/** * Gets the <tt>MediaFormat</tt>s among the specified <tt>mediaFormats</tt> which have the * specified <tt>encoding</tt> and, optionally, <tt>clockRate</tt>. * * @param mediaFormats the <tt>MediaFormat</tt>s from which to filter out only the ones which have * the specified <tt>encoding</tt> and, optionally, <tt>clockRate</tt> * @param encoding the well-known encoding (name) of the <tt>MediaFormat</tt>s to be retrieved * @param clockRate the clock rate of the <tt>MediaFormat</tt>s to be retrieved; {@link * #CLOCK_RATE_NOT_SPECIFIED} if any clock rate is acceptable * @return a <tt>List</tt> of the <tt>MediaFormat</tt>s among <tt>mediaFormats</tt> which have the * specified <tt>encoding</tt> and, optionally, <tt>clockRate</tt> */ private List<MediaFormat> getMatchingMediaFormats( MediaFormat[] mediaFormats, String encoding, double clockRate) { /* * XXX Use String#equalsIgnoreCase(String) because some clients transmit * some of the codecs starting with capital letters. */ /* * As per RFC 3551.4.5.2, because of a mistake in RFC 1890 and for * backward compatibility, G.722 should always be announced as 8000 even * though it is wideband. So, if someone is looking for G722/16000, * then: Forgive them, for they know not what they do! */ if ("G722".equalsIgnoreCase(encoding) && (16000 == clockRate)) { clockRate = 8000; if (logger.isInfoEnabled()) logger.info("Suppressing erroneous 16000 announcement for G.722"); } List<MediaFormat> supportedMediaFormats = new ArrayList<MediaFormat>(); for (MediaFormat mediaFormat : mediaFormats) { if (mediaFormat.getEncoding().equalsIgnoreCase(encoding) && ((CLOCK_RATE_NOT_SPECIFIED == clockRate) || (mediaFormat.getClockRate() == clockRate))) { supportedMediaFormats.add(mediaFormat); } } return supportedMediaFormats; }
/** * Creates a <tt>MediaFormat</tt> for the specified RTP payload type with default clock rate and * set of format parameters. If <tt>rtpPayloadType</tt> is known to this * <tt>MediaFormatFactory</tt>, returns a <tt>MediaFormat</tt> which is either an * <tt>AudioMediaFormat</tt> or a <tt>VideoMediaFormat</tt> instance. Otherwise, returns * <tt>null</tt>. * * @param rtpPayloadType the RTP payload type of the <tt>MediaFormat</tt> to create * @return a <tt>MediaFormat</tt> with the specified <tt>rtpPayloadType</tt> which is either an * <tt>AudioMediaFormat</tt> or a <tt>VideoMediaFormat</tt> instance if * <tt>rtpPayloadType</tt> is known to this <tt>MediaFormatFactory</tt>; otherwise, * <tt>null</tt> * @see MediaFormatFactory#createMediaFormat(byte) */ public MediaFormat createMediaFormat(byte rtpPayloadType) { /* * We know which are the MediaFormat instances with the specified * rtpPayloadType but we cannot directly return them because they do not * reflect the user's configuration with respect to being enabled and * disabled. */ for (MediaFormat rtpPayloadTypeMediaFormat : MediaUtils.getMediaFormats(rtpPayloadType)) { MediaFormat mediaFormat = createMediaFormat( rtpPayloadTypeMediaFormat.getEncoding(), rtpPayloadTypeMediaFormat.getClockRate()); if (mediaFormat != null) return mediaFormat; } return null; }
private MediaFormat createMediaFormat( String encoding, double clockRate, int channels, Map<String, String> fmtps) { for (MediaFormat format : getSupportedMediaFormats(encoding, clockRate)) { /* * The mediaType, encoding and clockRate properties are sure to * match because format is the result of the search for encoding and * clockRate. We just want to make sure that the channels and the * format parameters match. */ if (format.matches( format.getMediaType(), format.getEncoding(), format.getClockRate(), channels, fmtps)) return format; } return null; }
