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cec: fixed - don't keep the mutex locked in CCECProcessor::Initialise()
[deb_libcec.git] / src / lib / CECProcessor.cpp
1 /*
2 * This file is part of the libCEC(R) library.
3 *
4 * libCEC(R) is Copyright (C) 2011 Pulse-Eight Limited. All rights reserved.
5 * libCEC(R) is an original work, containing original code.
6 *
7 * libCEC(R) is a trademark of Pulse-Eight Limited.
8 *
9 * This program is dual-licensed; you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation; either version 2 of the License, or
12 * (at your option) any later version.
13 *
14 * This program is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 * GNU General Public License for more details.
18 *
19 * You should have received a copy of the GNU General Public License
20 * along with this program; if not, write to the Free Software
21 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
22 *
23 *
24 * Alternatively, you can license this library under a commercial license,
25 * please contact Pulse-Eight Licensing for more information.
26 *
27 * For more information contact:
28 * Pulse-Eight Licensing <license@pulse-eight.com>
29 * http://www.pulse-eight.com/
30 * http://www.pulse-eight.net/
31 */
32
33 #include "CECProcessor.h"
34
35 #include "AdapterCommunication.h"
36 #include "devices/CECBusDevice.h"
37 #include "devices/CECAudioSystem.h"
38 #include "devices/CECPlaybackDevice.h"
39 #include "devices/CECRecordingDevice.h"
40 #include "devices/CECTuner.h"
41 #include "devices/CECTV.h"
42 #include "implementations/CECCommandHandler.h"
43 #include "LibCEC.h"
44
45 using namespace CEC;
46 using namespace std;
47 using namespace PLATFORM;
48
49 CCECProcessor::CCECProcessor(CLibCEC *controller, const char *strDeviceName, cec_logical_address iLogicalAddress /* = CECDEVICE_PLAYBACKDEVICE1 */, uint16_t iPhysicalAddress /* = CEC_DEFAULT_PHYSICAL_ADDRESS*/) :
50 m_bStarted(false),
51 m_bInitialised(false),
52 m_iHDMIPort(CEC_DEFAULT_HDMI_PORT),
53 m_iBaseDevice((cec_logical_address)CEC_DEFAULT_BASE_DEVICE),
54 m_lastInitiator(CECDEVICE_UNKNOWN),
55 m_strDeviceName(strDeviceName),
56 m_controller(controller),
57 m_bMonitor(false),
58 m_iStandardLineTimeout(3),
59 m_iRetryLineTimeout(3),
60 m_iLastTransmission(0)
61 {
62 m_communication = new CAdapterCommunication(this);
63 m_logicalAddresses.Clear();
64 m_logicalAddresses.Set(iLogicalAddress);
65 m_types.clear();
66 for (int iPtr = 0; iPtr <= 16; iPtr++)
67 m_busDevices[iPtr] = new CCECBusDevice(this, (cec_logical_address) iPtr, iPtr == iLogicalAddress ? iPhysicalAddress : 0);
68 }
69
70 CCECProcessor::CCECProcessor(CLibCEC *controller, const char *strDeviceName, const cec_device_type_list &types) :
71 m_bStarted(false),
72 m_bInitialised(false),
73 m_iHDMIPort(CEC_DEFAULT_HDMI_PORT),
74 m_iBaseDevice((cec_logical_address)CEC_DEFAULT_BASE_DEVICE),
75 m_strDeviceName(strDeviceName),
76 m_types(types),
77 m_controller(controller),
78 m_bMonitor(false),
79 m_iStandardLineTimeout(3),
80 m_iRetryLineTimeout(3),
81 m_iLastTransmission(0)
82 {
83 m_communication = new CAdapterCommunication(this);
84 m_logicalAddresses.Clear();
85 for (int iPtr = 0; iPtr < 16; iPtr++)
86 {
87 switch(iPtr)
88 {
89 case CECDEVICE_AUDIOSYSTEM:
90 m_busDevices[iPtr] = new CCECAudioSystem(this, (cec_logical_address) iPtr, 0xFFFF);
91 break;
92 case CECDEVICE_PLAYBACKDEVICE1:
93 case CECDEVICE_PLAYBACKDEVICE2:
94 case CECDEVICE_PLAYBACKDEVICE3:
95 m_busDevices[iPtr] = new CCECPlaybackDevice(this, (cec_logical_address) iPtr, 0xFFFF);
96 break;
97 case CECDEVICE_RECORDINGDEVICE1:
98 case CECDEVICE_RECORDINGDEVICE2:
99 case CECDEVICE_RECORDINGDEVICE3:
100 m_busDevices[iPtr] = new CCECRecordingDevice(this, (cec_logical_address) iPtr, 0xFFFF);
101 break;
102 case CECDEVICE_TUNER1:
103 case CECDEVICE_TUNER2:
104 case CECDEVICE_TUNER3:
105 case CECDEVICE_TUNER4:
106 m_busDevices[iPtr] = new CCECTuner(this, (cec_logical_address) iPtr, 0xFFFF);
107 break;
108 case CECDEVICE_TV:
109 m_busDevices[iPtr] = new CCECTV(this, (cec_logical_address) iPtr, 0);
110 break;
111 default:
112 m_busDevices[iPtr] = new CCECBusDevice(this, (cec_logical_address) iPtr, 0xFFFF);
113 break;
114 }
115 }
116 }
117
118 CCECProcessor::~CCECProcessor(void)
119 {
120 m_bStarted = false;
121 m_startCondition.Broadcast();
122 StopThread();
123
124 delete m_communication;
125 m_communication = NULL;
126 m_controller = NULL;
127 for (unsigned int iPtr = 0; iPtr < 16; iPtr++)
128 delete m_busDevices[iPtr];
129 }
130
131 bool CCECProcessor::OpenConnection(const char *strPort, uint16_t iBaudRate, uint32_t iTimeoutMs)
132 {
133 bool bReturn(false);
134 CLockObject lock(m_mutex);
135 if (!m_communication)
136 {
137 m_controller->AddLog(CEC_LOG_ERROR, "no connection handler found");
138 return bReturn;
139 }
140
141 /* check for an already opened connection */
142 if (m_communication->IsOpen())
143 {
144 m_controller->AddLog(CEC_LOG_ERROR, "connection already opened");
145 return bReturn;
146 }
147
148 /* open a new connection */
149 if ((bReturn = m_communication->Open(strPort, iBaudRate, iTimeoutMs)) == false)
150 m_controller->AddLog(CEC_LOG_ERROR, "could not open a connection");
151
152 return bReturn;
153 }
154
155 void CCECProcessor::SetInitialised(bool bSetTo /* = true */)
156 {
157 CLockObject lock(m_mutex);
158 m_bInitialised = bSetTo;
159 }
160
161 bool CCECProcessor::Initialise(void)
162 {
163 bool bReturn(false);
164 {
165 CLockObject lock(m_mutex);
166 if (!m_logicalAddresses.IsEmpty())
167 m_logicalAddresses.Clear();
168
169 if (!FindLogicalAddresses())
170 {
