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vdr-plugin-satip/tuner.c

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/*
* tuner.c: SAT>IP plugin for the Video Disk Recorder
*
* See the README file for copyright information and how to reach the author.
*
*/
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#include <sys/epoll.h>
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#include "common.h"
#include "config.h"
#include "discover.h"
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#include "tuner.h"
cSatipTuner::cSatipTuner(cSatipDeviceIf &deviceP, unsigned int packetLenP)
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: cThread(cString::sprintf("SAT>IP %d tuner", deviceP.GetId())),
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sleepM(),
deviceM(&deviceP),
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deviceIdM(deviceP.GetId()),
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packetBufferLenM(packetLenP),
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rtspM(new cSatipRtsp(*this)),
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rtpSocketM(new cSatipSocket()),
rtcpSocketM(new cSatipSocket()),
streamAddrM(""),
streamParamM(""),
currentServerM(NULL),
nextServerM(NULL),
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mutexM(),
keepAliveM(),
statusUpdateM(),
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pidUpdateCacheM(),
sessionM(""),
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fdM(epoll_create(eMaxFileDescriptors)),
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timeoutM(eMinKeepAliveIntervalMs),
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openedM(false),
tunedM(false),
hasLockM(false),
signalStrengthM(-1),
signalQualityM(-1),
streamIdM(-1),
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addPidsM(),
delPidsM(),
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pidsM()
{
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debug("cSatipTuner::%s(%d) [device %d]", __FUNCTION__, packetBufferLenM, deviceIdM);
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// Allocate packet buffer
packetBufferM = MALLOC(unsigned char, packetBufferLenM);
if (packetBufferM)
memset(packetBufferM, 0, packetBufferLenM);
else
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error("MALLOC() failed for packet buffer [device %d]", deviceIdM);
// Open sockets
int i = 100;
while (i-- > 0) {
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if (rtpSocketM->Open(0) && rtcpSocketM->Open(rtpSocketM->Port() + 1))
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break;
rtpSocketM->Close();
rtcpSocketM->Close();
}
if ((rtpSocketM->Port() <= 0) || (rtcpSocketM->Port() <= 0)) {
error("Cannot open required RTP/RTCP ports [device %d]", deviceIdM);
}
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// Setup epoll
if (fdM >= 0) {
if (rtpSocketM->Fd() >= 0) {
struct epoll_event ev;
ev.events = EPOLLIN | EPOLLET;
ev.data.fd = rtpSocketM->Fd();
if (epoll_ctl(fdM, EPOLL_CTL_ADD, rtpSocketM->Fd(), &ev) == -1) {
error("Cannot add RTP socket into epoll [device %d]", deviceIdM);
}
}
if (rtcpSocketM->Fd() >= 0) {
struct epoll_event ev;
ev.events = EPOLLIN | EPOLLET;
ev.data.fd = rtcpSocketM->Fd();
if (epoll_ctl(fdM, EPOLL_CTL_ADD, rtcpSocketM->Fd(), &ev) == -1) {
error("Cannot add RTP socket into epoll [device %d]", deviceIdM);
}
}
}
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// Start thread
Start();
}
cSatipTuner::~cSatipTuner()
{
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debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
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// Stop thread
sleepM.Signal();
if (Running())
Cancel(3);
Close();
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// Cleanup epoll
if (fdM >= 0) {
if ((rtpSocketM->Fd() >= 0) && (epoll_ctl(fdM, EPOLL_CTL_DEL, rtpSocketM->Fd(), NULL) == -1)) {
error("Cannot remove RTP socket from epoll [device %d]", deviceIdM);
}
if ((rtcpSocketM->Fd() >= 0) && (epoll_ctl(fdM, EPOLL_CTL_DEL, rtcpSocketM->Fd(), NULL) == -1)) {
error("Cannot remove RTP socket from epoll [device %d]", deviceIdM);
}
close(fdM);
}
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// Close the listening sockets
rtpSocketM->Close();
rtcpSocketM->Close();
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// Free allocated memory
free(packetBufferM);
DELETENULL(rtcpSocketM);
DELETENULL(rtpSocketM);
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DELETENULL(rtspM);
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}
void cSatipTuner::Action(void)
{
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debug("cSatipTuner::%s(): entering [device %d]", __FUNCTION__, deviceIdM);
