//
// This file is part of Dire Wolf, an amateur radio packet TNC.
//
// Copyright (C) 2011, 2012, 2014, 2015, 2016, 2023 John Langner, WB2OSZ
//
// 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 2 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 .
//
/*------------------------------------------------------------------
*
* Module: tq.c
*
* Purpose: Transmit queue - hold packets for transmission until the channel is clear.
*
* Description: Producers of packets to be transmitted call tq_append and then
* go merrily on their way, unconcerned about when the packet might
* actually get transmitted.
*
* Another thread waits until the channel is clear and then removes
* packets from the queue and transmits them.
*
* Revisions: 1.2 - Enhance for multiple audio devices.
*
*---------------------------------------------------------------*/
#define TQ_C 1
#include "direwolf.h"
#include
#include
#include
#include
#include
#include "ax25_pad.h"
#include "textcolor.h"
#include "audio.h"
#include "tq.h"
#include "dedupe.h"
#include "igate.h"
#include "dtime_now.h"
#include "nettnc.h"
static packet_t queue_head[MAX_RADIO_CHANS][TQ_NUM_PRIO]; /* Head of linked list for each queue. */
static dw_mutex_t tq_mutex; /* Critical section for updating queues. */
/* Just one for all queues. */
#if __WIN32__
static HANDLE wake_up_event[MAX_RADIO_CHANS]; /* Notify transmit thread when queue not empty. */
#else
static pthread_cond_t wake_up_cond[MAX_RADIO_CHANS]; /* Notify transmit thread when queue not empty. */
static pthread_mutex_t wake_up_mutex[MAX_RADIO_CHANS]; /* Required by cond_wait. */
static int xmit_thread_is_waiting[MAX_RADIO_CHANS];
#endif
static int tq_is_empty (int chan);
/*-------------------------------------------------------------------
*
* Name: tq_init
*
* Purpose: Initialize the transmit queue.
*
* Inputs: audio_config_p - Audio device configuration.
*
* Outputs:
*
* Description: Initialize the queue to be empty and set up other
* mechanisms for sharing it between different threads.
*
* We have different timing rules for different types of
* packets so they are put into different queues.
*
* High Priority -
*
* Packets which are being digipeated go out first.
* Latest recommendations are to retransmit these
* immdediately (after no one else is heard, of course)
* rather than waiting random times to avoid collisions.
* The KPC-3 configuration option for this is "UIDWAIT OFF".
*
* Low Priority -
*
* Other packets are sent after a random wait time
* (determined by PERSIST & SLOTTIME) to help avoid
* collisions.
*
* Each audio channel has its own queue.
*
*--------------------------------------------------------------------*/
static struct audio_s *save_audio_config_p;
void tq_init (struct audio_s *audio_config_p)
{
int c, p;
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_init ( )\n");
#endif
save_audio_config_p = audio_config_p;
for (c=0; cchan_medium[c] == MEDIUM_RADIO) {
wake_up_event[c] = CreateEvent (NULL, 0, 0, NULL);
if (wake_up_event[c] == NULL) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("tq_init: CreateEvent: can't create transmit wake up event, c=%d", c);
exit (1);
}
}
}
#else
int err;
for (c = 0; c < MAX_RADIO_CHANS; c++) {
xmit_thread_is_waiting[c] = 0;
if (audio_config_p->chan_medium[c] == MEDIUM_RADIO) {
err = pthread_cond_init (&(wake_up_cond[c]), NULL);
if (err != 0) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("tq_init: pthread_cond_init c=%d err=%d", c, err);
perror ("");
exit (1);
}
dw_mutex_init(&(wake_up_mutex[c]));
}
}
#endif
} /* end tq_init */
/*-------------------------------------------------------------------
*
* Name: tq_append
*
* Purpose: Add an APRS packet to the end of the specified transmit queue.
*
* Connected mode is a little different. Use lm_data_request instead.
*
* Inputs: chan - Channel, 0 is first.
*
* New in 1.7:
* Channel can be assigned to IGate rather than a radio.
*
* New in 1.8:
* Channel can be assigned to a network TNC.
*
* prio - Priority, use TQ_PRIO_0_HI for digipeated or
* TQ_PRIO_1_LO for normal.
*
* pp - Address of packet object.
* Caller should NOT make any references to
* it after this point because it could
* be deleted at any time.
