/* 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 3 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, see .
*
*/
/** library to send data using ESP8266 WiFi SoC (code)
* @file radio_esp8266.c
* @author King Kévin
* @date 2016
* @note peripherals used: USART @ref radio_esp8266_usart
*/
/* standard libraries */
#include // standard integer types
#include // general utilities
#include // string and memory utilities
#include // string utilities
/* STM32 (including CM3) libraries */
#include // real-time control clock library
#include // general purpose input output library
#include // universal synchronous asynchronous receiver transmitter library
#include // interrupt handler
#include // Cortex M3 utilities
#include "radio_esp8266.h" // radio header and definitions
#include "global.h" // common methods
/** @defgroup radio_esp8266_usart USART peripheral used for communication with radio
* @{
*/
#define RADIO_ESP8266_USART 1 /**< USART peripheral */
/** @} */
/* input and output buffers and used memory */
static uint8_t rx_buffer[24] = {0}; /**< buffer for received data (we only expect AT responses) */
static volatile uint16_t rx_used = 0; /**< number of byte in receive buffer */
static uint8_t tx_buffer[256] = {0}; /**< buffer for data to transmit */
static volatile uint16_t tx_used = 0; /**< number of bytes used in transmit buffer */
volatile bool radio_esp8266_activity = false;
volatile bool radio_esp8266_success = false;
/** transmit data to radio
* @param[in] data data to transmit
* @param[in] length length of data to transmit
*/
static void radio_esp8266_transmit(uint8_t* data, uint8_t length) {
while (tx_used || !usart_get_flag(USART(RADIO_ESP8266_USART), USART_SR_TXE)) { // wait until ongoing transmission completed
usart_enable_tx_interrupt(USART(RADIO_ESP8266_USART)); // enable transmit interrupt
__WFI(); // sleep until something happened
}
usart_disable_tx_interrupt(USART(RADIO_ESP8266_USART)); // ensure transmit interrupt is disable to prevent index corruption (the ISR should already have done it)
radio_esp8266_activity = false; // reset status because of new activity
for (tx_used=0; tx_used0) {
radio_esp8266_transmit((uint8_t*)command, length);
}
}
void radio_esp8266_send(uint8_t* data, uint8_t length)
{
char command[16+1] = {0}; // string to create command
int command_length = snprintf(command, LENGTH(command), "AT+CIPSEND=%u\r\n", length); // create AT command to send data
if (command_length>0) {
radio_esp8266_transmit((uint8_t*)command, command_length); // transmit AT command
while (!radio_esp8266_activity || !radio_esp8266_success) { // wait for response
__WFI(); // sleep until something happened
}
if (!radio_esp8266_success) { // send AT command did not succeed
return; // don't transmit data
}
radio_esp8266_transmit(data, length); // transmit data
}
}
void radio_esp8266_close(void)
{
radio_esp8266_transmit((uint8_t*)"AT+CIPCLOSE\r\n", 13); // send AT command to close established connection
}
/** USART interrupt service routine called when data has been transmitted or received */
void USART_ISR(RADIO_ESP8266_USART)(void)
{
if (usart_get_interrupt_source(USART(RADIO_ESP8266_USART), USART_SR_TXE)) { // data has been transmitted
if (tx_used) { // there is still data in the buffer to transmit
usart_send(USART(RADIO_ESP8266_USART),tx_buffer[tx_used-1]); // put data in transmit register
tx_used--; // update used size
} else { // no data in the buffer to transmit
usart_disable_tx_interrupt(USART(RADIO_ESP8266_USART)); // disable transmit interrupt
}
}
if (usart_get_interrupt_source(USART(RADIO_ESP8266_USART), USART_SR_RXNE)) { // data has been received
while (rx_used>=LENGTH(rx_buffer)) { // if buffer is full
memmove(rx_buffer,&rx_buffer[1],LENGTH(rx_buffer)-1); // drop old data to make space (ring buffer are more efficient but harder to handle)
rx_used--; // update used buffer information
}
rx_buffer[rx_used++] = usart_recv(USART(RADIO_ESP8266_USART)); // put character in buffer
// if the used send a packet with these strings during the commands detection the AT command response will break (AT commands are hard to handle perfectly)
if (rx_used>=4 && memcmp((char*)&rx_buffer[rx_used-4], "OK\r\n", 4)==0) { // OK received
radio_esp8266_activity = true; // response received
radio_esp8266_success = true; // command succeeded
rx_used = 0; // reset buffer
} else if (rx_used>=7 && memcmp((char*)&rx_buffer[rx_used-7], "ERROR\r\n", 7)==0) { // ERROR received
radio_esp8266_activity = true; // response received
radio_esp8266_success = false; // command failed
rx_used = 0; // reset buffer
}
}
}