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compare: Hibbian:debian/latest
Branches Tags
Hibbian:debian/latest
Hibbian:pristine-tar
Hibbian:upstream/latest
Hibbian:raspbian/bullseye
Hibbian:ubuntu/jammy
Hibbian:debian/bookworm
Hibbian:master
Hibbian:debian/0.0.0.74_rc2-1_hibbian+1
Hibbian:upstream/0.0.0.74_rc2
Hibbian:upstream/0.0.0.73_rc1
Hibbian:hibbian/0.0.0.72.1-1
Hibbian:upstream/0.0.0.72.1
Hibbian:upstream/0.72
Hibbian:upstream/0.0.0.72
Hibbian:upstream/0.0.0.71
Hibbian:upstream/0.0.0.68
Hibbian:upstream/0.67
Hibbian:upstream/0.0.0.66

36 Commits
upstream/0 ... debian/lat

Author SHA1 Message Date
Hibby 82b213dcc4
Updates following latest upstream release 2024-12-28 13:07:47 +00:00
Hibby c45e25f646 Update upstream source from tag 'upstream/0.0.0.74_rc2' 
Update to upstream version '0.0.0.74~rc2'
with Debian dir e16052124d
 2024-12-28 12:31:41 +00:00
Hibby cf9ffe00bf New upstream version 0.0.0.74~rc2 2024-12-28 12:31:37 +00:00
Hibby f74e861729
Changes made in prep for .74 2024-12-28 12:30:34 +00:00
Hibby c171c18db9
Continue the build fixes 2024-11-07 00:23:01 +00:00
Hibby d09db428cc
Add ax25_l2 fix too 2024-11-06 01:55:20 +00:00
Hibby d1a275ea56
First attempt at build 2024-11-06 01:30:24 +00:00
Hibby 6c8e7093c0 Update upstream source from tag 'upstream/0.0.0.73_rc1' 
Update to upstream version '0.0.0.73~rc1'
with Debian dir 676c658072
 2024-10-29 22:45:25 +00:00
Hibby d0709a1e0a New upstream version 0.0.0.73~rc1 2024-10-29 22:45:21 +00:00
Hibby a724b7ca21
Release - hibbian 2024-09-06 18:50:44 +01:00
Hibby b515b719f3
Release 2024-09-06 18:42:13 +01:00
Hibby aa1cb2b414
Start patching build issues 2024-09-06 18:39:12 +01:00
Hibby e567985320
First build 2024-07-23 21:31:17 +01:00
Hibby 4172fa5fdb Update upstream source from tag 'upstream/0.0.0.72.1' 
Update to upstream version '0.0.0.72.1'
with Debian dir 3be9dd1ec6
 2024-07-23 21:26:34 +01:00
Hibby b1d1488de6 New upstream version 0.0.0.72.1 2024-07-23 21:26:30 +01:00
Hibby e67baf26b1
Release 2024-04-13 19:01:30 +01:00
Hibby 85fbd886bf
patch out implicit declaration warnings 2024-04-13 18:59:09 +01:00
Hibby adcc58da78
Upstream refresh! 2024-04-13 17:49:59 +01:00
Hibby 0aa062f7c3 Update upstream source from tag 'upstream/0.72' 
Update to upstream version '0.72'
with Debian dir b3e2cee65c
 2024-04-13 17:49:01 +01:00
Hibby 0804f4a994 New upstream version 0.72 2024-04-13 17:48:58 +01:00
Dave Hibberd d071d9c22c
Release 2023-12-17 14:08:17 +00:00
Dave Hibberd 54db88482a Update upstream source from tag 'upstream/0.0.0.71' 
Update to upstream version '0.0.0.71'
with Debian dir a161df0a9b
 2023-12-17 13:53:36 +00:00
Dave Hibberd 28348e0eac
updates to make it install to the right place 2023-10-10 23:35:52 +01:00
Dave Hibberd 564edb8d5b
New package location, get rid of the old one 2023-10-10 23:03:48 +01:00
Dave Hibberd fecac3d40f
First updates for 0.68 release 2023-10-07 12:27:09 +01:00
Dave Hibberd fd7bb5bb74 Update upstream source from tag 'upstream/0.0.0.68' 
Update to upstream version '0.0.0.68'
with Debian dir 160466285e
 2023-10-07 12:21:51 +01:00
Dave Hibberd 8cdb5d85be
Release! 2023-09-14 22:01:43 +01:00
Dave Hibberd b69f04d9ef
Add a fix for libpulse errors 2023-09-14 21:31:03 +01:00
Dave Hibberd 9906b15b9e
Release 2023-09-12 21:49:34 +01:00
Dave Hibberd a6eea3f598
Update to new upstream, 0.0.0.67 finally! 2023-09-12 21:40:43 +01:00
Dave Hibberd 51667f3056 Update upstream source from tag 'upstream/0.67' 
Update to upstream version '0.67'
with Debian dir d407fa0579
 2023-09-12 21:38:19 +01:00
Dave Hibberd cc15266411
Update version number, release 2023-09-05 21:13:54 +01:00
Dave Hibberd 6c42a38ec5
Add desktop file, tidy up loose ends 2023-09-05 00:00:32 +01:00
Dave Hibberd ccbbec9854
Make the package install 2023-09-04 23:04:58 +01:00
Dave Hibberd 68d240b141
Start to patch the build 2023-09-04 23:00:40 +01:00
Dave Hibberd 25967ba33c
New debian folder time! 2023-09-04 22:59:17 +01:00
61 changed files with 8184 additions and 1504 deletions
Show Stats Expand all files Collapse all files

377
6pack.cpp Normal file
View File

@ -0,0 +1,377 @@
/*
Using code from 6pack Linux Kernel driver with the following licence and credits
* 6pack driver version 0.4.2, 1999/08/22
*
* This module:
* This module 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 module implements the AX.25 protocol for kernel-based
* devices like TTYs. It interfaces between a raw TTY, and the
* kernel's AX.25 protocol layers, just like slip.c.
* AX.25 needs to be separated from slip.c while slip.c is no
* longer a static kernel device since it is a module.
*
* Author: Andreas Könsgen <ajk@ccac.rwth-aachen.de>
*
* Lots of stuff has been taken from mkiss.c, written by
* Hans Alblas <hans@esrac.ele.tue.nl>
*
* with the fixes from
*
* Jonathan (G4KLX) Fixed to match Linux networking changes - 2.1.15.
* Matthias (DG2FEF) Fixed bug in ax25_close(): dev_lock_wait() was
* called twice, causing a deadlock.
*/
// 6pack needs fast response to received characters, and I want to be able to operate over TCP links as well as serial.
// So I think the character level stuff may need to run in a separate thread, probably using select.
//
// I also need to support multiple 6pack ports.
// ?? Do we add this as a backend to KISS driver or a separate Driver. KISS Driver is already quite messy. Not decided yet.
// ?? If using serial/real TNC we need to be able to interleave control and data bytes, but I think with TCP/QtSM it won't be necessary
// ?? Also a don't see any point in running multiple copies of QtSM on one port, but maybe should treat the QtSM channels as
// multidropped ports for scheduling (?? only if on same radio ??)
// ?? I think it needs to look like a KISS (L2) driver but will need a transmit scheduler level to do DCD/CSMA/PTT processing,
// ideally with an interlock to other drivers on same port. This needs some thought with QtSM KISS with multiple modems on one channel
#define WIN32_LEAN_AND_MEAN // Exclude rarely-used stuff from Windows headers
#define _CRT_SECURE_NO_DEPRECATE
/****************************************************************************
* Defines for the 6pack driver.
****************************************************************************/
#define TRUE 1
#define FALSE 0
#define AX25_MAXDEV 16 /* MAX number of AX25 channels;
This can be overridden with
insmod -oax25_maxdev=nnn */
#define AX_MTU 236
/* 6pack protocol bytes/masks. */
#define SIXP_INIT_CMD 0xE8
#define SIXP_TNC_FOUND 0xE9
#define SIXP_CMD_MASK 0xC0
#define SIXP_PRIO_CMD_MASK 0x80
#define SIXP_PRIO_DATA_MASK 0x38
#define SIXP_STD_CMD_MASK 0x40
#define SIXP_DCD_MASK 0x08
#define SIXP_RX_DCD_MASK 0x18
#define SIXP_CHN_MASK 0x07
#define SIXP_TX_MASK 0x20
#define SIXP_CON_LED_ON 0x68
#define SIXP_STA_LED_ON 0x70
#define SIXP_LED_OFF 0x60
/* checksum for a valid 6pack encapsulated packet */
#define SIXP_CHKSUM 0xFF
/* priority commands */
#define SIXP_SEOF 0x40 /* TX underrun */
#define SIXP_TX_URUN 0x48 /* TX underrun */
#define SIXP_RX_ORUN 0x50 /* RX overrun */
#define SIXP_RX_BUF_OVL 0x58 /* RX overrun */
struct ax_disp {
int magic;
char * name;
/* Various fields. */
// struct tty_struct *tty; /* ptr to TTY structure */
// struct device *dev; /* easy for intr handling */
struct ax_disp *sixpack; /* mkiss txport if mkiss channel*/
/* These are pointers to the malloc()ed frame buffers. */
unsigned char *rbuff; /* receiver buffer */
int rcount; /* received chars counter */
unsigned char *xbuff; /* transmitter buffer */
unsigned char *xhead; /* pointer to next byte to XMIT */
int xleft; /* bytes left in XMIT queue */
/* SLIP interface statistics. */
unsigned long rx_packets; /* inbound frames counter */
unsigned long tx_packets; /* outbound frames counter */
unsigned long rx_errors; /* Parity, etc. errors */
unsigned long tx_errors; /* Planned stuff */
unsigned long rx_dropped; /* No memory for skb */
unsigned long tx_dropped; /* When MTU change */
unsigned long rx_over_errors; /* Frame bigger then SLIP buf. */
/* Detailed SLIP statistics. */
int mtu; /* Our mtu (to spot changes!) */
int buffsize; /* Max buffers sizes */
unsigned char flags; /* Flag values/ mode etc */
#define AXF_INUSE 0 /* Channel in use */
#define AXF_ESCAPE 1 /* ESC received */
#define AXF_ERROR 2 /* Parity, etc. error */
#define AXF_KEEPTEST 3 /* Keepalive test flag */
#define AXF_OUTWAIT 4 /* is outpacket was flag */
int mode;
/* variables for the state machine */
unsigned char tnc_ok;
unsigned char status;
unsigned char status1;
unsigned char status2;
unsigned char duplex;
unsigned char led_state;
unsigned char tx_enable;
unsigned char raw_buf[4]; /* receive buffer */
unsigned char cooked_buf[400]; /* receive buffer after 6pack decoding */
unsigned int rx_count; /* counter for receive buffer */
unsigned int rx_count_cooked; /* counter for receive buffer after 6pack decoding */
unsigned char tx_delay;
unsigned char persistance;
unsigned char slottime;
};
struct sixpack_channel {
int magic; /* magic word */
int init; /* channel exists? */
struct tty_struct *tty; /* link to tty control structure */
};
#define AX25_MAGIC 0x5316
#define SIXP_DRIVER_MAGIC 0x5304
#define SIXP_INIT_RESYNC_TIMEOUT 150 /* in 10 ms */
#define SIXP_RESYNC_TIMEOUT 500 /* in 10 ms */
/* default radio channel access parameters */
#define SIXP_TXDELAY 25 /* in 10 ms */
#define SIXP_PERSIST 50
#define SIXP_SLOTTIME 10 /* in 10 ms */
static int sixpack_encaps(unsigned char *tx_buf, unsigned char *tx_buf_raw, int length, unsigned char tx_delay);
static void sixpack_decaps(struct ax_disp *, unsigned char);
static void decode_prio_command(unsigned char, struct ax_disp *);
static void decode_std_command(unsigned char, struct ax_disp *);
static void decode_data(unsigned char, struct ax_disp *);
static void resync_tnc(unsigned long);
static void xmit_on_air(struct ax_disp *ax);
static void start_tx_timer(struct ax_disp *ax);
extern "C" void Debugprintf(const char * format, ...);
void Process6PackByte(unsigned char inbyte);
struct ax_disp axdisp;
/* Send one completely decapsulated AX.25 packet to the AX.25 layer. */
static void ax_bump(struct ax_disp *ax)
{
}
void Process6PackData(unsigned char * Bytes, int Len)
{
while(Len--)
Process6PackByte(Bytes++[0]);
}
void Process6PackByte(unsigned char inbyte)
{
struct ax_disp *ax = &axdisp;
if (inbyte == SIXP_INIT_CMD)
{
Debugprintf("6pack: SIXP_INIT_CMD received.\n");
{
// Reset state machine and allocate a 6pack struct for each modem.
// reply with INIT_CMD with the channel no of last modem
}
return;
}
if ((inbyte & SIXP_PRIO_CMD_MASK) != 0)
decode_prio_command(inbyte, ax);
else if ((inbyte & SIXP_STD_CMD_MASK) != 0)
decode_std_command(inbyte, ax);
else {
if ((ax->status & SIXP_RX_DCD_MASK) == SIXP_RX_DCD_MASK)
decode_data(inbyte, ax);
} /* else */
}
/* identify and execute a 6pack priority command byte */
void decode_prio_command(unsigned char cmd, struct ax_disp *ax)
{
unsigned char channel;
channel = cmd & SIXP_CHN_MASK;
if ((cmd & SIXP_PRIO_DATA_MASK) != 0) { /* idle ? */
/* RX and DCD flags can only be set in the same prio command,
if the DCD flag has been set without the RX flag in the previous
prio command. If DCD has not been set before, something in the
transmission has gone wrong. In this case, RX and DCD are
cleared in order to prevent the decode_data routine from
reading further data that might be corrupt. */
if (((ax->status & SIXP_DCD_MASK) == 0) &&
((cmd & SIXP_RX_DCD_MASK) == SIXP_RX_DCD_MASK)) {
if (ax->status != 1)
Debugprintf("6pack: protocol violation\n");
else
ax->status = 0;
cmd &= !SIXP_RX_DCD_MASK;
}
ax->status = cmd & SIXP_PRIO_DATA_MASK;
} /* if */
/* if the state byte has been received, the TNC is present,
so the resync timer can be reset. */
if (ax->tnc_ok == 1) {
// del_timer(&(ax->resync_t));
// ax->resync_t.data = (unsigned long) ax;
// ax->resync_t.function = resync_tnc;
// ax->resync_t.expires = jiffies + SIXP_INIT_RESYNC_TIMEOUT;
// add_timer(&(ax->resync_t));
}
ax->status1 = cmd & SIXP_PRIO_DATA_MASK;
}
/* try to resync the TNC. Called by the resync timer defined in
decode_prio_command */
static void
resync_tnc(unsigned long channel)
{
static char resync_cmd = SIXP_INIT_CMD;
struct ax_disp *ax = (struct ax_disp *) channel;
Debugprintf("6pack: resyncing TNC\n");
/* clear any data that might have been received */
ax->rx_count = 0;
ax->rx_count_cooked = 0;
/* reset state machine */
ax->status = 1;
ax->status1 = 1;
ax->status2 = 0;
ax->tnc_ok = 0;
/* resync the TNC */
ax->led_state = SIXP_LED_OFF;
// ax->tty->driver.write(ax->tty, 0, &(ax->led_state), 1);
// ax->tty->driver.write(ax->tty, 0, &resync_cmd, 1);
/* Start resync timer again -- the TNC might be still absent */
// del_timer(&(ax->resync_t));
// ax->resync_t.data = (unsigned long) ax;
// ax->resync_t.function = resync_tnc;
// ax->resync_t.expires = jiffies + SIXP_RESYNC_TIMEOUT;
// add_timer(&(ax->resync_t));
}
/* identify and execute a standard 6pack command byte */
void decode_std_command(unsigned char cmd, struct ax_disp *ax)
{
unsigned char checksum = 0, channel;
unsigned int i;
channel = cmd & SIXP_CHN_MASK;
switch (cmd & SIXP_CMD_MASK) { /* normal command */
case SIXP_SEOF:
if ((ax->rx_count == 0) && (ax->rx_count_cooked == 0)) {
if ((ax->status & SIXP_RX_DCD_MASK) ==
SIXP_RX_DCD_MASK) {
ax->led_state = SIXP_CON_LED_ON;
// ax->tty->driver.write(ax->tty, 0, &(ax->led_state), 1);
} /* if */
}
else {
ax->led_state = SIXP_LED_OFF;
// ax->tty->driver.write(ax->tty, 0, &(ax->led_state), 1);
/* fill trailing bytes with zeroes */
if (ax->rx_count == 2) {
decode_data(0, ax);
decode_data(0, ax);
ax->rx_count_cooked -= 2;
}
else if (ax->rx_count == 3) {
decode_data(0, ax);
ax->rx_count_cooked -= 1;
}
for (i = 0; i < ax->rx_count_cooked; i++)
checksum += ax->cooked_buf[i];
if (checksum != SIXP_CHKSUM) {
Debugprintf("6pack: bad checksum %2.2x\n", checksum);
}
else {
ax->rcount = ax->rx_count_cooked - 1;
ax_bump(ax);
} /* else */
ax->rx_count_cooked = 0;
} /* else */
break;
case SIXP_TX_URUN:
Debugprintf("6pack: TX underrun\n");
break;
case SIXP_RX_ORUN:
Debugprintf("6pack: RX overrun\n");
break;
case SIXP_RX_BUF_OVL:
Debugprintf("6pack: RX buffer overflow\n");
} /* switch */
} /* function */
/* decode 4 sixpack-encoded bytes into 3 data bytes */
void decode_data(unsigned char inbyte, struct ax_disp *ax)
{
unsigned char *buf;
if (ax->rx_count != 3)
ax->raw_buf[ax->rx_count++] = inbyte;
else {
buf = ax->raw_buf;
ax->cooked_buf[ax->rx_count_cooked++] =
buf[0] | ((buf[1] << 2) & 0xc0);
ax->cooked_buf[ax->rx_count_cooked++] =
(buf[1] & 0x0f) | ((buf[2] << 2) & 0xf0);
ax->cooked_buf[ax->rx_count_cooked++] =
(buf[2] & 0x03) | (inbyte << 2);
ax->rx_count = 0;
}
}

420
ALSASound.c
View File

@ -42,10 +42,19 @@ along with QtSoundModem. If not, see http://www.gnu.org/licenses
#define VOID void
char * strlop(char * buf, char delim);
int gethints();
struct timespec pttclk;
extern int Closing;
int SoundMode = 0;
int stdinMode = 0;
int onlyMixSnoop = 0;
int txLatency;
//#define SHARECAPTURE // if defined capture device is opened and closed for each transission
@ -64,6 +73,7 @@ void displayLevel(int max);
BOOL WriteCOMBlock(HANDLE fd, char * Block, int BytesToWrite);
VOID processargs(int argc, char * argv[]);
void PollReceivedSamples();
void closeTraceLog();
HANDLE OpenCOMPort(char * Port, int speed, BOOL SetDTR, BOOL SetRTS, BOOL Quiet, int Stopbits);
@ -291,11 +301,11 @@ void platformInit()
void txSleep(int mS)
{
// called while waiting for next TX buffer or to delay response.
// Run background processes
// called while waiting for next TX buffer. Run background processes
if (mS < 0)
return;
while (mS > 50)
{
PollReceivedSamples(); // discard any received samples
@ -626,7 +636,8 @@ int OpenSoundPlayback(char * PlaybackDevice, int m_sampleRate, int channels, int
{
int err = 0;
char buf1[100];
char buf1[256];
char buf2[256];
char * ptr;
if (playhandle)
@ -638,18 +649,20 @@ int OpenSoundPlayback(char * PlaybackDevice, int m_sampleRate, int channels, int
strcpy(SavedPlaybackDevice, PlaybackDevice); // Saved so we can reopen in error recovery
SavedPlaybackRate = m_sampleRate;
if (strstr(PlaybackDevice, "plug") == 0 && strchr(PlaybackDevice, ':'))
sprintf(buf1, "plug%s", PlaybackDevice);
strcpy(buf2, PlaybackDevice);
ptr = strchr(buf2, ' ');
if (ptr) *ptr = 0; // Get Device part of name
if (strstr(buf2, "plug") == 0 && strchr(buf2, ':'))
sprintf(buf1, "plug%s", buf2);
else
strcpy(buf1, PlaybackDevice);
strcpy(buf1, buf2);
if (Report)
Debugprintf("Real Device %s", buf1);
ptr = strchr(buf1, ' ');
if (ptr) *ptr = 0; // Get Device part of name
snd_pcm_hw_params_t *hw_params;
if ((err = snd_pcm_open(&playhandle, buf1, SND_PCM_STREAM_PLAYBACK, SND_PCM_NONBLOCK)) < 0)
@ -734,7 +747,9 @@ int OpenSoundCapture(char * CaptureDevice, int m_sampleRate, int Report)
{
int err = 0;
char buf1[100];
char buf1[256];
char buf2[256];
char * ptr;
snd_pcm_hw_params_t *hw_params;
@ -755,16 +770,19 @@ int OpenSoundCapture(char * CaptureDevice, int m_sampleRate, int Report)
strcpy(SavedCaptureDevice, CaptureDevice); // Saved so we can reopen in error recovery
SavedCaptureRate = m_sampleRate;
if (strstr(CaptureDevice, "plug") == 0 && strchr(CaptureDevice, ':'))
sprintf(buf1, "plug%s", CaptureDevice);
strcpy(buf2, CaptureDevice);
ptr = strchr(buf2, ' ');
if (ptr) *ptr = 0; // Get Device part of name
if (strstr(buf2, "plug") == 0 && strchr(buf2, ':'))
sprintf(buf1, "plug%s", buf2);
else
strcpy(buf1, CaptureDevice);
strcpy(buf1, buf2);
if (Report)
Debugprintf("Real Device %s", buf1);
ptr = strchr(buf1, ' ');
if (ptr) *ptr = 0; // Get Device part of name
if ((err = snd_pcm_open (&rechandle, buf1, SND_PCM_STREAM_CAPTURE, 0)) < 0) {
Debugprintf("cannot open capture audio device %s (%s)", buf1, snd_strerror(err));
@ -799,7 +817,8 @@ int OpenSoundCapture(char * CaptureDevice, int m_sampleRate, int Report)
if ((err = snd_pcm_hw_params_set_channels(rechandle, hw_params, m_recchannels)) < 0)
{
Debugprintf("cannot set rec channel count to 2 (%s)", snd_strerror(err));
if (Report)
Debugprintf("cannot set rec channel count to 2 (%s)", snd_strerror(err));
m_recchannels = 1;
@ -854,10 +873,10 @@ int OpenSoundCapture(char * CaptureDevice, int m_sampleRate, int Report)
snd_pcm_hw_params_set_rate(rechandle, hw_params, m_sampleRate, 0);
snd_pcm_hw_params_set_channels(rechandle, hw_params, m_recchannels);
err = snd_pcm_hw_params_set_buffer_size(rechandle, hw_params, 65536);
// err = snd_pcm_hw_params_set_buffer_size(rechandle, hw_params, 65536);
if (err)
Debugprintf("cannot set buffer size (%s)", snd_strerror(err));
// if (err)
// Debugprintf("cannot set buffer size (%s)", snd_strerror(err));
err = snd_pcm_hw_params_set_period_size(rechandle, hw_params, (snd_pcm_uframes_t) { 1024 }, (int) { 0 });
@ -881,17 +900,14 @@ int OpenSoundCapture(char * CaptureDevice, int m_sampleRate, int Report)
if (Report)
Debugprintf("Capture using %d channels", m_recchannels);
int i;
short buf[256];
for (i = 0; i < 10; ++i)
if ((err = snd_pcm_readi(rechandle, buf, 12)) != 12)
{
if ((err = snd_pcm_readi (rechandle, buf, 128)) != 128)
{
Debugprintf("read from audio interface failed (%s)", snd_strerror (err));
}
Debugprintf("read from audio interface failed (%s)", snd_strerror(err));
}
// Debugprintf("Read got %d", err);
return TRUE;
@ -956,11 +972,11 @@ int SoundCardWrite(short * input, int nSamples)
// Stop Capture
if (rechandle)
{
snd_pcm_close(rechandle);
rechandle = NULL;
}
// if (rechandle)
// {
// snd_pcm_close(rechandle);
// rechandle = NULL;
// }
avail = snd_pcm_avail_update(playhandle);
// Debugprintf("avail before play returned %d", (int)avail);
@ -1188,30 +1204,37 @@ short * SoundInit();
void GetSoundDevices()
{
if (SoundMode == 0)
if (onlyMixSnoop)
{
GetInputDeviceCollection();
GetOutputDeviceCollection();
gethints();
}
else if (SoundMode == 1)
else
{
PlaybackCount = 3;
if (SoundMode == 0)
{
GetInputDeviceCollection();
GetOutputDeviceCollection();
}
else if (SoundMode == 1)
{
PlaybackCount = 3;
strcpy(&PlaybackNames[0][0], "/dev/dsp0");
strcpy(&PlaybackNames[1][0], "/dev/dsp1");
strcpy(&PlaybackNames[2][0], "/dev/dsp2");
strcpy(&PlaybackNames[0][0], "/dev/dsp0");
strcpy(&PlaybackNames[1][0], "/dev/dsp1");
strcpy(&PlaybackNames[2][0], "/dev/dsp2");
CaptureCount = 3;
CaptureCount = 3;
strcpy(&CaptureNames[0][0], "/dev/dsp0");
strcpy(&CaptureNames[1][0], "/dev/dsp1");
strcpy(&CaptureNames[2][0], "/dev/dsp2");
}
else if (SoundMode == 2)
{
// Pulse
strcpy(&CaptureNames[0][0], "/dev/dsp0");
strcpy(&CaptureNames[1][0], "/dev/dsp1");
strcpy(&CaptureNames[2][0], "/dev/dsp2");
}
else if (SoundMode == 2)
{
// Pulse
listpulse();
listpulse();
}
}
}
@ -1266,6 +1289,7 @@ int InitSound(BOOL Quiet)
int min = 0, max = 0, lastlevelreport = 0, lastlevelGUI = 0;
UCHAR CurrentLevel = 0; // Peak from current samples
UCHAR CurrentLevelR = 0; // Peak from current samples
void PollReceivedSamples()
{
@ -1298,7 +1322,18 @@ void PollReceivedSamples()
// if still not enough, too bad!
if (bytes != ReceiveSize * 2)
{
// This seems to happen occasionally even when we shouldn't be in stdin mode. Exit
Debugprintf("Short Read %d", bytes);
closeTraceLog();
Closing = TRUE;
sleep(1);
exit(1);
}
// convert to stereo
@ -1336,7 +1371,7 @@ void PollReceivedSamples()
{
lastlevelGUI = Now;
if ((Now - lastlevelreport) > 10000) // 10 Secs
if ((Now - lastlevelreport) > 60000) // 60 Secs
{
char HostCmd[64];
lastlevelreport = Now;
@ -1401,6 +1436,11 @@ short * SoundInit()
// Called at end of transmission
int useTimedPTT = 1;
extern int SampleNo;
int pttOnTime();
void SoundFlush()
{
// Append Trailer then send remaining samples
@ -1416,43 +1456,71 @@ void SoundFlush()
// Wait for tx to complete
Debugprintf("Flush Soundmode = %d", SoundMode);
// Debugprintf("Flush Soundmode = %d", SoundMode);
if (SoundMode == 0) // ALSA
{
usleep(100000);
while (1 && playhandle)
if (useTimedPTT)
{
snd_pcm_sframes_t avail = snd_pcm_avail_update(playhandle);
// Calulate PTT Time from Number of samples and samplerate
// Debugprintf("Waiting for complete. Avail %d Max %d", avail, MaxAvail);
// samples sent is is in SampleNo, Time PTT was raised in timeval pttclk
// txLatency is extra ptt time to compenstate for time soundcard takes to start outputting samples
snd_pcm_status_alloca(&status); // alloca allocates once per function, does not need a free
struct timespec pttnow;
// Debugprintf("Waiting for complete. Avail %d Max %d last %d", avail, MaxAvail, lastavail);
clock_gettime(CLOCK_MONOTONIC, &pttnow);
if ((err = snd_pcm_status(playhandle, status)) != 0)
time_t pttontimemS = (pttclk.tv_sec * 1000) + (pttclk.tv_nsec / 1000000);
time_t nowtimemS = (pttnow.tv_sec * 1000) + (pttnow.tv_nsec / 1000000);
// We have already added latency to tail, so don't add again
int txlenMs = (1000 * SampleNo / TX_Samplerate); // 12000 samples per sec.
Debugprintf("Tx Time %d Time till end = %d", txlenMs, (nowtimemS - pttontimemS));
txSleep(txlenMs - (nowtimemS - pttontimemS));
}
else
{
usleep(100000);
while (1 && playhandle)
{
Debugprintf("snd_pcm_status() failed: %s", snd_strerror(err));
break;
snd_pcm_sframes_t avail = snd_pcm_avail_update(playhandle);
// Debugprintf("Waiting for complete. Avail %d Max %d", avail, MaxAvail);
snd_pcm_status_alloca(&status); // alloca allocates once per function, does not need a free
// Debugprintf("Waiting for complete. Avail %d Max %d last %d", avail, MaxAvail, lastavail);
if ((err = snd_pcm_status(playhandle, status)) != 0)
{
Debugprintf("snd_pcm_status() failed: %s", snd_strerror(err));
break;
}
res = snd_pcm_status_get_state(status);
// Debugprintf("PCM Status = %d", res);
if (res != SND_PCM_STATE_RUNNING || lastavail == avail) // If sound system is not running then it needs data
// if (res != SND_PCM_STATE_RUNNING) // If sound system is not running then it needs data
// if (MaxAvail - avail < 100)
{
// Send complete - Restart Capture
OpenSoundCapture(SavedCaptureDevice, SavedCaptureRate, 0);
break;
}
lastavail = avail;
usleep(50000);
}
res = snd_pcm_status_get_state(status);
// Debugprintf("PCM Status = %d", res);
if (res != SND_PCM_STATE_RUNNING || lastavail == avail) // If sound system is not running then it needs data
// if (res != SND_PCM_STATE_RUNNING) // If sound system is not running then it needs data
// if (MaxAvail - avail < 100)
{
// Send complete - Restart Capture
OpenSoundCapture(SavedCaptureDevice, SavedCaptureRate, 0);
break;
}
lastavail = avail;
usleep(50000);
}
// I think we should turn round the link here. I dont see the point in
// waiting for MainPoll
@ -1722,32 +1790,6 @@ int gpioInitialise(void)
int stricmp(const unsigned char * pStr1, const unsigned char *pStr2)
{
unsigned char c1, c2;
int v;
if (pStr1 == NULL)
{
if (pStr2)
Debugprintf("stricmp called with NULL 1st param - 2nd %s ", pStr2);
else
Debugprintf("stricmp called with two NULL params");
return 1;
}
do {
c1 = *pStr1++;
c2 = *pStr2++;
/* The casts are necessary when pStr1 is shorter & char is signed */
v = tolower(c1) - tolower(c2);
} while ((v == 0) && (c1 != '\0') && (c2 != '\0') );
return v;
}
char Leds[8]= {0};
unsigned int PKTLEDTimer = 0;
@ -1817,7 +1859,7 @@ VOID COMClearRTS(HANDLE fd)
HANDLE OpenCOMPort(char * Port, int speed, BOOL SetDTR, BOOL SetRTS, BOOL Quiet, int Stopbits)
{
char buf[100];
char buf[256];
// Linux Version.
@ -1926,3 +1968,177 @@ VOID CloseCOMPort(HANDLE fd)
close(fd);
}
// "hints" processing for looking for SNOOP/MIX devices
int gethints()
{
const char *iface = "pcm";
void **hints;
char **n;
int err;
char hwdev[256];
snd_pcm_t *pcm = NULL;
char NameString[256];
CloseSoundCard();
Debugprintf("Available Mix/Snoop Devices\n");
PlaybackCount = 0;
CaptureCount = 0;
err = snd_device_name_hint(-1, iface, &hints);
if (err < 0)
Debugprintf("snd_device_name_hint error: %s", snd_strerror(err));
n = (char **)hints;
while (*n != NULL)
{
if (memcmp(*n, "NAMEmix", 7) == 0) //NAMEmix00|DESCQtSM Mix for hw0:0
{
char Hint[256];
char * ptr;
snd_pcm_stream_t stream = SND_PCM_STREAM_PLAYBACK;
strcpy(Hint, *n);
ptr = strchr(Hint, '|');
if (ptr)
{
*ptr++ = 0;
}
strcpy(hwdev, &Hint[4]);
err = snd_pcm_open(&pcm, hwdev, stream, SND_PCM_NONBLOCK);
if (err)
{
Debugprintf("Error %d opening output device %s ", err, hwdev);
goto nextdevice;
}
// Add device to list
if (ptr)
sprintf(NameString, "%s %s", hwdev, &ptr[4]);
else
strcpy(NameString, hwdev);
Debugprintf(NameString);
strcpy(PlaybackNames[PlaybackCount++], NameString);
snd_pcm_close(pcm);
pcm = NULL;
}
else if (memcmp(*n, "NAMEsnoop", 9) == 0)
{
char Hint[256];
char * ptr;
snd_pcm_stream_t stream = SND_PCM_STREAM_CAPTURE;
strcpy(Hint, *n);
ptr = strchr(Hint, '|');
if (ptr)
{
*ptr++ = 0;
}
strcpy(hwdev, &Hint[4]);
err = snd_pcm_open(&pcm, hwdev, stream, SND_PCM_NONBLOCK);
if (err)
{
Debugprintf("Error %d opening input device %s ", err, hwdev);
goto nextdevice;
}
// Add device to list
if (ptr)
sprintf(NameString, "%s %s", hwdev, &ptr[4]);
else
strcpy(NameString, hwdev);
Debugprintf(NameString);
strcpy(CaptureNames[CaptureCount++], NameString);
snd_pcm_close(pcm);
pcm = NULL;
}
nextdevice:
n++;
}
snd_device_name_free_hint(hints);
return 0;
}
// Microsoft routines not available in gcc
int memicmp(unsigned char *a, unsigned char *b, int n)
{
if (n)
{
while (n && (toupper(*a) == toupper(*b)))
n--, a++, b++;
if (n)
return toupper(*a) - toupper(*b);
}
return 0;
}
int stricmp(const unsigned char * pStr1, const unsigned char *pStr2)
{
unsigned char c1, c2;
int v;
if (pStr1 == NULL)
{
if (pStr2)
Debugprintf("stricmp called with NULL 1st param - 2nd %s ", pStr2);
else
Debugprintf("stricmp called with two NULL params");
return 1;
}
do {
c1 = *pStr1++;
c2 = *pStr2++;
/* The casts are necessary when pStr1 is shorter & char is signed */
v = tolower(c1) - tolower(c2);
} while ((v == 0) && (c1 != '\0') && (c2 != '\0'));
return v;
}
char * strupr(char* s)
{
char* p = s;
if (s == 0)
return 0;
while (*p = toupper(*p)) p++;
return s;
}
char * strlwr(char* s)
{
char* p = s;
while (*p = tolower(*p)) p++;
return s;
}

