status_t ASessionDescription::getSessionUrl(String8& uri) const{
    AString line;
    if(findAttribute(0, "a=control", &line)) {
        // rtsp without aggregation control url will be considered as pure RTP
        if (!line.startsWith("rtsp://"))
            return ERROR_UNSUPPORTED;

        uri.setTo(line.c_str());
    } else {
        // assume as rtp streaming
        uri.setTo("rtp://0.0.0.0");
    }
    return OK;
}
Exemple #2
0
status_t MediaCodecList::includeXMLFile(const char **attrs) {
    const char *href = NULL;
    size_t i = 0;
    while (attrs[i] != NULL) {
        if (!strcmp(attrs[i], "href")) {
            if (attrs[i + 1] == NULL) {
                return -EINVAL;
            }
            href = attrs[i + 1];
            ++i;
        } else {
            return -EINVAL;
        }
        ++i;
    }

    // For security reasons and for simplicity, file names can only contain
    // [a-zA-Z0-9_.] and must start with  media_codecs_ and end with .xml
    for (i = 0; href[i] != '\0'; i++) {
        if (href[i] == '.' || href[i] == '_' ||
                (href[i] >= '0' && href[i] <= '9') ||
                (href[i] >= 'A' && href[i] <= 'Z') ||
                (href[i] >= 'a' && href[i] <= 'z')) {
            continue;
        }
        ALOGE("invalid include file name: %s", href);
        return -EINVAL;
    }

    AString filename = href;
    if (!filename.startsWith("media_codecs_") ||
        !filename.endsWith(".xml")) {
        ALOGE("invalid include file name: %s", href);
        return -EINVAL;
    }
    filename.insert(mHrefBase, 0);

    parseXMLFile(filename.c_str());
    return mInitCheck;
}
static sp<AMessage> getMeasureFormat(
        bool isEncoder, const AString &mime, const sp<MediaCodecInfo::Capabilities> &caps) {
    sp<AMessage> format = new AMessage();
    format->setString("mime", mime);

    if (isEncoder) {
        int32_t bitrate = 0;
        getMeasureBitrate(caps, &bitrate);
        format->setInt32("bitrate", bitrate);
        format->setInt32("encoder", 1);
    }

    if (mime.startsWith("video/")) {
        int32_t width = 0;
        int32_t height = 0;
        if (!getMeasureSize(caps, &width, &height)) {
            return NULL;
        }
        format->setInt32("width", width);
        format->setInt32("height", height);

        Vector<uint32_t> colorFormats;
        caps->getSupportedColorFormats(&colorFormats);
        if (colorFormats.size() == 0) {
            return NULL;
        }
        format->setInt32("color-format", colorFormats[0]);

        format->setFloat("frame-rate", 10.0);
        format->setInt32("i-frame-interval", 10);
    } else {
        // TODO: profile hw audio
        return NULL;
    }

    return format;
}
// static
AMPEG4ElementaryAssembler::AMPEG4ElementaryAssembler(
        const sp<AMessage> &notify, const AString &desc, const AString &params)
    : mNotifyMsg(notify),
      mIsGeneric(false),
      mParams(params),
      mSizeLength(0),
      mIndexLength(0),
      mIndexDeltaLength(0),
      mCTSDeltaLength(0),
      mDTSDeltaLength(0),
      mRandomAccessIndication(false),
      mStreamStateIndication(0),
      mAuxiliaryDataSizeLength(0),
      mHasAUHeader(false),
      mAccessUnitRTPTime(0),
      mNextExpectedSeqNoValid(false),
      mNextExpectedSeqNo(0),
      mAccessUnitDamaged(false) {
    mIsGeneric = desc.startsWith("mpeg4-generic/");

    if (mIsGeneric) {
        AString value;
        CHECK(GetAttribute(params.c_str(), "mode", &value));

        if (!GetIntegerAttribute(params.c_str(), "sizeLength", &mSizeLength)) {
            mSizeLength = 0;
        }

        if (!GetIntegerAttribute(
                    params.c_str(), "indexLength", &mIndexLength)) {
            mIndexLength = 0;
        }

        if (!GetIntegerAttribute(
                    params.c_str(), "indexDeltaLength", &mIndexDeltaLength)) {
            mIndexDeltaLength = 0;
        }

        if (!GetIntegerAttribute(
                    params.c_str(), "CTSDeltaLength", &mCTSDeltaLength)) {
            mCTSDeltaLength = 0;
        }

