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/*
Copyright (C) 2004 John Orlando
AVRcam: a small real-time image processing engine.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public
License along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
For more information on the AVRcam, please contact:
john@jrobot.net
or go to www.jrobot.net for more details regarding the system.
*/
/***********************************************************
Module Name: UIMgr.c
Module Date: 04/10/2004
Module Auth: John Orlando
Description: This module is responsible for providing
the processing to manage the user interface of the
system. This user interface is provided via the UART.
This module handles the incoming serial commands, and
performs the needed functionality. It is then
responsible for generating any needed response to
the external entity.
Revision History:
Date Rel Ver. Notes
4/10/2004 0.1 Module created
6/30/2004 1.0 Initial release for Circuit Cellar
contest.
11/15/2004 1.2 Updated version string to 1.2.
1/16/2005 1.4 Added code to write the colorMap
to EEPROM one byte at a time,
ensuring that the EEPROM is only
written when the data is different
than the current value (thus saving
EEPROM writes). Updated version
string to 1.4.
***********************************************************/
/* Includes */
#include <avr/io.h>
#include <stdlib.h>
#include <string.h>
#include <avr/eeprom.h>
#include "CommonDefs.h"
#include "UIMgr.h"
#include "UartInterface.h"
#include "CamConfig.h"
#include "Utility.h"
#include "Executive.h"
#include "CamInterface.h"
/* Local Structures and Typedefs */
typedef enum
{
getVersionCmd,
pingCmd,
setCameraRegsCmd,
dumpFrameCmd,
enableTrackingCmd,
disableTrackingCmd,
setColorMapCmd,
resetCameraCmd,
noCmd,
invalidCmd
} UIMgr_Cmd_t;
typedef enum
{
setRed,
setGreen,
setBlue
} setColorState_t;
/* Local Variables */
static unsigned char charCount = 0;
static unsigned char charIndex = 0;
static unsigned char asciiTokenBuffer[MAX_TOKEN_LENGTH+1]; /* +1 to ensure NULL at end */
static unsigned char tokenCount = 0;
static unsigned char tokenBuffer[MAX_TOKEN_COUNT];
static UIMgr_Cmd_t receivedCmd = noCmd;
static unsigned char AVRcamVersion[] = "AVRcam v1.4\r";
/* Local Function Declaration */
static unsigned char UIMgr_readRxFifo(void);
static unsigned char UIMgr_readTxFifo(void);
static unsigned char UIMgr_readRxFifo(void);
static void UIMgr_sendNck(void);
static void UIMgr_sendAck(void);
static void UIMgr_convertTokenToCmd(void);
static void UIMgr_convertTokenToValue(void);
static void UIMgr_executeCmd(void);
/* Extern Variables */
unsigned char UIMgr_rxFifo[UI_MGR_RX_FIFO_SIZE];
unsigned char UIMgr_rxFifoHead=0;
unsigned char UIMgr_rxFifoTail=0;
unsigned char UIMgr_txFifo[UI_MGR_TX_FIFO_SIZE];
unsigned char UIMgr_txFifoHead=0;
unsigned char UIMgr_txFifoTail=0;
/* Definitions */
#define IS_DATA_IN_TX_FIFO() (!(UIMgr_txFifoHead == UIMgr_txFifoTail))
#define IS_DATA_IN_RX_FIFO() (!(UIMgr_rxFifoHead == UIMgr_rxFifoTail))
/* MAX_EEPROM_WRITE_ATTEMPTS limits the number of writes that can be
done to a particular EEPROM cell, so that it can't possible just
write to the same cell over and over */
#define MAX_EEPROM_WRITE_ATTEMPTS 3
/***********************************************************
Function Name: UIMgr_init
Function Description: This function is responsible for
initializing the UIMgr module. It sets up the fifo
used to hold incoming data, etc.
