// Copyright 2015 by Thorsten von Eicken, see LICENSE.txt #include "esp8266.h" #include "uart.h" #include "crc16.h" #include "serbridge.h" #include "console.h" #include "cmd.h" #ifdef SLIP_DBG #define DBG(format, ...) do { os_printf(format, ## __VA_ARGS__); } while(0) #else #define DBG(format, ...) do { } while(0) #endif uint8_t slip_disabled; // temporarily disable slip to allow flashing of attached MCU extern void ICACHE_FLASH_ATTR console_process(char *buf, short len); // This SLIP parser tries to conform to RFC 1055 https://tools.ietf.org/html/rfc1055. // It accumulates each packet into a static buffer and calls cmd_parse() when the end // of a packet is reached. It expects cmd_parse() to copy anything it needs from the // buffer elsewhere as the buffer is immediately reused. // One special feature is that if the first two characters of a packet are both printable or // \n or \r then the parser assumes it's dealing with console debug output and calls // slip_console(c) for each character and does not accumulate chars in the buffer until the // next SLIP_END marker is seen. This allows random console debug output to come in between // packets as long as each packet starts *and* ends with SLIP_END (which is an official // variation on the SLIP protocol). static bool slip_escaped; // true when prev char received is escape static bool slip_inpkt; // true when we're after SLIP_START and before SLIP_END #define SLIP_MAX 1024 // max length of SLIP packet static char slip_buf[SLIP_MAX]; // buffer for current SLIP packet static short slip_len; // accumulated length in slip_buf // SLIP process a packet or a bunch of debug console chars static void ICACHE_FLASH_ATTR slip_process() { if (slip_len > 2) { // proper SLIP packet, invoke command processor after checking CRC //os_printf("SLIP: rcv %d\n", slip_len); uint16_t crc = crc16_data((uint8_t*)slip_buf, slip_len-2, 0); uint16_t rcv = ((uint16_t)slip_buf[slip_len-2]) | ((uint16_t)slip_buf[slip_len-1] << 8); if (crc == rcv) { CMD_parse_packet((uint8_t*)slip_buf, slip_len-2); } else { os_printf("SLIP: bad CRC, crc=%x rcv=%x\n", crc, rcv); for (short i=0; i= ' ' && slip_buf[i] <= '~') { DBG("%c", slip_buf[i]); } else { DBG("\\%02X", slip_buf[i]); } } DBG("\n"); } } } // determine whether a character is printable or not (or \r \n) static bool ICACHE_FLASH_ATTR slip_printable(char c) { return (c >= ' ' && c <= '~') || c == '\n' || c == '\r'; } static void ICACHE_FLASH_ATTR slip_reset() { //os_printf("SLIP: reset\n"); slip_inpkt = true; slip_escaped = false; slip_len = 0; } // SLIP parse a single character static void ICACHE_FLASH_ATTR slip_parse_char(char c) { if (c == SLIP_END) { // either start or end of packet, process whatever we may have accumulated if (slip_len > 0) { if (slip_inpkt) slip_process(); else console_process(slip_buf, slip_len); } slip_reset(); //slip_inpkt = true; DBG("SLIP: start or end\n"); } else if (slip_escaped) { // prev char was SLIP_ESC if (c == SLIP_ESC_END) c = SLIP_END; if (c == SLIP_ESC_ESC) c = SLIP_ESC; if (slip_len < SLIP_MAX) slip_buf[slip_len++] = c; slip_escaped = false; } else if (slip_inpkt && c == SLIP_ESC) { slip_escaped = true; } else { if (slip_len == 0 && slip_printable(c)) { // start of packet and it's a printable character, we're gonna assume that this is console text slip_inpkt = false; } if (slip_len < SLIP_MAX) slip_buf[slip_len++] = c; } } // callback with a buffer of characters that have arrived on the uart void ICACHE_FLASH_ATTR slip_parse_buf(char *buf, short length) { // do SLIP parsing for (short i=0; i 0) { slip_process(); slip_reset(); } }