*
* Outputs:
*
* Description: Add packet to end of linked list.
* Signal the transmit thread if the queue was formerly empty.
*
* Note that we have a transmit thread each audio channel.
* Two channels can share one audio output device.
*
* IMPORTANT! Don't make an further references to the packet object after
* giving it to tq_append.
*
*--------------------------------------------------------------------*/
void tq_append (int chan, int prio, packet_t pp)
{
packet_t plast;
packet_t pnext;
#if DEBUG
unsigned char *pinfo;
int info_len = ax25_get_info (pp, &pinfo);
if (info_len > 10) info_len = 10;
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_append (chan=%d, prio=%d, pp=%p) \"%*s\"\n", chan, prio, pp, info_len, (char*)pinfo);
#endif
assert (prio >= 0 && prio < TQ_NUM_PRIO);
if (pp == NULL) {
text_color_set(DW_COLOR_DEBUG);
dw_printf ("INTERNAL ERROR: tq_append NULL packet pointer. Please report this!\n");
return;
}
#if AX25MEMDEBUG
if (ax25memdebug_get()) {
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_append (chan=%d, prio=%d, seq=%d)\n", chan, prio, ax25memdebug_seq(pp));
}
#endif
// New in 1.7 - A channel can be assigned to the IGate rather than a radio.
// New in 1.8: Assign a channel to external network TNC.
// Send somewhere else, rather than the transmit queue.
#ifndef DIGITEST // avoid dtest link error
if (save_audio_config_p->chan_medium[chan] == MEDIUM_IGATE ||
save_audio_config_p->chan_medium[chan] == MEDIUM_NETTNC) {
char ts[100]; // optional time stamp.
if (strlen(save_audio_config_p->timestamp_format) > 0) {
char tstmp[100];
timestamp_user_format (tstmp, sizeof(tstmp), save_audio_config_p->timestamp_format);
strlcpy (ts, " ", sizeof(ts)); // space after channel.
strlcat (ts, tstmp, sizeof(ts));
}
else {
strlcpy (ts, "", sizeof(ts));
}
char stemp[256]; // Formated addresses.
ax25_format_addrs (pp, stemp);
unsigned char *pinfo;
int info_len = ax25_get_info (pp, &pinfo);
text_color_set(DW_COLOR_XMIT);
if (save_audio_config_p->chan_medium[chan] == MEDIUM_IGATE) {
dw_printf ("[%d>is%s] ", chan, ts);
dw_printf ("%s", stemp); /* stations followed by : */
ax25_safe_print ((char *)pinfo, info_len, ! ax25_is_aprs(pp));
dw_printf ("\n");
igate_send_rec_packet (chan, pp);
}
else { // network TNC
dw_printf ("[%d>nt%s] ", chan, ts);
dw_printf ("%s", stemp); /* stations followed by : */
ax25_safe_print ((char *)pinfo, info_len, ! ax25_is_aprs(pp));
dw_printf ("\n");
nettnc_send_packet (chan, pp);
}
ax25_delete(pp);
return;
}
#endif
// Normal case - put in queue for radio transmission.
// Error if trying to transmit to a radio channel which was not configured.
if (chan < 0 || chan >= MAX_RADIO_CHANS || save_audio_config_p->chan_medium[chan] == MEDIUM_NONE) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("ERROR - Request to transmit on invalid radio channel %d.\n", chan);
dw_printf ("This is probably a client application error, not a problem with direwolf.\n");
dw_printf ("Are you using AX.25 for Linux? It might be trying to use a modified\n");
dw_printf ("version of KISS which uses the port field differently than the\n");
dw_printf ("original KISS protocol specification. The solution might be to use\n");
dw_printf ("a command like \"kissparms -c 1 -p radio\" to set CRC none mode.\n");
dw_printf ("\n");
ax25_delete(pp);
return;
}
/*
* Is transmit queue out of control?
*
* There is no technical reason to limit the transmit packet queue length, it just seemed like a good
* warning that something wasn't right.
* When this was written, I was mostly concerned about APRS where packets would only be sent
* occasionally and they can be discarded if they can't be sent out in a reasonable amount of time.
*
* If a large file is being sent, with TCP/IP, it is perfectly reasonable to have a large number
* of packets waiting for transmission.
