... new_uep = 0; |
0592: MOVLB 7 |
0594: CLRF x01 |
.................... if (usb_ep_rx_type[en] != USB_ENABLE_DISABLED) |
0596: CLRF 03 |
0598: MOVLB 6 |
059A: MOVF xFE,W |
059C: MOVFF FF2,705 |
05A0: BCF FF2.7 |
05A2: MOVLB 0 |
05A4: RCALL 00CA |
05A6: MOVLB 7 |
05A8: BTFSC x05.7 |
05AA: BSF FF2.7 |
05AC: SUBLW FF |
05AE: BZ 0692 |
.................... { |
.................... new_uep = 0x04; |
05B0: MOVLW 04 |
05B2: MOVWF x01 |
.................... len = usb_ep_rx_size[en]; |
05B4: BCF FD8.0 |
05B6: MOVLB 6 |
05B8: RLCF xFE,W |
05BA: CLRF 03 |
05BC: MOVFF FF2,705 |
05C0: BCF FF2.7 |
05C2: MOVLB 0 |
05C4: RCALL 011A |
05C6: TBLRD*+ |
05C8: MOVFF FF5,03 |
05CC: MOVLB 7 |
05CE: BTFSC x05.7 |
05D0: BSF FF2.7 |
05D2: MOVWF x02 |
05D4: MOVFF 03,703 |
.................... EP_BDxCNT_O(en) = len; |
05D8: CLRF x49 |
05DA: MOVFF 6FE,748 |
05DE: CLRF x4B |
05E0: MOVLW 08 |
05E2: MOVWF x4A |
05E4: MOVLB 0 |
05E6: RCALL 02BA |
05E8: MOVFF 01,705 |
05EC: MOVLW 01 |
05EE: MOVLB 7 |
05F0: ADDWF 01,W |
05F2: MOVWF 01 |
05F4: MOVLW 00 |
05F6: ADDWFC 02,W |
05F8: MOVWF 03 |
05FA: MOVFF 01,FE9 |
05FE: MOVLW 04 |
0600: ADDWF 03,W |
0602: MOVWF FEA |
0604: MOVFF 702,FEF |
.................... EP_BDxADR_O(en) = addy; |
0608: CLRF x49 |
060A: MOVFF 6FE,748 |
060E: CLRF x4B |
0610: MOVLW 08 |
0612: MOVWF x4A |
0614: MOVLB 0 |
0616: RCALL 02BA |
0618: MOVFF 01,705 |
061C: MOVLW 02 |
061E: MOVLB 7 |
0620: ADDWF 01,W |
0622: MOVWF 01 |
0624: MOVLW 00 |
0626: ADDWFC 02,W |
0628: MOVWF 03 |
062A: MOVFF 01,FE9 |
062E: MOVLW 04 |
0630: ADDWF 03,W |
0632: MOVWF FEA |
0634: MOVFF 700,FEC |
0638: MOVF FED,F |
063A: MOVFF 6FF,FEF |
.................... addy += usb_ep_rx_size[en]; |
063E: BCF FD8.0 |
0640: MOVLB 6 |
0642: RLCF xFE,W |
0644: CLRF 03 |
0646: MOVFF FF2,705 |
064A: BCF FF2.7 |
064C: MOVLB 0 |
064E: RCALL 011A |
0650: TBLRD*+ |
0652: MOVFF FF5,03 |
0656: MOVLB 7 |
0658: BTFSC x05.7 |
065A: BSF FF2.7 |
065C: MOVLB 6 |
065E: ADDWF xFF,F |
0660: MOVF 03,W |
0662: MOVLB 7 |
0664: ADDWFC x00,F |
.................... #if USB_IGNORE_RX_DTS |
.................... i = 0x80; |
.................... #else |
.................... i = 0x88; |
0666: MOVLW 88 |
0668: MOVWF x04 |
.................... #endif |
.................... if (bit_test(len,8)) {bit_set(i,0);} |
066A: BTFSC x03.0 |
066C: BSF x04.0 |
.................... if (bit_test(len,9)) {bit_set(i,1);} |
066E: BTFSC x03.1 |
0670: BSF x04.1 |
.................... EP_BDxST_O(en) = i; |
0672: CLRF x49 |
0674: MOVFF 6FE,748 |
0678: CLRF x4B |
067A: MOVLW 08 |
067C: MOVWF x4A |
067E: MOVLB 0 |
0680: RCALL 02BA |
0682: MOVLB 7 |
0684: MOVFF 01,FE9 |
0688: MOVLW 04 |
068A: ADDWF 02,W |
068C: MOVWF FEA |
068E: MOVFF 704,FEF |
.................... } |
.................... if (usb_ep_tx_type[en] != USB_ENABLE_DISABLED) |
0692: CLRF 03 |
0694: MOVLB 6 |
0696: MOVF xFE,W |
0698: MOVFF FF2,705 |
069C: BCF FF2.7 |
069E: MOVLB 0 |
06A0: RCALL 00AA |
06A2: MOVLB 7 |
06A4: BTFSC x05.7 |
06A6: BSF FF2.7 |
06A8: SUBLW FF |
06AA: BZ 0748 |
.................... { |
.................... new_uep |= 0x02; |
06AC: BSF x01.1 |
.................... EP_BDxADR_I(en) = addy; |
06AE: CLRF x49 |
06B0: MOVFF 6FE,748 |
06B4: CLRF x4B |
06B6: MOVLW 08 |
06B8: MOVWF x4A |
06BA: MOVLB 0 |
06BC: RCALL 02BA |
06BE: MOVFF 02,706 |
06C2: MOVFF 01,705 |
06C6: MOVLW 04 |
06C8: MOVLB 7 |
06CA: ADDWF x05,F |
06CC: MOVLW 00 |
06CE: ADDWFC x06,F |
06D0: MOVLW 02 |
06D2: ADDWF x05,W |
06D4: MOVWF 01 |
06D6: MOVLW 00 |
06D8: ADDWFC x06,W |
06DA: MOVWF 03 |
06DC: MOVFF 01,FE9 |
06E0: MOVLW 04 |
06E2: ADDWF 03,W |
06E4: MOVWF FEA |
06E6: MOVFF 700,FEC |
06EA: MOVF FED,F |
06EC: MOVFF 6FF,FEF |
.................... addy += usb_ep_tx_size[en]; |
06F0: BCF FD8.0 |
06F2: MOVLB 6 |
06F4: RLCF xFE,W |
06F6: CLRF 03 |
06F8: MOVFF FF2,705 |
06FC: BCF FF2.7 |
06FE: MOVLB 0 |
0700: RCALL 00EA |
0702: TBLRD*+ |
0704: MOVFF FF5,03 |
0708: MOVLB 7 |
070A: BTFSC x05.7 |
070C: BSF FF2.7 |
070E: MOVLB 6 |
0710: ADDWF xFF,F |
0712: MOVF 03,W |
0714: MOVLB 7 |
0716: ADDWFC x00,F |
.................... EP_BDxST_I(en) = 0x40; |
0718: CLRF x49 |
071A: MOVFF 6FE,748 |
071E: CLRF x4B |
0720: MOVLW 08 |
0722: MOVWF x4A |
0724: MOVLB 0 |
0726: RCALL 02BA |
0728: MOVFF 02,706 |
072C: MOVFF 01,705 |
0730: MOVLW 04 |
0732: MOVLB 7 |
0734: ADDWF x05,F |
0736: MOVLW 00 |
0738: ADDWFC x06,F |
073A: MOVFF 705,FE9 |
073E: MOVLW 04 |
0740: ADDWF x06,W |
0742: MOVWF FEA |
0744: MOVLW 40 |
0746: MOVWF FEF |
.................... } |
.................... if (new_uep == 0x06) {new_uep = 0x0E;} |
0748: MOVF x01,W |
074A: SUBLW 06 |
074C: BNZ 0752 |
074E: MOVLW 0E |
0750: MOVWF x01 |
.................... if (usb_ep_tx_type[en] != USB_ENABLE_ISOCHRONOUS) {new_uep |= 0x10;} |
0752: CLRF 03 |
0754: MOVLB 6 |
0756: MOVF xFE,W |
0758: MOVFF FF2,705 |
075C: BCF FF2.7 |
075E: MOVLB 0 |
0760: RCALL 00AA |
0762: MOVLB 7 |
0764: BTFSC x05.7 |
0766: BSF FF2.7 |
0768: SUBLW 01 |
076A: BTFSS FD8.2 |
076C: BSF x01.4 |
.................... |
.................... UEP(en) = new_uep; |
076E: CLRF 03 |
0770: MOVLB 6 |
0772: MOVF xFE,W |
0774: ADDLW 70 |
0776: MOVWF FE9 |
0778: MOVLW 0F |
077A: ADDWFC 03,W |
077C: MOVWF FEA |
077E: MOVFF 701,FEF |
.................... } |
0782: INCF xFE,F |
0784: BRA 0582 |
0786: MOVLB 0 |
.................... } |
.................... } |
0788: GOTO 082C (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_disable_endpoint(int8 en) |
.................... { |
.................... UEP(en) = ENDPT_DISABLED; |
* |
02DC: CLRF 03 |
02DE: MOVLB 7 |
02E0: MOVF x06,W |
02E2: ADDLW 70 |
02E4: MOVWF FE9 |
02E6: MOVLW 0F |
02E8: ADDWFC 03,W |
02EA: MOVWF FEA |
02EC: CLRF FEF |
.................... EP_BDxST_O(en) = 0; //clear state, deque if necessary |
02EE: CLRF x49 |
02F0: MOVFF 706,748 |
02F4: CLRF x4B |
02F6: MOVLW 08 |
02F8: MOVWF x4A |
02FA: MOVLB 0 |
02FC: RCALL 02BA |
02FE: MOVLB 7 |
0300: MOVFF 01,FE9 |
0304: MOVLW 04 |
0306: ADDWF 02,W |
0308: MOVWF FEA |
030A: CLRF FEF |
.................... EP_BDxST_I(en) = 0; //clear state, deque if necessary |
030C: CLRF x49 |
030E: MOVFF 706,748 |
0312: CLRF x4B |
0314: MOVLW 08 |
0316: MOVWF x4A |
0318: MOVLB 0 |
031A: RCALL 02BA |
031C: MOVFF 02,708 |
0320: MOVFF 01,707 |
0324: MOVLW 04 |
0326: MOVLB 7 |
0328: ADDWF x07,F |
032A: MOVLW 00 |
032C: ADDWFC x08,F |
032E: MOVFF 707,FE9 |
0332: MOVLW 04 |
0334: ADDWF x08,W |
0336: MOVWF FEA |
0338: CLRF FEF |
.................... } |
033A: MOVLB 0 |
033C: RETLW 00 |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_disable_endpoints(void) |
.................... { |
.................... int8 i; |
.................... |
.................... for (i=1; i<16; i++) |
033E: MOVLW 01 |
0340: MOVLB 7 |
0342: MOVWF x05 |
0344: MOVF x05,W |
0346: SUBLW 0F |
0348: BNC 0358 |
.................... usb_disable_endpoint(i); |
034A: MOVFF 705,706 |
034E: MOVLB 0 |
0350: RCALL 02DC |
0352: MOVLB 7 |
0354: INCF x05,F |
0356: BRA 0344 |
.................... |
.................... //__usb_kbhit_status=0; |
.................... } |
0358: MOVLB 0 |
035A: RETLW 00 |
.................... |
.................... /// END Hardware layer functions required by USB.C |
.................... |
.................... |
.................... /// BEGIN USB Interrupt Service Routine |
.................... |
.................... static void usb_clear_trn(void) |
.................... { |
.................... UIR_TRN = 0; |
* |
03AA: BCF F68.3 |
.................... delay_cycles(6); |
03AC: BRA 03AE |
03AE: BRA 03B0 |
03B0: BRA 03B2 |
.................... } |
03B2: RETLW 00 |
.................... |
.................... /***************************************************************************** |
.................... /* usb_handle_interrupt() |
.................... /* |
.................... /* Summary: Checks the interrupt, and acts upon event. Processing finished |
.................... /* tokens is the majority of this code, and is handled by usb.c |
.................... /* |
.................... /* NOTE: If you wish to change to a polling method (and not an interrupt |
.................... /* method), then you must call this function rapidly. If there is more |
.................... /* than 10ms latency the PC may think the USB device is stalled and |
.................... /* disable it. |
.................... /* To switch to a polling method, remove the #int_usb line above this |
.................... /* fuction. Also, goto usb_init() and remove the code that enables the |
.................... /* USB interrupt. |
.................... /******************************************************************************/ |
.................... #int_usb |
.................... void usb_isr() |
.................... { |
.................... int8 TRNAttempts; |
.................... |
.................... if (usb_state == USB_STATE_DETACHED) return; //should never happen, though |
* |
1274: MOVF 24,F |
1276: BNZ 127A |
1278: BRA 12EE |
.................... if (UIR) |
127A: MOVF F68,F |
127C: BZ 12EE |
.................... { |
.................... debug_usb(debug_putc,"\r\n\n[%X] ",UIR); |
.................... |
.................... //activity detected. (only enable after sleep) |
.................... if (UIR_ACTV && UIE_ACTV) {usb_isr_activity();} |
127E: BTFSS F68.2 |
1280: BRA 128A |
1282: BTFSS F69.2 |
1284: BRA 128A |
1286: GOTO 0274 |
.................... |
.................... if (UCON_SUSPND) return; |
128A: BTFSS F6D.1 |
128C: BRA 1290 |
128E: BRA 12EE |
.................... |
.................... if (UIR_STALL && UIE_STALL) {usb_isr_stall();} //a stall handshake was sent |
1290: BTFSS F68.5 |
1292: BRA 129C |
1294: BTFSS F69.5 |
1296: BRA 129C |
1298: GOTO 02A4 |
.................... |
.................... if (UIR_UERR && UIE_UERR) {usb_isr_uerr();} //error has been detected |
129C: BTFSS F68.1 |
129E: BRA 12A8 |
12A0: BTFSS F69.1 |
12A2: BRA 12A8 |
12A4: GOTO 02B2 |
.................... |
.................... if (UIR_URST && UIE_URST) {usb_isr_rst();} //usb reset has been detected |
12A8: BTFSS F68.0 |
12AA: BRA 12B4 |
12AC: BTFSS F69.0 |
12AE: BRA 12B4 |
12B0: GOTO 03B4 |
.................... |
.................... if (UIR_IDLE && UIE_IDLE) {usb_isr_uidle();} //idle time, we can go to sleep |
12B4: BTFSS F68.4 |
12B6: BRA 12C0 |
12B8: BTFSS F69.4 |
12BA: BRA 12C0 |
12BC: GOTO 03DE |
.................... |
.................... if (UIR_SOF && UIE_SOF) {usb_isr_sof();} |
12C0: BTFSS F68.6 |
12C2: BRA 12CC |
12C4: BTFSS F69.6 |
12C6: BRA 12CC |
12C8: GOTO 03E8 |
.................... |
.................... TRNAttempts = 0; |
12CC: MOVLB 6 |
12CE: CLRF xFA |
.................... do |
.................... { |
.................... if (UIR_TRN && UIE_TRN) |
12D0: BTFSS F68.3 |
12D2: BRA 12E0 |
12D4: BTFSS F69.3 |
12D6: BRA 12E0 |
.................... { |
.................... usb_isr_tok_dne(); |
12D8: MOVLB 0 |
12DA: BRA 108A |
.................... } |
.................... else |
12DC: BRA 12E2 |
12DE: MOVLB 6 |
.................... break; |
12E0: BRA 12EC |
.................... } while (TRNAttempts++ < 4); |
12E2: MOVLB 6 |
12E4: MOVF xFA,W |
12E6: INCF xFA,F |
12E8: SUBLW 03 |
12EA: BC 12D0 |
12EC: MOVLB 0 |
.................... } |
.................... } |
.................... |
.................... // SOF interrupt not handled. user must add this depending on application |
12EE: BCF FA1.5 |
12F0: GOTO 0064 |
.................... void usb_isr_sof(void) |
.................... { |
.................... debug_usb(debug_putc, "\r\nSOF"); |
.................... |
.................... UIR_SOF = 0; |
* |
03E8: BCF F68.6 |
.................... } |
03EA: GOTO 12CC (RETURN) |
.................... |
.................... /***************************************************************************** |
.................... /* usb_isr_rst() |
.................... /* |
.................... /* Summary: The host (computer) sent us a RESET command. Reset USB device |
.................... /* and token handler code to initial state. |
.................... /* |
.................... /******************************************************************************/ |
.................... void usb_isr_rst(void) |
.................... { |
.................... debug_usb(debug_putc,"R"); |
.................... |
.................... UEIR = 0; |
* |
03B4: CLRF F6A |
.................... UIR = 0; |
03B6: CLRF F68 |
.................... UEIE = 0x9F; |
03B8: MOVLW 9F |
03BA: MOVWF F6B |
.................... UIE = STANDARD_INTS & ~__USB_UIF_ACTIVE; |
03BC: MOVLW 3D |
03BE: MOVWF F69 |
.................... |
.................... UADDR = 0; |
03C0: CLRF F6E |
.................... |
.................... usb_disable_endpoints(); |
03C2: RCALL 033E |
.................... |
.................... usb_token_reset(); |
03C4: RCALL 037E |
.................... |
.................... UEP(0) = ENDPT_CONTROL | 0x10; |
03C6: MOVLW 16 |
03C8: MOVWF F70 |
.................... |
.................... while (UIR_TRN) |
.................... { |
03CA: BTFSS F68.3 |
03CC: BRA 03D2 |
.................... usb_clear_trn(); |
03CE: RCALL 03AA |
.................... } |
03D0: BRA 03CA |
.................... |
.................... UCON_PKTDIS = 0; //SIE token and packet processing enabled |
03D2: BCF F6D.4 |
.................... |
.................... usb_init_ep0_setup(); |
03D4: RCALL 0284 |
.................... |
.................... usb_state = USB_STATE_DEFAULT; //put usb mcu into default state |
03D6: MOVLW 03 |
03D8: MOVWF 24 |
.................... } |
03DA: GOTO 12B4 (RETURN) |
.................... |
.................... /***************************************************************************** |
.................... /* usb_init_ep0_setup() |
.................... /* |
.................... /* Summary: Configure EP0 to receive setup packets |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_init_ep0_setup(void) |
.................... { |
.................... EP_BDxCNT_O(0) = USB_MAX_EP0_PACKET_LENGTH; |
* |
0284: MOVLW 40 |
0286: MOVLB 4 |
0288: MOVWF x01 |
.................... EP_BDxADR_O(0) = USB_DATA_BUFFER_LOCATION; |
028A: MOVLW 04 |
028C: MOVWF x03 |
028E: MOVLW 18 |
0290: MOVWF x02 |
.................... #if USB_IGNORE_RX_DTS |
.................... EP_BDxST_O(0) = 0x80; //give control to SIE, data toggle synch off |
.................... #else |
.................... EP_BDxST_O(0) = 0x88; //give control to SIE, DATA0, data toggle synch on |
0292: MOVLW 88 |
0294: MOVWF x00 |
.................... #endif |
.................... |
.................... EP_BDxST_I(0) = 0; |
0296: CLRF x04 |
.................... EP_BDxADR_I(0) = USB_DATA_BUFFER_LOCATION + (int16)USB_MAX_EP0_PACKET_LENGTH; |
0298: MOVLW 04 |
029A: MOVWF x07 |
029C: MOVLW 58 |
029E: MOVWF x06 |
.................... } |
02A0: MOVLB 0 |
02A2: RETLW 00 |
.................... |
.................... /******************************************************************************* |
.................... /* usb_isr_uerr() |
.................... /* |
.................... /* Summary: The USB peripheral had an error. If user specified, error counter |
.................... /* will incerement. If having problems check the status of these 8 bytes. |
.................... /* |
.................... /* NOTE: This code is not enabled by default. |
.................... /********************************************************************************/ |
.................... void usb_isr_uerr(void) |
.................... { |
.................... #if USB_USE_ERROR_COUNTER |
.................... int ints; |
.................... #endif |
.................... |
.................... debug_usb(debug_putc,"E %X ",UEIR); |
.................... |
.................... #if USB_USE_ERROR_COUNTER |
.................... ints=UEIR & UEIE; //mask off the flags with the ones that are enabled |
.................... |
.................... if ( bit_test(ints,0) ) |
.................... { |
.................... //increment pid_error counter |
.................... debug_usb(debug_putc,"PID "); |
.................... ERROR_COUNTER[0]++; |
.................... } |
.................... |
.................... if ( bit_test(ints,1) ) |
.................... { |
.................... //increment crc5 error counter |
.................... debug_usb(debug_putc,"CRC5 "); |
.................... ERROR_COUNTER[1]++; |
.................... } |
.................... |
.................... if ( bit_test(ints,2) ) |
.................... { |
.................... //increment crc16 error counter |
.................... debug_usb(debug_putc,"CRC16 "); |
.................... ERROR_COUNTER[2]++; |
.................... } |
.................... |
.................... if ( bit_test(ints,3) ) |
.................... { |
.................... //increment dfn8 error counter |
.................... debug_usb(debug_putc,"DFN8 "); |
.................... ERROR_COUNTER[3]++; |
.................... } |
.................... |
.................... if ( bit_test(ints,4) ) |
.................... { |
.................... //increment bto error counter |
.................... debug_usb(debug_putc,"BTO "); |
.................... ERROR_COUNTER[4]++; |
.................... } |
.................... |
.................... if ( bit_test(ints,7) ) |
.................... { |
.................... //increment bts error counter |
.................... debug_usb(debug_putc,"BTS "); |
.................... ERROR_COUNTER[5]++; |
.................... } |
.................... #endif |
.................... |
.................... UEIR = 0; |
* |
02B2: CLRF F6A |
.................... UIR_UERR = 0; |
02B4: BCF F68.1 |
.................... } |
02B6: GOTO 12A8 (RETURN) |
.................... |
.................... /***************************************************************************** |
.................... /* usb_isr_uidle() |
.................... /* |
.................... /* Summary: USB peripheral detected IDLE. Put the USB peripheral to sleep. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_isr_uidle(void) |
.................... { |
.................... debug_usb(debug_putc, "I"); |
.................... |
.................... UIE_ACTV = 1; //enable activity interrupt flag. (we are now suspended until we get an activity interrupt. nice) |
* |
03DE: BSF F69.2 |
.................... UIR_IDLE = 0; //clear idle interrupt flag |
03E0: BCF F68.4 |
.................... UCON_SUSPND = 1; //set suspend. we are now suspended |
03E2: BSF F6D.1 |
.................... } |
03E4: GOTO 12C0 (RETURN) |
.................... |
.................... |
.................... /****************************************************************************** |
.................... /* usb_isr_activity() |
.................... /* |
.................... /* Summary: USB peripheral detected activity on the USB device. Wake-up the USB |
.................... /* peripheral. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_isr_activity(void) |
.................... { |
.................... debug_usb(debug_putc, "A"); |
.................... |
.................... UCON_SUSPND = 0; //turn off low power suspending |
* |
0274: BCF F6D.1 |
.................... UIE_ACTV = 0; //clear activity interupt enabling |
0276: BCF F69.2 |
.................... |
.................... while(UIR_ACTV) |
.................... UIR_ACTV = 0; |
0278: BTFSS F68.2 |
027A: BRA 0280 |
027C: BCF F68.2 |
027E: BRA 0278 |
.................... } |
0280: GOTO 128A (RETURN) |
.................... |
.................... /****************************************************************************** |
.................... /* usb_isr_stall() |
.................... /* |
.................... /* Summary: Stall handshake detected. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_isr_stall(void) |
.................... { |
.................... debug_usb(debug_putc, "S"); |
.................... |
.................... |
.................... if (bit_test(UEP(0),0)) |
* |
02A4: BTFSS F70.0 |
02A6: BRA 02AC |
.................... { |
.................... usb_init_ep0_setup(); |
02A8: RCALL 0284 |
.................... bit_clear(UEP(0), 0); |
02AA: BCF F70.0 |
.................... } |
.................... |
.................... UIR_STALL = 0; |
02AC: BCF F68.5 |
.................... } |
02AE: GOTO 129C (RETURN) |
.................... |
.................... // see usb_hw_layer.h for documentation |
.................... void usb_request_send_response(unsigned int8 len) {__setup_0_tx_size = len;} |
* |
03EE: MOVFF 700,25 |
03F2: RETLW 00 |
.................... void usb_request_get_data(void) {__setup_0_tx_size = 0xFE;} |
* |
0B0C: MOVLW FE |
0B0E: MOVWF 25 |
0B10: RETLW 00 |
.................... void usb_request_stall(void) {__setup_0_tx_size = 0xFF;} |
* |
03F4: MOVLW FF |
03F6: MOVWF 25 |
03F8: RETLW 00 |
.................... |
.................... /***************************************************************************** |
.................... /* usb_isr_tok_dne() |
.................... /* |
.................... /* Summary: A Token (IN/OUT/SETUP) has been received by the USB peripheral. |
.................... /* If a setup token on EP0 was received, run the chapter 9 code and |
.................... /* handle the request. |
.................... /* If an IN token on EP0 was received, continue transmitting any |
.................... /* unfinished requests that may take more than one packet to transmit |
.................... /* (if necessary). |
.................... /* If an OUT token on any other EP was received, mark that EP as ready |
.................... /* for a usb_get_packet(). |
.................... /* Does not handle any IN or OUT tokens on EP0. |
.................... /* |
.................... /*****************************************************************************/ |
.................... void usb_isr_tok_dne(void) |
.................... { |
.................... int8 en; |
.................... |
.................... en = USTAT>>3; |
* |
108A: RRCF F6C,W |
108C: MOVLB 6 |
108E: MOVWF xFB |
1090: RRCF xFB,F |
1092: RRCF xFB,F |
1094: MOVLW 1F |
1096: ANDWF xFB,F |
.................... |
.................... debug_usb(debug_putc, "T "); |
.................... debug_usb(debug_putc, "%X ", USTAT); |
.................... |
.................... if (USTAT == USTAT_OUT_SETUP_E0) |
1098: MOVF F6C,F |
109A: BNZ 1138 |
.................... { |
.................... //new out or setup token in the buffer |
.................... int8 pidKey; |
.................... |
.................... debug_usb(debug_putc,"%X ", EP_BDxST_O(0)); |
.................... |
.................... pidKey = EP_BDxST_O(0) & 0x3C; //save PID |
109C: MOVLB 4 |
109E: MOVF x00,W |
10A0: ANDLW 3C |
10A2: MOVLB 6 |
10A4: MOVWF xFC |
.................... |
.................... EP_BDxST_O(0) &= 0x43; //clear pid, prevent bdstal/pid confusion |
10A6: MOVLW 43 |
10A8: MOVLB 4 |
10AA: ANDWF x00,F |
.................... usb_clear_trn(); |
10AC: MOVLB 0 |
10AE: CALL 03AA |
.................... |
.................... if (pidKey == USB_PIC_PID_SETUP) |
10B2: MOVLB 6 |
10B4: MOVF xFC,W |
10B6: SUBLW 34 |
10B8: BNZ 10FE |
.................... { |
.................... EP_BDxST_I(0)=0; // return the in buffer to us (dequeue any pending requests) |
10BA: MOVLB 4 |
10BC: CLRF x04 |
.................... |
.................... debug_usb(debug_putc,"(%U) ", EP_BDxCNT_O(0)); |
