#include #include "protocol/SimpleSerial.h" bool PRINT_SRC = true; bool PRINT_DST = true; bool PRINT_PATH = true; bool PRINT_DATA = true; bool PRINT_INFO = true; bool VERBOSE = false; AX25Call src; AX25Call dst; AX25Call path1; AX25Call path2; char CALL[6] = "NOCALL"; int CALL_SSID = 0; char DST[6] = "APZMDM"; int DST_SSID = 0; char PATH1[6] = "WIDE1"; int PATH1_SSID = 1; char PATH2[6] = "WIDE2"; int PATH2_SSID = 2; AX25Call path[4]; void ss_messageCallback(struct AX25Msg *msg, Serial *ser) { if (PRINT_SRC) { if (PRINT_INFO) kfile_print(&ser->fd, "SRC: "); kfile_printf(&ser->fd, "[%.6s-%d] ", msg->src.call, msg->src.ssid); } if (PRINT_DST) { if (PRINT_INFO) kfile_printf(&ser->fd, "DST: "); kfile_printf(&ser->fd, "[%.6s-%d] ", msg->dst.call, msg->dst.ssid); } if (PRINT_PATH) { if (PRINT_INFO) kfile_print(&ser->fd, "PATH: "); for (int i = 0; i < msg->rpt_cnt; i++) kfile_printf(&ser->fd, "[%.6s-%d] ", msg->rpt_lst[i].call, msg->rpt_lst[i].ssid); } if (PRINT_DATA) { if (PRINT_INFO) kfile_print(&ser->fd, "DATA: "); kfile_printf(&ser->fd, "%.*s", msg->len, msg->info); } kfile_print(&ser->fd, "\r\n"); } void ss_serialCallback(void *_buffer, size_t length, Serial *ser, AX25Ctx *ctx) { if (VERBOSE) { kfile_printf(&ser->fd, "Serial input"); } uint8_t *buffer = (uint8_t *)_buffer; if (length > 0) { // ! as first char to send packet if (buffer[0] == '!' && length > 1) { buffer++; length--; ss_sendMsg(buffer, length, ctx); } else if (buffer[0] == 'c' && length > 3) { buffer++; length--; int count = 0; while (length-- && count < 6) { char c = buffer[count]; if (c != 0 && c != 10 && c != 13) { CALL[count] = c; } else { CALL[count] = 0; } count++; } } else if (buffer[0] == 'd' && length > 3) { buffer++; length--; int count = 0; while (length-- && count < 6) { char c = buffer[count]; if (c != 0 && c != 10 && c != 13) { DST[count] = c; } else { DST[count] = 0; } count++; } } else if (buffer[0] == '1' && length > 1) { buffer++; length--; int count = 0; while (length-- && count < 6) { char c = buffer[count]; if (c != 0 && c != 10 && c != 13) { PATH1[count] = c; } else { PATH1[count] = 0; } count++; } } else if (buffer[0] == '2' && length > 1) { buffer++; length--; int count = 0; while (length-- && count < 6) { char c = buffer[count]; if (c != 0 && c != 10 && c != 13) { PATH2[count] = c; } else { PATH2[count] = 0; } count++; } } else if (buffer[0] == 's' && length > 2) { buffer++; length--; if (buffer[0] == 'c') CALL_SSID = buffer[1]-48; if (buffer[0] == 'd') DST_SSID = buffer[1]-48; if (buffer[0] == '1') PATH1_SSID = buffer[1]-48; if (buffer[0] == '2') PATH2_SSID = buffer[1]-48; } else if (buffer[0] == 'p' && length > 2) { buffer++; length--; if (buffer[0] == 's') { if (buffer[1] == 49) { PRINT_SRC = true; } else { PRINT_SRC = false; } } if (buffer[0] == 'd') { if (buffer[1] == 49) { PRINT_DST = true; } else { PRINT_DST = false; } } if (buffer[0] == 'p') { if (buffer[1] == 49) { PRINT_PATH = true; } else { PRINT_PATH = false; } } if (buffer[0] == 'm') { if (buffer[1] == 49) { PRINT_DATA = true; } else { PRINT_DATA = false; } } if (buffer[0] == 'i') { if (buffer[1] == 49) { PRINT_INFO = true; } else { PRINT_INFO = false; } } } } } void ss_sendMsg(void *_buffer, size_t length, AX25Ctx *ax25) { uint8_t *buffer = (uint8_t *)_buffer; memcpy(dst.call, DST, 6); dst.ssid = DST_SSID; memcpy(src.call, CALL, 6); src.ssid = CALL_SSID; memcpy(path1.call, PATH1, 6); path1.ssid = PATH1_SSID; memcpy(path2.call, PATH2, 6); path2.ssid = PATH2_SSID; path[0] = dst; path[1] = src; path[2] = path1; path[3] = path2; ax25_sendVia(ax25, path, countof(path), buffer, length); } void ss_printSrc(bool val) { PRINT_SRC = val; } void ss_printDst(bool val) { PRINT_DST = val; } void ss_printPath(bool val) { PRINT_PATH = val; } void ss_printData(bool val) { PRINT_DATA = val; } void ss_printInfo(bool val) { PRINT_INFO = val; }