189
ARDOPC.c
View File

@ -1024,195 +1024,6 @@ extern int kk; // Info Symbols
BOOL blnErrorsCorrected;
#define NEWRS
BOOL xRSDecode(UCHAR * bytRcv, int Length, int CheckLen, BOOL * blnRSOK)
{
#ifdef NEWRS
// Using a modified version of Henry Minsky's code
//Copyright Henry Minsky (hqm@alum.mit.edu) 1991-2009
// Rick's Implementation processes the byte array in reverse. and also
// has the check bytes in the opposite order. I've modified the encoder
// to allow for this, but so far haven't found a way to mske the decoder
// work, so I have to reverse the data and checksum to decode G8BPQ Nov 2015
// returns TRUE if was ok or correction succeeded, FALSE if correction impossible
UCHAR intTemp[256]; // WOrk Area to pass to Decoder
int i;
UCHAR * ptr2 = intTemp;
UCHAR * ptr1 = &bytRcv[Length - CheckLen -1]; // Last Byte of Data
int DataLen = Length - CheckLen;
int PadLength = 255 - Length; // Padding bytes needed for shortened RS codes
*blnRSOK = FALSE;
if (Length > 255 || Length < (1 + CheckLen)) //Too long or too short
return FALSE;
if (NPAR != CheckLen) // Changed RS Len, so recalc constants;
{
NPAR = CheckLen;
MaxErrors = NPAR /2;
initialize_ecc();
}
// We reverse the data while zero padding it to speed things up
// We Need (Data Reversed) (Zero Padding) (Checkbytes Reversed)
// Reverse Data
for (i = 0; i < DataLen; i++)
{
*(ptr2++) = *(ptr1--);
}
// Clear padding
memset(ptr2, 0, PadLength);
ptr2+= PadLength;
// Error Bits
ptr1 = &bytRcv[Length - 1]; // End of check bytes
for (i = 0; i < CheckLen; i++)
{
*(ptr2++) = *(ptr1--);
}
decode_data(intTemp, 255);
// check if syndrome is all zeros
if (check_syndrome() == 0)
{
// RS ok, so no need to correct
*blnRSOK = TRUE;
return TRUE; // No Need to Correct
}
if (correct_errors_erasures (intTemp, 255, 0, 0) == 0) // Dont support erasures at the momnet
// Uncorrectable
return FALSE;
// Data has been corrected, so need to reverse again
ptr1 = &intTemp[DataLen - 1];
ptr2 = bytRcv; // Last Byte of Data
for (i = 0; i < DataLen; i++)
{
*(ptr2++) = *(ptr1--);
}
// ?? Do we need to return the check bytes ??
// Yes, so we can redo RS Check on supposedly connected frame
ptr1 = &intTemp[254]; // End of Check Bytes
for (i = 0; i < CheckLen; i++)
{
*(ptr2++) = *(ptr1--);
}
return TRUE;
}
#else
// Old (Rick's) code
// Sets blnRSOK if OK without correction
// Returns TRUE if OK oe Corrected
// False if Can't correct
UCHAR intTemp[256]; // Work Area to pass to Decoder
int i;
int intStartIndex;
UCHAR * ptr2 = intTemp;
UCHAR * ptr1 = bytRcv;
BOOL RSWasOK;
int DataLen = Length - CheckLen;
int PadLength = 255 - Length; // Padding bytes needed for shortened RS codes
*blnRSOK = FALSE;
if (Length > 255 || Length < (1 + CheckLen)) //Too long or too short
return FALSE;
if (NPAR != CheckLen) // Changed RS Len, so recalc constants;
{
NPAR = CheckLen;
tt = sqrt(NPAR);
kk = 255-CheckLen;
generate_gf();
gen_poly();
}
intStartIndex = 255 - Length; // set the start point for shortened RS codes
// We always work on a 255 byte buffer, prepending zeros if neccessary
// Clear padding
memset(ptr2, 0, PadLength);
ptr2 += PadLength;
memcpy(ptr2, ptr1, Length);
// convert to indexed form
for(i = 0; i < 256; i++)
{
// intIsave = i;
// intIndexSave = index_of[intTemp[i]];
recd[i] = index_of[intTemp[i]];
}
// printtick("entering decode_rs");
blnErrorsCorrected = FALSE;
RSWasOK = decode_rs();
// printtick("decode_rs Done");
*blnRSOK = RSWasOK;
if (RSWasOK)
return TRUE;
if(blnErrorsCorrected)
{
for (i = 0; i < DataLen; i++)
{
bytRcv[i] = recd[i + intStartIndex];
}
return TRUE;
}
return FALSE;
}
#endif
// Function to encode ConnectRequest frame

168
BusyDetect.c
View File

@ -45,156 +45,28 @@ VOID ClearBusy()
intLastStop = 0; // This will force the busy detector to ignore old averages and initialze the rolling average filters
}
/*
// Function to implement a busy detector based on 1024 point FFT
extern int FFTSize;
BOOL BusyDetect2(float * dblMag, int intStart, int intStop) // this only called while searching for leader ...once leader detected, no longer called.
BOOL BusyDetect3(float * dblMag, int StartFreq, int EndFreq)
{
// each bin is about 12000/1024 or 11.72 Hz
// this only called while searching for leader ...once leader detected, no longer called.
// Based on code from ARDOP, but using diffferent FFT size
// QtSM is using an FFT size based on waterfall settings.
// First sort signals and look at highes signals:baseline ratio..
float dblAVGSignalPerBinNarrow, dblAVGSignalPerBinWide, dblAVGBaselineNarrow, dblAVGBaselineWide;
float dblFastAlpha = 0.4f;
float dblSlowAlpha = 0.2f;
float dblAvgStoNNarrow, dblAvgStoNWide;
int intNarrow = 8; // 8 x 11.72 Hz about 94 z
int intWide = ((intStop - intStart) * 2) / 3; //* 0.66);
int blnBusy = FALSE;
float dblAvgStoNSlowNarrow = 0;
float dblAvgStoNFastNarrow = 0;
float dblAvgStoNSlowWide = 0;
float dblAvgStoNFastWide = 0;
// First narrow band (~94Hz)
SortSignals(dblMag, intStart, intStop, intNarrow, &dblAVGSignalPerBinNarrow, &dblAVGBaselineNarrow);
if (intLastStart == intStart && intLastStop == intStop)
{
dblAvgStoNSlowNarrow = (1 - dblSlowAlpha) * dblAvgStoNSlowNarrow + dblSlowAlpha * dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
dblAvgStoNFastNarrow = (1 - dblFastAlpha) * dblAvgStoNFastNarrow + dblFastAlpha * dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
}
else
{
dblAvgStoNSlowNarrow = dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
dblAvgStoNFastNarrow = dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
intLastStart = intStart;
intLastStop = intStop;
}
dblAvgStoNNarrow = max(dblAvgStoNSlowNarrow, dblAvgStoNFastNarrow); // computes fast attack, slow release
// Wide band (66% ofr current bandwidth)
SortSignals(dblMag, intStart, intStop, intWide, &dblAVGSignalPerBinWide, &dblAVGBaselineWide);
if (intLastStart == intStart && intLastStop == intStop)
{
dblAvgStoNSlowWide = (1 - dblSlowAlpha) * dblAvgStoNSlowWide + dblSlowAlpha * dblAVGSignalPerBinWide / dblAVGBaselineWide;
dblAvgStoNFastWide = (1 - dblFastAlpha) * dblAvgStoNFastWide + dblFastAlpha * dblAVGSignalPerBinWide / dblAVGBaselineWide;
}
else
{
dblAvgStoNSlowWide = dblAVGSignalPerBinWide / dblAVGBaselineWide;
dblAvgStoNFastWide = dblAVGSignalPerBinWide / dblAVGBaselineWide;
intLastStart = intStart;
intLastStop = intStop;
}
dblAvgStoNNarrow = max(dblAvgStoNSlowNarrow, dblAvgStoNFastNarrow); // computes fast attack, slow release
dblAvgStoNWide = max(dblAvgStoNSlowWide, dblAvgStoNFastWide); // computes fast attack, slow release
// Preliminary calibration...future a function of bandwidth and BusyDet.
switch (ARQBandwidth)
{
case B200MAX:
case B200FORCED:
if (dblAvgStoNNarrow > 1.5 * BusyDet|| dblAvgStoNWide > 2.5 * BusyDet)
blnBusy = True;
break;
case B500MAX:
case B500FORCED:
if (dblAvgStoNNarrow > 1.5 * BusyDet || dblAvgStoNWide > 2.5 * BusyDet)
blnBusy = True;
break;
case B1000MAX:
case B1000FORCED:
if (dblAvgStoNNarrow > 1.4 * BusyDet || dblAvgStoNWide > 2 * BusyDet)
blnBusy = True;
break;
case B2000MAX:
case B2000FORCED:
if (dblAvgStoNNarrow > 1.4 * BusyDet || dblAvgStoNWide > 2 * BusyDet)
blnBusy = True;
}
if (blnBusy) // This used to skip over one call busy nuisance trips. Busy must be present at least 2 consecutive times to be reported
{
intBusyOnCnt += 1;
intBusyOffCnt = 0;
if (intBusyOnCnt > 1)
blnBusy = True;
else if (!blnBusy)
{
intBusyOffCnt += 1;
intBusyOnCnt = 0;
if (intBusyOffCnt > 3)
blnBusy = False;
}
}
if (blnLastBusy == False && blnBusy)
{
int x = round(dblAvgStoNNarrow); // odd, but PI doesnt print floats properly
int y = round(dblAvgStoNWide);
blnLastBusy = True;
LastBusyOn = Now;
#ifdef __ARM_ARCH
WriteDebugLog(LOGDEBUG, "[BusyDetect2: BUSY ON StoN Narrow = %d StoN Wide %d", x, y);
#else
WriteDebugLog(LOGDEBUG, "[BusyDetect2: BUSY ON StoN Narrow = %f StoN Wide %f", dblAvgStoNNarrow, dblAvgStoNWide);
#endif
}
else if (blnLastBusy == True && !blnBusy)
{
int x = round(dblAvgStoNNarrow); // odd, but PI doesnt print floats properly
int y = round(dblAvgStoNWide);
blnLastBusy = False;
LastBusyOff = Now;
#ifdef __ARM_ARCH
WriteDebugLog(LOGDEBUG, "[BusyDetect2: BUSY OFF StoN Narrow = %d StoN Wide %d", x, y);
#else
WriteDebugLog(LOGDEBUG, "[BusyDetect2: BUSY OFF StoN Narrow = %f StoN Wide %f", dblAvgStoNNarrow, dblAvgStoNWide);
#endif
}
return blnLastBusy;
}
// Start and Stop are in Hz. Convert to bin numbers
*/
BOOL BusyDetect3(float * dblMag, int intStart, int intStop) // this only called while searching for leader ...once leader detected, no longer called.
{
// each bin is about 12000/1024 or 11.72 Hz
// this only called while searching for leader ...once leader detected, no longer called.
// First sort signals and look at highes signals:baseline ratio..
float BinSize = 12000.0 / FFTSize;
int StartBin = StartFreq / BinSize;
int EndBin = EndFreq / BinSize;
float dblAVGSignalPerBinNarrow, dblAVGSignalPerBinWide, dblAVGBaselineNarrow, dblAVGBaselineWide;
float dblSlowAlpha = 0.2f;
float dblAvgStoNNarrow = 0, dblAvgStoNWide = 0;
int intNarrow = 8; // 8 x 11.72 Hz about 94 z
int intWide = ((intStop - intStart) * 2) / 3; //* 0.66);
int intNarrow = 100 / BinSize; // 8 x 11.72 Hz about 94 z
int intWide = ((EndBin - StartBin) * 2) / 3; //* 0.66);
int blnBusy = FALSE;
int BusyDet4th = BusyDet * BusyDet * BusyDet * BusyDet;
@ -202,32 +74,32 @@ BOOL BusyDetect3(float * dblMag, int intStart, int intStop) // this only
// First sort signals and look at highest signals:baseline ratio..
// First narrow band (~94Hz)
SortSignals2(dblMag, intStart, intStop, intNarrow, &dblAVGSignalPerBinNarrow, &dblAVGBaselineNarrow);
SortSignals2(dblMag, StartBin, EndBin, intNarrow, &dblAVGSignalPerBinNarrow, &dblAVGBaselineNarrow);
if (intLastStart == intStart && intLastStop == intStop)
if (intLastStart == StartBin && intLastStop == EndBin)
dblAvgStoNNarrow = (1 - dblSlowAlpha) * dblAvgStoNNarrow + dblSlowAlpha * dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
else
{
// This initializes the Narrow average after a bandwidth change
dblAvgStoNNarrow = dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
intLastStart = intStart;
intLastStop = intStop;
intLastStart = StartBin;
intLastStop = EndBin;
}
// Wide band (66% of current bandwidth)
SortSignals2(dblMag, intStart, intStop, intWide, &dblAVGSignalPerBinWide, &dblAVGBaselineWide);
SortSignals2(dblMag, StartBin, EndBin, intWide, &dblAVGSignalPerBinWide, &dblAVGBaselineWide);
if (intLastStart == intStart && intLastStop == intStop)
if (intLastStart == StartBin && intLastStop == EndBin)
dblAvgStoNWide = (1 - dblSlowAlpha) * dblAvgStoNWide + dblSlowAlpha * dblAVGSignalPerBinWide / dblAVGBaselineWide;
else
{
// This initializes the Wide average after a bandwidth change
dblAvgStoNWide = dblAVGSignalPerBinWide / dblAVGBaselineWide;
intLastStart = intStart;
intLastStop = intStop;
intLastStart = StartBin;
intLastStop = EndBin;
}
// Preliminary calibration...future a function of bandwidth and BusyDet.

60
Config.cpp
View File

@ -1,4 +1,4 @@
/*extern "C"
/*
Copyright (C) 2019-2020 Andrei Kopanchuk UZ7HO
This file is part of QtSoundModem
@ -29,8 +29,12 @@ extern "C" void get_exclude_list(char * line, TStringList * list);
extern "C" void get_exclude_frm(char * line, TStringList * list);
extern "C" int SoundMode;
extern "C" int RX_SR;
extern "C" int TX_SR;
extern "C" bool onlyMixSnoop;
//extern "C" int RX_SR;
//extern "C" int TX_SR;
extern "C" int txLatency;
extern "C" int multiCore;
extern "C" char * Wisdom;
extern int WaterfallMin;
@ -55,11 +59,18 @@ extern int CWIDRight;
extern int CWIDType;
extern bool afterTraffic;
extern bool darkTheme;
extern "C" bool useKISSControls;
extern "C" int RSID_SABM[4];
extern "C" int RSID_UI[4];
extern "C" int RSID_SetModem[4];
extern "C" int nonGUIMode;
extern char SixPackDevice[256];
extern int SixPackPort;
extern int SixPackEnable;
extern int MgmtPort;
extern QFont Font;
@ -139,8 +150,12 @@ void getSettings()
strcpy(UDPHost, settings->value("Init/UDPHost", "192.168.1.255").toString().toUtf8());
UDPServ = settings->value("Init/UDPServer", FALSE).toBool();
RX_SR = settings->value("Init/RXSampleRate", 12000).toInt();
TX_SR = settings->value("Init/TXSampleRate", 12000).toInt();
// RX_SR = settings->value("Init/RXSampleRate", 12000).toInt();
// TX_SR = settings->value("Init/TXSampleRate", 12000).toInt();
txLatency = settings->value("Init/txLatency", 50).toInt();
onlyMixSnoop = settings->value("Init/onlyMixSnoop", 0).toInt();
strcpy(CaptureDevice, settings->value("Init/SndRXDeviceName", "hw:1,0").toString().toUtf8());
strcpy(PlaybackDevice, settings->value("Init/SndTXDeviceName", "hw:1,0").toString().toUtf8());
@ -166,6 +181,10 @@ void getSettings()
HamLibPort = settings->value("Init/HamLibPort", 4532).toInt();
strcpy(HamLibHost, settings->value("Init/HamLibHost", "127.0.0.1").toString().toUtf8());
FLRigPort = settings->value("Init/FLRigPort", 12345).toInt();
strcpy(FLRigHost, settings->value("Init/FLRigHost", "127.0.0.1").toString().toUtf8());
DualPTT = settings->value("Init/DualPTT", 1).toInt();
TX_rotate = settings->value("Init/TXRotate", 0).toInt();
multiCore = settings->value("Init/multiCore", 0).toInt();
@ -200,6 +219,7 @@ void getSettings()
soundChannel[3] = settings->value("Modem/soundChannel4", 0).toInt();
SCO = settings->value("Init/SCO", 0).toInt();
useKISSControls = settings->value("Init/useKISSControls", 0).toBool();
dcd_threshold = settings->value("Modem/DCDThreshold", 40).toInt();
rxOffset = settings->value("Modem/rxOffset", 0).toInt();
@ -208,9 +228,14 @@ void getSettings()
AGWPort = settings->value("AGWHost/Port", 8000).toInt();
KISSServ = settings->value("KISS/Server", FALSE).toBool();
KISSPort = settings->value("KISS/Port", 8105).toInt();
MgmtPort = settings->value("MGMT/Port", 0).toInt();
RX_Samplerate = RX_SR + RX_SR * 0.000001*RX_PPM;
TX_Samplerate = TX_SR + TX_SR * 0.000001*TX_PPM;
SixPackEnable = settings->value("SixPack/Enable", FALSE).toBool();
SixPackPort = settings->value("SixPack/Port", 0).toInt();
strcpy(SixPackDevice, settings->value("SixPack/Device", "").toString().toUtf8());
// RX_Samplerate = RX_SR + RX_SR * 0.000001*RX_PPM;
// TX_Samplerate = TX_SR + TX_SR * 0.000001*TX_PPM;
emph_all[0] = settings->value("Modem/PreEmphasisAll1", FALSE).toBool();
emph_all[1] = settings->value("Modem/PreEmphasisAll2", FALSE).toBool();
@ -365,7 +390,9 @@ void saveSettings()
settings->setValue("PointSize", Font.pointSize());
settings->setValue("Weight", Font.weight());
settings->setValue("PSKWindow", constellationDialog->geometry());
if (nonGUIMode == 0)
settings->setValue("PSKWindow", constellationDialog->geometry());
settings->setValue("Init/SoundMode", SoundMode);
settings->setValue("Init/UDPClientPort", UDPClientPort);
settings->setValue("Init/UDPServerPort", UDPServerPort);
@ -375,12 +402,16 @@ void saveSettings()
settings->setValue("Init/UDPHost", UDPHost);
settings->setValue("Init/TXSampleRate", TX_SR);
settings->setValue("Init/RXSampleRate", RX_SR);
// settings->setValue("Init/TXSampleRate", TX_SR);
// settings->setValue("Init/RXSampleRate", RX_SR);
settings->setValue("Init/txLatency", txLatency);
settings->setValue("Init/onlyMixSnoop", onlyMixSnoop);
settings->setValue("Init/SndRXDeviceName", CaptureDevice);
settings->setValue("Init/SndTXDeviceName", PlaybackDevice);
settings->setValue("Init/useKISSControls", useKISSControls);
settings->setValue("Init/SCO", SCO);
settings->setValue("Init/DualPTT", DualPTT);
settings->setValue("Init/TXRotate", TX_rotate);
@ -400,6 +431,9 @@ void saveSettings()
settings->setValue("Init/CM108Addr", CM108Addr);
settings->setValue("Init/HamLibPort", HamLibPort);
settings->setValue("Init/HamLibHost", HamLibHost);
settings->setValue("Init/FLRigPort", FLRigPort);
settings->setValue("Init/FLRigHost", FLRigHost);
settings->setValue("Init/MinimizetoTray", MintoTray);
settings->setValue("Init/multiCore", multiCore);
settings->setValue("Init/Wisdom", Wisdom);
@ -436,6 +470,12 @@ void saveSettings()
settings->setValue("AGWHost/Port", AGWPort);
settings->setValue("KISS/Server", KISSServ);
settings->setValue("KISS/Port", KISSPort);
settings->setValue("MGMT/Port", MgmtPort);
settings->setValue("SixPack/Enable", SixPackEnable);
settings->setValue("SixPack/Port", SixPackPort);
settings->setValue("SixPack/Device", SixPackDevice);
settings->setValue("Modem/PreEmphasisAll1", emph_all[0]);
settings->setValue("Modem/PreEmphasisAll2", emph_all[1]);

