1 /* 2 * libjingle 3 * Copyright 2010 Google Inc. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions are met: 7 * 8 * 1. Redistributions of source code must retain the above copyright notice, 9 * this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright notice, 11 * this list of conditions and the following disclaimer in the documentation 12 * and/or other materials provided with the distribution. 13 * 3. The name of the author may not be used to endorse or promote products 14 * derived from this software without specific prior written permission. 15 * 16 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED 17 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF 18 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO 19 * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 20 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 21 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; 22 * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 23 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR 24 * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 25 * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 */ 27 28 #ifndef TALK_MEDIA_WEBRTC_FAKEWEBRTCVIDEOENGINE_H_ 29 #define TALK_MEDIA_WEBRTC_FAKEWEBRTCVIDEOENGINE_H_ 30 31 #include <map> 32 #include <set> 33 #include <vector> 34 35 #include "talk/base/basictypes.h" 36 #include "talk/base/gunit.h" 37 #include "talk/base/stringutils.h" 38 #include "talk/media/base/codec.h" 39 #include "talk/media/webrtc/fakewebrtccommon.h" 40 #include "talk/media/webrtc/webrtcvideodecoderfactory.h" 41 #include "talk/media/webrtc/webrtcvideoencoderfactory.h" 42 #include "talk/media/webrtc/webrtcvie.h" 43 44 namespace cricket { 45 46 #define WEBRTC_CHECK_CAPTURER(capturer) \ 47 if (capturers_.find(capturer) == capturers_.end()) return -1; 48 49 #define WEBRTC_ASSERT_CAPTURER(capturer) \ 50 ASSERT(capturers_.find(capturer) != capturers_.end()); 51 52 static const int kMinVideoBitrate = 100; 53 static const int kStartVideoBitrate = 300; 54 static const int kMaxVideoBitrate = 1000; 55 56 // WebRtc channel id and capture id share the same number space. 57 // This is how AddRenderer(renderId, ...) is able to tell if it is adding a 58 // renderer for a channel or it is adding a renderer for a capturer. 59 static const int kViEChannelIdBase = 0; 60 static const int kViEChannelIdMax = 1000; 61 static const int kViECaptureIdBase = 10000; // Make sure there is a gap. 62 static const int kViECaptureIdMax = 11000; 63 64 // Fake class for mocking out webrtc::VideoDecoder 65 class FakeWebRtcVideoDecoder : public webrtc::VideoDecoder { 66 public: 67 FakeWebRtcVideoDecoder() 68 : num_frames_received_(0) { 69 } 70 71 virtual int32 InitDecode(const webrtc::VideoCodec*, int32) { 72 return WEBRTC_VIDEO_CODEC_OK; 73 } 74 75 virtual int32 Decode( 76 const webrtc::EncodedImage&, bool, const webrtc::RTPFragmentationHeader*, 77 const webrtc::CodecSpecificInfo*, int64) { 78 num_frames_received_++; 79 return WEBRTC_VIDEO_CODEC_OK; 80 } 81 82 virtual int32 RegisterDecodeCompleteCallback( 83 webrtc::DecodedImageCallback*) { 84 return WEBRTC_VIDEO_CODEC_OK; 85 } 86 87 virtual int32 Release() { 88 return WEBRTC_VIDEO_CODEC_OK; 89 } 90 91 virtual int32 Reset() { 92 return WEBRTC_VIDEO_CODEC_OK; 93 } 94 95 int GetNumFramesReceived() const { 96 return num_frames_received_; 97 } 98 99 private: 100 int num_frames_received_; 101 }; 102 103 // Fake class for mocking out WebRtcVideoDecoderFactory. 104 class FakeWebRtcVideoDecoderFactory : public WebRtcVideoDecoderFactory { 105 public: 106 FakeWebRtcVideoDecoderFactory() 107 : num_created_decoders_(0) { 108 } 109 110 virtual webrtc::VideoDecoder* CreateVideoDecoder( 111 webrtc::VideoCodecType type) { 112 if (supported_codec_types_.count(type) == 0) { 113 return NULL; 114 } 115 FakeWebRtcVideoDecoder* decoder = new FakeWebRtcVideoDecoder(); 116 decoders_.push_back(decoder); 117 num_created_decoders_++; 118 return decoder; 119 } 120 121 virtual void DestroyVideoDecoder(webrtc::VideoDecoder* decoder) { 122 decoders_.erase( 123 std::remove(decoders_.begin(), decoders_.end(), decoder), 124 decoders_.end()); 125 delete decoder; 126 } 127 128 void AddSupportedVideoCodecType(webrtc::VideoCodecType type) { 129 supported_codec_types_.insert(type); 130 } 131 132 int GetNumCreatedDecoders() { 133 return num_created_decoders_; 134 } 135 136 const std::vector<FakeWebRtcVideoDecoder*>& decoders() { 137 return decoders_; 138 } 139 140 private: 141 std::set<webrtc::VideoCodecType> supported_codec_types_; 142 std::vector<FakeWebRtcVideoDecoder*> decoders_; 143 int num_created_decoders_; 144 }; 145 146 // Fake class for mocking out webrtc::VideoEnoder 147 class FakeWebRtcVideoEncoder : public webrtc::VideoEncoder { 148 public: 149 FakeWebRtcVideoEncoder() {} 150 151 virtual int32 InitEncode(const webrtc::VideoCodec* codecSettings, 152 int32 numberOfCores, 153 uint32 maxPayloadSize) { 154 return WEBRTC_VIDEO_CODEC_OK; 155 } 156 157 virtual int32 Encode( 158 const webrtc::I420VideoFrame& inputImage, 159 const webrtc::CodecSpecificInfo* codecSpecificInfo, 160 const std::vector<webrtc::VideoFrameType>* frame_types) { 161 return WEBRTC_VIDEO_CODEC_OK; 162 } 163 164 virtual int32 RegisterEncodeCompleteCallback( 165 webrtc::EncodedImageCallback* callback) { 166 return WEBRTC_VIDEO_CODEC_OK; 167 } 168 169 virtual int32 Release() { 170 return WEBRTC_VIDEO_CODEC_OK; 171 } 172 173 virtual int32 SetChannelParameters(uint32 packetLoss, 174 int rtt) { 175 return WEBRTC_VIDEO_CODEC_OK; 176 } 177 178 virtual int32 SetRates(uint32 newBitRate, 179 uint32 frameRate) { 180 return WEBRTC_VIDEO_CODEC_OK; 181 } 182 }; 183 184 // Fake class for mocking out WebRtcVideoEncoderFactory. 