public Object getValueAt(int rowIndex, int columnIndex) { MediaFormat encoding = getEncodings()[rowIndex]; switch (columnIndex) { case 0: return (encodingConfiguration.getPriority(encoding) > 0); case 1: if (MediaType.VIDEO.equals(encoding.getMediaType()) && (VideoMediaFormatImpl.DEFAULT_CLOCK_RATE == encoding.getClockRate())) return encoding.getEncoding(); else { return encoding.getEncoding() + "/" + encoding.getRealUsedClockRateString(); } default: return null; } }
/** * Creates a <tt>MediaFormat</tt> either for the specified <tt>rtpPayloadType</tt> or for the * specified <tt>encoding</tt>, <tt>clockRate</tt>, <tt>channels</tt> and set of format * parameters. If <tt>encoding</tt> is known to this <tt>MediaFormatFactory</tt>, ignores * <tt>rtpPayloadType</tt> and returns a <tt>MediaFormat</tt> which is either an * <tt>AudioMediaFormat</tt> or a <tt>VideoMediaFormat</tt> instance. If <tt>rtpPayloadType</tt> * is not {@link MediaFormat#RTP_PAYLOAD_TYPE_UNKNOWN} and <tt>encoding</tt> is <tt>null</tt>, * uses the encoding associated with <tt>rtpPayloadType</tt>. * * @param rtpPayloadType the RTP payload type to create a <tt>MediaFormat</tt> for; {@link * MediaFormat#RTP_PAYLOAD_TYPE_UNKNOWN} if <tt>encoding</tt> is not <tt>null</tt>. If * <tt>rtpPayloadType</tt> is not <tt>MediaFormat#RTP_PAYLOAD_TYPE_UNKNOWN</tt> and * <tt>encoding</tt> is not <tt>null</tt>, <tt>rtpPayloadType</tt> is ignored * @param encoding the well-known encoding (name) to create a <tt>MediaFormat</tt> for; * <tt>null</tt> * @param clockRate the clock rate in Hz to create a <tt>MediaFormat</tt> for * @param frameRate the frame rate in number of frames per second to create a <tt>MediaFormat</tt> * for * @param channels the number of available channels (1 for mono, 2 for stereo) if it makes sense * for the <tt>MediaFormat</tt> with the specified <tt>encoding</tt>; otherwise, ignored * @param formatParams any codec specific parameters which have been received via SIP/SDP or * XMPP/Jingle * @param advancedParams any parameters which have been received via SIP/SDP or XMPP/Jingle * @return a <tt>MediaFormat</tt> with the specified <tt>encoding</tt>, <tt>clockRate</tt>, * <tt>channels</tt> and set of format parameters which is either an <tt>AudioMediaFormat</tt> * or a <tt>VideoMediaFormat</tt> instance if <tt>encoding</tt> is known to this * <tt>MediaFormatFactory</tt>; otherwise, <tt>null</tt> */ public MediaFormat createMediaFormat( byte rtpPayloadType, String encoding, double clockRate, int channels, float frameRate, Map<String, String> formatParams, Map<String, String> advancedParams) { /* * If rtpPayloadType is specified, use it only to figure out encoding * and/or clockRate in case either one of them is unknown. */ if ((MediaFormat.RTP_PAYLOAD_TYPE_UNKNOWN != rtpPayloadType) && ((encoding == null) || (CLOCK_RATE_NOT_SPECIFIED == clockRate))) { MediaFormat[] rtpPayloadTypeMediaFormats = MediaUtils.getMediaFormats(rtpPayloadType); if (rtpPayloadTypeMediaFormats.length > 0) { if (encoding == null) encoding = rtpPayloadTypeMediaFormats[0].getEncoding(); // Assign or check the clock rate. if (CLOCK_RATE_NOT_SPECIFIED == clockRate) clockRate = rtpPayloadTypeMediaFormats[0].getClockRate(); else { boolean clockRateIsValid = false; for (MediaFormat rtpPayloadTypeMediaFormat : rtpPayloadTypeMediaFormats) if (rtpPayloadTypeMediaFormat.getEncoding().equals(encoding) && (rtpPayloadTypeMediaFormat.getClockRate() == clockRate)) { clockRateIsValid = true; break; } if (!clockRateIsValid) return null; } } } return createMediaFormat( encoding, clockRate, channels, frameRate, formatParams, advancedParams); }