.................... debug_display_ram(EP_BDxCNT_O(0), usb_ep0_rx_buffer); |
.................... |
.................... usb_isr_tok_setup_dne(); |
10BE: MOVLB 0 |
10C0: BRA 0BC0 |
.................... |
.................... UCON_PKTDIS=0; // UCON,PKT_DIS ; Assuming there is nothing to dequeue, clear the packet disable bit |
10C2: BCF F6D.4 |
.................... |
.................... //if setup_0_tx_size==0xFF - stall ep0 (unhandled request) (see usb_request_stall()) |
.................... //if setup_0_tx_size==0xFE - get EP0OUT ready for a data packet, leave EP0IN alone (see usb_request_get_data()) |
.................... //else setup_0_tx_size=size of response, get EP0OUT ready for a setup packet, mark EPOIN ready for transmit (see usb_request_send_response()) |
.................... if (__setup_0_tx_size == 0xFF) |
10C4: INCFSZ 25,W |
10C6: BRA 10D6 |
.................... usb_flush_out(0, USB_DTS_STALL); |
10C8: MOVLB 6 |
10CA: CLRF xFD |
10CC: MOVLW 03 |
10CE: MOVWF xFE |
10D0: MOVLB 0 |
10D2: RCALL 0BEA |
.................... else |
10D4: BRA 10FA |
.................... { |
.................... usb_flush_out(0, USB_DTS_TOGGLE); |
10D6: MOVLB 6 |
10D8: CLRF xFD |
10DA: MOVLW 02 |
10DC: MOVWF xFE |
10DE: MOVLB 0 |
10E0: RCALL 0BEA |
.................... if (__setup_0_tx_size != 0xFE) |
10E2: MOVF 25,W |
10E4: SUBLW FE |
10E6: BZ 10FA |
.................... usb_flush_in(0 ,__setup_0_tx_size, USB_DTS_USERX); |
10E8: MOVLB 7 |
10EA: CLRF x42 |
10EC: CLRF x44 |
10EE: MOVFF 25,743 |
10F2: MOVLW 04 |
10F4: MOVWF x45 |
10F6: MOVLB 0 |
10F8: RCALL 0D5C |
.................... } |
.................... //why was this here? |
.................... //UCON_PKTDIS=0; // UCON,PKT_DIS ; Assuming there is nothing to dequeue, clear the packet disable bit |
.................... } |
.................... else if (pidKey == USB_PIC_PID_OUT) |
10FA: BRA 1134 |
10FC: MOVLB 6 |
10FE: MOVF xFC,W |
1100: SUBLW 04 |
1102: BNZ 1136 |
.................... { |
.................... usb_isr_tok_out_dne(0); |
1104: CLRF xFD |
1106: MOVLB 0 |
1108: RCALL 0F42 |
.................... usb_flush_out(0, USB_DTS_TOGGLE); |
110A: MOVLB 6 |
110C: CLRF xFD |
110E: MOVLW 02 |
1110: MOVWF xFE |
1112: MOVLB 0 |
1114: RCALL 0BEA |
.................... if ((__setup_0_tx_size!=0xFE) && (__setup_0_tx_size!=0xFF)) |
1116: MOVF 25,W |
1118: SUBLW FE |
111A: BZ 1134 |
111C: INCFSZ 25,W |
111E: BRA 1122 |
1120: BRA 1134 |
.................... { |
.................... usb_flush_in(0,__setup_0_tx_size,USB_DTS_DATA1); //send response (usually a 0len) |
1122: MOVLB 7 |
1124: CLRF x42 |
1126: CLRF x44 |
1128: MOVFF 25,743 |
112C: MOVLW 01 |
112E: MOVWF x45 |
1130: MOVLB 0 |
1132: RCALL 0D5C |
1134: MOVLB 6 |
.................... } |
.................... } |
.................... } |
.................... else if (USTAT == USTAT_IN_E0) |
1136: BRA 126E |
1138: MOVF F6C,W |
113A: SUBLW 04 |
113C: BNZ 1178 |
.................... { |
.................... //pic -> host transfer completed |
.................... EP_BDxST_I(0) = EP_BDxST_I(0) & 0x43; //clear up any BDSTAL confusion |
113E: MOVLW 43 |
1140: MOVLB 4 |
1142: ANDWF x04,F |
.................... usb_clear_trn(); |
1144: MOVLB 0 |
1146: CALL 03AA |
.................... __setup_0_tx_size = 0xFF; |
114A: MOVLW FF |
114C: MOVWF 25 |
.................... usb_isr_tok_in_dne(0); |
114E: MOVLB 6 |
1150: CLRF xFD |
1152: MOVLB 0 |
1154: RCALL 1058 |
.................... if (__setup_0_tx_size!=0xFF) |
1156: INCFSZ 25,W |
1158: BRA 115C |
115A: BRA 1170 |
.................... usb_flush_in(0, __setup_0_tx_size, USB_DTS_TOGGLE); |
115C: MOVLB 7 |
115E: CLRF x42 |
1160: CLRF x44 |
1162: MOVFF 25,743 |
1166: MOVLW 02 |
1168: MOVWF x45 |
116A: MOVLB 0 |
116C: RCALL 0D5C |
.................... else |
116E: BRA 1174 |
.................... usb_init_ep0_setup(); |
1170: CALL 0284 |
.................... } |
.................... else |
1174: BRA 126C |
1176: MOVLB 6 |
.................... { |
.................... if (!bit_test(USTAT, 2)) |
1178: BTFSC F6C.2 |
117A: BRA 11E6 |
.................... { |
.................... EP_BDxST_O(en) = EP_BDxST_O(en) & 0x43; //clear up any BDSTAL confusion |
117C: MOVLB 7 |
117E: CLRF x49 |
1180: MOVFF 6FB,748 |
1184: CLRF x4B |
1186: MOVLW 08 |
1188: MOVWF x4A |
118A: MOVLB 0 |
118C: CALL 02BA |
1190: MOVFF 01,6FD |
1194: MOVLB 6 |
1196: MOVFF 01,01 |
119A: MOVLW 04 |
119C: ADDWF 02,W |
119E: MOVWF 03 |
11A0: MOVFF 01,6FD |
11A4: MOVWF xFE |
11A6: MOVLB 7 |
11A8: CLRF x49 |
11AA: MOVFF 6FB,748 |
11AE: CLRF x4B |
11B0: MOVLW 08 |
11B2: MOVWF x4A |
11B4: MOVLB 0 |
11B6: CALL 02BA |
11BA: MOVFF 01,FE9 |
11BE: MOVLW 04 |
11C0: MOVLB 7 |
11C2: ADDWF 02,W |
11C4: MOVWF FEA |
11C6: MOVF FEF,W |
11C8: ANDLW 43 |
11CA: MOVLB 6 |
11CC: MOVFF 6FE,FEA |
11D0: MOVFF 6FD,FE9 |
11D4: MOVWF FEF |
.................... usb_clear_trn(); |
11D6: MOVLB 0 |
11D8: CALL 03AA |
.................... usb_isr_tok_out_dne(en); |
11DC: MOVFF 6FB,6FD |
11E0: RCALL 0F42 |
.................... } |
.................... else |
11E2: BRA 126C |
11E4: MOVLB 6 |
.................... { |
.................... EP_BDxST_I(en) = EP_BDxST_I(en) & 0x43; //clear up any BDSTAL confusion |
11E6: MOVLB 7 |
11E8: CLRF x49 |
11EA: MOVFF 6FB,748 |
11EE: CLRF x4B |
11F0: MOVLW 08 |
11F2: MOVWF x4A |
11F4: MOVLB 0 |
11F6: CALL 02BA |
11FA: MOVFF 02,6FE |
11FE: MOVFF 01,6FD |
1202: MOVLW 04 |
1204: MOVLB 6 |
1206: ADDWF xFD,F |
1208: MOVLW 00 |
120A: ADDWFC xFE,F |
120C: MOVFF 6FD,01 |
1210: MOVLW 04 |
1212: ADDWF xFE,W |
1214: MOVWF 03 |
1216: MOVFF 6FD,6FD |
121A: MOVWF xFE |
121C: MOVLB 7 |
121E: CLRF x49 |
1220: MOVFF 6FB,748 |
1224: CLRF x4B |
1226: MOVLW 08 |
1228: MOVWF x4A |
122A: MOVLB 0 |
122C: CALL 02BA |
1230: MOVFF 02,700 |
1234: MOVFF 01,6FF |
1238: MOVLW 04 |
123A: MOVLB 6 |
123C: ADDWF xFF,F |
123E: MOVLW 00 |
1240: MOVLB 7 |
1242: ADDWFC x00,F |
1244: MOVFF 6FF,FE9 |
1248: MOVLW 04 |
124A: MOVLB 7 |
124C: ADDWF x00,W |
124E: MOVWF FEA |
1250: MOVF FEF,W |
1252: ANDLW 43 |
1254: MOVLB 6 |
1256: MOVFF 6FE,FEA |
125A: MOVFF 6FD,FE9 |
125E: MOVWF FEF |
.................... usb_clear_trn(); |
1260: MOVLB 0 |
1262: CALL 03AA |
.................... usb_isr_tok_in_dne(en); |
1266: MOVFF 6FB,6FD |
126A: RCALL 1058 |
126C: MOVLB 6 |
.................... } |
.................... } |
.................... } |
126E: MOVLB 0 |
1270: GOTO 12DC (RETURN) |
.................... |
.................... /// END USB Interrupt Service Routine |
.................... |
.................... #ENDIF |
.................... |
.................... #endif |
.................... |
.................... #if defined(__PIC24_USB_H__) |
.................... #include <pic24_usb.c> |
.................... #endif |
.................... |
.................... #if defined(__USBN960X_H__) |
.................... #include <usbn960x.c> |
.................... #endif |
.................... |
.................... |
.................... #IFNDEF __USB_HARDWARE__ |
.................... #ERROR You must include USB hardware driver. |
.................... #ENDIF |
.................... |
.................... #IFNDEF __USB_DESCRIPTORS__ |
.................... #ERROR You must include USB descriptors. |
.................... #ENDIF |
.................... |
.................... TYPE_USB_STACK_STATUS USB_stack_status; |
.................... |
.................... int8 USB_address_pending; //save previous state because packets can take several isrs |
.................... int8 usb_getdesc_ptr; unsigned int8 usb_getdesc_len=0; //for reading string and config descriptors |
.................... |
.................... #IF USB_HID_BOOT_PROTOCOL |
.................... int8 hid_protocol[USB_NUM_HID_INTERFACES]; |
.................... #ENDIF |
.................... |
.................... void usb_put_0len_0(void); |
.................... void usb_match_registers(int8 endpoint, int16 *status, int16 *buffer, int8 *size); |
.................... |
.................... void usb_isr_tkn_setup_StandardEndpoint(void); |
.................... void usb_isr_tkn_setup_StandardDevice(void); |
.................... void usb_isr_tkn_setup_StandardInterface(void); |
.................... #IF USB_HID_DEVICE |
.................... void usb_isr_tkn_setup_ClassInterface(void); |
.................... #ENDIF |
.................... void usb_Get_Descriptor(void); |
.................... void usb_copy_desc_seg_to_ep(void); |
.................... void usb_finish_set_address(void); |
.................... |
.................... int8 USB_Interface[USB_MAX_NUM_INTERFACES]; //config state for all of our interfaces, NUM_INTERFACES defined with descriptors |
.................... |
.................... /// BEGIN User Functions |
.................... |
.................... // see usb.h for documentation |
.................... int1 usb_enumerated(void) |
.................... { |
.................... return(USB_stack_status.curr_config); |
.................... } |
.................... |
.................... // see usb.h for documentation |
.................... void usb_wait_for_enumeration(void) |
.................... { |
.................... while (USB_stack_status.curr_config == 0) {restart_wdt();} |
.................... } |
.................... |
.................... // see USB.H for documentation |
.................... int1 usb_puts(int8 endpoint, int8 * ptr, unsigned int16 len, unsigned int8 timeout) { |
.................... unsigned int16 i=0; |
.................... int1 res; |
.................... unsigned int16 this_packet_len; |
.................... unsigned int16 packet_size; |
.................... unsigned int32 timeout_1us; |
.................... |
.................... packet_size = usb_ep_tx_size[endpoint]; |
.................... |
.................... //printf("\r\nUSB PUTS %U LEN=%LU MAX_PACK=%LU\r\n", endpoint, len, packet_size); |
.................... |
.................... //send data packets until timeout or no more packets to send |
.................... while (i < len) |
.................... { |
.................... timeout_1us = (int32)timeout*1000; |
.................... if ((len - i) > packet_size) {this_packet_len = packet_size;} |
.................... else {this_packet_len = len-i;} |
.................... //putc('*'); |
.................... do |
.................... { |
.................... res = usb_put_packet(endpoint, ptr + i, this_packet_len, USB_DTS_TOGGLE); //send 64 byte packets |
.................... //putc('.'); |
.................... if (!res) |
.................... { |
.................... delay_us(1); |
.................... //delay_ms(500); |
.................... timeout_1us--; |
.................... } |
.................... } while (!res && timeout_1us); |
.................... i += packet_size; |
.................... } |
.................... |
.................... |
.................... //send 0len packet if needed |
.................... if (i==len) { |
.................... timeout_1us=(int32)timeout*1000; |
.................... do { |
.................... res = usb_put_packet(endpoint,0,0,USB_DTS_TOGGLE); //indicate end of message |
.................... if (!res) { |
.................... delay_us(1); |
.................... timeout_1us--; |
.................... } |
.................... } while (!res && timeout_1us); |
.................... } |
.................... |
.................... return(res); |
.................... } |
.................... |
.................... // see usb.h for documentation |
.................... unsigned int16 usb_gets(int8 endpoint, int8 * ptr, unsigned int16 max, unsigned int16 timeout) { |
.................... unsigned int16 ret=0; |
.................... unsigned int16 to; |
.................... unsigned int16 len; |
.................... unsigned int16 packet_size; |
.................... unsigned int16 this_packet_max; |
.................... |
.................... packet_size=usb_ep_rx_size[endpoint]; |
.................... |
.................... do { |
.................... if (packet_size < max) {this_packet_max=packet_size;} else {this_packet_max=max;} |
.................... to=0; |
.................... do { |
.................... if (usb_kbhit(endpoint)) { |
.................... len=usb_get_packet(endpoint,ptr,this_packet_max); |
.................... ptr+=len; |
.................... max-=len; |
.................... ret+=len; |
.................... break; |
.................... } |
.................... else { |
.................... to++; |
.................... delay_ms(1); |
.................... } |
.................... } while (to!=timeout); |
.................... } while ((len == packet_size) && (to!=timeout) && max); |
.................... |
.................... return(ret); |
.................... } |
.................... |
.................... /// END User Functions |
.................... |
.................... |
.................... /// BEGIN USB Token, standard and HID request handler (part of ISR) |
.................... |
.................... // see usb.h for documentation |
.................... void usb_token_reset(void) |
.................... { |
.................... unsigned int i; |
.................... |
.................... for (i=0;i<USB_MAX_NUM_INTERFACES;i++) |
* |
037E: MOVLB 7 |
0380: CLRF x19 |
0382: MOVF x19,W |
0384: SUBLW 01 |
0386: BNC 039C |
.................... USB_Interface[i] = 0; //reset each interface to default |
0388: CLRF 03 |
038A: MOVF x19,W |
038C: ADDLW 29 |
038E: MOVWF FE9 |
0390: MOVLW 00 |
0392: ADDWFC 03,W |
0394: MOVWF FEA |
0396: CLRF FEF |
.................... |
.................... #IF USB_HID_BOOT_PROTOCOL |
.................... for (i=0;i<USB_NUM_HID_INTERFACES; i++) |
.................... hid_protocol[i] = 1; |
.................... #endif |
.................... |
.................... #if USB_CDC_DEVICE |
0398: INCF x19,F |
039A: BRA 0382 |
.................... usb_cdc_init(); |
039C: MOVLB 0 |
039E: RCALL 035C |
.................... #endif |
.................... |
.................... USB_stack_status.curr_config = 0; //unconfigured device |
03A0: CLRF 1E |
.................... |
.................... USB_stack_status.status_device = 1; //previous state. init at none |
03A2: MOVLW 01 |
03A4: MOVWF 1F |
.................... USB_stack_status.dev_req = NONE; //previous token request state. init at none |
03A6: CLRF 1D |
.................... } |
03A8: RETLW 00 |
.................... |
.................... //send a 0len packet to endpoint 0 (optimization) |
.................... //notice that this doesnt return the status |
.................... #define usb_put_0len_0() usb_request_send_response(0) |
.................... |
.................... /************************************************************** |
.................... /* usb_endpoint_is_valid(endpoint) |
.................... /* |
.................... /* Input: endpoint - endpoint to check. |
.................... /* bit 7 is direction (set is IN, clear is OUT) |
.................... /* |
.................... /* Output: TRUE if endpoint is valid, FALSE if not |
.................... /* |
.................... /* Summary: Checks the dynamic configuration to see if requested |
.................... /* endpoint is a valid endpoint. |
.................... /***************************************************************/ |
.................... int1 usb_endpoint_is_valid(int8 endpoint) |
.................... { |
.................... int1 direction; |
.................... direction = bit_test(endpoint,7); |
* |
08E8: MOVLB 6 |
08EA: BCF xFE.0 |
08EC: BTFSC xFD.7 |
08EE: BSF xFE.0 |
.................... endpoint &= 0x7F; |
08F0: BCF xFD.7 |
.................... if (direction) { //IN |
08F2: BTFSS xFE.0 |
08F4: BRA 091C |
.................... return(usb_ep_tx_type[endpoint] != USB_ENABLE_DISABLED); |
08F6: CLRF 03 |
08F8: MOVF xFD,W |
08FA: MOVFF FF2,6FF |
08FE: BCF FF2.7 |
0900: MOVLB 0 |
0902: CALL 00AA |
0906: MOVLB 6 |
0908: BTFSC xFF.7 |
090A: BSF FF2.7 |
090C: SUBLW FF |
090E: BNZ 0914 |
0910: MOVLW 00 |
0912: BRA 0916 |
0914: MOVLW 01 |
0916: MOVWF 01 |
0918: BRA 0940 |
.................... } |
.................... else { //OUT |
091A: BRA 0940 |
.................... return(usb_ep_rx_type[endpoint] != USB_ENABLE_DISABLED); |
091C: CLRF 03 |
091E: MOVF xFD,W |
0920: MOVFF FF2,6FF |
0924: BCF FF2.7 |
0926: MOVLB 0 |
0928: CALL 00CA |
092C: MOVLB 6 |
092E: BTFSC xFF.7 |
0930: BSF FF2.7 |
0932: SUBLW FF |
0934: BNZ 093A |
0936: MOVLW 00 |
0938: BRA 093C |
093A: MOVLW 01 |
093C: MOVWF 01 |
093E: BRA 0940 |
.................... } |
.................... } |
0940: MOVLB 0 |
0942: GOTO 0AA8 (RETURN) |
.................... |
.................... // see usb.h for documentation |
.................... void usb_isr_tok_in_dne(int8 endpoint) { |
.................... if (endpoint==0) { |
* |
1058: MOVLB 6 |
105A: MOVF xFD,F |
105C: BNZ 107A |
.................... if (USB_stack_status.dev_req == GET_DESCRIPTOR) {usb_copy_desc_seg_to_ep();} //check this, we are missing report descriptor? |
105E: DECFSZ 1D,W |
1060: BRA 106C |
1062: MOVLB 0 |
1064: CALL 03FA |
.................... else if (USB_stack_status.dev_req == SET_ADDRESS) {usb_finish_set_address();} |
1068: BRA 1076 |
106A: MOVLB 6 |
106C: MOVF 1D,W |
106E: SUBLW 02 |
1070: BNZ 1078 |
1072: MOVLB 0 |
1074: BRA 0F7A |
1076: MOVLB 6 |
.................... } |
.................... #if USB_CDC_DEVICE |
.................... else if (endpoint==USB_CDC_DATA_IN_ENDPOINT) { //see ex_usb_serial.c example and usb_cdc.h driver |
1078: BRA 1086 |
107A: MOVF xFD,W |
107C: SUBLW 02 |
107E: BNZ 1086 |
.................... usb_isr_tok_in_cdc_data_dne(); |
1080: MOVLB 0 |
1082: BRA 104E |
1084: MOVLB 6 |
.................... } |
.................... #endif |
.................... } |
1086: MOVLB 0 |
1088: RETLW 00 |
.................... |
.................... // see usb.h for documentation |
.................... void usb_isr_tok_out_dne(int8 endpoint) |
.................... { |
.................... //TODO: |
.................... if (endpoint==0) { |
* |
0F42: MOVLB 6 |
0F44: MOVF xFD,F |
0F46: BNZ 0F50 |
.................... debug_usb(debug_putc,"TOUT 0 "); |
.................... #if USB_CDC_DEVICE |
.................... usb_isr_tok_out_cdc_control_dne(); |
0F48: MOVLB 0 |
0F4A: BRA 0E7E |
.................... #else |
.................... usb_init_ep0_setup(); |
.................... #endif |
.................... } |
.................... #if USB_CDC_DEVICE |
.................... else if (endpoint==USB_CDC_DATA_OUT_ENDPOINT) { //see ex_usb_serial.c example and usb_cdc.h driver |
0F4C: BRA 0F5A |
0F4E: MOVLB 6 |
0F50: MOVF xFD,W |
0F52: SUBLW 02 |
0F54: BNZ 0F5C |
.................... usb_isr_tok_out_cdc_data_dne(); |
0F56: MOVLB 0 |
0F58: BRA 0F2C |
0F5A: MOVLB 6 |
.................... } |
.................... #endif |
.................... //else { |
.................... // bit_set(__usb_kbhit_status,endpoint); |
.................... //} |
.................... } |
0F5C: MOVLB 0 |
0F5E: RETLW 00 |
.................... |
.................... |
.................... //---- process setup message stage -----------// |
.................... |
.................... // see usb.h for documentation |
.................... void usb_isr_tok_setup_dne(void) |
.................... { |
.................... USB_stack_status.dev_req=NONE; // clear the device request.. |
* |
0BC0: CLRF 1D |
.................... |
.................... switch(usb_ep0_rx_buffer[0] & 0x7F) { |
0BC2: MOVLB 4 |
0BC4: MOVF x18,W |
0BC6: ANDLW 7F |
0BC8: MOVLB 0 |
0BCA: BZ 0BDA |
0BCC: XORLW 01 |
0BCE: BZ 0BDC |
0BD0: XORLW 03 |
0BD2: BZ 0BDE |
0BD4: XORLW 23 |
0BD6: BZ 0BE0 |
0BD8: BRA 0BE2 |
.................... |
.................... case 0x00: //standard to device |
.................... debug_usb(debug_putc," d"); |
.................... usb_isr_tkn_setup_StandardDevice(); |
0BDA: BRA 078C |
.................... break; |
.................... |
.................... case 0x01: //standard to interface |
.................... debug_usb(debug_putc," i"); |
.................... usb_isr_tkn_setup_StandardInterface(); |
0BDC: BRA 0840 |
.................... break; |
.................... |
.................... case 0x02: //standard to endpoint |
.................... debug_usb(debug_putc," e"); |
.................... usb_isr_tkn_setup_StandardEndpoint(); |
0BDE: BRA 0AA2 |
.................... break; |
.................... |
.................... #IF USB_HID_DEVICE |
.................... case 0x21: //class specific request. the only class this driver supports is HID |
.................... debug_usb(debug_putc," hid"); |
.................... usb_isr_tkn_setup_ClassInterface(); |
.................... break; |
.................... #endif |
.................... |
.................... #if USB_CDC_DEVICE |
.................... case 0x21: |
.................... debug_usb(debug_putc," cdc"); |
.................... usb_isr_tkn_cdc(); |
0BE0: BRA 0B12 |
.................... break; |
.................... #endif |
.................... //TODO: IF YOU WANT VENDOR SPECIFC REQUEST SUPPORT YOU MUST ADD IT HERE |
.................... |
.................... default: |
.................... usb_request_stall(); |
0BE2: RCALL 03F4 |
.................... break; |
0BE4: BRA 0BE6 |
.................... } |
.................... } |
0BE6: GOTO 10C2 (RETURN) |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tkn_setup_StandardDevice() |
.................... /* |
.................... /* Input: usb_ep0_rx_buffer[1] == bRequest |
.................... /* |
.................... /* Summary: bmRequestType told us it was a Standard Device request. |
.................... /* bRequest says which request. Only certain requests are valid, |
.................... /* if a non-valid request was made then return with an Wrong-Statue (IDLE) |
.................... /* |
.................... /* Part of usb_isr_tok_setup_dne() |
.................... /***************************************************************/ |
.................... void usb_isr_tkn_setup_StandardDevice(void) { |
.................... switch(usb_ep0_rx_buffer[1]) { |
* |
078C: MOVLB 4 |
078E: MOVF x19,W |
0790: MOVLB 0 |
0792: BZ 07AE |
0794: XORLW 01 |
0796: BZ 07C2 |
0798: XORLW 02 |
079A: BZ 07DC |
079C: XORLW 06 |
079E: BZ 07F4 |
07A0: XORLW 03 |
07A2: BZ 0806 |
07A4: XORLW 0E |
07A6: BZ 0808 |
07A8: XORLW 01 |
07AA: BZ 0818 |
07AC: BRA 0838 |
.................... |
.................... case USB_STANDARD_REQUEST_GET_STATUS: //0 |
.................... debug_usb(debug_putc,"GS"); |
.................... usb_ep0_tx_buffer[0]=USB_stack_status.status_device; |
07AE: MOVFF 1F,458 |
.................... usb_ep0_tx_buffer[1]=0; |
07B2: MOVLB 4 |
07B4: CLRF x59 |
.................... usb_request_send_response(2); |
07B6: MOVLW 02 |
07B8: MOVLB 7 |
07BA: MOVWF x00 |
07BC: MOVLB 0 |
07BE: RCALL 03EE |
.................... break; |
07C0: BRA 083C |
.................... |
.................... case USB_STANDARD_REQUEST_CLEAR_FEATURE: //1 |
.................... if (usb_ep0_rx_buffer[2] == 1) { |
07C2: MOVLB 4 |
07C4: DECFSZ x1A,W |
07C6: BRA 07D6 |
.................... debug_usb(debug_putc,"CF"); |
.................... USB_stack_status.status_device &= 1; |
07C8: MOVLW 01 |
07CA: ANDWF 1F,F |
.................... usb_put_0len_0(); |
07CC: MOVLB 7 |
07CE: CLRF x00 |
07D0: MOVLB 0 |
07D2: RCALL 03EE |