481
Config.cpp.bak Normal file
View File

@ -0,0 +1,481 @@
/*extern "C"
Copyright (C) 2019-2020 Andrei Kopanchuk UZ7HO
This file is part of QtSoundModem
QtSoundModem 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.
QtSoundModem 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 QtSoundModem. If not, see http://www.gnu.org/licenses
*/
// UZ7HO Soundmodem Port by John Wiseman G8BPQ
#include <QSettings>
#include <QDialog>
#include "UZ7HOStuff.h"
extern "C" void get_exclude_list(char * line, TStringList * list);
extern "C" void get_exclude_frm(char * line, TStringList * list);
extern "C" int SoundMode;
extern "C" int RX_SR;
extern "C" int TX_SR;
extern "C" int multiCore;
extern "C" char * Wisdom;
extern int WaterfallMin;
extern int WaterfallMax;
extern "C" word MEMRecovery[5];
extern int MintoTray;
extern "C" int UDPClientPort;
extern "C" int UDPServerPort;
extern "C" int TXPort;
extern char UDPHost[64];
extern QDialog * constellationDialog;
extern QRect PSKRect;
extern char CWIDCall[128];
extern "C" char CWIDMark[32];
extern int CWIDInterval;
extern int CWIDLeft;
extern int CWIDRight;
extern int CWIDType;
extern bool afterTraffic;
extern bool darkTheme;
extern "C" int RSID_SABM[4];
extern "C" int RSID_UI[4];
extern "C" int RSID_SetModem[4];
extern QFont Font;
QSettings* settings = new QSettings("QtSoundModem.ini", QSettings::IniFormat);
// This makes geting settings for more channels easier
char Prefix[16] = "AX25_A";
void GetPortSettings(int Chan);
QVariant getAX25Param(const char * key, QVariant Default)
{
char fullKey[64];
QVariant Q;
QByteArray x;
sprintf(fullKey, "%s/%s", Prefix, key);
Q = settings->value(fullKey, Default);
x = Q.toString().toUtf8();
return Q;
}
void getAX25Params(int chan)
{
Prefix[5] = chan + 'A';
GetPortSettings(chan);
}
void GetPortSettings(int Chan)
{
tx_hitoneraisedb[Chan] = getAX25Param("HiToneRaise", 0).toInt();
maxframe[Chan] = getAX25Param("Maxframe", 3).toInt();
fracks[Chan] = getAX25Param("Retries", 15).toInt();
frack_time[Chan] = getAX25Param("FrackTime", 5).toInt();
idletime[Chan] = getAX25Param("IdleTime", 180).toInt();
slottime[Chan] = getAX25Param("SlotTime", 100).toInt();
persist[Chan] = getAX25Param("Persist", 128).toInt();
resptime[Chan] = getAX25Param("RespTime", 1500).toInt();
TXFrmMode[Chan] = getAX25Param("TXFrmMode", 1).toInt();
max_frame_collector[Chan] = getAX25Param("FrameCollector", 6).toInt();
KISS_opt[Chan] = getAX25Param("KISSOptimization", false).toInt();;
dyn_frack[Chan] = getAX25Param("DynamicFrack", false).toInt();;
recovery[Chan] = getAX25Param("BitRecovery", 0).toInt();
NonAX25[Chan] = getAX25Param("NonAX25Frm", false).toInt();;
MEMRecovery[Chan]= getAX25Param("MEMRecovery", 200).toInt();
IPOLL[Chan] = getAX25Param("IPOLL", 80).toInt();
strcpy(MyDigiCall[Chan], getAX25Param("MyDigiCall", "").toString().toUtf8());
strcpy(exclude_callsigns[Chan], getAX25Param("ExcludeCallsigns", "").toString().toUtf8());
fx25_mode[Chan] = getAX25Param("FX25", FX25_MODE_RX).toInt();
il2p_mode[Chan] = getAX25Param("IL2P", IL2P_MODE_NONE).toInt();
il2p_crc[Chan] = getAX25Param("IL2PCRC", 0).toInt();
RSID_UI[Chan] = getAX25Param("RSID_UI", 0).toInt();
RSID_SABM[Chan] = getAX25Param("RSID_SABM", 0).toInt();
RSID_SetModem[Chan] = getAX25Param("RSID_SetModem", 0).toInt();
}
void getSettings()
{
int snd_ch;
QSettings* settings = new QSettings("QtSoundModem.ini", QSettings::IniFormat);
settings->sync();
PSKRect = settings->value("PSKWindow").toRect();
SoundMode = settings->value("Init/SoundMode", 0).toInt();
UDPClientPort = settings->value("Init/UDPClientPort", 8888).toInt();
UDPServerPort = settings->value("Init/UDPServerPort", 8884).toInt();
TXPort = settings->value("Init/TXPort", UDPServerPort).toInt();
strcpy(UDPHost, settings->value("Init/UDPHost", "192.168.1.255").toString().toUtf8());
UDPServ = settings->value("Init/UDPServer", FALSE).toBool();
RX_SR = settings->value("Init/RXSampleRate", 12000).toInt();
TX_SR = settings->value("Init/TXSampleRate", 12000).toInt();
strcpy(CaptureDevice, settings->value("Init/SndRXDeviceName", "hw:1,0").toString().toUtf8());
strcpy(PlaybackDevice, settings->value("Init/SndTXDeviceName", "hw:1,0").toString().toUtf8());
raduga = settings->value("Init/DispMode", DISP_RGB).toInt();
strcpy(PTTPort, settings->value("Init/PTT", "").toString().toUtf8());
PTTMode = settings->value("Init/PTTMode", 19200).toInt();
PTTBAUD = settings->value("Init/PTTBAUD", 19200).toInt();
strcpy(PTTOnString, settings->value("Init/PTTOnString", "").toString().toUtf8());
strcpy(PTTOffString, settings->value("Init/PTTOffString", "").toString().toUtf8());
pttGPIOPin = settings->value("Init/pttGPIOPin", 17).toInt();
pttGPIOPinR = settings->value("Init/pttGPIOPinR", 17).toInt();
#ifdef WIN32
strcpy(CM108Addr, settings->value("Init/CM108Addr", "0xD8C:0x08").toString().toUtf8());
#else
strcpy(CM108Addr, settings->value("Init/CM108Addr", "/dev/hidraw0").toString().toUtf8());
#endif
HamLibPort = settings->value("Init/HamLibPort", 4532).toInt();
strcpy(HamLibHost, settings->value("Init/HamLibHost", "127.0.0.1").toString().toUtf8());
DualPTT = settings->value("Init/DualPTT", 1).toInt();
TX_rotate = settings->value("Init/TXRotate", 0).toInt();
multiCore = settings->value("Init/multiCore", 0).toInt();
MintoTray = settings->value("Init/MinimizetoTray", 1).toInt();
Wisdom = strdup(settings->value("Init/Wisdom", "").toString().toUtf8());
WaterfallMin = settings->value("Init/WaterfallMin", 0).toInt();
WaterfallMax = settings->value("Init/WaterfallMax", 3300).toInt();
rx_freq[0] = settings->value("Modem/RXFreq1", 1700).toInt();
rx_freq[1] = settings->value("Modem/RXFreq2", 1700).toInt();
rx_freq[2] = settings->value("Modem/RXFreq3", 1700).toInt();
rx_freq[3] = settings->value("Modem/RXFreq4", 1700).toInt();
rcvr_offset[0] = settings->value("Modem/RcvrShift1", 30).toInt();
rcvr_offset[1] = settings->value("Modem/RcvrShift2", 30).toInt();
rcvr_offset[2] = settings->value("Modem/RcvrShift3", 30).toInt();
rcvr_offset[3] = settings->value("Modem/RcvrShift4", 30).toInt();
speed[0] = settings->value("Modem/ModemType1", SPEED_1200).toInt();
speed[1] = settings->value("Modem/ModemType2", SPEED_1200).toInt();
speed[2] = settings->value("Modem/ModemType3", SPEED_1200).toInt();
speed[3] = settings->value("Modem/ModemType4", SPEED_1200).toInt();
RCVR[0] = settings->value("Modem/NRRcvrPairs1", 0).toInt();;
RCVR[1] = settings->value("Modem/NRRcvrPairs2", 0).toInt();;
RCVR[2] = settings->value("Modem/NRRcvrPairs3", 0).toInt();;
RCVR[3] = settings->value("Modem/NRRcvrPairs4", 0).toInt();;
soundChannel[0] = settings->value("Modem/soundChannel1", 1).toInt();
soundChannel[1] = settings->value("Modem/soundChannel2", 0).toInt();
soundChannel[2] = settings->value("Modem/soundChannel3", 0).toInt();
soundChannel[3] = settings->value("Modem/soundChannel4", 0).toInt();
SCO = settings->value("Init/SCO", 0).toInt();
dcd_threshold = settings->value("Modem/DCDThreshold", 40).toInt();
rxOffset = settings->value("Modem/rxOffset", 0).toInt();
AGWServ = settings->value("AGWHost/Server", TRUE).toBool();
AGWPort = settings->value("AGWHost/Port", 8000).toInt();
KISSServ = settings->value("KISS/Server", FALSE).toBool();
KISSPort = settings->value("KISS/Port", 8105).toInt();
RX_Samplerate = RX_SR + RX_SR * 0.000001*RX_PPM;
TX_Samplerate = TX_SR + TX_SR * 0.000001*TX_PPM;
emph_all[0] = settings->value("Modem/PreEmphasisAll1", FALSE).toBool();
emph_all[1] = settings->value("Modem/PreEmphasisAll2", FALSE).toBool();
emph_all[2] = settings->value("Modem/PreEmphasisAll3", FALSE).toBool();
emph_all[3] = settings->value("Modem/PreEmphasisAll4", FALSE).toBool();
emph_db[0] = settings->value("Modem/PreEmphasisDB1", 0).toInt();
emph_db[1] = settings->value("Modem/PreEmphasisDB2", 0).toInt();
emph_db[2] = settings->value("Modem/PreEmphasisDB3", 0).toInt();
emph_db[3] = settings->value("Modem/PreEmphasisDB4", 0).toInt();
Firstwaterfall = settings->value("Window/Waterfall1", TRUE).toInt();
Secondwaterfall = settings->value("Window/Waterfall2", TRUE).toInt();
txdelay[0] = settings->value("Modem/TxDelay1", 250).toInt();
txdelay[1] = settings->value("Modem/TxDelay2", 250).toInt();
txdelay[2] = settings->value("Modem/TxDelay3", 250).toInt();
txdelay[3] = settings->value("Modem/TxDelay4", 250).toInt();
txtail[0] = settings->value("Modem/TxTail1", 50).toInt();
txtail[1] = settings->value("Modem/TxTail2", 50).toInt();
txtail[2] = settings->value("Modem/TxTail3", 50).toInt();
txtail[3] = settings->value("Modem/TxTail4", 50).toInt();
strcpy(CWIDCall, settings->value("Modem/CWIDCall", "").toString().toUtf8().toUpper());
strcpy(CWIDMark, settings->value("Modem/CWIDMark", "").toString().toUtf8().toUpper());
CWIDInterval = settings->value("Modem/CWIDInterval", 0).toInt();
CWIDLeft = settings->value("Modem/CWIDLeft", 0).toInt();
CWIDRight = settings->value("Modem/CWIDRight", 0).toInt();
CWIDType = settings->value("Modem/CWIDType", 1).toInt(); // on/off
afterTraffic = settings->value("Modem/afterTraffic", false).toBool();
getAX25Params(0);
getAX25Params(1);
getAX25Params(2);
getAX25Params(3);
// Validate and process settings
UsingLeft = 0;
UsingRight = 0;
UsingBothChannels = 0;
for (int i = 0; i < 4; i++)
{
if (soundChannel[i] == LEFT)
{
UsingLeft = 1;
modemtoSoundLR[i] = 0;
}
else if (soundChannel[i] == RIGHT)
{
UsingRight = 1;
modemtoSoundLR[i] = 1;
}
}
if (UsingLeft && UsingRight)
UsingBothChannels = 1;
for (snd_ch = 0; snd_ch < 4; snd_ch++)
{
tx_hitoneraise[snd_ch] = powf(10.0f, -abs(tx_hitoneraisedb[snd_ch]) / 20.0f);
if (IPOLL[snd_ch] < 0)
IPOLL[snd_ch] = 0;
else if (IPOLL[snd_ch] > 65535)
IPOLL[snd_ch] = 65535;
if (MEMRecovery[snd_ch] < 1)
MEMRecovery[snd_ch] = 1;
// if (MEMRecovery[snd_ch]> 65535)
// MEMRecovery[snd_ch]= 65535;
/*
if resptime[snd_ch] < 0 then resptime[snd_ch]= 0;
if resptime[snd_ch] > 65535 then resptime[snd_ch]= 65535;
if persist[snd_ch] > 255 then persist[snd_ch]= 255;
if persist[snd_ch] < 32 then persist[snd_ch]= 32;
if fracks[snd_ch] < 1 then fracks[snd_ch]= 1;
if frack_time[snd_ch] < 1 then frack_time[snd_ch]= 1;
if idletime[snd_ch] < frack_time[snd_ch] then idletime[snd_ch]= 180;
*/
if (emph_db[snd_ch] < 0 || emph_db[snd_ch] > nr_emph)
emph_db[snd_ch] = 0;
if (max_frame_collector[snd_ch] > 6) max_frame_collector[snd_ch] = 6;
if (maxframe[snd_ch] == 0 || maxframe[snd_ch] > 7) maxframe[snd_ch] = 3;
if (qpsk_set[snd_ch].mode > 1) qpsk_set[snd_ch].mode = 0;
}
darkTheme = settings->value("Init/darkTheme", false).toBool();
delete(settings);
}
void SavePortSettings(int Chan);
void saveAX25Param(const char * key, QVariant Value)
{
char fullKey[64];
sprintf(fullKey, "%s/%s", Prefix, key);
settings->setValue(fullKey, Value);
}
void saveAX25Params(int chan)
{
Prefix[5] = chan + 'A';
SavePortSettings(chan);
}
void SavePortSettings(int Chan)
{
saveAX25Param("Retries", fracks[Chan]);
saveAX25Param("HiToneRaise", tx_hitoneraisedb[Chan]);
saveAX25Param("Maxframe",maxframe[Chan]);
saveAX25Param("Retries", fracks[Chan]);
saveAX25Param("FrackTime", frack_time[Chan]);
saveAX25Param("IdleTime", idletime[Chan]);
saveAX25Param("SlotTime", slottime[Chan]);
saveAX25Param("Persist", persist[Chan]);
saveAX25Param("RespTime", resptime[Chan]);
saveAX25Param("TXFrmMode", TXFrmMode[Chan]);
saveAX25Param("FrameCollector", max_frame_collector[Chan]);
saveAX25Param("ExcludeCallsigns", exclude_callsigns[Chan]);
saveAX25Param("ExcludeAPRSFrmType", exclude_APRS_frm[Chan]);
saveAX25Param("KISSOptimization", KISS_opt[Chan]);
saveAX25Param("DynamicFrack", dyn_frack[Chan]);
saveAX25Param("BitRecovery", recovery[Chan]);
saveAX25Param("NonAX25Frm", NonAX25[Chan]);
saveAX25Param("MEMRecovery", MEMRecovery[Chan]);
saveAX25Param("IPOLL", IPOLL[Chan]);
saveAX25Param("MyDigiCall", MyDigiCall[Chan]);
saveAX25Param("FX25", fx25_mode[Chan]);
saveAX25Param("IL2P", il2p_mode[Chan]);
saveAX25Param("IL2PCRC", il2p_crc[Chan]);
saveAX25Param("RSID_UI", RSID_UI[Chan]);
saveAX25Param("RSID_SABM", RSID_SABM[Chan]);
saveAX25Param("RSID_SetModem", RSID_SetModem[Chan]);
}
void saveSettings()
{
QSettings * settings = new QSettings("QtSoundModem.ini", QSettings::IniFormat);
settings->setValue("FontFamily", Font.family());
settings->setValue("PointSize", Font.pointSize());
settings->setValue("Weight", Font.weight());
settings->setValue("PSKWindow", constellationDialog->geometry());
settings->setValue("Init/SoundMode", SoundMode);
settings->setValue("Init/UDPClientPort", UDPClientPort);
settings->setValue("Init/UDPServerPort", UDPServerPort);
settings->setValue("Init/TXPort", TXPort);
settings->setValue("Init/UDPServer", UDPServ);
settings->setValue("Init/UDPHost", UDPHost);
settings->setValue("Init/TXSampleRate", TX_SR);
settings->setValue("Init/RXSampleRate", RX_SR);
settings->setValue("Init/SndRXDeviceName", CaptureDevice);
settings->setValue("Init/SndTXDeviceName", PlaybackDevice);
settings->setValue("Init/SCO", SCO);
settings->setValue("Init/DualPTT", DualPTT);
settings->setValue("Init/TXRotate", TX_rotate);
settings->setValue("Init/DispMode", raduga);
settings->setValue("Init/PTT", PTTPort);
settings->setValue("Init/PTTBAUD", PTTBAUD);
settings->setValue("Init/PTTMode", PTTMode);
settings->setValue("Init/PTTOffString", PTTOffString);
settings->setValue("Init/PTTOnString", PTTOnString);
settings->setValue("Init/pttGPIOPin", pttGPIOPin);
settings->setValue("Init/pttGPIOPinR", pttGPIOPinR);
settings->setValue("Init/CM108Addr", CM108Addr);
settings->setValue("Init/HamLibPort", HamLibPort);
settings->setValue("Init/HamLibHost", HamLibHost);
settings->setValue("Init/MinimizetoTray", MintoTray);
settings->setValue("Init/multiCore", multiCore);
settings->setValue("Init/Wisdom", Wisdom);
settings->setValue("Init/WaterfallMin", WaterfallMin);
settings->setValue("Init/WaterfallMax", WaterfallMax);
// Don't save freq on close as it could be offset by multiple decoders
settings->setValue("Modem/NRRcvrPairs1", RCVR[0]);
settings->setValue("Modem/NRRcvrPairs2", RCVR[1]);
settings->setValue("Modem/NRRcvrPairs3", RCVR[2]);
settings->setValue("Modem/NRRcvrPairs4", RCVR[3]);
settings->setValue("Modem/RcvrShift1", rcvr_offset[0]);
settings->setValue("Modem/RcvrShift2", rcvr_offset[1]);
settings->setValue("Modem/RcvrShift3", rcvr_offset[2]);
settings->setValue("Modem/RcvrShift4", rcvr_offset[3]);
settings->setValue("Modem/ModemType1", speed[0]);
settings->setValue("Modem/ModemType2", speed[1]);
settings->setValue("Modem/ModemType3", speed[2]);
settings->setValue("Modem/ModemType4", speed[3]);
settings->setValue("Modem/soundChannel1", soundChannel[0]);
settings->setValue("Modem/soundChannel2", soundChannel[1]);
settings->setValue("Modem/soundChannel3", soundChannel[2]);
settings->setValue("Modem/soundChannel4", soundChannel[3]);
settings->setValue("Modem/DCDThreshold", dcd_threshold);
settings->setValue("Modem/rxOffset", rxOffset);
settings->setValue("AGWHost/Server", AGWServ);
settings->setValue("AGWHost/Port", AGWPort);
settings->setValue("KISS/Server", KISSServ);
settings->setValue("KISS/Port", KISSPort);
settings->setValue("Modem/PreEmphasisAll1", emph_all[0]);
settings->setValue("Modem/PreEmphasisAll2", emph_all[1]);
settings->setValue("Modem/PreEmphasisAll3", emph_all[2]);
settings->setValue("Modem/PreEmphasisAll4", emph_all[3]);
settings->setValue("Modem/PreEmphasisDB1", emph_db[0]);
settings->setValue("Modem/PreEmphasisDB2", emph_db[1]);
settings->setValue("Modem/PreEmphasisDB3", emph_db[2]);
settings->setValue("Modem/PreEmphasisDB4", emph_db[3]);
settings->setValue("Window/Waterfall1", Firstwaterfall);
settings->setValue("Window/Waterfall2", Secondwaterfall);
settings->setValue("Modem/TxDelay1", txdelay[0]);
settings->setValue("Modem/TxDelay2", txdelay[1]);
settings->setValue("Modem/TxDelay3", txdelay[2]);
settings->setValue("Modem/TxDelay4", txdelay[3]);
settings->setValue("Modem/TxTail1", txtail[0]);
settings->setValue("Modem/TxTail2", txtail[1]);
settings->setValue("Modem/TxTail3", txtail[2]);
settings->setValue("Modem/TxTail4", txtail[3]);
settings->setValue("Modem/CWIDCall", CWIDCall);
settings->setValue("Modem/CWIDMark", CWIDMark);
settings->setValue("Modem/CWIDInterval", CWIDInterval);
settings->setValue("Modem/CWIDLeft", CWIDLeft);
settings->setValue("Modem/CWIDRight", CWIDRight);
settings->setValue("Modem/CWIDType", CWIDType);
settings->setValue("Modem/afterTraffic", afterTraffic);
settings->setValue("Init/darkTheme", darkTheme);
saveAX25Params(0);
saveAX25Params(1);
saveAX25Params(2);
saveAX25Params(3);
settings->sync();
delete(settings);
}

1064
ModemDialog.ui
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30
Modulate.c
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@ -5,7 +5,7 @@
#define ARDOPBufferSize 12000 * 100
extern char CWIDMark[32];
char CWIDMark[32] = "";
extern short ARDOPTXBuffer[4][ARDOPBufferSize]; // Enough to hold whole frame of samples
@ -1025,6 +1025,34 @@ void sendCWID(char * strID, BOOL CWOnOff, int Chan)
initFilter(200, Filter, Chan);
// if sending 1500 cal tone send mark tone for 10 secs
if (strcmp(strID, "1500TONE") == 0)
{
float m_amplitude = 30000.0f;
float m_frequency = 1500.0f;
float m_phase = 0.0;
float m_time = 0.0;
float m_deltaTime = 1.0f / 12000;
float x;
// generate sin wave in mono
for (int sample = 0; sample < 120000; ++sample)
{
x = m_amplitude * sin(2 * M_PI * m_frequency * m_time + m_phase);
ARDOPSampleSink(x);
m_time += m_deltaTime;
}
ARDOPTXPtr[Chan] = 0;
ARDOPTXLen[Chan] = Number;
Number = 0;
return;
}
//Generate leader for VOX 6 dots long
for (k = 6; k >0; k--)

643
QtSoundModem.cpp
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3380
QtSoundModem.cpp.bak Normal file
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30
QtSoundModem.h
View File

@ -43,6 +43,7 @@ private slots:
void updateFont();
void MinimizetoTray();
void TrayActivated(QSystemTrayIcon::ActivationReason reason);
void StatsTimer();
void MyTimerSlot();
void returnPressed();
void clickedSlotI(int i);
@ -74,8 +75,15 @@ private slots:
void preEmphAllDChanged(int state);
void menuChecked();
void onTEselectionChanged();
void StartWatchdog();
void StopWatchdog();
void PTTWatchdogExpired();
void showRequest(QByteArray Data);
void clickedSlot();
void startCWIDTimerSlot();
void setWaterfallImage();
void setLevelImage();
void setConstellationImage(int chan, int Qual);
protected:
@ -118,3 +126,25 @@ protected:
#define WaterfallTotalPixels WaterfallDisplayPixels + WaterfallHeaderPixels
#define WaterfallImageHeight (WaterfallTotalPixels + WaterfallTotalPixels)
class serialThread : public QThread
{
Q_OBJECT
public:
void run() Q_DECL_OVERRIDE;
void startSlave(const QString &portName, int waitTimeout, const QString &response);
signals:
void request(const QByteArray &s);
void error(const QString &s);
void timeout(const QString &s);
private:
QString portName;
QString response;
int waitTimeout;
QMutex mutex;
bool quit;
};

4
QtSoundModem.pro
View File

@ -44,8 +44,8 @@ SOURCES += ./audio.c \
./ofdm.c \
./pktARDOP.c \
./BusyDetect.c \
./DW9600.c
./DW9600.c \
./6pack.cpp
FORMS += ./calibrateDialog.ui \

263
QtSoundModem.pro.user Normal file
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@ -0,0 +1,263 @@
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64
QtSoundModem.pro~ Normal file
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@ -0,0 +1,64 @@
QT += core gui
QT += network
QT += serialport
greaterThan(QT_MAJOR_VERSION, 4): QT += widgets
TARGET = QtSoundModem
TEMPLATE = app
HEADERS += ./UZ7HOStuff.h \
./QtSoundModem.h \
./tcpCode.h
SOURCES += ./audio.c \
./pulse.c \
./ax25.c \
./ax25_demod.c \
./ax25_l2.c \
./ax25_mod.c \
./Config.cpp \
./kiss_mode.c \
./main.cpp \
./QtSoundModem.cpp \
./ShowFilter.cpp \
./SMMain.c \
./sm_main.c \
./UZ7HOUtils.c \
./ALSASound.c \
./ax25_agw.c \
./berlekamp.c \
./galois.c \
./rs.c \
./rsid.c \
./il2p.c \
./tcpCode.cpp \
./ax25_fec.c \
./RSUnit.c \
./ARDOPC.c \
./ardopSampleArrays.c \
./SoundInput.c \
./Modulate.c \
./ofdm.c \
./pktARDOP.c \
./BusyDetect.c \
./DW9600.c
FORMS += ./calibrateDialog.ui \
./devicesDialog.ui \
./filterWindow.ui \
./ModemDialog.ui \
./QtSoundModem.ui
RESOURCES += QtSoundModem.qrc
RC_ICONS = QtSoundModem.ico
QMAKE_CFLAGS += -g
#QMAKE_LFLAGS += -lasound -lpulse-simple -lpulse -lfftw3f
QMAKE_LIBS += -lasound -lfftw3f -ldl

3
QtSoundModem.vcxproj
View File

@ -382,7 +382,9 @@
</QtUic>
</ItemDefinitionGroup>
<ItemGroup>
<ClCompile Include="6pack.cpp" />
<ClCompile Include="ARDOPC.c" />
<ClCompile Include="berlekamp.c" />
<ClCompile Include="BusyDetect.c" />
<ClCompile Include="Config.cpp" />
<ClCompile Include="dw9600.c" />
@ -406,7 +408,6 @@
<ClCompile Include="ax25_fec.c" />
<ClCompile Include="ax25_l2.c" />
<ClCompile Include="ax25_mod.c" />
<ClCompile Include="berlekamp.c" />
<ClCompile Include="galois.c" />
<ClCompile Include="kiss_mode.c" />
<ClCompile Include="main.cpp" />

17
QtSoundModem.vcxproj.filters
View File

@ -98,9 +98,6 @@
<ClCompile Include="ax25_mod.c">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="berlekamp.c">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="galois.c">
<Filter>Source Files</Filter>
</ClCompile>
@ -140,14 +137,17 @@
<ClCompile Include="dw9600.c">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="berlekamp.c">
<Filter>Generated Files</Filter>
</ClCompile>
<ClCompile Include="6pack.cpp">
<Filter>Source Files</Filter>
</ClCompile>
</ItemGroup>
<ItemGroup>
<QtMoc Include="QtSoundModem.h">
<Filter>Header Files</Filter>
</QtMoc>
<ClInclude Include="UZ7HOStuff.h">
<Filter>Header Files</Filter>
</ClInclude>
<QtMoc Include="tcpCode.h">
<Filter>Header Files</Filter>
</QtMoc>
@ -187,4 +187,9 @@
<Filter>Resource Files</Filter>
</Image>
</ItemGroup>
<ItemGroup>
<ClInclude Include="UZ7HOStuff.h">
<Filter>Header Files</Filter>
</ClInclude>
</ItemGroup>
</Project>

