Slimmed down BertOS AX25

This commit is contained in:
Mark Qvist 2014-06-24 09:44:55 +02:00
parent 806f1bae56
commit eb1b4c233e
7 changed files with 1781 additions and 1897 deletions

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@ -39,13 +39,6 @@ static Serial ser; // Declare a serial interface struct
// for the ADC (this is A0 on arduino) // for the ADC (this is A0 on arduino)
/* Removed for now, use serial to send packets instead
static AX25Call path[] = AX25_PATH(AX25_CALL(TO_CALL, 0), AX25_CALL(YOUR_CALLSIGN, 0), AX25_CALL("wide1", 1), AX25_CALL("wide2", 2));
#define SEND_TEST_PACKETS false
#define TEST_INTERVAL 15000L
#define APRS_MSG "Test APRS packet"
*/
static uint8_t serialBuffer[CONFIG_AX25_FRAME_BUF_LEN+1]; // Buffer for holding incoming serial data static uint8_t serialBuffer[CONFIG_AX25_FRAME_BUF_LEN+1]; // Buffer for holding incoming serial data
static int sbyte; // For holding byte read from serial port static int sbyte; // For holding byte read from serial port
static size_t serialLen = 0; // Counter for counting length of data from serial static size_t serialLen = 0; // Counter for counting length of data from serial
@ -178,16 +171,6 @@ int main(void)
serialLen = 0; serialLen = 0;
} }
// Removing this for now
/*
// Use AX.25 to send test data
if (SEND_TEST_PACKETS && timer_clock() - start > ms_to_ticks(TEST_INTERVAL))
{
start = timer_clock();
ax25_sendVia(&ax25, path, countof(path), APRS_MSG, sizeof(APRS_MSG));
}
*/
} }
return 0; return 0;
} }

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@ -166,7 +166,6 @@ void ss_saveSettings(void) {
eeprom_update_byte((void*)&nvSYMBOL, symbol); eeprom_update_byte((void*)&nvSYMBOL, symbol);
eeprom_update_byte((void*)&nvAUTOACK, message_autoAck); eeprom_update_byte((void*)&nvAUTOACK, message_autoAck);
eeprom_update_byte((void*)&nvMagicByte, NV_MAGIC_BYTE); eeprom_update_byte((void*)&nvMagicByte, NV_MAGIC_BYTE);
if (VERBOSE) kprintf("Configuration saved\n"); if (VERBOSE) kprintf("Configuration saved\n");
@ -220,7 +219,6 @@ void ss_messageCallback(struct AX25Msg *msg, Serial *ser) {
if (msg->info[pos] != CALL[pos-1]) { if (msg->info[pos] != CALL[pos-1]) {
shouldAck = false; shouldAck = false;
pos = 7; pos = 7;
//kfile_printf(&ser->fd, "Not acking, wrong call\n");
} }
pos++; pos++;
} }
@ -229,17 +227,14 @@ void ss_messageCallback(struct AX25Msg *msg, Serial *ser) {
pos++; pos++;
} }
if (ssidPos != 0) { if (ssidPos != 0) {
//kfile_printf(&ser->fd, "SSID info [%c %d !%d!]\n", msg->info[ssidPos+1], CALL_SSID, msg->info[ssidPos+1]-48);
if (msg->info[ssidPos+2] == ' ') { if (msg->info[ssidPos+2] == ' ') {
if (msg->info[ssidPos+1]-48 != CALL_SSID) { if (msg->info[ssidPos+1]-48 != CALL_SSID) {
shouldAck = false; shouldAck = false;
//kfile_printf(&ser->fd, "Not acking, wrong SSID\n");
} }
} else { } else {
int assid = 10+(msg->info[ssidPos+2]-48); int assid = 10+(msg->info[ssidPos+2]-48);
if (assid != CALL_SSID) { if (assid != CALL_SSID) {
shouldAck = false; shouldAck = false;
//kfile_printf(&ser->fd, "Not acking, wrong SSID\n");
} }
} }
} }
@ -279,7 +274,6 @@ void ss_messageCallback(struct AX25Msg *msg, Serial *ser) {
ack[14+ii] = mseq[ii+1]; ack[14+ii] = mseq[ii+1];
} }
ss_sendPkt(ack, 14+msl, ax25ctx); ss_sendPkt(ack, 14+msl, ax25ctx);
//kfile_printf(&ser->fd, "Assembled ACKET %d: (%.*s)\n", msl, 14+msl, ack);
free(ack); free(ack);
} }
@ -306,9 +300,13 @@ void ss_serialCallback(void *_buffer, size_t length, Serial *ser, AX25Ctx *ctx)
ss_sendMsg(buffer, length, ctx); ss_sendMsg(buffer, length, ctx);
if (VERBOSE) kprintf("Message sent\n"); if (VERBOSE) kprintf("Message sent\n");
if (!VERBOSE && !SILENT) kprintf("1\n"); if (!VERBOSE && !SILENT) kprintf("1\n");
} else if (buffer[0] == 'h') { }
#if ENABLE_HELP
else if (buffer[0] == 'h') {
ss_printHelp(); ss_printHelp();
} else if (buffer[0] == 'H') { }
#endif
else if (buffer[0] == 'H') {
ss_printSettings(); ss_printSettings();
} else if (buffer[0] == 'S') { } else if (buffer[0] == 'S') {
ss_saveSettings(); ss_saveSettings();
@ -743,26 +741,6 @@ void ss_msgRetry(AX25Ctx *ax25) {
ss_sendMsg(lastMessage, lastMessageLen, ax25); ss_sendMsg(lastMessage, lastMessageLen, ax25);
} }
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;
}
void ss_printSettings(void) { void ss_printSettings(void) {
kprintf("Configuration:\n"); kprintf("Configuration:\n");
kprintf("Callsign: %.6s-%d\n", CALL, CALL_SSID); kprintf("Callsign: %.6s-%d\n", CALL, CALL_SSID);
@ -783,50 +761,50 @@ void ss_printSettings(void) {
kprintf("Symbol: %c\n", symbol); kprintf("Symbol: %c\n", symbol);
} }
void ss_printHelp(void) { #if ENABLE_HELP
#if ENABLE_HELP void ss_printHelp(void) {
kprintf("----------------------------------\n"); kprintf("----------------------------------\n");
kprintf("Serial commands:\n"); kprintf("Serial commands:\n");
kprintf("!<data> Send raw packet\n"); kprintf("!<data> Send raw packet\n");
kprintf("@<cmt> Send location update (cmt = optional comment)\n"); kprintf("@<cmt> Send location update (cmt = optional comment)\n");
kprintf("#<msg> Send APRS message\n\n"); kprintf("#<msg> Send APRS message\n\n");
kprintf("c<call> Set your callsign\n"); kprintf("c<call> Set your callsign\n");
kprintf("d<call> Set destination callsign\n"); kprintf("d<call> Set destination callsign\n");
kprintf("1<call> Set PATH1 callsign\n"); kprintf("1<call> Set PATH1 callsign\n");
kprintf("2<call> Set PATH2 callsign\n\n"); kprintf("2<call> Set PATH2 callsign\n\n");
kprintf("sc<ssid> Set your SSID\n"); kprintf("sc<ssid> Set your SSID\n");
kprintf("sd<ssid> Set destination SSID\n"); kprintf("sd<ssid> Set destination SSID\n");
kprintf("s1<ssid> Set PATH1 SSID\n"); kprintf("s1<ssid> Set PATH1 SSID\n");
kprintf("s2<ssid> Set PATH2 SSID\n\n"); kprintf("s2<ssid> Set PATH2 SSID\n\n");
kprintf("lla<LAT> Set latitude (NMEA-format, eg 4903.50N)\n"); kprintf("lla<LAT> Set latitude (NMEA-format, eg 4903.50N)\n");
kprintf("llo<LON> Set latitude (NMEA-format, eg 07201.75W)\n"); kprintf("llo<LON> Set latitude (NMEA-format, eg 07201.75W)\n");
kprintf("lp<0-9> Set TX power info\n"); kprintf("lp<0-9> Set TX power info\n");
kprintf("lh<0-9> Set antenna height info\n"); kprintf("lh<0-9> Set antenna height info\n");
kprintf("lg<0-9> Set antenna gain info\n"); kprintf("lg<0-9> Set antenna gain info\n");
kprintf("ld<0-9> Set antenna directivity info\n"); kprintf("ld<0-9> Set antenna directivity info\n");
kprintf("ls<sym> Select symbol\n"); kprintf("ls<sym> Select symbol\n");
kprintf("lt<s/a> Select symbol table (standard/alternate)\n\n"); kprintf("lt<s/a> Select symbol table (standard/alternate)\n\n");
kprintf("mc<call> Set message recipient callsign\n"); kprintf("mc<call> Set message recipient callsign\n");
kprintf("ms<ssid> Set message recipient SSID\n"); kprintf("ms<ssid> Set message recipient SSID\n");
kprintf("mr<ssid> Retry last message\n"); kprintf("mr<ssid> Retry last message\n");
kprintf("ma<1/0> Automatic message ACK on/off\n\n"); kprintf("ma<1/0> Automatic message ACK on/off\n\n");
kprintf("ps<1/0> Print SRC on/off\n"); kprintf("ps<1/0> Print SRC on/off\n");
kprintf("pd<1/0> Print DST on/off\n"); kprintf("pd<1/0> Print DST on/off\n");
kprintf("pp<1/0> Print PATH on/off\n"); kprintf("pp<1/0> Print PATH on/off\n");
kprintf("pm<1/0> Print DATA on/off\n"); kprintf("pm<1/0> Print DATA on/off\n");
kprintf("pi<1/0> Print INFO on/off\n\n"); kprintf("pi<1/0> Print INFO on/off\n\n");
kprintf("v<1/0> Verbose mode on/off\n"); kprintf("v<1/0> Verbose mode on/off\n");
kprintf("V<1/0> Silent mode on/off\n\n"); kprintf("V<1/0> Silent mode on/off\n\n");
kprintf("S Save configuration\n"); kprintf("S Save configuration\n");
kprintf("L Load configuration\n"); kprintf("L Load configuration\n");
kprintf("C Clear configuration\n"); kprintf("C Clear configuration\n");
kprintf("H Print configuration\n"); kprintf("H Print configuration\n");
kprintf("----------------------------------\n"); kprintf("----------------------------------\n");
#endif }
} #endif

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@ -11,11 +11,6 @@ void ss_init(AX25Ctx *ax25);
void ss_messageCallback(struct AX25Msg *msg, Serial *ser); void ss_messageCallback(struct AX25Msg *msg, Serial *ser);
void ss_serialCallback(void *_buffer, size_t length, Serial *ser, AX25Ctx *ctx); void ss_serialCallback(void *_buffer, size_t length, Serial *ser, AX25Ctx *ctx);
void ss_printSrc(bool val);
void ss_printDst(bool val);
void ss_printPath(bool val);
void ss_printData(bool val);
void ss_printInfo(bool val);
void ss_sendPkt(void *_buffer, size_t length, AX25Ctx *ax25); void ss_sendPkt(void *_buffer, size_t length, AX25Ctx *ax25);
void ss_sendLoc(void *_buffer, size_t length, AX25Ctx *ax25); void ss_sendLoc(void *_buffer, size_t length, AX25Ctx *ax25);

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@ -79,7 +79,6 @@ static void ax25_decode(AX25Ctx *ctx)
DECODE_CALL(buf, msg.src.call); DECODE_CALL(buf, msg.src.call);
msg.src.ssid = (*buf >> 1) & 0x0F; msg.src.ssid = (*buf >> 1) & 0x0F;
LOG_INFO("SRC[%.6s-%d], DST[%.6s-%d]\n", msg.src.call, msg.src.ssid, msg.dst.call, msg.dst.ssid);
/* Repeater addresses */ /* Repeater addresses */
#if CONFIG_AX25_RPT_LST #if CONFIG_AX25_RPT_LST
@ -88,11 +87,6 @@ static void ax25_decode(AX25Ctx *ctx)
DECODE_CALL(buf, msg.rpt_lst[msg.rpt_cnt].call); DECODE_CALL(buf, msg.rpt_lst[msg.rpt_cnt].call);
msg.rpt_lst[msg.rpt_cnt].ssid = (*buf >> 1) & 0x0F; msg.rpt_lst[msg.rpt_cnt].ssid = (*buf >> 1) & 0x0F;
AX25_SET_REPEATED(&msg, msg.rpt_cnt, (*buf & 0x80)); AX25_SET_REPEATED(&msg, msg.rpt_cnt, (*buf & 0x80));
LOG_INFO("RPT%d[%.6s-%d]%c\n", msg.rpt_cnt,
msg.rpt_lst[msg.rpt_cnt].call,
msg.rpt_lst[msg.rpt_cnt].ssid,
(AX25_REPEATED(&msg, msg.rpt_cnt) ? '*' : ' '));
} }
#else #else
while (!(*buf++ & 0x01)) while (!(*buf++ & 0x01))
@ -101,27 +95,23 @@ static void ax25_decode(AX25Ctx *ctx)
uint8_t ssid; uint8_t ssid;
DECODE_CALL(buf, rpt); DECODE_CALL(buf, rpt);
ssid = (*buf >> 1) & 0x0F; ssid = (*buf >> 1) & 0x0F;
LOG_INFO("RPT[%.6s-%d]\n", rpt, ssid);
} }
#endif #endif
msg.ctrl = *buf++; msg.ctrl = *buf++;
if (msg.ctrl != AX25_CTRL_UI) if (msg.ctrl != AX25_CTRL_UI)
{ {
LOG_WARN("Only UI frames are handled, got [%02X]\n", msg.ctrl);
return; return;
} }
msg.pid = *buf++; msg.pid = *buf++;
if (msg.pid != AX25_PID_NOLAYER3) if (msg.pid != AX25_PID_NOLAYER3)
{ {
LOG_WARN("Only frames without layer3 protocol are handled, got [%02X]\n", msg.pid);
return; return;
} }
msg.len = ctx->frm_len - 2 - (buf - ctx->buf); msg.len = ctx->frm_len - 2 - (buf - ctx->buf);
msg.info = buf; msg.info = buf;
LOG_INFO("DATA: %.*s\n", msg.len, msg.info);
if (ctx->hook) if (ctx->hook)
ctx->hook(&msg); ctx->hook(&msg);
@ -150,13 +140,8 @@ void ax25_poll(AX25Ctx *ctx)
{ {
if (ctx->crc_in == AX25_CRC_CORRECT) if (ctx->crc_in == AX25_CRC_CORRECT)
{ {
LOG_INFO("Frame found!\n");
ax25_decode(ctx); ax25_decode(ctx);
} }
else
{
LOG_INFO("CRC error, computed [%04X]\n", ctx->crc_in);
}
} }
ctx->sync = true; ctx->sync = true;
ctx->crc_in = CRC_CCITT_INIT_VAL; ctx->crc_in = CRC_CCITT_INIT_VAL;
@ -166,7 +151,6 @@ void ax25_poll(AX25Ctx *ctx)
if (!ctx->escape && c == HDLC_RESET) if (!ctx->escape && c == HDLC_RESET)
{ {
LOG_INFO("HDLC reset\n");
ctx->sync = false; ctx->sync = false;
continue; continue;
} }
@ -186,7 +170,6 @@ void ax25_poll(AX25Ctx *ctx)
} }
else else
{ {
LOG_INFO("Buffer overrun");
ctx->sync = false; ctx->sync = false;
} }
} }
@ -195,7 +178,6 @@ void ax25_poll(AX25Ctx *ctx)
if (kfile_error(ctx->ch)) if (kfile_error(ctx->ch))
{ {
LOG_ERR("Channel error [%04x]\n", kfile_error(ctx->ch));
kfile_clearerr(ctx->ch); kfile_clearerr(ctx->ch);
} }
} }
@ -276,40 +258,6 @@ void ax25_sendVia(AX25Ctx *ctx, const AX25Call *path, size_t path_len, const voi
kfile_putc(HDLC_FLAG, ctx->ch); kfile_putc(HDLC_FLAG, ctx->ch);
} }
static void print_call(KFile *ch, const AX25Call *call)
{
kfile_printf(ch, "%.6s", call->call);
if (call->ssid)
kfile_printf(ch, "-%d", call->ssid);
}
/**
* Print a AX25 message in TNC-2 packet monitor format.
* \param ch a kfile channel where the message will be printed.
* \param msg the message to be printed.
*/
void ax25_print(KFile *ch, const AX25Msg *msg)
{
print_call(ch, &msg->src);
kfile_putc('>', ch);
print_call(ch, &msg->dst);
#if CONFIG_AX25_RPT_LST
for (int i = 0; i < msg->rpt_cnt; i++)
{
kfile_putc(',', ch);
print_call(ch, &msg->rpt_lst[i]);
/* Print a '*' if packet has already been transmitted
* by this repeater */
if (AX25_REPEATED(msg, i))
kfile_putc('*', ch);
}
#endif
kfile_printf(ch, ":%.*s\n", msg->len, msg->info);
}
/** /**
* Init the AX25 protocol decoder. * Init the AX25 protocol decoder.
* *

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@ -1,2 +1,2 @@
#define VERS_BUILD 2178 #define VERS_BUILD 2199
#define VERS_HOST "shard" #define VERS_HOST "shard"

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