.................... } |
.................... else |
07D4: BRA 07DA |
.................... usb_request_stall(); |
07D6: MOVLB 0 |
07D8: RCALL 03F4 |
.................... break; |
07DA: BRA 083C |
.................... |
.................... case USB_STANDARD_REQUEST_SET_FEATURE: //3 |
.................... if (usb_ep0_rx_buffer[2] == 1) { |
07DC: MOVLB 4 |
07DE: DECFSZ x1A,W |
07E0: BRA 07EE |
.................... debug_usb(debug_putc,"SF"); |
.................... USB_stack_status.status_device |= 2; |
07E2: BSF 1F.1 |
.................... usb_put_0len_0(); |
07E4: MOVLB 7 |
07E6: CLRF x00 |
07E8: MOVLB 0 |
07EA: RCALL 03EE |
.................... } |
.................... else |
07EC: BRA 07F2 |
.................... usb_request_stall(); |
07EE: MOVLB 0 |
07F0: RCALL 03F4 |
.................... break; |
07F2: BRA 083C |
.................... |
.................... case USB_STANDARD_REQUEST_SET_ADDRESS: //5 |
.................... debug_usb(debug_putc,"SA"); |
.................... USB_stack_status.dev_req=SET_ADDRESS; //currently processing set_address request |
07F4: MOVLW 02 |
07F6: MOVWF 1D |
.................... USB_address_pending=usb_ep0_rx_buffer[2]; |
07F8: MOVFF 41A,26 |
.................... #ifdef __USBN__ //NATIONAL part handles this differently than pic16c7x5 |
.................... USB_stack_status.dev_req=NONE; //currently processing set_address request |
.................... usb_set_address(USB_address_pending); |
.................... USB_stack_status.curr_config=0; // make sure current configuration is 0 |
.................... #endif |
.................... usb_put_0len_0(); |
07FC: MOVLB 7 |
07FE: CLRF x00 |
0800: MOVLB 0 |
0802: RCALL 03EE |
.................... break; |
0804: BRA 083C |
.................... |
.................... case USB_STANDARD_REQUEST_GET_DESCRIPTOR: //6 |
.................... debug_usb(debug_putc,"GD"); |
.................... usb_Get_Descriptor(); |
0806: BRA 049C |
.................... break; |
.................... |
.................... case USB_STANDARD_REQUEST_GET_CONFIGURATION: //8 |
.................... debug_usb(debug_putc,"GC"); |
.................... usb_ep0_tx_buffer[0]=USB_stack_status.curr_config; |
0808: MOVFF 1E,458 |
.................... usb_request_send_response(1); |
080C: MOVLW 01 |
080E: MOVLB 7 |
0810: MOVWF x00 |
0812: MOVLB 0 |
0814: RCALL 03EE |
.................... break; |
0816: BRA 083C |
.................... |
.................... case USB_STANDARD_REQUEST_SET_CONFIGURATION: //9 |
.................... if (usb_ep0_rx_buffer[2] <= USB_NUM_CONFIGURATIONS) { |
0818: MOVLB 4 |
081A: MOVF x1A,W |
081C: SUBLW 01 |
081E: BNC 0834 |
.................... USB_stack_status.curr_config=usb_ep0_rx_buffer[2]; |
0820: MOVFF 41A,1E |
.................... usb_set_configured(usb_ep0_rx_buffer[2]); |
0824: MOVFF 41A,6FD |
0828: MOVLB 0 |
082A: BRA 055C |
.................... debug_usb(debug_putc,"SC%U", USB_stack_status.curr_config); |
.................... usb_put_0len_0(); |
082C: MOVLB 7 |
082E: CLRF x00 |
0830: MOVLB 0 |
0832: RCALL 03EE |
.................... } |
.................... break; |
0834: MOVLB 0 |
0836: BRA 083C |
.................... |
.................... default: |
.................... usb_request_stall(); |
0838: RCALL 03F4 |
.................... break; |
083A: BRA 083C |
.................... } |
.................... } |
083C: GOTO 0BE6 (RETURN) |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tkn_setup_StandardInterface() |
.................... /* |
.................... /* Input: usb_ep0_rx_buffer[1] == bRequest |
.................... /* |
.................... /* Summary: bmRequestType told us it was a Standard Interface request. |
.................... /* bRequest says which request. Only certain requests are valid, |
.................... /* if a non-valid request was made then return with an Wrong-Statue (IDLE) |
.................... /* |
.................... /* Part of usb_isr_tok_setup_dne() |
.................... /***************************************************************/ |
.................... void usb_isr_tkn_setup_StandardInterface(void) { |
.................... int8 curr_config; |
.................... |
.................... curr_config=USB_stack_status.curr_config; |
0840: MOVFF 1E,6FD |
.................... |
.................... switch (usb_ep0_rx_buffer[1]) { |
0844: MOVLB 4 |
0846: MOVF x19,W |
0848: MOVLB 0 |
084A: BZ 0856 |
084C: XORLW 0A |
084E: BZ 0868 |
0850: XORLW 01 |
0852: BZ 08B6 |
0854: BRA 08E0 |
.................... case USB_STANDARD_REQUEST_GET_STATUS: |
.................... debug_usb(debug_putc,"GS"); |
.................... usb_ep0_tx_buffer[0]=0; |
0856: MOVLB 4 |
0858: CLRF x58 |
.................... usb_ep0_tx_buffer[1]=0; |
085A: CLRF x59 |
.................... usb_request_send_response(2); |
085C: MOVLW 02 |
085E: MOVLB 7 |
0860: MOVWF x00 |
0862: MOVLB 0 |
0864: RCALL 03EE |
.................... break; |
0866: BRA 08E4 |
.................... |
.................... case USB_STANDARD_REQUEST_GET_INTERFACE: |
.................... if ( curr_config && (usb_ep0_rx_buffer[4] < USB_NUM_INTERFACES[curr_config-1]) ) { //book says only supports configed state |
0868: MOVLB 6 |
086A: MOVF xFD,F |
086C: BZ 08B0 |
086E: MOVLW 01 |
0870: SUBWF xFD,W |
0872: CLRF 03 |
0874: MOVFF FF2,6FE |
0878: BCF FF2.7 |
087A: MOVLB 0 |
087C: RCALL 019E |
087E: MOVLB 6 |
0880: BTFSC xFE.7 |
0882: BSF FF2.7 |
0884: MOVWF 01 |
0886: MOVLB 4 |
0888: SUBWF x1C,W |
088A: BTFSS FD8.0 |
088C: BRA 0892 |
088E: MOVLB 6 |
0890: BRA 08B0 |
.................... debug_usb(debug_putc,"GI"); |
.................... usb_ep0_tx_buffer[0]=USB_Interface[usb_ep0_rx_buffer[4]];//our new outgoing byte |
0892: CLRF 03 |
0894: MOVF x1C,W |
0896: ADDLW 29 |
0898: MOVWF FE9 |
089A: MOVLW 00 |
089C: ADDWFC 03,W |
089E: MOVWF FEA |
08A0: MOVFF FEF,458 |
.................... usb_request_send_response(1);; //send byte back |
08A4: MOVLW 01 |
08A6: MOVLB 7 |
08A8: MOVWF x00 |
08AA: MOVLB 0 |
08AC: RCALL 03EE |
.................... } |
.................... else |
08AE: BRA 08B4 |
.................... usb_request_stall(); |
08B0: MOVLB 0 |
08B2: RCALL 03F4 |
.................... break; |
08B4: BRA 08E4 |
.................... |
.................... case USB_STANDARD_REQUEST_SET_INTERFACE: |
.................... if (curr_config) { //if configured state |
08B6: MOVLB 6 |
08B8: MOVF xFD,F |
08BA: BZ 08DA |
.................... debug_usb(debug_putc,"SI"); |
.................... USB_Interface[usb_ep0_rx_buffer[4]]=usb_ep0_rx_buffer[2]; |
08BC: CLRF 03 |
08BE: MOVLB 4 |
08C0: MOVF x1C,W |
08C2: ADDLW 29 |
08C4: MOVWF FE9 |
08C6: MOVLW 00 |
08C8: ADDWFC 03,W |
08CA: MOVWF FEA |
08CC: MOVFF 41A,FEF |
.................... usb_put_0len_0(); |
08D0: MOVLB 7 |
08D2: CLRF x00 |
08D4: MOVLB 0 |
08D6: RCALL 03EE |
.................... } |
.................... else |
08D8: BRA 08DE |
.................... usb_request_stall(); |
08DA: MOVLB 0 |
08DC: RCALL 03F4 |
.................... break; |
08DE: BRA 08E4 |
.................... |
.................... #IF USB_HID_DEVICE |
.................... case USB_STANDARD_REQUEST_GET_DESCRIPTOR: |
.................... debug_usb(debug_putc,"GD"); |
.................... usb_Get_Descriptor(); |
.................... break; |
.................... #endif |
.................... |
.................... // case USB_STANDARD_REQUEST_CLEAR_FEATURE: |
.................... // case USB_STANDARD_REQUEST_SET_FEATURE: |
.................... // let default take care of these, goto wrongstate |
.................... default: |
.................... usb_request_stall(); |
08E0: RCALL 03F4 |
.................... break; |
08E2: BRA 08E4 |
.................... } |
.................... } |
08E4: GOTO 0BE6 (RETURN) |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tkn_setup_StandardEndpoint() |
.................... /* |
.................... /* Input: usb_ep0_rx_buffer[1] == bRequest |
.................... /* |
.................... /* Summary: bmRequestType told us it was a Standard Endpoint request. |
.................... /* bRequest says which request. Only certain requests are valid, |
.................... /* if a non-valid request was made then return with an Wrong-Statue (IDLE) |
.................... /* |
.................... /* Part of usb_isr_tok_setup_dne() |
.................... /***************************************************************/ |
.................... void usb_isr_tkn_setup_StandardEndpoint(void) { |
.................... if (usb_endpoint_is_valid(usb_ep0_rx_buffer[4])) { |
* |
0AA2: MOVFF 41C,6FD |
0AA6: BRA 08E8 |
0AA8: MOVF 01,F |
0AAA: BZ 0B08 |
.................... switch(usb_ep0_rx_buffer[1]) { |
0AAC: MOVLB 4 |
0AAE: MOVF x19,W |
0AB0: XORLW 01 |
0AB2: MOVLB 0 |
0AB4: BZ 0AC0 |
0AB6: XORLW 02 |
0AB8: BZ 0AD0 |
0ABA: XORLW 03 |
0ABC: BZ 0AE0 |
0ABE: BRA 0B04 |
.................... |
.................... case USB_STANDARD_REQUEST_CLEAR_FEATURE: |
.................... debug_usb(debug_putc,"CF"); |
.................... usb_unstall_ep(usb_ep0_rx_buffer[4]); |
0AC0: MOVFF 41C,6FD |
0AC4: BRA 0946 |
.................... usb_put_0len_0(); |
0AC6: MOVLB 7 |
0AC8: CLRF x00 |
0ACA: MOVLB 0 |
0ACC: RCALL 03EE |
.................... break; |
0ACE: BRA 0B08 |
.................... |
.................... case USB_STANDARD_REQUEST_SET_FEATURE: |
.................... debug_usb(debug_putc,"SF"); |
.................... usb_stall_ep(usb_ep0_rx_buffer[4]); |
0AD0: MOVFF 41C,6FD |
0AD4: BRA 09B4 |
.................... usb_put_0len_0(); |
0AD6: MOVLB 7 |
0AD8: CLRF x00 |
0ADA: MOVLB 0 |
0ADC: RCALL 03EE |
.................... break; |
0ADE: BRA 0B08 |
.................... |
.................... case USB_STANDARD_REQUEST_GET_STATUS: |
.................... debug_usb(debug_putc,"GS"); |
.................... usb_ep0_tx_buffer[0]=0; |
0AE0: MOVLB 4 |
0AE2: CLRF x58 |
.................... usb_ep0_tx_buffer[1]=0; |
0AE4: CLRF x59 |
.................... if (usb_endpoint_stalled(usb_ep0_rx_buffer[4])) { |
0AE6: MOVFF 41C,6FD |
0AEA: MOVLB 0 |
0AEC: BRA 0A24 |
0AEE: MOVF 01,F |
0AF0: BZ 0AF8 |
.................... usb_ep0_tx_buffer[0]=1; |
0AF2: MOVLW 01 |
0AF4: MOVLB 4 |
0AF6: MOVWF x58 |
.................... } |
.................... usb_request_send_response(2); |
0AF8: MOVLW 02 |
0AFA: MOVLB 7 |
0AFC: MOVWF x00 |
0AFE: MOVLB 0 |
0B00: RCALL 03EE |
.................... break; |
0B02: BRA 0B08 |
.................... |
.................... default: |
.................... usb_request_stall(); |
0B04: RCALL 03F4 |
.................... break; |
0B06: BRA 0B08 |
.................... } |
.................... } |
.................... } |
0B08: GOTO 0BE6 (RETURN) |
.................... |
.................... /************************************************************** |
.................... /* usb_isr_tkn_setup_ClassInterface() |
.................... /* |
.................... /* Input: usb_ep0_rx_buffer[1] == bRequest |
.................... /* |
.................... /* Summary: bmRequestType told us it was a Class request. The only Class this drivers supports is HID. |
.................... /* bRequest says which request. Only certain requests are valid, |
.................... /* if a non-valid request was made then return with an Wrong-Statue (IDLE) |
.................... /* |
.................... /* Part of usb_isr_tok_setup_dne() |
.................... /* Only compiled if HID_DEVICE is TRUE |
.................... /***************************************************************/ |
.................... #IF USB_HID_DEVICE |
.................... void usb_isr_tkn_setup_ClassInterface(void) { |
.................... switch(usb_ep0_rx_buffer[1]) { |
.................... |
.................... #IF USB_HID_BOOT_PROTOCOL |
.................... case USB_HID_REQUEST_GET_PROTOCOL: //03 |
.................... debug_usb(debug_putc,"GP"); |
.................... usb_ep0_tx_buffer[0]=hid_protocol[usb_ep0_rx_buffer[4]]; |
.................... usb_request_send_response(1); |
.................... break; |
.................... #ENDIF |
.................... |
.................... #IF USB_HID_BOOT_PROTOCOL |
.................... case USB_HID_REQUEST_SET_PROTOCOL: //0b |
.................... debug_usb(debug_putc,"SP"); |
.................... hid_protocol[usb_ep0_rx_buffer[4]]=usb_ep0_rx_buffer[2]; |
.................... usb_put_0len_0(); //send 0len packet69 |
.................... break; |
.................... #ENDIF |
.................... |
.................... #IF USB_HID_IDLE |
.................... case USB_HID_REQUEST_SET_IDLE: //0a |
.................... #error TODO: if you want to support SET_IDLE, add code here |
.................... #ENDIF |
.................... |
.................... #IF USB_HID_IDLE |
.................... case USB_HID_REQUEST_GET_IDLE: //02 |
.................... #error TODO: if you want to support GET_IDLE, add code here |
.................... #ENDIF |
.................... |
.................... default: |
.................... usb_request_stall(); |
.................... break; |
.................... } |
.................... } |
.................... #ENDIF |
.................... |
.................... /************************************************************** |
.................... /* usb_Get_Descriptor() |
.................... /* |
.................... /* Input: usb_ep0_rx_buffer[3] == wValue, which descriptor we want |
.................... /* usb_ep0_rx_buffer[6,7] == Max length the host will accept |
.................... /* |
.................... /* Summary: Checks to see if we want a standard descriptor (Interface, Endpoint, Config, Device, String, etc.), |
.................... /* or a class specific (HID) descriptor. Since some pics (especially the PIC167x5) doesn't have |
.................... /* pointers to constants we must simulate or own by setting up global registers that say |
.................... /* which constant array to deal with, which position to start in this array, and the length. |
.................... /* Once these globals are setup the first packet is sent. If a descriptor takes more than one packet |
.................... /* the PC will send an IN request to endpoint 0, and this will be handled by usb_isr_tok_in_dne() |
.................... /* which will send the rest of the data. |
.................... /* |
.................... /* Part of usb_isr_tok_setup_dne() |
.................... /***************************************************************/ |
.................... void usb_Get_Descriptor() { |
.................... usb_getdesc_ptr=0; |
* |
049C: CLRF 27 |
.................... USB_stack_status.getdesc_type=USB_GETDESC_CONFIG_TYPE; |
049E: CLRF 20 |
.................... |
.................... switch(usb_ep0_rx_buffer[3]) { |
04A0: MOVLB 4 |
04A2: MOVF x1B,W |
04A4: XORLW 01 |
04A6: MOVLB 0 |
04A8: BZ 04B8 |
04AA: XORLW 03 |
04AC: BZ 04C2 |
04AE: XORLW 01 |
04B0: BZ 04C8 |
04B2: XORLW 22 |
04B4: BZ 04FA |
04B6: BRA 053C |
.................... case USB_DESC_DEVICE_TYPE: //1 |
.................... usb_getdesc_len=USB_DESC_DEVICE_LEN; |
04B8: MOVLW 12 |
04BA: MOVWF 28 |
.................... USB_stack_status.getdesc_type=USB_GETDESC_DEVICE_TYPE; |
04BC: MOVLW 03 |
04BE: MOVWF 20 |
.................... break; |
04C0: BRA 0540 |
.................... |
.................... //windows hosts will send a FF max len and expect you to send all configs without asking for them individually. |
.................... case USB_DESC_CONFIG_TYPE: //2 |
.................... usb_getdesc_len=USB_TOTAL_CONFIG_LEN; |
04C2: MOVLW 43 |
04C4: MOVWF 28 |
.................... break; |
04C6: BRA 0540 |
.................... |
.................... case USB_DESC_STRING_TYPE: //3 |
.................... USB_stack_status.getdesc_type=USB_GETDESC_STRING_TYPE; |
04C8: MOVLW 02 |
04CA: MOVWF 20 |
.................... usb_getdesc_ptr=USB_STRING_DESC_OFFSET[usb_ep0_rx_buffer[2]]; |
04CC: CLRF 03 |
04CE: MOVLB 4 |
04D0: MOVF x1A,W |
04D2: ADDLW 21 |
04D4: MOVWF FE9 |
04D6: MOVLW 00 |
04D8: ADDWFC 03,W |
04DA: MOVWF FEA |
04DC: MOVFF FEF,27 |
.................... usb_getdesc_len=USB_STRING_DESC[usb_getdesc_ptr]; |
04E0: CLRF 03 |
04E2: MOVF 27,W |
04E4: MOVFF FF2,6FD |
04E8: BCF FF2.7 |
04EA: MOVLB 0 |
04EC: RCALL 01EA |
04EE: MOVLB 6 |
04F0: BTFSC xFD.7 |
04F2: BSF FF2.7 |
04F4: MOVWF 28 |
.................... break; |
04F6: MOVLB 0 |
04F8: BRA 0540 |
.................... |
.................... #IF USB_HID_DEVICE || USB_CDC_DEVICE |
.................... case USB_DESC_CLASS_TYPE: //0x21 |
.................... //TODO does this work for multiple interfaces or multiple languages? |
.................... //usb_getdesc_ptr=USB_CLASS_DESCRIPTORS[0][usb_ep0_rx_buffer[4]][usb_ep0_rx_buffer[2]]; |
.................... usb_getdesc_ptr=USB_CLASS_DESCRIPTORS[0][0][usb_ep0_rx_buffer[2]]; |
04FA: CLRF 03 |
04FC: MOVLB 4 |
04FE: MOVF x1A,W |
0500: MOVFF FF2,6FD |
0504: BCF FF2.7 |
0506: MOVLB 0 |
0508: RCALL 01B0 |
050A: MOVLB 6 |
050C: BTFSC xFD.7 |
050E: BSF FF2.7 |
0510: MOVWF 27 |
.................... if (usb_getdesc_ptr!=0xFF) { |
0512: INCFSZ 27,W |
0514: BRA 0518 |
0516: BRA 0536 |
.................... usb_getdesc_len=USB_CONFIG_DESC[usb_getdesc_ptr]; |
0518: CLRF 03 |
051A: MOVF 27,W |
051C: MOVFF FF2,6FD |
0520: BCF FF2.7 |
0522: MOVLB 0 |
0524: RCALL 014A |
0526: MOVLB 6 |
0528: BTFSC xFD.7 |
052A: BSF FF2.7 |
052C: MOVWF 28 |
.................... break; |
052E: MOVLB 0 |
0530: BRA 0540 |
.................... } |
.................... else { |
0532: BRA 053C |
0534: MOVLB 6 |
.................... usb_request_stall(); |
0536: MOVLB 0 |
0538: RCALL 03F4 |
.................... return; |
053A: BRA 0558 |
.................... } |
.................... #endif |
.................... |
.................... #IF USB_HID_DEVICE |
.................... case USB_DESC_HIDREPORT_TYPE: //0x22 |
.................... usb_getdesc_ptr=USB_CLASS_SPECIFIC_DESC_LOOKUP[0][usb_ep0_rx_buffer[4]]; |
.................... if (usb_getdesc_ptr !=0xFF) { |
.................... USB_stack_status.getdesc_type=USB_GETDESC_HIDREPORT_TYPE; |
.................... usb_getdesc_len=USB_CLASS_SPECIFIC_DESC_LOOKUP_SIZE[0][usb_ep0_rx_buffer[4]]; |
.................... break; |
.................... } |
.................... else { |
.................... usb_request_stall(); |
.................... return; |
.................... } |
.................... #endif |
.................... |
.................... default: |
.................... usb_request_stall(); |
053C: RCALL 03F4 |
.................... return; |
053E: BRA 0558 |
.................... } |
.................... if (usb_ep0_rx_buffer[7]==0) { |
0540: MOVLB 4 |
0542: MOVF x1F,F |
0544: BNZ 0550 |
.................... if (usb_getdesc_len > usb_ep0_rx_buffer[6]) |
0546: MOVF 28,W |
0548: SUBWF x1E,W |
054A: BC 0550 |
.................... usb_getdesc_len = usb_ep0_rx_buffer[6]; |
054C: MOVFF 41E,28 |
.................... } |
.................... USB_stack_status.dev_req=GET_DESCRIPTOR; |
0550: MOVLW 01 |
0552: MOVWF 1D |
.................... usb_copy_desc_seg_to_ep(); |
0554: MOVLB 0 |
0556: RCALL 03FA |
.................... } |
0558: GOTO 083C (RETURN) |
.................... |
.................... /************************************************************** |
.................... /* usb_finish_set_address() |
.................... /* |
.................... /* Input: USB_address_pending holds the address we were asked to set to. |
.................... /* |
.................... /* Summary: Sets the address. |
.................... /* |
.................... /* This code should only be run on the PIC USB peripheral, and not the |
.................... /* National peripheral. |
.................... /* |
.................... /* Part of usb_isr_tok_setup_dne() |
.................... /***************************************************************/ |
.................... void usb_finish_set_address() { |
.................... debug_usb(debug_putc," FSA "); |
.................... USB_stack_status.curr_config=0; // make sure current configuration is 0 |
* |
0F7A: CLRF 1E |
.................... |
.................... #ifdef __PIC__ |
.................... USB_stack_status.dev_req=NONE; // no request pending |
0F7C: CLRF 1D |
.................... usb_set_address(USB_address_pending); |
0F7E: MOVFF 26,6FE |
0F82: BRA 0F60 |
.................... #endif |
.................... } |
0F84: GOTO 1076 (RETURN) |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... /// |
.................... /// The following function retrieve data from constant arrays. This may |
.................... /// look un-optimized, but remember that you can't create a pointer to |
.................... /// a constant array. |
.................... /// |
.................... /////////////////////////////////////////////////////////////////////////// |
.................... void usb_copy_desc_seg_to_ep(void) { |
.................... unsigned int i=0; |
* |
03FA: MOVLB 6 |
03FC: CLRF xFE |
.................... char c; |
.................... |
.................... while ((usb_getdesc_len)&&(i<USB_MAX_EP0_PACKET_LENGTH)) |
.................... { |
03FE: MOVF 28,F |
0400: BZ 0486 |
0402: MOVF xFE,W |
0404: SUBLW 3F |
0406: BNC 0486 |
.................... switch(USB_stack_status.getdesc_type) { |
0408: MOVF 20,W |
040A: MOVLB 0 |
040C: BZ 0418 |
040E: XORLW 02 |
0410: BZ 0432 |
0412: XORLW 01 |
0414: BZ 044C |
0416: BRA 0466 |
.................... case USB_GETDESC_CONFIG_TYPE: |
.................... c=USB_CONFIG_DESC[usb_getdesc_ptr]; |
0418: CLRF 03 |
041A: MOVF 27,W |
041C: MOVFF FF2,700 |
0420: BCF FF2.7 |
0422: RCALL 014A |
0424: MOVLB 7 |
0426: BTFSC x00.7 |
0428: BSF FF2.7 |
042A: MOVFF FE8,6FF |
.................... break; |
042E: MOVLB 0 |
0430: BRA 0466 |
.................... |
.................... #IF USB_HID_DEVICE |
.................... case USB_GETDESC_HIDREPORT_TYPE: |
.................... c=USB_CLASS_SPECIFIC_DESC[usb_getdesc_ptr]; |
.................... break; |
.................... #endif |
.................... |
.................... case USB_GETDESC_STRING_TYPE: |
.................... c=USB_STRING_DESC[usb_getdesc_ptr]; |
0432: CLRF 03 |
0434: MOVF 27,W |
0436: MOVFF FF2,700 |
043A: BCF FF2.7 |
043C: RCALL 01EA |
043E: MOVLB 7 |
0440: BTFSC x00.7 |
0442: BSF FF2.7 |
0444: MOVFF FE8,6FF |
.................... break; |
0448: MOVLB 0 |
044A: BRA 0466 |
.................... |
.................... case USB_GETDESC_DEVICE_TYPE: |
.................... c=USB_DEVICE_DESC[usb_getdesc_ptr]; |
044C: CLRF 03 |
044E: MOVF 27,W |
0450: MOVFF FF2,700 |
0454: BCF FF2.7 |
0456: RCALL 01C8 |
0458: MOVLB 7 |
045A: BTFSC x00.7 |
045C: BSF FF2.7 |
045E: MOVFF FE8,6FF |
.................... break; |
0462: MOVLB 0 |
0464: BRA 0466 |
.................... } |
.................... usb_getdesc_ptr++; |
0466: INCF 27,F |
.................... usb_getdesc_len--; |
0468: DECF 28,F |
.................... usb_ep0_tx_buffer[i++]=c; |
046A: MOVLB 6 |
046C: MOVF xFE,W |
046E: INCF xFE,F |
0470: ADDLW 58 |
0472: CLRF 03 |
0474: BTFSC FD8.0 |
0476: INCF 03,F |
0478: MOVWF FE9 |
047A: MOVLW 04 |
047C: ADDWF 03,W |
047E: MOVWF FEA |
0480: MOVFF 6FF,FEF |
.................... } |
0484: BRA 03FE |
.................... |
.................... if ((!usb_getdesc_len)&&(i!=USB_MAX_EP0_PACKET_LENGTH)) { |
0486: MOVF 28,F |
0488: BNZ 0492 |
048A: MOVF xFE,W |
048C: SUBLW 40 |
048E: BZ 0492 |