8
QtSoundModem.vcxproj.user
View File

@ -20,15 +20,15 @@
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</PropertyGroup>
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<QtLastBackgroundBuild>2023-10-15T11:35:54.9027336Z</QtLastBackgroundBuild>
<QtLastBackgroundBuild>2024-10-02T12:37:32.3312444Z</QtLastBackgroundBuild>
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<QtLastBackgroundBuild>2024-10-02T12:37:32.7461423Z</QtLastBackgroundBuild>
</PropertyGroup>
<PropertyGroup Label="QtSettings" Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
<QtLastBackgroundBuild>2023-10-15T11:35:55.2661628Z</QtLastBackgroundBuild>
<QtLastBackgroundBuild>2024-10-02T12:37:33.4644113Z</QtLastBackgroundBuild>
</PropertyGroup>
<PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|x64'" Label="QtSettings">
<QtLastBackgroundBuild>2023-10-15T11:35:55.4659021Z</QtLastBackgroundBuild>
<QtLastBackgroundBuild>2024-10-02T12:37:33.9800504Z</QtLastBackgroundBuild>
</PropertyGroup>
</Project>

BIN
QtSoundModem_resource.aps Normal file
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144
SMMain.c
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@ -29,6 +29,42 @@ along with QtSoundModem. If not, see http://www.gnu.org/licenses
#include <errno.h>
#include <stdint.h>
void platformInit();
void RsCreate();
void detector_init();
void KISS_init();
void ax25_init();
void init_raduga();
void il2p_init(int il2p_debug);
void SoundFlush();
void BufferFull(short * Samples, int nSamples);
void PollReceivedSamples();
void chk_dcd1(int snd_ch, int buf_size);
void make_core_BPF(UCHAR snd_ch, short freq, short width);
void modulator(UCHAR snd_ch, int buf_size);
void sendAckModeAcks(int snd_ch);
void PktARDOPEncode(UCHAR * Data, int Len, int Chan);
void RUHEncode(unsigned char * Data, int Len, int chan);
void sendRSID(int Chan, int dropTX);
void SetupGPIOPTT();
int stricmp(const unsigned char * pStr1, const unsigned char *pStr2);
int gpioInitialise(void);
int OpenCOMPort(char * pPort, int speed, BOOL SetDTR, BOOL SetRTS, BOOL Quiet, int Stopbits);
void HAMLIBSetPTT(int PTTState);
void FLRigSetPTT(int PTTState);
void StartWatchdog();
void StopWatchdog();
void gpioWrite(unsigned gpio, unsigned level);
BOOL WriteCOMBlock(int fd, char * Block, int BytesToWrite);
void COMSetDTR(int fd);
void COMSetRTS(int fd);
void analiz_frame(int snd_ch, string * frame, char * code, boolean fecflag);
size_t write(int fd, void * buf, size_t count);
int close(int fd);
void SendMgmtPTT(int snd_ch, int PTTState);
BOOL KISSServ;
int KISSPort;
@ -170,7 +206,6 @@ void SampleSink(int LR, short Sample)
{
DMABuffer[2 * Number] = Sample;
DMABuffer[1 + 2 * Number] = Sample;
}
else
{
@ -189,7 +224,7 @@ void SampleSink(int LR, short Sample)
{
// Need to upsample to 48K. Try just duplicating sample
uint32_t * ptr = &DMABuffer[2 * Number];
uint16_t * ptr = &DMABuffer[2 * Number];
*(&ptr[1]) = *(ptr);
*(&ptr[2]) = *(ptr);
@ -353,7 +388,7 @@ extern UCHAR * pixelPointer;
#endif
extern int blnBusyStatus;
BusyDet = 5;
int BusyDet = 5;
#define PLOTWATERFALL
@ -368,13 +403,13 @@ extern int intLastStop;
void SMSortSignals2(float * dblMag, int intStartBin, int intStopBin, int intNumBins, float * dblAVGSignalPerBin, float * dblAVGBaselinePerBin);
BOOL SMBusyDetect3(float * dblMag, int intStart, int intStop) // this only called while searching for leader ...once leader detected, no longer called.
BOOL SMBusyDetect3(int Chan, float * dblMag, int intStart, int intStop) // this only called while searching for leader ...once leader detected, no longer called.
{
// First sort signals and look at highes signals:baseline ratio..
float dblAVGSignalPerBinNarrow, dblAVGSignalPerBinWide, dblAVGBaselineNarrow, dblAVGBaselineWide;
float dblSlowAlpha = 0.2f;
float dblAvgStoNNarrow = 0, dblAvgStoNWide = 0;
static float dblAvgStoNNarrow[4] = { 0 }, dblAvgStoNWide[4] = {0};
int intNarrow = 8; // 8 x 11.72 Hz about 94 z
int intWide = ((intStop - intStart) * 2) / 3; //* 0.66);
int blnBusy = FALSE;
@ -385,15 +420,16 @@ BOOL SMBusyDetect3(float * dblMag, int intStart, int intStop) // this onl
SMSortSignals2(dblMag, intStart, intStop, intNarrow, &dblAVGSignalPerBinNarrow, &dblAVGBaselineNarrow);
// Shouldn't dblAvgStoNNarrow, dblAvgStoNWide be static ??????
if (intLastStart == intStart && intLastStop == intStop)
dblAvgStoNNarrow = (1 - dblSlowAlpha) * dblAvgStoNNarrow + dblSlowAlpha * dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
dblAvgStoNNarrow[Chan] = (1 - dblSlowAlpha) * dblAvgStoNNarrow[Chan] + dblSlowAlpha * dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
else
{
// This initializes the Narrow average after a bandwidth change
dblAvgStoNNarrow = dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
intLastStart = intStart;
intLastStop = intStop;
dblAvgStoNNarrow[Chan] = dblAVGSignalPerBinNarrow / dblAVGBaselineNarrow;
}
// Wide band (66% of current bandwidth)
@ -401,12 +437,12 @@ BOOL SMBusyDetect3(float * dblMag, int intStart, int intStop) // this onl
SMSortSignals2(dblMag, intStart, intStop, intWide, &dblAVGSignalPerBinWide, &dblAVGBaselineWide);
if (intLastStart == intStart && intLastStop == intStop)
dblAvgStoNWide = (1 - dblSlowAlpha) * dblAvgStoNWide + dblSlowAlpha * dblAVGSignalPerBinWide / dblAVGBaselineWide;
dblAvgStoNWide[Chan] = (1 - dblSlowAlpha) * dblAvgStoNWide[Chan] + dblSlowAlpha * dblAVGSignalPerBinWide / dblAVGBaselineWide;
else
{
// This initializes the Wide average after a bandwidth change
dblAvgStoNWide = dblAVGSignalPerBinWide / dblAVGBaselineWide;
dblAvgStoNWide[Chan] = dblAVGSignalPerBinWide / dblAVGBaselineWide;
intLastStart = intStart;
intLastStop = intStop;
}
@ -414,7 +450,7 @@ BOOL SMBusyDetect3(float * dblMag, int intStart, int intStop) // this onl
// Preliminary calibration...future a function of bandwidth and BusyDet.
blnBusy = (dblAvgStoNNarrow > (3 + 0.008 * BusyDet4th)) || (dblAvgStoNWide > (5 + 0.02 * BusyDet4th));
blnBusy = (dblAvgStoNNarrow[Chan] > (3 + 0.008 * BusyDet4th)) || (dblAvgStoNWide[Chan] > (5 + 0.02 * BusyDet4th));
// if (BusyDet == 0)
// blnBusy = FALSE; // 0 Disables check ?? Is this the best place to do this?
@ -453,7 +489,7 @@ void SMSortSignals2(float * dblMag, int intStartBin, int intStopBin, int intNumB
*dblAVGBaselinePerBin = dblSum2 / (intStopBin - intStartBin - intNumBins - 1);
}
extern void updateDCD(int Chan, BOOL State);
void SMUpdateBusyDetector(int LR, float * Real, float *Imag)
{
@ -466,10 +502,8 @@ void SMUpdateBusyDetector(int LR, float * Real, float *Imag)
static BOOL blnLastBusyStatus[4];
float dblMagAvg = 0;
int intTuneLineLow, intTuneLineHi, intDelta;
int i, chan;
return;
if (Now - LastBusyCheck < 100) // ??
return;
@ -488,6 +522,15 @@ void SMUpdateBusyDetector(int LR, float * Real, float *Imag)
Low = tx_freq[chan] - txbpf[chan] / 2;
High = tx_freq[chan] + txbpf[chan] / 2;
if (Low < 100)
continue;
if (High > 3300)
continue;
// Low = tx_freq[chan] - 0.5*rx_shift[chan];
// High = tx_freq[chan] + 0.5*rx_shift[chan];
// BinSize is width of each fft bin in Hz
Start = (Low / BinSize); // First and last bins to process
@ -500,20 +543,18 @@ void SMUpdateBusyDetector(int LR, float * Real, float *Imag)
dblMagAvg += dblMag[i];
}
blnBusyStatus = SMBusyDetect3(dblMag, Start, End);
blnBusyStatus = SMBusyDetect3(chan, dblMag, Start, End);
if (blnBusyStatus && !blnLastBusyStatus[chan])
{
Debugprintf("Ch %d Busy True", chan);
// Debugprintf("Ch %d Busy True", chan);
updateDCD(chan, TRUE);
}
else if (blnLastBusyStatus[chan] && !blnBusyStatus)
{
Debugprintf("Ch %d Busy False", chan);
// Debugprintf("Ch %d Busy False", chan);
updateDCD(chan, FALSE);
}
// stcStatus.Text = "FALSE"
// queTNCStatus.Enqueue(stcStatus)
// 'Debug.WriteLine("BUSY FALSE @ " & Format(DateTime.UtcNow, "HH:mm:ss"))
blnLastBusyStatus[chan] = blnBusyStatus;
}
}
@ -537,15 +578,21 @@ void doCalib(int Chan, int Act)
if (Chan == 1 && calib_mode[0])
return;
calib_mode[Chan] = Act;
if (Act == 0)
{
calib_mode[Chan] = 0;
tx_status[Chan] = TX_SILENCE; // Stop TX
Flush();
RadioPTT(Chan, 0);
Debugprintf("Stop Calib");
}
else
{
if (calib_mode[Chan] == 0)
SampleNo = 0;
calib_mode[Chan] = Act;
}
}
int Freq_Change(int Chan, int Freq)
@ -681,7 +728,7 @@ void DoTX(int Chan)
if (tx_status[Chan] == TX_NO_DATA)
{
Flush();
Debugprintf("TX Complete");
Debugprintf("TX Complete %d", SampleNo);
RadioPTT(Chan, 0);
Continuation[Chan] = 0;
@ -762,7 +809,7 @@ void DoTX(int Chan)
return;
}
Debugprintf("TX Complete");
Debugprintf("TX Complete %d", SampleNo);
RadioPTT(Chan, 0);
Continuation[Chan] = 0;
@ -954,7 +1001,10 @@ BOOL useGPIO = FALSE;
BOOL gotGPIO = FALSE;
int HamLibPort = 4532;
char HamLibHost[32] = "192.168.1.14";
char HamLibHost[32] = "127.0.0.1";
int FLRigPort = 12345;
char FLRigHost[32] = "127.0.0.1";
char CM108Addr[80] = "";
@ -1128,6 +1178,12 @@ void OpenPTTPort()
HAMLIBSetPTT(0); // to open port
return;
}
else if (stricmp(PTTPort, "FLRIG") == 0)
{
PTTMode |= PTTFLRIG;
FLRigSetPTT(0); // to open port
return;
}
else // Not GPIO
{
@ -1207,6 +1263,8 @@ void CM108_set_ptt(int PTTState)
float amplitudes[4] = { 32000, 32000, 32000, 32000 };
extern float amplitude;
void startpttOnTimer();
extern void UpdatePTTStats(int Chan, int State);
void RadioPTT(int snd_ch, BOOL PTTState)
{
@ -1216,13 +1274,24 @@ void RadioPTT(int snd_ch, BOOL PTTState)
{
txmax = txmin = 0;
amplitude = amplitudes[snd_ch];
StartWatchdog();
}
else
{
Debugprintf("Output peaks = %d, %d, amp %f", txmin, txmax, amplitude);
amplitudes[snd_ch] = amplitude;
StopWatchdog();
}
if ((PTTMode & PTTHOST))
{
// Send PTT ON/OFF to any mgmt connections
SendMgmtPTT(snd_ch, PTTState);
}
UpdatePTTStats(snd_ch, PTTState);
#ifdef __ARM_ARCH
if (useGPIO)
{
@ -1230,7 +1299,7 @@ void RadioPTT(int snd_ch, BOOL PTTState)
gpioWrite(pttGPIOPinR, (pttGPIOInvert ? (1 - PTTState) : (PTTState)));
else
gpioWrite(pttGPIOPin, (pttGPIOInvert ? (1 - PTTState) : (PTTState)));
startpttOnTimer();
return;
}
@ -1239,17 +1308,29 @@ void RadioPTT(int snd_ch, BOOL PTTState)
if ((PTTMode & PTTCM108))
{
CM108_set_ptt(PTTState);
startpttOnTimer();
return;
}
if ((PTTMode & PTTHAMLIB))
{
HAMLIBSetPTT(PTTState);
startpttOnTimer();
return;
}
if (hPTTDevice == 0)
return;
if ((PTTMode & PTTFLRIG))
{
FLRigSetPTT(PTTState);
startpttOnTimer();
return;
}
if (hPTTDevice == 0)
{
startpttOnTimer();
return;
}
if ((PTTMode & PTTCAT))
{
if (PTTState)
@ -1278,6 +1359,9 @@ void RadioPTT(int snd_ch, BOOL PTTState)
}
}
startpttOnTimer();
}
char ShortDT[] = "HH:MM:SS";

2
SoundInput.c
View File

@ -32,7 +32,7 @@ extern unsigned int PKTLEDTimer;
//#define min(x, y) ((x) < (y) ? (x) : (y))
void SendFrametoHost(unsigned char *data, unsigned dlen);
void ProcessPktFrame(int snd_ch, UCHAR * Data, int frameLen);
void CheckandAdjustRXLevel(int maxlevel, int minlevel, BOOL Force);
void mySetPixel(unsigned char x, unsigned char y, unsigned int Colour);
void clearDisplay();

87
UZ7HOStuff.h
View File

@ -4,8 +4,11 @@
// My port of UZ7HO's Soundmodem
//
#define VersionString "0.0.0.71"
#define VersionBytes {0, 0, 0, 71}
#define VersionString "0.0.0.74 Beta 2"
#define VersionBytes {0, 0, 0, 74}
//#define LOGTX
//#define LOGRX
// Added FX25. 4x100 FEC and V27 not Working and disabled
@ -106,13 +109,13 @@
// 0.48 Send FRMR for unrecognised frame types
// 0.49 Add Andy's FEC Tag correlation coode
// 0.49 Add Andy's FEC Tag correlation code
// 0.50 Fix Waterfall display when only using right channel
// Allow 1200 baud fsk at other center freqs
// Add Port numbers to Window title and Try Icon tooltip
// Fix calculation of filters for multiple decoders
// Add RX Offset setting (for satellite operation
// Add RX Offset setting (for satellite operation)
// 0.51 Fix Multithreading with more that 2 modems
@ -178,6 +181,31 @@
// Improve reliability of waterfall update
// Report and set fx.25 and il2p flags to/from BPQ
// .72 Fix IL2P for RUH modems // July 2024
// Fix crash when closing in non-gui mode
// Fix loop in chk_dcd1
// Change method of timing PTT
// Add FLRIG PTT Support
// Beta 13 revert to new ptt timing
// Beta 14 Add display of mix/snoop devices
// Change phase map of QPSK3600 mode to match Nino TNC
//.73 Fix QPSK3600 RX Filters
// Add Mgmt Interface (Beta 2)
// Use ARDOP Busy detector (Beta 3)
// Various fixes to AGW interface (Beta 4)
//.74 Fix filter bandwidths Nov 24
// Fixes for gcc 14 Beta 2
// As far as I can see txtail is only there to make sure all bits get through the tx filter,
// so it shouldn't really matter what is sent. Code worked in characters, so resolution of txtail
// is 24 mS at 300 baud. I don't see why I can't work in bits, or even samples. Any reason why I shouldn't send
// a single tone during tail? .
//
// I'm currently sending reversals with timing resolution of bits (~3 mS at 300 baud)
@ -295,6 +323,15 @@ typedef struct TKISSMode_t
} TKISSMode;
typedef struct MgmtMode_t
{
void * Socket; // Used as a key
char Msg[512]; // Received message
int Len;
int BPQPort[4]; // BPQ port for each modem
} TMgmtMode;
typedef struct TMChannel_t
{
@ -330,8 +367,6 @@ typedef struct TFX25_t
Byte size_cnt;
} TFX25;
typedef struct TDetector_t
{
struct TFX25_t fx25[4];
@ -441,7 +476,7 @@ typedef struct AGWUser_t
{
void *socket;
string * data_in;
TStringList AGW_frame_buf;
// TStringList AGW_frame_buf;
boolean Monitor;
boolean Monitor_raw;
boolean reportFreqAndModem; // Can report modem and frequency to host
@ -513,6 +548,8 @@ typedef struct TAX25Port_t
#define PTTCAT 4
#define PTTCM108 8
#define PTTHAMLIB 16
#define PTTFLRIG 32
#define PTTHOST 128 // May be combined with others
// Status flags
@ -632,11 +669,11 @@ extern int SendSize;
#define QPSK_SM 0
#define QPSK_V26 1
#define MODEM_8P4800_BPF 3200
#define MODEM_8P4800_TXBPF 3400
#define MODEM_8P4800_BPF 2800 // Baud 1600
#define MODEM_8P4800_TXBPF 2800
#define MODEM_8P4800_LPF 1000
#define MODEM_8P4800_BPF_TAP 64
#define MODEM_8P4800_LPF_TAP 8
#define MODEM_8P4800_BPF_TAP 256
#define MODEM_8P4800_LPF_TAP 128
//
#define MODEM_MP400_BPF 775
#define MODEM_MP400_TXBPF 850
@ -648,7 +685,7 @@ extern int SendSize;
#define MODEM_DW2400_TXBPF 2500
#define MODEM_DW2400_LPF 900
#define MODEM_DW2400_BPF_TAP 256 //256
#define MODEM_DW2400_LPF_TAP 32 //128
#define MODEM_DW2400_LPF_TAP 128 //128
//
#define MODEM_Q2400_BPF 2400
#define MODEM_Q2400_TXBPF 2500
@ -656,20 +693,20 @@ extern int SendSize;
#define MODEM_Q2400_BPF_TAP 256 //256
#define MODEM_Q2400_LPF_TAP 128 //128
//
#define MODEM_Q3600_BPF 3600
#define MODEM_Q3600_TXBPF 3750
#define MODEM_Q3600_BPF 2800 // 1800 baud
#define MODEM_Q3600_TXBPF 2800
#define MODEM_Q3600_LPF 1350
#define MODEM_Q3600_BPF_TAP 256
#define MODEM_Q3600_LPF_TAP 128
//
#define MODEM_Q4800_BPF 4800
#define MODEM_Q4800_TXBPF 5000
#define MODEM_Q4800_BPF 2800 // 2400 baud
#define MODEM_Q4800_TXBPF 2800
#define MODEM_Q4800_LPF 1800
#define MODEM_Q4800_BPF_TAP 256
#define MODEM_Q4800_LPF_TAP 128
//
#define MODEM_P2400_BPF 4800
#define MODEM_P2400_TXBPF 5000
#define MODEM_P2400_BPF 2800 // 2400 baud
#define MODEM_P2400_TXBPF 2800
#define MODEM_P2400_LPF 1800
#define MODEM_P2400_BPF_TAP 256
#define MODEM_P2400_LPF_TAP 128
@ -710,8 +747,8 @@ extern int SendSize;
#define MODEM_1200_BPF_TAP 256
#define MODEM_1200_LPF_TAP 128
//
#define MODEM_2400_BPF 3200
#define MODEM_2400_TXBPF 3200
#define MODEM_2400_BPF 2800 // 2400 baud
#define MODEM_2400_TXBPF 2800
#define MODEM_2400_LPF 1400
#define MODEM_2400_BPF_TAP 256
#define MODEM_2400_LPF_TAP 128
@ -949,6 +986,8 @@ extern int PID;
extern char CM108Addr[80];
extern int HamLibPort;
extern char HamLibHost[];
extern int FLRigPort;
extern char FLRigHost[];
extern int SCO;
extern int DualPTT;
@ -988,6 +1027,9 @@ extern int IPOLL[4];
extern int maxframe[4];
extern int TXFrmMode[4];
extern int bytes[4];
extern int bytes2mins[4];
extern char MyDigiCall[4][512];
extern char exclude_callsigns[4][512];
extern char exclude_APRS_frm[4][512];
@ -1062,6 +1104,7 @@ void AGW_Raw_monitor(int snd_ch, string * data);
// Delphi emulation functions
string * Strings(TStringList * Q, int Index);
void replaceString(TStringList * Q, int Index, string * item);
void Clear(TStringList * Q);
int Count(TStringList * List);
@ -1142,6 +1185,10 @@ struct il2p_context_s {
extern int NeedWaterfallHeaders;
#define stringAdd(s1, s2, c) mystringAdd(s1, s2, c, __FILE__, __LINE__)
string * mystringAdd(string * Msg, UCHAR * Chars, int Count, char * FILE, int LINE);
#ifdef __cplusplus
}
#endif

25
UZ7HOUtils.c
View File

@ -96,12 +96,24 @@ void freeString(string * Msg)
string * Strings(TStringList * Q, int Index)
{
// Gets string at index in stringlist
if (Index >= Q->Count)
return NULL;
return Q->Items[Index];
}
void replaceString(TStringList * Q, int Index, string * item)
{
// Gets string at index in stringlist
if (Index >= Q->Count)
return;
Q->Items[Index] = item;
}
int Add(TStringList * Q, string * Entry)
{
Q->Items = realloc(Q->Items,(Q->Count + 1) * sizeof(void *));
@ -166,16 +178,27 @@ void setlength(string * Msg, int Count)
Msg->Length = Count;
}
string * stringAdd(string * Msg, UCHAR * Chars, int Count)
string * mystringAdd(string * Msg, UCHAR * Chars, int Count, char * FILE, int LINE)
{
// Add Chars to string
if (Count < 0 || Count > 65536)
{
printf("stringAdd Strange Count %d called from %s %d\r\n", Count, FILE, LINE);
}
if (Msg->Length + Count > Msg->AllocatedLength)
{
Msg->AllocatedLength += Count + 256;
Msg->Data = realloc(Msg->Data, Msg->AllocatedLength);
}
if (Msg->Data == 0)
{
printf("realloc failed\r\n");
exit(1);
}
memcpy(&Msg->Data[Msg->Length], Chars, Count);
Msg->Length += Count;

117
Waveout.c
View File

@ -44,6 +44,11 @@ void printtick(char * msg);
void PollReceivedSamples();
short * SoundInit();
void StdinPollReceivedSamples();
extern void WriteDebugLog(char * Mess);
extern void UDPPollReceivedSamples();
extern void QSleep(int ms);
extern void ProcessNewSamples(short * Samples, int nSamples);
extern void sendSamplestoStdout(short * Samples, int nSamples);
#include <math.h>
@ -57,7 +62,7 @@ void GetSoundDevices();
#define MaxReceiveSize 2048 // Enough for 9600
#define MaxSendSize 4096
short buffer[2][MaxSendSize * 2]; // Two Transfer/DMA buffers of 0.1 Sec (x2 for Stereo)
short buffer[4][MaxSendSize * 2]; // Two Transfer/DMA buffers of 0.1 Sec (x2 for Stereo)
short inbuffer[5][MaxReceiveSize * 2]; // Input Transfer/ buffers of 0.1 Sec (x2 for Stereo)
extern short * DMABuffer;
@ -95,15 +100,19 @@ int PlaybackCount = 0;
char CaptureNames[16][256]= {""};
char PlaybackNames[16][256]= {""};
int txLatency;
WAVEFORMATEX wfx = { WAVE_FORMAT_PCM, 2, 12000, 48000, 4, 16, 0 };
HWAVEOUT hWaveOut = 0;
HWAVEIN hWaveIn = 0;
WAVEHDR header[2] =
WAVEHDR header[4] =
{
{(char *)buffer[0], 0, 0, 0, 0, 0, 0, 0},
{(char *)buffer[1], 0, 0, 0, 0, 0, 0, 0}
{(char *)buffer[1], 0, 0, 0, 0, 0, 0, 0},
{(char *)buffer[2], 0, 0, 0, 0, 0, 0, 0},
{(char *)buffer[3], 0, 0, 0, 0, 0, 0, 0}
};
WAVEHDR inheader[5] =
@ -153,12 +162,6 @@ VOID __cdecl Debugprintf(const char * format, ...)
void platformInit()
{
TIMECAPS tc;
unsigned int wTimerRes;
DWORD t, lastt = 0;
int i = 0;
_strupr(CaptureDevice);
_strupr(PlaybackDevice);
@ -190,6 +193,9 @@ void txSleep(int mS)
{
// called while waiting for next TX buffer. Run background processes
if (mS < 0)
return;
while (mS > 50)
{
if (SoundMode == 3)
@ -219,20 +225,20 @@ FILE * wavfp1;
BOOL DMARunning = FALSE; // Used to start DMA on first write
BOOL SeeIfCardBusy()
{
if ((header[!Index].dwFlags & WHDR_DONE))
return 0;
return 1;
}
extern void sendSamplestoUDP(short * Samples, int nSamples, int Port);
extern int UDPClientPort;
short * SendtoCard(unsigned short * buf, int n)
{
int NextBuffer = Index;
char Msg[80];
NextBuffer++;
if (NextBuffer > 3)
NextBuffer = 0;
if (SoundMode == 3) // UDP
{
sendSamplestoUDP(buf, n, UDPClientPort);
@ -251,15 +257,17 @@ short * SendtoCard(unsigned short * buf, int n)
waveOutPrepareHeader(hWaveOut, &header[Index], sizeof(WAVEHDR));
waveOutWrite(hWaveOut, &header[Index], sizeof(WAVEHDR));
// wait till previous buffer is complete
// wait till next buffer is free
while (!(header[!Index].dwFlags & WHDR_DONE))
while (!(header[NextBuffer].dwFlags & WHDR_DONE))
{
txSleep(5); // Run buckground while waiting
}
waveOutUnprepareHeader(hWaveOut, &header[!Index], sizeof(WAVEHDR));
Index = !Index;
waveOutUnprepareHeader(hWaveOut, &header[NextBuffer], sizeof(WAVEHDR));
Index = NextBuffer;
sprintf(Msg, "TX Buffer %d", NextBuffer);
return &buffer[Index][0];
}
@ -356,10 +364,11 @@ void GetSoundDevices()
HANDLE hStdin;
int onlyMixSnoop = 0;
int InitSound(BOOL Report)
{
int i, t, ret;
int i, ret;
if (SoundMode == 4)
{
@ -394,6 +403,8 @@ int InitSound(BOOL Report)
header[0].dwFlags = WHDR_DONE;
header[1].dwFlags = WHDR_DONE;
header[2].dwFlags = WHDR_DONE;
header[3].dwFlags = WHDR_DONE;
if (strlen(PlaybackDevice) <= 2)
PlayBackIndex = atoi(PlaybackDevice);
@ -509,9 +520,10 @@ for (i = 0; i < 100; i++)
return TRUE;
}
static int min = 0, max = 0, lastlevelGUI = 0, lastlevelreport = 0;
static int minL = 0, maxL = 0, minR = 0; maxR = 0, lastlevelGUI = 0, lastlevelreport = 0;
UCHAR CurrentLevel = 0; // Peak from current samples
UCHAR CurrentLevelR = 0; // Peak from current samples
void PollReceivedSamples()
{
@ -521,7 +533,7 @@ void PollReceivedSamples()
// For level display we want a fairly rapid level average but only want to report
// to log every 10 secs or so
// with Windows we get mono data
// We get stereo data
if (stdinMode)
{
@ -534,16 +546,26 @@ void PollReceivedSamples()
short * ptr = &inbuffer[inIndex][0];
int i;
// Find min and max left abd right samples
for (i = 0; i < ReceiveSize; i++)
{
if (*(ptr) < min)
min = *ptr;
else if (*(ptr) > max)
max = *ptr;
if (*(ptr) < minL)
minL = *ptr;
else if (*(ptr) > maxL)
maxL = *ptr;
ptr++;
if (*(ptr) < minR)
minR = *ptr;
else if (*(ptr) > maxR)
maxR = *ptr;
ptr++;
}
CurrentLevel = ((max - min) * 75) /32768; // Scale to 150 max
CurrentLevel = ((maxL - minL) * 75) / 32768; // Scale to 150 max
CurrentLevelR = ((maxR - minR) * 75) / 32768; // Scale to 150 max
if ((Now - lastlevelGUI) > 2000) // 2 Secs
{
@ -552,16 +574,18 @@ void PollReceivedSamples()
lastlevelGUI = Now;
if ((Now - lastlevelreport) > 10000) // 10 Secs
if ((Now - lastlevelreport) > 60000) // 60 Secs
{
char HostCmd[64];
lastlevelreport = Now;
sprintf(HostCmd, "INPUTPEAKS %d %d", min, max);
Debugprintf("Input peaks = %d, %d", min, max);
sprintf(HostCmd, "INPUTPEAKS %d %d", minL, maxL);
if (UsingBothChannels)
Debugprintf("Input peaks L= %d, %d, R= %d, %d", minL, maxL, minR, maxR);
else
Debugprintf("Input peaks = %d, %d", minL, maxL);
}
min = max = 0;
minL = maxL = minR = maxR = 0;
}
// debugprintf(LOGDEBUG, "Process %d %d", inIndex, inheader[inIndex].dwBytesRecorded/2);
@ -690,6 +714,8 @@ extern int Number; // Number of samples waiting to be sent
// Subroutine to add trailer before filtering
extern int SampleNo;
void SoundFlush()
{
// Append Trailer then wait for TX to complete
@ -702,11 +728,15 @@ void SoundFlush()
SendtoCard(buffer[Index], Number);
// Wait for all sound output to complete
while (!(header[0].dwFlags & WHDR_DONE))
txSleep(10);
while (!(header[1].dwFlags & WHDR_DONE))
txSleep(10);
while (!(header[2].dwFlags & WHDR_DONE))
txSleep(10);
while (!(header[3].dwFlags & WHDR_DONE))
txSleep(10);
// I think we should turn round the link here. I dont see the point in
// waiting for MainPoll
@ -901,6 +931,7 @@ BOOL WriteCOMBlock(HANDLE fd, char * Block, int BytesToWrite)
if ((!fWriteStat) || (BytesToWrite != BytesWritten))
{
int Err = GetLastError();
Debugprintf("Serial Write Error %d", Err);
ClearCommError(fd, &ErrorFlags, &ComStat);
return FALSE;
}
@ -977,14 +1008,14 @@ void StdinPollReceivedSamples()
for (i = 0; i < ReceiveSize; i++)
{
if (*(ptr) < min)
min = *ptr;
else if (*(ptr) > max)
max = *ptr;
if (*(ptr) < minL)
minL = *ptr;
else if (*(ptr) > maxL)
maxL = *ptr;
ptr++;
}
CurrentLevel = ((max - min) * 75) / 32768; // Scale to 150 max
CurrentLevel = ((maxL - minL) * 75) / 32768; // Scale to 150 max
if ((Now - lastlevelGUI) > 2000) // 2 Secs
{
@ -996,11 +1027,11 @@ void StdinPollReceivedSamples()
char HostCmd[64];
lastlevelreport = Now;
sprintf(HostCmd, "INPUTPEAKS %d %d", min, max);
Debugprintf("Input peaks = %d, %d", min, max);
sprintf(HostCmd, "INPUTPEAKS %d %d", minL, maxL);
Debugprintf("Input peaks = %d, %d", minL, maxL);
}
min = max = 0;
minL = maxL = 0;
}
// debugprintf(LOGDEBUG, "Process %d %d", inIndex, inheader[inIndex].dwBytesRecorded/2);