*
* Ideally, the application should be able to throttle the transmissions so the queue doesn't get too long.
* If using the KISS interface, there is no way to get this information from the TNC back to the client app.
* The AGW network interface does have a command 'y' to query about the number of frames waiting for transmission.
* This was implemented in version 1.2.
*
* I'd rather not take out the queue length check because it is a useful sanity check for something going wrong.
* Maybe the check should be performed only for APRS packets.
* The check would allow an unlimited number of other types.
*
* Limit was 20. Changed to 100 in version 1.2 as a workaround.
*/
if (ax25_is_aprs(pp) && tq_count(chan,prio,"","",0) > 100) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("Transmit packet queue for channel %d is too long. Discarding packet.\n", chan);
dw_printf ("Perhaps the channel is so busy there is no opportunity to send.\n");
ax25_delete(pp);
return;
}
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_append: enter critical section\n");
#endif
dw_mutex_lock (&tq_mutex);
if (queue_head[chan][prio] == NULL) {
queue_head[chan][prio] = pp;
}
else {
plast = queue_head[chan][prio];
while ((pnext = ax25_get_nextp(plast)) != NULL) {
plast = pnext;
}
ax25_set_nextp (plast, pp);
}
dw_mutex_unlock (&tq_mutex);
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_append: left critical section\n");
dw_printf ("tq_append (): about to wake up xmit thread.\n");
#endif
#if __WIN32__
SetEvent (wake_up_event[chan]);
#else
if (xmit_thread_is_waiting[chan]) {
int err;
dw_mutex_lock (&(wake_up_mutex[chan]));
err = pthread_cond_signal (&(wake_up_cond[chan]));
if (err != 0) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("tq_append: pthread_cond_signal err=%d", err);
perror ("");
exit (1);
}
dw_mutex_unlock (&(wake_up_mutex[chan]));
}
#endif
} /* end tq_append */
/*-------------------------------------------------------------------
*
* Name: lm_data_request
*
* Purpose: Add an AX.25 frame to the end of the specified transmit queue.
*
* Use tq_append instead for APRS.
*
* Inputs: chan - Channel, 0 is first.
*
* prio - Priority, use TQ_PRIO_0_HI for priority (expedited)
* or TQ_PRIO_1_LO for normal.
*
* pp - Address of packet object.
* Caller should NOT make any references to
* it after this point because it could
* be deleted at any time.
*
* Outputs: A packet object is added to transmit queue.
*
* Description: 5.4.
*
* LM-DATA Request. The Data-link State Machine uses this primitive to pass
* frames of any type (SABM, RR, UI, etc.) to the Link Multiplexer State Machine.
*
* LM-EXPEDITED-DATA Request. The data-link machine uses this primitive to
* request transmission of each digipeat or expedite data frame.
*
* C2a.1
*
* PH-DATA Request. This primitive from the Link Multiplexer State Machine
* provides an AX.25 frame of any type (UI, SABM, I, etc.) that is to be transmitted. An
* unlimited number of frames may be provided. If the transmission exceeds the 10-
* minute limit or the anti-hogging time limit, the half-duplex Physical State Machine
* automatically relinquishes the channel for use by the other stations. The
* transmission is automatically resumed at the next transmission opportunity
* indicated by the CSMA/p-persistence contention algorithm.
*
* PH-EXPEDITED-DATA Request. This primitive from the Link Multiplexer State
* Machine provides the AX.25 frame that is to be transmitted immediately. The
* simplex Physical State Machine gives preference to priority frames over normal
* frames, and will take advantage of the PRIACK window. Priority frames can be
* provided by the link multiplexer at any time; a PH-SEIZE Request and subsequent
* PH Release Request are not employed for priority frames.
*
* C3.1
*
* LM-DATA Request. This primitive from the Data-link State Machine provides a
* AX.25 frame of any type (UI, SABM, I, etc.) that is to be transmitted. An unlimited
* number of frames may be provided. The Link Multiplexer State Machine
* accumulates the frames in a first-in, first-out queue until it is time to transmit them.
*
* C4.2
*
* LM-DATA Request. This primitive is used by the Data link State Machines to pass
* frames of any type (SABM, RR, UI, etc.) to the Link Multiplexer State Machine.
*
* LM-EXPEDITED-DATA Request. This primitive is used by the Data link State
* Machine to pass expedited data to the link multiplexer.
