//*****************************************************************************
// File Name : dallas.c
// Title : Dallas 1-Wire Library
// Revision : 6
// Notes :
// Target MCU : Atmel AVR series
// Editor Tabs : 4
//
//*****************************************************************************
//----- Include Files ---------------------------------------------------------
#include <avr/io.h> // include I/O definitions (port names, pin names, etc)
#include <avr/interrupt.h> // include interrupt support
#include <string.h> // include string support
#include "rprintf.h" // include rprintf function library
#include "timer128.h" // include timer function library
#include "ds2482.h" // include dallas support
#include "dallas.h" // include dallas support
//----- Global Variables -------------------------------------------------------
static u08 last_discrep = 0; // last discrepancy for FindDevices
static u08 done_flag = 0; // done flag for FindDevices
u08 dallas_crc; // current crc global variable
u08 dallas_crc_table[] = // dallas crc lookup table
{
0, 94,188,226, 97, 63,221,131,194,156,126, 32,163,253, 31, 65,
157,195, 33,127,252,162, 64, 30, 95, 1,227,189, 62, 96,130,220,
35,125,159,193, 66, 28,254,160,225,191, 93, 3,128,222, 60, 98,
190,224, 2, 92,223,129, 99, 61,124, 34,192,158, 29, 67,161,255,
70, 24,250,164, 39,121,155,197,132,218, 56,102,229,187, 89, 7,
219,133,103, 57,186,228, 6, 88, 25, 71,165,251,120, 38,196,154,
101, 59,217,135, 4, 90,184,230,167,249, 27, 69,198,152,122, 36,
248,166, 68, 26,153,199, 37,123, 58,100,134,216, 91, 5,231,185,
140,210, 48,110,237,179, 81, 15, 78, 16,242,172, 47,113,147,205,
17, 79,173,243,112, 46,204,146,211,141,111, 49,178,236, 14, 80,
175,241, 19, 77,206,144,114, 44,109, 51,209,143, 12, 82,176,238,
50,108,142,208, 83, 13,239,177,240,174, 76, 18,145,207, 45,115,
202,148,118, 40,171,245, 23, 73, 8, 86,180,234,105, 55,213,139,
87, 9,235,181, 54,104,138,212,149,203, 41,119,244,170, 72, 22,
233,183, 85, 11,136,214, 52,106, 43,117,151,201, 74, 20,246,168,
116, 42,200,150, 21, 75,169,247,182,232, 10, 84,215,137,107, 53
};
//----- Functions --------------------------------------------------------------
/*--------------------------------------------------------------------------
* dallasFindNextDevice: find the next device on the bus
* input................ rom_id - pointer to store the rom id found
* returns.............. true or false if a device was found
*-------------------------------------------------------------------------*/
u08 dallasFindNextDevice(dallas_rom_id_T* rom_id);
void dallasInit(void)
{
//ds2482Init();
}
u08 dallasReset(void)
{
// reset the bus
if(ds2482BusReset())
return DALLAS_PRESENCE;
else
return DALLAS_NO_PRESENCE;
}
u08 dallasReadBit(void)
{
return ds2482BusTransferBit(1);
}
void dallasWriteBit(u08 bit)
{
ds2482BusTransferBit(bit);
}
u08 dallasReadByte(void)
{
return ds2482BusReadByte();
}
void dallasWriteByte(u08 byte)
{
ds2482BusWriteByte(byte);
}
u08 dallasReadRAM(dallas_rom_id_T* rom_id, u16 addr, u08 len, u08 *data)
{
u08 i;
u08 error;
union int16_var_U
{
u16 i16;
u08 i08[2];
} int16_var;
// first make sure we actually have something to do
if (data == NULL)
return DALLAS_NULL_POINTER;
if (len == 0)
return DALLAS_ZERO_LEN;
// reset the bus and request the device
