// // ctrl.c : AVR uC code for ctrl buffer initialisation and put/get ops // // Copyright (c) 2010 flukso.net // // 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // // $Id$ #include #include "global.h" #include "main.h" #include "buffer.h" #include "ctrl.h" #include "encode.h" cBuffer ctrlRxBuffer; // ctrl receive buffer cBuffer ctrlTxBuffer; // ctrl transmit buffer static char ctrlRxData[CTRL_RX_BUFFER_SIZE]; static char ctrlTxData[CTRL_TX_BUFFER_SIZE]; extern volatile struct event_struct EEMEM EEPROM_event; extern volatile struct event_struct event; extern uint8_t EEMEM EEPROM_phy_to_log[MAX_SENSORS]; extern uint8_t phy_to_log[MAX_SENSORS]; extern volatile struct sensor_struct EEMEM EEPROM_sensor[MAX_SENSORS]; extern volatile struct sensor_struct sensor[MAX_SENSORS]; void ctrlInit(void) { // initialize the CTRL receive buffer bufferInit(&ctrlRxBuffer, (u08*) ctrlRxData, CTRL_RX_BUFFER_SIZE); // initialize the CTRL transmit buffer bufferInit(&ctrlTxBuffer, (u08*) ctrlTxData, CTRL_TX_BUFFER_SIZE); } uint8_t ctrlTxBufferIsEmpty(void) { if(ctrlTxBuffer.datalength == 0) { return TRUE; } else { return FALSE; } } uint8_t ctrlAddToTxBuffer(uint8_t data) { return bufferAddToEnd(&ctrlTxBuffer, data); } uint8_t ctrlGetFromTxBuffer(uint8_t* data) { // make sure we have data in the Tx buffer if(ctrlTxBuffer.datalength) { // get byte from beginning of buffer *data = bufferGetFromFront(&ctrlTxBuffer); return TRUE; } else { // no data return FALSE; } } uint8_t ctrlRxBufferIsEmpty(void) { if(ctrlRxBuffer.datalength == 0) { return TRUE; } else { return FALSE; } } uint8_t ctrlAddToRxBuffer(uint8_t data) { return bufferAddToEnd(&ctrlRxBuffer, data); } uint8_t ctrlGetFromRxBuffer(uint8_t* pdata) { // make sure we have data in the Rx buffer if(ctrlRxBuffer.datalength) { // get byte from beginning of buffer *pdata = bufferGetFromFront(&ctrlRxBuffer); return TRUE; } else { // no data return FALSE; } } void ctrlFlushReceiveBuffer(void) { ctrlRxBuffer.datalength = 0; } uint8_t ctrlReadCharFromRxBuffer(uint8_t* pdata) { uint8_t high_hex, low_hex; if (ctrlGetFromRxBuffer(&high_hex) && ctrlGetFromRxBuffer(&low_hex)) { *pdata = htob(((uint16_t)high_hex << 8) + low_hex); return TRUE; } else { return FALSE; } } uint8_t ctrlReadShortFromRxBuffer(uint16_t* pdata) { uint8_t high_char, low_char; if(ctrlReadCharFromRxBuffer(&high_char) && ctrlReadCharFromRxBuffer(&low_char)) { *pdata = ((uint16_t)high_char << 8) + low_char; return TRUE; } else { return FALSE; } } uint8_t ctrlReadLongFromRxBuffer(uint32_t* pdata) { uint16_t high_short, low_short; if(ctrlReadShortFromRxBuffer(&high_short) && ctrlReadShortFromRxBuffer(&low_short)) { *pdata = ((uint32_t)high_short << 16) + low_short; return TRUE; } else { return FALSE; } } uint8_t ctrlWriteCharToTxBuffer(uint8_t data) { uint16_t hex; hex = btoh(data); if (ctrlAddToTxBuffer((uint8_t)(hex >> 8)) && ctrlAddToTxBuffer((uint8_t)hex)) { return TRUE; } else { return FALSE; } } uint8_t ctrlWriteShortToTxBuffer(uint16_t data) { if (ctrlWriteCharToTxBuffer((uint8_t)(data >> 8)) && ctrlWriteCharToTxBuffer((uint8_t)data)) { return TRUE; } else { return FALSE; } } uint8_t ctrlWriteLongToTxBuffer(uint32_t data) { if (ctrlWriteShortToTxBuffer((uint16_t)(data >> 16)) && ctrlWriteShortToTxBuffer((uint16_t)data)) { return TRUE; } else { return FALSE; } } void ctrlRxToTxLoop(void) { uint8_t data; while (ctrlGetFromRxBuffer(&data)) { ctrlAddToTxBuffer(data); } } void ctrlDecode(void) { uint8_t cmd[2]; if (ctrlGetFromRxBuffer(cmd) && ctrlGetFromRxBuffer(cmd+1)) { ctrlAddToTxBuffer(cmd[0]); ctrlAddToTxBuffer(cmd[1]); switch (cmd[0]) { case 'g': ctrlCmdGet(cmd[1]); break; case 's': ctrlCmdSet(cmd[1]); break; case 'c': if (cmd[1] == 't') ctrlCmdCommit(); break; } ctrlAddToTxBuffer('.'); } ctrlFlushReceiveBuffer(); } void ctrlCmdGet(uint8_t cmd) { uint8_t i; uint32_t tmp32; switch (cmd) { case 'p': for (i = 0 ; i < MAX_SENSORS; i++) { ctrlWriteCharToTxBuffer(phy_to_log[i]); } break; case 'c': ctrlReadCharFromRxBuffer(&i); cli(); tmp32 = sensor[i].counter; sei(); ctrlWriteLongToTxBuffer(tmp32); break; case 'm': ctrlReadCharFromRxBuffer(&i); ctrlWriteShortToTxBuffer(sensor[i].meterconst); break; case 'w': ctrlWriteShortToTxBuffer(event.wdt); break; case 'b': ctrlWriteShortToTxBuffer(event.brown_out); break; } } void ctrlCmdSet(uint8_t cmd) { uint8_t i, tmp8; uint16_t tmp16; uint32_t tmp32; switch (cmd) { case 'p': for (i = 0 ; i < MAX_SENSORS; i++) { ctrlReadCharFromRxBuffer(&tmp8); cli(); phy_to_log[i] = tmp8; sei(); } break; case 'c': ctrlReadCharFromRxBuffer(&i); ctrlReadLongFromRxBuffer(&tmp32); cli(); sensor[i].counter = tmp32; sei(); break; case 'm': ctrlReadCharFromRxBuffer(&i); ctrlReadShortFromRxBuffer(&tmp16); cli(); sensor[i].meterconst = tmp16; sei(); break; case 'w': ctrlReadShortFromRxBuffer(&tmp16); cli(); event.wdt = tmp16; sei(); break; case 'b': ctrlReadShortFromRxBuffer(&tmp16); cli(); event.brown_out = tmp16; sei(); break; } } void ctrlCmdCommit(void) { cli(); eeprom_write_block((const void*)&event, (void*)&EEPROM_event, sizeof(event)); eeprom_write_block((const void*)&phy_to_log, (void*)&EEPROM_phy_to_log, sizeof(phy_to_log)); eeprom_write_block((const void*)&sensor, (void*)&EEPROM_sensor, sizeof(sensor)); sei(); }