.................... USB_stack_status.dev_req = NONE; |
0490: CLRF 1D |
.................... } |
.................... |
.................... usb_request_send_response(i); |
0492: MOVFF 6FE,700 |
0496: MOVLB 0 |
0498: RCALL 03EE |
.................... } |
049A: RETLW 00 |
.................... |
.................... #ENDIF |
.................... |
.................... |
.................... struct { |
.................... unsigned int32 dwDTERrate; //data terminal rate, in bits per second |
.................... unsigned int8 bCharFormat; //num of stop bits (0=1, 1=1.5, 2=2) |
.................... unsigned int8 bParityType; //parity (0=none, 1=odd, 2=even, 3=mark, 4=space) |
.................... unsigned int8 bDataBits; //data bits (5,6,7,8 or 16) |
.................... } __attribute__((__packed__)) usb_cdc_line_coding; |
.................... |
.................... //length of time, in ms, of break signal as we received in a SendBreak message. |
.................... //if ==0xFFFF, send break signal until we receive a 0x0000. |
.................... unsigned int16 usb_cdc_break; |
.................... |
.................... unsigned int8 usb_cdc_encapsulated_cmd[8]; |
.................... |
.................... unsigned int8 usb_cdc_put_buffer[USB_CDC_DATA_IN_SIZE]; |
.................... #define usb_cdc_put_buffer_free() usb_tbe(USB_CDC_DATA_IN_ENDPOINT) |
.................... #if USB_CDC_DATA_IN_SIZE>=0x100 |
.................... unsigned int16 usb_cdc_put_buffer_nextin=0; |
.................... // int16 usb_cdc_last_data_packet_size; |
.................... #else |
.................... unsigned int8 usb_cdc_put_buffer_nextin=0; |
.................... // int8 usb_cdc_last_data_packet_size; |
.................... #endif |
.................... |
.................... struct { |
.................... int1 got; |
.................... #if USB_CDC_DATA_OUT_SIZE>=0x100 |
.................... unsigned int16 len; |
.................... unsigned int16 index; |
.................... #else |
.................... unsigned int8 len; |
.................... unsigned int8 index; |
.................... #endif |
.................... } usb_cdc_get_buffer_status; |
.................... |
.................... #if defined(__PIC__) |
.................... #define usb_cdc_get_buffer_status_buffer usb_ep2_rx_buffer |
.................... #else |
.................... unsigned int8 usb_cdc_get_buffer_status_buffer[USB_CDC_DATA_OUT_SIZE]; |
.................... #endif |
.................... |
.................... int1 usb_cdc_got_set_line_coding; |
.................... |
.................... struct { |
.................... int1 dte_present; //1=DTE present, 0=DTE not present |
.................... int1 active; //1=activate carrier, 0=deactivate carrier |
.................... unsigned int reserved:6; |
.................... } usb_cdc_carrier; |
.................... |
.................... unsigned int8 g_LastCDCDataPacketSize; |
.................... |
.................... enum {USB_CDC_OUT_NOTHING=0, USB_CDC_OUT_COMMAND=1, USB_CDC_OUT_LINECODING=2, USB_CDC_WAIT_0LEN=3} __usb_cdc_state=0; |
.................... |
.................... #if defined(__PCH__) |
.................... #byte INTCON=0xFF2 |
.................... #bit INT_GIE=INTCON.7 |
.................... #else |
.................... #word SR=0x42 |
.................... #endif |
.................... |
.................... //handle OUT token done interrupt on endpoint 0 [read encapsulated cmd and line coding data] |
.................... void usb_isr_tok_out_cdc_control_dne(void) { |
.................... debug_usb(debug_putc,"CDC %X ",__usb_cdc_state); |
.................... |
.................... switch (__usb_cdc_state) { |
* |
0E7E: MOVF x83,W |
0E80: XORLW 01 |
0E82: BZ 0E8A |
0E84: XORLW 03 |
0E86: BZ 0EB2 |
0E88: BRA 0EDA |
.................... //printf(putc_tbe,"@%X@\r\n", __usb_cdc_state); |
.................... case USB_CDC_OUT_COMMAND: |
.................... //usb_get_packet(0, usb_cdc_encapsulated_cmd, 8); |
.................... memcpy(usb_cdc_encapsulated_cmd, usb_ep0_rx_buffer,8); |
0E8A: CLRF FEA |
0E8C: MOVLW 34 |
0E8E: MOVWF FE9 |
0E90: MOVLW 04 |
0E92: MOVWF FE2 |
0E94: MOVLW 18 |
0E96: MOVWF FE1 |
0E98: MOVLW 08 |
0E9A: MOVWF 01 |
0E9C: MOVFF FE6,FEE |
0EA0: DECFSZ 01,F |
0EA2: BRA 0E9C |
.................... #if USB_MAX_EP0_PACKET_LENGTH==8 |
.................... __usb_cdc_state=USB_CDC_WAIT_0LEN; |
.................... usb_request_get_data(); |
.................... #else |
.................... usb_put_0len_0(); |
0EA4: MOVLB 7 |
0EA6: CLRF x00 |
0EA8: MOVLB 0 |
0EAA: CALL 03EE |
.................... __usb_cdc_state=0; |
0EAE: CLRF x83 |
.................... #endif |
.................... break; |
0EB0: BRA 0EE2 |
.................... |
.................... #if USB_MAX_EP0_PACKET_LENGTH==8 |
.................... case USB_CDC_WAIT_0LEN: |
.................... usb_put_0len_0(); |
.................... __usb_cdc_state=0; |
.................... break; |
.................... #endif |
.................... |
.................... case USB_CDC_OUT_LINECODING: |
.................... //usb_get_packet(0, &usb_cdc_line_coding, 7); |
.................... //printf(putc_tbe,"\r\n!GSLC FIN!\r\n"); |
.................... memcpy(&usb_cdc_line_coding, usb_ep0_rx_buffer,7); |
0EB2: CLRF FEA |
0EB4: MOVLW 2B |
0EB6: MOVWF FE9 |
0EB8: MOVLW 04 |
0EBA: MOVWF FE2 |
0EBC: MOVLW 18 |
0EBE: MOVWF FE1 |
0EC0: MOVLW 07 |
0EC2: MOVWF 01 |
0EC4: MOVFF FE6,FEE |
0EC8: DECFSZ 01,F |
0ECA: BRA 0EC4 |
.................... __usb_cdc_state=0; |
0ECC: CLRF x83 |
.................... usb_put_0len_0(); |
0ECE: MOVLB 7 |
0ED0: CLRF x00 |
0ED2: MOVLB 0 |
0ED4: CALL 03EE |
.................... break; |
0ED8: BRA 0EE2 |
.................... |
.................... default: |
.................... __usb_cdc_state=0; |
0EDA: CLRF x83 |
.................... usb_init_ep0_setup(); |
0EDC: CALL 0284 |
.................... break; |
0EE0: BRA 0EE2 |
.................... } |
.................... } |
0EE2: GOTO 0F4C (RETURN) |
.................... |
.................... //handle IN token on 0 (setup packet) |
.................... void usb_isr_tkn_cdc(void) { |
.................... //make sure the request goes to a CDC interface |
.................... if ((usb_ep0_rx_buffer[4] == 1) || (usb_ep0_rx_buffer[4] == 0)) { |
* |
0B12: MOVLB 4 |
0B14: DECFSZ x1C,W |
0B16: BRA 0B1A |
0B18: BRA 0B1E |
0B1A: MOVF x1C,F |
0B1C: BNZ 0BBA |
.................... //printf(putc_tbe,"!%X!\r\n", usb_ep0_rx_buffer[1]); |
.................... switch(usb_ep0_rx_buffer[1]) { |
0B1E: MOVF x19,W |
0B20: MOVLB 0 |
0B22: BZ 0B3A |
0B24: XORLW 01 |
0B26: BZ 0B42 |
0B28: XORLW 21 |
0B2A: BZ 0B64 |
0B2C: XORLW 01 |
0B2E: BZ 0B6E |
0B30: XORLW 03 |
0B32: BZ 0B94 |
0B34: XORLW 01 |
0B36: BZ 0BA2 |
0B38: BRA 0BB4 |
.................... case 0x00: //send_encapsulated_command |
.................... __usb_cdc_state=USB_CDC_OUT_COMMAND; |
0B3A: MOVLW 01 |
0B3C: MOVWF x83 |
.................... usb_request_get_data(); |
0B3E: RCALL 0B0C |
.................... break; |
0B40: BRA 0BB8 |
.................... |
.................... case 0x01: //get_encapsulated_command |
.................... memcpy(usb_ep0_tx_buffer, usb_cdc_encapsulated_cmd, 8); |
0B42: MOVLW 04 |
0B44: MOVWF FEA |
0B46: MOVLW 58 |
0B48: MOVWF FE9 |
0B4A: CLRF FE2 |
0B4C: MOVLW 34 |
0B4E: MOVWF FE1 |
0B50: MOVLW 08 |
0B52: MOVWF 01 |
0B54: MOVFF FE6,FEE |
0B58: DECFSZ 01,F |
0B5A: BRA 0B54 |
.................... usb_request_send_response(usb_ep0_rx_buffer[6]); //send wLength bytes |
0B5C: MOVFF 41E,700 |
0B60: RCALL 03EE |
.................... break; |
0B62: BRA 0BB8 |
.................... |
.................... case 0x20: //set_line_coding |
.................... debug_usb(debug_putc,"!GSLC!"); |
.................... __usb_cdc_state=USB_CDC_OUT_LINECODING; |
0B64: MOVLW 02 |
0B66: MOVWF x83 |
.................... usb_cdc_got_set_line_coding=TRUE; |
0B68: BSF x80.0 |
.................... usb_request_get_data(); |
0B6A: RCALL 0B0C |
.................... break; |
0B6C: BRA 0BB8 |
.................... |
.................... case 0x21: //get_line_coding |
.................... memcpy(usb_ep0_tx_buffer, &usb_cdc_line_coding, sizeof(usb_cdc_line_coding)); |
0B6E: MOVLW 04 |
0B70: MOVWF FEA |
0B72: MOVLW 58 |
0B74: MOVWF FE9 |
0B76: CLRF FE2 |
0B78: MOVLW 2B |
0B7A: MOVWF FE1 |
0B7C: MOVLW 07 |
0B7E: MOVWF 01 |
0B80: MOVFF FE6,FEE |
0B84: DECFSZ 01,F |
0B86: BRA 0B80 |
.................... usb_request_send_response(sizeof(usb_cdc_line_coding)); //send wLength bytes |
0B88: MOVLW 07 |
0B8A: MOVLB 7 |
0B8C: MOVWF x00 |
0B8E: MOVLB 0 |
0B90: RCALL 03EE |
.................... break; |
0B92: BRA 0BB8 |
.................... |
.................... case 0x22: //set_control_line_state |
.................... usb_cdc_carrier=usb_ep0_rx_buffer[2]; |
0B94: MOVFF 41A,81 |
.................... usb_put_0len_0(); |
0B98: MOVLB 7 |
0B9A: CLRF x00 |
0B9C: MOVLB 0 |
0B9E: RCALL 03EE |
.................... break; |
0BA0: BRA 0BB8 |
.................... |
.................... case 0x23: //send_break |
.................... usb_cdc_break=make16(usb_ep0_rx_buffer[2],usb_ep0_rx_buffer[3]); |
0BA2: MOVFF 41A,33 |
0BA6: MOVFF 41B,32 |
.................... usb_put_0len_0(); |
0BAA: MOVLB 7 |
0BAC: CLRF x00 |
0BAE: MOVLB 0 |
0BB0: RCALL 03EE |
.................... break; |
0BB2: BRA 0BB8 |
.................... |
.................... default: |
.................... usb_request_stall(); |
0BB4: RCALL 03F4 |
.................... break; |
0BB6: BRA 0BB8 |
0BB8: MOVLB 4 |
.................... } |
.................... } |
.................... } |
0BBA: MOVLB 0 |
0BBC: GOTO 0BE6 (RETURN) |
.................... |
.................... //handle OUT token done interrupt on endpoint 3 [buffer incoming received chars] |
.................... void usb_isr_tok_out_cdc_data_dne(void) { |
.................... usb_cdc_get_buffer_status.got=TRUE; |
* |
0F2C: BSF x7D.0 |
.................... usb_cdc_get_buffer_status.index=0; |
0F2E: CLRF x7F |
.................... #if (defined(__PIC__) && __PIC__) |
.................... usb_cdc_get_buffer_status.len=usb_rx_packet_size(USB_CDC_DATA_OUT_ENDPOINT); |
0F30: MOVLW 02 |
0F32: MOVLB 6 |
0F34: MOVWF xFE |
0F36: MOVLB 0 |
0F38: BRA 0EE6 |
0F3A: MOVFF 01,7E |
.................... #else |
.................... usb_cdc_get_buffer_status.len=usb_get_packet_buffer( |
.................... USB_CDC_DATA_OUT_ENDPOINT,&usb_cdc_get_buffer_status_buffer[0],USB_CDC_DATA_OUT_SIZE); |
.................... #endif |
.................... } |
0F3E: GOTO 0F5A (RETURN) |
.................... |
.................... //handle IN token done interrupt on endpoint 2 [transmit buffered characters] |
.................... void usb_isr_tok_in_cdc_data_dne(void) |
.................... { |
.................... //putc('!'); |
.................... if (usb_cdc_put_buffer_nextin /* || (g_LastCDCDataPacketSize == USB_CDC_DATA_IN_SIZE)*/ ) |
* |
104E: MOVF x7C,F |
1050: BZ 1054 |
.................... { |
.................... //printf("FL3 %LU\r\n", (int16)usb_cdc_put_buffer_nextin); |
.................... usb_cdc_flush_out_buffer(); |
1052: RCALL 102C |
.................... } |
.................... } |
1054: GOTO 1084 (RETURN) |
.................... |
.................... void usb_cdc_flush_out_buffer(void) |
.................... { |
.................... //printf(putc_tbe, "FL %U\r\n", usb_cdc_put_buffer_nextin); |
.................... usb_put_packet(USB_CDC_DATA_IN_ENDPOINT,usb_cdc_put_buffer,usb_cdc_put_buffer_nextin,USB_DTS_TOGGLE); |
* |
102C: MOVLW 02 |
102E: MOVLB 7 |
1030: MOVWF x3A |
1032: CLRF x3C |
1034: MOVLW 3C |
1036: MOVWF x3B |
1038: CLRF x3E |
103A: MOVFF 7C,73D |
103E: MOVLW 02 |
1040: MOVWF x3F |
1042: MOVLB 0 |
1044: RCALL 0F88 |
.................... g_LastCDCDataPacketSize = usb_cdc_put_buffer_nextin; |
1046: MOVFF 7C,82 |
.................... usb_cdc_put_buffer_nextin=0; |
104A: CLRF x7C |
.................... } |
104C: RETLW 00 |
.................... |
.................... void usb_cdc_init(void) |
.................... { |
.................... usb_cdc_line_coding.dwDTERrate = 9600; |
* |
035C: CLRF 2E |
035E: CLRF 2D |
0360: MOVLW 25 |
0362: MOVWF 2C |
0364: MOVLW 80 |
0366: MOVWF 2B |
.................... usb_cdc_line_coding.bCharFormat = 0; |
0368: CLRF 2F |
.................... usb_cdc_line_coding.bParityType = 0; |
036A: CLRF 30 |
.................... usb_cdc_line_coding.bDataBits = 8; |
036C: MOVLW 08 |
036E: MOVWF 31 |
.................... (int8)usb_cdc_carrier = 0; |
0370: CLRF x81 |
.................... usb_cdc_got_set_line_coding = FALSE; |
0372: BCF x80.0 |
.................... usb_cdc_break = 0; |
0374: CLRF 33 |
0376: CLRF 32 |
.................... usb_cdc_put_buffer_nextin = 0; |
0378: CLRF x7C |
.................... usb_cdc_get_buffer_status.got = 0; |
037A: BCF x7D.0 |
.................... } |
037C: RETLW 00 |
.................... |
.................... ////////////////// END USB CONTROL HANDLING ////////////////////////////////// |
.................... |
.................... ////////////////// BEGIN USB<->RS232 CDC LIBRARY ///////////////////////////// |
.................... |
.................... void usb_cdc_get_discard(void) |
.................... { |
.................... usb_cdc_get_buffer_status.got = FALSE; |
.................... usb_flush_out(USB_CDC_DATA_OUT_ENDPOINT, USB_DTS_TOGGLE); |
.................... } |
.................... |
.................... char usb_cdc_getc(void) |
.................... { |
.................... char c; |
.................... |
.................... while (!usb_cdc_kbhit()) {} |
.................... |
.................... c=usb_cdc_get_buffer_status_buffer[usb_cdc_get_buffer_status.index++]; |
.................... |
.................... if (usb_cdc_get_buffer_status.index >= usb_cdc_get_buffer_status.len) |
.................... { |
.................... usb_cdc_get_discard(); |
.................... } |
.................... |
.................... return(c); |
.................... } |
.................... |
.................... void usb_cdc_putc_fast(char c) |
.................... { |
.................... #if defined(__PCH__) |
.................... int1 old_gie; |
.................... |
.................... //disable global interrupts |
.................... old_gie = INT_GIE; |
* |
1376: MOVLB 6 |
1378: BCF xDD.0 |
137A: BTFSC FF2.7 |
137C: BSF xDD.0 |
.................... INT_GIE = 0; |
137E: BCF FF2.7 |
.................... #else |
.................... int16 oldSR; |
.................... |
.................... oldSR = SR; |
.................... SR |= 0xE0; |
.................... #endif |
.................... |
.................... if (usb_cdc_put_buffer_nextin >= USB_CDC_DATA_IN_SIZE) { |
1380: MOVLB 0 |
1382: MOVF x7C,W |
1384: SUBLW 3F |
1386: BC 138C |
.................... usb_cdc_put_buffer_nextin = USB_CDC_DATA_IN_SIZE-1; //we just overflowed the buffer! |
1388: MOVLW 3F |
138A: MOVWF x7C |
.................... } |
.................... usb_cdc_put_buffer[usb_cdc_put_buffer_nextin++] = c; |
138C: MOVF x7C,W |
138E: INCF x7C,F |
1390: CLRF 03 |
1392: ADDLW 3C |
1394: MOVWF FE9 |
1396: MOVLW 00 |
1398: ADDWFC 03,W |
139A: MOVWF FEA |
139C: MOVFF 6DC,FEF |
.................... |
.................... //renable global interrupts |
.................... #if defined(__PCH__) |
.................... INT_GIE = old_gie; |
13A0: BCF FF2.7 |
13A2: MOVLB 6 |
13A4: BTFSC xDD.0 |
13A6: BSF FF2.7 |
13A8: CLRF 18 |
13AA: BTFSC FF2.7 |
13AC: BSF 18.7 |
13AE: BCF FF2.7 |
.................... #else |
.................... SR = oldSR; |
.................... #endif |
.................... |
.................... /* |
.................... if (usb_tbe(USB_CDC_DATA_IN_ENDPOINT)) { |
.................... if (usb_cdc_put_buffer_nextin) |
.................... usb_cdc_flush_out_buffer(); |
.................... } |
.................... */ |
.................... if (usb_cdc_put_buffer_free()) { |
13B0: MOVLW 02 |
13B2: MOVLB 7 |
13B4: MOVWF x47 |
13B6: MOVLB 0 |
13B8: RCALL 0D06 |
13BA: BTFSC 18.7 |
13BC: BSF FF2.7 |
13BE: MOVF 01,F |
13C0: BZ 13D0 |
13C2: CLRF 18 |
13C4: BTFSC FF2.7 |
13C6: BSF 18.7 |
13C8: BCF FF2.7 |
.................... //printf("FL2 %LU\r\n", (int16)usb_cdc_put_buffer_nextin); |
.................... usb_cdc_flush_out_buffer(); |
13CA: RCALL 102C |
13CC: BTFSC 18.7 |
13CE: BSF FF2.7 |
.................... } |
.................... //putc('*'); |
.................... } |
13D0: GOTO 140A (RETURN) |
.................... |
.................... void usb_cdc_putc(char c) |
.................... { |
.................... while (!usb_cdc_putready()) |
.................... { |
13D4: MOVF x7C,W |
13D6: SUBLW 3F |
13D8: BC 1404 |
13DA: CLRF 18 |
13DC: BTFSC FF2.7 |
13DE: BSF 18.7 |
13E0: BCF FF2.7 |
.................... if (usb_cdc_put_buffer_free()) |
13E2: MOVLW 02 |
13E4: MOVLB 7 |
13E6: MOVWF x47 |
13E8: MOVLB 0 |
13EA: RCALL 0D06 |
13EC: BTFSC 18.7 |
13EE: BSF FF2.7 |
13F0: MOVF 01,F |
13F2: BZ 1402 |
13F4: CLRF 18 |
13F6: BTFSC FF2.7 |
13F8: BSF 18.7 |
13FA: BCF FF2.7 |
.................... { |
.................... //printf("FL1 %LU\r\n", (int16)usb_cdc_put_buffer_nextin); |
.................... usb_cdc_flush_out_buffer(); |
13FC: RCALL 102C |
13FE: BTFSC 18.7 |
1400: BSF FF2.7 |
.................... } |
.................... //delay_ms(500); |
.................... //printf(putc_tbe,"TBE=%U CNT=%U LST=%U\r\n",usb_tbe(USB_CDC_DATA_IN_ENDPOINT), usb_cdc_put_buffer_nextin, usb_cdc_last_data_packet_size); |
.................... } |
1402: BRA 13D4 |
.................... //putc('.'); |
.................... //putc(c); |
.................... usb_cdc_putc_fast(c); |
1404: MOVFF 6DB,6DC |
1408: BRA 1376 |
.................... } |
140A: RETLW 00 |
.................... |
.................... #include <ctype.h> |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2003 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS C //// |
.................... //// compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, reproduction //// |
.................... //// or distribution is permitted without written permission. //// |
.................... //// Derivative programs created using this software in object code //// |
.................... //// form are not restricted in any way. //// |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... |
.................... #ifndef _CTYPE |
.................... #define _CTYPE |
.................... |
.................... #define islower(x) isamong(x,"abcdefghijklmnopqrstuvwxyz") |
.................... #define isupper(x) isamong(x,"ABCDEFGHIJKLMNOPQRSTUVWXYZ") |
.................... #define isalnum(x) isamong(x,"0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz") |
.................... #define isalpha(x) isamong(x,"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz") |
.................... #define isdigit(x) isamong(x,"0123456789") |
.................... #define isspace(x) ((x)==' ') |
.................... #define isxdigit(x) isamong(x,"0123456789ABCDEFabcdef") |
.................... #define iscntrl(x) ((x)<' ') |
.................... #define isprint(x) ((x)>=' ') |
.................... #define isgraph(x) ((x)>' ') |
.................... #define ispunct(x) (((x)>' ')&&!isalnum(x)) |
.................... |
.................... #endif |
.................... |
.................... |
.................... |
.................... BYTE gethex1_usb() |
.................... { |
.................... char digit; |
.................... |
.................... digit = usb_cdc_getc(); |
.................... |
.................... usb_cdc_putc(digit); |
.................... |
.................... if(digit<='9') |
.................... return(digit-'0'); |
.................... else |
.................... return((toupper(digit)-'A')+10); |
.................... } |
.................... |
.................... BYTE gethex_usb() { |
.................... unsigned int8 lo,hi; |
.................... |
.................... hi = gethex1_usb(); |
.................... lo = gethex1_usb(); |
.................... if(lo==0xdd) |
.................... return(hi); |
.................... else |
.................... return( hi*16+lo ); |
.................... } |
.................... |
.................... void get_string_usb(char* s, unsigned int max) { |
.................... unsigned int len; |
.................... char c; |
.................... |
.................... --max; |
.................... len=0; |
.................... do { |
.................... c=usb_cdc_getc(); |
.................... if(c==8) { // Backspace |
.................... if(len>0) { |
.................... len--; |
.................... usb_cdc_putc(c); |
.................... usb_cdc_putc(' '); |
.................... usb_cdc_putc(c); |
.................... } |
.................... } else if ((c>=' ')&&(c<='~')) |
.................... if(len<max) { |
.................... s[len++]=c; |
.................... usb_cdc_putc(c); |
.................... } |
.................... } while(c!=13); |
.................... s[len]=0; |
.................... } |
.................... |
.................... |
.................... // stdlib.h is required for the ato_ conversions |
.................... // in the following functions |
.................... #ifdef _STDLIB |
.................... |
.................... signed int get_int_usb() { |
.................... char s[7]; |
.................... signed int i; |
.................... |
.................... get_string_usb(s, 7); |
.................... |
.................... i=atoi(s); |
.................... return(i); |
.................... } |
.................... |
.................... signed long get_long_usb() { |
.................... char s[13]; |
.................... signed long l; |
.................... |
.................... get_string_usb(s, 13); |
.................... l=atol(s); |
.................... return(l); |
.................... } |
.................... |
.................... float get_float_usb() { |
.................... char s[20]; |
.................... float f; |
.................... |
.................... get_string_usb(s, 20); |
.................... f = atof(s); |
.................... return(f); |
.................... } |
.................... |
.................... #endif |
.................... |
.................... #include <math.h> |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... //// (C) Copyright 1996,2008 Custom Computer Services //// |
.................... //// This source code may only be used by licensed users of the CCS C //// |
.................... //// compiler. This source code may only be distributed to other //// |
.................... //// licensed users of the CCS C compiler. No other use, reproduction //// |
.................... //// or distribution is permitted without written permission. //// |
.................... //// Derivative programs created using this software in object code //// |
.................... //// form are not restricted in any way. //// |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... //// //// |
.................... //// History: //// |
.................... //// * 9/20/2001 : Improvments are made to sin/cos code. //// |
.................... //// The code now is small, much faster, //// |
.................... //// and more accurate. //// |