*
*
* Implementation: Add packet to end of linked list.
* Signal the transmit thread if the queue was formerly empty.
*
* Note that we have a transmit thread each audio channel.
* Two channels can share one audio output device.
*
* IMPORTANT! Don't make an further references to the packet object after
* giving it to lm_data_request.
*
*--------------------------------------------------------------------*/
// TODO: FIXME: this is a copy of tq_append. Need to fine tune and explain why.
void lm_data_request (int chan, int prio, packet_t pp)
{
packet_t plast;
packet_t pnext;
#if DEBUG
unsigned char *pinfo;
int info_len = ax25_get_info (pp, &pinfo);
if (info_len > 10) info_len = 10;
text_color_set(DW_COLOR_DEBUG);
dw_printf ("lm_data_request (chan=%d, prio=%d, pp=%p) \"%*s\"\n", chan, prio, pp, info_len, (char*)pinfo);
#endif
assert (prio >= 0 && prio < TQ_NUM_PRIO);
if (pp == NULL) {
text_color_set(DW_COLOR_DEBUG);
dw_printf ("INTERNAL ERROR: lm_data_request NULL packet pointer. Please report this!\n");
return;
}
#if AX25MEMDEBUG
if (ax25memdebug_get()) {
text_color_set(DW_COLOR_DEBUG);
dw_printf ("lm_data_request (chan=%d, prio=%d, seq=%d)\n", chan, prio, ax25memdebug_seq(pp));
}
#endif
if (chan < 0 || chan >= MAX_RADIO_CHANS || save_audio_config_p->chan_medium[chan] != MEDIUM_RADIO) {
// Connected mode is allowed only with internal modems.
text_color_set(DW_COLOR_ERROR);
dw_printf ("ERROR - Request to transmit on invalid radio channel %d.\n", chan);
dw_printf ("Connected packet mode is allowed only with internal modems.\n");
dw_printf ("Why aren't external KISS modems allowed? See\n");
dw_printf ("Why-is-9600-only-twice-as-fast-as-1200.pdf for explanation.\n");
ax25_delete(pp);
return;
}
/*
* Is transmit queue out of control?
*/
if (tq_count(chan,prio,"","",0) > 250) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("Warning: Transmit packet queue for channel %d is extremely long.\n", chan);
dw_printf ("Perhaps the channel is so busy there is no opportunity to send.\n");
}
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("lm_data_request: enter critical section\n");
#endif
dw_mutex_lock (&tq_mutex);
if (queue_head[chan][prio] == NULL) {
queue_head[chan][prio] = pp;
}
else {
plast = queue_head[chan][prio];
while ((pnext = ax25_get_nextp(plast)) != NULL) {
plast = pnext;
}
ax25_set_nextp (plast, pp);
}
dw_mutex_unlock (&tq_mutex);
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("lm_data_request: left critical section\n");
#endif
// Appendix C2a, from the Ax.25 protocol spec, says that a priority frame
// will start transmission. If not already transmitting, normal frames
// will pile up until LM-SEIZE Request starts transmission.
// Erratum: It doesn't take long for that to fail.
// We send SABM(e) frames to the transmit queue and the transmitter doesn't get activated.
//NO! if (prio == TQ_PRIO_0_HI) {
#if DEBUG
dw_printf ("lm_data_request (): about to wake up xmit thread.\n");
#endif
#if __WIN32__
SetEvent (wake_up_event[chan]);
#else
if (xmit_thread_is_waiting[chan]) {
int err;
dw_mutex_lock (&(wake_up_mutex[chan]));
err = pthread_cond_signal (&(wake_up_cond[chan]));
if (err != 0) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("lm_data_request: pthread_cond_signal err=%d", err);
perror ("");
exit (1);
}
dw_mutex_unlock (&(wake_up_mutex[chan]));
}
#endif
//NO! }
} /* end lm_data_request */
/*-------------------------------------------------------------------
*
* Name: lm_seize_request
*
* Purpose: Force start of transmit even if transmit queue is empty.
*
* Inputs: chan - Channel, 0 is first.
*
* Description: 5.4.