171 m_controller->AddLog(CEC_LOG_ERROR, "could not detect our logical addresses");
172 return bReturn;
173 }
174
175 /* only set our OSD name for the primary device */
176 m_busDevices[m_logicalAddresses.primary]->m_strDeviceName = m_strDeviceName;
177 }
178
179 /* get the vendor id from the TV, so we are using the correct handler */
180 m_busDevices[CECDEVICE_TV]->RequestVendorId();
181 ReplaceHandlers();
182
183 if ((bReturn = SetHDMIPort(m_iBaseDevice, m_iHDMIPort, true)) == false)
184 {
185 CStdString strLog;
186 strLog.Format("unable to set HDMI port %d on %s (%x)", m_iHDMIPort, ToString(m_iBaseDevice), (uint8_t)m_iBaseDevice);
187 m_controller->AddLog(CEC_LOG_ERROR, strLog);
188 }
189
190 SetInitialised(bReturn);
191
192 return bReturn;
193 }
194
195 bool CCECProcessor::Start(const char *strPort, uint16_t iBaudRate /* = 38400 */, uint32_t iTimeoutMs /* = 10000 */)
196 {
197 bool bReturn(false);
198
199 {
200 CLockObject lock(m_mutex);
201 if (!OpenConnection(strPort, iBaudRate, iTimeoutMs))
202 return bReturn;
203
204 /* create the processor thread */
205 if (!CreateThread() || !m_startCondition.Wait(m_mutex) || !m_bStarted)
206 {
207 m_controller->AddLog(CEC_LOG_ERROR, "could not create a processor thread");
208 return bReturn;
209 }
210 }
211
212 if ((bReturn = Initialise()) == false)
213 {
214 m_controller->AddLog(CEC_LOG_ERROR, "could not create a processor thread");
215 StopThread(true);
216 }
217 else
218 {
219 m_controller->AddLog(CEC_LOG_DEBUG, "processor thread started");
220 }
221
222 return bReturn;
223 }
224
225 bool CCECProcessor::TryLogicalAddress(cec_logical_address address)
226 {
227 if (m_busDevices[address]->TryLogicalAddress())
228 {
229 m_logicalAddresses.Set(address);
230 return true;
231 }
232
233 return false;
234 }
235
236 bool CCECProcessor::FindLogicalAddressRecordingDevice(void)
237 {
238 AddLog(CEC_LOG_DEBUG, "detecting logical address for type 'recording device'");
239 return TryLogicalAddress(CECDEVICE_RECORDINGDEVICE1) ||
240 TryLogicalAddress(CECDEVICE_RECORDINGDEVICE2) ||
241 TryLogicalAddress(CECDEVICE_RECORDINGDEVICE3);
242 }
243
244 bool CCECProcessor::FindLogicalAddressTuner(void)
245 {
246 AddLog(CEC_LOG_DEBUG, "detecting logical address for type 'tuner'");
247 return TryLogicalAddress(CECDEVICE_TUNER1) ||
248 TryLogicalAddress(CECDEVICE_TUNER2) ||
249 TryLogicalAddress(CECDEVICE_TUNER3) ||
250 TryLogicalAddress(CECDEVICE_TUNER4);
251 }
252
253 bool CCECProcessor::FindLogicalAddressPlaybackDevice(void)
254 {
255 AddLog(CEC_LOG_DEBUG, "detecting logical address for type 'playback device'");
256 return TryLogicalAddress(CECDEVICE_PLAYBACKDEVICE1) ||
257 TryLogicalAddress(CECDEVICE_PLAYBACKDEVICE2) ||
258 TryLogicalAddress(CECDEVICE_PLAYBACKDEVICE3);
259 }
260
261 bool CCECProcessor::FindLogicalAddressAudioSystem(void)
262 {
263 AddLog(CEC_LOG_DEBUG, "detecting logical address for type 'audio'");
264 return TryLogicalAddress(CECDEVICE_AUDIOSYSTEM);
265 }
266
267 bool CCECProcessor::ChangeDeviceType(cec_device_type from, cec_device_type to)
268 {
269 bool bChanged(false);
270
271 CStdString strLog;
272 strLog.Format("changing device type '%s' into '%s'", ToString(from), ToString(to));
273 AddLog(CEC_LOG_NOTICE, strLog);
274
275 CLockObject lock(m_mutex);
276 CCECBusDevice *previousDevice = GetDeviceByType(from);
277 m_logicalAddresses.primary = CECDEVICE_UNKNOWN;
278
279 for (unsigned int iPtr = 0; iPtr < 5; iPtr++)
280 {
281 if (m_types.types[iPtr] == CEC_DEVICE_TYPE_RESERVED)
282 continue;
283
284 if (m_types.types[iPtr] == from)
285 {
286 bChanged = true;
287 m_types.types[iPtr] = to;
288 }
289 else if (m_types.types[iPtr] == to && bChanged)
290 {
291 m_types.types[iPtr] = CEC_DEVICE_TYPE_RESERVED;
292 }
293 }
294
295 if (bChanged)
296 {
297 FindLogicalAddresses();
298
299 CCECBusDevice *newDevice = GetDeviceByType(to);
300 if (previousDevice && newDevice)
301 {
302 newDevice->SetDeviceStatus(CEC_DEVICE_STATUS_HANDLED_BY_LIBCEC);
303 previousDevice->SetDeviceStatus(CEC_DEVICE_STATUS_UNKNOWN);
304
305 newDevice->SetCecVersion(previousDevice->GetCecVersion(false));
306 previousDevice->SetCecVersion(CEC_VERSION_UNKNOWN);
307
308 newDevice->SetMenuLanguage(previousDevice->GetMenuLanguage(false));
309 cec_menu_language lang;
310 lang.device = previousDevice->GetLogicalAddress();
311 for (unsigned int iPtr = 0; iPtr < 4; iPtr++)
312 lang.language[iPtr] = '?';
313 lang.language[3] = 0;
314 previousDevice->SetMenuLanguage(lang);
315
316 newDevice->SetMenuState(previousDevice->GetMenuState());
317 previousDevice->SetMenuState(CEC_MENU_STATE_DEACTIVATED);
318
319 newDevice->SetOSDName(previousDevice->GetOSDName(false));
320 previousDevice->SetOSDName(ToString(previousDevice->GetLogicalAddress()));
321
322 newDevice->SetPhysicalAddress(previousDevice->GetPhysicalAddress(false));
323 previousDevice->SetPhysicalAddress(0xFFFF);
324
325 newDevice->SetPowerStatus(previousDevice->GetPowerStatus(false));
326 previousDevice->SetPowerStatus(CEC_POWER_STATUS_UNKNOWN);
327
328 newDevice->SetVendorId(previousDevice->GetVendorId(false));
329 previousDevice->SetVendorId(CEC_VENDOR_UNKNOWN);
330
331 if ((from == CEC_DEVICE_TYPE_PLAYBACK_DEVICE || from == CEC_DEVICE_TYPE_RECORDING_DEVICE) &&
332 (to == CEC_DEVICE_TYPE_PLAYBACK_DEVICE || to == CEC_DEVICE_TYPE_RECORDING_DEVICE))
333 {
334 ((CCECPlaybackDevice *) newDevice)->SetDeckControlMode(((CCECPlaybackDevice *) previousDevice)->GetDeckControlMode());
335 ((CCECPlaybackDevice *) previousDevice)->SetDeckControlMode(CEC_DECK_CONTROL_MODE_STOP);
336
337 ((CCECPlaybackDevice *) newDevice)->SetDeckStatus(((CCECPlaybackDevice *) previousDevice)->GetDeckStatus());