.................... //// * 2/21/2007 : Compiler handles & operator differently and does |
.................... //// not return generic (int8 *) so type cast is done //// |
.................... //// //// |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... |
.................... #ifndef MATH_H |
.................... #define MATH_H |
.................... |
.................... #ifdef PI |
.................... #undef PI |
.................... #endif |
.................... #define PI 3.1415926535897932 |
.................... |
.................... |
.................... #define SQRT2 1.4142135623730950 |
.................... |
.................... //float const ps[4] = {5.9304945, 21.125224, 8.9403076, 0.29730279}; |
.................... //float const qs[4] = {1.0000000, 15.035723, 17.764134, 2.4934718}; |
.................... |
.................... ///////////////////////////// Round Functions ////////////////////////////// |
.................... |
.................... float32 CEIL_FLOOR(float32 x, unsigned int8 n) |
.................... { |
.................... float32 y, res; |
.................... unsigned int16 l; |
.................... int1 s; |
.................... |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y <= 32768.0) |
.................... res = (float32)(unsigned int16)y; |
.................... |
.................... else if (y < 10000000.0) |
.................... { |
.................... l = (unsigned int16)(y/32768.0); |
.................... y = 32768.0*(y/32768.0 - (float32)l); |
.................... res = 32768.0*(float32)l; |
.................... res += (float32)(unsigned int16)y; |
.................... } |
.................... |
.................... else |
.................... res = y; |
.................... |
.................... y = y - (float32)(unsigned int16)y; |
.................... |
.................... if (s) |
.................... res = -res; |
.................... |
.................... if (y != 0) |
.................... { |
.................... if (s == 1 && n == 0) |
.................... res -= 1.0; |
.................... |
.................... if (s == 0 && n == 1) |
.................... res += 1.0; |
.................... } |
.................... if (x == 0) |
.................... res = 0; |
.................... |
.................... return (res); |
.................... } |
.................... |
.................... // Overloaded Functions to take care for new Data types in PCD |
.................... // Overloaded function CEIL_FLOOR() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 CEIL_FLOOR(float48 x, unsigned int8 n) |
.................... { |
.................... float48 y, res; |
.................... unsigned int16 l; |
.................... int1 s; |
.................... |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y <= 32768.0) |
.................... res = (float48)(unsigned int16)y; |
.................... |
.................... else if (y < 10000000.0) |
.................... { |
.................... l = (unsigned int16)(y/32768.0); |
.................... y = 32768.0*(y/32768.0 - (float48)l); |
.................... res = 32768.0*(float32)l; |
.................... res += (float48)(unsigned int16)y; |
.................... } |
.................... |
.................... else |
.................... res = y; |
.................... |
.................... y = y - (float48)(unsigned int16)y; |
.................... |
.................... if (s) |
.................... res = -res; |
.................... |
.................... if (y != 0) |
.................... { |
.................... if (s == 1 && n == 0) |
.................... res -= 1.0; |
.................... |
.................... if (s == 0 && n == 1) |
.................... res += 1.0; |
.................... } |
.................... if (x == 0) |
.................... res = 0; |
.................... |
.................... return (res); |
.................... } |
.................... |
.................... |
.................... // Overloaded function CEIL_FLOOR() for data type - Float64 |
.................... float64 CEIL_FLOOR(float64 x, unsigned int8 n) |
.................... { |
.................... float64 y, res; |
.................... unsigned int16 l; |
.................... int1 s; |
.................... |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y <= 32768.0) |
.................... res = (float64)(unsigned int16)y; |
.................... |
.................... else if (y < 10000000.0) |
.................... { |
.................... l = (unsigned int16)(y/32768.0); |
.................... y = 32768.0*(y/32768.0 - (float64)l); |
.................... res = 32768.0*(float64)l; |
.................... res += (float64)(unsigned int16)y; |
.................... } |
.................... |
.................... else |
.................... res = y; |
.................... |
.................... y = y - (float64)(unsigned int16)y; |
.................... |
.................... if (s) |
.................... res = -res; |
.................... |
.................... if (y != 0) |
.................... { |
.................... if (s == 1 && n == 0) |
.................... res -= 1.0; |
.................... |
.................... if (s == 0 && n == 1) |
.................... res += 1.0; |
.................... } |
.................... if (x == 0) |
.................... res = 0; |
.................... |
.................... return (res); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float floor(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : rounds down the number x. |
.................... // Date : N/A |
.................... // |
.................... float32 floor(float32 x) |
.................... { |
.................... return CEIL_FLOOR(x, 0); |
.................... } |
.................... // Following 2 functions are overloaded functions of floor() for PCD |
.................... // Overloaded function floor() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 floor(float48 x) |
.................... { |
.................... return CEIL_FLOOR(x, 0); |
.................... } |
.................... |
.................... // Overloaded function floor() for data type - Float64 |
.................... float64 floor(float64 x) |
.................... { |
.................... return CEIL_FLOOR(x, 0); |
.................... } |
.................... #endif |
.................... |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float ceil(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : rounds up the number x. |
.................... // Date : N/A |
.................... // |
.................... float32 ceil(float32 x) |
.................... { |
.................... return CEIL_FLOOR(x, 1); |
.................... } |
.................... // Following 2 functions are overloaded functions of ceil() for PCD |
.................... // Overloaded function ceil() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 ceil(float48 x) |
.................... { |
.................... return CEIL_FLOOR(x, 1); |
.................... } |
.................... |
.................... // Overloaded function ceil() for data type - Float64 |
.................... float64 ceil(float64 x) |
.................... { |
.................... return CEIL_FLOOR(x, 1); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float fabs(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : Computes the absolute value of floating point number x |
.................... // Returns : returns the absolute value of x |
.................... // Date : N/A |
.................... // |
.................... #define fabs abs |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float fmod(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : Computes the floating point remainder of x/y |
.................... // Returns : returns the value of x= i*y, for some integer i such that, if y |
.................... // is non zero, the result has the same isgn of x na dmagnitude less than the |
.................... // magnitude of y. If y is zero then a domain error occurs. |
.................... // Date : N/A |
.................... // |
.................... |
.................... float fmod(float32 x,float32 y) |
.................... { |
.................... float32 i; |
.................... if (y!=0.0) |
.................... { |
.................... i=(x/y < 0.0)? ceil(x/y): floor(x/y); |
.................... return(x-(i*y)); |
.................... } |
.................... else |
.................... { |
.................... #ifdef _ERRNO |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... } |
.................... } |
.................... //Overloaded function for fmod() for PCD |
.................... // Overloaded function fmod() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 fmod(float48 x,float48 y) |
.................... { |
.................... float48 i; |
.................... if (y!=0.0) |
.................... { |
.................... i=(x/y < 0.0)? ceil(x/y): floor(x/y); |
.................... return(x-(i*y)); |
.................... } |
.................... else |
.................... { |
.................... #ifdef _ERRNO |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... } |
.................... } |
.................... // Overloaded function fmod() for data type - Float64 |
.................... float64 fmod(float64 x,float64 y) |
.................... { |
.................... float64 i; |
.................... if (y!=0.0) |
.................... { |
.................... i=(x/y < 0.0)? ceil(x/y): floor(x/y); |
.................... return(x-(i*y)); |
.................... } |
.................... else |
.................... { |
.................... #ifdef _ERRNO |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... } |
.................... } |
.................... #endif |
.................... //////////////////// Exponential and logarithmic functions //////////////////// |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float exp(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the value (e^x) |
.................... // Date : N/A |
.................... // |
.................... #define LN2 0.6931471805599453 |
.................... |
.................... float const pe[6] = {0.000207455774, 0.00127100575, 0.00965065093, |
.................... 0.0554965651, 0.240227138, 0.693147172}; |
.................... |
.................... |
.................... float32 exp(float32 x) |
.................... { |
.................... float32 y, res, r; |
.................... #if defined(__PCD__) |
.................... int8 data1; |
.................... #endif |
.................... signed int8 n; |
.................... int1 s; |
.................... #ifdef _ERRNO |
.................... if(x > 88.722838) |
.................... { |
.................... errno=ERANGE; |
.................... return(0); |
.................... } |
.................... #endif |
.................... n = (signed int16)(x/LN2); |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... n = -n; |
.................... y = -y; |
.................... } |
.................... |
.................... res = 0.0; |
.................... #if !defined(__PCD__) |
.................... *((unsigned int8 *)(&res)) = n + 0x7F; |
.................... #endif |
.................... |
.................... #if defined(__PCD__) // Takes care of IEEE format for PCD |
.................... data1 = n+0x7F; |
.................... if(bit_test(data1,0)) |
.................... bit_set(*(((unsigned int8 *)(&res)+2)),7); |
.................... rotate_right(&data1,1); |
.................... bit_clear(data1,7); |
.................... *(((unsigned int8 *)(&res)+3)) = data1; |
.................... #endif |
.................... |
.................... y = y/LN2 - (float32)n; |
.................... |
.................... r = pe[0]*y + pe[1]; |
.................... r = r*y + pe[2]; |
.................... r = r*y + pe[3]; |
.................... r = r*y + pe[4]; |
.................... r = r*y + pe[5]; |
.................... |
.................... res = res*(1.0 + y*r); |
.................... |
.................... if (s) |
.................... res = 1.0/res; |
.................... return(res); |
.................... } |
.................... |
.................... |
.................... //Overloaded function for exp() for PCD |
.................... // Overloaded function exp() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 exp(float48 x) |
.................... { |
.................... float48 y, res, r; |
.................... int8 data1; |
.................... signed int8 n; |
.................... int1 s; |
.................... #ifdef _ERRNO |
.................... if(x > 88.722838) |
.................... { |
.................... errno=ERANGE; |
.................... return(0); |
.................... } |
.................... #endif |
.................... n = (signed int16)(x/LN2); |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... n = -n; |
.................... y = -y; |
.................... } |
.................... |
.................... res = 0.0; |
.................... |
.................... data1 = n+0x7F; |
.................... if(bit_test(data1,0)) |
.................... bit_set(*(((unsigned int8 *)(&res)+4)),7); |
.................... rotate_right(&data1,1); |
.................... bit_clear(data1,7); |
.................... *(((unsigned int8 *)(&res)+5)) = data1; |
.................... |
.................... y = y/LN2 - (float48)n; |
.................... |
.................... r = pe[0]*y + pe[1]; |
.................... r = r*y + pe[2]; |
.................... r = r*y + pe[3]; |
.................... r = r*y + pe[4]; |
.................... r = r*y + pe[5]; |
.................... |
.................... res = res*(1.0 + y*r); |
.................... |
.................... if (s) |
.................... res = 1.0/res; |
.................... return(res); |
.................... } |
.................... |
.................... // Overloaded function exp() for data type - Float64 |
.................... float64 exp(float64 x) |
.................... { |
.................... float64 y, res, r; |
.................... unsigned int16 data1, data2; |
.................... unsigned int16 *p; |
.................... signed int16 n; |
.................... int1 s; |
.................... #ifdef _ERRNO |
.................... if(x > 709.7827128) |
.................... { |
.................... errno=ERANGE; |
.................... return(0); |
.................... } |
.................... #endif |
.................... n = (signed int16)(x/LN2); |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... n = -n; |
.................... y = -y; |
.................... } |
.................... |
.................... res = 0.0; |
.................... |
.................... #if !defined(__PCD__) |
.................... *((unsigned int16 *)(&res)) = n + 0x7F; |
.................... #endif |
.................... p= (((unsigned int16 *)(&res))+3); |
.................... data1 = *p; |
.................... data2 = *p; |
.................... data1 = n + 0x3FF; |
.................... data1 = data1 <<4; |
.................... if(bit_test(data2,15)) |
.................... bit_set(data1,15); |
.................... data2 = data2 & 0x000F; |
.................... data1 ^= data2; |
.................... |
.................... *(((unsigned int16 *)(&res)+3)) = data1; |
.................... |
.................... |
.................... y = y/LN2 - (float64)n; |
.................... |
.................... r = pe[0]*y + pe[1]; |
.................... r = r*y + pe[2]; |
.................... r = r*y + pe[3]; |
.................... r = r*y + pe[4]; |
.................... r = r*y + pe[5]; |
.................... |
.................... res = res*(1.0 + y*r); |
.................... |
.................... if (s) |
.................... res = 1.0/res; |
.................... return(res); |
.................... } |
.................... |
.................... #ENDIF |
.................... |
.................... |
.................... /************************************************************/ |
.................... |
.................... float32 const pl[4] = {0.45145214, -9.0558803, 26.940971, -19.860189}; |
.................... float32 const ql[4] = {1.0000000, -8.1354259, 16.780517, -9.9300943}; |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float log(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the the natural log of x |
.................... // Date : N/A |
.................... // |
.................... float32 log(float32 x) |
.................... { |
.................... float32 y, res, r, y2; |
.................... #if defined(__PCD__) |
.................... unsigned int8 data1,data2; |
.................... #endif |
.................... signed int8 n; |
.................... #ifdef _ERRNO |
.................... if(x <0) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... if(x ==0) |
.................... { |
.................... errno=ERANGE; |
.................... return(0); |
.................... } |
.................... #endif |
.................... y = x; |
.................... |
.................... if (y != 1.0) |
.................... { |
.................... #if !defined(__PCD__) |
.................... *((unsigned int8 *)(&y)) = 0x7E; |
.................... #endif |
.................... |
.................... #if defined(__PCD__) // Takes care of IEEE format |
.................... data2 = *(((unsigned int8 *)(&y))+3); |
.................... *(((unsigned int8 *)(&y))+3) = 0x3F; |
.................... data1 = *(((unsigned int8 *)(&y))+2); |
.................... bit_clear(data1,7); |
.................... *(((unsigned int8 *)(&y))+2) = data1; |
.................... if(bit_test(data2,7)) |
.................... bit_set(*(((unsigned int8 *)(&y))+3),7); |
.................... #endif |
.................... |
.................... y = (y - 1.0)/(y + 1.0); |
.................... |
.................... y2=y*y; |
.................... |
.................... res = pl[0]*y2 + pl[1]; |
.................... res = res*y2 + pl[2]; |
.................... res = res*y2 + pl[3]; |
.................... |
.................... r = ql[0]*y2 + ql[1]; |
.................... r = r*y2 + ql[2]; |
.................... r = r*y2 + ql[3]; |
.................... |
.................... res = y*res/r; |
.................... #if !defined(__PCD__) |
.................... n = *((unsigned int8 *)(&x)) - 0x7E; |
.................... #endif |
.................... #if defined(__PCD__) |
.................... data1 = *(((unsigned int8 *)(&x)+3)); |
.................... rotate_left(&data1,1); |
.................... data2 = *(((unsigned int8 *)(&x)+2)); |
.................... if(bit_test (data2,7)) |
.................... bit_set(data1,0); |
.................... n = data1 - 0x7E; |
.................... #endif |
.................... |
.................... if (n<0) |
.................... r = -(float32)-n; |
.................... else |
.................... r = (float32)n; |
.................... |
.................... res += r*LN2; |
.................... } |
.................... |
.................... else |
.................... res = 0.0; |
.................... |
.................... return(res); |
.................... } |
.................... |
.................... //Overloaded function for log() for PCD |
.................... // Overloaded function log() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 log(float48 x) |
.................... { |
.................... float48 y, res, r, y2; |
.................... unsigned int8 data1,data2; |
.................... signed int8 n; |
.................... #ifdef _ERRNO |
.................... if(x <0) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... if(x ==0) |
.................... { |
.................... errno=ERANGE; |
.................... return(0); |
.................... } |
.................... #endif |
.................... y = x; |
.................... |
.................... if (y != 1.0) |
.................... { |
.................... |
.................... #if !defined(__PCD__) |
.................... *((unsigned int8 *)(&y)) = 0x7E; |
.................... #endif |
.................... data2 = *(((unsigned int8 *)(&y))+5); |
.................... *(((unsigned int8 *)(&y))+5) = 0x3F; |
.................... data1 = *(((unsigned int8 *)(&y))+4); |
.................... bit_clear(data1,7); |
.................... *(((unsigned int8 *)(&y))+4) = data1; |
.................... |
.................... if(bit_test(data2,7)) |
.................... bit_set(*(((unsigned int8 *)(&y))+4),7); |
.................... y = (y - 1.0)/(y + 1.0); |
.................... |
.................... y2=y*y; |
.................... |
.................... res = pl[0]*y2 + pl[1]; |
.................... res = res*y2 + pl[2]; |
.................... res = res*y2 + pl[3]; |
.................... |
.................... r = ql[0]*y2 + ql[1]; |
.................... r = r*y2 + ql[2]; |
.................... r = r*y2 + ql[3]; |
.................... |
.................... res = y*res/r; |
.................... |
.................... data1 = *(((unsigned int8 *)(&x)+5)); |
.................... rotate_left(&data1,1); |
.................... data2 = *(((unsigned int8 *)(&x)+4)); |
.................... if(bit_test (data2,7)) |
.................... bit_set(data1,0); |
.................... |
.................... n = data1 - 0x7E; |
.................... |
.................... if (n<0) |
.................... r = -(float48)-n; |
.................... else |
.................... r = (float48)n; |
.................... |
.................... res += r*LN2; |
.................... } |
.................... |
.................... else |
.................... res = 0.0; |
.................... |
.................... return(res); |
.................... } |
.................... |
.................... // Overloaded function log() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float32 const pl_64[4] = {0.45145214, -9.0558803, 26.940971, -19.860189}; |
.................... float32 const ql_64[4] = {1.0000000, -8.1354259, 16.780517, -9.9300943}; |
.................... #endif |
.................... float64 log(float64 x) |
.................... { |
.................... float64 y, res, r, y2; |
.................... unsigned int16 data1,data2; |
.................... unsigned int16 *p; |
.................... signed int16 n; |
.................... #ifdef _ERRNO |
.................... if(x <0) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... if(x ==0) |
.................... { |
.................... errno=ERANGE; |
.................... return(0); |
.................... } |
.................... #endif |
.................... y = x; |
.................... |
.................... if (y != 1.0) |
.................... { |
.................... #if !defined(__PCD__) |
.................... *((unsigned int8 *)(&y)) = 0x7E; |
.................... #endif |
.................... p= (((unsigned int16 *)(&y))+3); |
.................... data1 = *p; |
.................... data2 = *p; |
.................... data1 = 0x3FE; |
.................... data1 = data1 <<4; |
.................... if(bit_test (data2,15)) |