Inputs: none
Outputs: none
***********************************************************/
void UIMgr_init(void)
{
memset(asciiTokenBuffer,0x00,MAX_TOKEN_LENGTH+1);
memset(tokenBuffer,0x00,MAX_TOKEN_COUNT);
memset(UIMgr_txFifo,0x00,UI_MGR_TX_FIFO_SIZE);
memset(UIMgr_rxFifo,0x00,UI_MGR_RX_FIFO_SIZE);
}
/***********************************************************
Function Name: UIMgr_dispatchEvent
Function Description: This function is responsible for
processing events that pertain to the UIMgr.
Inputs: event - the generated event
Outputs: none
***********************************************************/
void UIMgr_dispatchEvent(unsigned char event)
{
switch(event)
{
case EV_ACQUIRE_LINE_COMPLETE:
UIMgr_transmitPendingData();
break;
case EV_SERIAL_DATA_RECEIVED:
UIMgr_processReceivedData();
break;
case EV_SERIAL_DATA_PENDING_TX:
UIMgr_flushTxBuffer();
break;
}
}
/***********************************************************
Function Name: UIMgr_transmitPendingData
Function Description: This function is responsible for
transmitting a single byte of data if data is waiting
to be sent. Otherwise, if nothing is waiting, the
function just returns.
Inputs: none
Outputs: none
***********************************************************/
void UIMgr_transmitPendingData(void)
{
if (IS_DATA_IN_TX_FIFO() == TRUE)
{
/* data is waiting...send a single byte */
UartInt_txByte( UIMgr_readTxFifo() );
}
}
/***********************************************************
Function Name: UIMgr_processReceivedData
Function Description: This function is responsible for
parsing any serial data waiting in the rx fifo
Inputs: none
Outputs: none
***********************************************************/
void UIMgr_processReceivedData(void)
{
unsigned char tmpData = 0;
/* still need to add a mechanism to handle token counts
that are excessive!!! FIX ME!!! */
while(IS_DATA_IN_RX_FIFO() == TRUE)
{
tmpData = UIMgr_readRxFifo();
if (tmpData == '\r')
{
/* we have reached a token separator */
if (tokenCount == 0)
{
/* convert the command */
UIMgr_convertTokenToCmd();
}
else
{
/* convert a value */
UIMgr_convertTokenToValue();
tokenCount++;
}
/* either way, it is time to try to process the received
token list since we have reached the end of the cmd. */
Utility_delay(100);
if (receivedCmd == invalidCmd ||
receivedCmd == noCmd )
{
UIMgr_sendNck();
PUBLISH_EVENT(EV_SERIAL_DATA_PENDING_TX);
}
else
{
UIMgr_sendAck();
/* publish the serial data pending event, so it
will push the ACK out before we execute the cmd */
PUBLISH_EVENT(EV_SERIAL_DATA_PENDING_TX);
UIMgr_executeCmd();
}
/* reset any necessary data */
tokenCount = 0;
memset(tokenBuffer,0x00,MAX_TOKEN_COUNT);
}
else if (tmpData == ' ') /* space char */
{
/* the end of a token has been reached */
if (tokenCount == 0)
{
UIMgr_convertTokenToCmd();
tokenCount++; /* check this...why is this being incremented here??? This
means we have received a token, with tokenCount == 0, which means it is a
command...why is this contributing to tokenCount?
This might cause the set color map command to include too much data, since
it sets the color map based on tokenCount...CHECK*/
}
else
{
/* check to see if this token is going to push
us over the limit...if so, abort the transaction */
if (tokenCount+1 >= MAX_TOKEN_COUNT)
{
/* we received too many tokens, and
need to NCK this request, since its too
large...reset everything...*/
charCount=0;
charIndex=0;
tokenCount=0;
receivedCmd = invalidCmd;
}
else
{
/* tokenCount is still in range...*/
UIMgr_convertTokenToValue();
tokenCount++;
}
}
}
else if ( (tmpData >= 'A' && tmpData <= 'Z') ||
(tmpData >= '0' && tmpData <= '9') )
{
/* a valid range of token was received */
asciiTokenBuffer[charIndex] = tmpData;
charCount++;
charIndex++;
if (charCount > MAX_TOKEN_LENGTH)
{
/* we have received a token that cannot be handled...