185 class FakeWebRtcVideoEncoderFactory : public WebRtcVideoEncoderFactory { 186 public: 187 FakeWebRtcVideoEncoderFactory() 188 : num_created_encoders_(0) { 189 } 190 191 virtual webrtc::VideoEncoder* CreateVideoEncoder( 192 webrtc::VideoCodecType type) { 193 if (supported_codec_types_.count(type) == 0) { 194 return NULL; 195 } 196 FakeWebRtcVideoEncoder* encoder = new FakeWebRtcVideoEncoder(); 197 encoders_.push_back(encoder); 198 num_created_encoders_++; 199 return encoder; 200 } 201 202 virtual void DestroyVideoEncoder(webrtc::VideoEncoder* encoder) { 203 encoders_.erase( 204 std::remove(encoders_.begin(), encoders_.end(), encoder), 205 encoders_.end()); 206 delete encoder; 207 } 208 209 virtual void AddObserver(WebRtcVideoEncoderFactory::Observer* observer) { 210 bool inserted = observers_.insert(observer).second; 211 EXPECT_TRUE(inserted); 212 } 213 214 virtual void RemoveObserver(WebRtcVideoEncoderFactory::Observer* observer) { 215 size_t erased = observers_.erase(observer); 216 EXPECT_EQ(erased, 1UL); 217 } 218 219 virtual const std::vector<WebRtcVideoEncoderFactory::VideoCodec>& codecs() 220 const { 221 return codecs_; 222 } 223 224 void AddSupportedVideoCodecType(webrtc::VideoCodecType type, 225 const std::string& name) { 226 supported_codec_types_.insert(type); 227 codecs_.push_back( 228 WebRtcVideoEncoderFactory::VideoCodec(type, name, 1280, 720, 30)); 229 } 230 231 void NotifyCodecsAvailable() { 232 std::set<WebRtcVideoEncoderFactory::Observer*>::iterator it; 233 for (it = observers_.begin(); it != observers_.end(); ++it) 234 (*it)->OnCodecsAvailable(); 235 } 236 237 int GetNumCreatedEncoders() { 238 return num_created_encoders_; 239 } 240 241 const std::vector<FakeWebRtcVideoEncoder*>& encoders() { 242 return encoders_; 243 } 244 245 private: 246 std::set<webrtc::VideoCodecType> supported_codec_types_; 247 std::vector<WebRtcVideoEncoderFactory::VideoCodec> codecs_; 248 std::vector<FakeWebRtcVideoEncoder*> encoders_; 249 std::set<WebRtcVideoEncoderFactory::Observer*> observers_; 250 int num_created_encoders_; 251 }; 252 253 class FakeWebRtcVideoEngine 254 : public webrtc::ViEBase, 255 public webrtc::ViECodec, 256 public webrtc::ViECapture, 257 public webrtc::ViENetwork, 258 public webrtc::ViERender, 259 public webrtc::ViERTP_RTCP, 260 public webrtc::ViEImageProcess, 261 public webrtc::ViEExternalCodec { 262 public: 263 struct Channel { 264 Channel() 265 : capture_id_(-1), 266 original_channel_id_(-1), 267 has_renderer_(false), 268 render_started_(false), 269 send(false), 270 receive_(false), 271 can_transmit_(true), 272 remote_rtx_ssrc_(-1), 273 rtx_send_payload_type(-1), 274 rtx_recv_payload_type(-1), 275 rtcp_status_(webrtc::kRtcpNone), 276 key_frame_request_method_(webrtc::kViEKeyFrameRequestNone), 277 tmmbr_(false), 278 remb_contribute_(false), 279 remb_bw_partition_(false), 280 rtp_offset_send_id_(-1), 281 rtp_offset_receive_id_(-1), 282 rtp_absolute_send_time_send_id_(-1), 283 rtp_absolute_send_time_receive_id_(-1), 284 sender_target_delay_(0), 285 receiver_target_delay_(0), 286 transmission_smoothing_(false), 287 nack_(false), 288 hybrid_nack_fec_(false), 289 send_video_bitrate_(0), 290 send_fec_bitrate_(0), 291 send_nack_bitrate_(0), 292 send_bandwidth_(0), 293 receive_bandwidth_(0), 294 reserved_transmit_bitrate_bps_(0), 295 suspend_below_min_bitrate_(false), 296 overuse_observer_(NULL), 297 last_recvd_payload_type_(-1) { 298 ssrcs_[0] = 0; // default ssrc. 299 memset(&send_codec, 0, sizeof(send_codec)); 300 memset(&overuse_options_, 0, sizeof(overuse_options_)); 301 } 302 int capture_id_; 303 int original_channel_id_; 304 bool has_renderer_; 305 bool render_started_; 306 bool send; 307 bool receive_; 308 bool can_transmit_; 309 std::map<int, int> ssrcs_; 310 std::map<int, int> rtx_ssrcs_; 311 int remote_rtx_ssrc_; 312 int rtx_send_payload_type; 313 int rtx_recv_payload_type; 314 std::string cname_; 315 webrtc::ViERTCPMode rtcp_status_; 316 webrtc::ViEKeyFrameRequestMethod key_frame_request_method_; 317 bool tmmbr_; 318 bool remb_contribute_; // This channel contributes to the remb report. 319 bool remb_bw_partition_; // This channel is allocated part of total bw. 320 int rtp_offset_send_id_; 321 int rtp_offset_receive_id_; 322 int rtp_absolute_send_time_send_id_; 323 int rtp_absolute_send_time_receive_id_; 324 int sender_target_delay_; 325 int receiver_target_delay_; 326 bool transmission_smoothing_; 327 bool nack_; 328 bool hybrid_nack_fec_; 329 std::vector<webrtc::VideoCodec> recv_codecs; 330 std::set<unsigned int> ext_decoder_pl_types_; 331 std::set<unsigned int> ext_encoder_pl_types_; 332 webrtc::VideoCodec send_codec; 333 unsigned int send_video_bitrate_; 334 unsigned int send_fec_bitrate_; 335 unsigned int send_nack_bitrate_; 336 unsigned int send_bandwidth_; 337 unsigned int receive_bandwidth_; 338 unsigned int reserved_transmit_bitrate_bps_; 339 bool suspend_below_min_bitrate_; 340 webrtc::CpuOveruseObserver* overuse_observer_; 341 webrtc::CpuOveruseOptions overuse_options_; 342 int last_recvd_payload_type_; 343 }; 344 class Capturer : public webrtc::ViEExternalCapture { 345 public: 346 Capturer() : channel_id_(-1), denoising_(false), 347 last_capture_time_(0), incoming_frame_num_(0) { } 348 int channel_id() const { return channel_id_; } 349 void set_channel_id(int channel_id) { channel_id_ = channel_id; } 350 bool denoising() const { return denoising_; } 351 void set_denoising(bool denoising) { denoising_ = denoising; } 352 int64 last_capture_time() const { return last_capture_time_; } 353 int incoming_frame_num() const { return incoming_frame_num_; } 354 355 // From ViEExternalCapture 356 virtual int IncomingFrame(unsigned char* videoFrame, 357 unsigned int videoFrameLength, 358 unsigned short width, 359 unsigned short height, 360 webrtc::RawVideoType videoType, 361 unsigned long long captureTime) { 362 return 0; 363 } 364 virtual int IncomingFrameI420( 365 const webrtc::ViEVideoFrameI420& video_frame, 366 unsigned