.................... bit_set(data1,15); |
.................... data2 = data2 & 0x000F; |
.................... data1 ^=data2; |
.................... |
.................... *p = data1; |
.................... |
.................... y = (y - 1.0)/(y + 1.0); |
.................... |
.................... y2=y*y; |
.................... |
.................... res = pl_64[0]*y2 + pl_64[1]; |
.................... res = res*y2 + pl_64[2]; |
.................... res = res*y2 + pl_64[3]; |
.................... |
.................... r = ql_64[0]*y2 + ql_64[1]; |
.................... r = r*y2 + ql_64[2]; |
.................... r = r*y2 + ql_64[3]; |
.................... |
.................... res = y*res/r; |
.................... |
.................... p= (((unsigned int16 *)(&x))+3); |
.................... data1 = *p; |
.................... bit_clear(data1,15); |
.................... data1 = data1 >>4; |
.................... n = data1 - 0x3FE; |
.................... |
.................... |
.................... if (n<0) |
.................... r = -(float64)-n; |
.................... else |
.................... r = (float64)n; |
.................... |
.................... res += r*LN2; |
.................... } |
.................... |
.................... else |
.................... res = 0.0; |
.................... |
.................... return(res); |
.................... } |
.................... #endif |
.................... |
.................... |
.................... #define LN10 2.3025850929940456 |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float log10(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the the log base 10 of x |
.................... // Date : N/A |
.................... // |
.................... float32 log10(float32 x) |
.................... { |
.................... float32 r; |
.................... |
.................... r = log(x); |
.................... r = r/LN10; |
.................... return(r); |
.................... } |
.................... |
.................... //Overloaded functions for log10() for PCD |
.................... // Overloaded function log10() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 log10(float48 x) |
.................... { |
.................... float48 r; |
.................... |
.................... r = log(x); |
.................... r = r/LN10; |
.................... return(r); |
.................... } |
.................... |
.................... // Overloaded function log10() for data type - Float64 |
.................... float64 log10(float64 x) |
.................... { |
.................... float64 r; |
.................... |
.................... r = log(x); |
.................... r = r/LN10; |
.................... return(r); |
.................... } |
.................... #endif |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float modf(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description :breaks the argument value int integral and fractional parts, |
.................... // ach of which have the same sign as the argument. It stores the integral part |
.................... // as a float in the object pointed to by the iptr |
.................... // Returns : returns the signed fractional part of value. |
.................... // Date : N/A |
.................... // |
.................... |
.................... float32 modf(float32 value,float32 *iptr) |
.................... { |
.................... *iptr=(value < 0.0)? ceil(value): floor(value); |
.................... return(value - *iptr); |
.................... } |
.................... //Overloaded functions for modf() for PCD |
.................... // Overloaded function modf() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 modf(float48 value,float48 *iptr) |
.................... { |
.................... *iptr=(value < 0.0)? ceil(value): floor(value); |
.................... return(value - *iptr); |
.................... } |
.................... // Overloaded function modf() for data type - Float64 |
.................... float64 modf(float64 value,float64 *iptr) |
.................... { |
.................... *iptr=(value < 0.0)? ceil(value): floor(value); |
.................... return(value - *iptr); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float pwr(float x,float y) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the value (x^y) |
.................... // Date : N/A |
.................... // |
.................... float32 pwr(float32 x,float32 y) |
.................... { |
.................... if(x>=0) |
.................... return( exp(y*log(x)) ); |
.................... else |
.................... return( -exp(y*log(-x)) ); |
.................... } |
.................... //Overloaded functions for pwr() for PCD |
.................... // Overloaded function pwr() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 pwr(float48 x,float48 y) |
.................... { |
.................... if(x>=0) |
.................... return( exp(y*log(x)) ); |
.................... else |
.................... return( -exp(y*log(-x)) ); |
.................... } |
.................... // Overloaded function pwr() for data type - Float64 |
.................... float64 pwr(float64 x,float64 y) |
.................... { |
.................... if(x>=0) |
.................... return( exp(y*log(x)) ); |
.................... else |
.................... return( -exp(y*log(-x)) ); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////// Power functions //////////////////// |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float pow(float x,float y) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the value (x^y) |
.................... // Date : N/A |
.................... // |
.................... float32 pow(float32 x,float32 y) |
.................... { |
.................... if(x>=0) |
.................... return( exp(y*log(x)) ); |
.................... else |
.................... return( -exp(y*log(-x)) ); |
.................... } |
.................... //Overloaded functions for pow() for PCD |
.................... // Overloaded function for pow() data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 pow(float48 x,float48 y) |
.................... { |
.................... if(x>=0) |
.................... return( exp(y*log(x)) ); |
.................... else |
.................... return( -exp(y*log(-x)) ); |
.................... } |
.................... |
.................... // Overloaded function pow() for data type - Float64 |
.................... float64 pow(float64 x,float64 y) |
.................... { |
.................... if(x>=0) |
.................... return( exp(y*log(x)) ); |
.................... else |
.................... return( -exp(y*log(-x)) ); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float sqrt(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the square root of x |
.................... // Date : N/A |
.................... // |
.................... float32 sqrt(float32 x) |
.................... { |
.................... float32 y, res; |
.................... #if defined(__PCD__) |
.................... unsigned int16 data1,data2; |
.................... #endif |
.................... BYTE *p; |
.................... |
.................... #ifdef _ERRNO |
.................... if(x < 0) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... |
.................... if( x<=0.0) |
* |
19C2: MOVFF 6DF,6ED |
19C6: MOVFF 6DE,6EC |
19CA: MOVFF 6DD,6EB |
19CE: MOVFF 6DC,6EA |
19D2: MOVLB 6 |
19D4: CLRF xF1 |
19D6: CLRF xF0 |
19D8: CLRF xEF |
19DA: CLRF xEE |
19DC: MOVLB 0 |
19DE: RCALL 1948 |
19E0: BC 19E4 |
19E2: BNZ 19EE |
.................... return(0.0); |
19E4: CLRF 00 |
19E6: CLRF 01 |
19E8: CLRF 02 |
19EA: CLRF 03 |
19EC: BRA 1ADE |
.................... |
.................... y=x; |
19EE: MOVFF 6DF,6E3 |
19F2: MOVFF 6DE,6E2 |
19F6: MOVFF 6DD,6E1 |
19FA: MOVFF 6DC,6E0 |
.................... |
.................... #if !defined(__PCD__) |
.................... p=&y; |
19FE: MOVLW 06 |
1A00: MOVLB 6 |
1A02: MOVWF xE9 |
1A04: MOVLW E0 |
1A06: MOVWF xE8 |
.................... (*p)=(BYTE)((((unsigned int16)(*p)) + 127) >> 1); |
1A08: MOVFF 6E8,FE9 |
1A0C: MOVFF 6E9,FEA |
1A10: MOVF FEF,W |
1A12: CLRF xED |
1A14: MOVWF xEC |
1A16: MOVLW 7F |
1A18: ADDWF xEC,F |
1A1A: MOVLW 00 |
1A1C: ADDWFC xED,F |
1A1E: BCF FD8.0 |
1A20: RRCF xED,W |
1A22: RRCF xEC,W |
1A24: MOVFF 6E9,FEA |
1A28: MOVFF 6E8,FE9 |
1A2C: MOVWF FEF |
.................... #endif |
.................... |
.................... #if defined(__PCD__) |
.................... p = (((unsigned int8 *)(&y))+3); |
.................... data1 = *(((unsigned int8 *)(&y))+3); |
.................... data2 = *(((unsigned int8 *)(&y))+2); |
.................... rotate_left(&data1,1); |
.................... if(bit_test(data2,7)) |
.................... bit_set(data1,0); |
.................... data1 = ((data1+127) >>1); |
.................... bit_clear(data2,7); |
.................... if(bit_test(data1,0)) |
.................... bit_set(data2,7); |
.................... data1 = data1 >>1; |
.................... *(((unsigned int8 *)(&y))+3) = data1; |
.................... *(((unsigned int8 *)(&y))+2) = data2; |
.................... |
.................... #endif |
.................... |
.................... do { |
.................... res=y; |
1A2E: MOVFF 6E3,6E7 |
1A32: MOVFF 6E2,6E6 |
1A36: MOVFF 6E1,6E5 |
1A3A: MOVFF 6E0,6E4 |
.................... y+=(x/y); |
1A3E: MOVFF 6DF,6ED |
1A42: MOVFF 6DE,6EC |
1A46: MOVFF 6DD,6EB |
1A4A: MOVFF 6DC,6EA |
1A4E: MOVFF 6E3,6F1 |
1A52: MOVFF 6E2,6F0 |
1A56: MOVFF 6E1,6EF |
1A5A: MOVFF 6E0,6EE |
1A5E: MOVLB 0 |
1A60: RCALL 16BA |
1A62: BCF FD8.1 |
1A64: MOVFF 6E3,6ED |
1A68: MOVFF 6E2,6EC |
1A6C: MOVFF 6E1,6EB |
1A70: MOVFF 6E0,6EA |
1A74: MOVFF 03,6F1 |
1A78: MOVFF 02,6F0 |
1A7C: MOVFF 01,6EF |
1A80: MOVFF 00,6EE |
1A84: RCALL 1442 |
1A86: MOVFF 03,6E3 |
1A8A: MOVFF 02,6E2 |
1A8E: MOVFF 01,6E1 |
1A92: MOVFF 00,6E0 |
.................... |
.................... #if !defined(__PCD__) |
.................... (*p)--; |
1A96: MOVLB 6 |
1A98: MOVFF 6E8,FE9 |
1A9C: MOVFF 6E9,FEA |
1AA0: DECF FEF,F |
.................... #endif |
.................... |
.................... #if defined(__PCD__) |
.................... data1 = *(((unsigned int8 *)(&y))+3); |
.................... data2 = *(((unsigned int8 *)(&y))+2); |
.................... rotate_left(&data1,1); |
.................... if(bit_test(data2,7)) |
.................... bit_set(data1,0); |
.................... data1--; |
.................... bit_clear(data2,7); |
.................... if(bit_test(data1,0)) |
.................... bit_set(data2,7); |
.................... data1 = data1 >>1; |
.................... *(((unsigned int8 *)(&y))+3) = data1; |
.................... *(((unsigned int8 *)(&y))+2) = data2; |
.................... |
.................... #endif |
.................... } while(res != y); |
1AA2: MOVFF 6E7,6ED |
1AA6: MOVFF 6E6,6EC |
1AAA: MOVFF 6E5,6EB |
1AAE: MOVFF 6E4,6EA |
1AB2: MOVFF 6E3,6F1 |
1AB6: MOVFF 6E2,6F0 |
1ABA: MOVFF 6E1,6EF |
1ABE: MOVFF 6E0,6EE |
1AC2: MOVLB 0 |
1AC4: RCALL 1948 |
1AC6: BTFSC FD8.2 |
1AC8: BRA 1ACE |
1ACA: MOVLB 6 |
1ACC: BRA 1A2E |
.................... |
.................... return(res); |
1ACE: MOVFF 6E4,00 |
1AD2: MOVFF 6E5,01 |
1AD6: MOVFF 6E6,02 |
1ADA: MOVFF 6E7,03 |
.................... } |
1ADE: GOTO 1CCA (RETURN) |
.................... //Overloaded functions for sqrt() for PCD |
.................... // Overloaded function sqrt() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 sqrt(float48 x) |
.................... { |
.................... float48 y, res; |
.................... unsigned int16 data1,data2; |
.................... BYTE *p; |
.................... |
.................... #ifdef _ERRNO |
.................... if(x < 0) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... |
.................... if( x<=0.0) |
.................... return(0.0); |
.................... |
.................... y=x; |
.................... |
.................... #if !defined(__PCD__) |
.................... p=&y; |
.................... (*p)=(BYTE)((((unsigned int16)(*p)) + 127) >> 1); |
.................... #endif |
.................... |
.................... #if defined(__PCD__) |
.................... p = (((unsigned int8 *)(&y))+5); |
.................... data1 = *(((unsigned int8 *)(&y))+5); |
.................... data2 = *(((unsigned int8 *)(&y))+4); |
.................... rotate_left(&data1,1); |
.................... if(bit_test(data2,7)) |
.................... bit_set(data1,0); |
.................... data1 = ((data1+127) >>1); |
.................... bit_clear(data2,7); |
.................... if(bit_test(data1,0)) |
.................... bit_set(data2,7); |
.................... data1 = data1 >>1; |
.................... *(((unsigned int8 *)(&y))+5) = data1; |
.................... *(((unsigned int8 *)(&y))+4) = data2; |
.................... |
.................... #endif |
.................... |
.................... do { |
.................... res=y; |
.................... y+=(x/y); |
.................... |
.................... #if !defined(__PCD__) |
.................... (*p)--; |
.................... #endif |
.................... |
.................... data1 = *(((unsigned int8 *)(&y))+5); |
.................... data2 = *(((unsigned int8 *)(&y))+4); |
.................... rotate_left(&data1,1); |
.................... if(bit_test(data2,7)) |
.................... bit_set(data1,0); |
.................... data1--; |
.................... bit_clear(data2,7); |
.................... if(bit_test(data1,0)) |
.................... bit_set(data2,7); |
.................... data1 = data1 >>1; |
.................... *(((unsigned int8 *)(&y))+5) = data1; |
.................... *(((unsigned int8 *)(&y))+4) = data2; |
.................... |
.................... } while(res != y); |
.................... |
.................... return(res); |
.................... } |
.................... |
.................... // Overloaded function sqrt() for data type - Float64 |
.................... float64 sqrt(float64 x) |
.................... { |
.................... float64 y, res; |
.................... unsigned int16 *p; |
.................... unsigned int16 temp1,temp2; |
.................... |
.................... #ifdef _ERRNO |
.................... if(x < 0) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... |
.................... if( x<=0.0) |
.................... return(0.0); |
.................... |
.................... y=x; |
.................... p= (((unsigned int16 *)(&y))+3); |
.................... temp1 = *p; |
.................... temp2 = *p; |
.................... bit_clear(temp1,15); |
.................... temp1 = (temp1>>4)+1023; |
.................... temp1 = temp1 >> 1; |
.................... temp1 = (temp1<<4) & 0xFFF0; |
.................... if(bit_test(temp2,15)) |
.................... bit_set(temp1,15); |
.................... temp2 = temp2 & 0x000F; |
.................... temp1 ^= temp2; |
.................... |
.................... (*p) = temp1; |
.................... |
.................... do { |
.................... res=y; |
.................... y+=(x/y); |
.................... temp1 = *p; |
.................... temp2 = *p; |
.................... bit_clear(temp1,15); |
.................... temp1 = (temp1>>4); |
.................... temp1--; |
.................... temp1 = (temp1<<4) & 0xFFF0; |
.................... if(bit_test(temp2,15)) |
.................... bit_set(temp1,15); |
.................... temp2 = temp2 & 0x000F; |
.................... temp1 ^= temp2; |
.................... (*p) = temp1; |
.................... |
.................... } while(res != y); |
.................... |
.................... return(res); |
.................... } |
.................... #endif |
.................... |
.................... ////////////////////////////// Trig Functions ////////////////////////////// |
.................... #ifdef PI_DIV_BY_TWO |
.................... #undef PI_DIV_BY_TWO |
.................... #endif |
.................... #define PI_DIV_BY_TWO 1.5707963267948966 |
.................... #ifdef TWOBYPI |
.................... #undef TWOBYPI |
.................... #define TWOBYPI 0.6366197723675813 |
.................... #endif |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float cos(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the cosine value of the angle x, which is in radian |
.................... // Date : 9/20/2001 |
.................... // |
.................... float32 cos(float32 x) |
.................... { |
.................... float32 y, t, t2 = 1.0; |
.................... unsigned int8 quad, i; |
.................... float32 frac; |
.................... float32 p[4] = { |
.................... -0.499999993585, |
.................... 0.041666636258, |
.................... -0.0013888361399, |
.................... 0.00002476016134 |
.................... }; |
.................... |
.................... if (x < 0) x = -x; // absolute value of input |
.................... |
.................... quad = (unsigned int8)(x / PI_DIV_BY_TWO); // quadrant |
.................... frac = (x / PI_DIV_BY_TWO) - quad; // fractional part of input |
.................... quad = quad % 4; // quadrant (0 to 3) |
.................... |
.................... if (quad == 0 || quad == 2) |
.................... t = frac * PI_DIV_BY_TWO; |
.................... else if (quad == 1) |
.................... t = (1-frac) * PI_DIV_BY_TWO; |
.................... else // should be 3 |
.................... t = (frac-1) * PI_DIV_BY_TWO; |
.................... |
.................... y = 0.999999999781; |
.................... t = t * t; |
.................... for (i = 0; i <= 3; i++) |
.................... { |
.................... t2 = t2 * t; |
.................... y = y + p[i] * t2; |
.................... } |
.................... |
.................... if (quad == 2 || quad == 1) |
.................... y = -y; // correct sign |
.................... |
.................... return (y); |
.................... } |
.................... |
.................... |
.................... //Overloaded functions for cos() for PCD |
.................... // Overloaded function cos() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 cos(float48 x) |
.................... { |
.................... float48 y, t, t2 = 1.0; |
.................... unsigned int8 quad, i; |
.................... float48 frac; |
.................... float48 p[4] = { |
.................... -0.499999993585, |
.................... 0.041666636258, |
.................... -0.0013888361399, |
.................... 0.00002476016134 |
.................... }; |
.................... |
.................... if (x < 0) x = -x; // absolute value of input |
.................... |
.................... quad = (unsigned int8)(x / PI_DIV_BY_TWO); // quadrant |
.................... frac = (x / PI_DIV_BY_TWO) - quad; // fractional part of input |
.................... quad = quad % 4; // quadrant (0 to 3) |
.................... |
.................... if (quad == 0 || quad == 2) |
.................... t = frac * PI_DIV_BY_TWO; |
.................... else if (quad == 1) |
.................... t = (1-frac) * PI_DIV_BY_TWO; |
.................... else // should be 3 |
.................... t = (frac-1) * PI_DIV_BY_TWO; |
.................... |
.................... y = 0.999999999781; |
.................... t = t * t; |
.................... for (i = 0; i <= 3; i++) |
.................... { |
.................... t2 = t2 * t; |
.................... y = y + p[i] * t2; |
.................... } |
.................... |
.................... if (quad == 2 || quad == 1) |
.................... y = -y; // correct sign |
.................... |
.................... return (y); |
.................... } |
.................... |
.................... // Overloaded function cos() for data type - Float48 |
.................... float64 cos(float64 x) |
.................... { |
.................... float64 y, t, t2 = 1.0; |
.................... unsigned int8 quad, i; |
.................... float64 frac; |
.................... float64 p[4] = { |
.................... -0.499999993585, |
.................... 0.041666636258, |
.................... -0.0013888361399, |
.................... 0.00002476016134 |
.................... }; |
.................... |
.................... if (x < 0) x = -x; // absolute value of input |
.................... |
.................... quad = (unsigned int8)(x / PI_DIV_BY_TWO); // quadrant |
.................... frac = (x / PI_DIV_BY_TWO) - quad; // fractional part of input |
.................... quad = quad % 4; // quadrant (0 to 3) |
.................... |
.................... if (quad == 0 || quad == 2) |
.................... t = frac * PI_DIV_BY_TWO; |
.................... else if (quad == 1) |
.................... t = (1-frac) * PI_DIV_BY_TWO; |
.................... else // should be 3 |
.................... t = (frac-1) * PI_DIV_BY_TWO; |
.................... |
.................... y = 0.999999999781; |
.................... t = t * t; |
.................... for (i = 0; i <= 3; i++) |
.................... { |
.................... t2 = t2 * t; |
.................... y = y + p[i] * t2; |
.................... } |
.................... |
.................... if (quad == 2 || quad == 1) |
.................... y = -y; // correct sign |
.................... |
.................... return (y); |
.................... } |
.................... |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float sin(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the sine value of the angle x, which is in radian |
.................... // Date : 9/20/2001 |
.................... // |
.................... float32 sin(float32 x) |
.................... { |
.................... return cos(x - PI_DIV_BY_TWO); |
.................... } |
.................... |
.................... //Overloaded functions for sin() for PCD |
.................... // Overloaded function sin() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 sin(float48 x) |
.................... { |
.................... return cos(x - PI_DIV_BY_TWO); |
.................... } |
.................... |
.................... // Overloaded function sin() for data type - Float48 |
.................... float64 sin(float64 x) |
.................... { |
.................... return cos(x - PI_DIV_BY_TWO); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float tan(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the tangent value of the angle x, which is in radian |
.................... // Date : 9/20/2001 |
.................... // |
.................... float32 tan(float32 x) |
.................... { |
.................... float32 c, s; |
.................... |
.................... c = cos(x); |
.................... if (c == 0.0) |
.................... return (1.0e+36); |
.................... |
.................... s = sin(x); |
.................... return(s/c); |
.................... } |
.................... //Overloaded functions for tan() for PCD |
.................... // Overloaded function tan() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 tan(float48 x) |
.................... { |
.................... float48 c, s; |