error = dallasMatchROM(rom_id);
if (error != DALLAS_NO_ERROR)
return error;
// enter read mode
dallasWriteByte(DALLAS_READ_MEMORY);
// write address one byte at a time
int16_var.i16 = addr;
dallasWriteByte(int16_var.i08[0]);
dallasWriteByte(int16_var.i08[1]);
// read data from device 1 byte at a time
for(i=0;i<len;i++)
data[i] = dallasReadByte();
return DALLAS_NO_ERROR;
}
u08 dallasWriteRAM(dallas_rom_id_T* rom_id, u16 addr, u08 len, u08* data)
{
u08 i;
u08 error;
union int16_var_U
{
u16 i16;
u08 i08[2];
} int16_var;
// first make sure we actually have something to do
if (data == NULL)
return DALLAS_NULL_POINTER;
if (len == 0)
return DALLAS_ZERO_LEN;
// reset the bus and request the device
error = dallasMatchROM(rom_id);
if (error != DALLAS_NO_ERROR)
return error;
// enter write mode
dallasWriteByte(DALLAS_WRITE_MEMORY);
// write address one byte at a time
int16_var.i16 = addr;
dallasWriteByte(int16_var.i08[0]);
dallasWriteByte(int16_var.i08[1]);
// write data one byte at a time
for(i=0;i<len;i++)
{
dallasWriteByte(data[i]);
// future: Check CRC16, for now just read it so we can go on
dallasReadByte();
dallasReadByte();
// verify the data
if (dallasReadByte() != data[i])
return DALLAS_VERIFY_ERROR;
}
return DALLAS_NO_ERROR;
}
void dallasWaitUntilDone(void)
{
//timerPause(6);
// wait until we recieve a one
// cli();
// while(!dallasReadBit());
// sei();
while(!ds2482BusLevel());
}
u08 dallasReadROM(dallas_rom_id_T* rom_id)
{
u08 i;
// reset the 1-wire bus and look for presence
i = dallasReset();
if (i != DALLAS_PRESENCE)
return i;
// send READ ROM command
dallasWriteByte(DALLAS_READ_ROM);
// get the device's ID 1 byte at a time
for(i=0;i<8;i++)
rom_id->byte[i] = dallasReadByte();
return DALLAS_NO_ERROR;
}
u08 dallasMatchROM(dallas_rom_id_T* rom_id)
{
u08 i;
// reset the 1-wire and look for presence
i = dallasReset();
if (i != DALLAS_PRESENCE)
return i;
// send MATCH ROM command
dallasWriteByte(DALLAS_MATCH_ROM);
// write id one byte at a time
for(i=0;i<8;i++)
dallasWriteByte(rom_id->byte[i]);
return DALLAS_NO_ERROR;
}
void dallasPrintROM(dallas_rom_id_T* rom_id)
{
s08 i;
// print out the rom in the format: xx xx xx xx xx xx xx xx
for(i=7;i>=0;i--)
{
rprintfu08(rom_id->byte[i]);
rprintfChar(' ');
}
}
u08 dallasAddressCheck(dallas_rom_id_T* rom_id, u08 family)
{
// u08 i;
// dallas_crc = 0;
// for(i=1;i<7;i++)
// {
// dallasCRC(rom_id->byte[i]);
// rprintfu08(rom_id->byte[i]);
// rprintfChar(' ');
// }
// rprintfCRLF();
// rprintfu08(dallas_crc);
// rprintfCRLF();
//run CRC on address
//make sure we have the correct family
if (rom_id->byte[DALLAS_FAMILY_IDX] == family)
return DALLAS_NO_ERROR;
return DALLAS_ADDRESS_ERROR;
}
u08 dallasCRC(u08 i)
{
// update the crc global variable and return it
dallas_crc = dallas_crc_table[dallas_crc^i];
return dallas_crc;
}
u08 dallasFindDevices(dallas_rom_id_T rom_id[])
{
u08 num_found = 0;
dallas_rom_id_T id;
// reset the rom search last discrepancy global
last_discrep = 0;
done_flag = FALSE;
// check to make sure presence is detected before we start
if (dallasReset() == DALLAS_PRESENCE)
{
// --> stang
//while (dallasFindNextDevice(&rom_id[num_found]) && (num_found<DALLAS_MAX_DEVICES))
// num_found++;
// continues until no additional devices are found
while (dallasFindNextDevice(&id) && (num_found<DALLAS_MAX_DEVICES))