long long captureTime) { 367 last_capture_time_ = captureTime; 368 ++incoming_frame_num_; 369 return 0; 370 } 371 372 private: 373 int channel_id_; 374 bool denoising_; 375 int64 last_capture_time_; 376 int incoming_frame_num_; 377 }; 378 379 FakeWebRtcVideoEngine(const cricket::VideoCodec* const* codecs, 380 int num_codecs) 381 : inited_(false), 382 last_channel_(kViEChannelIdBase - 1), 383 fail_create_channel_(false), 384 last_capturer_(kViECaptureIdBase - 1), 385 fail_alloc_capturer_(false), 386 codecs_(codecs), 387 num_codecs_(num_codecs), 388 num_set_send_codecs_(0) { 389 } 390 391 ~FakeWebRtcVideoEngine() { 392 ASSERT(0 == channels_.size()); 393 ASSERT(0 == capturers_.size()); 394 } 395 bool IsInited() const { return inited_; } 396 397 int GetLastChannel() const { return last_channel_; } 398 int GetChannelFromLocalSsrc(int local_ssrc) const { 399 // ssrcs_[0] is the default local ssrc. 400 for (std::map<int, Channel*>::const_iterator iter = channels_.begin(); 401 iter != channels_.end(); ++iter) { 402 if (local_ssrc == iter->second->ssrcs_[0]) { 403 return iter->first; 404 } 405 } 406 return -1; 407 } 408 409 int GetNumChannels() const { return static_cast<int>(channels_.size()); } 410 bool IsChannel(int channel) const { 411 return (channels_.find(channel) != channels_.end()); 412 } 413 void set_fail_create_channel(bool fail_create_channel) { 414 fail_create_channel_ = fail_create_channel; 415 } 416 417 int GetLastCapturer() const { return last_capturer_; } 418 int GetNumCapturers() const { return static_cast<int>(capturers_.size()); } 419 int GetIncomingFrameNum(int channel_id) const { 420 for (std::map<int, Capturer*>::const_iterator iter = capturers_.begin(); 421 iter != capturers_.end(); ++iter) { 422 Capturer* capturer = iter->second; 423 if (capturer->channel_id() == channel_id) { 424 return capturer->incoming_frame_num(); 425 } 426 } 427 return -1; 428 } 429 void set_fail_alloc_capturer(bool fail_alloc_capturer) { 430 fail_alloc_capturer_ = fail_alloc_capturer; 431 } 432 int GetNumSetSendCodecs() const { return num_set_send_codecs_; } 433 434 int GetCaptureId(int channel) const { 435 WEBRTC_ASSERT_CHANNEL(channel); 436 return channels_.find(channel)->second->capture_id_; 437 } 438 int GetOriginalChannelId(int channel) const { 439 WEBRTC_ASSERT_CHANNEL(channel); 440 return channels_.find(channel)->second->original_channel_id_; 441 } 442 bool GetHasRenderer(int channel) const { 443 WEBRTC_ASSERT_CHANNEL(channel); 444 return channels_.find(channel)->second->has_renderer_; 445 } 446 bool GetRenderStarted(int channel) const { 447 WEBRTC_ASSERT_CHANNEL(channel); 448 return channels_.find(channel)->second->render_started_; 449 } 450 bool GetSend(int channel) const { 451 WEBRTC_ASSERT_CHANNEL(channel); 452 return channels_.find(channel)->second->send; 453 } 454 bool GetReceive(int channel) const { 455 WEBRTC_ASSERT_CHANNEL(channel); 456 return channels_.find(channel)->second->receive_; 457 } 458 int GetCaptureChannelId(int capture_id) const { 459 WEBRTC_ASSERT_CAPTURER(capture_id); 460 return capturers_.find(capture_id)->second->channel_id(); 461 } 462 bool GetCaptureDenoising(int capture_id) const { 463 WEBRTC_ASSERT_CAPTURER(capture_id); 464 return capturers_.find(capture_id)->second->denoising(); 465 } 466 int64 GetCaptureLastTimestamp(int capture_id) const { 467 WEBRTC_ASSERT_CAPTURER(capture_id); 468 return capturers_.find(capture_id)->second->last_capture_time(); 469 } 470 webrtc::ViERTCPMode GetRtcpStatus(int channel) const { 471 WEBRTC_ASSERT_CHANNEL(channel); 472 return channels_.find(channel)->second->rtcp_status_; 473 } 474 webrtc::ViEKeyFrameRequestMethod GetKeyFrameRequestMethod(int channel) const { 475 WEBRTC_ASSERT_CHANNEL(channel); 476 return channels_.find(channel)->second->key_frame_request_method_; 477 } 478 bool GetTmmbrStatus(int channel) const { 479 WEBRTC_ASSERT_CHANNEL(channel); 480 return channels_.find(channel)->second->tmmbr_; 481 } 482 bool GetRembStatusBwPartition(int channel) const { 483 WEBRTC_ASSERT_CHANNEL(channel); 484 return channels_.find(channel)->second->remb_bw_partition_; 485 } 486 bool GetRembStatusContribute(int channel) const { 487 WEBRTC_ASSERT_CHANNEL(channel); 488 return channels_.find(channel)->second->remb_contribute_; 489 } 490 int GetSendRtpExtensionId(int channel, const std::string& extension) { 491 WEBRTC_ASSERT_CHANNEL(channel); 492 if (extension == kRtpTimestampOffsetHeaderExtension) { 493 return channels_.find(channel)->second->rtp_offset_send_id_; 494 } else if (extension == kRtpAbsoluteSenderTimeHeaderExtension) { 495 return channels_.find(channel)->second->rtp_absolute_send_time_send_id_; 496 } 497 return -1; 498 } 499 int GetReceiveRtpExtensionId(int channel, const std::string& extension) { 500 WEBRTC_ASSERT_CHANNEL(channel); 501 if (extension == kRtpTimestampOffsetHeaderExtension) { 502 return channels_.find(channel)->second->rtp_offset_receive_id_; 503 } else if (extension == kRtpAbsoluteSenderTimeHeaderExtension) { 504 return 505 channels_.find(channel)->second->rtp_absolute_send_time_receive_id_; 506 } 507 return -1; 508 } 509 bool GetTransmissionSmoothingStatus(int channel) { 510 WEBRTC_ASSERT_CHANNEL(channel); 511 return channels_.find(channel)->second->transmission_smoothing_; 512 } 513 int GetSenderTargetDelay(int channel) { 514 WEBRTC_ASSERT_CHANNEL(channel); 515 return channels_.find(channel)->second->sender_target_delay_; 516 } 517 int GetReceiverTargetDelay(int channel) { 518 WEBRTC_ASSERT_CHANNEL(channel); 519 return channels_.find(channel)->second->receiver_target_delay_; 520 } 521 bool GetNackStatus(int channel) const { 522 WEBRTC_ASSERT_CHANNEL(channel); 523 return channels_.find(channel)->second->nack_; 524 } 525 bool GetHybridNackFecStatus(int channel) const { 526 WEBRTC_ASSERT_CHANNEL(channel); 527 return channels_.find(channel)->second->hybrid_nack_fec_; 