        if (!GetIntegerAttribute(
                    params.c_str(), "DTSDeltaLength", &mDTSDeltaLength)) {
            mDTSDeltaLength = 0;
        }

        unsigned x;
        if (!GetIntegerAttribute(
                    params.c_str(), "randomAccessIndication", &x)) {
            mRandomAccessIndication = false;
        } else {
            CHECK(x == 0 || x == 1);
            mRandomAccessIndication = (x != 0);
        }

        if (!GetIntegerAttribute(
                    params.c_str(), "streamStateIndication",
                    &mStreamStateIndication)) {
            mStreamStateIndication = 0;
        }

        if (!GetIntegerAttribute(
                    params.c_str(), "auxiliaryDataSizeLength",
                    &mAuxiliaryDataSizeLength)) {
            mAuxiliaryDataSizeLength = 0;
        }

        mHasAUHeader =
            mSizeLength > 0
            || mIndexLength > 0
            || mIndexDeltaLength > 0
            || mCTSDeltaLength > 0
            || mDTSDeltaLength > 0
            || mRandomAccessIndication
            || mStreamStateIndication > 0;
    }
}
Exemple #5
0
status_t M3UParser::parse(const void *_data, size_t size) {
    int32_t lineNo = 0;

    sp<AMessage> itemMeta;

    const char *data = (const char *)_data;
    size_t offset = 0;
    while (offset < size) {
        size_t offsetLF = offset;
        while (offsetLF < size && data[offsetLF] != '\n') {
            ++offsetLF;
        }
        if (offsetLF >= size) {
            break;
        }

        AString line;
        if (offsetLF > offset && data[offsetLF - 1] == '\r') {
            line.setTo(&data[offset], offsetLF - offset - 1);
        } else {
            line.setTo(&data[offset], offsetLF - offset);
        }

        // LOGI("#%s#", line.c_str());

        if (line.empty()) {
            offset = offsetLF + 1;
            continue;
        }

        if (lineNo == 0 && line == "#EXTM3U") {
            mIsExtM3U = true;
        }

        if (mIsExtM3U) {
            status_t err = OK;

            if (line.startsWith("#EXT-X-TARGETDURATION")) {
                if (mIsVariantPlaylist) {
                    return ERROR_MALFORMED;
                }
                err = parseMetaData(line, &mMeta, "target-duration");
            } else if (line.startsWith("#EXT-X-MEDIA-SEQUENCE")) {
                if (mIsVariantPlaylist) {
                    return ERROR_MALFORMED;
                }
                err = parseMetaData(line, &mMeta, "media-sequence");
            } else if (line.startsWith("#EXT-X-ENDLIST")) {
                mIsComplete = true;
            } else if (line.startsWith("#EXTINF")) {
                if (mIsVariantPlaylist) {
                    return ERROR_MALFORMED;
                }
                err = parseMetaData(line, &itemMeta, "duration");
            } else if (line.startsWith("#EXT-X-DISCONTINUITY")) {
                if (mIsVariantPlaylist) {
                    return ERROR_MALFORMED;
                }
                if (itemMeta == NULL) {
                    itemMeta = new AMessage;
                }
                itemMeta->setInt32("discontinuity", true);
            } else if (line.startsWith("#EXT-X-STREAM-INF")) {
                if (mMeta != NULL) {
                    return ERROR_MALFORMED;
                }
                mIsVariantPlaylist = true;
                err = parseStreamInf(line, &itemMeta);
            }

            if (err != OK) {
                return err;
            }
        }

        if (!line.startsWith("#")) {
            if (!mIsVariantPlaylist) {
                int32_t durationSecs;
                if (itemMeta == NULL
                        || !itemMeta->findInt32("duration", &durationSecs)) {
                    return ERROR_MALFORMED;
                }
            }

            mItems.push();
            Item *item = &mItems.editItemAt(mItems.size() - 1);