.................... |
.................... c = cos(x); |
.................... if (c == 0.0) |
.................... return (1.0e+36); |
.................... |
.................... s = sin(x); |
.................... return(s/c); |
.................... } |
.................... |
.................... // Overloaded function tan() for data type - Float48 |
.................... float64 tan(float64 x) |
.................... { |
.................... float64 c, s; |
.................... |
.................... c = cos(x); |
.................... if (c == 0.0) |
.................... return (1.0e+36); |
.................... |
.................... s = sin(x); |
.................... return(s/c); |
.................... } |
.................... #endif |
.................... |
.................... float32 const pas[3] = {0.49559947, -4.6145309, 5.6036290}; |
.................... float32 const qas[3] = {1.0000000, -5.5484666, 5.6036290}; |
.................... |
.................... float32 ASIN_COS(float32 x, unsigned int8 n) |
.................... { |
.................... float32 y, res, r, y2; |
.................... int1 s; |
.................... #ifdef _ERRNO |
.................... if(x <-1 || x > 1) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y > 0.5) |
.................... { |
.................... y = sqrt((1.0 - y)/2.0); |
.................... n += 2; |
.................... } |
.................... |
.................... y2=y*y; |
.................... |
.................... res = pas[0]*y2 + pas[1]; |
.................... res = res*y2 + pas[2]; |
.................... |
.................... r = qas[0]*y2 + qas[1]; |
.................... r = r*y2 + qas[2]; |
.................... |
.................... res = y*res/r; |
.................... |
.................... if (n & 2) // |x| > 0.5 |
.................... res = PI_DIV_BY_TWO - 2.0*res; |
.................... if (s) |
.................... res = -res; |
.................... if (n & 1) // take arccos |
.................... res = PI_DIV_BY_TWO - res; |
.................... |
.................... return(res); |
.................... } |
.................... |
.................... //Overloaded functions for ASIN_COS() for PCD |
.................... // Overloaded function ASIN_COS() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 ASIN_COS(float48 x, unsigned int8 n) |
.................... { |
.................... float48 y, res, r, y2; |
.................... int1 s; |
.................... #ifdef _ERRNO |
.................... if(x <-1 || x > 1) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y > 0.5) |
.................... { |
.................... y = sqrt((1.0 - y)/2.0); |
.................... n += 2; |
.................... } |
.................... |
.................... y2=y*y; |
.................... |
.................... res = pas[0]*y2 + pas[1]; |
.................... res = res*y2 + pas[2]; |
.................... |
.................... r = qas[0]*y2 + qas[1]; |
.................... r = r*y2 + qas[2]; |
.................... |
.................... res = y*res/r; |
.................... |
.................... if (n & 2) // |x| > 0.5 |
.................... res = PI_DIV_BY_TWO - 2.0*res; |
.................... if (s) |
.................... res = -res; |
.................... if (n & 1) // take arccos |
.................... res = PI_DIV_BY_TWO - res; |
.................... |
.................... return(res); |
.................... } |
.................... |
.................... // Overloaded function ASIN_COS() for data type - Float64 |
.................... float64 ASIN_COS(float64 x, unsigned int8 n) |
.................... { |
.................... float64 y, res, r, y2; |
.................... int1 s; |
.................... #ifdef _ERRNO |
.................... if(x <-1 || x > 1) |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... s = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y > 0.5) |
.................... { |
.................... y = sqrt((1.0 - y)/2.0); |
.................... n += 2; |
.................... } |
.................... |
.................... y2=y*y; |
.................... |
.................... res = pas[0]*y2 + pas[1]; |
.................... res = res*y2 + pas[2]; |
.................... |
.................... r = qas[0]*y2 + qas[1]; |
.................... r = r*y2 + qas[2]; |
.................... |
.................... res = y*res/r; |
.................... |
.................... if (n & 2) // |x| > 0.5 |
.................... res = PI_DIV_BY_TWO - 2.0*res; |
.................... if (s) |
.................... res = -res; |
.................... if (n & 1) // take arccos |
.................... res = PI_DIV_BY_TWO - res; |
.................... |
.................... return(res); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float asin(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the arcsine value of the value x. |
.................... // Date : N/A |
.................... // |
.................... float32 asin(float32 x) |
.................... { |
.................... float32 r; |
.................... |
.................... r = ASIN_COS(x, 0); |
.................... return(r); |
.................... } |
.................... //Overloaded functions for asin() for PCD |
.................... // Overloaded function asin() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 asin(float48 x) |
.................... { |
.................... float48 r; |
.................... |
.................... r = ASIN_COS(x, 0); |
.................... return(r); |
.................... } |
.................... |
.................... // Overloaded function asin() for data type - Float64 |
.................... float64 asin(float64 x) |
.................... { |
.................... float64 r; |
.................... |
.................... r = ASIN_COS(x, 0); |
.................... return(r); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float acos(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the arccosine value of the value x. |
.................... // Date : N/A |
.................... // |
.................... float32 acos(float32 x) |
.................... { |
.................... float32 r; |
.................... |
.................... r = ASIN_COS(x, 1); |
.................... return(r); |
.................... } |
.................... //Overloaded functions for acos() for PCD |
.................... // Overloaded function acos() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 acos(float48 x) |
.................... { |
.................... float48 r; |
.................... |
.................... r = ASIN_COS(x, 1); |
.................... return(r); |
.................... } |
.................... |
.................... // Overloaded function acos() for data type - Float64 |
.................... float64 acos(float64 x) |
.................... { |
.................... float64 r; |
.................... |
.................... r = ASIN_COS(x, 1); |
.................... return(r); |
.................... } |
.................... #endif |
.................... |
.................... float32 const pat[4] = {0.17630401, 5.6710795, 22.376096, 19.818457}; |
.................... float32 const qat[4] = {1.0000000, 11.368190, 28.982246, 19.818457}; |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float atan(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : returns the arctangent value of the value x. |
.................... // Date : N/A |
.................... // |
.................... float32 atan(float32 x) |
.................... { |
.................... float32 y, res, r; |
.................... int1 s, flag; |
.................... |
.................... s = 0; |
.................... flag = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y > 1.0) |
.................... { |
.................... y = 1.0/y; |
.................... flag = 1; |
.................... } |
.................... |
.................... res = pat[0]*y*y + pat[1]; |
.................... res = res*y*y + pat[2]; |
.................... res = res*y*y + pat[3]; |
.................... |
.................... r = qat[0]*y*y + qat[1]; |
.................... r = r*y*y + qat[2]; |
.................... r = r*y*y + qat[3]; |
.................... |
.................... res = y*res/r; |
.................... |
.................... |
.................... if (flag) // for |x| > 1 |
.................... res = PI_DIV_BY_TWO - res; |
.................... if (s) |
.................... res = -res; |
.................... |
.................... return(res); |
.................... } |
.................... //Overloaded functions for atan() for PCD |
.................... // Overloaded function atan() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 atan(float48 x) |
.................... { |
.................... float48 y, res, r; |
.................... int1 s, flag; |
.................... |
.................... s = 0; |
.................... flag = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y > 1.0) |
.................... { |
.................... y = 1.0/y; |
.................... flag = 1; |
.................... } |
.................... |
.................... res = pat[0]*y*y + pat[1]; |
.................... res = res*y*y + pat[2]; |
.................... res = res*y*y + pat[3]; |
.................... |
.................... r = qat[0]*y*y + qat[1]; |
.................... r = r*y*y + qat[2]; |
.................... r = r*y*y + qat[3]; |
.................... |
.................... res = y*res/r; |
.................... |
.................... |
.................... if (flag) // for |x| > 1 |
.................... res = PI_DIV_BY_TWO - res; |
.................... if (s) |
.................... res = -res; |
.................... |
.................... return(res); |
.................... } |
.................... |
.................... // Overloaded function atan() for data type - Float64 |
.................... float64 atan(float64 x) |
.................... { |
.................... float64 y, res, r; |
.................... int1 s, flag; |
.................... |
.................... s = 0; |
.................... flag = 0; |
.................... y = x; |
.................... |
.................... if (x < 0) |
.................... { |
.................... s = 1; |
.................... y = -y; |
.................... } |
.................... |
.................... if (y > 1.0) |
.................... { |
.................... y = 1.0/y; |
.................... flag = 1; |
.................... } |
.................... |
.................... res = pat[0]*y*y + pat[1]; |
.................... res = res*y*y + pat[2]; |
.................... res = res*y*y + pat[3]; |
.................... |
.................... r = qat[0]*y*y + qat[1]; |
.................... r = r*y*y + qat[2]; |
.................... r = r*y*y + qat[3]; |
.................... |
.................... res = y*res/r; |
.................... |
.................... |
.................... if (flag) // for |x| > 1 |
.................... res = PI_DIV_BY_TWO - res; |
.................... if (s) |
.................... res = -res; |
.................... |
.................... return(res); |
.................... } |
.................... #endif |
.................... |
.................... ///////////////////////////////////////////////////////////////////////////// |
.................... // float atan2(float y, float x) |
.................... ///////////////////////////////////////////////////////////////////////////// |
.................... // Description :computes the principal value of arc tangent of y/x, using the |
.................... // signs of both the arguments to determine the quadrant of the return value |
.................... // Returns : returns the arc tangent of y/x. |
.................... // Date : N/A |
.................... // |
.................... |
.................... float32 atan2(float32 y,float32 x) |
.................... { |
.................... float32 z; |
.................... int1 sign; |
.................... unsigned int8 quad; |
.................... sign=0; |
.................... quad=0; //quadrant |
.................... quad=((y<=0.0)?((x<=0.0)?3:4):((x<0.0)?2:1)); |
.................... if(y<0.0) |
.................... { |
.................... sign=1; |
.................... y=-y; |
.................... } |
.................... if(x<0.0) |
.................... { |
.................... x=-x; |
.................... } |
.................... if (x==0.0) |
.................... { |
.................... if(y==0.0) |
.................... { |
.................... #ifdef _ERRNO |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... } |
.................... else |
.................... { |
.................... if(sign) |
.................... { |
.................... return (-(PI_DIV_BY_TWO)); |
.................... } |
.................... else |
.................... { |
.................... return (PI_DIV_BY_TWO); |
.................... } |
.................... } |
.................... } |
.................... else |
.................... { |
.................... z=y/x; |
.................... switch(quad) |
.................... { |
.................... case 1: |
.................... { |
.................... return atan(z); |
.................... break; |
.................... } |
.................... case 2: |
.................... { |
.................... // return (atan(z)+PI_DIV_BY_TWO); //2L3122 |
.................... return (PI-atan(z)); |
.................... break; |
.................... } |
.................... case 3: |
.................... { |
.................... return (atan(z)-PI); |
.................... break; |
.................... } |
.................... case 4: |
.................... { |
.................... return (-atan(z)); |
.................... break; |
.................... } |
.................... } |
.................... } |
.................... } |
.................... |
.................... //Overloaded functions for atan2() for PCD |
.................... // Overloaded function atan2() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 atan2(float48 y,float48 x) |
.................... { |
.................... float48 z; |
.................... int1 sign; |
.................... unsigned int8 quad; |
.................... sign=0; |
.................... quad=0; //quadrant |
.................... quad=((y<=0.0)?((x<=0.0)?3:4):((x<0.0)?2:1)); |
.................... if(y<0.0) |
.................... { |
.................... sign=1; |
.................... y=-y; |
.................... } |
.................... if(x<0.0) |
.................... { |
.................... x=-x; |
.................... } |
.................... if (x==0.0) |
.................... { |
.................... if(y==0.0) |
.................... { |
.................... #ifdef _ERRNO |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... } |
.................... else |
.................... { |
.................... if(sign) |
.................... { |
.................... return (-(PI_DIV_BY_TWO)); |
.................... } |
.................... else |
.................... { |
.................... return (PI_DIV_BY_TWO); |
.................... } |
.................... } |
.................... } |
.................... else |
.................... { |
.................... z=y/x; |
.................... switch(quad) |
.................... { |
.................... case 1: |
.................... { |
.................... return atan(z); |
.................... break; |
.................... } |
.................... case 2: |
.................... { |
.................... // return (atan(z)+PI_DIV_BY_TWO); //2L3122 |
.................... return (PI-atan(z)); |
.................... break; |
.................... } |
.................... case 3: |
.................... { |
.................... return (atan(z)-PI); |
.................... break; |
.................... } |
.................... case 4: |
.................... { |
.................... return (-atan(z)); |
.................... break; |
.................... } |
.................... } |
.................... } |
.................... } |
.................... |
.................... // Overloaded function atan2() for data type - Float64 |
.................... float64 atan2(float64 y,float64 x) |
.................... { |
.................... float64 z; |
.................... int1 sign; |
.................... unsigned int8 quad; |
.................... sign=0; |
.................... quad=0; //quadrant |
.................... quad=((y<=0.0)?((x<=0.0)?3:4):((x<0.0)?2:1)); |
.................... if(y<0.0) |
.................... { |
.................... sign=1; |
.................... y=-y; |
.................... } |
.................... if(x<0.0) |
.................... { |
.................... x=-x; |
.................... } |
.................... if (x==0.0) |
.................... { |
.................... if(y==0.0) |
.................... { |
.................... #ifdef _ERRNO |
.................... { |
.................... errno=EDOM; |
.................... } |
.................... #endif |
.................... } |
.................... else |
.................... { |
.................... if(sign) |
.................... { |
.................... return (-(PI_DIV_BY_TWO)); |
.................... } |
.................... else |
.................... { |
.................... return (PI_DIV_BY_TWO); |
.................... } |
.................... } |
.................... } |
.................... else |
.................... { |
.................... z=y/x; |
.................... switch(quad) |
.................... { |
.................... case 1: |
.................... { |
.................... return atan(z); |
.................... break; |
.................... } |
.................... case 2: |
.................... { |
.................... // return (atan(z)+PI_DIV_BY_TWO); //2L3122 |
.................... return (PI-atan(z)); |
.................... break; |
.................... } |
.................... case 3: |
.................... { |
.................... return (atan(z)-PI); |
.................... break; |
.................... } |
.................... case 4: |
.................... { |
.................... return (-atan(z)); |
.................... break; |
.................... } |
.................... } |
.................... } |
.................... } |
.................... #endif |
.................... |
.................... //////////////////// Hyperbolic functions //////////////////// |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float cosh(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : Computes the hyperbolic cosine value of x |
.................... // Returns : returns the hyperbolic cosine value of x |
.................... // Date : N/A |
.................... // |
.................... |
.................... float32 cosh(float32 x) |
.................... { |
.................... return ((exp(x)+exp(-x))/2); |
.................... } |
.................... //Overloaded functions for cosh() for PCD |
.................... // Overloaded function cosh() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 cosh(float48 x) |
.................... { |
.................... return ((exp(x)+exp(-x))/2); |
.................... } |
.................... |
.................... // Overloaded function cosh() for data type - Float64 |
.................... float64 cosh(float64 x) |
.................... { |
.................... return ((exp(x)+exp(-x))/2); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float sinh(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : Computes the hyperbolic sine value of x |
.................... // Returns : returns the hyperbolic sine value of x |
.................... // Date : N/A |
.................... // |
.................... |
.................... float32 sinh(float32 x) |
.................... { |
.................... |
.................... return ((exp(x) - exp(-x))/2); |
.................... } |
.................... //Overloaded functions for sinh() for PCD |
.................... // Overloaded function sinh() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 sinh(float48 x) |
.................... { |
.................... |
.................... return ((exp(x) - exp(-x))/2); |
.................... } |
.................... |
.................... // Overloaded function sinh() for data type - Float48 |
.................... float64 sinh(float64 x) |
.................... { |
.................... |
.................... return ((exp(x) - exp(-x))/2); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float tanh(float x) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : Computes the hyperbolic tangent value of x |
.................... // Returns : returns the hyperbolic tangent value of x |
.................... // Date : N/A |
.................... // |
.................... |
.................... float32 tanh(float32 x) |
.................... { |
.................... return(sinh(x)/cosh(x)); |
.................... } |
.................... //Overloaded functions for tanh() for PCD |
.................... // Overloaded function tanh() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 tanh(float48 x) |
.................... { |
.................... return(sinh(x)/cosh(x)); |
.................... } |
.................... |
.................... // Overloaded function tanh() for data type - Float64 |
.................... float64 tanh(float64 x) |
.................... { |
.................... return(sinh(x)/cosh(x)); |
.................... } |
.................... #endif |
.................... |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // float frexp(float x, signed int *exp) |
.................... //////////////////////////////////////////////////////////////////////////// |
.................... // Description : breaks a floating point number into a normalized fraction and an integral |
.................... // power of 2. It stores the integer in the signed int object pointed to by exp. |
.................... // Returns : returns the value x, such that x is a double with magnitude in the interval |
.................... // [1/2,1) or zero, and value equals x times 2 raised to the power *exp.If value is zero, |
.................... // both parts of the result are zero. |
.................... // Date : N/A |
.................... // |
.................... |
.................... #define LOG2 .30102999566398119521 |
.................... float32 frexp(float32 x, signed int8 *exp) |
.................... { |
.................... float32 res; |
.................... int1 sign = 0; |
.................... if(x == 0.0) |
.................... { |
.................... *exp=0; |
.................... return (0.0); |
.................... } |
.................... if(x < 0.0) |
.................... { |
.................... x=-x; |
.................... sign=1; |
.................... } |
.................... if (x > 1.0) |
.................... { |
.................... *exp=(ceil(log10(x)/LOG2)); |
.................... res=x/(pow(2, *exp)); |
.................... if (res == 1) |
.................... { |
.................... *exp=*exp+1; |
.................... res=.5; |
.................... } |
.................... } |