*
* LM-SEIZE Request. The Data-link State Machine uses this primitive to request the
* Link Multiplexer State Machine to arrange for transmission at the next available
* opportunity. The Data-link State Machine uses this primitive when an
* acknowledgement must be made; the exact frame in which the acknowledgement
* is sent will be chosen when the actual time for transmission arrives.
*
* C2a.1
*
* PH-SEIZE Request. This primitive requests the simplex state machine to begin
* transmitting at the next available opportunity. When that opportunity has been
* identified (according to the CSMA/p-persistence algorithm included within), the
* transmitter started, a parameterized window provided for the startup of a
* conventional repeater (if required), and a parameterized time allowed for the
* synchronization of the remote station's receiver (known as TXDELAY in most
* implementations), then a PH-SEIZE Confirm primitive is returned to the link
* multiplexer.
*
* C3.1
*
* LM-SEIZE Request. This primitive requests the Link Multiplexer State Machine to
* arrange for transmission at the next available opportunity. The Data-link State
* Machine uses this primitive when an acknowledgment must be made, but the exact
* frame in which the acknowledgment will be sent will be chosen when the actual
* time for transmission arrives. The Link Multiplexer State Machine uses the LMSEIZE
* Confirm primitive to indicate that the transmission opportunity has arrived.
* After the Data-link State Machine has provided the acknowledgment, the Data-link
* State Machine gives permission to stop transmission with the LM Release Request
* primitive.
*
* C4.2
*
* LM-SEIZE Request. This primitive is used by the Data link State Machine to
* request the Link Multiplexer State Machine to arrange for transmission at the next
* available opportunity. The Data link State Machine uses this primitive when an
* acknowledgment must be made, but the exact frame in which the acknowledgment
* is sent will be chosen when the actual time for transmission arrives.
*
*
* Implementation: Add a null frame (i.e. length of 0) to give the process a kick.
* xmit.c needs to be smart enough to discard it.
*
*--------------------------------------------------------------------*/
void lm_seize_request (int chan)
{
packet_t pp;
int prio = TQ_PRIO_1_LO;
packet_t plast;
packet_t pnext;
#if DEBUG
unsigned char *pinfo;
text_color_set(DW_COLOR_DEBUG);
dw_printf ("lm_seize_request (chan=%d)\n", chan);
#endif
if (chan < 0 || chan >= MAX_RADIO_CHANS || save_audio_config_p->chan_medium[chan] != MEDIUM_RADIO) {
// Connected mode is allowed only with internal modems.
text_color_set(DW_COLOR_ERROR);
dw_printf ("ERROR - Request to transmit on invalid radio channel %d.\n", chan);
dw_printf ("Connected packet mode is allowed only with internal modems.\n");
dw_printf ("Why aren't external KISS modems allowed? See\n");
dw_printf ("Why-is-9600-only-twice-as-fast-as-1200.pdf for explanation.\n");
return;
}
pp = ax25_new();
#if AX25MEMDEBUG
if (ax25memdebug_get()) {
text_color_set(DW_COLOR_DEBUG);
dw_printf ("lm_seize_request (chan=%d, seq=%d)\n", chan, ax25memdebug_seq(pp));
}
#endif
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("lm_seize_request: enter critical section\n");
#endif
dw_mutex_lock (&tq_mutex);
if (queue_head[chan][prio] == NULL) {
queue_head[chan][prio] = pp;
}
else {
plast = queue_head[chan][prio];
while ((pnext = ax25_get_nextp(plast)) != NULL) {
plast = pnext;
}
ax25_set_nextp (plast, pp);
}
dw_mutex_unlock (&tq_mutex);
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("lm_seize_request: left critical section\n");
#endif
#if DEBUG
dw_printf ("lm_seize_request (): about to wake up xmit thread.\n");
#endif
#if __WIN32__
SetEvent (wake_up_event[chan]);
#else
if (xmit_thread_is_waiting[chan]) {
int err;
dw_mutex_lock (&(wake_up_mutex[chan]));
err = pthread_cond_signal (&(wake_up_cond[chan]));
if (err != 0) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("lm_seize_request: pthread_cond_signal err=%d", err);
perror ("");
exit (1);
}
dw_mutex_unlock (&(wake_up_mutex[chan]));
}
#endif
} /* end lm_seize_request */
/*-------------------------------------------------------------------
*
* Name: tq_wait_while_empty
*
* Purpose: Sleep while the transmit queue is empty rather than
* polling periodically.