            CHECK(MakeURL(mBaseURI.c_str(), line.c_str(), &item->mURI));

            item->mMeta = itemMeta;

            itemMeta.clear();
        }

        offset = offsetLF + 1;
        ++lineNo;
    }

    return OK;
}
void profileCodecs(
        const Vector<sp<MediaCodecInfo>> &infos,
        CodecSettings *global_results,
        KeyedVector<AString, CodecSettings> *encoder_results,
        KeyedVector<AString, CodecSettings> *decoder_results,
        bool forceToMeasure) {
    KeyedVector<AString, sp<MediaCodecInfo::Capabilities>> codecsNeedMeasure;
    AString supportMultipleSecureCodecs = "true";
    size_t maxEncoderInputBuffers = 0;
    for (size_t i = 0; i < infos.size(); ++i) {
        const sp<MediaCodecInfo> info = infos[i];
        AString name = info->getCodecName();
        if (name.startsWith("OMX.google.") ||
                // TODO: reenable below codecs once fixed
                name == "OMX.Intel.VideoDecoder.VP9.hybrid") {
            continue;
        }

        Vector<AString> mimes;
        info->getSupportedMimes(&mimes);
        for (size_t i = 0; i < mimes.size(); ++i) {
            const sp<MediaCodecInfo::Capabilities> &caps =
                    info->getCapabilitiesFor(mimes[i].c_str());
            if (!forceToMeasure &&
                (caps->getDetails()->contains("max-supported-instances") ||
                 caps->getDetails()->contains("max-concurrent-instances"))) {
                continue;
            }

            size_t max = doProfileCodecs(info->isEncoder(), name, mimes[i], caps);
            if (max > 0) {
                CodecSettings settings;
                char maxStr[32];
                sprintf(maxStr, "%zu", max);
                settings.add("max-supported-instances", maxStr);

                AString key = name;
                key.append(" ");
                key.append(mimes[i]);

                if (info->isEncoder()) {
                    encoder_results->add(key, settings);
                } else {
                    decoder_results->add(key, settings);
                }

                if (name.endsWith(".secure")) {
                    if (max <= 1) {
                        supportMultipleSecureCodecs = "false";
                    }
                }
                if (info->isEncoder() && mimes[i].startsWith("video/")) {
                    size_t encoderInputBuffers =
                        doProfileEncoderInputBuffers(name, mimes[i], caps);
                    if (encoderInputBuffers > maxEncoderInputBuffers) {
                        maxEncoderInputBuffers = encoderInputBuffers;
                    }
                }
            }
        }
    }
    if (maxEncoderInputBuffers > 0) {
        char tmp[32];
        sprintf(tmp, "%zu", maxEncoderInputBuffers);
        global_results->add(kMaxEncoderInputBuffers, tmp);
    }
    global_results->add(kPolicySupportsMultipleSecureCodecs, supportMultipleSecureCodecs);
}
status_t WifiDisplaySource::onReceiveM3Response(
        int32_t sessionID, const sp<ParsedMessage> &msg) {
    int32_t statusCode;
    if (!msg->getStatusCode(&statusCode)) {
        return ERROR_MALFORMED;
    }

    if (statusCode != 200) {
        return ERROR_UNSUPPORTED;
    }

    sp<Parameters> params =
        Parameters::Parse(msg->getContent(), strlen(msg->getContent()));

    if (params == NULL) {
        return ERROR_MALFORMED;
    }

    AString value;
    if (!params->findParameter("wfd_client_rtp_ports", &value)) {
        ALOGE("Sink doesn't report its choice of wfd_client_rtp_ports.");
        return ERROR_MALFORMED;
    }

    unsigned port0 = 0, port1 = 0;
    if (sscanf(value.c_str(),
               "RTP/AVP/UDP;unicast %u %u mode=play",
               &port0,
               &port1) == 2
        || sscanf(value.c_str(),
               "RTP/AVP/TCP;unicast %u %u mode=play",
               &port0,
               &port1) == 2) {
            if (port0 == 0 || port0 > 65535 || port1 != 0) {
                ALOGE("Sink chose its wfd_client_rtp_ports poorly (%s)",
                      value.c_str());

                return ERROR_MALFORMED;
            }
    } else if (strcmp(value.c_str(), "RTP/AVP/TCP;interleaved mode=play")) {
        ALOGE("Unsupported value for wfd_client_rtp_ports (%s)",
              value.c_str());

        return ERROR_UNSUPPORTED;
    }

    mWfdClientRtpPorts = value;
    mChosenRTPPort = port0;

    if (!params->findParameter("wfd_video_formats", &value)) {
        ALOGE("Sink doesn't report its choice of wfd_video_formats.");
        return ERROR_MALFORMED;
    }

    mSinkSupportsVideo = false;

    if  (!(value == "none")) {
        mSinkSupportsVideo = true;
        if (!mSupportedSinkVideoFormats.parseFormatSpec(value.c_str())) {
            ALOGE("Failed to parse sink provided wfd_video_formats (%s)",
                  value.c_str());

            return ERROR_MALFORMED;
        }

        if (!VideoFormats::PickBestFormat(
                    mSupportedSinkVideoFormats,
                    mSupportedSourceVideoFormats,
                    &mChosenVideoResolutionType,
                    &mChosenVideoResolutionIndex,
                    &mChosenVideoProfile,
                    &mChosenVideoLevel)) {
            ALOGE("Sink and source share no commonly supported video "
                  "formats.");

            return ERROR_UNSUPPORTED;
        }

        size_t width, height, framesPerSecond;
        bool interlaced;
        CHECK(VideoFormats::GetConfiguration(
                    mChosenVideoResolutionType,
                    mChosenVideoResolutionIndex,
                    &width,
                    &height,
                    &framesPerSecond,
                    &interlaced));

        ALOGI("Picked video resolution %zu x %zu %c%zu",
              width, height, interlaced ? 'i' : 'p', framesPerSecond);

        ALOGI("Picked AVC profile %d, level %d",
              mChosenVideoProfile, mChosenVideoLevel);
    } else {
        ALOGI("Sink doesn't support video at all.");
    }

    if (!params->findParameter("wfd_audio_codecs", &value)) {
        ALOGE("Sink doesn't report its choice of wfd_audio_codecs.");
        return ERROR_MALFORMED;
    }

    mSinkSupportsAudio = false;

    if  (!(value == "none")) {
        mSinkSupportsAudio = true;

        uint32_t modes;
        GetAudioModes(value.c_str(), "AAC", &modes);

        bool supportsAAC = (modes & 1) != 0;  // AAC 2ch 48kHz

        GetAudioModes(value.c_str(), "LPCM", &modes);

        bool supportsPCM = (modes & 2) != 0;  // LPCM 2ch 48kHz

        if (supportsPCM
                && property_get_bool("media.wfd.use-pcm-audio", false)) {
            ALOGI("Using PCM audio.");
            mUsingPCMAudio = true;
        } else if (supportsAAC) {
            ALOGI("Using AAC audio.");
            mUsingPCMAudio = false;
        } else if (supportsPCM) {
            ALOGI("Using PCM audio.");
            mUsingPCMAudio = true;
        } else {
            ALOGI("Sink doesn't support an audio format we do.");
            return ERROR_UNSUPPORTED;
        }
    } else {
        ALOGI("Sink doesn't support audio at all.");
    }

    if (!mSinkSupportsVideo && !mSinkSupportsAudio) {
        ALOGE("Sink supports neither video nor audio...");
        return ERROR_UNSUPPORTED;
    }

    mUsingHDCP = false;
    if (!params->findParameter("wfd_content_protection", &value)) {
        ALOGI("Sink doesn't appear to support content protection.");
    } else if (value == "none") {
        ALOGI("Sink does not support content protection.");
    } else {
        mUsingHDCP = true;

        bool isHDCP2_0 = false;
        if (value.startsWith("HDCP2.0 ")) {
            isHDCP2_0 = true;
        } else if (!value.startsWith("HDCP2.1 ")) {
            ALOGE("malformed wfd_content_protection: '%s'", value.c_str());

            return ERROR_MALFORMED;
        }

        int32_t hdcpPort;
        if (!ParsedMessage::GetInt32Attribute(
                    value.c_str() + 8, "port", &hdcpPort)
                || hdcpPort < 1 || hdcpPort > 65535) {
            return ERROR_MALFORMED;
        }

        mIsHDCP2_0 = isHDCP2_0;
        mHDCPPort = hdcpPort;

        status_t err = makeHDCP();
        if (err != OK) {
            ALOGE("Unable to instantiate HDCP component. "
                  "Not using HDCP after all.");

            mUsingHDCP = false;
        }
    }

    return sendM4(sessionID);
}
status_t WifiDisplaySource::onSetupRequest(
        int32_t sessionID,
        int32_t cseq,
        const sp<ParsedMessage> &data) {
    CHECK_EQ(sessionID, mClientSessionID);
    if (mClientInfo.mPlaybackSessionID != -1) {
        // We only support a single playback session per client.
        // This is due to the reversed keep-alive design in the wfd specs...
        sendErrorResponse(sessionID, "400 Bad Request", cseq);
        return ERROR_MALFORMED;
    }