338 ((CCECPlaybackDevice *) previousDevice)->SetDeckStatus(CEC_DECK_INFO_STOP);
339 }
340 }
341 }
342
343 return true;
344 }
345
346 bool CCECProcessor::FindLogicalAddresses(void)
347 {
348 bool bReturn(true);
349 m_logicalAddresses.Clear();
350 CStdString strLog;
351
352 for (unsigned int iPtr = 0; iPtr < 5; iPtr++)
353 {
354 if (m_types.types[iPtr] == CEC_DEVICE_TYPE_RESERVED)
355 continue;
356
357 strLog.Format("%s - device %d: type %d", __FUNCTION__, iPtr, m_types.types[iPtr]);
358 AddLog(CEC_LOG_DEBUG, strLog);
359
360 if (m_types.types[iPtr] == CEC_DEVICE_TYPE_RECORDING_DEVICE)
361 bReturn &= FindLogicalAddressRecordingDevice();
362 if (m_types.types[iPtr] == CEC_DEVICE_TYPE_TUNER)
363 bReturn &= FindLogicalAddressTuner();
364 if (m_types.types[iPtr] == CEC_DEVICE_TYPE_PLAYBACK_DEVICE)
365 bReturn &= FindLogicalAddressPlaybackDevice();
366 if (m_types.types[iPtr] == CEC_DEVICE_TYPE_AUDIO_SYSTEM)
367 bReturn &= FindLogicalAddressAudioSystem();
368 }
369
370 if (bReturn)
371 SetAckMask(m_logicalAddresses.AckMask());
372
373 return bReturn;
374 }
375
376 void CCECProcessor::ReplaceHandlers(void)
377 {
378 for (uint8_t iPtr = 0; iPtr <= CECDEVICE_PLAYBACKDEVICE3; iPtr++)
379 m_busDevices[iPtr]->ReplaceHandler(m_bInitialised);
380 }
381
382 void *CCECProcessor::Process(void)
383 {
384 bool bParseFrame(false);
385 cec_command command;
386 CCECAdapterMessage msg;
387
388 {
389 CLockObject lock(m_mutex);
390 m_bStarted = true;
391 m_controller->AddLog(CEC_LOG_DEBUG, "processor thread started");
392 m_startCondition.Signal();
393 }
394
395 while (!IsStopped())
396 {
397 ReplaceHandlers();
398 command.Clear();
399 msg.clear();
400
401 {
402 CLockObject lock(m_mutex);
403 if (m_commandBuffer.Pop(command))
404 {
405 bParseFrame = true;
406 }
407 else if (m_communication->IsOpen() && m_communication->Read(msg, 50))
408 {
409 if ((bParseFrame = (ParseMessage(msg) && !IsStopped())) == true)
410 command = m_currentframe;
411 }
412 }
413
414 if (bParseFrame)
415 ParseCommand(command);
416 bParseFrame = false;
417
418 Sleep(5);
419
420 m_controller->CheckKeypressTimeout();
421 }
422
423 if (m_communication)
424 m_communication->Close();
425
426 return NULL;
427 }
428
429 bool CCECProcessor::SetActiveSource(cec_device_type type /* = CEC_DEVICE_TYPE_RESERVED */)
430 {
431 bool bReturn(false);
432
433 if (!IsRunning())
434 return bReturn;
435
436 cec_logical_address addr = m_logicalAddresses.primary;
437
438 if (type != CEC_DEVICE_TYPE_RESERVED)
439 {
440 for (uint8_t iPtr = 0; iPtr <= 11; iPtr++)
441 {
442 if (m_logicalAddresses[iPtr] && m_busDevices[iPtr]->m_type == type)
443 {
444 addr = (cec_logical_address) iPtr;
445 break;
446 }
447 }
448 }
449
450 m_busDevices[addr]->SetActiveSource();
451 if (m_busDevices[addr]->GetPhysicalAddress(false) != 0xFFFF)
452 {
453 bReturn = m_busDevices[addr]->TransmitActiveSource();
454
455 if (bReturn && (m_busDevices[addr]->GetType() == CEC_DEVICE_TYPE_PLAYBACK_DEVICE ||
456 m_busDevices[addr]->GetType() == CEC_DEVICE_TYPE_RECORDING_DEVICE) &&
457 m_busDevices[addr]->GetHandler()->SendDeckStatusUpdateOnActiveSource())
458 {
459 bReturn = ((CCECPlaybackDevice *)m_busDevices[addr])->TransmitDeckStatus(CECDEVICE_TV);
460 }
461 }
462
463 return bReturn;
464 }
465
466 bool CCECProcessor::SetActiveSource(uint16_t iStreamPath)
467 {
468 bool bReturn(false);
469
470 CCECBusDevice *device = GetDeviceByPhysicalAddress(iStreamPath);
471 if (device)
472 {
473 device->SetActiveSource();
474 bReturn = true;
475 }
476
477 return bReturn;
478 }
479
480 void CCECProcessor::SetStandardLineTimeout(uint8_t iTimeout)
481 {
482 CLockObject lock(m_mutex);
483 m_iStandardLineTimeout = iTimeout;
484 }
485
486 void CCECProcessor::SetRetryLineTimeout(uint8_t iTimeout)
487 {
488 CLockObject lock(m_mutex);
489 m_iRetryLineTimeout = iTimeout;
490 }
491
492 bool CCECProcessor::SetActiveView(void)
493 {
494 return SetActiveSource(m_types.IsEmpty() ? CEC_DEVICE_TYPE_RESERVED : m_types[0]);
495 }
496
497 bool CCECProcessor::SetDeckControlMode(cec_deck_control_mode mode, bool bSendUpdate /* = true */)
498 {
499 bool bReturn(false);
500
501 CCECBusDevice *device = GetDeviceByType(CEC_DEVICE_TYPE_PLAYBACK_DEVICE);
502 if (device)
503 {
504 ((CCECPlaybackDevice *) device)->SetDeckControlMode(mode);
505 if (bSendUpdate)
506 ((CCECPlaybackDevice *) device)->TransmitDeckStatus(CECDEVICE_TV);
507 bReturn = true;
508 }
509
510 return bReturn;
511 }
512
513 bool CCECProcessor::SetDeckInfo(cec_deck_info info, bool bSendUpdate /* = true */)
514 {
515 bool bReturn(false);
516
517 CCECBusDevice *device = GetDeviceByType(CEC_DEVICE_TYPE_PLAYBACK_DEVICE);
518 if (device)
519 {
520 ((CCECPlaybackDevice *) device)->SetDeckStatus(info);
521 if (bSendUpdate)
522 ((CCECPlaybackDevice *) device)->TransmitDeckStatus(CECDEVICE_TV);
523 bReturn = true;
524 }
525
526 return bReturn;
527 }
528
529 bool CCECProcessor::SetHDMIPort(cec_logical_address iBaseDevice, uint8_t iPort, bool bForce /* = false */)
530 {
531 bool bReturn(false);
532 CLockObject lock(m_mutex);
533
534 m_iBaseDevice = iBaseDevice;
535 m_iHDMIPort = iPort;
536 if (!m_bStarted && !bForce)
537 return true;
538
539 CStdString strLog;
540 strLog.Format("setting HDMI port to %d on device %s (%d)", iPort, ToString(iBaseDevice), (int)iBaseDevice);
541 AddLog(CEC_LOG_DEBUG, strLog);
542
543 uint16_t iPhysicalAddress(0);
544 if (iBaseDevice > CECDEVICE_TV)
545 {
546 lock.Unlock();
547 iPhysicalAddress = m_busDevices[iBaseDevice]->GetPhysicalAddress();
548 lock.Lock();
549 }
550
551 if (iPhysicalAddress < 0xffff)
552 {
553 if (iPhysicalAddress == 0)