.................... else |
.................... { |
.................... if(x < 0.5) |
.................... { |
.................... *exp=-1; |
.................... res=x*2; |
.................... } |
.................... else |
.................... { |
.................... *exp=0; |
.................... res=x; |
.................... } |
.................... } |
.................... if(sign) |
.................... { |
.................... res=-res; |
.................... } |
.................... return res; |
.................... } |
.................... |
.................... //Overloaded functions for frexp() for PCD |
.................... // Overloaded function frexp() for data type - Float48 |
.................... #if defined(__PCD__) |
.................... float48 frexp(float48 x, signed int8 *exp) |
.................... { |
.................... float48 res; |
.................... int1 sign = 0; |
.................... if(x == 0.0) |
.................... { |
.................... *exp=0; |
.................... return (0.0); |
.................... } |
.................... if(x < 0.0) |
.................... { |
.................... x=-x; |
.................... sign=1; |
.................... } |
.................... if (x > 1.0) |
.................... { |
.................... *exp=(ceil(log10(x)/LOG2)); |
.................... res=x/(pow(2, *exp)); |
.................... if (res == 1) |
.................... { |
.................... *exp=*exp+1; |
.................... res=.5; |
.................... } |
.................... } |
.................... else |
.................... { |
.................... if(x < 0.5) |
.................... { |
.................... *exp=-1; |
.................... res=x*2; |
.................... } |
.................... else |
.................... { |
.................... *exp=0; |
.................... res=x; |
.................... } |
.................... } |
.................... if(sign) |
.................... { |
.................... res=-res; |
.................... } |
.................... return res; |
.................... } |
.................... |
.................... // Overloaded function frexp() for data type - Float64 |
.................... float64 frexp(float64 x, signed int8 *exp) |
.................... { |
.................... float64 res; |
.................... int1 sign = 0; |
.................... if(x == 0.0) |
.................... { |
.................... *exp=0; |
.................... return (0.0); |
.................... } |
.................... if(x < 0.0) |
.................... { |
.................... x=-x; |
.................... sign=1; |
.................... } |
.................... if (x > 1.0) |
.................... { |
.................... *exp=(ceil(log10(x)/LOG2)); |
.................... res=x/(pow(2, *exp)); |
.................... if (res == 1) |
.................... { |
.................... *exp=*exp+1; |
.................... res=.5; |
.................... } |
.................... } |
.................... else |
.................... { |
.................... if(x < 0.5) |
.................... { |
.................... *exp=-1; |
.................... res=x*2; |
.................... } |
.................... else |
.................... { |
.................... *exp=0; |
.................... res=x; |
.................... } |
.................... } |
.................... if(sign) |
.................... { |
.................... res=-res; |
.................... } |
.................... return res; |
.................... } |
.................... #endif |
.................... |
.................... ////////////////////////////////////////////////////////////////////////////// |
.................... // float ldexp(float x, signed int *exp) |
.................... ////////////////////////////////////////////////////////////////////////////// |
.................... // Description : multiplies a floating point number by an integral power of 2. |
.................... // Returns : returns the value of x times 2 raised to the power exp. |
.................... // Date : N/A |
.................... // |
.................... |
.................... float32 ldexp(float32 value, signed int8 exp) |
.................... { |
.................... return (value * pow(2,exp)); |
.................... } |
.................... //Overloaded functions for ldexp() for PCD |
.................... // Overloaded function ldexp() for data type - Float48 |
.................... |
.................... #if defined(__PCD__) |
.................... float48 ldexp(float48 value, signed int8 exp) |
.................... { |
.................... return (value * pow(2,exp)); |
.................... } |
.................... // Overloaded function ldexp() for data type - Float64 |
.................... float64 ldexp(float64 value, signed int8 exp) |
.................... { |
.................... return (value * pow(2,exp)); |
.................... } |
.................... #endif |
.................... |
.................... #endif |
.................... |
.................... |
.................... float quadraticerror(float average, float buf[], int16 size) // compute average quadratic error |
.................... { |
.................... int16 i; |
.................... float err=0; |
1AE2: MOVLB 6 |
1AE4: CLRF xD4 |
1AE6: CLRF xD5 |
1AE8: CLRF xD6 |
1AEA: CLRF xD7 |
.................... |
.................... for(i=0; i<size; i++) err += (buf[i]-average)*(buf[i]-average); // sum quadratic errors |
1AEC: CLRF xD3 |
1AEE: CLRF xD2 |
1AF0: MOVF xD3,W |
1AF2: SUBWF xD1,W |
1AF4: BTFSS FD8.0 |
1AF6: BRA 1C48 |
1AF8: BNZ 1B02 |
1AFA: MOVF xD0,W |
1AFC: SUBWF xD2,W |
1AFE: BTFSC FD8.0 |
1B00: BRA 1C48 |
1B02: RLCF xD2,W |
1B04: MOVWF 02 |
1B06: RLCF xD3,W |
1B08: MOVWF 03 |
1B0A: RLCF 02,F |
1B0C: RLCF 03,F |
1B0E: MOVLW FC |
1B10: ANDWF 02,F |
1B12: MOVF 02,W |
1B14: ADDWF xCE,W |
1B16: MOVWF FE9 |
1B18: MOVF xCF,W |
1B1A: ADDWFC 03,W |
1B1C: MOVWF FEA |
1B1E: MOVFF FEF,6D8 |
1B22: MOVFF FEC,6D9 |
1B26: MOVFF FEC,6DA |
1B2A: MOVFF FEC,6DB |
1B2E: MOVFF FEA,6DD |
1B32: MOVFF FE9,6DC |
1B36: BSF FD8.1 |
1B38: MOVFF 6DB,6ED |
1B3C: MOVFF 6DA,6EC |
1B40: MOVFF 6D9,6EB |
1B44: MOVFF 6D8,6EA |
1B48: MOVFF 6CD,6F1 |
1B4C: MOVFF 6CC,6F0 |
1B50: MOVFF 6CB,6EF |
1B54: MOVFF 6CA,6EE |
1B58: MOVLB 0 |
1B5A: RCALL 1442 |
1B5C: MOVFF 6DD,FEA |
1B60: MOVFF 6DC,FE9 |
1B64: MOVFF 00,6D8 |
1B68: MOVFF 01,6D9 |
1B6C: MOVFF 02,6DA |
1B70: MOVFF 03,6DB |
1B74: MOVLB 6 |
1B76: RLCF xD2,W |
1B78: MOVWF 02 |
1B7A: RLCF xD3,W |
1B7C: MOVWF 03 |
1B7E: RLCF 02,F |
1B80: RLCF 03,F |
1B82: MOVLW FC |
1B84: ANDWF 02,F |
1B86: MOVF 02,W |
1B88: ADDWF xCE,W |
1B8A: MOVWF FE9 |
1B8C: MOVF xCF,W |
1B8E: ADDWFC 03,W |
1B90: MOVWF FEA |
1B92: MOVFF FEF,6DE |
1B96: MOVFF FEC,6DF |
1B9A: MOVFF FEC,6E0 |
1B9E: MOVFF FEC,6E1 |
1BA2: MOVFF FEA,6E3 |
1BA6: MOVFF FE9,6E2 |
1BAA: BSF FD8.1 |
1BAC: MOVFF 6E1,6ED |
1BB0: MOVFF 6E0,6EC |
1BB4: MOVFF 6DF,6EB |
1BB8: MOVFF 6DE,6EA |
1BBC: MOVFF 6CD,6F1 |
1BC0: MOVFF 6CC,6F0 |
1BC4: MOVFF 6CB,6EF |
1BC8: MOVFF 6CA,6EE |
1BCC: MOVLB 0 |
1BCE: RCALL 1442 |
1BD0: MOVFF 6E3,FEA |
1BD4: MOVFF 6E2,FE9 |
1BD8: MOVFF 6DB,6E7 |
1BDC: MOVFF 6DA,6E6 |
1BE0: MOVFF 6D9,6E5 |
1BE4: MOVFF 6D8,6E4 |
1BE8: MOVFF 03,6EB |
1BEC: MOVFF 02,6EA |
1BF0: MOVFF 01,6E9 |
1BF4: MOVFF 00,6E8 |
1BF8: RCALL 1852 |
1BFA: MOVFF FEA,6D9 |
1BFE: MOVFF FE9,6D8 |
1C02: BCF FD8.1 |
1C04: MOVFF 6D7,6ED |
1C08: MOVFF 6D6,6EC |
1C0C: MOVFF 6D5,6EB |
1C10: MOVFF 6D4,6EA |
1C14: MOVFF 03,6F1 |
1C18: MOVFF 02,6F0 |
1C1C: MOVFF 01,6EF |
1C20: MOVFF 00,6EE |
1C24: RCALL 1442 |
1C26: MOVFF 6D9,FEA |
1C2A: MOVFF 6D8,FE9 |
1C2E: MOVFF 03,6D7 |
1C32: MOVFF 02,6D6 |
1C36: MOVFF 01,6D5 |
1C3A: MOVFF 00,6D4 |
1C3E: MOVLB 6 |
1C40: INCF xD2,F |
1C42: BTFSC FD8.2 |
1C44: INCF xD3,F |
1C46: BRA 1AF0 |
.................... err = sqrt((1/(float)size)*err); |
1C48: MOVFF 6D1,6D9 |
1C4C: MOVFF 6D0,6D8 |
1C50: MOVLB 0 |
1C52: CALL 140C |
1C56: MOVLB 6 |
1C58: CLRF xED |
1C5A: CLRF xEC |
1C5C: CLRF xEB |
1C5E: MOVLW 7F |
1C60: MOVWF xEA |
1C62: MOVFF 03,6F1 |
1C66: MOVFF 02,6F0 |
1C6A: MOVFF 01,6EF |
1C6E: MOVFF 00,6EE |
1C72: MOVLB 0 |
1C74: RCALL 16BA |
1C76: MOVFF 00,6D8 |
1C7A: MOVFF 01,6D9 |
1C7E: MOVFF 02,6DA |
1C82: MOVFF 03,6DB |
1C86: MOVFF 03,6E7 |
1C8A: MOVFF 02,6E6 |
1C8E: MOVFF 01,6E5 |
1C92: MOVFF 00,6E4 |
1C96: MOVFF 6D7,6EB |
1C9A: MOVFF 6D6,6EA |
1C9E: MOVFF 6D5,6E9 |
1CA2: MOVFF 6D4,6E8 |
1CA6: RCALL 1852 |
1CA8: MOVFF 00,6D8 |
1CAC: MOVFF 01,6D9 |
1CB0: MOVFF 02,6DA |
1CB4: MOVFF 03,6DB |
1CB8: MOVFF 03,6DF |
1CBC: MOVFF 02,6DE |
1CC0: MOVFF 01,6DD |
1CC4: MOVFF 00,6DC |
1CC8: BRA 19C2 |
1CCA: MOVFF 03,6D7 |
1CCE: MOVFF 02,6D6 |
1CD2: MOVFF 01,6D5 |
1CD6: MOVFF 00,6D4 |
.................... return err; |
1CDA: MOVFF 6D4,00 |
1CDE: MOVFF 6D5,01 |
1CE2: MOVFF 6D6,02 |
1CE6: MOVFF 6D7,03 |
.................... } |
1CEA: RETLW 00 |
.................... |
.................... void main() |
.................... { |
* |
1F62: CLRF FF8 |
1F64: BCF FD0.7 |
1F66: BSF 08.7 |
1F68: CLRF FEA |
1F6A: CLRF FE9 |
1F6C: MOVF FC1,W |
1F6E: ANDLW C0 |
1F70: IORLW 0F |
1F72: MOVWF FC1 |
1F74: MOVLW 07 |
1F76: MOVWF FB4 |
1F78: CLRF 21 |
1F7A: MOVLW 04 |
1F7C: MOVWF 22 |
1F7E: MOVLW 0C |
1F80: MOVWF 23 |
1F82: CLRF 24 |
1F84: CLRF 28 |
1F86: CLRF x7C |
1F88: CLRF x83 |
.................... |
.................... float x[BUFLEN], y[BUFLEN], z[BUFLEN]; |
.................... float xavg, yavg, zavg; |
.................... int i; |
.................... port_b_pullups(FALSE); |
1F8A: BSF FF1.7 |
.................... setup_psp(PSP_DISABLED); |
1F8C: BCF FB0.4 |
.................... setup_spi(SPI_SS_DISABLED); |
1F8E: BCF FC6.5 |
1F90: BCF F94.7 |
1F92: BSF F93.0 |
1F94: BCF F93.1 |
1F96: MOVLW 01 |
1F98: MOVWF FC6 |
1F9A: MOVLW 00 |
1F9C: MOVWF FC7 |
.................... setup_wdt(WDT_OFF); |
1F9E: BCF FD1.0 |
.................... setup_timer_0(RTCC_INTERNAL|RTCC_DIV_256); |
1FA0: MOVLW 87 |
1FA2: MOVWF FD5 |
.................... setup_timer_1(T1_DISABLED); |
1FA4: CLRF FCD |
.................... setup_timer_2(T2_DISABLED,0,1); |
1FA6: MOVLW 00 |
1FA8: MOVWF FCA |
1FAA: MOVLW 00 |
1FAC: MOVWF FCB |
.................... setup_timer_3(T3_DISABLED|T3_DIV_BY_1); |
1FAE: CLRF FB1 |
.................... setup_comparator(NC_NC_NC_NC); |
1FB0: MOVLW 07 |
1FB2: MOVWF FB4 |
1FB4: MOVF F92,W |
1FB6: MOVWF F92 |
1FB8: MOVLW 13 |
1FBA: MOVWF 00 |
1FBC: DECFSZ 00,F |
1FBE: BRA 1FBC |
1FC0: BRA 1FC2 |
1FC2: MOVF FB4,W |
1FC4: BCF FA1.6 |
.................... setup_vref(FALSE); |
1FC6: CLRF FB5 |
.................... enable_interrupts(INT_TIMER0); |
1FC8: BSF FF2.5 |
.................... enable_interrupts(GLOBAL); |
1FCA: MOVLW C0 |
1FCC: IORWF FF2,F |
.................... |
.................... setup_adc_ports(AN0_TO_AN2|VSS_VDD); |
1FCE: MOVF FC1,W |
1FD0: ANDLW C0 |
1FD2: IORLW 0C |
1FD4: MOVWF FC1 |
.................... setup_adc(ADC_CLOCK_DIV_64); |
1FD6: BCF FC0.0 |
1FD8: BSF FC0.1 |
1FDA: BSF FC0.2 |
1FDC: BSF FC0.7 |
1FDE: BSF FC2.0 |
.................... |
.................... usb_init(); // initialise USB module |
1FE0: GOTO 1368 |
.................... |
.................... while (TRUE) |
.................... { |
.................... |
.................... while(!usb_cdc_connected()); |
1FE4: BTFSS x80.0 |
1FE6: BRA 1FE4 |
.................... printf(usb_cdc_putc,"time[s] x xerr y yerr z zerr \nr"); |
1FE8: MOVLB 3 |
1FEA: CLRF xB1 |
1FEC: MOVF xB1,W |
1FEE: MOVLB 0 |
1FF0: CALL 021E |
1FF4: MOVLB 3 |
1FF6: INCF xB1,F |
1FF8: MOVWF 00 |
1FFA: MOVFF FE8,6DB |
1FFE: MOVLB 0 |
2000: CALL 13D4 |
2004: MOVLW 25 |
2006: MOVLB 3 |
2008: SUBWF xB1,W |
200A: BNZ 1FEC |
.................... |
.................... while(usb_cdc_connected()) // pockej nez se pripoji seriovy port PC |
.................... { |
200C: MOVLB 0 |
200E: BTFSS x80.0 |
2010: BRA 25D0 |
.................... for(i=0; i <BUFLEN; i++) |
2012: MOVLB 3 |
2014: CLRF xB0 |
2016: MOVF xB0,W |
2018: SUBLW 63 |
201A: BTFSS FD8.0 |
201C: BRA 22F4 |
.................... { |
.................... set_adc_channel(1); |
201E: MOVLW 04 |
2020: MOVWF 01 |
2022: MOVF FC2,W |
2024: ANDLW C3 |
2026: IORWF 01,W |
2028: MOVWF FC2 |
.................... delay_us(10); |
202A: MOVLW 13 |
202C: MOVWF 00 |
202E: DECFSZ 00,F |
2030: BRA 202E |
2032: BRA 2034 |
2034: CLRF 18 |
2036: BTFSC FF2.7 |
2038: BSF 18.7 |
203A: BCF FF2.7 |
.................... x[i]=read_adc(); |
203C: MOVLB 7 |
203E: CLRF x49 |
2040: MOVFF 3B0,748 |
2044: CLRF x4B |
2046: MOVLW 04 |
2048: MOVWF x4A |
204A: MOVLB 0 |
204C: CALL 02BA |
2050: BTFSC 18.7 |
2052: BSF FF2.7 |
2054: MOVFF 02,03 |
2058: MOVF 01,W |
205A: ADDLW 84 |
205C: MOVWF FE9 |
205E: MOVLW 00 |
2060: ADDWFC 02,W |
2062: MOVWF FEA |
2064: BSF FC2.1 |
2066: BTFSC FC2.1 |
2068: BRA 2066 |
206A: MOVFF FC4,6D9 |
206E: MOVFF FC3,6D8 |
2072: MOVLB 0 |
2074: CALL 140C |
2078: MOVFF 00,FEF |
207C: MOVFF 01,FEC |
2080: MOVFF 02,FEC |
2084: MOVFF 03,FEC |
2088: CLRF 18 |
208A: BTFSC FF2.7 |
208C: BSF 18.7 |
208E: BCF FF2.7 |
.................... xavg+=x[i]; |
2090: MOVLB 7 |
2092: CLRF x49 |
2094: MOVFF 3B0,748 |
2098: CLRF x4B |
209A: MOVLW 04 |
209C: MOVWF x4A |
209E: MOVLB 0 |
20A0: CALL 02BA |
20A4: BTFSC 18.7 |
20A6: BSF FF2.7 |
20A8: MOVFF 02,03 |
20AC: MOVF 01,W |
20AE: ADDLW 84 |
20B0: MOVWF FE9 |
20B2: MOVLW 00 |
20B4: ADDWFC 02,W |
20B6: MOVWF FEA |
20B8: MOVFF FEF,00 |
20BC: MOVFF FEC,01 |
20C0: MOVFF FEC,02 |
20C4: MOVFF FEC,03 |
20C8: MOVFF FEA,3B2 |
20CC: MOVFF FE9,3B1 |
20D0: BCF FD8.1 |
20D2: MOVFF 3A7,6ED |
20D6: MOVFF 3A6,6EC |
20DA: MOVFF 3A5,6EB |
20DE: MOVFF 3A4,6EA |
20E2: MOVFF 03,6F1 |
20E6: MOVFF 02,6F0 |
20EA: MOVFF 01,6EF |
20EE: MOVFF 00,6EE |
20F2: CALL 1442 |
20F6: MOVFF 3B2,FEA |
20FA: MOVFF 3B1,FE9 |
20FE: MOVFF 03,3A7 |
2102: MOVFF 02,3A6 |
2106: MOVFF 01,3A5 |
210A: MOVFF 00,3A4 |
.................... |
.................... set_adc_channel(1); |
210E: MOVLW 04 |
2110: MOVWF 01 |
2112: MOVF FC2,W |
2114: ANDLW C3 |
2116: IORWF 01,W |
2118: MOVWF FC2 |
.................... delay_us(10); |
211A: MOVLW 13 |
211C: MOVWF 00 |
211E: DECFSZ 00,F |
2120: BRA 211E |
2122: BRA 2124 |
2124: CLRF 18 |
2126: BTFSC FF2.7 |
2128: BSF 18.7 |
212A: BCF FF2.7 |
.................... y[i]=read_adc(); |
212C: MOVLB 7 |
212E: CLRF x49 |
2130: MOVFF 3B0,748 |
2134: CLRF x4B |
2136: MOVLW 04 |
2138: MOVWF x4A |
213A: MOVLB 0 |
213C: CALL 02BA |
2140: BTFSC 18.7 |
2142: BSF FF2.7 |
2144: MOVFF 02,03 |
2148: MOVF 01,W |
214A: ADDLW 14 |
214C: MOVWF FE9 |
214E: MOVLW 02 |
2150: ADDWFC 02,W |
2152: MOVWF FEA |
2154: BSF FC2.1 |
2156: BTFSC FC2.1 |
2158: BRA 2156 |
215A: MOVFF FC4,6D9 |
215E: MOVFF FC3,6D8 |
2162: MOVLB 0 |
2164: CALL 140C |
2168: MOVFF 00,FEF |
216C: MOVFF 01,FEC |
2170: MOVFF 02,FEC |
2174: MOVFF 03,FEC |
2178: CLRF 18 |
217A: BTFSC FF2.7 |
217C: BSF 18.7 |
217E: BCF FF2.7 |
.................... yavg+=y[i]; |
2180: MOVLB 7 |
2182: CLRF x49 |
2184: MOVFF 3B0,748 |
2188: CLRF x4B |
218A: MOVLW 04 |
218C: MOVWF x4A |
218E: MOVLB 0 |
2190: CALL 02BA |
2194: BTFSC 18.7 |
2196: BSF FF2.7 |
2198: MOVFF 02,03 |
219C: MOVF 01,W |
219E: ADDLW 14 |
21A0: MOVWF FE9 |
21A2: MOVLW 02 |
21A4: ADDWFC 02,W |
21A6: MOVWF FEA |
21A8: MOVFF FEF,00 |
21AC: MOVFF FEC,01 |
21B0: MOVFF FEC,02 |
21B4: MOVFF FEC,03 |
21B8: MOVFF FEA,3B2 |
21BC: MOVFF FE9,3B1 |
21C0: BCF FD8.1 |
21C2: MOVFF 3AB,6ED |
21C6: MOVFF 3AA,6EC |
21CA: MOVFF 3A9,6EB |
21CE: MOVFF 3A8,6EA |
21D2: MOVFF 03,6F1 |
21D6: MOVFF 02,6F0 |
21DA: MOVFF 01,6EF |
21DE: MOVFF 00,6EE |
21E2: CALL 1442 |
21E6: MOVFF 3B2,FEA |
21EA: MOVFF 3B1,FE9 |
21EE: MOVFF 03,3AB |
21F2: MOVFF 02,3AA |
21F6: MOVFF 01,3A9 |
21FA: MOVFF 00,3A8 |
.................... |
.................... set_adc_channel(1); |
21FE: MOVLW 04 |
2200: MOVWF 01 |
2202: MOVF FC2,W |
2204: ANDLW C3 |
2206: IORWF 01,W |
2208: MOVWF FC2 |
.................... delay_us(10); |
220A: MOVLW 13 |
220C: MOVWF 00 |
220E: DECFSZ 00,F |
2210: BRA 220E |
2212: BRA 2214 |
2214: CLRF 18 |
2216: BTFSC FF2.7 |
2218: BSF 18.7 |
221A: BCF FF2.7 |
.................... z[i]=read_adc(); |
221C: MOVLB 7 |
221E: CLRF x49 |
2220: MOVFF 3B0,748 |
2224: CLRF x4B |
2226: MOVLW 04 |
2228: MOVWF x4A |
222A: MOVLB 0 |
222C: CALL 02BA |
2230: BTFSC 18.7 |
2232: BSF FF2.7 |
2234: MOVFF 02,03 |
2238: MOVF 01,W |
223A: ADDLW 20 |
223C: MOVWF FE9 |
223E: MOVLW 05 |
2240: ADDWFC 02,W |
2242: MOVWF FEA |
2244: BSF FC2.1 |
2246: BTFSC FC2.1 |
2248: BRA 2246 |
224A: MOVFF FC4,6D9 |
224E: MOVFF FC3,6D8 |
2252: MOVLB 0 |
2254: CALL 140C |
2258: MOVFF 00,FEF |
225C: MOVFF 01,FEC |
2260: MOVFF 02,FEC |
2264: MOVFF 03,FEC |
2268: CLRF 18 |
226A: BTFSC FF2.7 |
226C: BSF 18.7 |
226E: BCF FF2.7 |
.................... zavg+=z[i]; |
2270: MOVLB 7 |
2272: CLRF x49 |
2274: MOVFF 3B0,748 |
2278: CLRF x4B |
227A: MOVLW 04 |
227C: MOVWF x4A |
227E: MOVLB 0 |
2280: CALL 02BA |
2284: BTFSC 18.7 |
2286: BSF FF2.7 |
2288: MOVFF 02,03 |
228C: MOVF 01,W |
228E: ADDLW 20 |
2290: MOVWF FE9 |
2292: MOVLW 05 |
2294: ADDWFC 02,W |
2296: MOVWF FEA |
2298: MOVFF FEF,00 |
229C: MOVFF FEC,01 |
22A0: MOVFF FEC,02 |
22A4: MOVFF FEC,03 |
22A8: MOVFF FEA,3B2 |
22AC: MOVFF FE9,3B1 |
22B0: BCF FD8.1 |
22B2: MOVFF 3AF,6ED |
22B6: MOVFF 3AE,6EC |
22BA: MOVFF 3AD,6EB |
22BE: MOVFF 3AC,6EA |
22C2: MOVFF 03,6F1 |
22C6: MOVFF 02,6F0 |
22CA: MOVFF 01,6EF |
22CE: MOVFF 00,6EE |
22D2: CALL 1442 |
22D6: MOVFF 3B2,FEA |
22DA: MOVFF 3B1,FE9 |
22DE: MOVFF 03,3AF |
22E2: MOVFF 02,3AE |
22E6: MOVFF 01,3AD |
22EA: MOVFF 00,3AC |
.................... } |
22EE: MOVLB 3 |
22F0: INCF xB0,F |
22F2: BRA 2016 |
.................... |
.................... xavg=xavg/BUFLEN; |
22F4: MOVFF 3A7,6ED |
22F8: MOVFF 3A6,6EC |
22FC: MOVFF 3A5,6EB |
2300: MOVFF 3A4,6EA |
2304: MOVLB 6 |
2306: CLRF xF1 |
2308: CLRF xF0 |
230A: MOVLW 48 |
230C: MOVWF xEF |
230E: MOVLW 85 |
2310: MOVWF xEE |
2312: MOVLB 0 |
2314: CALL 16BA |
2318: MOVFF 03,3A7 |
231C: MOVFF 02,3A6 |
2320: MOVFF 01,3A5 |
2324: MOVFF 00,3A4 |
.................... yavg=yavg/BUFLEN; |
2328: MOVFF 3AB,6ED |
232C: MOVFF 3AA,6EC |
2330: MOVFF 3A9,6EB |
2334: MOVFF 3A8,6EA |
2338: MOVLB 6 |
233A: CLRF xF1 |
233C: CLRF xF0 |
233E: MOVLW 48 |
2340: MOVWF xEF |
2342: MOVLW 85 |
2344: MOVWF xEE |
2346: MOVLB 0 |
2348: CALL 16BA |
234C: MOVFF 03,3AB |
2350: MOVFF 02,3AA |
2354: MOVFF 01,3A9 |
2358: MOVFF 00,3A8 |
.................... zavg=zavg/BUFLEN; |
235C: MOVFF 3AF,6ED |
2360: MOVFF 3AE,6EC |
2364: MOVFF 3AD,6EB |
2368: MOVFF 3AC,6EA |
236C: MOVLB 6 |
236E: CLRF xF1 |
2370: CLRF xF0 |
2372: MOVLW 48 |
2374: MOVWF xEF |
2376: MOVLW 85 |
2378: MOVWF xEE |
237A: MOVLB 0 |
237C: CALL 16BA |
2380: MOVFF 03,3AF |
2384: MOVFF 02,3AE |
2388: MOVFF 01,3AD |
238C: MOVFF 00,3AC |
.................... |
.................... // odesli namerene hodnoty |
.................... printf(usb_cdc_putc, "%7.3f %4.3f %4.3f %4.3f %4.3f %4.3f %4.3f \n\r",((time << 16) + get_timer0())/15625.0, xavg, quadraticerror(xavg,x,BUFLEN), yavg, quadraticerror(yavg,y,BUFLEN), zavg, quadraticerror(zavg,z,BUFLEN)); //konstanta k je kvuli prevodu do rozzumnych jednotek [s] |
2390: MOVFF 1A,3B5 |
2394: MOVFF 19,3B4 |
2398: MOVLB 3 |
239A: CLRF xB2 |
239C: CLRF xB3 |
239E: MOVF FD6,W |
23A0: MOVFF FD7,03 |
23A4: ADDWF xB2,F |
23A6: MOVF FD7,W |
23A8: ADDWFC xB3,F |
23AA: MOVLW 00 |
23AC: ADDWFC xB4,F |
23AE: ADDWFC xB5,F |
23B0: MOVFF 3B5,6C5 |
23B4: MOVFF 3B4,6C4 |
23B8: MOVFF 3B3,6C3 |
23BC: MOVFF 3B2,6C2 |
23C0: MOVLB 0 |
23C2: GOTO 1818 |
23C6: MOVFF 03,6ED |
23CA: MOVFF 02,6EC |
23CE: MOVFF 01,6EB |
23D2: MOVFF 00,6EA |
23D6: MOVLB 6 |
23D8: CLRF xF1 |
23DA: MOVLW 24 |
23DC: MOVWF xF0 |
23DE: MOVLW 74 |
23E0: MOVWF xEF |
23E2: MOVLW 8C |
23E4: MOVWF xEE |
23E6: MOVLB 0 |
23E8: CALL 16BA |
23EC: MOVFF 00,3B2 |
23F0: MOVFF 01,3B3 |
23F4: MOVFF 02,3B4 |
23F8: MOVFF 03,3B5 |
23FC: MOVFF 3A7,6CD |
2400: MOVFF 3A6,6CC |
2404: MOVFF 3A5,6CB |
2408: MOVFF 3A4,6CA |
240C: MOVLB 6 |
240E: CLRF xCF |
2410: MOVLW 84 |
2412: MOVWF xCE |
2414: CLRF xD1 |
2416: MOVLW 64 |
2418: MOVWF xD0 |
241A: MOVLB 0 |
241C: CALL 1AE2 |
2420: MOVFF 00,3B6 |
2424: MOVFF 01,3B7 |
2428: MOVFF 02,3B8 |
242C: MOVFF 03,3B9 |
2430: MOVFF 3AB,6CD |
2434: MOVFF 3AA,6CC |
2438: MOVFF 3A9,6CB |
243C: MOVFF 3A8,6CA |
2440: MOVLW 02 |
2442: MOVLB 6 |
2444: MOVWF xCF |
2446: MOVLW 14 |
2448: MOVWF xCE |
244A: CLRF xD1 |
244C: MOVLW 64 |
244E: MOVWF xD0 |
2450: MOVLB 0 |
2452: CALL 1AE2 |
2456: MOVFF 00,3BA |
245A: MOVFF 01,3BB |
245E: MOVFF 02,3BC |
2462: MOVFF 03,3BD |
2466: MOVFF 3AF,6CD |
246A: MOVFF 3AE,6CC |
246E: MOVFF 3AD,6CB |
2472: MOVFF 3AC,6CA |
2476: MOVLW 05 |
2478: MOVLB 6 |
247A: MOVWF xCF |
247C: MOVLW 20 |
247E: MOVWF xCE |
2480: CLRF xD1 |
2482: MOVLW 64 |
2484: MOVWF xD0 |
2486: MOVLB 0 |
2488: CALL 1AE2 |
248C: MOVFF 00,3BE |
2490: MOVFF 01,3BF |
2494: MOVFF 02,3C0 |
2498: MOVFF 03,3C1 |
249C: MOVLW 06 |
249E: MOVWF FE9 |
24A0: MOVFF 3B5,6D1 |
24A4: MOVFF 3B4,6D0 |
24A8: MOVFF 3B3,6CF |
24AC: MOVFF 3B2,6CE |
24B0: MOVLW 03 |
24B2: MOVLB 6 |
24B4: MOVWF xD2 |
24B6: MOVLB 0 |
24B8: RCALL 1DB0 |
24BA: MOVLW 20 |
24BC: MOVLB 6 |
24BE: MOVWF xDB |
24C0: MOVLB 0 |
24C2: CALL 13D4 |
24C6: MOVLW 03 |
24C8: MOVWF FE9 |
24CA: MOVFF 3A7,6D1 |
24CE: MOVFF 3A6,6D0 |
24D2: MOVFF 3A5,6CF |
24D6: MOVFF 3A4,6CE |
24DA: MOVLB 6 |
24DC: MOVWF xD2 |
24DE: MOVLB 0 |
24E0: RCALL 1DB0 |
24E2: MOVLW 20 |
24E4: MOVLB 6 |
24E6: MOVWF xDB |
24E8: MOVLB 0 |
24EA: CALL 13D4 |
24EE: MOVLW 03 |
24F0: MOVWF FE9 |
24F2: MOVFF 3B9,6D1 |
24F6: MOVFF 3B8,6D0 |
24FA: MOVFF 3B7,6CF |
24FE: MOVFF 3B6,6CE |
2502: MOVLB 6 |
2504: MOVWF xD2 |
2506: MOVLB 0 |
2508: RCALL 1DB0 |
250A: MOVLW 20 |
250C: MOVLB 6 |
250E: MOVWF xDB |
2510: MOVLB 0 |
2512: CALL 13D4 |
2516: MOVLW 03 |
2518: MOVWF FE9 |
251A: MOVFF 3AB,6D1 |
251E: MOVFF 3AA,6D0 |
2522: MOVFF 3A9,6CF |
2526: MOVFF 3A8,6CE |
252A: MOVLB 6 |
252C: MOVWF xD2 |
252E: MOVLB 0 |
2530: RCALL 1DB0 |
2532: MOVLW 20 |
2534: MOVLB 6 |
2536: MOVWF xDB |
2538: MOVLB 0 |
253A: CALL 13D4 |
253E: MOVLW 03 |
2540: MOVWF FE9 |
2542: MOVFF 3BD,6D1 |
2546: MOVFF 3BC,6D0 |
254A: MOVFF 3BB,6CF |
254E: MOVFF 3BA,6CE |
2552: MOVLB 6 |
2554: MOVWF xD2 |
2556: MOVLB 0 |
2558: RCALL 1DB0 |
255A: MOVLW 20 |
255C: MOVLB 6 |
255E: MOVWF xDB |
2560: MOVLB 0 |
2562: CALL 13D4 |
2566: MOVLW 03 |
2568: MOVWF FE9 |
256A: MOVFF 3AF,6D1 |
256E: MOVFF 3AE,6D0 |
2572: MOVFF 3AD,6CF |
2576: MOVFF 3AC,6CE |
257A: MOVLB 6 |
257C: MOVWF xD2 |
257E: MOVLB 0 |
2580: RCALL 1DB0 |
2582: MOVLW 20 |
2584: MOVLB 6 |
2586: MOVWF xDB |
2588: MOVLB 0 |
258A: CALL 13D4 |
258E: MOVLW 03 |
2590: MOVWF FE9 |
2592: MOVFF 3C1,6D1 |
2596: MOVFF 3C0,6D0 |
259A: MOVFF 3BF,6CF |
259E: MOVFF 3BE,6CE |
25A2: MOVLB 6 |
25A4: MOVWF xD2 |
25A6: MOVLB 0 |
25A8: RCALL 1DB0 |
25AA: MOVLW 20 |
25AC: MOVLB 6 |
25AE: MOVWF xDB |
25B0: MOVLB 0 |
25B2: CALL 13D4 |
25B6: MOVLW 0A |
25B8: MOVLB 6 |
25BA: MOVWF xDB |
25BC: MOVLB 0 |
25BE: CALL 13D4 |
25C2: MOVLW 0D |
25C4: MOVLB 6 |
25C6: MOVWF xDB |
25C8: MOVLB 0 |
25CA: CALL 13D4 |
.................... } |
25CE: BRA 200E |
.................... } |
25D0: BRA 1FE4 |
.................... } |
25D2: SLEEP |
|
Configuration Fuses: |
Word 1: CE3C IESO FCMEN HSPLL PLL5 CPUDIV4 USBDIV |
Word 2: 0E39 NOBROWNOUT WDT128 NOWDT BORV20 NOPUT VREGEN |
Word 3: 8700 PBADEN CCP2C1 MCLR LPT1OSC |
Word 4: 00A1 STVREN NODEBUG NOLVP NOXINST ICPRT |
Word 5: C00F NOPROTECT NOCPD NOCPB |
Word 6: E00F NOWRT NOWRTD NOWRTC NOWRTB |
Word 7: 400F NOEBTR NOEBTRB |