528 } 529 int GetNumSsrcs(int channel) const { 530 WEBRTC_ASSERT_CHANNEL(channel); 531 return static_cast<int>( 532 channels_.find(channel)->second->ssrcs_.size()); 533 } 534 int GetNumRtxSsrcs(int channel) const { 535 WEBRTC_ASSERT_CHANNEL(channel); 536 return static_cast<int>( 537 channels_.find(channel)->second->rtx_ssrcs_.size()); 538 } 539 bool GetIsTransmitting(int channel) const { 540 WEBRTC_ASSERT_CHANNEL(channel); 541 return channels_.find(channel)->second->can_transmit_; 542 } 543 webrtc::CpuOveruseObserver* GetCpuOveruseObserver(int channel) const { 544 WEBRTC_ASSERT_CHANNEL(channel); 545 return channels_.find(channel)->second->overuse_observer_; 546 } 547 webrtc::CpuOveruseOptions GetCpuOveruseOptions(int channel) const { 548 WEBRTC_ASSERT_CHANNEL(channel); 549 return channels_.find(channel)->second->overuse_options_; 550 } 551 int GetRtxSsrc(int channel, int simulcast_idx) const { 552 WEBRTC_ASSERT_CHANNEL(channel); 553 if (channels_.find(channel)->second->rtx_ssrcs_.find(simulcast_idx) == 554 channels_.find(channel)->second->rtx_ssrcs_.end()) { 555 return -1; 556 } 557 return channels_.find(channel)->second->rtx_ssrcs_[simulcast_idx]; 558 } 559 bool ReceiveCodecRegistered(int channel, 560 const webrtc::VideoCodec& codec) const { 561 WEBRTC_ASSERT_CHANNEL(channel); 562 const std::vector<webrtc::VideoCodec>& codecs = 563 channels_.find(channel)->second->recv_codecs; 564 return std::find(codecs.begin(), codecs.end(), codec) != codecs.end(); 565 }; 566 bool ExternalDecoderRegistered(int channel, 567 unsigned int pl_type) const { 568 WEBRTC_ASSERT_CHANNEL(channel); 569 return channels_.find(channel)->second-> 570 ext_decoder_pl_types_.count(pl_type) != 0; 571 }; 572 int GetNumExternalDecoderRegistered(int channel) const { 573 WEBRTC_ASSERT_CHANNEL(channel); 574 return static_cast<int>( 575 channels_.find(channel)->second->ext_decoder_pl_types_.size()); 576 }; 577 bool ExternalEncoderRegistered(int channel, 578 unsigned int pl_type) const { 579 WEBRTC_ASSERT_CHANNEL(channel); 580 return channels_.find(channel)->second-> 581 ext_encoder_pl_types_.count(pl_type) != 0; 582 }; 583 int GetNumExternalEncoderRegistered(int channel) const { 584 WEBRTC_ASSERT_CHANNEL(channel); 585 return static_cast<int>( 586 channels_.find(channel)->second->ext_encoder_pl_types_.size()); 587 }; 588 int GetTotalNumExternalEncoderRegistered() const { 589 std::map<int, Channel*>::const_iterator it; 590 int total_num_registered = 0; 591 for (it = channels_.begin(); it != channels_.end(); ++it) 592 total_num_registered += 593 static_cast<int>(it->second->ext_encoder_pl_types_.size()); 594 return total_num_registered; 595 } 596 void SetSendBitrates(int channel, unsigned int video_bitrate, 597 unsigned int fec_bitrate, unsigned int nack_bitrate) { 598 WEBRTC_ASSERT_CHANNEL(channel); 599 channels_[channel]->send_video_bitrate_ = video_bitrate; 600 channels_[channel]->send_fec_bitrate_ = fec_bitrate; 601 channels_[channel]->send_nack_bitrate_ = nack_bitrate; 602 } 603 void SetSendBandwidthEstimate(int channel, unsigned int send_bandwidth) { 604 WEBRTC_ASSERT_CHANNEL(channel); 605 channels_[GetOriginalChannelId(channel)]->send_bandwidth_ = send_bandwidth; 606 } 607 void SetReceiveBandwidthEstimate(int channel, 608 unsigned int receive_bandwidth) { 609 WEBRTC_ASSERT_CHANNEL(channel); 610 channels_[GetOriginalChannelId(channel)]->receive_bandwidth_ = 611 receive_bandwidth; 612 }; 613 int GetRtxSendPayloadType(int channel) { 614 WEBRTC_CHECK_CHANNEL(channel); 615 return channels_[channel]->rtx_send_payload_type; 616 } 617 int GetRtxRecvPayloadType(int channel) { 618 WEBRTC_CHECK_CHANNEL(channel); 619 return channels_[channel]->rtx_recv_payload_type; 620 } 621 int GetRemoteRtxSsrc(int channel) { 622 WEBRTC_CHECK_CHANNEL(channel); 623 return channels_.find(channel)->second->remote_rtx_ssrc_; 624 } 625 bool GetSuspendBelowMinBitrateStatus(int channel) { 626 WEBRTC_ASSERT_CHANNEL(channel); 627 return channels_.find(channel)->second->suspend_below_min_bitrate_; 628 } 629 int GetLastRecvdPayloadType(int channel) const { 630 WEBRTC_CHECK_CHANNEL(channel); 631 return channels_.find(channel)->second->last_recvd_payload_type_; 632 } 633 unsigned int GetReservedTransmitBitrate(int channel) { 634 WEBRTC_ASSERT_CHANNEL(channel); 635 return channels_.find(channel)->second->reserved_transmit_bitrate_bps_; 636 } 637 638 WEBRTC_STUB(Release, ()); 639 640 // webrtc::ViEBase 641 WEBRTC_FUNC(Init, ()) { 642 inited_ = true; 643 return 0; 644 }; 645 WEBRTC_STUB(SetVoiceEngine, (webrtc::VoiceEngine*)); 646 WEBRTC_FUNC(CreateChannel, (int& channel)) { // NOLINT 647 if (fail_create_channel_) { 648 return -1; 649 } 650 if (kViEChannelIdMax == last_channel_) { 651 return -1; 652 } 653 Channel* ch = new Channel(); 654 ++last_channel_; 655 // The original channel of the first channel in a group refers to itself 656 // for code simplicity. 657 ch->original_channel_id_ = last_channel_; 658 channels_[last_channel_] = ch; 659 channel = last_channel_; 660 return 0; 661 }; 662 WEBRTC_FUNC(CreateChannel, (int& channel, int original_channel)) { 663 WEBRTC_CHECK_CHANNEL(original_channel); 664 if (CreateChannel(channel) != 0) { 665 return -1; 666 } 667 channels_[channel]->original_channel_id_ = original_channel; 668 return 0; 669 } 670 WEBRTC_FUNC(CreateReceiveChannel, (int& channel, int original_channel)) { 671 return CreateChannel(channel, original_channel); 672 } 673 WEBRTC_FUNC(DeleteChannel, (const int channel)) { 674 WEBRTC_CHECK_CHANNEL(channel); 675 // Make sure we deregister all the decoders before deleting a channel. 