set the received cmd to an invalid cmd, and wait
for the \r to process it */
receivedCmd = invalidCmd;
charIndex = 0; /* ...so we won't overwrite memory */
}
}
else
{
/* an invalid character was received */
receivedCmd = invalidCmd;
}
} /* end while */
asm volatile("clt"::); /* clear out the T flag in case it wasn't
cleared already */
}
/***********************************************************
Function Name: UIMgr_executeCmd
Function Description: This function is responsible for
executing whatever cmd is stored in the receivedCmd
object.
Inputs: none
Outputs: none
***********************************************************/
static void UIMgr_executeCmd(void)
{
unsigned char i,eepromData, num_writes=0;
unsigned char *pData;
unsigned char eeprom_write_succeeded = FALSE;
#if DEBUG_COLOR_MAP
unsigned char asciiBuffer[5];
#endif
if (receivedCmd == pingCmd)
{
}
else if (receivedCmd == getVersionCmd)
{
pData = AVRcamVersion;
while(*pData != 0)
{
UIMgr_writeTxFifo(*pData++);
}
}
else if (receivedCmd == resetCameraCmd)
{
CamInt_resetCam();
}
else if (receivedCmd == dumpFrameCmd)
{
/* publish the event that will indicate that
a request has come to dump a frame...this will
be received by the FrameMgr, which will begin
dumping the frame...a short delay is needed
here to keep the Java demo app happy (sometimes
it wouldn't be able to receive the serial data
as quickly as AVRcam can provide it). */
Utility_delay(100);
PUBLISH_EVENT(EV_DUMP_FRAME);
}
else if (receivedCmd == setCameraRegsCmd)
{
/* we need to gather the tokens and
build config cmds to be sent to the camera */
for (i=1; i<tokenCount; i+=2) /* starts at 1 since first token
is the CR cmd */
{
CamConfig_setCamReg(tokenBuffer[i],tokenBuffer[i+1]);
}
CamConfig_sendFifoCmds();
}
else if (receivedCmd == enableTrackingCmd)
{
/* publish the event...again with a short delay */
Utility_delay(100);
PUBLISH_EVENT(EV_ENABLE_TRACKING);
}
else if (receivedCmd == disableTrackingCmd)
{
PUBLISH_EVENT(EV_DISABLE_TRACKING);
}
else if (receivedCmd == setColorMapCmd)
{
/* copy the received tokens into the color map */
for (i=0; i<tokenCount; i++)
{
colorMap[i] = tokenBuffer[i+1];
/* write each colorMap byte to EEPROM, but only those
that changed...this will help reduce wear on the EEPROM */
eepromData = eeprom_read_byte( (unsigned char*)(i+1));
if (eepromData != colorMap[i])
{
/* need to actually perform the write because the
data in eeprom is different than the current colorMap */
eeprom_write_succeeded = FALSE;
while(eeprom_write_succeeded == FALSE && num_writes < MAX_EEPROM_WRITE_ATTEMPTS)
{
eeprom_write_byte((unsigned char*)(i+1),colorMap[i]);
num_writes++;
eepromData = eeprom_read_byte( (unsigned char*)(i+1));
if (eepromData == colorMap[i])
{
eeprom_write_succeeded = TRUE;
}
}
num_writes = 0;
}
}
#if DEBUG_COLOR_MAP
/* for debugging...send out the entire color map */
UIMgr_txBuffer("\r\n",2);
for (i=0; i<NUM_ELEMENTS_IN_COLOR_MAP; i++)
{
memset(asciiBuffer,0x00,5);
itoa(colorMap[i],asciiBuffer,10);
UIMgr_txBuffer(asciiBuffer,3);
UIMgr_txBuffer(" ",1);
if (i==15 || i == 31)
{
/* break up the output */
UIMgr_txBuffer("\r\n",2);
}
}
#endif
}
}
/***********************************************************
Function Name: UIMgr_convertTokenToValue
Function Description: This function is responsible for
converting a received token to a hex value It will
access the asciiTokenBuffer directly, and store the
result in the appropriate token buffer.