554 iPhysicalAddress += 0x1000 * iPort;
555 else if (iPhysicalAddress % 0x1000 == 0)
556 iPhysicalAddress += 0x100 * iPort;
557 else if (iPhysicalAddress % 0x100 == 0)
558 iPhysicalAddress += 0x10 * iPort;
559 else if (iPhysicalAddress % 0x10 == 0)
560 iPhysicalAddress += iPort;
561
562 bReturn = true;
563 }
564
565 if (!bReturn)
566 m_controller->AddLog(CEC_LOG_ERROR, "failed to set the physical address");
567 else
568 {
569 lock.Unlock();
570 SetPhysicalAddress(iPhysicalAddress);
571 }
572
573 return bReturn;
574 }
575
576 bool CCECProcessor::PhysicalAddressInUse(uint16_t iPhysicalAddress)
577 {
578 for (unsigned int iPtr = 0; iPtr < 15; iPtr++)
579 {
580 if (m_busDevices[iPtr]->GetPhysicalAddress(false) == iPhysicalAddress)
581 return true;
582 }
583 return false;
584 }
585
586 bool CCECProcessor::TransmitInactiveSource(void)
587 {
588 if (!IsRunning())
589 return false;
590
591 if (!m_logicalAddresses.IsEmpty() && m_busDevices[m_logicalAddresses.primary])
592 return m_busDevices[m_logicalAddresses.primary]->TransmitInactiveSource();
593 return false;
594 }
595
596 void CCECProcessor::LogOutput(const cec_command &data)
597 {
598 CStdString strTx;
599 strTx.Format("<< %02x", ((uint8_t)data.initiator << 4) + (uint8_t)data.destination);
600 if (data.opcode_set)
601 strTx.AppendFormat(":%02x", (uint8_t)data.opcode);
602
603 for (uint8_t iPtr = 0; iPtr < data.parameters.size; iPtr++)
604 strTx.AppendFormat(":%02x", data.parameters[iPtr]);
605 m_controller->AddLog(CEC_LOG_TRAFFIC, strTx.c_str());
606 }
607
608 bool CCECProcessor::SetLogicalAddress(cec_logical_address iLogicalAddress)
609 {
610 CLockObject lock(m_mutex);
611 if (m_logicalAddresses.primary != iLogicalAddress)
612 {
613 CStdString strLog;
614 strLog.Format("<< setting primary logical address to %1x", iLogicalAddress);
615 m_controller->AddLog(CEC_LOG_NOTICE, strLog.c_str());
616 m_logicalAddresses.primary = iLogicalAddress;
617 m_logicalAddresses.Set(iLogicalAddress);
618 return SetAckMask(m_logicalAddresses.AckMask());
619 }
620
621 return true;
622 }
623
624 bool CCECProcessor::SetMenuState(cec_menu_state state, bool bSendUpdate /* = true */)
625 {
626 for (uint8_t iPtr = 0; iPtr < 16; iPtr++)
627 {
628 if (m_logicalAddresses[iPtr])
629 m_busDevices[iPtr]->SetMenuState(state);
630 }
631
632 if (bSendUpdate)
633 m_busDevices[m_logicalAddresses.primary]->TransmitMenuState(CECDEVICE_TV);
634
635 return true;
636 }
637
638 bool CCECProcessor::SetPhysicalAddress(uint16_t iPhysicalAddress, bool bSendUpdate /* = true */)
639 {
640 bool bSendActiveView(false);
641 bool bReturn(false);
642 cec_logical_addresses sendUpdatesTo;
643
644 {
645 CLockObject lock(m_mutex);
646 if (!m_logicalAddresses.IsEmpty())
647 {
648 bool bWasActiveSource(false);
649 for (uint8_t iPtr = 0; iPtr < 15; iPtr++)
650 if (m_logicalAddresses[iPtr])
651 {
652 bWasActiveSource |= m_busDevices[iPtr]->IsActiveSource();
653 m_busDevices[iPtr]->SetInactiveSource();
654 m_busDevices[iPtr]->SetPhysicalAddress(iPhysicalAddress);
655 if (bSendUpdate)
656 sendUpdatesTo.Set((cec_logical_address)iPtr);
657 }
658
659 bSendActiveView = bWasActiveSource && bSendUpdate;
660 bReturn = true;
661 }
662 }
663
664 for (uint8_t iPtr = 0; iPtr < 15; iPtr++)
665 if (sendUpdatesTo[iPtr])
666 m_busDevices[iPtr]->TransmitPhysicalAddress();
667
668 if (bSendActiveView)
669 SetActiveView();
670
671 return bReturn;
672 }
673
674 bool CCECProcessor::SwitchMonitoring(bool bEnable)
675 {
676 CStdString strLog;
677 strLog.Format("== %s monitoring mode ==", bEnable ? "enabling" : "disabling");
678 m_controller->AddLog(CEC_LOG_NOTICE, strLog.c_str());
679
680 {
681 CLockObject lock(m_mutex);
682 m_bMonitor = bEnable;
683 }
684
685 if (bEnable)
686 return SetAckMask(0);
687 else
688 return SetAckMask(m_logicalAddresses.AckMask());
689 }
690
691 bool CCECProcessor::PollDevice(cec_logical_address iAddress)
692 {
693 if (iAddress != CECDEVICE_UNKNOWN && m_busDevices[iAddress])
694 {
695 return m_logicalAddresses.primary == CECDEVICE_UNKNOWN ?
696 m_busDevices[iAddress]->TransmitPoll(iAddress) :
697 m_busDevices[m_logicalAddresses.primary]->TransmitPoll(iAddress);
698 }
699 return false;
700 }
701
702 uint8_t CCECProcessor::VolumeUp(bool bSendRelease /* = true */)
703 {
704 uint8_t status = 0;
705 if (IsPresentDevice(CECDEVICE_AUDIOSYSTEM))
706 status = ((CCECAudioSystem *)m_busDevices[CECDEVICE_AUDIOSYSTEM])->VolumeUp(bSendRelease);
707
708 return status;
709 }
710
711 uint8_t CCECProcessor::VolumeDown(bool bSendRelease /* = true */)
712 {
713 uint8_t status = 0;
714 if (IsPresentDevice(CECDEVICE_AUDIOSYSTEM))
715 status = ((CCECAudioSystem *)m_busDevices[CECDEVICE_AUDIOSYSTEM])->VolumeDown(bSendRelease);
716
717 return status;
718 }
719
720 uint8_t CCECProcessor::MuteAudio(bool bSendRelease /* = true */)
721 {
722 uint8_t status = 0;
723 if (IsPresentDevice(CECDEVICE_AUDIOSYSTEM))
724 status = ((CCECAudioSystem *)m_busDevices[CECDEVICE_AUDIOSYSTEM])->MuteAudio(bSendRelease);
725
726 return status;
727 }
728
729 CCECBusDevice *CCECProcessor::GetDeviceByPhysicalAddress(uint16_t iPhysicalAddress, bool bRefresh /* = false */) const
730 {
731 if (m_busDevices[m_logicalAddresses.primary]->GetPhysicalAddress(false) == iPhysicalAddress)
732 return m_busDevices[m_logicalAddresses.primary];
733
734 CCECBusDevice *device = NULL;
735 for (unsigned int iPtr = 0; iPtr < 16; iPtr++)
736 {
737 if (m_busDevices[iPtr]->GetPhysicalAddress(bRefresh) == iPhysicalAddress)
738 {
739 device = m_busDevices[iPtr];
740 break;
741 }
742 }
743
744 return device;
745 }
746
747 CCECBusDevice *CCECProcessor::GetDeviceByType(cec_device_type type) const
748 {