1
audio.c
View File

@ -40,6 +40,7 @@
#endif
void Debugprintf(const char * format, ...);
void Sleep(int mS);
extern int Closing;

20
ax25.c
View File

@ -29,10 +29,20 @@ __declspec(dllimport) unsigned short __stdcall ntohs(__in unsigned short hostsho
#else
#include <stdint.h>
uint32_t htonl(uint32_t hostlong);
uint16_t htons(uint16_t hostshort);
uint32_t ntohl(uint32_t netlong);
uint16_t ntohs(uint16_t netshort);
#define strtok_s strtok_r
#include <stddef.h>
#endif
void set_DM(int snd_ch, Byte * path);
void rst_values(TAX25Port * AX25Sess);
void decode_frame(Byte * frame, int len, Byte * path, string * data,
Byte * pid, Byte * nr, Byte * ns, Byte * f_type, Byte * f_id,
Byte * rpt, Byte * pf, Byte * cr);
@ -244,6 +254,9 @@ int maxframe[4] = { 0,0,0,0 };
int TXFrmMode[4] = { 0,0,0,0 };
int max_frame_collector[4] = { 0,0,0,0 };
int bytes[4] = { 0,0,0,0 };
int bytes2mins[4] = { 0,0,0,0 };
char MyDigiCall[4][512] = { "","","","" };
char exclude_callsigns[4][512] = { "","","","" };
char exclude_APRS_frm[4][512] = { "","","","" };
@ -869,6 +882,9 @@ int get_addr(char * Calls, UCHAR * AXCalls)
ptr = strtok_s(NULL, " ,", &Context);
if (ptr == NULL)
return FALSE;
if (ConvToAX25(ptr, axptr) == 0)
return FALSE;
@ -1726,7 +1742,7 @@ int is_excluded_frm(int snd_ch, int f_id, string * data)
int number_digi(string path)
int number_digi(char * path)
{
int n = 0;
@ -1742,7 +1758,7 @@ int number_digi(string path)
get_monitor_path(Byte * path, char * mycall, char * corrcall, char * digi)
void get_monitor_path(Byte * path, char * mycall, char * corrcall, char * digi)
{
Byte * digiptr = digi;

72
ax25_agw.c
View File

@ -177,7 +177,7 @@ void AGW_del_socket(void * socket)
if (AGW == NULL)
return;
Clear(&AGW->AGW_frame_buf);
// Clear(&AGW->AGW_frame_buf);
freeString(AGW->data_in);
AGW->Monitor = 0;
AGW->Monitor_raw = 0;
@ -189,10 +189,8 @@ void AGW_del_socket(void * socket)
void AGW_add_socket(void * socket)
{
AGWUser * User = (struct AGWUser_t *)malloc(sizeof(struct AGWUser_t)); // One Client
memset(User, 0, sizeof(struct AGWUser_t));
AGWUsers = realloc(AGWUsers, (AGWConCount + 1) * sizeof(void *));
AGWUsers = realloc(AGWUsers, (AGWConCount + 1) * sizeof(void *));
AGWUsers[AGWConCount++] = User;
User->data_in = newString();
@ -259,7 +257,7 @@ string * AGW_R_Frame()
string * AGW_X_Frame(char * CallFrom, UCHAR reg_call)
{
string * Msg = AGW_frame_header(0, 'x', 0, CallFrom, "", 1);
string * Msg = AGW_frame_header(0, 'X', 0, CallFrom, "", 1);
stringAdd(Msg, (UCHAR *)&reg_call, 1);
@ -276,13 +274,16 @@ string * AGW_G_Frame()
for (int i = 0; i < 4; i++)
{
Ports[0]++;
if (soundChannel[i])
{
Ports[0]++;
sprintf(portMsg, "Port%c with SoundCard Ch %c;", Ports[0], 'A' + i);
else
sprintf(portMsg, "Port%c Disabled;", Ports[0]);
strcat(Ports, portMsg);
}
// else
// sprintf(portMsg, "Port%c Disabled;", Ports[0]);
strcat(Ports, portMsg);
;
}
@ -294,7 +295,6 @@ string * AGW_G_Frame()
};
string * AGW_Gs_Frame(int port, Byte * port_info, int Len)
{
string * Msg;
@ -511,12 +511,50 @@ void on_AGW_R_frame(AGWUser * AGW)
int refreshModems = 0;
/*
+ 00 On air baud rate(0 = 1200 / 1 = 2400 / 2 = 4800 / 3 = 9600)
+ 01 Traffic level(if 0xFF the port is not in autoupdate mode)
+ 02 TX Delay
+ 03 TX Tail
+ 04 Persist
+ 05 SlotTime
+ 06 MaxFrame
+ 07 How Many connections are active on this port
+ 08 LSB Low Word
+ 09 MSB Low Word
+ 10 LSB High Word
+ 11 MSB High Word HowManyBytes(received in the last 2 minutes) as a 32 bits(4 bytes) integer.Updated every two minutes.
*/
void on_AGW_Gs_frame(AGWUser * AGW, struct AGWHeader * Frame, Byte * Data)
{
// QTSM with a data field is used by QtSM to set/read Modem Params
Byte info[48] = { 0, 255, 24, 3, 100, 15, 6, 0, 1, 0, 0, 0 }; //QTSM Signature
int Len = 12;
int Port = Frame->Port;
// KD6YAM wants the info to be correct. BPQ used 24, 3, 100 as a signature but could use the Version.
// For now I'll fill in the rest
info[2] = txdelay[Port] / 10;
info[3] = txtail[Port] / 10;
info[4] = persist[Port];
info[5] = slottime[Port];
info[6] = maxframe[Port];
info[7] = 0;
int i = 0;
while (i < port_num)
{
if (AX25Port[Port][i].status != STAT_NO_LINK)
info[7]++;
i++;
}
memcpy(&info[8], &bytes2mins[Port], 4);
if (Frame->DataLength == 32)
{
@ -1360,7 +1398,6 @@ void AGW_Report_Modem_Change(int port)
int i;
AGWUser * AGW;
string * pkt;
if (soundChannel[port] == 0) // Not in use
return;
@ -1537,3 +1574,16 @@ void AGW_frame_analiz(AGWUser * AGW)
Debugprintf("AGW %c", Frame->DataKind);
}
}
void doAGW2MinTimer()
{
for (int n = 0; n < 4; n++)
{
if (soundChannel[n] == 0) // Channel not used
continue;
bytes2mins[n] = bytes[n];
bytes[n] = 0;
}
}

31
ax25_demod.c
View File

@ -27,6 +27,14 @@ extern word MEMRecovery[5];
void make_rx_frame_FX25(int snd_ch, int rcvr_nr, int emph, string * data);
string * memory_ARQ(TStringList * buf, string * data);
void CreateStringList(TStringList * List);
void analiz_frame(int snd_ch, string * frame, char * code, boolean fecflag);
void KISS_on_data_out(int port, string * frame, int TX);
void updateDCD(int Chan, boolean State);
void Frame_Optimize(TAX25Port * AX25Sess, TStringList * buf);
void RX2TX(int snd_ch);
int fx25_decode_rs(Byte * data, int * eras_pos, int no_eras, int pad, int rs_size);
void il2p_rec_bit(int chan, int subchan, int slice, int dbit);
float GuessCentreFreq(int i);
void ProcessRXFrames(int snd_ch);
@ -335,7 +343,7 @@ void chk_dcd1(int snd_ch, int buf_size)
// ? does this work as Andy passes aborted frames to decoder
Byte port;
word i;
int i;
single tick;
word active;
boolean ind_dcd;
@ -374,6 +382,7 @@ void chk_dcd1(int snd_ch, int buf_size)
if (lastDCDState[snd_ch] != dcd_bit_sync[snd_ch])
{
updateDCD(snd_ch, dcd_bit_sync[snd_ch]);
updateDCD(snd_ch, dcd_bit_sync[snd_ch]);
lastDCDState[snd_ch] = dcd_bit_sync[snd_ch];
}
@ -423,9 +432,9 @@ void chk_dcd1(int snd_ch, int buf_size)
if (TX_rotate)
{
for (int i = 0; i < 4; i++)
for (int n = 0; n < 4; n++)
{
if (snd_status[i] == SND_TX)
if (snd_status[n] == SND_TX)
dcd[snd_ch] = TRUE;
}
}
@ -435,7 +444,7 @@ void chk_dcd1(int snd_ch, int buf_size)
if (!dcd[snd_ch] && resptime_tick[snd_ch] >= resptime[snd_ch])
{
i = 0;
int n = 0;
port = new_tx_port[snd_ch];
do
@ -463,9 +472,9 @@ void chk_dcd1(int snd_ch, int buf_size)
if (all_frame_buf[snd_ch].Count > 0)
new_tx_port[snd_ch] = port;
i++;
n++;
} while (all_frame_buf[snd_ch].Count == 0 && i < port_num);
} while (all_frame_buf[snd_ch].Count == 0 && n < port_num);
// Add KISS frames
@ -475,7 +484,7 @@ void chk_dcd1(int snd_ch, int buf_size)
if (all_frame_buf[snd_ch].Count > 0)
{
for (n = 0; n < all_frame_buf[snd_ch].Count; n++)
for (int n = 0; n < all_frame_buf[snd_ch].Count; n++)
{
KISS_on_data_out(snd_ch, Strings(&all_frame_buf[snd_ch], n), 1); // Mon TX
}
@ -485,14 +494,14 @@ void chk_dcd1(int snd_ch, int buf_size)
if (KISS.buffer[snd_ch].Count > 0)
{
for (n = 0; n < KISS.buffer[snd_ch].Count; n++)
for (int k = 0; k < KISS.buffer[snd_ch].Count; k++)
{
if (AGWServ)
AGW_Raw_monitor(snd_ch, Strings(&KISS.buffer[snd_ch], n));
AGW_Raw_monitor(snd_ch, Strings(&KISS.buffer[snd_ch], k));
// Need to add copy as clear will free original
Add(&all_frame_buf[snd_ch], duplicateString(Strings(&KISS.buffer[snd_ch], n)));
Add(&all_frame_buf[snd_ch], duplicateString(Strings(&KISS.buffer[snd_ch], k)));
}
Clear(&KISS.buffer[snd_ch]);
}
@ -4258,7 +4267,7 @@ void ProcessRXFrames(int snd_ch)
// Work out which decoder and which emph settings worked.
if (snd_ch < 0 || snd_ch >3)
if (snd_ch < 0 || snd_ch > 3)
return;
if (detect_list[snd_ch].Count > 0) // no point if nothing decoded

58
ax25_l2.c
View File

@ -28,6 +28,16 @@ extern int RSID_SetModem[4];
extern int needRSID[4];
extern int needRSID[4];
BOOL useKISSControls = 0;
#define FEND 0xc0
#define FESC 0xDB
#define TFEND 0xDC
#define TFESC 0xDD
#define KISS_ACKMODE 0x0C
#define KISS_DATA 0
#define QTSMKISSCMD 7
/*
@ -60,6 +70,23 @@ string * make_frame(string * data, Byte * path, Byte pid, Byte nr, Byte ns, Byt
void rst_t3(TAX25Port * AX25Sess);
TAX25Port * get_user_port(int snd_ch, Byte * path);
void analiz_frame(int snd_ch, string * frame, char * code, boolean fecflag);
boolean is_last_digi(Byte *path);
int is_excluded_call(int snd_ch, unsigned char * path);
boolean is_correct_path(Byte * path, Byte pid);
void KISS_on_data_out(int port, string * frame, int TX);
void ax25_info_init(TAX25Port * AX25Sess);
void clr_frm_win(TAX25Port * AX25Sess);
void decode_frame(Byte * frame, int len, Byte * path, string * data,
Byte * pid, Byte * nr, Byte * ns, Byte * f_type, Byte * f_id,
Byte * rpt, Byte * pf, Byte * cr);
void ax25_info_init(TAX25Port * AX25Sess);
void AGW_AX25_disc(TAX25Port * AX25Sess, Byte mode);
void AGW_AX25_conn(TAX25Port * AX25Sess, int snd_ch, Byte mode);
int number_digi(char * path);
void AGW_AX25_data_in(void * socket, int snd_ch, int PID, Byte * path, string * data);
void inc_frack(TAX25Port * AX25Sess)
{
@ -347,7 +374,7 @@ void delete_I_FRM(TAX25Port * AX25Sess, int nr)
void delete_I_FRM_port(TAX25Port * AX25Sess)
{
string * frame;
string path = { 0 };
char path[] = "";
string data= { 0 };
Byte pid, nr, ns, f_type, f_id, rpt, cr, pf;
@ -359,7 +386,7 @@ void delete_I_FRM_port(TAX25Port * AX25Sess)
optimize = TRUE;
frame = Strings(&AX25Sess->frame_buf, i);
decode_frame(frame->Data, frame->Length, &path, &data, &pid, &nr, &ns, &f_type, &f_id, &rpt, &pf, &cr);
decode_frame(frame->Data, frame->Length, &path[0], &data, &pid, &nr, &ns, &f_type, &f_id, &rpt, &pf, &cr);
if (f_id == I_I)
{
@ -1100,7 +1127,8 @@ void on_FRMR(void * socket, TAX25Port * AX25Sess, Byte * path)
{
AX25Sess->info.stat_end_ses = time(NULL);
AGW_AX25_disc(socket, AX25Sess->snd_ch, MODE_OTHER, path);
AGW_AX25_disc(AX25Sess, MODE_OTHER);
write_ax25_info(AX25Sess);
}
@ -1408,14 +1436,18 @@ void analiz_frame(int snd_ch, string * frame, char * code, boolean fecflag)
if (len < PKT_ERR)
return;
bytes[snd_ch] += frame->Length; // For AGW stats
if (AGWServ)
AGW_AX25_frame_analiz(snd_ch, TRUE, frame);
decode_frame(frame->Data, frame->Length, path, data, &pid, &nr, &ns, &f_type, &f_id, &rpt, &pf, &cr);
if (is_excluded_call(snd_ch, path))
excluded =TRUE;
excluded = TRUE;
// if is_excluded_frm(snd_ch,f_id,data) then excluded:=TRUE;
if (excluded)
return;
@ -1448,7 +1480,20 @@ void analiz_frame(int snd_ch, string * frame, char * code, boolean fecflag)
AGW_Raw_monitor(snd_ch, frame);
if (KISSServ)
{
if (useKISSControls)
{
// Send a KISS Control frame with frame stats before data frame
int len = strlen(code);
UCHAR * Control = (UCHAR *)malloc(64);
len = sprintf(Control, "%c%cPKTINFO [%s]%c", FEND, (snd_ch) << 4 | QTSMKISSCMD, code, FEND);
KISSSendtoServer(NULL, Control, len);
}
KISS_on_data_out(snd_ch, frame, 0);
}
}
// Digipeat frame
@ -1618,9 +1663,6 @@ void analiz_frame(int snd_ch, string * frame, char * code, boolean fecflag)
on_FRMR(socket, AX25Sess, path);
break;
}
if (AGWServ)
AGW_AX25_frame_analiz(snd_ch, TRUE, frame);
}

37
ax25_mod.c
View File

@ -25,6 +25,17 @@ along with QtSoundModem. If not, see http://www.gnu.org/licenses
// I assume this modulates (and sends?} frames
void InitBuffers();
void EncodeRS(Byte * xData, Byte * xEncoded);
void scrambler(UCHAR * in_buf, int Len);
void fx25_encode_rs(Byte * data, Byte *parity, int pad, int rs_size);
int fx25_decode_rs(Byte * data, int * eras_pos, int no_eras, int pad, int rs_size);
int il2p_get_new_bit_tail(UCHAR snd_ch, UCHAR bit);
int il2p_get_new_bit(int snd_ch, Byte bit);
int ARDOPSendToCard(int Chan, int Len);
void Flush();
void SampleSink(int LR, short Sample);
int RSEncode(UCHAR * bytToRS, UCHAR * RSBytes, int DataLen, int RSLen);
//unit ax25_mod;
@ -866,7 +877,6 @@ int get_new_bit_tail(UCHAR snd_ch, UCHAR bit)
}
else
{
Debugprintf("End TXTAIL %d", SampleNo);
tx_status[snd_ch] = TX_WAIT_BPF;
}
@ -881,7 +891,6 @@ int get_new_bit_tail(UCHAR snd_ch, UCHAR bit)
}
else
{
Debugprintf("End TXTAIL %d", SampleNo);
tx_status[snd_ch] = TX_WAIT_BPF;
}
break;
@ -1199,7 +1208,7 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
tx_status[snd_ch] = TX_FRAME;
if (tx_status[snd_ch] == TX_TAIL)
bit = get_new_bit_tail(snd_ch, bit);
bit = il2p_get_new_bit_tail(snd_ch, bit);
if (tx_status[snd_ch] == TX_FRAME)
bit = il2p_get_new_bit(snd_ch, bit);
@ -1230,6 +1239,7 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
*bitptr = tx_nrzi(snd_ch, bit);
}
}
// BPSK Mode
@ -1240,13 +1250,10 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
if (tx_status[snd_ch] == TX_SILENCE)
{
tx_delay_cnt[snd_ch] = 0;
Debugprintf("Start TXD");
tx_status[snd_ch] = TX_DELAY;
}
// il2p generates TXDELAY as part of the frame, so go straight too TX_FRAME
// il2p generates TXDELAY as part of the frame, so go straight to TX_FRAME
if (tx_status[snd_ch] == TX_DELAY)
if (il2p_mode[snd_ch] >= IL2P_MODE_TXRX)
@ -1255,7 +1262,12 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
bit = get_new_bit_delay(snd_ch, bit);
if (tx_status[snd_ch] == TX_TAIL)
bit = get_new_bit_tail(snd_ch, bit);
{
if (il2p_mode[snd_ch] >= IL2P_MODE_TXRX)
bit = il2p_get_new_bit_tail(snd_ch, bit);
else
bit = get_new_bit_tail(snd_ch, bit);
}
if (tx_status[snd_ch] == TX_FRAME)
{
@ -1266,6 +1278,7 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
else
bit = get_new_bit(snd_ch, bit);
}
// ?? *bitptr = tx_nrzi(snd_ch, bit);
if (bit == 0)
@ -1297,7 +1310,7 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
tx_status[snd_ch] = TX_FRAME; // il2p generates TXDELAY as part of the frame, so go straight to TX_FRAME
if (tx_status[snd_ch] == TX_TAIL)
bit = get_new_bit_tail(snd_ch, bit);
bit = il2p_get_new_bit_tail(snd_ch, bit);
if (tx_status[snd_ch] == TX_FRAME)
bit = il2p_get_new_bit(snd_ch, bit);
@ -1372,7 +1385,6 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
if (tx_status[snd_ch] == TX_SILENCE)
{
tx_delay_cnt[snd_ch] = 0;
Debugprintf("Start TXD");
tx_status[snd_ch] = TX_DELAY;
}
@ -1382,7 +1394,7 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
tx_status[snd_ch] = TX_FRAME; // il2p generates TXDELAY as part of the frame, so go straight to TX_FRAME
if (tx_status[snd_ch] == TX_TAIL)
bit = get_new_bit_tail(snd_ch, bit);
bit = il2p_get_new_bit_tail(snd_ch, bit);
if (tx_status[snd_ch] == TX_FRAME)
bit = il2p_get_new_bit(snd_ch, bit);
@ -1490,7 +1502,7 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
tx_status[snd_ch] = TX_FRAME; // il2p generates TXDELAY as part of the frame, so go straight to TX_FRAME
if (tx_status[snd_ch] == TX_TAIL)
bit = get_new_bit_tail(snd_ch, bit);
bit = il2p_get_new_bit_tail(snd_ch, bit);
if (tx_status[snd_ch] == TX_FRAME)
bit = il2p_get_new_bit(snd_ch, bit);
@ -1590,7 +1602,6 @@ float make_samples(unsigned char snd_ch, unsigned char * bitptr)
if (tx_status[snd_ch] == TX_SILENCE)
{
tx_delay_cnt[snd_ch] = 0;
Debugprintf("Start TXD");
tx_status[snd_ch] = TX_DELAY;
}

15
calibrateDialog.ui
View File

@ -7,7 +7,7 @@
<x>0</x>
<y>0</y>
<width>270</width>
<height>411</height>
<height>453</height>
</rect>
</property>
<property name="windowTitle">
@ -276,6 +276,19 @@
</property>
</widget>
</widget>
<widget class="QPushButton" name="Cal1500">
<property name="geometry">
<rect>
<x>66</x>
<y>416</y>
<width>139</width>
<height>23</height>
</rect>
</property>
<property name="text">
<string>10 secs 1500Hz Tone</string>
</property>
</widget>
</widget>
<resources/>
<connections/>

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50
debian/changelog vendored Normal file
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@ -0,0 +1,50 @@
qtsoundmodem (0.0.0.74~rc2-1~hibbian+1) bookworm-hibbian-unstable; urgency=medium
* Upstream import
* Patches refreshed
-- Dave Hibberd <hibby@debian.org> Sat, 28 Dec 2024 13:03:15 +0000
qtsoundmodem (0.0.0.72.1-1~hibbian+1) bookworm-hibbian-unstable; urgency=medium
* New upstream release, I was a bit hasty with that 0.72 release earlier
this year
-- Dave Hibberd <hibby@debian.org> Fri, 06 Sep 2024 18:40:36 +0100
qtsoundmodem (0.0.0.72-1) unstable; urgency=medium
* New Upstream release
* Override QA settings for function-implicit-declaration
-- Dave Hibberd <hibby@debian.org> Sat, 13 Apr 2024 19:01:02 +0100
qtsoundmodem (0.0.0.71-1) unstable; urgency=medium
* New Upstream Release
-- Dave Hibberd <d@vehibberd.com> Sun, 17 Dec 2023 14:07:52 +0000
qtsoundmodem (0.0.0.68-1) unstable; urgency=medium
* New Upstream
-- Dave Hibberd <d@vehibberd.com> Tue, 10 Oct 2023 23:03:20 +0100
qtsoundmodem (0.0.0.67-2) unstable; urgency=medium
* Fixing libpulse
-- Dave Hibberd <d@vehibberd.com> Thu, 14 Sep 2023 21:53:22 +0100
qtsoundmodem (0.0.0.67-1) unstable; urgency=medium
* New Upstream
-- Dave Hibberd <d@vehibberd.com> Tue, 12 Sep 2023 21:49:25 +0100
qtsoundmodem (0.0.0.66-1) unstable; urgency=medium
* Initial release.
-- Dave Hibberd <d@vehibberd.com> Tue, 05 Sep 2023 21:13:47 +0100

18
debian/control vendored Normal file
View File

@ -0,0 +1,18 @@
Source: qtsoundmodem
Section: hamradio
Priority: optional
Maintainer: Dave Hibberd <hibby@debian.org>
Standards-Version: 4.7.0
Vcs-Browser: https://git.hibbian.org/Hibbian/qtsoundmodem
Vcs-Git: https://git.hibbian.org/Hibbian/qtsoundmodem.git
Homepage: https://www.cantab.net/users/john.wiseman/Documents/QtSoundModem.html
Build-Depends: debhelper-compat (= 13)
Build-Depends-Arch: qtbase5-dev, qt5-qmake, libqt5serialport5-dev, libfftw3-dev, libpulse-dev, libasound2-dev, extra-xdg-menus
Rules-Requires-Root: no
Package: qtsoundmodem
Architecture: linux-any
Depends: ${shlibs:Depends}, ${misc:Depends}
Recommends: libpulse0
Description: Qt-based Sound Modem & Terminal for packet
QtSoundModem (QtSM) is a multi-platform port of UZ7HO's SoundModem

29
debian/copyright vendored Normal file
View File

@ -0,0 +1,29 @@
Format: https://www.debian.org/doc/packaging-manuals/copyright-format/1.0/
Upstream-Name: QtSoundModem
Upstream-Contact: John Wiseman <bpq32@groups.io>
Source: https://www.cantab.net/users/john.wiseman/Documents/QtSoundModem.html
Files: *
Copyright: 2000-2023 John Wiseman <bpq32@groups.io>
License: GPL-3
Files: debian/*
Copyright: 2023 Dave Hibberd <d@vehibberd.com>
License: GPL-3
License: GPL-3
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 <http://www.gnu.org/licenses/>.
.
The GPL License which applies to this package can be found on your Debian
system at /usr/share/common-licenses/GPL-3.