    AString transport;
    if (!data->findString("transport", &transport)) {
        sendErrorResponse(sessionID, "400 Bad Request", cseq);
        return ERROR_MALFORMED;
    }

    RTPSender::TransportMode rtpMode = RTPSender::TRANSPORT_UDP;

    int clientRtp, clientRtcp;
    if (transport.startsWith("RTP/AVP/TCP;")) {
        AString interleaved;
        if (ParsedMessage::GetAttribute(
                    transport.c_str(), "interleaved", &interleaved)
                && sscanf(interleaved.c_str(), "%d-%d",
                          &clientRtp, &clientRtcp) == 2) {
            rtpMode = RTPSender::TRANSPORT_TCP_INTERLEAVED;
        } else {
            bool badRequest = false;

            AString clientPort;
            if (!ParsedMessage::GetAttribute(
                        transport.c_str(), "client_port", &clientPort)) {
                badRequest = true;
            } else if (sscanf(clientPort.c_str(), "%d-%d",
                              &clientRtp, &clientRtcp) == 2) {
            } else if (sscanf(clientPort.c_str(), "%d", &clientRtp) == 1) {
                // No RTCP.
                clientRtcp = -1;
            } else {
                badRequest = true;
            }

            if (badRequest) {
                sendErrorResponse(sessionID, "400 Bad Request", cseq);
                return ERROR_MALFORMED;
            }

            rtpMode = RTPSender::TRANSPORT_TCP;
        }
    } else if (transport.startsWith("RTP/AVP;unicast;")
            || transport.startsWith("RTP/AVP/UDP;unicast;")) {
        bool badRequest = false;

        AString clientPort;
        if (!ParsedMessage::GetAttribute(
                    transport.c_str(), "client_port", &clientPort)) {
            badRequest = true;
        } else if (sscanf(clientPort.c_str(), "%d-%d",
                          &clientRtp, &clientRtcp) == 2) {
        } else if (sscanf(clientPort.c_str(), "%d", &clientRtp) == 1) {
            // No RTCP.
            clientRtcp = -1;
        } else {
            badRequest = true;
        }

        if (badRequest) {
            sendErrorResponse(sessionID, "400 Bad Request", cseq);
            return ERROR_MALFORMED;
        }
#if 1
    // The older LG dongles doesn't specify client_port=xxx apparently.
    } else if (transport == "RTP/AVP/UDP;unicast") {
        clientRtp = 19000;
        clientRtcp = -1;
#endif
    } else {
        sendErrorResponse(sessionID, "461 Unsupported Transport", cseq);
        return ERROR_UNSUPPORTED;
    }

    int32_t playbackSessionID = makeUniquePlaybackSessionID();

    sp<AMessage> notify = new AMessage(kWhatPlaybackSessionNotify, this);
    notify->setInt32("playbackSessionID", playbackSessionID);
    notify->setInt32("sessionID", sessionID);

    sp<PlaybackSession> playbackSession =
        new PlaybackSession(
                mOpPackageName, mNetSession, notify, mInterfaceAddr, mHDCP, mMediaPath.c_str());

    looper()->registerHandler(playbackSession);

    AString uri;
    data->getRequestField(1, &uri);

    if (strncasecmp("rtsp://", uri.c_str(), 7)) {
        sendErrorResponse(sessionID, "400 Bad Request", cseq);
        return ERROR_MALFORMED;
    }

    if (!(uri.startsWith("rtsp://") && uri.endsWith("/wfd1.0/streamid=0"))) {
        sendErrorResponse(sessionID, "404 Not found", cseq);
        return ERROR_MALFORMED;
    }

    RTPSender::TransportMode rtcpMode = RTPSender::TRANSPORT_UDP;
    if (clientRtcp < 0) {
        rtcpMode = RTPSender::TRANSPORT_NONE;
    }

    status_t err = playbackSession->init(
            mClientInfo.mRemoteIP.c_str(),
            clientRtp,
            rtpMode,
            clientRtcp,
            rtcpMode,
            mSinkSupportsAudio,
            mUsingPCMAudio,
            mSinkSupportsVideo,
            mChosenVideoResolutionType,
            mChosenVideoResolutionIndex,
            mChosenVideoProfile,
            mChosenVideoLevel);

    if (err != OK) {
        looper()->unregisterHandler(playbackSession->id());
        playbackSession.clear();
    }

    switch (err) {
        case OK:
            break;
        case -ENOENT:
            sendErrorResponse(sessionID, "404 Not Found", cseq);
            return err;
        default:
            sendErrorResponse(sessionID, "403 Forbidden", cseq);
            return err;
    }

    mClientInfo.mPlaybackSessionID = playbackSessionID;
    mClientInfo.mPlaybackSession = playbackSession;

    AString response = "RTSP/1.0 200 OK\r\n";
    AppendCommonResponse(&response, cseq, playbackSessionID);

    if (rtpMode == RTPSender::TRANSPORT_TCP_INTERLEAVED) {
        response.append(
                AStringPrintf(
                    "Transport: RTP/AVP/TCP;interleaved=%d-%d;",
                    clientRtp, clientRtcp));
    } else {
        int32_t serverRtp = playbackSession->getRTPPort();

        AString transportString = "UDP";
        if (rtpMode == RTPSender::TRANSPORT_TCP) {
            transportString = "TCP";
        }

        if (clientRtcp >= 0) {
            response.append(
                    AStringPrintf(
                        "Transport: RTP/AVP/%s;unicast;client_port=%d-%d;"
                        "server_port=%d-%d\r\n",
                        transportString.c_str(),
                        clientRtp, clientRtcp, serverRtp, serverRtp + 1));
        } else {
            response.append(
                    AStringPrintf(
                        "Transport: RTP/AVP/%s;unicast;client_port=%d;"
                        "server_port=%d\r\n",
                        transportString.c_str(),
                        clientRtp, serverRtp));
        }
    }

    response.append("\r\n");

    err = mNetSession->sendRequest(sessionID, response.c_str());

    if (err != OK) {
        return err;
    }

    mState = AWAITING_CLIENT_PLAY;

    scheduleReaper();
    scheduleKeepAlive(sessionID);

    return OK;
}
status_t WifiDisplaySource::onReceiveClientData(const sp<AMessage> &msg) {
    int32_t sessionID;
    CHECK(msg->findInt32("sessionID", &sessionID));

    sp<RefBase> obj;
    CHECK(msg->findObject("data", &obj));

    sp<ParsedMessage> data =
        static_cast<ParsedMessage *>(obj.get());

    ALOGV("session %d received '%s'",
          sessionID, data->debugString().c_str());

    AString method;
    AString uri;
    data->getRequestField(0, &method);

    int32_t cseq;
    if (!data->findInt32("cseq", &cseq)) {
        sendErrorResponse(sessionID, "400 Bad Request", -1 /* cseq */);
        return ERROR_MALFORMED;
    }

    if (method.startsWith("RTSP/")) {
        // This is a response.

        ResponseID id;
        id.mSessionID = sessionID;
        id.mCSeq = cseq;

        ssize_t index = mResponseHandlers.indexOfKey(id);

        if (index < 0) {
            ALOGW("Received unsolicited server response, cseq %d", cseq);
            return ERROR_MALFORMED;
        }

        HandleRTSPResponseFunc func = mResponseHandlers.valueAt(index);
        mResponseHandlers.removeItemsAt(index);

        status_t err = (this->*func)(sessionID, data);

        if (err != OK) {
            ALOGW("Response handler for session %d, cseq %d returned "
                  "err %d (%s)",
                  sessionID, cseq, err, strerror(-err));

            return err;
        }

        return OK;
    }

    AString version;
    data->getRequestField(2, &version);
    if (!(version == AString("RTSP/1.0"))) {
        sendErrorResponse(sessionID, "505 RTSP Version not supported", cseq);
        return ERROR_UNSUPPORTED;
    }

    status_t err;
    if (method == "OPTIONS") {
        err = onOptionsRequest(sessionID, cseq, data);
    } else if (method == "SETUP") {
        err = onSetupRequest(sessionID, cseq, data);
    } else if (method == "PLAY") {
        err = onPlayRequest(sessionID, cseq, data);
    } else if (method == "PAUSE") {
        err = onPauseRequest(sessionID, cseq, data);
    } else if (method == "TEARDOWN") {
        err = onTeardownRequest(sessionID, cseq, data);
    } else if (method == "GET_PARAMETER") {
        err = onGetParameterRequest(sessionID, cseq, data);
    } else if (method == "SET_PARAMETER") {
        err = onSetParameterRequest(sessionID, cseq, data);
    } else {
        sendErrorResponse(sessionID, "405 Method Not Allowed", cseq);

        err = ERROR_UNSUPPORTED;
    }

    return err;
}
status_t WifiDisplaySource::onReceiveM3Response(
        int32_t sessionID, const sp<ParsedMessage> &msg) {
    int32_t statusCode;
    if (!msg->getStatusCode(&statusCode)) {
        return ERROR_MALFORMED;
    }

    if (statusCode != 200) {
        return ERROR_UNSUPPORTED;
    }

    sp<Parameters> params =
        Parameters::Parse(msg->getContent(), strlen(msg->getContent()));

    if (params == NULL) {
        return ERROR_MALFORMED;
    }

    AString value;
    if (!params->findParameter("wfd_client_rtp_ports", &value)) {
        ALOGE("Sink doesn't report its choice of wfd_client_rtp_ports.");
        return ERROR_MALFORMED;
    }

    unsigned port0, port1;
    if (sscanf(value.c_str(),
               "RTP/AVP/UDP;unicast %u %u mode=play",
               &port0,
               &port1) != 2
        || port0 == 0 || port0 > 65535 || port1 != 0) {
        ALOGE("Sink chose its wfd_client_rtp_ports poorly (%s)",
              value.c_str());

        ALOGE("onReceiveM3Response() SKIP!! port check.");
        port0 = 19000;
        port1 = 0;
        //return ERROR_MALFORMED;
    }

    mChosenRTPPort = port0;

    if (!params->findParameter("wfd_audio_codecs", &value)) {
        ALOGE("Sink doesn't report its choice of wfd_audio_codecs.");
        return ERROR_MALFORMED;
    }

    if  (value == "none") {
        ALOGE("Sink doesn't support audio at all.");
        return ERROR_UNSUPPORTED;
    }

    if (value == "xxx") {
        ALOGE("onReceiveM3Response() Force Apply wfd_audio_codecs to AAC");
        value.clear();
        value.append("LPCM 00000003 00, AAC 0000000F 00");
    }

    uint32_t modes;
    GetAudioModes(value.c_str(), "AAC", &modes);

    bool supportsAAC = (modes & 1) != 0;  // AAC 2ch 48kHz

    GetAudioModes(value.c_str(), "LPCM", &modes);

    bool supportsPCM = (modes & 2) != 0;  // LPCM 2ch 48kHz

    char val[PROPERTY_VALUE_MAX];
    if (supportsPCM
            && property_get("media.wfd.use-pcm-audio", val, NULL)
            && (!strcasecmp("true", val) || !strcmp("1", val))) {
        ALOGI("Using PCM audio.");
        mUsingPCMAudio = true;
    } else if (supportsAAC) {
        ALOGI("Using AAC audio.");
        mUsingPCMAudio = false;
    } else if (supportsPCM) {
        ALOGI("Using PCM audio.");
        mUsingPCMAudio = true;
    } else {
        ALOGI("Sink doesn't support an audio format we do.");
        return ERROR_UNSUPPORTED;
    }

    mUsingHDCP = false;
    if (!params->findParameter("wfd_content_protection", &value)) {
        ALOGI("Sink doesn't appear to support content protection.");
    } else if (value == "none") {
        ALOGI("Sink does not support content protection.");
    } else {
        mUsingHDCP = true;

        bool isHDCP2_0 = false;
        if (value.startsWith("HDCP2.0 ")) {
            isHDCP2_0 = true;
        } else if (!value.startsWith("HDCP2.1 ")) {
            ALOGE("malformed wfd_content_protection: '%s'", value.c_str());

            return ERROR_MALFORMED;
        }

        int32_t hdcpPort;
        if (!ParsedMessage::GetInt32Attribute(
                    value.c_str() + 8, "port", &hdcpPort)
                || hdcpPort < 1 || hdcpPort > 65535) {
            return ERROR_MALFORMED;
        }

        mIsHDCP2_0 = isHDCP2_0;
        mHDCPPort = hdcpPort;

        status_t err = makeHDCP();
        if (err != OK) {
            ALOGE("Unable to instantiate HDCP component. "
                  "Not using HDCP after all.");

            mUsingHDCP = false;
        }
    }

    return sendM4(sessionID);
}