Inputs: none
Outputs: none
***********************************************************/
static void UIMgr_convertTokenToValue(void)
{
unsigned int newValue;
newValue = atoi(asciiTokenBuffer);
if (newValue > 255)
{
/* the value is too large */
receivedCmd = invalidCmd;
tokenBuffer[tokenCount] = 0xFF; /* to indicate an error */
}
else
{
/* copy the value into the tokenBuffer */
tokenBuffer[tokenCount] = newValue;
}
memset(asciiTokenBuffer,0x00,MAX_TOKEN_LENGTH);
charIndex = 0;
charCount = 0;
}
/***********************************************************
Function Name: UIMgr_convertTokenToCmd
Function Description: This function is responsible for
parsing a received 2-character command. It will
access the asciiTokenBuffer directly.
Inputs: none
Outputs: none
***********************************************************/
static void UIMgr_convertTokenToCmd(void)
{
if ( (asciiTokenBuffer[0] == 'P') &&
(asciiTokenBuffer[1] == 'G') )
{
/* we got a "ping" command...but we still need to see
if we are going to get the \r */
receivedCmd = pingCmd;
}
else if ( (asciiTokenBuffer[0] == 'G') &&
(asciiTokenBuffer[1] == 'V') )
{
/* we got the "get version" command */
receivedCmd = getVersionCmd;
}
else if ( (asciiTokenBuffer[0] == 'D') &&
(asciiTokenBuffer[1] == 'F') )
{
/* we should go into frame dump mode */
receivedCmd = dumpFrameCmd;
}
else if ( (asciiTokenBuffer[0] == 'C') &&
(asciiTokenBuffer[1] == 'R') )
{
/* the user wants to set registers in the OV6620 */
receivedCmd = setCameraRegsCmd;
}
else if ( (asciiTokenBuffer[0] == 'E') &&
(asciiTokenBuffer[1] == 'T') )
{
/* the user wants to enable tracking */
receivedCmd = enableTrackingCmd;
}
else if ( (asciiTokenBuffer[0] == 'S') &&
(asciiTokenBuffer[1] == 'M') )
{
/* the user wants to set the color map */
receivedCmd = setColorMapCmd;
}
else if ( (asciiTokenBuffer[0] == 'D') &&
(asciiTokenBuffer[1] == 'T') )
{
receivedCmd = disableTrackingCmd;
}
else if ( (asciiTokenBuffer[0] == 'R') &&
(asciiTokenBuffer[1] == 'S') )
{
receivedCmd = resetCameraCmd;
}
else
{
/* don't recognize the cmd */
receivedCmd = invalidCmd;
}
memset(asciiTokenBuffer,0x00,MAX_TOKEN_LENGTH);
charIndex = 0;
charCount = 0;
}
/***********************************************************
Function Name: UIMgr_sendAck
Function Description: This function is responsible for
queuing up an ACK to be sent to the user.
Inputs: none
Outputs: none
***********************************************************/
static void UIMgr_sendAck(void)
{
UIMgr_writeTxFifo('A');
UIMgr_writeTxFifo('C');
UIMgr_writeTxFifo('K');
UIMgr_writeTxFifo('\r');
}
/***********************************************************
Function Name: UIMgr_sendNck
Function Description: This function is responsible for
queueing up an NCK to be sent to the user.