3
debian/gbp.conf vendored Normal file
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@ -0,0 +1,3 @@
[DEFAULT]
debian-branch = debian/latest
upstream-branch = upstream/latest

6
debian/gitlab-ci.yml vendored Normal file
View File

@ -0,0 +1,6 @@
include:
- https://salsa.debian.org/salsa-ci-team/pipeline/raw/master/salsa-ci.yml
- https://salsa.debian.org/salsa-ci-team/pipeline/raw/master/pipeline-jobs.yml
reprotest:
extends: .test-reprotest-diffoscope

3
debian/install vendored Normal file
View File

@ -0,0 +1,3 @@
QtSoundModem /usr/bin
debian/qtsoundmodem.desktop /usr/share/applications
debian/QtSoundModem.png /usr/share/pixmaps

11
debian/patches/fix-bookworm-build.patch vendored Normal file
View File

@ -0,0 +1,11 @@
--- a/tcpCode.cpp
+++ b/tcpCode.cpp
@@ -732,7 +732,7 @@
QByteArray datas = FLRigsock->readAll();
- qDebug(datas.data());
+ qDebug() << "SetPTT Failed";
}

20
debian/patches/libpulse.patch vendored Normal file
View File

@ -0,0 +1,20 @@
--- a/pulse.c
+++ b/pulse.c
@@ -67,7 +67,7 @@
if (handle)
return handle; // already done
- handle = dlopen("libpulse.so", RTLD_LAZY);
+ handle = dlopen("libpulse.so.0", RTLD_LAZY);
if (!handle)
{
@@ -91,7 +91,7 @@
if ((ppa_operation_unref = getModule(handle, "pa_operation_unref")) == NULL) return NULL;
if ((ppa_operation_get_state = getModule(handle, "pa_operation_get_state")) == NULL) return NULL;
- shandle = dlopen("libpulse-simple.so", RTLD_LAZY);
+ shandle = dlopen("libpulse-simple.so.0", RTLD_LAZY);
if (!shandle)
{

2
debian/patches/series vendored Normal file
View File

@ -0,0 +1,2 @@
fix-bookworm-build.patch
libpulse.patch

9
debian/postinst vendored Normal file
View File

@ -0,0 +1,9 @@
#!/bin/sh
set -e
SM="/opt/oarc/QtSoundModem"
if [ -d $SM ]; then
rm -rf /opt/oarc/QtSoundModem
fi

13
debian/qtsoundmodem.desktop vendored Normal file
View File

@ -0,0 +1,13 @@
[Desktop Entry]
Name=QtSoundModem
Comment=QtSoundModem
Version=1.0
Exec=/usr/bin/QtSoundModem
GenericName=QtSoundModem
Icon=QtSoundModem
NoDisplay=false
StartupNotify=true
Terminal=false
Type=Application
Categories=Education;HamRadio
X-AppImage-Version=1

7
debian/rules vendored Executable file
View File

@ -0,0 +1,7 @@
#!/usr/bin/make -f
export QT_SELECT=5
export DEB_BUILD_MAINT_OPTIONS=hardening=+all,-format
%:
dh $@

1
debian/source/format vendored Normal file
View File

@ -0,0 +1 @@
3.0 (quilt)

1
debian/source/include-binaries vendored Normal file
View File

@ -0,0 +1 @@
debian/QtSoundModem.png

0
debian/source/lintian-overrides vendored Normal file
View File

12
debug/moc_predefs-LAPTOP-Q6S4RP5Q.h Normal file
View File

@ -0,0 +1,12 @@
#define _MSC_EXTENSIONS
#define _INTEGRAL_MAX_BITS 64
#define _MSC_VER 1916
#define _MSC_FULL_VER 191627051
#define _MSC_BUILD 0
#define _WIN32
#define _M_IX86 600
#define _M_IX86_FP 2
#define _CPPRTTI
#define _DEBUG
#define _MT
#define _DLL

12
debug/moc_predefs-notpi4-64.h Normal file
View File

@ -0,0 +1,12 @@
#define _MSC_EXTENSIONS
#define _INTEGRAL_MAX_BITS 64
#define _MSC_VER 1916
#define _MSC_FULL_VER 191627043
#define _MSC_BUILD 0
#define _WIN32
#define _M_IX86 600
#define _M_IX86_FP 2
#define _CPPRTTI
#define _DEBUG
#define _MT
#define _DLL

12
debug/moc_predefs-skigdebian.h Normal file
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@ -0,0 +1,12 @@
#define _MSC_EXTENSIONS
#define _INTEGRAL_MAX_BITS 64
#define _MSC_VER 1916
#define _MSC_FULL_VER 191627043
#define _MSC_BUILD 0
#define _WIN32
#define _M_IX86 600
#define _M_IX86_FP 2
#define _CPPRTTI
#define _DEBUG
#define _MT
#define _DLL

2
debug/moc_predefs.h
View File

@ -1,7 +1,7 @@
#define _MSC_EXTENSIONS
#define _INTEGRAL_MAX_BITS 64
#define _MSC_VER 1916
#define _MSC_FULL_VER 191627045
#define _MSC_FULL_VER 191627043
#define _MSC_BUILD 0
#define _WIN32
#define _M_IX86 600

209
devicesDialog.ui
View File

@ -6,8 +6,8 @@
<rect>
<x>0</x>
<y>0</y>
<width>535</width>
<height>698</height>
<width>528</width>
<height>721</height>
</rect>
</property>
<property name="windowTitle">
@ -20,9 +20,9 @@
<property name="geometry">
<rect>
<x>5</x>
<y>10</y>
<width>512</width>
<height>671</height>
<y>0</y>
<width>513</width>
<height>711</height>
</rect>
</property>
<property name="verticalScrollBarPolicy">
@ -40,7 +40,7 @@
<x>0</x>
<y>0</y>
<width>508</width>
<height>668</height>
<height>706</height>
</rect>
</property>
<widget class="QGroupBox" name="groupBox">
@ -49,7 +49,7 @@
<x>5</x>
<y>10</y>
<width>541</width>
<height>331</height>
<height>361</height>
</rect>
</property>
<property name="title">
@ -60,7 +60,7 @@
<rect>
<x>108</x>
<y>25</y>
<width>261</width>
<width>371</width>
<height>22</height>
</rect>
</property>
@ -73,7 +73,7 @@
<rect>
<x>108</x>
<y>55</y>
<width>261</width>
<width>371</width>
<height>22</height>
</rect>
</property>
@ -99,7 +99,7 @@
<rect>
<x>13</x>
<y>55</y>
<width>71</width>
<width>91</width>
<height>19</height>
</rect>
</property>
@ -159,63 +159,37 @@
<string>Minimize window on startup</string>
</property>
</widget>
<widget class="QLineEdit" name="txSamplerate">
<widget class="QLineEdit" name="txLatency">
<property name="geometry">
<rect>
<x>108</x>
<y>124</y>
<x>220</x>
<y>140</y>
<width>63</width>
<height>20</height>
</rect>
</property>
<property name="text">
<string>12000</string>
</property>
</widget>
<widget class="QLineEdit" name="rxSamplerate">
<property name="geometry">
<rect>
<x>304</x>
<y>124</y>
<width>63</width>
<height>20</height>
</rect>
</property>
<property name="text">
<string>12000</string>
<string>0</string>
</property>
</widget>
<widget class="QLabel" name="label_6">
<property name="geometry">
<rect>
<x>13</x>
<y>125</y>
<width>91</width>
<y>140</y>
<width>201</width>
<height>18</height>
</rect>
</property>
<property name="text">
<string>TX SampleRate</string>
</property>
</widget>
<widget class="QLabel" name="label_7">
<property name="geometry">
<rect>
<x>190</x>
<y>125</y>
<width>91</width>
<height>18</height>
</rect>
</property>
<property name="text">
<string>RX SampleRate</string>
<string>Soundcard TX latency mS</string>
</property>
</widget>
<widget class="QComboBox" name="Modem_1_Chan">
<property name="geometry">
<rect>
<x>70</x>
<y>164</y>
<x>72</x>
<y>170</y>
<width>86</width>
<height>20</height>
</rect>
@ -245,7 +219,7 @@
<property name="geometry">
<rect>
<x>12</x>
<y>166</y>
<y>172</y>
<width>61</width>
<height>16</height>
</rect>
@ -258,7 +232,7 @@
<property name="geometry">
<rect>
<x>180</x>
<y>164</y>
<y>170</y>
<width>86</width>
<height>20</height>
</rect>
@ -283,7 +257,7 @@
<property name="geometry">
<rect>
<x>165</x>
<y>166</y>
<y>172</y>
<width>21</width>
<height>16</height>
</rect>
@ -352,7 +326,7 @@
<rect>
<x>168</x>
<y>90</y>
<width>91</width>
<width>131</width>
<height>20</height>
</rect>
</property>
@ -406,7 +380,7 @@
<property name="geometry">
<rect>
<x>290</x>
<y>164</y>
<y>170</y>
<width>86</width>
<height>20</height>
</rect>
@ -431,7 +405,7 @@
<property name="geometry">
<rect>
<x>272</x>
<y>166</y>
<y>172</y>
<width>21</width>
<height>16</height>
</rect>
@ -444,7 +418,7 @@
<property name="geometry">
<rect>
<x>385</x>
<y>166</y>
<y>172</y>
<width>21</width>
<height>16</height>
</rect>
@ -457,7 +431,7 @@
<property name="geometry">
<rect>
<x>400</x>
<y>164</y>
<y>170</y>
<width>86</width>
<height>20</height>
</rect>
@ -595,14 +569,40 @@
<string>Dark Theme</string>
</property>
</widget>
<widget class="QCheckBox" name="onlyMixSnoop">
<property name="geometry">
<rect>
<x>30</x>
<y>110</y>
<width>421</width>
<height>21</height>
</rect>
</property>
<property name="text">
<string>Only Mix/Snoop Devices (needs custom .asoundrc)</string>
</property>
</widget>
<widget class="QCheckBox" name="useKISSControls">
<property name="geometry">
<rect>
<x>20</x>
<y>328</y>
<width>271</width>
<height>17</height>
</rect>
</property>
<property name="text">
<string>Enable KISS Control and Reporting</string>
</property>
</widget>
</widget>
<widget class="QGroupBox" name="groupBox_2">
<widget class="QGroupBox" name="Goup">
<property name="geometry">
<rect>
<x>10</x>
<y>360</y>
<y>380</y>
<width>481</width>
<height>101</height>
<height>133</height>
</rect>
</property>
<property name="title">
@ -613,7 +613,7 @@
<rect>
<x>22</x>
<y>24</y>
<width>121</width>
<width>129</width>
<height>18</height>
</rect>
</property>
@ -646,7 +646,7 @@
<rect>
<x>22</x>
<y>48</y>
<width>111</width>
<width>131</width>
<height>18</height>
</rect>
</property>
@ -731,7 +731,7 @@
<rect>
<x>20</x>
<y>74</y>
<width>111</width>
<width>135</width>
<height>18</height>
</rect>
</property>
@ -739,12 +739,97 @@
<string>UDP Sound Server Host</string>
</property>
</widget>
<widget class="QComboBox" name="SixPackSerial">
<property name="geometry">
<rect>
<x>160</x>
<y>100</y>
<width>81</width>
<height>20</height>
</rect>
</property>
<property name="editable">
<bool>true</bool>
</property>
</widget>
<widget class="QLabel" name="label_17">
<property name="geometry">
<rect>
<x>20</x>
<y>98</y>
<width>111</width>
<height>18</height>
</rect>
</property>
<property name="text">
<string>6Pack Serial Port</string>
</property>
</widget>
<widget class="QLineEdit" name="SixPackTCP">
<property name="geometry">
<rect>
<x>320</x>
<y>100</y>
<width>47</width>
<height>20</height>
</rect>
</property>
</widget>
<widget class="QLabel" name="label_7">
<property name="geometry">
<rect>
<x>252</x>
<y>101</y>
<width>63</width>
<height>18</height>
</rect>
</property>
<property name="text">
<string>TCP Port</string>
</property>
</widget>
<widget class="QCheckBox" name="SixPackEnable">
<property name="geometry">
<rect>
<x>380</x>
<y>99</y>
<width>70</width>
<height>23</height>
</rect>
</property>
<property name="text">
<string>Enabled</string>
</property>
</widget>
<widget class="QLineEdit" name="MgmtPort">
<property name="geometry">
<rect>
<x>410</x>
<y>25</y>
<width>47</width>
<height>20</height>
</rect>
</property>
</widget>
<widget class="QLabel" name="label_18">
<property name="geometry">
<rect>
<x>340</x>
<y>25</y>
<width>91</width>
<height>20</height>
</rect>
</property>
<property name="text">
<string>Mgmt Port</string>
</property>
</widget>
</widget>
<widget class="QGroupBox" name="groupBox_3">
<property name="geometry">
<rect>
<x>10</x>
<y>470</y>
<y>520</y>
<width>481</width>
<height>151</height>
</rect>
@ -946,8 +1031,8 @@
<widget class="QWidget" name="layoutWidget">
<property name="geometry">
<rect>
<x>140</x>
<y>626</y>
<x>130</x>
<y>670</y>
<width>215</width>
<height>33</height>
</rect>

395
dw9600.c
View File

@ -21,12 +21,19 @@ typedef struct TStringList_T
} TStringList;
#include <stddef.h>
#include <ctype.h>
#include <stdlib.h>
#include "dw9600.h"
#define stringAdd(s1, s2, c) mystringAdd(s1, s2, c, __FILE__, __LINE__)
string * mystringAdd(string * Msg, unsigned char * Chars, int Count, char * FILE, int LINE);
extern int fx25_mode[4];
extern int il2p_mode[4];
extern int il2p_crc[4];
extern short rx_baudrate[5];
extern short tx_bitrate[5];
#define FX25_MODE_NONE 0
#define FX25_MODE_RX 1
@ -43,8 +50,13 @@ extern short rx_baudrate[5];
extern unsigned short * DMABuffer;
extern int SampleNo;
string * il2p_send_frame(int chan, packet_t pp, int max_fec, int polarity);
int fx25_send_frame(int chan, unsigned char *fbuf, int flen, int fx_mode);
int multi_modem_process_rec_frame(int chan, int subchan, int slice, unsigned char *fbuf, int flen, int alevel, int retries, int is_fx25);
void ProcessRXFrames(int snd_ch);
unsigned short get_fcs(unsigned char * Data, unsigned short len);
void il2p_rec_bit(int chan, int subchan, int slice, int dbit);
void Debugprintf(const char * format, ...);
//
// This file is part of Dire Wolf, an amateur radio packet TNC.
@ -166,10 +178,8 @@ static int composite_dcd[MAX_CHANS][MAX_SUBCHANS + 1];
int was_init[4] = { 0, 0, 0, 0 };
struct audio_s *g_audio_p;
extern struct audio_s pa[4];
void hdlc_rec_init(struct audio_s *pa)
{
int ch;
@ -179,7 +189,7 @@ void hdlc_rec_init(struct audio_s *pa)
//dw_printf ("hdlc_rec_init (%p) \n", pa);
assert(pa != NULL);
g_audio_p = &pa;
memset(composite_dcd, 0, sizeof(composite_dcd));
@ -331,7 +341,7 @@ static void eas_rec_bit(int chan, int subchan, int slice, int raw, int future_us
dw_printf("frame_buf %d = %s\n", slice, H->frame_buf);
#endif
alevel_t alevel = demod_get_audio_level(chan, subchan);
multi_modem_process_rec_frame(chan, subchan, slice, H->frame_buf, H->frame_len, alevel, 0, 0);
multi_modem_process_rec_frame(chan, subchan, slice, H->frame_buf, H->frame_len, 0, 0, 0);
H->eas_gathering = 0;
}
@ -453,9 +463,11 @@ a good modem here and providing a result when it is received.
void hdlc_rec_bit(int chan, int subchan, int slice, int raw, int is_scrambled, int not_used_remove)
{
int dbit; /* Data bit after undoing NRZI. */
int dbit; /* Data bit after undoing NRZI. */
/* Should be only 0 or 1. */
struct hdlc_state_s *H;
int descram;
/*
* Different state information for each channel / subchannel / slice.
@ -469,27 +481,31 @@ void hdlc_rec_bit(int chan, int subchan, int slice, int raw, int is_scrambled, i
* A '1' bit is represented by no change.
*/
if (is_scrambled) {
int descram;
if (is_scrambled)
{
descram = descramble(raw, &(H->lfsr));
dbit = (descram == H->prev_descram);
dbit = (descram == H->prev_descram); // This does nrzi
H->prev_descram = descram;
H->prev_raw = raw;
}
else {
dbit = (raw == H->prev_raw);
H->prev_raw = raw;
H->prev_raw = raw; // This does nrzi
}
// dbit should be after nrzi, descram after descramble but before nrzi
// After BER insertion, NRZI, and any descrambling, feed into FX.25 decoder as well.
// fx25_rec_bit (chan, subchan, slice, dbit);
il2p_rec_bit (chan, subchan, slice, raw); // Note: skip NRZI.
if (il2p_mode[chan])
{
il2p_rec_bit(chan, subchan, slice, raw); // not scrambled, not nrzi
if (il2p_mode[chan] == IL2P_MODE_ONLY) // Dont try HDLC decode
return;
}
/*
* Octets are sent LSB first.
@ -618,7 +634,7 @@ void hdlc_rec_bit(int chan, int subchan, int slice, int raw, int is_scrambled, i
*
* This indicates loss of signal.
* But we will let it slip thru because it might diminish
* our single bit fixup effort. Instead give up on frame
* our float bit fixup effort. Instead give up on frame
* only when we see eight 1 bits in a row.
*
* 11111111
@ -961,7 +977,7 @@ typedef struct retry_conf_s {
static const char * retry_text[] = {
"NONE",
"SINGLE",
"float",
"DOUBLE",
"TRIPLE",
"TWO_SEP",
@ -990,7 +1006,7 @@ static int sanity_check(unsigned char *buf, int blen, retry_t bits_flipped, enum
* Level of effort to recover from
* a bad FCS on the frame.
* 0 = no effort
* 1 = try inverting a single bit
* 1 = try inverting a float bit
* 2... = more techniques...
*
* enum sanity_e sanity_test;
@ -1114,7 +1130,7 @@ void hdlc_rec2_block(rrbb_t block)
* Global In: configuration fix_bits - Maximum level of fix up to attempt.
*
* RETRY_NONE (0) - Don't try any.
* RETRY_INVERT_SINGLE (1) - Try inverting single bits.
* RETRY_INVERT_float (1) - Try inverting float bits.
* etc.
*
* configuration passall - Let it thru with bad CRC after exhausting
@ -1158,7 +1174,7 @@ static int try_to_fix_quick_now(rrbb_t block, int chan, int subchan, int slice,
*/
if (fix_bits < RETRY_INVERT_SINGLE) {
/* Stop before single bit fix up. */
/* Stop before float bit fix up. */
return 0; /* failure. */
}
@ -1174,7 +1190,7 @@ static int try_to_fix_quick_now(rrbb_t block, int chan, int subchan, int slice,
if (ok) {
#if DEBUG
text_color_set(DW_COLOR_ERROR);
dw_printf("*** Success by flipping SINGLE bit %d of %d ***\n", i, len);
dw_printf("*** Success by flipping float bit %d of %d ***\n", i, len);
#endif
return 1;
}
@ -1227,7 +1243,7 @@ static int try_to_fix_quick_now(rrbb_t block, int chan, int subchan, int slice,
/*
* Two non-adjacent ("separated") single bits.
* Two non-adjacent ("separated") float bits.
* It chews up a lot of CPU time. Usual test takes 4 times longer to run.
*
* Processing time is order N squared so time goes up rapidly with larger frames.
@ -1363,7 +1379,7 @@ inline static char is_sep_bit_modified(int bit_idx, retry_conf_t retry_conf) {
* retry:
* Level of effort to recover from a bad FCS on the frame.
* RETRY_NONE = 0
* RETRY_INVERT_SINGLE = 1
* RETRY_INVERT_float = 1
* RETRY_INVERT_DOUBLE = 2
* RETRY_INVERT_TRIPLE = 3
* RETRY_INVERT_TWO_SEP = 4
@ -1586,7 +1602,7 @@ static int try_decode(rrbb_t block, int chan, int subchan, int slice, alevel_t a
assert(rrbb_get_chan(block) == chan);
assert(rrbb_get_subchan(block) == subchan);
multi_modem_process_rec_frame(chan, subchan, slice, H2.frame_buf, H2.frame_len - 2, alevel, retry_conf.retry, 0); /* len-2 to remove FCS. */
multi_modem_process_rec_frame(chan, subchan, slice, H2.frame_buf, H2.frame_len - 2, 0, retry_conf.retry, 0); /* len-2 to remove FCS. */
return 1; /* success */
}
@ -1596,7 +1612,7 @@ static int try_decode(rrbb_t block, int chan, int subchan, int slice, alevel_t a
//text_color_set(DW_COLOR_ERROR);
//dw_printf ("ATTEMPTING PASSALL PROCESSING\n");
multi_modem_process_rec_frame(chan, subchan, slice, H2.frame_buf, H2.frame_len - 2, alevel, RETRY_MAX, 0); /* len-2 to remove FCS. */
multi_modem_process_rec_frame(chan, subchan, slice, H2.frame_buf, H2.frame_len - 2, 0, RETRY_MAX, 0); /* len-2 to remove FCS. */
return 1; /* success */
}
else {
@ -3282,73 +3298,40 @@ static const int gray2phase_v27[8] = { 1, 0, 2, 3, 6, 7, 5, 4 };
// We are only using this for RUH modes
void tone_gen_put_bit(int chan, int dat)
void tone_gen_put_bit(int chan, int dat, int scramble)
{
int modem_type = MODEM_SCRAMBLE;
int a = 0;
// scramble
int x;
if (scramble)
{
int x;
x = (dat ^ (lfsr[chan] >> 16) ^ (lfsr[chan] >> 11)) & 1;
lfsr[chan] = (lfsr[chan] << 1) | (x & 1);
dat = x;
x = (dat ^ (lfsr[chan] >> 16) ^ (lfsr[chan] >> 11)) & 1;
lfsr[chan] = (lfsr[chan] << 1) | (x & 1);
dat = x;
}
do { /* until enough audio samples for this symbol. */
int sam;
switch (modem_type)
if (dat != prev_dat[chan])
{
case MODEM_AFSK:
// v1.7 reversed.
// Previously a data '1' selected the second (usually higher) tone.
// It never really mattered before because we were using NRZI.
// With the addition of IL2P, we need to be more careful.
// A data '1' should be the mark tone.
tone_phase[chan] += dat ? f1_change_per_sample[chan] : f2_change_per_sample[chan];
sam = sine_table[(tone_phase[chan] >> 24) & 0xff];
gen_tone_put_sample(chan, a, sam);
break;
case MODEM_QPSK:
case MODEM_8PSK:
tone_phase[chan] += f1_change_per_sample[chan];
sam = sine_table[(tone_phase[chan] >> 24) & 0xff];
gen_tone_put_sample(chan, a, sam);
break;
case MODEM_BASEBAND:
case MODEM_SCRAMBLE:
case MODEM_AIS:
if (dat != prev_dat[chan])
{
tone_phase[chan] += f1_change_per_sample[chan];
}
else
{
if (tone_phase[chan] & 0x80000000)
tone_phase[chan] = 0xc0000000; // 270 degrees.
else
tone_phase[chan] = 0x40000000; // 90 degrees.
}
sam = sine_table[(tone_phase[chan] >> 24) & 0xff];
gen_tone_put_sample(chan, a, sam);
break;
default:
text_color_set(DW_COLOR_ERROR);
dw_printf("INTERNAL ERROR: %s %d achan[%d].modem_type = %d\n",
__FILE__, __LINE__, chan, save_audio_config_p->achan[chan].modem_type);
exit(0);
}
else
{
if (tone_phase[chan] & 0x80000000)
tone_phase[chan] = 0xc0000000; // 270 degrees.
else
tone_phase[chan] = 0x40000000; // 90 degrees.
}
sam = sine_table[(tone_phase[chan] >> 24) & 0xff];
gen_tone_put_sample(chan, a, sam);
/* Enough for the bit time? */
@ -3399,18 +3382,13 @@ void gen_tone_put_sample(int chan, int a, int sam)
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
static void send_byte_msb_first(int chan, int x, int polarity);
static void send_control_nrzi(int, int);
static void send_data_nrzi(int, int);
static void send_bit_nrzi(int, int);
static int number_of_bits_sent[MAX_CHANS]; // Count number of bits sent by "hdlc_send_frame" or "hdlc_send_flags"
/*-------------------------------------------------------------
*
* Name: layer2_send_frame
@ -3450,40 +3428,6 @@ static int number_of_bits_sent[MAX_CHANS]; // Count number of bits sent by "hdlc
static int ax25_only_hdlc_send_frame(int chan, unsigned char *fbuf, int flen, int bad_fcs);
int layer2_send_frame(int chan, packet_t pp, int bad_fcs, struct audio_s *audio_config_p)
{
if (audio_config_p->achan[chan].layer2_xmit == LAYER2_IL2P) {
int n = il2p_send_frame(chan, pp, audio_config_p->achan[chan].il2p_max_fec,
audio_config_p->achan[chan].il2p_invert_polarity);
if (n > 0) {
return (n);
}
text_color_set(DW_COLOR_ERROR);
dw_printf("Unable to send IL2p frame. Falling back to regular AX.25.\n");
// Not sure if we should fall back to AX.25 or not here.
}
else if (audio_config_p->achan[chan].layer2_xmit == LAYER2_FX25)
{
unsigned char fbuf[AX25_MAX_PACKET_LEN + 2];
int flen = ax25_pack(pp, fbuf);
int n = fx25_send_frame(chan, fbuf, flen, audio_config_p->achan[chan].fx25_strength);
if (n > 0) {
return (n);
}
text_color_set(DW_COLOR_ERROR);
dw_printf("Unable to send FX.25. Falling back to regular AX.25.\n");
// Definitely need to fall back to AX.25 here because
// the FX.25 frame length is so limited.
}
unsigned char fbuf[AX25_MAX_PACKET_LEN + 2];
int flen = ax25_pack(pp, fbuf);
return (ax25_only_hdlc_send_frame(chan, fbuf, flen, bad_fcs));
}
static int ax25_only_hdlc_send_frame(int chan, unsigned char *fbuf, int flen, int bad_fcs)
{
int j, fcs;
@ -3521,23 +3465,6 @@ static int ax25_only_hdlc_send_frame(int chan, unsigned char *fbuf, int flen, in
}
// The next one is only for IL2P. No NRZI.
// MSB first, opposite of AX.25.
static void send_byte_msb_first(int chan, int x, int polarity)
{
int i;
for (i = 0; i < 8; i++) {
int dbit = (x & 0x80) != 0;
tone_gen_put_bit(chan, (dbit ^ polarity) & 1);
x <<= 1;
number_of_bits_sent[chan]++;
}
}
// The following are only for HDLC.
// All bits are sent NRZI.
// Data (non flags) use bit stuffing.
@ -3594,7 +3521,7 @@ static void send_bit_nrzi(int chan, int b)
output[chan] = !output[chan];
}
tone_gen_put_bit(chan, output[chan]);
tone_gen_put_bit(chan, output[chan], MODEM_SCRAMBLE);
number_of_bits_sent[chan]++;
}
@ -4034,7 +3961,7 @@ void dw9600ProcessSample(int snd_ch, short Sample)
void init_RUH48(int snd_ch)
{
modem_mode[snd_ch] = MODE_RUH;
rx_baudrate[snd_ch] = 4800;
tx_bitrate[snd_ch] = rx_baudrate[snd_ch] = 4800;
if (was_init[snd_ch] == 0)
{
@ -4054,7 +3981,7 @@ void init_RUH48(int snd_ch)
void init_RUH96(int snd_ch)
{
modem_mode[snd_ch] = MODE_RUH;
rx_baudrate[snd_ch] = 9600;
tx_bitrate[snd_ch] = rx_baudrate[snd_ch] = 9600;
if (was_init[snd_ch] == 0)
{
@ -4077,16 +4004,163 @@ void text_color_set(dw_color_t c)
return;
}
typedef struct TMChannel_t
{
float prev_LPF1I_buf[4096];
float LPF1Q_buf[4096];
float prev_dLPFI_buf[4096];
float prev_dLPFQ_buf[4096];
float prev_AFCI_buf[4096];
float prev_AFCQ_buf[4096];
float AngleCorr;
float MUX_osc;
float AFC_IZ1;
float AFC_IZ2;
float AFC_QZ1;
float AFC_QZ2;
float AFC_bit_buf1I[1024];
float AFC_bit_buf1Q[1024];
float AFC_bit_buf2[1024];
float AFC_IIZ1;
float AFC_QQZ1;
} TMChannel;
typedef struct TFX25_t
{
string data;
uint8_t status;
uint8_t bit_cnt;
uint8_t uint8_t_rx;
unsigned long long tag;
uint8_t size;
uint8_t rs_size;
uint8_t size_cnt;
} TFX25;
typedef struct TDetector_t
{
struct TFX25_t fx25[4];
TStringList mem_ARQ_F_buf[5];
TStringList mem_ARQ_buf[5];
float pll_loop[5];
float last_sample[5];
uint8_t ones[5];
uint8_t zeros[5];
float bit_buf[5][1024];
float bit_buf1[5][1024];
uint8_t sample_cnt[5];
uint8_t last_bit[5];
float PSK_IZ1[5];
float PSK_QZ1[5];
float PkAmpI[5];
float PkAmpQ[5];
float PkAmp[5];
float PkAmpMax[5];
int newpkpos[5];
float AverageAmp[5];
float AngleCorr[5];
float MinAmp[5];
float MaxAmp[5];
float MUX3_osc[5];
float MUX3_1_osc[5];
float MUX3_2_osc[5];
float Preemphasis6[5];
float Preemphasis12[5];
float PSK_AGC[5];
float AGC[5];
float AGC1[5];
float AGC2[5];
float AGC3[5];
float AGC_max[5];
float AGC_min[5];
float AFC_IZ1[5];
float AFC_IZ2[5];
float AFC_QZ1[5];
float AFC_QZ2[5];
uint8_t last_rx_bit[5];
uint8_t bit_stream[5];
uint8_t uint8_t_rx[5];
uint8_t bit_stuff_cnt[5];
uint8_t bit_cnt[5];
float bit_osc[5];
uint8_t frame_status[5];
string rx_data[5];
string FEC_rx_data[5];
//
uint8_t FEC_pol[5];
unsigned short FEC_err[5];
unsigned long long FEC_header1[5][2];
unsigned short FEC_blk_int[5];
unsigned short FEC_len_int[5];
unsigned short FEC_len[5];
unsigned short FEC_len_cnt[5];
uint8_t rx_intv_tbl[5][4];
uint8_t rx_intv_sym[5];
uint8_t rx_viterbi[5];
uint8_t viterbi_cnt[5];
// SurvivorStates [1..4,0..511] of TSurvivor;
//
TMChannel MChannel[5][4];
float AFC_dF_avg[5];
float AFC_dF[5];
float AFC_bit_osc[5];
float AFC_bit_buf[5][1024];
unsigned short AFC_cnt[5];
string raw_bits1[5];
string raw_bits[5];
uint8_t last_nrzi_bit[5];
float BPF_core[5][2048];
float LPF_core[5][2048];
float src_INTR_buf[5][8192];
float src_INTRI_buf[5][8192];
float src_INTRQ_buf[5][8192];
float src_LPF1I_buf[5][8192];
float src_LPF1Q_buf[5][8192];
float src_BPF_buf[5][2048];
float src_Loop_buf[5][8192];
float prev_BPF_buf[5][4096];
float prev_LPF1I_buf[5][4096];
float prev_LPF1Q_buf[5][4096];
float prev_INTR_buf[5][16384];
float prev_INTRI_buf[5][16384];
float prev_INTRQ_buf[5][16384];
uint8_t emph_decoded;
uint8_t rx_decoded;
uint8_t errors;
} TDetector;
extern TStringList detect_list[5];
extern TStringList detect_list_c[5];
#define nr_emph 2
extern struct TDetector_t DET[nr_emph + 1][16];
#define decodedNormal 4 //'-'
#define decodedFEC 3 //'F'
#define decodedMEM 2 //'#'
#define decodedSingle 1 //'$'
int multi_modem_process_rec_frame(int chan, int subchan, int slice, unsigned char *fbuf, int flen, int alevel, int retries, int is_fx25)
{
// Convert to QtSM internal format
// struct TDetector_t * pDET = &DET[emph][subchan];
struct TDetector_t * pDET = &DET[0][subchan];
string * data = newString();
char Mode[16] = "RUH";
int i, found;
@ -4100,7 +4174,7 @@ int multi_modem_process_rec_frame(int chan, int subchan, int slice, unsigned cha
freeString(data);
Debugprintf("Discarding copy rcvr %d emph %d", subchan, 0);
return;
return 0;
}
string * xx = newString();
@ -4109,6 +4183,10 @@ int multi_modem_process_rec_frame(int chan, int subchan, int slice, unsigned cha
Add(&detect_list_c[chan], xx);
Add(&detect_list[chan], data);
pDET->rx_decoded = decodedNormal;
pDET->emph_decoded = decodedNormal;
pDET->errors = 0;
// if (retries)
// sprintf(Mode, "IP2P-%d", retries);
@ -4137,13 +4215,52 @@ void RUHEncode(unsigned char * Data, int Len, int chan)
int bitcount;
int txdcount;
int j;
int i, j;
unsigned short CRC;
number_of_bits_sent[chan] = 0;
SampleNo = 0;
if (il2p_mode[chan] >= IL2P_MODE_TXRX)
{
// il2p generates TXDELAY as part of the frame, so just build frame
string * result;
packet_t pp = ax25_new();
int polarity = 0;
// Call il2p_send_frame to build the bit stream
pp->frame_len = Len;
memcpy(pp->frame_data, Data, Len + 2); // Copy the crc in case we are going to send it
result = il2p_send_frame(chan, pp, 1, 0);
for (j = 0; j < result->Length; j++)
{
int x = result->Data[j];
for (i = 0; i < 8; i++)
{
int dbit = (x & 0x80) != 0;
tone_gen_put_bit(chan, (dbit ^ polarity) & 1, 0); // No Scramble
x <<= 1;
number_of_bits_sent[chan]++;
}
}
freeString(result);
ax25_delete(pp);
// sample No should now contain number of (stereo) samples
ARDOPTXLen[chan] = SampleNo;
ARDOPTXPtr[chan] = 0;
return;
}
// First do TX delay
// Set up txd worth of flags