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cTimeMs timeout(eReConnectTimeoutMs);
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// Increase priority
SetPriority(-1);
// Do the thread loop
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while (packetBufferM && rtpSocketM && rtcpSocketM && Running()) {
struct epoll_event events[eMaxFileDescriptors];
int nfds = epoll_wait(fdM, events, eMaxFileDescriptors, eReadTimeoutMs);
switch (nfds) {
default:
for (int i = 0; i < nfds; ++i) {
timeout.Set(eReConnectTimeoutMs);
if (events[i].data.fd == rtpSocketM->Fd()) {
// Read data
int length = rtpSocketM->ReadVideo(packetBufferM, min(deviceM->CheckData(), packetBufferLenM));
if (length > 0) {
AddTunerStatistic(length);
deviceM->WriteData(packetBufferM, length);
}
}
else if (events[i].data.fd == rtcpSocketM->Fd()) {
unsigned char buf[1450];
memset(buf, 0, sizeof(buf));
if (rtcpSocketM->ReadApplication(buf, sizeof(buf)) > 0)
ParseReceptionParameters((const char *)buf);
}
}
// fall through!
case 0:
// Update pids
UpdatePids();
// Remember the heart beat
KeepAlive();
// Read reception statistics via DESCRIBE and RTCP
if (ReadReceptionStatus()) {
// Quirk for devices without valid reception data
if (currentServerM && currentServerM->Quirk(cSatipServer::eSatipQuirkForceLock)) {
hasLockM = true;
signalStrengthM = eDefaultSignalStrength;
signalQualityM = eDefaultSignalQuality;
}
}
// Reconnect if necessary
if (openedM && timeout.TimedOut()) {
Disconnect();
Connect();
timeout.Set(eReConnectTimeoutMs);
}
break;
case -1:
error("epoll_wait() failed");
break;
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}
}
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debug("cSatipTuner::%s(): exiting [device %d]", __FUNCTION__, deviceIdM);
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}
bool cSatipTuner::Open(void)
{
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debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
return Connect();
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}
bool cSatipTuner::Close(void)
{
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debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
return Disconnect();
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}
bool cSatipTuner::Connect(void)
{
cMutexLock MutexLock(&mutexM);
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debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
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if (!isempty(*streamAddrM)) {
cString connectionUri = cString::sprintf("rtsp://%s", *streamAddrM);
cString uri = cString::sprintf("%s/?%s", *connectionUri, *streamParamM);
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// Just retune
if (tunedM && (streamIdM >= 0)) {
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debug("cSatipTuner::%s(): retune [device %d]", __FUNCTION__, deviceIdM);
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keepAliveM.Set(0);
KeepAlive();
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// Flush any old content
if (rtpSocketM)
rtpSocketM->Flush();
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openedM = rtspM->Setup(*uri, rtpSocketM->Port(), rtcpSocketM->Port());
return openedM;
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}
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keepAliveM.Set(timeoutM);
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openedM = rtspM->Options(*connectionUri);
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if (openedM) {
if (nextServerM && nextServerM->Quirk(cSatipServer::eSatipQuirkSessionId))
rtspM->SetSession(SkipZeroes(*sessionM));
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if (rtspM->Setup(*uri, rtpSocketM->Port(), rtcpSocketM->Port())) {
tunedM = true;
UpdatePids(true);
if (nextServerM) {
cSatipDiscover::GetInstance()->UseServer(nextServerM, true);
currentServerM = nextServerM;
nextServerM = NULL;
}
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}
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else
openedM = false;
}
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return openedM;
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}
openedM = false;
return openedM;
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}
bool cSatipTuner::Disconnect(void)
{
cMutexLock MutexLock(&mutexM);
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debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
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if (openedM && !isempty(*streamAddrM)) {
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cString uri = cString::sprintf("rtsp://%s/stream=%d", *streamAddrM, streamIdM);
rtspM->Teardown(*uri);
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}