676 EXPECT_EQ(0, GetNumExternalDecoderRegistered(channel)); 677 delete channels_[channel]; 678 channels_.erase(channel); 679 return 0; 680 } 681 WEBRTC_FUNC(RegisterCpuOveruseObserver, 682 (int channel, webrtc::CpuOveruseObserver* observer)) { 683 WEBRTC_CHECK_CHANNEL(channel); 684 channels_[channel]->overuse_observer_ = observer; 685 return 0; 686 } 687 WEBRTC_STUB(CpuOveruseMeasures, (int, int*, int*, int*, int*)); 688 WEBRTC_FUNC(SetCpuOveruseOptions, 689 (int channel, const webrtc::CpuOveruseOptions& options)) { 690 WEBRTC_CHECK_CHANNEL(channel); 691 channels_[channel]->overuse_options_ = options; 692 return 0; 693 } 694 WEBRTC_STUB(ConnectAudioChannel, (const int, const int)); 695 WEBRTC_STUB(DisconnectAudioChannel, (const int)); 696 WEBRTC_FUNC(StartSend, (const int channel)) { 697 WEBRTC_CHECK_CHANNEL(channel); 698 channels_[channel]->send = true; 699 return 0; 700 } 701 WEBRTC_FUNC(StopSend, (const int channel)) { 702 WEBRTC_CHECK_CHANNEL(channel); 703 channels_[channel]->send = false; 704 return 0; 705 } 706 WEBRTC_FUNC(StartReceive, (const int channel)) { 707 WEBRTC_CHECK_CHANNEL(channel); 708 channels_[channel]->receive_ = true; 709 return 0; 710 } 711 WEBRTC_FUNC(StopReceive, (const int channel)) { 712 WEBRTC_CHECK_CHANNEL(channel); 713 channels_[channel]->receive_ = false; 714 return 0; 715 } 716 WEBRTC_STUB(GetVersion, (char version[1024])); 717 WEBRTC_STUB(LastError, ()); 718 719 // webrtc::ViECodec 720 WEBRTC_FUNC_CONST(NumberOfCodecs, ()) { 721 return num_codecs_; 722 }; 723 WEBRTC_FUNC_CONST(GetCodec, (const unsigned char list_number, 724 webrtc::VideoCodec& out_codec)) { 725 if (list_number >= NumberOfCodecs()) { 726 return -1; 727 } 728 memset(&out_codec, 0, sizeof(out_codec)); 729 const cricket::VideoCodec& c(*codecs_[list_number]); 730 if ("I420" == c.name) { 731 out_codec.codecType = webrtc::kVideoCodecI420; 732 } else if ("VP8" == c.name) { 733 out_codec.codecType = webrtc::kVideoCodecVP8; 734 } else if ("red" == c.name) { 735 out_codec.codecType = webrtc::kVideoCodecRED; 736 } else if ("ulpfec" == c.name) { 737 out_codec.codecType = webrtc::kVideoCodecULPFEC; 738 } else { 739 out_codec.codecType = webrtc::kVideoCodecUnknown; 740 } 741 talk_base::strcpyn(out_codec.plName, sizeof(out_codec.plName), 742 c.name.c_str()); 743 out_codec.plType = c.id; 744 out_codec.width = c.width; 745 out_codec.height = c.height; 746 out_codec.startBitrate = kStartVideoBitrate; 747 out_codec.maxBitrate = kMaxVideoBitrate; 748 out_codec.minBitrate = kMinVideoBitrate; 749 out_codec.maxFramerate = c.framerate; 750 return 0; 751 }; 752 WEBRTC_FUNC(SetSendCodec, (const int channel, 753 const webrtc::VideoCodec& codec)) { 754 WEBRTC_CHECK_CHANNEL(channel); 755 channels_[channel]->send_codec = codec; 756 ++num_set_send_codecs_; 757 return 0; 758 }; 759 WEBRTC_FUNC_CONST(GetSendCodec, (const int channel, 760 webrtc::VideoCodec& codec)) { // NOLINT 761 WEBRTC_CHECK_CHANNEL(channel); 762 codec = channels_.find(channel)->second->send_codec; 763 return 0; 764 }; 765 WEBRTC_FUNC(SetReceiveCodec, (const int channel, 766 const webrtc::VideoCodec& codec)) { // NOLINT 767 WEBRTC_CHECK_CHANNEL(channel); 768 channels_[channel]->recv_codecs.push_back(codec); 769 return 0; 770 }; 771 WEBRTC_STUB_CONST(GetReceiveCodec, (const int, webrtc::VideoCodec&)); 772 WEBRTC_STUB_CONST(GetCodecConfigParameters, (const int, 773 unsigned char*, unsigned char&)); 774 WEBRTC_STUB(SetImageScaleStatus, (const int, const bool)); 775 WEBRTC_STUB_CONST(GetSendCodecStastistics, (const int, 776 unsigned int&, unsigned int&)); 777 WEBRTC_STUB_CONST(GetReceiveCodecStastistics, (const int, 778 unsigned int&, unsigned int&)); 779 WEBRTC_STUB_CONST(GetReceiveSideDelay, (const int video_channel, 780 int* delay_ms)); 781 WEBRTC_FUNC_CONST(GetCodecTargetBitrate, (const int channel, 782 unsigned int* codec_target_bitrate)) { 783 WEBRTC_CHECK_CHANNEL(channel); 784 785 std::map<int, Channel*>::const_iterator it = channels_.find(channel); 786 if (it->second->send) { 787 // Assume the encoder produces the expected rate. 788 *codec_target_bitrate = it->second->send_video_bitrate_; 789 } else { 790 *codec_target_bitrate = 0; 791 } 792 return 0; 793 } 794 virtual unsigned int GetDiscardedPackets(const int channel) const { 795 return 0; 796 } 797 798 WEBRTC_STUB(SetKeyFrameRequestCallbackStatus, (const int, const bool)); 799 WEBRTC_STUB(SetSignalKeyPacketLossStatus, (const int, const bool, 800 const bool)); 801 WEBRTC_STUB(RegisterEncoderObserver, (const int, 802 webrtc::ViEEncoderObserver&)); 803 WEBRTC_STUB(DeregisterEncoderObserver, (const int)); 804 WEBRTC_STUB(RegisterDecoderObserver, (const int, 805 webrtc::ViEDecoderObserver&)); 806 WEBRTC_STUB(DeregisterDecoderObserver, (const int)); 807 WEBRTC_STUB(SendKeyFrame, (const int)); 808 WEBRTC_STUB(WaitForFirstKeyFrame, (const int, const bool)); 809 WEBRTC_STUB(StartDebugRecording, (int, const char*)); 810 WEBRTC_STUB(StopDebugRecording, (int)); 811 WEBRTC_VOID_FUNC(SuspendBelowMinBitrate, (int channel)) { 812 WEBRTC_ASSERT_CHANNEL(channel); 813 channels_[channel]->suspend_below_min_bitrate_ = true; 814 } 815 816 // webrtc::ViECapture 817 WEBRTC_STUB(NumberOfCaptureDevices, ()); 818 WEBRTC_STUB(GetCaptureDevice, (unsigned int, char*, 819 const unsigned int, char*, const unsigned int)); 820 WEBRTC_STUB(AllocateCaptureDevice, (const char*, const unsigned int, int&)); 821 WEBRTC_FUNC(AllocateExternalCaptureDevice, 822 (int& capture_id, webrtc::ViEExternalCapture*& capture)) { 823 if (fail_alloc_capturer_) { 824 return -1; 825 } 826 if (kViECaptureIdMax == last_capturer_) { 827 return -1; 828 } 829 Capturer* cap = new Capturer(); 830 capturers_[++last_capturer_] = cap; 831 capture_id = last_capturer_; 832 capture = cap; 833 return 0; 834 } 835 WEBRTC_STUB(AllocateCaptureDevice, (webrtc::VideoCaptureModule&, int&)); 836 WEBRTC_FUNC(ReleaseCaptureDevice, (const int capture_id)) { 837 WEBRTC_CHECK_CAPTURER(capture_id); 838 delete capturers_[capture_id]; 839 capturers_.erase(capture_id); 840 return 0; 841 } 842 WEBRTC_FUNC(ConnectCaptureDevice, (const int capture_id, 843 const int channel)) { 