4
dw9600.h
View File

@ -376,7 +376,7 @@ typedef struct alevel_s {
#ifndef AXTEST
// TODO: remove this?
#define AX25MEMDEBUG 1
#define AX25MEMDEBUG 0
#endif
@ -1982,7 +1982,7 @@ int gen_tone_init(struct audio_s *pp, int amp, int gen_packets);
//int gen_tone_close (void);
void tone_gen_put_bit(int chan, int dat);
void tone_gen_put_bit(int chan, int dat, int scramble);
void gen_tone_put_sample(int chan, int a, int sam);

508
il2p.c
View File

@ -46,6 +46,10 @@ along with QtSoundModem. If not, see http://www.gnu.org/licenses
#include <stdint.h> // for uint64_t
void debugHexDump(unsigned char * Data, int Len, char Dirn);
extern void debugTimeStamp(char * Text, char Dirn);
extern int useTimedPTT;
// Oct 2023 Nino has added an optional crc
// Hamming(7,4) Encoding Table
@ -83,6 +87,10 @@ uint16_t Hamming74DecodeTable[128] = { \
void Debugprintf(const char * format, ...);
int SMUpdatePhaseConstellation(int chan, float * Phases, float * Mags, int intPSKPhase, int Count);
extern int openTraceLog();
extern uint64_t writeTraceLog(char * Data);
extern void closeTraceLog();
#define MAX_ADEVS 3
#define MAX_RADIO_CHANS ((MAX_ADEVS) * 2)
@ -127,7 +135,7 @@ typedef struct alevel_s {
alevel_t demod_get_audio_level(int chan, int subchan);
void tone_gen_put_bit(int chan, int dat);
void tone_gen_put_bit(int chan, int dat, int scramble);
int ax25memdebug = 1;
@ -218,7 +226,6 @@ void FREE_RS(struct rs *rs);
// Maybe these should be in a different file, separated from the internal stuff.
void fx25_init(int debug_level);
int fx25_send_frame(int chan, unsigned char *fbuf, int flen, int fx_mode);
void fx25_rec_bit(int chan, int subchan, int slice, int dbit);
int fx25_rec_busy(int chan);
@ -390,7 +397,8 @@ typedef enum cmdres_e { cr_00 = 2, cr_cmd = 1, cr_res = 0, cr_11 = 3 } cmdres_t;
extern packet_t ax25_new(void);
#ifdef AX25_PAD_C /* Keep this hidden - implementation could change. */
int set_addrs(packet_t pp, char addrs[AX25_MAX_ADDRS][AX25_MAX_ADDR_LEN], int num_addr, cmdres_t cr);
/*
@ -433,8 +441,6 @@ static inline int ax25_get_num_control(packet_t this_p)
return (1); /* U xxxx xx11 */
}
/*
* APRS always has one protocol octet of 0xF0 meaning no level 3
* protocol but the more general case is 0, 1 or 2 protocol ID octets.
@ -506,7 +512,7 @@ static inline int ax25_get_num_info(packet_t this_p)
return (len);
}
#endif
typedef enum ax25_modulo_e { modulo_unknown = 0, modulo_8 = 8, modulo_128 = 128 } ax25_modulo_t;
@ -1031,9 +1037,6 @@ packet_t ax25_i_frame(char addrs[AX25_MAX_ADDRS][AX25_MAX_ADDR_LEN], int num_add
} /* end ax25_i_frame */
extern TStringList detect_list[5];
extern TStringList detect_list_c[5];
@ -1045,12 +1048,19 @@ void multi_modem_process_rec_packet(int snd_ch, int subchan, int slice, packet_t
string * data = newString();
char Mode[32] = "IL2P";
int Quality = 0;
int CRCOK = 1;
char debugmsg[256];
sprintf(Mode, "IL2P %d", centreFreq);
unsigned char * axcall = &pp->frame_data[7];
char call[10];
call[ConvFromAX25(axcall, call)] = 0;
// check crc if enabled
if (il2p_crc[snd_ch])
if (il2p_crc[snd_ch] & 1)
{
unsigned short CRCMSG;
unsigned short CRCCALC;
@ -1068,16 +1078,32 @@ void multi_modem_process_rec_packet(int snd_ch, int subchan, int slice, packet_t
crc[2] = Hamming74DecodeTable[(pp->crc[2] & 0x7f)];
crc[3] = Hamming74DecodeTable[(pp->crc[3] & 0x7f)];
debugTimeStamp("CRC after Hamming decode is", 'R');
debugHexDump(crc, 4, 'R');
CRCMSG = crc[0] << 12 | crc[1] << 8 | crc[2] << 4 | crc[3];
CRCCALC = get_fcs(pp->frame_data, pp->frame_len);
if (CRCCALC != CRCMSG)
{
Debugprintf("CRC Error Decoder %d Received %x Sent %x", subchan, CRCCALC, CRCMSG);
// freeString(data);
// ax25_delete(pp);
// return;
CRCOK = 0;
if ((il2p_crc[snd_ch] & 2) == 0) // Ignore CRC Error
{
Debugprintf("CRC Error from %s Decoder %d Calculated %x Received %x FEC corrections %d But ignore CRC Set", call, subchan, CRCCALC, CRCMSG, retries);
sprintf(debugmsg, "CRC Error from %s Decoder %d Calculated %x Received %x FEC corrections %d But ignore CRC Set", call, subchan, CRCCALC, CRCMSG, retries);
debugTimeStamp(debugmsg, 'R');
}
else
{
Debugprintf("CRC Error from %s Decoder %d Calculated %x Received %x FEC corrections %d", call, subchan, CRCCALC, CRCMSG, retries);
freeString(data);
ax25_delete(pp);
return;
}
}
}
@ -1098,16 +1124,59 @@ void multi_modem_process_rec_packet(int snd_ch, int subchan, int slice, packet_t
pDET->errors = 0;
}
if (detect_list[snd_ch].Count > 0 &&
my_indexof(&detect_list[snd_ch], data) >= 0)
if (detect_list[snd_ch].Count > 0)
{
// Already have a copy of this frame
int index = my_indexof(&detect_list[snd_ch], data);
freeString(data);
Debugprintf("Discarding copy rcvr %d emph %d", subchan, 0);
return;
if (index >= 0)
{
// Already have a copy of this frame
// See if new one has fewer corrections
string * xx = Strings(&detect_list_c[snd_ch], index); // Should be corresponding frame info
string * olddata = Strings(&detect_list[snd_ch], index);
if (xx)
{
int oldRetries = xx->Data[255];
int oldCRCOK = xx->Data[254];
if ((oldCRCOK == 0 && CRCOK == 1) || (oldRetries > retries))
{
replaceString(&detect_list[snd_ch], index, data);
freeString(olddata);
// Just update the metadata
Debugprintf("Replacing il2p frame from %s rcvr %d emph %d FEC corrections %d CRCOK %d", call, subchan, slice, retries, CRCOK);
memset(xx->Data, 0, 16);
if (pskStates[snd_ch])
{
Quality = SMUpdatePhaseConstellation(snd_ch, &Phases[snd_ch][subchan][slice][0], &Mags[snd_ch][subchan][slice][0], pskStates[snd_ch], nPhases[snd_ch][subchan][slice]);
sprintf(Mode, "%s][Q%d", Mode, Quality);
}
xx->Length= sprintf(xx->Data, "%s", Mode);
xx->Data[254] = CRCOK;
xx->Data[255] = retries;
return;
}
}
freeString(data);
Debugprintf("Discarding copy rcvr %d emph %d FEC corrections %d", subchan, slice, retries);
return;
}
}
Debugprintf("Good il2p frame from %s rcvr %d emph %d FEC corrections %d", call, subchan, slice, retries);
sprintf(debugmsg, "Good il2p frame from %s rcvr %d emph %d FEC corrections %d", call, subchan, slice, retries);
debugTimeStamp(debugmsg, 'R');
string * xx = newString();
memset(xx->Data, 0, 16);
@ -1124,7 +1193,11 @@ void multi_modem_process_rec_packet(int snd_ch, int subchan, int slice, packet_t
// sprintf(Mode, "IP2P-%d", retries);
stringAdd(xx, Mode, strlen(Mode));
xx->Data[254] = CRCOK;
xx->Data[255] = retries;
closeTraceLog();
openTraceLog();
return;
@ -1373,79 +1446,6 @@ int ax25_get_ssid(packet_t this_p, int n)
static inline int ax25_get_pid_offset(packet_t this_p)
{
return (ax25_get_control_offset(this_p) + ax25_get_num_control(this_p));
}
static int ax25_get_num_pid(packet_t this_p)
{
int c;
int pid;
c = this_p->frame_data[ax25_get_control_offset(this_p)];
if ((c & 0x01) == 0 || /* I xxxx xxx0 */
c == 0x03 || c == 0x13) { /* UI 000x 0011 */
pid = this_p->frame_data[ax25_get_pid_offset(this_p)];
if (pid == AX25_PID_ESCAPE_CHARACTER) {
return (2); /* pid 1111 1111 means another follows. */
}
return (1);
}
return (0);
}
inline int ax25_get_control_offset(packet_t this_p)
{
return (this_p->num_addr * 7);
}
inline int ax25_get_num_control(packet_t this_p)
{
int c;
c = this_p->frame_data[ax25_get_control_offset(this_p)];
if ((c & 0x01) == 0) { /* I xxxx xxx0 */
return ((this_p->modulo == 128) ? 2 : 1);
}
if ((c & 0x03) == 1) { /* S xxxx xx01 */
return ((this_p->modulo == 128) ? 2 : 1);
}
return (1); /* U xxxx xx11 */
}
int ax25_get_info_offset(packet_t this_p)
{
int offset = ax25_get_control_offset(this_p) + ax25_get_num_control(this_p) + ax25_get_num_pid(this_p);
return (offset);
}
int ax25_get_num_info(packet_t this_p)
{
int len;
/* assuming AX.25 frame. */
len = this_p->frame_len - this_p->num_addr * 7 - ax25_get_num_control(this_p) - ax25_get_num_pid(this_p);
if (len < 0) {
len = 0; /* print error? */
}
return (len);
}
/*------------------------------------------------------------------------------
*
@ -2237,6 +2237,8 @@ void il2p_init(int il2p_debug)
}
}
openTraceLog();
} // end il2p_init
@ -2841,6 +2843,9 @@ int il2p_encode_frame(packet_t pp, int max_fec, unsigned char *iout)
int e;
int out_len = 0;
debugTimeStamp("TX Raw Packet is", 'T');
debugHexDump(pp->frame_data, pp->frame_len, 'T');
e = il2p_type_1_header(pp, max_fec, hdr);
if (e >= 0) {
il2p_scramble_block(hdr, iout, IL2P_HEADER_SIZE);
@ -2849,6 +2854,10 @@ int il2p_encode_frame(packet_t pp, int max_fec, unsigned char *iout)
if (e == 0) {
// Success. No info part.
debugTimeStamp("TX Type 1 IL2P Packet no info is", 'T');
debugHexDump(iout, out_len, 'R');
return (out_len);
}
@ -2862,6 +2871,9 @@ int il2p_encode_frame(packet_t pp, int max_fec, unsigned char *iout)
if (k > 0) {
out_len += k;
// Success. Info part was <= 1023 bytes.
debugTimeStamp("TX Type 1 IL2P Packet is", 'T');
debugHexDump(iout, out_len, 'T');
return (out_len);
}
@ -2888,6 +2900,10 @@ int il2p_encode_frame(packet_t pp, int max_fec, unsigned char *iout)
if (k > 0) {
out_len += k;
// Success. Entire AX.25 frame <= 1023 bytes.
debugTimeStamp("TX Type 2 IL2P Packet is", 'T');
debugHexDump(iout, out_len, 'T');
return (out_len);
}
// Something went wrong with the payload encoding.
@ -3959,7 +3975,7 @@ struct il2p_context_s *il2p_context[4][16][3];
*
* Name: il2p_rec_bit
*
* Purpose: Extract FX.25 packets from a stream of bits.
* Purpose: Extract il2p packets from a stream of bits.
*
* Inputs: chan - Channel number.
*
@ -3984,15 +4000,18 @@ void il2p_rec_bit(int chan, int subchan, int slice, int dbit)
if (dbit)
dbit = 1;
else
dbit = 0;
struct il2p_context_s *F = il2p_context[chan][subchan][slice];
if (F == NULL) {
//assert(chan >= 0 && chan < MAX_CHANS);
//assert(subchan >= 0 && subchan < MAX_SUBCHANS);
//assert(slice >= 0 && slice < MAX_SLICERS);
F = il2p_context[chan][subchan][slice] = (struct il2p_context_s *)malloc(sizeof(struct il2p_context_s));
//assert(F != NULL);
memset(F, 0, sizeof(struct il2p_context_s));
memset(F, 0, sizeof(struct il2p_context_s));
}
// Accumulate most recent 24 bits received. Most recent is LSB.
@ -4017,8 +4036,11 @@ memset(F, 0, sizeof(struct il2p_context_s));
// Determine Centre Freq
centreFreq[chan] = GuessCentreFreq(chan);
debugTimeStamp("SYNC Detected", 'R');
}
else if (__builtin_popcount((~F->acc & 0x00ffffff) ^ IL2P_SYNC_WORD) <= 1) {
else if (__builtin_popcount((~(F->acc) & 0x00ffffff) ^ IL2P_SYNC_WORD) <= 1) {
// FIXME - this pops up occasionally with random noise. Find better way to convey information.
// This also happens for each slicer - to noisy.
//Debugprintf ("IL2P header has reverse polarity\n");
@ -4062,7 +4084,7 @@ memset(F, 0, sizeof(struct il2p_context_s));
F->eplen = il2p_payload_compute(&plprop, len, max_fec);
if (il2p_get_debug() >= 1)
if (il2p_get_debug() >= 2)
{
Debugprintf("Header type %d, max fec = %d", hdr_type, max_fec);
Debugprintf("Need to collect %d encoded bytes for %d byte payload.", F->eplen, len);
@ -4157,11 +4179,21 @@ memset(F, 0, sizeof(struct il2p_context_s));
{
// have all crc bytes. enter DECODE
debugTimeStamp("CRC Complete Header is", 'R');
debugHexDump(F->shdr, 15, 'R');
if (F->pc)
{
debugTimeStamp("Payload is", 'R');
debugHexDump(F->spayload, F->pc, 'R');
}
debugTimeStamp("CRC is", 'R');
debugHexDump(F->crc, 4, 'R');
F->state = IL2P_DECODE;
}
}
break;
break;
case IL2P_DECODE:
@ -4182,10 +4214,12 @@ memset(F, 0, sizeof(struct il2p_context_s));
{
// Most likely too many FEC errors.
Debugprintf("FAILED to construct frame in %s.\n", __func__);
debugTimeStamp("Packet Decode failed", 'R');
}
}
if (pp != NULL) {
if (pp != NULL)
{
alevel_t alevel = demod_get_audio_level(chan, subchan);
retry_t retries = F->corrected;
int is_fx25 = 1; // FIXME: distinguish fx.25 and IL2P.
@ -4195,6 +4229,9 @@ memset(F, 0, sizeof(struct il2p_context_s));
// if using crc pass received crc to packet object
debugTimeStamp("Decoded Packet is", 'R');
debugHexDump(pp->frame_data, pp->frame_len, 'R');
if (il2p_crc[chan])
{
//copy crc bytes to packet object
@ -4205,14 +4242,15 @@ memset(F, 0, sizeof(struct il2p_context_s));
pp->crc[3] = F->crc[3];
}
debugTimeStamp("CRC raw bytes", 'R');
debugHexDump(pp->crc, 4, 'R');
multi_modem_process_rec_packet(chan, subchan, slice, pp, alevel, retries, is_fx25, slice, centreFreq[chan]);
}
} // end block for local variables.
if (il2p_get_debug() >= 1) {
if (il2p_get_debug() >= 2)
Debugprintf("-----");
}
F->state = IL2P_SEARCHING;
break;
@ -4426,7 +4464,7 @@ string * il2p_send_frame(int chan, packet_t pp, int max_fec, int polarity)
// if we are using crc add it now. elen should point to end of data
// crc should be at pp->frame_data[pp->frame_len]
if (il2p_crc[chan])
if (il2p_crc[chan] & 1)
{
// The four encoded CRC bytes are arranged :
// | CRC3 | CRC2 | CRC1 | CRC0 |
@ -4440,10 +4478,9 @@ string * il2p_send_frame(int chan, packet_t pp, int max_fec, int polarity)
encoded[elen++] = Hamming74EncodeTable[crc1 &0xf];
}
number_of_bits_sent[chan] = 0;
if (il2p_get_debug() >= 1) {
if (il2p_get_debug() >= 2) {
Debugprintf("IL2P frame, max_fec = %d, %d encoded bytes total", max_fec, elen);
// fx_hex_dump(encoded, elen);
}
@ -4475,13 +4512,15 @@ string * il2p_send_frame(int chan, packet_t pp, int max_fec, int polarity)
stringAdd(packet, encoded, elen);
// Add bytes for tail and TX padding, but don't send if another packet is available (?? how ??)
number_of_bits_sent[chan] = 0;
tx_fx25_size[chan] = packet->Length * 8;
return packet;
}
// TX Code. Builds whole packet then sends a bit at a time
#define TX_SILENCE 0
@ -4522,6 +4561,11 @@ string * fill_il2p_data(int snd_ch, string * data)
result = il2p_send_frame(snd_ch, pp, 1, 0);
ax25_delete(pp);
debugTimeStamp("TX Complete packet including Preamble and CRC and Tail", 'T');
debugHexDump(result->Data, result->Length, 'T');
return result;
}
@ -4657,6 +4701,10 @@ int il2p_get_new_bit(int snd_ch, Byte bit)
break;
case FRAME_NO_FRAME:
// I dont really like this state machine. We have run out of frames to send so
// should go straight to tail. This way we add an extra bit. Or does this really matter ??
tx_tail_cnt[snd_ch] = 0;
tx_frame_status[snd_ch] = FRAME_EMPTY;
tx_status[snd_ch] = TX_TAIL;
@ -4666,5 +4714,251 @@ int il2p_get_new_bit(int snd_ch, Byte bit)
return bit;
}
extern int txLatency;
extern int useTImedPTT;
int il2p_get_new_bit_tail(UCHAR snd_ch, UCHAR bit)
{
// This sends reversals. It is an experiment
int tailbits = (txtail[snd_ch] * tx_baudrate[snd_ch]) / 1000;
#ifndef WIN32
if (useTimedPTT)
tailbits += (txLatency * tx_baudrate[snd_ch]) / 1000; // add padding to tx buffer to make sure we don't send silence
#endif
if (tx_tail_cnt[snd_ch]++ > tailbits)
tx_status[snd_ch] = TX_WAIT_BPF;
return (tx_tail_cnt[snd_ch] & 1); // altenating 1/0
}
void debugHexDump(unsigned char * Data, int Len, char Dirn)
{
char Line[256];
#ifndef LOGTX
if (Dirn == 'T')
return;
#endif
#ifndef LOGRX
if (Dirn == 'R')
return;
#endif
while (Len > 0)
{
sprintf(Line, "%02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x\n",
Data[0], Data[1], Data[2], Data[3], Data[4], Data[5], Data[6], Data[7],
Data[8], Data[9], Data[10], Data[11], Data[12], Data[13], Data[14], Data[15]);
if (Len < 16)
{
Line[Len * 3] = 10;
Line[Len * 3 + 1] = 0;
}
writeTraceLog(Line);
Data += 16;
Len -= 16;
}
}
// Hamming experiments
// from https://github.com/nasserkessas/hamming-codes/blob/master/hamming.c
#define block unsigned short // 16 bits
#define bit uint8_t // 8 bits (only last is used)
int multipleXor(int *indicies, int len)
{
int val = indicies[0];
for (int i = 1; i < len; i++)
{
val = val ^ indicies[i];
}
return val;
}
bit getBit(unsigned short b, int i)
{
return (b << i) & (int)pow(2, (sizeof(unsigned short) * 8 - 1));
}
unsigned short toggleBit(unsigned short b, int i)
{
return b ^ (1 << i);
}
bit getCharBit(char b, int i)
{
return (b << i) & (int)pow(2, (sizeof(char) * 8 - 1));
}
block modifyBit(block n, int p, bit b)
{
return ((n & ~(1 << (sizeof(block) * 8 - 1 - p))) | (b << (sizeof(block) * 8 - 1 - p)));
}
void encode(char *input, int len, FILE *ptr) {
// Amount of bits in a block //
int bits = sizeof(block) * 8;
// Amount of bits per block used to carry the message //
int messageBits = bits - log2(bits) - 1;
// Amount of blocks needed to encode message //
int blocks = ceil((float)len / messageBits);
// Array of encoded blocks //
block encoded[16];
// Loop through each block //
for (int i = 0; i < blocks + 1; i++) {
printf("On Block %d:\n", i);
// Final encoded block variable //
block thisBlock = 0;
// Amount of "skipped" bits (used for parity) //
int skipped = 0;
// Count of how many bits are "on" //
int onCount = 0;
// Array of "on" bits //
int onList[64];
// Loop through each message bit in this block to populate final block //
for (int j = 0; j < bits; j++) {
// Skip bit if reserved for parity bit //
if ((j & (j - 1)) == 0) { // Check if j is a power of two or 0
skipped++;
continue;
}
bit thisBit;
if (i != blocks) {
// Current overall bit number //
int currentBit = i * messageBits + (j - skipped);
// Current character //
int currentChar = currentBit / (sizeof(char) * 8); // int division
// Value of current bit //
thisBit = currentBit < len * sizeof(char) * 8 ? getCharBit(input[currentChar], currentBit - currentChar * 8) : 0;
}
else {
thisBit = getBit(len / 8, j - skipped + (sizeof(block) * 8 - messageBits));
}
// If bit is "on", add to onList and onCount //
if (thisBit) {
onList[onCount] = j;
onCount++;
}
// Populate final message block //
thisBlock = modifyBit(thisBlock, j, thisBit);
}
// Calculate values of parity bits //
block parityBits = multipleXor(onList, onCount);
// Loop through skipped bits (parity bits) //
for (int k = 1; k < skipped; k++) { // skip bit 0
// If bit is "on", add to onCount
if (getBit(parityBits, sizeof(block) * 8 - skipped + k)) {
onCount++;
}
// Add parity bit to final block //
thisBlock = modifyBit(thisBlock, (int)pow(2, skipped - k - 1), getBit(parityBits, sizeof(block) * 8 - skipped + k));
}
// Add overall parity bit (total parity of onCount) //
thisBlock = modifyBit(thisBlock, 0, onCount & 1);
// Output final block //
// printBlock(thisBlock);
// putchar('\n');
// Add block to encoded blocks //
encoded[i] = thisBlock;
}
// Write encoded message to file //
fwrite(encoded, sizeof(block), blocks + 1, ptr);
}
void decode(block input[], int len, FILE *ptr)
{
// Amount of bits in a block //
int bits = sizeof(block) * 8;
for (int b = 0; b < (len / sizeof(block)); b++) {
printf("On Block %d:\n", b);
// Print initial block //
// printBlock(input[b]);
// Count of how many bits are "on" //
int onCount = 0;
// Array of "on" bits //
int onList[64];
// Populate onCount and onList //
for (int i = 1; i < bits; i++) {
getBit(input[b], i);
if (getBit(input[b], i)) {
onList[onCount] = i;
onCount++;
}
}
// Check for single errors //
int errorLoc = multipleXor(onList, onCount);
if (errorLoc) {
// Check for multiple errors //
if (!(onCount & 1 ^ getBit(input[b], 0))) { // last bit of onCount (total parity) XOR first bit of block (parity bit)
printf("\nMore than one error detected. Aborting.\n");
exit(1);
}
// Flip error bit //
else {
printf("\nDetected error at position %d, flipping bit.\n", errorLoc);
input[b] = toggleBit(input[b], (bits - 1) - errorLoc);
// Re-print block for comparison //
// printBlock(input[b]);
}
}
putchar('\n');
}
}