*
* Inputs: chan - Audio device number.
*
* Description: We have one transmit thread for each audio device.
* This handles 1 or 2 channels.
*
*--------------------------------------------------------------------*/
void tq_wait_while_empty (int chan)
{
int is_empty;
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_wait_while_empty (%d) : enter critical section\n", chan);
#endif
assert (chan >= 0 && chan < MAX_RADIO_CHANS);
dw_mutex_lock (&tq_mutex);
#if DEBUG
//text_color_set(DW_COLOR_DEBUG);
//dw_printf ("tq_wait_while_empty (%d): after pthread_mutex_lock\n", chan);
#endif
is_empty = tq_is_empty(chan);
dw_mutex_unlock (&tq_mutex);
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_wait_while_empty (%d) : left critical section\n", chan);
#endif
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_wait_while_empty (%d): is_empty = %d\n", chan, is_empty);
#endif
if (is_empty) {
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_wait_while_empty (%d): SLEEP - about to call cond wait\n", chan);
#endif
#if __WIN32__
WaitForSingleObject (wake_up_event[chan], INFINITE);
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_wait_while_empty (): returned from wait\n");
#endif
#else
dw_mutex_lock (&(wake_up_mutex[chan]));
xmit_thread_is_waiting[chan] = 1;
int err;
err = pthread_cond_wait (&(wake_up_cond[chan]), &(wake_up_mutex[chan]));
xmit_thread_is_waiting[chan] = 0;
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_wait_while_empty (%d): WOKE UP - returned from cond wait, err = %d\n", chan, err);
#endif
if (err != 0) {
text_color_set(DW_COLOR_ERROR);
dw_printf ("tq_wait_while_empty (%d): pthread_cond_wait err=%d", chan, err);
perror ("");
exit (1);
}
dw_mutex_unlock (&(wake_up_mutex[chan]));
#endif
}
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_wait_while_empty (%d) returns\n", chan);
#endif
}
/*-------------------------------------------------------------------
*
* Name: tq_remove
*
* Purpose: Remove a packet from the head of the specified transmit queue.
*
* Inputs: chan - Channel, 0 is first.
*
* prio - Priority, use TQ_PRIO_0_HI or TQ_PRIO_1_LO.
*
* Returns: Pointer to packet object.
* Caller should destroy it with ax25_delete when finished with it.
*
*--------------------------------------------------------------------*/
packet_t tq_remove (int chan, int prio)
{
packet_t result_p;
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_remove(%d,%d) enter critical section\n", chan, prio);
#endif
dw_mutex_lock (&tq_mutex);
if (queue_head[chan][prio] == NULL) {
result_p = NULL;
}
else {
result_p = queue_head[chan][prio];
queue_head[chan][prio] = ax25_get_nextp(result_p);
ax25_set_nextp (result_p, NULL);
}
dw_mutex_unlock (&tq_mutex);
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_remove(%d,%d) leave critical section, returns %p\n", chan, prio, result_p);
#endif
#if AX25MEMDEBUG
if (ax25memdebug_get() && result_p != NULL) {
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_remove (chan=%d, prio=%d) seq=%d\n", chan, prio, ax25memdebug_seq(result_p));
}
#endif
return (result_p);
} /* end tq_remove */
/*-------------------------------------------------------------------
*
* Name: tq_peek
*
* Purpose: Take a peek at the next frame in the queue but don't remove it.
*
* Inputs: chan - Channel, 0 is first.
*
* prio - Priority, use TQ_PRIO_0_HI or TQ_PRIO_1_LO.
*
* Returns: Pointer to packet object or NULL.
*
* Caller should NOT destroy it because it is still in the queue.
*
*--------------------------------------------------------------------*/
packet_t tq_peek (int chan, int prio)
{
packet_t result_p;
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_peek(%d,%d) enter critical section\n", chan, prio);
#endif
// I don't think we need critical region here.
//dw_mutex_lock (&tq_mutex);
result_p = queue_head[chan][prio];
// Just take a peek at the head. Don't remove it.