844 WEBRTC_CHECK_CHANNEL(channel); 845 WEBRTC_CHECK_CAPTURER(capture_id); 846 channels_[channel]->capture_id_ = capture_id; 847 capturers_[capture_id]->set_channel_id(channel); 848 return 0; 849 } 850 WEBRTC_FUNC(DisconnectCaptureDevice, (const int channel)) { 851 WEBRTC_CHECK_CHANNEL(channel); 852 int capture_id = channels_[channel]->capture_id_; 853 WEBRTC_CHECK_CAPTURER(capture_id); 854 channels_[channel]->capture_id_ = -1; 855 capturers_[capture_id]->set_channel_id(-1); 856 return 0; 857 } 858 WEBRTC_STUB(StartCapture, (const int, const webrtc::CaptureCapability&)); 859 WEBRTC_STUB(StopCapture, (const int)); 860 WEBRTC_STUB(SetRotateCapturedFrames, (const int, 861 const webrtc::RotateCapturedFrame)); 862 WEBRTC_STUB(SetCaptureDelay, (const int, const unsigned int)); 863 WEBRTC_STUB(NumberOfCapabilities, (const char*, const unsigned int)); 864 WEBRTC_STUB(GetCaptureCapability, (const char*, const unsigned int, 865 const unsigned int, webrtc::CaptureCapability&)); 866 WEBRTC_STUB(ShowCaptureSettingsDialogBox, (const char*, const unsigned int, 867 const char*, void*, const unsigned int, const unsigned int)); 868 WEBRTC_STUB(GetOrientation, (const char*, webrtc::RotateCapturedFrame&)); 869 WEBRTC_STUB(EnableBrightnessAlarm, (const int, const bool)); 870 WEBRTC_STUB(RegisterObserver, (const int, webrtc::ViECaptureObserver&)); 871 WEBRTC_STUB(DeregisterObserver, (const int)); 872 873 // webrtc::ViENetwork 874 WEBRTC_VOID_FUNC(SetNetworkTransmissionState, (const int channel, 875 const bool is_transmitting)) { 876 WEBRTC_ASSERT_CHANNEL(channel); 877 channels_[channel]->can_transmit_ = is_transmitting; 878 } 879 WEBRTC_STUB(RegisterSendTransport, (const int, webrtc::Transport&)); 880 WEBRTC_STUB(DeregisterSendTransport, (const int)); 881 882 WEBRTC_FUNC(ReceivedRTPPacket, (const int channel, 883 const void* packet, 884 const int length, 885 const webrtc::PacketTime& packet_time)) { 886 WEBRTC_ASSERT_CHANNEL(channel); 887 ASSERT(length > 1); 888 uint8_t payload_type = static_cast<const uint8_t*>(packet)[1] & 0x7F; 889 channels_[channel]->last_recvd_payload_type_ = payload_type; 890 return 0; 891 } 892 893 WEBRTC_STUB(ReceivedRTCPPacket, (const int, const void*, const int)); 894 // Not using WEBRTC_STUB due to bool return value 895 virtual bool IsIPv6Enabled(int channel) { return true; } 896 WEBRTC_STUB(SetMTU, (int, unsigned int)); 897 WEBRTC_STUB(ReceivedBWEPacket, (const int, int64_t, int, 898 const webrtc::RTPHeader&)); 899 900 // webrtc::ViERender 901 WEBRTC_STUB(RegisterVideoRenderModule, (webrtc::VideoRender&)); 902 WEBRTC_STUB(DeRegisterVideoRenderModule, (webrtc::VideoRender&)); 903 WEBRTC_STUB(AddRenderer, (const int, void*, const unsigned int, const float, 904 const float, const float, const float)); 905 WEBRTC_FUNC(RemoveRenderer, (const int render_id)) { 906 if (IsCapturerId(render_id)) { 907 WEBRTC_CHECK_CAPTURER(render_id); 908 return 0; 909 } else if (IsChannelId(render_id)) { 910 WEBRTC_CHECK_CHANNEL(render_id); 911 channels_[render_id]->has_renderer_ = false; 912 return 0; 913 } 914 return -1; 915 } 916 WEBRTC_FUNC(StartRender, (const int render_id)) { 917 if (IsCapturerId(render_id)) { 918 WEBRTC_CHECK_CAPTURER(render_id); 919 return 0; 920 } else if (IsChannelId(render_id)) { 921 WEBRTC_CHECK_CHANNEL(render_id); 922 channels_[render_id]->render_started_ = true; 923 return 0; 924 } 925 return -1; 926 } 927 WEBRTC_FUNC(StopRender, (const int render_id)) { 928 if (IsCapturerId(render_id)) { 929 WEBRTC_CHECK_CAPTURER(render_id); 930 return 0; 931 } else if (IsChannelId(render_id)) { 932 WEBRTC_CHECK_CHANNEL(render_id); 933 channels_[render_id]->render_started_ = false; 934 return 0; 935 } 936 return -1; 937 } 938 WEBRTC_STUB(SetExpectedRenderDelay, (int render_id, int render_delay)); 939 WEBRTC_STUB(ConfigureRender, (int, const unsigned int, const float, 940 const float, const float, const float)); 941 WEBRTC_STUB(MirrorRenderStream, (const int, const bool, const bool, 942 const bool)); 943 WEBRTC_FUNC(AddRenderer, (const int render_id, 944 webrtc::RawVideoType video_type, 945 webrtc::ExternalRenderer* renderer)) { 946 if (IsCapturerId(render_id)) { 947 WEBRTC_CHECK_CAPTURER(render_id); 948 return 0; 949 } else if (IsChannelId(render_id)) { 950 WEBRTC_CHECK_CHANNEL(render_id); 951 channels_[render_id]->has_renderer_ = true; 952 return 0; 953 } 954 return -1; 955 } 956 957 // webrtc::ViERTP_RTCP 958 WEBRTC_FUNC(SetLocalSSRC, (const int channel, 959 const unsigned int ssrc, 960 const webrtc::StreamType usage, 961 const unsigned char idx)) { 962 WEBRTC_CHECK_CHANNEL(channel); 963 switch (usage) { 964 case webrtc::kViEStreamTypeNormal: 965 channels_[channel]->ssrcs_[idx] = ssrc; 966 break; 967 case webrtc::kViEStreamTypeRtx: 968 channels_[channel]->rtx_ssrcs_[idx] = ssrc; 969 break; 970 default: 971 return -1; 972 } 973 return 0; 974 } 975 976 WEBRTC_FUNC_CONST(SetRemoteSSRCType, (const int channel, 977 const webrtc::StreamType usage, const unsigned int ssrc)) { 978 WEBRTC_CHECK_CHANNEL(channel); 979 if (usage == webrtc::kViEStreamTypeRtx) { 980 channels_.find(channel)->second->remote_rtx_ssrc_ = ssrc; 981 return 0; 982 } 983 return -1; 984 } 985 986 WEBRTC_FUNC_CONST(GetLocalSSRC, (const int channel, 987 unsigned int& ssrc)) { 988 // ssrcs_[0] is the default local ssrc. 989 WEBRTC_CHECK_CHANNEL(channel); 990 ssrc = channels_.find(channel)->second->ssrcs_[0]; 991 return 0; 992 } 993 WEBRTC_STUB_CONST(GetRemoteSSRC, (const int, unsigned int&)); 994 WEBRTC_STUB_CONST(GetRemoteCSRCs, (const int, unsigned int*)); 995 996 WEBRTC_FUNC(SetRtxSendPayloadType, (const int channel, 997 const uint8 payload_type)) { 998 WEBRTC_CHECK_CHANNEL(channel); 999 channels_[channel]->rtx_send_payload_type = payload_type; 1000 return 0; 1001 } 1002 1003 #ifdef USE_WEBRTC_DEV_BRANCH 1004 WEBRTC_STUB(SetPadWithRedundantPayloads, (int, bool)); 