memcpy(&rom_id[num_found++], &id, 8);
}
return num_found;
}
u08 dallasFindNextDevice(dallas_rom_id_T* rom_id)
{
u08 bit;
u08 i = 0;
u08 bit_index = 1;
u08 byte_index = 0;
u08 bit_mask = 1;
u08 discrep_marker = 0;
// reset the CRC
dallas_crc = 0;
if (done_flag || dallasReset() != DALLAS_PRESENCE)
{
// no more devices parts detected
return FALSE;
}
// send search ROM command
dallasWriteByte(DALLAS_SEARCH_ROM);
// loop until through all 8 ROM bytes
while(byte_index<8)
{
// read line 2 times to determine status of devices
// 00 - devices connected to bus with conflicting bits
// 01 - all devices have a 0 in this position
// 10 - all devices ahve a 1 in this position
// 11 - there are no devices connected to bus
i = 0;
cli();
if (dallasReadBit())
i = 2; // store the msb if 1
//delay_us(120);
delay(120);
if (dallasReadBit())
i |= 1; // store the lsb if 1
sei();
if (i==3)
{
// there are no devices on the 1-wire
break;
}
else
{
if (i>0)
{
// all devices coupled have 0 or 1
// shift 1 to determine if the msb is 0 or 1
bit = i>>1;
}
else
{
// if this discrepancy is before the last discrepancy on a
// previous FindNextDevice then pick the same as last time
if (bit_index<last_discrep)
bit = ((rom_id->byte[byte_index] & bit_mask) > 0);
else
bit = (bit_index==last_discrep);
// if 0 was picked then record position with bit mask
if (!bit)
discrep_marker = bit_index;
}
// isolate bit in rom_id->byte[byte_index] with bit mask
if (bit)
rom_id->byte[byte_index] |= bit_mask;
else
rom_id->byte[byte_index] &= ~bit_mask;
// ROM search write
//cli();
dallasWriteBit(bit);
//sei();
// ncrement bit index counter and shift the bit mask
bit_index++;
bit_mask <<= 1;
if (!bit_mask)
{
// if the mask is 0 then go to new ROM
// accumulate the CRC and incriment the byte index and bit mask
dallasCRC(rom_id->byte[byte_index]);
byte_index++;
bit_mask++;
}
}
}
if ((bit_index < 65) || dallas_crc)
{
// search was unsuccessful - reset the last discrepancy to 0 and return false
last_discrep = 0;
return FALSE;
}
// search was successful, so set last_discrep and done_flag
last_discrep = discrep_marker;
done_flag = (last_discrep==0);
return TRUE;
}
void dallasPrintError(u08 error)
{
// if there was not an error, return
if (error == DALLAS_NO_ERROR)
return;
// print header message
rprintfProgStrM("ERROR ");
rprintfChar(error);
rprintfProgStrM(": ");
// print custom error message
switch (error)
{
case DALLAS_NO_PRESENCE:
rprintfProgStrM("no presence detected");
break;
case DALLAS_INVALID_CHANNEL:
rprintfProgStrM("Invalid Chan");
break;
case DALLAS_VERIFY_ERROR:
rprintfProgStrM("Verify");
break;
case DALLAS_ADDRESS_ERROR:
rprintfProgStrM("Bad Addr");
break;
case DALLAS_CRC_ERROR:
rprintfProgStrM("Data CRC");
break;
case DALLAS_DEVICE_ERROR:
rprintfProgStrM("No response");
break;
case DALLAS_FORMAT_ERROR:
rprintfProgStrM("Bad return format");
break;
case DALLAS_NULL_POINTER:
rprintfProgStrM("Null Pointer");
break;
case DALLAS_ZERO_LEN:
rprintfProgStrM("RAM rd/wr 0 bytes");
break;
case DALLAS_BUS_ERROR:
rprintfProgStrM("Bus error, check pullup");
break;
case DALLAS_RESOLUTION_ERROR:
rprintfProgStrM("resolution out of range");
break;
default:
rprintfProgStrM("Unknown");
}
rprintfCRLF();
}
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