Inputs: none
Outputs: none
***********************************************************/
static void UIMgr_sendNck(void)
{
UIMgr_writeTxFifo('N');
UIMgr_writeTxFifo('C');
UIMgr_writeTxFifo('K');
UIMgr_writeTxFifo('\r');
}
/***********************************************************
Function Name: UIMgr_writeBufferToTxFifo
Function Description: This function is responsible for
placing "length" bytes into the tx FIFO.
Inputs: pData - a pointer to the data to send
length - the number of bytes to send
Outputs: none
***********************************************************/
void UIMgr_writeBufferToTxFifo(unsigned char *pData, unsigned char length)
{
unsigned char tmpHead;
if (length == 0)
{
return;
}
DISABLE_INTS();
while(length-- != 0)
{
UIMgr_txFifo[UIMgr_txFifoHead] = *pData++;
/* now move the head up */
tmpHead = (UIMgr_txFifoHead + 1) & (UI_MGR_TX_FIFO_MASK);
UIMgr_txFifoHead = tmpHead;
}
ENABLE_INTS();
}
/***********************************************************
Function Name: UIMgr_txBuffer
Function Description: This function is responsible for
sending 'length' bytes out using the UartInterface
module.
Inputs: pData - a pointer to the data to send
length - the number of bytes to send
Outputs: none
***********************************************************/
void UIMgr_txBuffer(unsigned char *pData, unsigned char length)
{
while(length-- != 0)
{
UartInt_txByte(*pData++);
}
}
/***********************************************************
Function Name: UIMgr_flushTxBuffer
Function Description: This function is responsible for
sending all data currently in the serial tx buffer
to the user.
Inputs: none
Outputs: none
***********************************************************/
void UIMgr_flushTxBuffer(void)
{
while(IS_DATA_IN_TX_FIFO() == TRUE)
{
UartInt_txByte(UIMgr_readTxFifo() );
}
}
/***********************************************************
Function Name: UIMgr_readRxFifo
Function Description: This function is responsible for
reading a single byte of data from the rx fifo, and
updating the appropriate pointers.
Inputs: none
Outputs: unsigned char-the data read
***********************************************************/
static unsigned char UIMgr_readRxFifo(void)
{
unsigned char dataByte, tmpTail;
/* just return the current tail from the rx fifo */
DISABLE_INTS();
dataByte = UIMgr_rxFifo[UIMgr_rxFifoTail];
tmpTail = (UIMgr_rxFifoTail+1) & (UI_MGR_RX_FIFO_MASK);
UIMgr_rxFifoTail = tmpTail;
ENABLE_INTS();
return(dataByte);
}
/***********************************************************
Function Name: UIMgr_readTxFifo
Function Description: This function is responsible for
reading a single byte of data from the tx fifo, and
updating the appropriate pointers.
Inputs: none
Outputs: unsigned char-the data read
***********************************************************/
static unsigned char UIMgr_readTxFifo(void)
{
unsigned char dataByte, tmpTail;
/* just return the current tail from the tx fifo */
DISABLE_INTS();
dataByte = UIMgr_txFifo[UIMgr_txFifoTail];
tmpTail = (UIMgr_txFifoTail+1) & (UI_MGR_TX_FIFO_MASK);
UIMgr_txFifoTail = tmpTail;
ENABLE_INTS();
return(dataByte);
}
/***********************************************************
Function Name: UIMgr_writeTxFifo
Function Description: This function is responsible for
writing a single byte to the TxFifo and
updating the appropriate pointers.
Inputs: data - the byte to write to the Fifo
Outputs: none
***********************************************************/
void UIMgr_writeTxFifo(unsigned char data)
{
unsigned char tmpHead;
DISABLE_INTS();
UIMgr_txFifo[UIMgr_txFifoHead] = data;
/* now move the head up */
tmpHead = (UIMgr_txFifoHead + 1) & (UI_MGR_TX_FIFO_MASK);
UIMgr_txFifoHead = tmpHead;
ENABLE_INTS();
}