1005 #endif 1006 1007 WEBRTC_FUNC(SetRtxReceivePayloadType, (const int channel, 1008 const uint8 payload_type)) { 1009 WEBRTC_CHECK_CHANNEL(channel); 1010 channels_[channel]->rtx_recv_payload_type = payload_type; 1011 return 0; 1012 } 1013 1014 WEBRTC_STUB(SetStartSequenceNumber, (const int, unsigned short)); 1015 WEBRTC_FUNC(SetRTCPStatus, 1016 (const int channel, const webrtc::ViERTCPMode mode)) { 1017 WEBRTC_CHECK_CHANNEL(channel); 1018 channels_[channel]->rtcp_status_ = mode; 1019 return 0; 1020 } 1021 WEBRTC_STUB_CONST(GetRTCPStatus, (const int, webrtc::ViERTCPMode&)); 1022 WEBRTC_FUNC(SetRTCPCName, (const int channel, 1023 const char rtcp_cname[KMaxRTCPCNameLength])) { 1024 WEBRTC_CHECK_CHANNEL(channel); 1025 channels_[channel]->cname_.assign(rtcp_cname); 1026 return 0; 1027 } 1028 WEBRTC_FUNC_CONST(GetRTCPCName, (const int channel, 1029 char rtcp_cname[KMaxRTCPCNameLength])) { 1030 WEBRTC_CHECK_CHANNEL(channel); 1031 talk_base::strcpyn(rtcp_cname, KMaxRTCPCNameLength, 1032 channels_.find(channel)->second->cname_.c_str()); 1033 return 0; 1034 } 1035 WEBRTC_STUB_CONST(GetRemoteRTCPCName, (const int, char*)); 1036 WEBRTC_STUB(SendApplicationDefinedRTCPPacket, (const int, const unsigned char, 1037 unsigned int, const char*, unsigned short)); 1038 WEBRTC_FUNC(SetNACKStatus, (const int channel, const bool enable)) { 1039 WEBRTC_CHECK_CHANNEL(channel); 1040 channels_[channel]->nack_ = enable; 1041 channels_[channel]->hybrid_nack_fec_ = false; 1042 return 0; 1043 } 1044 WEBRTC_STUB(SetFECStatus, (const int, const bool, const unsigned char, 1045 const unsigned char)); 1046 WEBRTC_FUNC(SetHybridNACKFECStatus, (const int channel, const bool enable, 1047 const unsigned char red_type, const unsigned char fec_type)) { 1048 WEBRTC_CHECK_CHANNEL(channel); 1049 if (red_type == fec_type || 1050 red_type == channels_[channel]->send_codec.plType || 1051 fec_type == channels_[channel]->send_codec.plType) { 1052 return -1; 1053 } 1054 channels_[channel]->nack_ = false; 1055 channels_[channel]->hybrid_nack_fec_ = enable; 1056 return 0; 1057 } 1058 WEBRTC_FUNC(SetKeyFrameRequestMethod, 1059 (const int channel, 1060 const webrtc::ViEKeyFrameRequestMethod method)) { 1061 WEBRTC_CHECK_CHANNEL(channel); 1062 channels_[channel]->key_frame_request_method_ = method; 1063 return 0; 1064 } 1065 WEBRTC_FUNC(SetSenderBufferingMode, (int channel, int target_delay)) { 1066 WEBRTC_CHECK_CHANNEL(channel); 1067 channels_[channel]->sender_target_delay_ = target_delay; 1068 return 0; 1069 } 1070 WEBRTC_FUNC(SetReceiverBufferingMode, (int channel, int target_delay)) { 1071 WEBRTC_CHECK_CHANNEL(channel); 1072 channels_[channel]->receiver_target_delay_ = target_delay; 1073 return 0; 1074 } 1075 // |Send| and |receive| are stored locally in variables that more clearly 1076 // explain what they mean. 1077 WEBRTC_FUNC(SetRembStatus, (int channel, bool send, bool receive)) { 1078 WEBRTC_CHECK_CHANNEL(channel); 1079 channels_[channel]->remb_contribute_ = receive; 1080 channels_[channel]->remb_bw_partition_ = send; 1081 return 0; 1082 } 1083 WEBRTC_FUNC(SetTMMBRStatus, (const int channel, const bool enable)) { 1084 WEBRTC_CHECK_CHANNEL(channel); 1085 channels_[channel]->tmmbr_ = enable; 1086 return 0; 1087 } 1088 WEBRTC_FUNC(SetSendTimestampOffsetStatus, (int channel, bool enable, 1089 int id)) { 1090 WEBRTC_CHECK_CHANNEL(channel); 1091 channels_[channel]->rtp_offset_send_id_ = (enable) ? id : -1; 1092 return 0; 1093 } 1094 WEBRTC_FUNC(SetReceiveTimestampOffsetStatus, (int channel, bool enable, 1095 int id)) { 1096 WEBRTC_CHECK_CHANNEL(channel); 1097 channels_[channel]->rtp_offset_receive_id_ = (enable) ? id : -1; 1098 return 0; 1099 } 1100 WEBRTC_FUNC(SetSendAbsoluteSendTimeStatus, (int channel, bool enable, 1101 int id)) { 1102 WEBRTC_CHECK_CHANNEL(channel); 1103 channels_[channel]->rtp_absolute_send_time_send_id_ = (enable) ? id : -1; 1104 return 0; 1105 } 1106 WEBRTC_FUNC(SetReceiveAbsoluteSendTimeStatus, (int channel, bool enable, 1107 int id)) { 1108 WEBRTC_CHECK_CHANNEL(channel); 1109 channels_[channel]->rtp_absolute_send_time_receive_id_ = (enable) ? id : -1; 1110 return 0; 1111 } 1112 WEBRTC_STUB(SetRtcpXrRrtrStatus, (int, bool)); 1113 WEBRTC_FUNC(SetTransmissionSmoothingStatus, (int channel, bool enable)) { 1114 WEBRTC_CHECK_CHANNEL(channel); 1115 channels_[channel]->transmission_smoothing_ = enable; 1116 return 0; 1117 } 1118 WEBRTC_FUNC(SetReservedTransmitBitrate, (int channel, 1119 unsigned int reserved_transmit_bitrate_bps)) { 1120 WEBRTC_CHECK_CHANNEL(channel); 1121 channels_[channel]->reserved_transmit_bitrate_bps_ = 1122 reserved_transmit_bitrate_bps; 1123 return 0; 1124 } 1125 WEBRTC_STUB_CONST(GetRtcpPacketTypeCounters, (int, 1126 webrtc::RtcpPacketTypeCounter*, webrtc::RtcpPacketTypeCounter*)); 1127 WEBRTC_STUB_CONST(GetReceivedRTCPStatistics, (const int, unsigned short&, 1128 unsigned int&, unsigned int&, unsigned int&, int&)); 1129 WEBRTC_STUB_CONST(GetSentRTCPStatistics, (const int, unsigned short&, 1130 unsigned int&, unsigned int&, unsigned int&, int&)); 1131 WEBRTC_STUB_CONST(GetRTPStatistics, (const int, unsigned int&, unsigned int&, 1132 unsigned int&, unsigned int&)); 1133 WEBRTC_STUB_CONST(GetReceiveChannelRtcpStatistics, (const int, 1134 webrtc::RtcpStatistics&, int&)); 1135 WEBRTC_STUB_CONST(GetSendChannelRtcpStatistics, (const int, 1136 webrtc::RtcpStatistics&, int&)); 1137 WEBRTC_STUB_CONST(GetRtpStatistics, (const int, webrtc::StreamDataCounters&, 1138 webrtc::StreamDataCounters&)); 1139 WEBRTC_FUNC_CONST(GetBandwidthUsage, (const int channel, 1140 unsigned int& total_bitrate, unsigned int& video_bitrate, 1141 unsigned int& fec_bitrate, unsigned int& nack_bitrate)) { 1142 WEBRTC_CHECK_CHANNEL(channel); 1143 std::map<int, Channel*>::const_iterator it = channels_.find(channel); 1144 if (it->second->send) { 1145 video_bitrate = it->second->send_video_bitrate_; 1146 fec_bitrate = it->second->send_fec_bitrate_; 1147 nack_bitrate = it->second->send_nack_bitrate_; 1148 total_bitrate = video_bitrate + fec_bitrate + nack_bitrate; 1149 } else { 1150 total_bitrate = 0; 1151 video_bitrate = 0; 1152 fec_bitrate = 0; 1153 nack_bitrate = 0; 1154 } 1155 return 0; 1156 } 1157 WEBRTC_FUNC_CONST(GetEstimatedSendBandwidth, (const int channel, 1158 unsigned int* send_bandwidth_estimate)) { 1159 WEBRTC_CHECK_CHANNEL(channel); 1160 std::map<int, Channel*>::const_iterator it = channels_.find(channel); 1161 // Assume the current video, fec and nack bitrate sums up to our estimate. 