// Reset signal parameters
hasLockM = false;
signalStrengthM = -1;
signalQualityM = -1;
if (currentServerM)
cSatipDiscover::GetInstance()->UseServer(currentServerM, false);
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openedM = false;
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tunedM = false;
statusUpdateM.Set(0);
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timeoutM = eMinKeepAliveIntervalMs;
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addPidsM.Clear();
delPidsM.Clear();
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// return always true
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return true;
}
void cSatipTuner::ParseReceptionParameters(const char *paramP)
{
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//debug("cSatipTuner::%s(%s) [device %d]", __FUNCTION__, paramP, deviceIdM);
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// DVB-S2:
// ver=<major>.<minor>;src=<srcID>;tuner=<feID>,<level>,<lock>,<quality>,<frequency>,<polarisation>,<system>,<type>,<pilots>,<roll_off>,<symbol_rate>,<fec_inner>;pids=<pid0>,...,<pidn>
// DVB-T2:
// ver=1.1;tuner=<feID>,<level>,<lock>,<quality>,<freq>,<bw>,<msys>,<tmode>,<mtype>,<gi>,<fec>,<plp>,<t2id>,<sm>;pids=<pid0>,...,<pidn>
if (!isempty(paramP)) {
char *s = strdup(paramP);
char *c = strstr(s, ";tuner=");
if (c) {
int value;
// level:
// Numerical value between 0 and 255
// An incoming L-band satellite signal of
// -25dBm corresponds to 224
// -65dBm corresponds to 32
// No signal corresponds to 0
c = strstr(c, ",");
value = atoi(++c);
// Scale value to 0-100
signalStrengthM = (value >= 0) ? (value * 100 / 255) : -1;
// lock:
// lock Set to one of the following values:
// "0" the frontend is not locked
// "1" the frontend is locked
c = strstr(c, ",");
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hasLockM = !!atoi(++c);
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// quality:
// Numerical value between 0 and 15
// Lowest value corresponds to highest error rate
// The value 15 shall correspond to
// -a BER lower than 2x10-4 after Viterbi for DVB-S
// -a PER lower than 10-7 for DVB-S2
c = strstr(c, ",");
value = atoi(++c);
// Scale value to 0-100
signalQualityM = (hasLockM && (value >= 0)) ? (value * 100 / 15) : 0;
}
free(s);
}
}
void cSatipTuner::SetStreamId(int streamIdP)
{
cMutexLock MutexLock(&mutexM);
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debug("cSatipTuner::%s(%d) [device %d]", __FUNCTION__, streamIdP, deviceIdM);
streamIdM = streamIdP;
}
void cSatipTuner::SetSessionTimeout(const char *sessionP, int timeoutP)
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{
cMutexLock MutexLock(&mutexM);
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debug("cSatipTuner::%s(%s, %d) [device %d]", __FUNCTION__, sessionP, timeoutP, deviceIdM);
sessionM = sessionP;
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timeoutM = (timeoutP > eMinKeepAliveIntervalMs) ? timeoutP : eMinKeepAliveIntervalMs;
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}
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int cSatipTuner::GetId(void)
{
//debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
return deviceIdM;
}
bool cSatipTuner::SetSource(cSatipServer *serverP, const char *parameterP, const int indexP)
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{
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debug("cSatipTuner::%s(%s, %d) [device %d]", __FUNCTION__, parameterP, indexP, deviceIdM);
cMutexLock MutexLock(&mutexM);
if (serverP) {
nextServerM = cSatipDiscover::GetInstance()->GetServer(serverP);
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if (rtspM && nextServerM && !isempty(nextServerM->Address()) && !isempty(parameterP)) {
// Update stream address and parameter
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streamAddrM = rtspM->RtspUnescapeString(nextServerM->Address());
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streamParamM = rtspM->RtspUnescapeString(parameterP);
// Reconnect
Connect();
}
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}
else
Disconnect();
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return true;
}
bool cSatipTuner::SetPid(int pidP, int typeP, bool onP)
{
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//debug("cSatipTuner::%s(%d, %d, %d) [device %d]", __FUNCTION__, pidP, typeP, onP, deviceIdM);
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cMutexLock MutexLock(&mutexM);
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if (onP) {
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pidsM.AddPid(pidP);
addPidsM.AddPid(pidP);
delPidsM.RemovePid(pidP);
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}
else {
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pidsM.RemovePid(pidP);
delPidsM.AddPid(pidP);
addPidsM.RemovePid(pidP);
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}
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pidUpdateCacheM.Set(ePidUpdateIntervalMs);
return true;
}
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bool cSatipTuner::UpdatePids(bool forceP)
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{
cMutexLock MutexLock(&mutexM);
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if (((forceP && pidsM.Size()) || (pidUpdateCacheM.TimedOut() && (addPidsM.Size() || delPidsM.Size()))) &&
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tunedM && !isempty(*streamAddrM) && (streamIdM > 0)) {
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cString uri = cString::sprintf("rtsp://%s/stream=%d", *streamAddrM, streamIdM);
bool usedummy = !!(currentServerM && currentServerM->Quirk(cSatipServer::eSatipQuirkPlayPids));
if (forceP || usedummy) {
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if (pidsM.Size()) {
uri = cString::sprintf("%s?pids=", *uri);
for (int i = 0; i < pidsM.Size(); ++i)
uri = cString::sprintf("%s%d%s", *uri, pidsM[i], (i == (pidsM.Size() - 1)) ? "" : ",");
}
if (usedummy && (pidsM.Size() == 1) && (pidsM[0] < 0x20))
uri = cString::sprintf("%s,%d", *uri, eDummyPid);
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}
else {
if (addPidsM.Size()) {
uri = cString::sprintf("%s?addpids=", *uri);
for (int i = 0; i < addPidsM.Size(); ++i)
uri = cString::sprintf("%s%d%s", *uri, addPidsM[i], (i == (addPidsM.Size() - 1)) ? "" : ",");
}
if (delPidsM.Size()) {
uri = cString::sprintf("%s%sdelpids=", *uri, addPidsM.Size() ? "&" : "?");
for (int i = 0; i < delPidsM.Size(); ++i)
uri = cString::sprintf("%s%d%s", *uri, delPidsM[i], (i == (delPidsM.Size() - 1)) ? "" : ",");
}
}
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if (rtspM->Play(*uri)) {
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addPidsM.Clear();
delPidsM.Clear();
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return true;
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}
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Disconnect();
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}
return false;
}
bool cSatipTuner::KeepAlive(void)
{
cMutexLock MutexLock(&mutexM);
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if (tunedM && keepAliveM.TimedOut()) {
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cString uri = cString::sprintf("rtsp://%s/stream=%d", *streamAddrM, streamIdM);
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keepAliveM.Set(timeoutM);
if (rtspM->Options(*uri))
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return true;
Disconnect();
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}
return false;
}
bool cSatipTuner::ReadReceptionStatus(void)
{
cMutexLock MutexLock(&mutexM);
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if (tunedM && !pidsM.Size() && statusUpdateM.TimedOut() ) {
cString uri = cString::sprintf("rtsp://%s/stream=%d", *streamAddrM, streamIdM);
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if (rtspM->Describe(*uri)) {
statusUpdateM.Set(eStatusUpdateTimeoutMs);
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return true;
}
Disconnect();
}
return false;
}
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int cSatipTuner::SignalStrength(void)
{
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//debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
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return signalStrengthM;
}
int cSatipTuner::SignalQuality(void)
{
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//debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
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return signalQualityM;
}
bool cSatipTuner::HasLock(void)
{
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//debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
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return tunedM && hasLockM;
}
cString cSatipTuner::GetSignalStatus(void)
{
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//debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
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return cString::sprintf("lock=%d strength=%d quality=%d", HasLock(), SignalStrength(), SignalQuality());
}
cString cSatipTuner::GetInformation(void)
{
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//debug("cSatipTuner::%s() [device %d]", __FUNCTION__, deviceIdM);
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return tunedM ? cString::sprintf("rtsp://%s/?%s [stream=%d]", *streamAddrM, *streamParamM, streamIdM) : "connection failed";
}