//dw_mutex_unlock (&tq_mutex);
#if DEBUG
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_remove(%d,%d) leave critical section, returns %p\n", chan, prio, result_p);
#endif
#if AX25MEMDEBUG
if (ax25memdebug_get() && result_p != NULL) {
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_remove (chan=%d, prio=%d) seq=%d\n", chan, prio, ax25memdebug_seq(result_p));
}
#endif
return (result_p);
} /* end tq_peek */
/*-------------------------------------------------------------------
*
* Name: tq_is_empty
*
* Purpose: Test if queues for specified channel are empty.
*
* Inputs: chan Channel
*
* Returns: True if nothing in the queue.
*
*--------------------------------------------------------------------*/
static int tq_is_empty (int chan)
{
int p;
assert (chan >= 0 && chan < MAX_RADIO_CHANS);
for (p=0; p= 0 && p < TQ_NUM_PRIO);
if (queue_head[chan][p] != NULL)
return (0);
}
return (1);
} /* end tq_is_empty */
/*-------------------------------------------------------------------
*
* Name: tq_count
*
* Purpose: Return count of the number of packets (or bytes) in the specified transmit queue.
* This is used only for queries from KISS or AWG client applications.
*
* Inputs: chan - Channel, 0 is first.
*
* prio - Priority, use TQ_PRIO_0_HI or TQ_PRIO_1_LO.
* Specify -1 for total of both.
*
* source - If specified, count only those with this source address.
*
* dest - If specified, count only those with this destination address.
*
* bytes - If true, return number of bytes rather than packets.
*
* Returns: Number of items in specified queue.
*
*--------------------------------------------------------------------*/
//#define DEBUG2 1
int tq_count (int chan, int prio, char *source, char *dest, int bytes)
{
#if DEBUG2
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_count(chan=%d, prio=%d, source=\"%s\", dest=\"%s\", bytes=%d)\n", chan, prio, source, dest, bytes);
#endif
if (prio == -1) {
return (tq_count(chan, TQ_PRIO_0_HI, source, dest, bytes)
+ tq_count(chan, TQ_PRIO_1_LO, source, dest, bytes));
}
// Array bounds check. FIXME: TODO: should have internal error instead of dying.
if (chan < 0 || chan >= MAX_RADIO_CHANS || prio < 0 || prio >= TQ_NUM_PRIO) {
text_color_set(DW_COLOR_DEBUG);
dw_printf ("INTERNAL ERROR - tq_count(%d, %d, \"%s\", \"%s\", %d)\n", chan, prio, source, dest, bytes);
return (0);
}
if (queue_head[chan][prio] == 0) {
#if DEBUG2
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_count: queue chan %d, prio %d is empty, returning 0.\n", chan, prio);
#endif
return (0);
}
// Don't want lists being rearranged while we are traversing them.
dw_mutex_lock (&tq_mutex);
int n = 0; // Result. Number of bytes or packets.
packet_t pp = queue_head[chan][prio];;
while (pp != NULL) {
if (ax25_get_num_addr(pp) >= AX25_MIN_ADDRS) {
// Consider only real packets.
int count_it = 1;
if (source != NULL && *source != '\0') {
char frame_source[AX25_MAX_ADDR_LEN];
ax25_get_addr_with_ssid (pp, AX25_SOURCE, frame_source);
#if DEBUG2
// I'm cringing at the thought of printing while in a critical region. But it's only for temp debug. :-(
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_count: compare to frame source %s\n", frame_source);
#endif
if (strcmp(source,frame_source) != 0) count_it = 0;
}
if (count_it && dest != NULL && *dest != '\0') {
char frame_dest[AX25_MAX_ADDR_LEN];
ax25_get_addr_with_ssid (pp, AX25_DESTINATION, frame_dest);
#if DEBUG2
// I'm cringing at the thought of printing while in a critical region. But it's only for debug debug. :-(
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_count: compare to frame destination %s\n", frame_dest);
#endif
if (strcmp(dest,frame_dest) != 0) count_it = 0;
}
if (count_it) {
if (bytes) {
n += ax25_get_frame_len(pp);
}
else {
n++;
}
}
}
pp = ax25_get_nextp(pp);
}
dw_mutex_unlock (&tq_mutex);
#if DEBUG2
text_color_set(DW_COLOR_DEBUG);
dw_printf ("tq_count(%d, %d, \"%s\", \"%s\", %d) returns %d\n", chan, prio, source, dest, bytes, n);
#endif
return (n);
} /* end tq_count */
/* end tq.c */