1162 if (it->second->send) { 1163 it = channels_.find(GetOriginalChannelId(channel)); 1164 *send_bandwidth_estimate = it->second->send_bandwidth_; 1165 } else { 1166 *send_bandwidth_estimate = 0; 1167 } 1168 return 0; 1169 } 1170 WEBRTC_FUNC_CONST(GetEstimatedReceiveBandwidth, (const int channel, 1171 unsigned int* receive_bandwidth_estimate)) { 1172 WEBRTC_CHECK_CHANNEL(channel); 1173 std::map<int, Channel*>::const_iterator it = channels_.find(channel); 1174 if (it->second->receive_) { 1175 it = channels_.find(GetOriginalChannelId(channel)); 1176 *receive_bandwidth_estimate = it->second->receive_bandwidth_; 1177 } else { 1178 *receive_bandwidth_estimate = 0; 1179 } 1180 return 0; 1181 } 1182 WEBRTC_STUB(RegisterSendChannelRtcpStatisticsCallback, 1183 (int, webrtc::RtcpStatisticsCallback*)); 1184 WEBRTC_STUB(DeregisterSendChannelRtcpStatisticsCallback, 1185 (int, webrtc::RtcpStatisticsCallback*)); 1186 WEBRTC_STUB(RegisterReceiveChannelRtcpStatisticsCallback, 1187 (int, webrtc::RtcpStatisticsCallback*)); 1188 WEBRTC_STUB(DeregisterReceiveChannelRtcpStatisticsCallback, 1189 (int, webrtc::RtcpStatisticsCallback*)); 1190 WEBRTC_STUB(RegisterSendChannelRtpStatisticsCallback, 1191 (int, webrtc::StreamDataCountersCallback*)); 1192 WEBRTC_STUB(DeregisterSendChannelRtpStatisticsCallback, 1193 (int, webrtc::StreamDataCountersCallback*)); 1194 WEBRTC_STUB(RegisterReceiveChannelRtpStatisticsCallback, 1195 (int, webrtc::StreamDataCountersCallback*)); 1196 WEBRTC_STUB(DeregisterReceiveChannelRtpStatisticsCallback, 1197 (int, webrtc::StreamDataCountersCallback*)); 1198 WEBRTC_STUB(RegisterSendBitrateObserver, 1199 (int, webrtc::BitrateStatisticsObserver*)); 1200 WEBRTC_STUB(DeregisterSendBitrateObserver, 1201 (int, webrtc::BitrateStatisticsObserver*)); 1202 WEBRTC_STUB(RegisterSendFrameCountObserver, 1203 (int, webrtc::FrameCountObserver*)); 1204 WEBRTC_STUB(DeregisterSendFrameCountObserver, 1205 (int, webrtc::FrameCountObserver*)); 1206 1207 WEBRTC_STUB(StartRTPDump, (const int, const char*, webrtc::RTPDirections)); 1208 WEBRTC_STUB(StopRTPDump, (const int, webrtc::RTPDirections)); 1209 WEBRTC_STUB(RegisterRTPObserver, (const int, webrtc::ViERTPObserver&)); 1210 WEBRTC_STUB(DeregisterRTPObserver, (const int)); 1211 WEBRTC_STUB(RegisterRTCPObserver, (const int, webrtc::ViERTCPObserver&)); 1212 WEBRTC_STUB(DeregisterRTCPObserver, (const int)); 1213 1214 // webrtc::ViEImageProcess 1215 WEBRTC_STUB(RegisterCaptureEffectFilter, (const int, 1216 webrtc::ViEEffectFilter&)); 1217 WEBRTC_STUB(DeregisterCaptureEffectFilter, (const int)); 1218 WEBRTC_STUB(RegisterSendEffectFilter, (const int, 1219 webrtc::ViEEffectFilter&)); 1220 WEBRTC_STUB(DeregisterSendEffectFilter, (const int)); 1221 WEBRTC_STUB(RegisterRenderEffectFilter, (const int, 1222 webrtc::ViEEffectFilter&)); 1223 WEBRTC_STUB(DeregisterRenderEffectFilter, (const int)); 1224 WEBRTC_STUB(EnableDeflickering, (const int, const bool)); 1225 WEBRTC_FUNC(EnableDenoising, (const int capture_id, const bool denoising)) { 1226 WEBRTC_CHECK_CAPTURER(capture_id); 1227 capturers_[capture_id]->set_denoising(denoising); 1228 return 0; 1229 } 1230 WEBRTC_STUB(EnableColorEnhancement, (const int, const bool)); 1231 WEBRTC_VOID_STUB(RegisterPreEncodeCallback, 1232 (int, webrtc::I420FrameCallback*)); 1233 WEBRTC_VOID_STUB(DeRegisterPreEncodeCallback, (int)); 1234 WEBRTC_VOID_STUB(RegisterPreRenderCallback, 1235 (int, webrtc::I420FrameCallback*)); 1236 WEBRTC_VOID_STUB(DeRegisterPreRenderCallback, (int)); 1237 // webrtc::ViEExternalCodec 1238 WEBRTC_FUNC(RegisterExternalSendCodec, 1239 (const int channel, const unsigned char pl_type, webrtc::VideoEncoder*, 1240 bool)) { 1241 WEBRTC_CHECK_CHANNEL(channel); 1242 channels_[channel]->ext_encoder_pl_types_.insert(pl_type); 1243 return 0; 1244 } 1245 WEBRTC_FUNC(DeRegisterExternalSendCodec, 1246 (const int channel, const unsigned char pl_type)) { 1247 WEBRTC_CHECK_CHANNEL(channel); 1248 channels_[channel]->ext_encoder_pl_types_.erase(pl_type); 1249 return 0; 1250 } 1251 WEBRTC_FUNC(RegisterExternalReceiveCodec, 1252 (const int channel, const unsigned int pl_type, webrtc::VideoDecoder*, 1253 bool, int)) { 1254 WEBRTC_CHECK_CHANNEL(channel); 1255 channels_[channel]->ext_decoder_pl_types_.insert(pl_type); 1256 return 0; 1257 } 1258 WEBRTC_FUNC(DeRegisterExternalReceiveCodec, 1259 (const int channel, const unsigned char pl_type)) { 1260 WEBRTC_CHECK_CHANNEL(channel); 1261 channels_[channel]->ext_decoder_pl_types_.erase(pl_type); 1262 return 0; 1263 } 1264 1265 private: 1266 bool IsChannelId(int id) const { 1267 return (id >= kViEChannelIdBase && id <= kViEChannelIdMax); 1268 } 1269 bool IsCapturerId(int id) const { 1270 return (id >= kViECaptureIdBase && id <= kViECaptureIdMax); 1271 } 1272 1273 bool inited_; 1274 int last_channel_; 1275 std::map<int, Channel*> channels_; 1276 bool fail_create_channel_; 1277 int last_capturer_; 1278 std::map<int, Capturer*> capturers_; 1279 bool fail_alloc_capturer_; 1280 const cricket::VideoCodec* const* codecs_; 1281 int num_codecs_; 1282 int num_set_send_codecs_; // how many times we call SetSendCodec(). 1283 }; 1284 1285 } // namespace cricket 1286 1287 #endif // TALK_MEDIA_WEBRTC_FAKEWEBRTCVIDEOENGINE_H_ 1288