749 CCECBusDevice *device = NULL;
750
751 for (uint8_t iPtr = 0; iPtr < 16; iPtr++)
752 {
753 if (m_busDevices[iPtr]->m_type == type && m_logicalAddresses[iPtr])
754 {
755 device = m_busDevices[iPtr];
756 break;
757 }
758 }
759
760 return device;
761 }
762
763 CCECBusDevice *CCECProcessor::GetPrimaryDevice(void) const
764 {
765 CCECBusDevice *device(NULL);
766 cec_logical_address primary = m_logicalAddresses.primary;
767 if (primary != CECDEVICE_UNKNOWN)
768 device = m_busDevices[primary];
769 return device;
770 }
771
772 cec_version CCECProcessor::GetDeviceCecVersion(cec_logical_address iAddress)
773 {
774 return m_busDevices[iAddress]->GetCecVersion();
775 }
776
777 cec_osd_name CCECProcessor::GetDeviceOSDName(cec_logical_address iAddress)
778 {
779 CStdString strOSDName = m_busDevices[iAddress]->GetOSDName();
780 cec_osd_name retVal;
781
782 snprintf(retVal.name, sizeof(retVal.name), "%s", strOSDName.c_str());
783 retVal.device = iAddress;
784
785 return retVal;
786 }
787
788 bool CCECProcessor::GetDeviceMenuLanguage(cec_logical_address iAddress, cec_menu_language *language)
789 {
790 if (m_busDevices[iAddress])
791 {
792 *language = m_busDevices[iAddress]->GetMenuLanguage();
793 return (strcmp(language->language, "???") != 0);
794 }
795 return false;
796 }
797
798 uint64_t CCECProcessor::GetDeviceVendorId(cec_logical_address iAddress)
799 {
800 if (m_busDevices[iAddress])
801 return m_busDevices[iAddress]->GetVendorId();
802 return false;
803 }
804
805 uint16_t CCECProcessor::GetDevicePhysicalAddress(cec_logical_address iAddress)
806 {
807 if (m_busDevices[iAddress])
808 return m_busDevices[iAddress]->GetPhysicalAddress(false);
809 return false;
810 }
811
812 cec_power_status CCECProcessor::GetDevicePowerStatus(cec_logical_address iAddress)
813 {
814 if (m_busDevices[iAddress])
815 return m_busDevices[iAddress]->GetPowerStatus();
816 return CEC_POWER_STATUS_UNKNOWN;
817 }
818
819 cec_logical_address CCECProcessor::GetActiveSource(void)
820 {
821 for (uint8_t iPtr = 0; iPtr <= 11; iPtr++)
822 {
823 if (m_busDevices[iPtr]->IsActiveSource())
824 return (cec_logical_address)iPtr;
825 }
826
827 return CECDEVICE_UNKNOWN;
828 }
829
830 bool CCECProcessor::IsActiveSource(cec_logical_address iAddress)
831 {
832 return m_busDevices[iAddress]->IsActiveSource();
833 }
834
835 bool CCECProcessor::Transmit(const cec_command &data)
836 {
837 bool bReturn(false);
838 LogOutput(data);
839
840 CCECAdapterMessage *output = new CCECAdapterMessage(data);
841
842 /* set the number of retries */
843 if (data.opcode == CEC_OPCODE_NONE)
844 output->maxTries = 1;
845 else if (data.initiator != CECDEVICE_BROADCAST)
846 output->maxTries = m_busDevices[data.initiator]->GetHandler()->GetTransmitRetries() + 1;
847
848 bReturn = Transmit(output);
849
850 /* set to "not present" on failed ack */
851 if (output->is_error() && output->reply == MSGCODE_TRANSMIT_FAILED_ACK &&
852 output->destination() != CECDEVICE_BROADCAST)
853 m_busDevices[output->destination()]->SetDeviceStatus(CEC_DEVICE_STATUS_NOT_PRESENT);
854
855 delete output;
856 return bReturn;
857 }
858
859 bool CCECProcessor::Transmit(CCECAdapterMessage *output)
860 {
861 bool bReturn(false);
862 CLockObject lock(m_mutex);
863 {
864 m_iLastTransmission = GetTimeMs();
865 m_communication->SetLineTimeout(m_iStandardLineTimeout);
866 output->tries = 1;
867
868 do
869 {
870 if (output->tries > 0)
871 m_communication->SetLineTimeout(m_iRetryLineTimeout);
872
873 CLockObject msgLock(output->mutex);
874 if (!m_communication || !m_communication->Write(output))
875 return bReturn;
876 else
877 {
878 output->condition.Wait(output->mutex);
879 if (output->state != ADAPTER_MESSAGE_STATE_SENT)
880 {
881 m_controller->AddLog(CEC_LOG_ERROR, "command was not sent");
882 return bReturn;
883 }
884 }
885
886 if (output->transmit_timeout > 0)
887 {
888 if ((bReturn = WaitForTransmitSucceeded(output)) == false)
889 m_controller->AddLog(CEC_LOG_DEBUG, "did not receive ack");
890 }
891 else
892 bReturn = true;
893 }while (output->transmit_timeout > 0 && output->needs_retry() && ++output->tries < output->maxTries);
894 }
895
896 m_communication->SetLineTimeout(m_iStandardLineTimeout);
897
898 return bReturn;
899 }
900
901 void CCECProcessor::TransmitAbort(cec_logical_address address, cec_opcode opcode, cec_abort_reason reason /* = CEC_ABORT_REASON_UNRECOGNIZED_OPCODE */)
902 {
903 m_controller->AddLog(CEC_LOG_DEBUG, "<< transmitting abort message");
904
905 cec_command command;
906 // TODO
907 cec_command::Format(command, m_logicalAddresses.primary, address, CEC_OPCODE_FEATURE_ABORT);
908 command.parameters.PushBack((uint8_t)opcode);
909 command.parameters.PushBack((uint8_t)reason);
910
911 Transmit(command);
912 }
913
914 bool CCECProcessor::WaitForTransmitSucceeded(CCECAdapterMessage *message)
915 {
916 bool bError(false);
917 bool bTransmitSucceeded(false);
918 uint8_t iPacketsLeft(message->size() / 4);
919
920 int64_t iNow = GetTimeMs();
921 int64_t iTargetTime = iNow + message->transmit_timeout;
922
923 while (!bTransmitSucceeded && !bError && (message->transmit_timeout == 0 || iNow < iTargetTime))
924 {
925 CCECAdapterMessage msg;
926
927 if (!m_communication->Read(msg, message->transmit_timeout > 0 ? (int32_t)(iTargetTime - iNow) : 1000))
928 {
929 iNow = GetTimeMs();
930 continue;
931 }
932
933 if (msg.message() == MSGCODE_FRAME_START && msg.ack())
934 {
935 m_busDevices[msg.initiator()]->GetHandler()->HandlePoll(msg.initiator(), msg.destination());
936 m_lastInitiator = msg.initiator();
937 iNow = GetTimeMs();
938 continue;
939 }
940
941 bError = msg.is_error();
942 if (msg.message() == MSGCODE_RECEIVE_FAILED &&
943 m_lastInitiator != CECDEVICE_UNKNOWN &&
944 !m_busDevices[m_lastInitiator]->GetHandler()->HandleReceiveFailed())
945 {
946 iNow = GetTimeMs();
947 continue;
948 }
949
950 if (bError)
951 {
952 message->reply = msg.message();
953 m_controller->AddLog(CEC_LOG_DEBUG, msg.ToString());
954 }
955 else
956 {
957 switch(msg.message())
958 {
959 case MSGCODE_COMMAND_ACCEPTED:
960 m_controller->AddLog(CEC_LOG_DEBUG, msg.ToString());
961 if (iPacketsLeft > 0)
962 iPacketsLeft--;
963 break;
964 case MSGCODE_TRANSMIT_SUCCEEDED:
965 m_controller->AddLog(CEC_LOG_DEBUG, msg.ToString());
966 bTransmitSucceeded = (iPacketsLeft == 0);
967 bError = !bTransmitSucceeded;
968 message->reply = MSGCODE_TRANSMIT_SUCCEEDED;
969 break;
970 default:
971 // ignore other data while waiting
972 break;
973 }
974
975 iNow = GetTimeMs();
976 }
977 }
978
979 return bTransmitSucceeded && !bError;
980 }
981
982 bool CCECProcessor::ParseMessage(const CCECAdapterMessage &msg)
983 {
984 bool bEom(false);
985 bool bIsError(msg.is_error());
986
987 if (msg.empty())
988 return bEom;
989
990 switch(msg.message())
991 {
992 case MSGCODE_FRAME_START:
993 {
994 m_currentframe.Clear();
995 if (msg.size() >= 2)
996 {
997 m_currentframe.initiator = msg.initiator();
998 m_currentframe.destination = msg.destination();
999 m_currentframe.ack = msg.ack();
1000 m_currentframe.eom = msg.eom();
1001 }
1002 if (m_currentframe.ack == 0x1)
1003 {
1004 m_lastInitiator = m_currentframe.initiator;
1005 m_busDevices[m_lastInitiator]->GetHandler()->HandlePoll(m_currentframe.initiator, m_currentframe.destination);
1006 }
1007 }
1008 break;
1009 case MSGCODE_RECEIVE_FAILED:
1010 {
1011 if (m_lastInitiator != CECDEVICE_UNKNOWN)
1012 bIsError = m_busDevices[m_lastInitiator]->GetHandler()->HandleReceiveFailed();
1013 }
1014 break;
1015 case MSGCODE_FRAME_DATA:
1016 {
1017 if (msg.size() >= 2)
1018 {
1019 m_currentframe.PushBack(msg[1]);
1020 m_currentframe.eom = msg.eom();
1021 }
1022 bEom = msg.eom();
1023 }
1024 break;
1025 default:
1026 break;
1027 }
1028
1029 m_controller->AddLog(bIsError ? CEC_LOG_WARNING : CEC_LOG_DEBUG, msg.ToString());
1030 return bEom;
1031 }
1032
1033 void CCECProcessor::ParseCommand(cec_command &command)
1034 {
1035 CStdString dataStr;
1036 dataStr.Format(">> %1x%1x:%02x", command.initiator, command.destination, command.opcode);
1037 for (uint8_t iPtr = 0; iPtr < command.parameters.size; iPtr++)
1038 dataStr.AppendFormat(":%02x", (unsigned int)command.parameters[iPtr]);
1039 m_controller->AddLog(CEC_LOG_TRAFFIC, dataStr.c_str());
1040
1041 if (!m_bMonitor && command.initiator >= CECDEVICE_TV && command.initiator <= CECDEVICE_BROADCAST)
1042 m_busDevices[(uint8_t)command.initiator]->HandleCommand(command);
1043 }
1044
1045 cec_logical_addresses CCECProcessor::GetActiveDevices(void)
1046 {
1047 cec_logical_addresses addresses;
1048 addresses.Clear();
1049 for (unsigned int iPtr = 0; iPtr < 15; iPtr++)
1050 {
1051 if (m_busDevices[iPtr]->GetStatus() == CEC_DEVICE_STATUS_PRESENT)
1052 addresses.Set((cec_logical_address) iPtr);
1053 }
1054 return addresses;
1055 }
1056
1057 bool CCECProcessor::IsPresentDevice(cec_logical_address address)
1058 {
1059 return m_busDevices[address]->GetStatus() == CEC_DEVICE_STATUS_PRESENT;
1060 }
1061
1062 bool CCECProcessor::IsPresentDeviceType(cec_device_type type)
1063 {
1064 for (unsigned int iPtr = 0; iPtr < 15; iPtr++)
1065 {
1066 if (m_busDevices[iPtr]->GetType() == type && m_busDevices[iPtr]->GetStatus() == CEC_DEVICE_STATUS_PRESENT)
1067 return true;
1068 }
1069
1070 return false;
1071 }
1072
1073 uint16_t CCECProcessor::GetPhysicalAddress(void) const
1074 {
1075 if (!m_logicalAddresses.IsEmpty() && m_busDevices[m_logicalAddresses.primary])
1076 return m_busDevices[m_logicalAddresses.primary]->GetPhysicalAddress(false);
1077 return false;
1078 }
1079
1080 void CCECProcessor::SetCurrentButton(cec_user_control_code iButtonCode)
1081 {
1082 m_controller->SetCurrentButton(iButtonCode);
1083 }
1084
1085 void CCECProcessor::AddCommand(const cec_command &command)
1086 {
1087 m_controller->AddCommand(command);
1088 }
1089
1090 void CCECProcessor::AddKey(cec_keypress &key)
1091 {
1092 m_controller->AddKey(key);
1093 }
1094
1095 void CCECProcessor::AddKey(void)
1096 {
1097 m_controller->AddKey();
1098 }
1099
1100 void CCECProcessor::AddLog(cec_log_level level, const CStdString &strMessage)
1101 {
1102 m_controller->AddLog(level, strMessage);
1103 }
1104
1105 bool CCECProcessor::SetAckMask(uint16_t iMask)
1106 {
1107 bool bReturn(false);
1108 CStdString strLog;
1109 strLog.Format("setting ackmask to %2x", iMask);
1110 m_controller->AddLog(CEC_LOG_DEBUG, strLog.c_str());
1111
1112 CCECAdapterMessage *output = new CCECAdapterMessage;
1113
1114 output->push_back(MSGSTART);
1115 output->push_escaped(MSGCODE_SET_ACK_MASK);
1116 output->push_escaped(iMask >> 8);
1117 output->push_escaped((uint8_t)iMask);
1118 output->push_back(MSGEND);
1119
1120 if ((bReturn = Transmit(output)) == false)
1121 m_controller->AddLog(CEC_LOG_ERROR, "could not set the ackmask");
1122
1123 delete output;
1124
1125 return bReturn;
1126 }
1127
1128 bool CCECProcessor::TransmitKeypress(cec_logical_address iDestination, cec_user_control_code key, bool bWait /* = true */)
1129 {
1130 return m_busDevices[iDestination]->TransmitKeypress(key, bWait);
1131 }
1132
1133 bool CCECProcessor::TransmitKeyRelease(cec_logical_address iDestination, bool bWait /* = true */)
1134 {
1135 return m_busDevices[iDestination]->TransmitKeyRelease(bWait);
1136 }
1137
1138 const char *CCECProcessor::ToString(const cec_device_type type)
1139 {
1140 switch (type)
1141 {
1142 case CEC_DEVICE_TYPE_AUDIO_SYSTEM:
1143 return "audio system";
1144 case CEC_DEVICE_TYPE_PLAYBACK_DEVICE:
1145 return "playback device";
1146 case CEC_DEVICE_TYPE_RECORDING_DEVICE:
1147 return "recording device";
1148 case CEC_DEVICE_TYPE_RESERVED:
1149 return "reserved";
1150 case CEC_DEVICE_TYPE_TUNER:
1151 return "tuner";
1152 case CEC_DEVICE_TYPE_TV:
1153 return "TV";
1154 default:
1155 return "unknown";
1156 }
1157 }
1158
1159 const char *CCECProcessor::ToString(const cec_menu_state state)
1160 {
1161 switch (state)
1162 {
1163 case CEC_MENU_STATE_ACTIVATED:
1164 return "activated";
1165 case CEC_MENU_STATE_DEACTIVATED:
1166 return "deactivated";
1167 default:
1168 return "unknown";
1169 }
1170 }
1171
1172 const char *CCECProcessor::ToString(const cec_version version)
1173 {
1174 switch (version)
1175 {
1176 case CEC_VERSION_1_2:
1177 return "1.2";
1178 case CEC_VERSION_1_2A:
1179 return "1.2a";
1180 case CEC_VERSION_1_3:
1181 return "1.3";
1182 case CEC_VERSION_1_3A:
1183 return "1.3a";
1184 case CEC_VERSION_1_4:
1185 return "1.4";
1186 default:
1187 return "unknown";
1188 }
1189 }
1190
1191 const char *CCECProcessor::ToString(const cec_power_status status)
1192 {
1193 switch (status)
1194 {
1195 case CEC_POWER_STATUS_ON:
1196 return "on";
1197 case CEC_POWER_STATUS_STANDBY:
1198 return "standby";
1199 case CEC_POWER_STATUS_IN_TRANSITION_ON_TO_STANDBY:
1200 return "in transition from on to standby";
1201 case CEC_POWER_STATUS_IN_TRANSITION_STANDBY_TO_ON:
1202 return "in transition from standby to on";
1203 default:
1204 return "unknown";
1205 }
1206 }
1207
1208 const char *CCECProcessor::ToString(const cec_logical_address address)
1209 {
1210 switch(address)
1211 {
1212 case CECDEVICE_AUDIOSYSTEM:
1213 return "Audio";
1214 case CECDEVICE_BROADCAST:
1215 return "Broadcast";
1216 case CECDEVICE_FREEUSE:
1217 return "Free use";
1218 case CECDEVICE_PLAYBACKDEVICE1:
1219 return "Playback 1";
1220 case CECDEVICE_PLAYBACKDEVICE2:
1221 return "Playback 2";
1222 case CECDEVICE_PLAYBACKDEVICE3:
1223 return "Playback 3";
1224 case CECDEVICE_RECORDINGDEVICE1:
1225 return "Recorder 1";
1226 case CECDEVICE_RECORDINGDEVICE2:
1227 return "Recorder 2";
1228 case CECDEVICE_RECORDINGDEVICE3:
1229 return "Recorder 3";
1230 case CECDEVICE_RESERVED1:
1231 return "Reserved 1";
1232 case CECDEVICE_RESERVED2:
1233 return "Reserved 2";
1234 case CECDEVICE_TUNER1:
1235 return "Tuner 1";
1236 case CECDEVICE_TUNER2:
1237 return "Tuner 2";
1238 case CECDEVICE_TUNER3:
1239 return "Tuner 3";
1240 case CECDEVICE_TUNER4:
1241 return "Tuner 4";
1242 case CECDEVICE_TV:
1243 return "TV";
1244 default:
1245 return "unknown";
1246 }
1247 }
1248
1249 const char *CCECProcessor::ToString(const cec_deck_control_mode mode)
1250 {
1251 switch (mode)
1252 {
1253 case CEC_DECK_CONTROL_MODE_SKIP_FORWARD_WIND:
1254 return "skip forward wind";
1255 case CEC_DECK_CONTROL_MODE_EJECT:
1256 return "eject";
1257 case CEC_DECK_CONTROL_MODE_SKIP_REVERSE_REWIND:
1258 return "reverse rewind";
1259 case CEC_DECK_CONTROL_MODE_STOP:
1260 return "stop";
1261 default:
1262 return "unknown";
1263 }
1264 }
1265
1266 const char *CCECProcessor::ToString(const cec_deck_info status)
1267 {
1268 switch (status)
1269 {
1270 case CEC_DECK_INFO_PLAY:
1271 return "play";
1272 case CEC_DECK_INFO_RECORD:
1273 return "record";
1274 case CEC_DECK_INFO_PLAY_REVERSE:
1275 return "play reverse";
1276 case CEC_DECK_INFO_STILL:
1277 return "still";
1278 case CEC_DECK_INFO_SLOW:
1279 return "slow";
1280 case CEC_DECK_INFO_SLOW_REVERSE:
1281 return "slow reverse";
1282 case CEC_DECK_INFO_FAST_FORWARD:
1283 return "fast forward";
1284 case CEC_DECK_INFO_FAST_REVERSE:
1285 return "fast reverse";
1286 case CEC_DECK_INFO_NO_MEDIA:
1287 return "no media";
1288 case CEC_DECK_INFO_STOP:
1289 return "stop";
1290 case CEC_DECK_INFO_SKIP_FORWARD_WIND:
1291 return "info skip forward wind";
1292 case CEC_DECK_INFO_SKIP_REVERSE_REWIND:
1293 return "info skip reverse rewind";
1294 case CEC_DECK_INFO_INDEX_SEARCH_FORWARD:
1295 return "info index search forward";
1296 case CEC_DECK_INFO_INDEX_SEARCH_REVERSE:
1297 return "info index search reverse";
1298 case CEC_DECK_INFO_OTHER_STATUS:
1299 return "other";
1300 default:
1301 return "unknown";
1302 }
1303 }
1304
1305 const char *CCECProcessor::ToString(const cec_opcode opcode)
1306 {
1307 switch (opcode)
1308 {
1309 case CEC_OPCODE_ACTIVE_SOURCE:
1310 return "active source";
1311 case CEC_OPCODE_IMAGE_VIEW_ON:
1312 return "image view on";
1313 case CEC_OPCODE_TEXT_VIEW_ON:
1314 return "text view on";
1315 case CEC_OPCODE_INACTIVE_SOURCE:
1316 return "inactive source";
1317 case CEC_OPCODE_REQUEST_ACTIVE_SOURCE:
1318 return "request active source";
1319 case CEC_OPCODE_ROUTING_CHANGE:
1320 return "routing change";
1321 case CEC_OPCODE_ROUTING_INFORMATION:
1322 return "routing information";
1323 case CEC_OPCODE_SET_STREAM_PATH:
1324 return "set stream path";
1325 case CEC_OPCODE_STANDBY:
1326 return "standby";
1327 case CEC_OPCODE_RECORD_OFF:
1328 return "record off";
1329 case CEC_OPCODE_RECORD_ON:
1330 return "record on";
1331 case CEC_OPCODE_RECORD_STATUS:
1332 return "record status";
1333 case CEC_OPCODE_RECORD_TV_SCREEN:
1334 return "record tv screen";
1335 case CEC_OPCODE_CLEAR_ANALOGUE_TIMER:
1336 return "clear analogue timer";
1337 case CEC_OPCODE_CLEAR_DIGITAL_TIMER:
1338 return "clear digital timer";
1339 case CEC_OPCODE_CLEAR_EXTERNAL_TIMER:
1340 return "clear external timer";
1341 case CEC_OPCODE_SET_ANALOGUE_TIMER:
1342 return "set analogue timer";
1343 case CEC_OPCODE_SET_DIGITAL_TIMER:
1344 return "set digital timer";
1345 case CEC_OPCODE_SET_EXTERNAL_TIMER:
1346 return "set external timer";
1347 case CEC_OPCODE_SET_TIMER_PROGRAM_TITLE:
1348 return "set timer program title";
1349 case CEC_OPCODE_TIMER_CLEARED_STATUS:
1350 return "timer cleared status";
1351 case CEC_OPCODE_TIMER_STATUS:
1352 return "timer status";
1353 case CEC_OPCODE_CEC_VERSION:
1354 return "cec version";
1355 case CEC_OPCODE_GET_CEC_VERSION:
1356 return "get cec version";
1357 case CEC_OPCODE_GIVE_PHYSICAL_ADDRESS:
1358 return "give physical address";
1359 case CEC_OPCODE_GET_MENU_LANGUAGE:
1360 return "get menu language";
1361 case CEC_OPCODE_REPORT_PHYSICAL_ADDRESS:
1362 return "report physical address";
1363 case CEC_OPCODE_SET_MENU_LANGUAGE:
1364 return "set menu language";
1365 case CEC_OPCODE_DECK_CONTROL:
1366 return "deck control";
1367 case CEC_OPCODE_DECK_STATUS:
1368 return "deck status";
1369 case CEC_OPCODE_GIVE_DECK_STATUS:
1370 return "give deck status";
1371 case CEC_OPCODE_PLAY:
1372 return "play";
1373 case CEC_OPCODE_GIVE_TUNER_DEVICE_STATUS:
1374 return "give tuner status";
1375 case CEC_OPCODE_SELECT_ANALOGUE_SERVICE:
1376 return "select analogue service";
1377 case CEC_OPCODE_SELECT_DIGITAL_SERVICE:
1378 return "set digital service";
1379 case CEC_OPCODE_TUNER_DEVICE_STATUS:
1380 return "tuner device status";
1381 case CEC_OPCODE_TUNER_STEP_DECREMENT:
1382 return "tuner step decrement";
1383 case CEC_OPCODE_TUNER_STEP_INCREMENT:
1384 return "tuner step increment";
1385 case CEC_OPCODE_DEVICE_VENDOR_ID:
1386 return "device vendor id";
1387 case CEC_OPCODE_GIVE_DEVICE_VENDOR_ID:
1388 return "give device vendor id";
1389 case CEC_OPCODE_VENDOR_COMMAND:
1390 return "vendor command";
1391 case CEC_OPCODE_VENDOR_COMMAND_WITH_ID:
1392 return "vendor command with id";
1393 case CEC_OPCODE_VENDOR_REMOTE_BUTTON_DOWN:
1394 return "vendor remote button down";
1395 case CEC_OPCODE_VENDOR_REMOTE_BUTTON_UP:
1396 return "vendor remote button up";
1397 case CEC_OPCODE_SET_OSD_STRING:
1398 return "set osd string";
1399 case CEC_OPCODE_GIVE_OSD_NAME:
1400 return "give osd name";
1401 case CEC_OPCODE_SET_OSD_NAME:
1402 return "set osd name";
1403 case CEC_OPCODE_MENU_REQUEST:
1404 return "menu request";
1405 case CEC_OPCODE_MENU_STATUS:
1406 return "menu status";
1407 case CEC_OPCODE_USER_CONTROL_PRESSED:
1408 return "user control pressed";
1409 case CEC_OPCODE_USER_CONTROL_RELEASE:
1410 return "user control release";
1411 case CEC_OPCODE_GIVE_DEVICE_POWER_STATUS:
1412 return "give device power status";
1413 case CEC_OPCODE_REPORT_POWER_STATUS:
1414 return "report power status";
1415 case CEC_OPCODE_FEATURE_ABORT:
1416 return "feature abort";
1417 case CEC_OPCODE_ABORT:
1418 return "abort";
1419 case CEC_OPCODE_GIVE_AUDIO_STATUS:
1420 return "give audio status";
1421 case CEC_OPCODE_GIVE_SYSTEM_AUDIO_MODE_STATUS:
1422 return "give audio mode status";
1423 case CEC_OPCODE_REPORT_AUDIO_STATUS:
1424 return "report audio status";
1425 case CEC_OPCODE_SET_SYSTEM_AUDIO_MODE:
1426 return "set system audio mode";
1427 case CEC_OPCODE_SYSTEM_AUDIO_MODE_REQUEST:
1428 return "system audio mode request";
1429 case CEC_OPCODE_SYSTEM_AUDIO_MODE_STATUS:
1430 return "system audio mode status";
1431 case CEC_OPCODE_SET_AUDIO_RATE:
1432 return "set audio rate";
1433 default:
1434 return "UNKNOWN";
1435 }
1436 }
1437
1438 const char *CCECProcessor::ToString(const cec_system_audio_status mode)
1439 {
1440 switch(mode)
1441 {
1442 case CEC_SYSTEM_AUDIO_STATUS_ON:
1443 return "on";
1444 case CEC_SYSTEM_AUDIO_STATUS_OFF:
1445 return "off";
1446 default:
1447 return "unknown";
1448 }
1449 }
1450
1451 const char *CCECProcessor::ToString(const cec_audio_status UNUSED(status))
1452 {
1453 // TODO this is a mask
1454 return "TODO";
1455 }
1456
1457 const char *CCECProcessor::ToString(const cec_vendor_id vendor)
1458 {
1459 switch (vendor)
1460 {
1461 case CEC_VENDOR_SAMSUNG:
1462 return "Samsung";
1463 case CEC_VENDOR_LG:
1464 return "LG";
1465 case CEC_VENDOR_PANASONIC:
1466 return "Panasonic";
1467 case CEC_VENDOR_PIONEER:
1468 return "Pioneer";
1469 case CEC_VENDOR_ONKYO:
1470 return "Onkyo";
1471 case CEC_VENDOR_YAMAHA:
1472 return "Yamaha";
1473 case CEC_VENDOR_PHILIPS:
1474 return "Philips";
1475 case CEC_VENDOR_SONY:
1476 return "Sony";
1477 default:
1478 return "Unknown";
1479 }
1480 }
1481
1482 void *CCECBusScan::Process(void)
1483 {
1484 CCECBusDevice *device(NULL);
1485 uint8_t iCounter(0);
1486
1487 while (!IsStopped())
1488 {
1489 if (++iCounter < 10)
1490 {
1491 Sleep(1000);
1492 continue;
1493 }
1494 for (unsigned int iPtr = 0; iPtr <= 11 && !IsStopped(); iPtr++)
1495 {
1496 device = m_processor->m_busDevices[iPtr];
1497 WaitUntilIdle();
1498 if (device && device->GetStatus(true) == CEC_DEVICE_STATUS_PRESENT)
1499 {
1500 WaitUntilIdle();
1501 if (!IsStopped())
1502 device->GetVendorId();
1503
1504 WaitUntilIdle();
1505 if (!IsStopped())
1506 device->GetPowerStatus(true);
1507 }
1508 }
1509 }
1510
1511 return NULL;
1512 }
1513
1514 void CCECBusScan::WaitUntilIdle(void)
1515 {
1516 if (IsStopped())
1517 return;
1518
1519 int32_t iWaitTime = 3000 - (int32_t)(GetTimeMs() - m_processor->GetLastTransmission());
1520 while (iWaitTime > 0)
1521 {
1522 Sleep(iWaitTime);
1523 iWaitTime = 3000 - (int32_t)(GetTimeMs() - m_processor->GetLastTransmission());
1524 }
1525 }
1526
1527 bool CCECProcessor::StartBootloader(void)
1528 {
1529 return m_communication->StartBootloader();
1530 }
1531
1532 bool CCECProcessor::PingAdapter(void)
1533 {
1534 return m_communication->PingAdapter();
1535 }
libcec Piment Noir Debian package repository