18
kiss_mode.c
View File

@ -22,19 +22,7 @@ along with QtSoundModem. If not, see http://www.gnu.org/licenses
#include "UZ7HOStuff.h"
/*
uses sysutils,classes;
procedure KISS_init;
procedure KISS_free;
procedure KISS_add_stream(socket: integer);
procedure KISS_del_stream(socket: integer);
procedure KISS_on_data_in(socket: integer; data: string);
procedure KISS_on_data_out(port: byte; frame: string);
procedure KISS_send_ack(port: byte; data: string);
procedure KISS_send_ack1(port: byte);
*/
// I don't like this. maybe fine for Dephi but overcomlicated for C
int add_raw_frames(int snd_ch, string * frame, TStringList * buf);
// I think I need a struct for each connection, but a simple array of entries should be fine
// My normal ** and count system
@ -49,6 +37,7 @@ int KISSConCount = 0;
#define TFESC 0xDD
#define KISS_ACKMODE 0x0C
#define KISS_DATA 0
#define QTSMKISSCMD 7
struct TKISSMode_t KISS;
@ -95,7 +84,8 @@ void KISS_add_stream(void * Socket)
KissConnections = realloc(KissConnections, (KISSConCount + 1) * sizeof(void *));
KISS = KissConnections[KISSConCount++] = malloc(sizeof(KISS));
KISS = KissConnections[KISSConCount++] = malloc(sizeof(*KISS));
memset(KISS, 0, sizeof(*KISS));
KISS->Socket = Socket;
KISS->data_in = newString();

7
main.cpp
View File

@ -33,15 +33,18 @@ extern void saveSettings();
extern int Closing;
workerThread *t;
serialThread *serial;
mynet m1;
QCoreApplication * a;
QtSoundModem * w;
int main(int argc, char *argv[])
{
char Title[128];
QString Response;
if (argc > 1 && strcmp(argv[1], "nogui") == 0)
nonGUIMode = 1;
@ -77,6 +80,10 @@ int main(int argc, char *argv[])
}
QObject::connect(&m1, SIGNAL(HLSetPTT(int)), &m1, SLOT(doHLSetPTT(int)), Qt::QueuedConnection);
QObject::connect(&m1, SIGNAL(FLRigSetPTT(int)), &m1, SLOT(doFLRigSetPTT(int)), Qt::QueuedConnection);
QObject::connect(&m1, SIGNAL(mgmtSetPTT(int, int)), &m1, SLOT(domgmtSetPTT(int, int)), Qt::QueuedConnection);
QObject::connect(&m1, SIGNAL(startTimer(int)), &m1, SLOT(dostartTimer(int)), Qt::QueuedConnection);
QObject::connect(&m1, SIGNAL(stopTimer()), &m1, SLOT(dostopTimer()), Qt::QueuedConnection);

1
ofdm.c
View File

@ -200,6 +200,7 @@ extern int LastDataFrameType; // Last data frame processed (for Memory ARQ, et
extern int intNAKctr;
extern int intACKctr;
extern int intTimeouts;
void ARDOPSampleSink(short Sample);
extern UCHAR goodReceivedBlocks[128];
extern UCHAR goodReceivedBlockLen[128];

22
release/moc_predefs.h
View File

@ -1,11 +1,11 @@
#define _MSC_EXTENSIONS
#define _INTEGRAL_MAX_BITS 64
#define _MSC_VER 1916
#define _MSC_FULL_VER 191627043
#define _MSC_BUILD 0
#define _WIN32
#define _M_IX86 600
#define _M_IX86_FP 2
#define _CPPRTTI
#define _MT
#define _DLL
#define _MSC_EXTENSIONS
#define _INTEGRAL_MAX_BITS 64
#define _MSC_VER 1916
#define _MSC_FULL_VER 191627043
#define _MSC_BUILD 0
#define _WIN32
#define _M_IX86 600
#define _M_IX86_FP 2
#define _CPPRTTI
#define _MT
#define _DLL

33
sm_main.c
View File

@ -30,8 +30,19 @@ void make_core_LPF(UCHAR snd_ch, short width);
void dw9600ProcessSample(int snd_ch, short Sample);
void init_RUH48(int snd_ch);
void init_RUH96(int snd_ch);
void CheckPSKWindows();
void Demodulator(int snd_ch, int rcvr_nr, float * src_buf, int last, int xcenter);
void sendSamplestoUDP(short * Samples, int nSamples, int Port);
void RSIDProcessSamples(short * Samples, int nSamples);
void ARDOPProcessNewSamples(int chan, short * Samples, int nSamples);
void doWaterfall(int snd_ch);
void displayWaterfall();
void timer_event();
void decode_frame(Byte * frame, int len, Byte * path, string * data, Byte * pid, Byte * nr, Byte * ns, Byte * f_type, Byte * f_id, Byte * rpt, Byte * pf, Byte * cr);
void get_monitor_path(Byte * path, char * mycall, char * corrcall, char * digi);
void ProcessRXFrames(int snd_ch);
char modes_name[modes_count][21] =
char modes_name[modes_count][21] =
{
"AFSK AX.25 300bd","AFSK AX.25 1200bd","AFSK AX.25 600bd","AFSK AX.25 2400bd",
"BPSK AX.25 1200bd","BPSK AX.25 600bd","BPSK AX.25 300bd","BPSK AX.25 2400bd",
@ -74,8 +85,8 @@ int Channels = 2;
int BitsPerSample = 16;
float TX_Samplerate = 12000;
float RX_Samplerate = 12000;
int RX_SR = 11025;
int TX_SR = 11025;
//int RX_SR = 11025;
//int TX_SR = 11025;
int RX_PPM = 0;
int TX_PPM = 0;
int tx_bufsize = 512;
@ -448,11 +459,12 @@ void init_Q4800(int snd_ch)
void init_Q3600(int snd_ch)
{
qpsk_set[snd_ch].mode = QPSK_SM;
qpsk_set[snd_ch].mode = QPSK_V26; // QPSK_SM;
modem_mode[snd_ch] = MODE_QPSK;
rx_shift[snd_ch] = 1800;
rx_baudrate[snd_ch] = 1800;
tx_bitrate[snd_ch] = 3600;
pskStates[snd_ch] = 4;
if (modem_def[snd_ch])
get_filter_values(snd_ch);
}
@ -826,10 +838,10 @@ void runModems()
if (thread[2]) WaitForSingleObject(&thread[2], 2000);
if (thread[3]) WaitForSingleObject(&thread[3], 2000);
#else
if (thread[0]) pthread_join(thread[0], &res);
if (thread[1]) pthread_join(thread[1], &res);
if (thread[2]) pthread_join(thread[2], &res);
if (thread[3]) pthread_join(thread[3], &res);
if (thread[0]) pthread_join(thread[0], NULL);
if (thread[1]) pthread_join(thread[1], NULL);
if (thread[2]) pthread_join(thread[2], NULL);
if (thread[3]) pthread_join(thread[3], NULL);
#endif
}
}
@ -1041,7 +1053,10 @@ void BufferFull(short * Samples, int nSamples) // These are Stereo Samples
// We need to run the waterfall FFT for the frequency guessing to work
int FirstWaterfallChan = 0;
short * ptr1 = &fft_buf[0][fftCount];
short * ptr2 = &fft_buf[1][fftCount];
@ -1087,7 +1102,7 @@ void BufferFull(short * Samples, int nSamples) // These are Stereo Samples
data2 += 2;
}
if (((Toggle & 1) == 0))
doWaterfall(1);
doWaterfall(1);
}
if (Firstwaterfall || Secondwaterfall)

439
tcpCode.cpp
View File

@ -18,6 +18,7 @@ along with QtSoundModem. If not, see http://www.gnu.org/licenses
*/
// UZ7HO Soundmodem Port by John Wiseman G8BPQ
#include <QMessageBox>
@ -27,15 +28,26 @@ along with QtSoundModem. If not, see http://www.gnu.org/licenses
#define CONNECT(sndr, sig, rcvr, slt) connect(sndr, SIGNAL(sig), rcvr, SLOT(slt))
QList<QTcpSocket*> _MgmtSockets;
QList<QTcpSocket*> _KISSSockets;
QList<QTcpSocket*> _AGWSockets;
QTcpServer * _KISSserver;
QTcpServer * _AGWserver;
QTcpServer * SixPackServer;
QTcpSocket *SixPackSocket;
QTcpServer * _MgmtServer;
TMgmtMode ** MgmtConnections = NULL;
int MgmtConCount = 0;
extern workerThread *t;
extern mynet m1;
extern serialThread *serial;
QString Response;
extern int MgmtPort;
extern "C" int KISSPort;
extern "C" void * initPulse();
extern "C" int SoundMode;
@ -44,6 +56,10 @@ extern "C" int UDPClientPort;
extern "C" int UDPServerPort;
extern "C" int TXPort;
extern char SixPackDevice[256];
extern int SixPackPort;
extern int SixPackEnable;
char UDPHost[64] = "";
int UDPServ = 0; // UDP Server Active (ie broadcast sound frams as UDP packets)
@ -68,9 +84,10 @@ extern "C"
void MainLoop();
void set_speed(int snd_ch, int Modem);
void init_speed(int snd_ch);
}
void Process6PackData(unsigned char * Bytes, int Len);
extern "C" int nonGUIMode;
QTimer *timer;
@ -121,12 +138,56 @@ void mynet::start()
}
}
if (MgmtPort)
{
_MgmtServer = new(QTcpServer);
if (_MgmtServer->listen(QHostAddress::Any, MgmtPort))
connect(_MgmtServer, SIGNAL(newConnection()), this, SLOT(onMgmtConnection()));
else
{
if (nonGUIMode)
Debugprintf("Listen failed for Mgmt Port");
else
{
QMessageBox msgBox;
msgBox.setText("Listen failed for Mgmt Port.");
msgBox.exec();
}
}
}
QObject::connect(t, SIGNAL(sendtoKISS(void *, unsigned char *, int)), this, SLOT(sendtoKISS(void *, unsigned char *, int)), Qt::QueuedConnection);
QTimer *timer = new QTimer(this);
connect(timer, SIGNAL(timeout()), this, SLOT(MyTimerSlot()));
timer->start(100);
if (SixPackEnable)
{
if (SixPackDevice[0] && strcmp(SixPackDevice, "None") != 0) // Using serial
{
serial->startSlave(SixPackDevice, 30000, Response);
serial->start();
// connect(serial, &serialThread::request, this, &QtSoundModem::showRequest);
// connect(serial, &serialThread::error, this, &QtSoundModem::processError);
// connect(serial, &serialThread::timeout, this, &QtSoundModem::processTimeout);
}
else if (SixPackPort) // using TCP
{
SixPackServer = new(QTcpServer);
if (SixPackServer->listen(QHostAddress::Any, SixPackPort))
connect(SixPackServer, SIGNAL(newConnection()), this, SLOT(on6PackConnection()));
}
}
}
void mynet::MyTimerSlot()
@ -172,6 +233,32 @@ void mynet::onAGWReadyRead()
AGW_explode_frame(sender, datas.data(), datas.length());
}
void mynet::on6PackReadyRead()
{
QTcpSocket* sender = static_cast<QTcpSocket*>(QObject::sender());
QByteArray datas = sender->readAll();
Process6PackData((unsigned char *)datas.data(), datas.length());
}
void mynet::on6PackSocketStateChanged(QAbstractSocket::SocketState socketState)
{
if (socketState == QAbstractSocket::UnconnectedState)
{
QTcpSocket* sender = static_cast<QTcpSocket*>(QObject::sender());
}
}
void mynet::on6PackConnection()
{
QTcpSocket *clientSocket = SixPackServer->nextPendingConnection();
connect(clientSocket, SIGNAL(readyRead()), this, SLOT(on6PackReadyRead()));
connect(clientSocket, SIGNAL(stateChanged(QAbstractSocket::SocketState)), this, SLOT(on6PackSocketStateChanged(QAbstractSocket::SocketState)));
Debugprintf("6Pack Connect Sock %x", clientSocket);
}
void mynet::onKISSConnection()
{
@ -186,6 +273,183 @@ void mynet::onKISSConnection()
Debugprintf("KISS Connect Sock %x", clientSocket);
}
void Mgmt_del_socket(void * socket)
{
int i;
TMgmtMode * MGMT = NULL;
if (MgmtConCount == 0)
return;
for (i = 0; i < MgmtConCount; i++)
{
if (MgmtConnections[i]->Socket == socket)
{
MGMT = MgmtConnections[i];
break;
}
}
if (MGMT == NULL)
return;
// Need to remove entry and move others down
MgmtConCount--;
while (i < MgmtConCount)
{
MgmtConnections[i] = MgmtConnections[i + 1];
i++;
}
}
void mynet::onMgmtConnection()
{
QTcpSocket *clientSocket = (QTcpSocket *)_MgmtServer->nextPendingConnection();
connect(clientSocket, SIGNAL(readyRead()), this, SLOT(onMgmtReadyRead()));
connect(clientSocket, SIGNAL(stateChanged(QAbstractSocket::SocketState)), this, SLOT(onMgmtSocketStateChanged(QAbstractSocket::SocketState)));
_MgmtSockets.append(clientSocket);
// Create a data structure to hold session info
TMgmtMode * MGMT;
MgmtConnections = (TMgmtMode **)realloc(MgmtConnections, (MgmtConCount + 1) * sizeof(void *));
MGMT = MgmtConnections[MgmtConCount++] = (TMgmtMode *)malloc(sizeof(*MGMT));
memset(MGMT, 0, sizeof(*MGMT));
MGMT->Socket = clientSocket;
Debugprintf("Mgmt Connect Sock %x", clientSocket);
clientSocket->write("Connected to QtSM\r");
}
void mynet::onMgmtSocketStateChanged(QAbstractSocket::SocketState socketState)
{
if (socketState == QAbstractSocket::UnconnectedState)
{
QTcpSocket* sender = static_cast<QTcpSocket*>(QObject::sender());
Mgmt_del_socket(sender);
// free(sender->Msg);
_MgmtSockets.removeOne(sender);
Debugprintf("Mgmt Disconnect Sock %x", sender);
}
}
void mynet::onMgmtReadyRead()
{
QTcpSocket* sender = static_cast<QTcpSocket*>(QObject::sender());
MgmtProcessLine(sender);
}
extern "C" void SendMgmtPTT(int snd_ch, int PTTState)
{
// Won't work in non=gui mode
emit m1.mgmtSetPTT(snd_ch, PTTState);
}
extern "C" char * strlop(char * buf, char delim);
extern "C" char modes_name[modes_count][21];
extern "C" int speed[5];
#ifndef WIN32
extern "C" int memicmp(char *a, char *b, int n);
#endif
void mynet::MgmtProcessLine(QTcpSocket* socket)
{
// Find Session
TMgmtMode * MGMT = NULL;
for (int i = 0; i < MgmtConCount; i++)
{
if (MgmtConnections[i]->Socket == socket)
{
MGMT = MgmtConnections[i];
break;
}
}
if (MGMT == NULL)
{
socket->readAll();
return;
}
while (socket->bytesAvailable())
{
QByteArray datas = socket->peek(512);
char * Line = datas.data();
if (strchr(Line, '\r') == 0)
return;
char * rest = strlop(Line, '\r');
int used = rest - Line;
// Read the upto the cr Null
datas = socket->read(used);
Line = datas.data();
rest = strlop(Line, '\r');
if (memicmp(Line, "QtSMPort ", 8) == 0)
{
if (strlen(Line) > 10)
{
int port = atoi(&Line[8]);
int bpqport = atoi(&Line[10]);
if ((port > 0 && port < 5) && (bpqport > 0 && bpqport < 64))
{
MGMT->BPQPort[port - 1] = bpqport;
socket->write("Ok\r");
}
}
}
else if (memicmp(Line, "Modem ", 6) == 0)
{
int port = atoi(&Line[6]);
if (port > 0 && port < 5)
{
// if any more params - if a name follows, set it else return it
char reply[80];
sprintf(reply, "Port %d Chan %d Freq %d Modem %s \r", MGMT->BPQPort[port - 1], port, rx_freq[port - 1], modes_name[speed[port - 1]]);
socket->write(reply);
}
else
socket->write("Invalid Port\r");
}
else
{
socket->write("Invalid command\r");
}
}
}
void mynet::onKISSSocketStateChanged(QAbstractSocket::SocketState socketState)
{
if (socketState == QAbstractSocket::UnconnectedState)
@ -195,6 +459,7 @@ void mynet::onKISSSocketStateChanged(QAbstractSocket::SocketState socketState)
KISS_del_socket(sender);
_KISSSockets.removeOne(sender);
Debugprintf("KISS Disconnect Sock %x", sender);
}
}
@ -235,7 +500,7 @@ void mynet::sendtoKISS(void * sock, unsigned char * Msg, int Len)
QTcpSocket* socket = (QTcpSocket*)sock;
socket->write((char *)Msg, Len);
}
// free(Msg);
free(Msg);
}
@ -244,6 +509,10 @@ QTcpSocket * HAMLIBsock;
int HAMLIBConnected = 0;
int HAMLIBConnecting = 0;
QTcpSocket * FLRIGsock;
int FLRIGConnected = 0;
int FLRIGConnecting = 0;
void mynet::HAMLIBdisplayError(QAbstractSocket::SocketError socketError)
{
switch (socketError)
@ -332,6 +601,142 @@ extern "C" void HAMLIBSetPTT(int PTTState)
emit m1.HLSetPTT(PTTState);
}
extern "C" void FLRigSetPTT(int PTTState)
{
// Won't work in non=gui mode
emit m1.FLRigSetPTT(PTTState);
}
QTcpSocket * FLRigsock;
int FLRigConnected = 0;
int FLRigConnecting = 0;
void mynet::FLRigdisplayError(QAbstractSocket::SocketError socketError)
{
switch (socketError)
{
case QAbstractSocket::RemoteHostClosedError:
break;
case QAbstractSocket::HostNotFoundError:
QMessageBox::information(nullptr, tr("QtSM"),
"FLRig host was not found. Please check the "
"host name and portsettings->");
break;
case QAbstractSocket::ConnectionRefusedError:
qDebug() << "FLRig Connection Refused";
break;
default:
qDebug() << "FLRig Connection Failed";
break;
}
FLRigConnecting = 0;
FLRigConnected = 0;
}
void mynet::FLRigreadyRead()
{
unsigned char Buffer[4096];
QTcpSocket* Socket = static_cast<QTcpSocket*>(QObject::sender());
// read the data from the socket. Don't do anyhing with it at the moment
Socket->read((char *)Buffer, 4095);
}
void mynet::onFLRigSocketStateChanged(QAbstractSocket::SocketState socketState)
{
if (socketState == QAbstractSocket::UnconnectedState)
{
// Close any connections
FLRigConnected = 0;
FLRigConnecting = 0;
// delete (FLRigsock);
// FLRigsock = 0;
qDebug() << "FLRig Connection Closed";
}
else if (socketState == QAbstractSocket::ConnectedState)
{
FLRigConnected = 1;
FLRigConnecting = 0;
qDebug() << "FLRig Connected";
}
}
void mynet::ConnecttoFLRig()
{
delete(FLRigsock);
FLRigConnected = 0;
FLRigConnecting = 1;
FLRigsock = new QTcpSocket();
connect(FLRigsock, SIGNAL(error(QAbstractSocket::SocketError)), this, SLOT(FLRigdisplayError(QAbstractSocket::SocketError)));
connect(FLRigsock, SIGNAL(readyRead()), this, SLOT(FLRigreadyRead()));
connect(FLRigsock, SIGNAL(stateChanged(QAbstractSocket::SocketState)), this, SLOT(onFLRigSocketStateChanged(QAbstractSocket::SocketState)));
FLRigsock->connectToHost(FLRigHost, FLRigPort);
return;
}
static char MsgHddr[] = "POST /RPC2 HTTP/1.1\r\n"
"User-Agent: XMLRPC++ 0.8\r\n"
"Host: 127.0.0.1:7362\r\n"
"Content-Type: text/xml\r\n"
"Content-length: %d\r\n"
"\r\n%s";
static char Req[] = "<?xml version=\"1.0\"?>\r\n"
"<methodCall><methodName>%s</methodName>\r\n"
"%s"
"</methodCall>\r\n";
void mynet::doFLRigSetPTT(int c)
{
int Len;
char ReqBuf[512];
char SendBuff[512];
char ValueString[256] = "";
sprintf(ValueString, "<params><param><value><i4>%d</i4></value></param></params\r\n>", c);
Len = sprintf(ReqBuf, Req, "rig.set_ptt", ValueString);
Len = sprintf(SendBuff, MsgHddr, Len, ReqBuf);
if (FLRigsock == nullptr || FLRigsock->state() != QAbstractSocket::ConnectedState)
ConnecttoFLRig();
if (FLRigsock == nullptr || FLRigsock->state() != QAbstractSocket::ConnectedState)
return;
FLRigsock->write(SendBuff);
FLRigsock->waitForBytesWritten(3000);
QByteArray datas = FLRigsock->readAll();
qDebug(datas.data());
}
extern "C" void startTimer(int Time)
{
// Won't work in non=gui mode
@ -374,6 +779,36 @@ void mynet::doHLSetPTT(int c)
}
void mynet::domgmtSetPTT(int snd_ch, int PTTState)
{
char Msg[64];
uint64_t ret;
for (QTcpSocket* socket : _MgmtSockets)
{
// Find Session
TMgmtMode * MGMT = NULL;
for (int i = 0; i < MgmtConCount; i++)
{
if (MgmtConnections[i]->Socket == socket)
{
MGMT = MgmtConnections[i];
break;
}
}
if (MGMT == NULL)
continue;
if (MGMT->BPQPort[snd_ch])
{
sprintf(Msg, "PTT %d %s\r", MGMT->BPQPort[snd_ch], PTTState ? "ON" : "OFF");
ret = socket->write(Msg);
}
}
}

31
tcpCode.h
View File

@ -4,6 +4,16 @@
#define CONNECT(sndr, sig, rcvr, slt) connect(sndr, SIGNAL(sig), rcvr, SLOT(slt))
//class myTcpSocket : public QTcpSocket
//{
//public:
// char Msg[512]; // Received message
// int Len;
// int BPQPort[4]; // BPQ port for each modem
//};
class mynet : public QObject
{
Q_OBJECT
@ -11,6 +21,8 @@ class mynet : public QObject
signals:
void HLSetPTT(int c);
void FLRigSetPTT(int c);
void mgmtSetPTT(int port, int state);
void startTimer(int Time);
void stopTimer();
@ -22,17 +34,27 @@ public:
public slots:
void onAGWReadyRead();
void onKISSSocketStateChanged(QAbstractSocket::SocketState socketState);
void onMgmtSocketStateChanged(QAbstractSocket::SocketState socketState);
void onMgmtReadyRead();
void onKISSReadyRead();
void onAGWSocketStateChanged(QAbstractSocket::SocketState socketState);
void onKISSConnection();
void onMgmtConnection();
void MyTimerSlot();
void onAGWConnection();
void on6PackConnection();
void on6PackReadyRead();
void on6PackSocketStateChanged(QAbstractSocket::SocketState socketState);
void dropPTT();
void displayError(QAbstractSocket::SocketError socketError);
void sendtoKISS(void * sock, unsigned char * Msg, int Len);
void FLRigdisplayError(QAbstractSocket::SocketError socketError);
void FLRigreadyRead();
void onFLRigSocketStateChanged(QAbstractSocket::SocketState socketState);
void ConnecttoFLRig();
void HAMLIBdisplayError(QAbstractSocket::SocketError socketError);
void HAMLIBreadyRead();
void onHAMLIBSocketStateChanged(QAbstractSocket::SocketState socketState);
@ -40,6 +62,8 @@ public slots:
void dostartTimer(int Time);
void dostopTimer();
void doHLSetPTT(int c);
void domgmtSetPTT(int chan, int state);
void doFLRigSetPTT(int c);
void readPendingDatagrams();
void socketError();
@ -53,6 +77,7 @@ private:
int bytesReceived;
int TotalBytes;
int PayloadSize;
void MgmtProcessLine(QTcpSocket* socket);
};
@ -65,6 +90,11 @@ signals:
void sendtoKISS(void *, unsigned char *, int);
void openSockets();
void startCWIDTimer();
void setWaterfallImage();
void setLevelImage();
void setConstellationImage(int, int);
void startWatchdog();
void stopWatchdog();
private:
@ -75,4 +105,3 @@ public: