tools/matlab/rtpAnalyze.m - src - Git at Google

 function rtpAnalyze( input_file )
 %RTP_ANALYZE Analyze RTP stream(s) from a txt file
 %   The function takes the output from the command line tool rtp_analyze
 %   and analyzes the stream(s) therein. First, process your rtpdump file
 %   through rtp_analyze (from command line):
 %   $ out/Debug/rtp_analyze my_file.rtp my_file.txt
 %   Then load it with this function (in Matlab):
 %   >> rtpAnalyze('my_file.txt')

 % Copyright (c) 2015 The WebRTC project authors. All Rights Reserved.
 %
 % Use of this source code is governed by a BSD-style license
 % that can be found in the LICENSE file in the root of the source
 % tree. An additional intellectual property rights grant can be found
 % in the file PATENTS.  All contributing project authors may
 % be found in the AUTHORS file in the root of the source tree.

 [SeqNo,TimeStamp,ArrTime,Size,PT,M,SSRC] = importfile(input_file);

 %% Find streams.
 [uSSRC, ~, uix] = unique(SSRC);

 % If there are multiple streams, select one and purge the other
 % streams from the data vectors. If there is only one stream, the
 % vectors are good to use as they are.
 if length(uSSRC) > 1
     for i=1:length(uSSRC)
         uPT = unique(PT(uix == i));
         fprintf('%i: %s (%d packets, pt: %i', i, uSSRC{i}, ...
             length(find(uix==i)), uPT(1));
         if length(uPT) > 1
             fprintf(', %i', uPT(2:end));
         end
         fprintf(')\n');
     end
     sel = input('Select stream number: ');
     if sel < 1 || sel > length(uSSRC)
         error('Out of range');
     end
     ix = find(uix == sel);
     % This is where the data vectors are trimmed.
     SeqNo = SeqNo(ix);
     TimeStamp = TimeStamp(ix);
     ArrTime = ArrTime(ix);
     Size = Size(ix);
     PT = PT(ix);
     M = M(ix);
     SSRC = SSRC(ix);
 end

 %% Unwrap SeqNo and TimeStamp.
 SeqNoUW = maxUnwrap(SeqNo, 65535);
 TimeStampUW = maxUnwrap(TimeStamp, 4294967295);

 %% Generate some stats for the stream.
 fprintf('Statistics:\n');
 fprintf('SSRC: %s\n', SSRC{1});
 uPT = unique(PT);
 if length(uPT) > 1
     warning('This tool cannot yet handle changes in codec sample rate');
 end
 fprintf('Payload type(s): %i', uPT(1));
 if length(uPT) > 1
     fprintf(', %i', uPT(2:end));
 end
 fprintf('\n');
 fprintf('Packets: %i\n', length(SeqNo));
 fprintf('Missing sequence numbers: %i\n', ...
     length(find(diff(sort(SeqNoUW)) > 1)));
 fprintf('Reordered packets: %i\n', length(find(diff(sort(SeqNoUW)) < 1)));
 tsdiff = diff(TimeStampUW);
 tsdiff = tsdiff(diff(SeqNoUW) == 1);
 [utsdiff, ~, ixtsdiff] = unique(tsdiff);
 fprintf('Common packet sizes:\n');
 for i = 1:length(utsdiff)
     fprintf('  %i samples (%i%%)\n', ...
         utsdiff(i), ...
         round(100 * length(find(ixtsdiff == i))/length(ixtsdiff)));
 end

 %% Trying to figure out sample rate.
 fs_est = (TimeStampUW(end) - TimeStampUW(1)) / (ArrTime(end) - ArrTime(1));
 fs_vec = [8, 16, 32, 48];
 fs = 0;
 for f = fs_vec
     if abs((fs_est-f)/f) < 0.05  % 5% margin
         fs = f;
         break;
     end
 end
 if fs == 0
     fprintf('Cannot determine sample rate. I get it to %.2f kHz\n', ...
         fs_est);
     fs = input('Please, input a sample rate (in kHz): ');
 else
     fprintf('Sample rate estimated to %i kHz\n', fs);
 end

 SendTimeMs = (TimeStampUW - TimeStampUW(1)) / fs;

 fprintf('Stream duration at sender: %.1f seconds\n', ...
     (SendTimeMs(end) - SendTimeMs(1)) / 1000);

 fprintf('Stream duration at receiver: %.1f seconds\n', ...
     (ArrTime(end) - ArrTime(1)) / 1000);

 fprintf('Clock drift: %.2f%%\n', ...
     100 * ((ArrTime(end) - ArrTime(1)) / ...
     (SendTimeMs(end) - SendTimeMs(1)) - 1));

 fprintf('Sent average bitrate: %i kbps\n', ...
     round(sum(Size) * 8 / (SendTimeMs(end)-SendTimeMs(1))));

 fprintf('Received average bitrate: %i kbps\n', ...
     round(sum(Size) * 8 / (ArrTime(end)-ArrTime(1))));

 %% Plots.
 delay = ArrTime - SendTimeMs;
 delay = delay - min(delay);
 figure
 plot(SendTimeMs / 1000, delay);
 xlabel('Send time [s]');
 ylabel('Relative transport delay [ms]');
 title(sprintf('SSRC: %s', SSRC{1}));

 SendBitrateKbps = 8 * Size(1:end-1) ./ diff(SendTimeMs);
 figure
 plot(SendTimeMs(1:end-1)/1000, SendBitrateKbps);
 xlabel('Send time [s]');
 ylabel('Send bitrate [kbps]');
 end

 %% Auto-generated subfunction.
 function [SeqNo,TimeStamp,SendTime,Size,PT,M,SSRC] = ...
     importfile(filename, startRow, endRow)
 %IMPORTFILE Import numeric data from a text file as column vectors.
 %   [SEQNO,TIMESTAMP,SENDTIME,SIZE,PT,M,SSRC] = IMPORTFILE(FILENAME) Reads
 %   data from text file FILENAME for the default selection.
 %
 %   [SEQNO,TIMESTAMP,SENDTIME,SIZE,PT,M,SSRC] = IMPORTFILE(FILENAME,
 %   STARTROW, ENDROW) Reads data from rows STARTROW through ENDROW of text
 %   file FILENAME.
 %
 % Example:
 %   [SeqNo,TimeStamp,SendTime,Size,PT,M,SSRC] =
 %   importfile('rtpdump_recv.txt',2, 123);
 %
 %    See also TEXTSCAN.

 % Auto-generated by MATLAB on 2015/05/28 09:55:50

 %% Initialize variables.
 if nargin<=2
     startRow = 2;
     endRow = inf;
 end

 %% Format string for each line of text:
 %   column1: double (%f)
 %   column2: double (%f)
 %   column3: double (%f)
 %   column4: double (%f)
 %   column5: double (%f)
 %   column6: double (%f)
 %   column7: text (%s)
 % For more information, see the TEXTSCAN documentation.
 formatSpec = '%5f%11f%11f%6f%6f%3f%s%[^\n\r]';

 %% Open the text file.
 fileID = fopen(filename,'r');

 %% Read columns of data according to format string.
 % This call is based on the structure of the file used to generate this
 % code. If an error occurs for a different file, try regenerating the code
 % from the Import Tool.
 dataArray = textscan(fileID, formatSpec, endRow(1)-startRow(1)+1, ...
     'Delimiter', '', 'WhiteSpace', '', 'HeaderLines', startRow(1)-1, ...
     'ReturnOnError', false);
 for block=2:length(startRow)
     frewind(fileID);
     dataArrayBlock = textscan(fileID, formatSpec, ...
         endRow(block)-startRow(block)+1, 'Delimiter', '', 'WhiteSpace', ...
         '', 'HeaderLines', startRow(block)-1, 'ReturnOnError', false);
     for col=1:length(dataArray)
         dataArray{col} = [dataArray{col};dataArrayBlock{col}];
     end
 end

 %% Close the text file.
 fclose(fileID);

 %% Post processing for unimportable data.
 % No unimportable data rules were applied during the import, so no post
 % processing code is included. To generate code which works for
 % unimportable data, select unimportable cells in a file and regenerate the
 % script.

 %% Allocate imported array to column variable names
 SeqNo = dataArray{:, 1};
 TimeStamp = dataArray{:, 2};
 SendTime = dataArray{:, 3};
 Size = dataArray{:, 4};
 PT = dataArray{:, 5};
 M = dataArray{:, 6};
 SSRC = dataArray{:, 7};
 end
	function rtpAnalyze( input_file )
	%RTP_ANALYZE Analyze RTP stream(s) from a txt file
	% The function takes the output from the command line tool rtp_analyze
	% and analyzes the stream(s) therein. First, process your rtpdump file
	% through rtp_analyze (from command line):
	% $ out/Debug/rtp_analyze my_file.rtp my_file.txt
	% Then load it with this function (in Matlab):
	% >> rtpAnalyze('my_file.txt')

	% Copyright (c) 2015 The WebRTC project authors. All Rights Reserved.
	%
	% Use of this source code is governed by a BSD-style license
	% that can be found in the LICENSE file in the root of the source
	% tree. An additional intellectual property rights grant can be found
	% in the file PATENTS. All contributing project authors may
	% be found in the AUTHORS file in the root of the source tree.

	[SeqNo,TimeStamp,ArrTime,Size,PT,M,SSRC] = importfile(input_file);

	%% Find streams.
	[uSSRC, ~, uix] = unique(SSRC);

	% If there are multiple streams, select one and purge the other
	% streams from the data vectors. If there is only one stream, the
	% vectors are good to use as they are.
	if length(uSSRC) > 1
	for i=1:length(uSSRC)
	uPT = unique(PT(uix == i));
	fprintf('%i: %s (%d packets, pt: %i', i, uSSRC{i}, ...
	length(find(uix==i)), uPT(1));
	if length(uPT) > 1
	fprintf(', %i', uPT(2:end));
	end
	fprintf(')\n');
	end
	sel = input('Select stream number: ');
	if sel < 1 \|\| sel > length(uSSRC)
	error('Out of range');
	end
	ix = find(uix == sel);
	% This is where the data vectors are trimmed.
	SeqNo = SeqNo(ix);
	TimeStamp = TimeStamp(ix);
	ArrTime = ArrTime(ix);
	Size = Size(ix);
	PT = PT(ix);
	M = M(ix);
	SSRC = SSRC(ix);
	end

	%% Unwrap SeqNo and TimeStamp.
	SeqNoUW = maxUnwrap(SeqNo, 65535);
	TimeStampUW = maxUnwrap(TimeStamp, 4294967295);

	%% Generate some stats for the stream.
	fprintf('Statistics:\n');
	fprintf('SSRC: %s\n', SSRC{1});
	uPT = unique(PT);
	if length(uPT) > 1
	warning('This tool cannot yet handle changes in codec sample rate');
	end
	fprintf('Payload type(s): %i', uPT(1));
	if length(uPT) > 1
	fprintf(', %i', uPT(2:end));
	end
	fprintf('\n');
	fprintf('Packets: %i\n', length(SeqNo));
	fprintf('Missing sequence numbers: %i\n', ...
	length(find(diff(sort(SeqNoUW)) > 1)));
	fprintf('Reordered packets: %i\n', length(find(diff(sort(SeqNoUW)) < 1)));
	tsdiff = diff(TimeStampUW);
	tsdiff = tsdiff(diff(SeqNoUW) == 1);
	[utsdiff, ~, ixtsdiff] = unique(tsdiff);
	fprintf('Common packet sizes:\n');
	for i = 1:length(utsdiff)
	fprintf(' %i samples (%i%%)\n', ...
	utsdiff(i), ...
	round(100 * length(find(ixtsdiff == i))/length(ixtsdiff)));
	end

	%% Trying to figure out sample rate.
	fs_est = (TimeStampUW(end) - TimeStampUW(1)) / (ArrTime(end) - ArrTime(1));
	fs_vec = [8, 16, 32, 48];
	fs = 0;
	for f = fs_vec
	if abs((fs_est-f)/f) < 0.05 % 5% margin
	fs = f;
	break;
	end
	end
	if fs == 0
	fprintf('Cannot determine sample rate. I get it to %.2f kHz\n', ...
	fs_est);
	fs = input('Please, input a sample rate (in kHz): ');
	else
	fprintf('Sample rate estimated to %i kHz\n', fs);
	end

	SendTimeMs = (TimeStampUW - TimeStampUW(1)) / fs;

	fprintf('Stream duration at sender: %.1f seconds\n', ...
	(SendTimeMs(end) - SendTimeMs(1)) / 1000);

	fprintf('Stream duration at receiver: %.1f seconds\n', ...
	(ArrTime(end) - ArrTime(1)) / 1000);

	fprintf('Clock drift: %.2f%%\n', ...
	100 * ((ArrTime(end) - ArrTime(1)) / ...
	(SendTimeMs(end) - SendTimeMs(1)) - 1));

	fprintf('Sent average bitrate: %i kbps\n', ...
	round(sum(Size) * 8 / (SendTimeMs(end)-SendTimeMs(1))));

	fprintf('Received average bitrate: %i kbps\n', ...
	round(sum(Size) * 8 / (ArrTime(end)-ArrTime(1))));

	%% Plots.
	delay = ArrTime - SendTimeMs;
	delay = delay - min(delay);
	figure
	plot(SendTimeMs / 1000, delay);
	xlabel('Send time [s]');
	ylabel('Relative transport delay [ms]');
	title(sprintf('SSRC: %s', SSRC{1}));

	SendBitrateKbps = 8 * Size(1:end-1) ./ diff(SendTimeMs);
	figure
	plot(SendTimeMs(1:end-1)/1000, SendBitrateKbps);
	xlabel('Send time [s]');
	ylabel('Send bitrate [kbps]');
	end

	%% Auto-generated subfunction.
	function [SeqNo,TimeStamp,SendTime,Size,PT,M,SSRC] = ...
	importfile(filename, startRow, endRow)
	%IMPORTFILE Import numeric data from a text file as column vectors.
	% [SEQNO,TIMESTAMP,SENDTIME,SIZE,PT,M,SSRC] = IMPORTFILE(FILENAME) Reads
	% data from text file FILENAME for the default selection.
	%
	% [SEQNO,TIMESTAMP,SENDTIME,SIZE,PT,M,SSRC] = IMPORTFILE(FILENAME,
	% STARTROW, ENDROW) Reads data from rows STARTROW through ENDROW of text
	% file FILENAME.
	%
	% Example:
	% [SeqNo,TimeStamp,SendTime,Size,PT,M,SSRC] =
	% importfile('rtpdump_recv.txt',2, 123);
	%
	% See also TEXTSCAN.

	% Auto-generated by MATLAB on 2015/05/28 09:55:50

	%% Initialize variables.
	if nargin<=2
	startRow = 2;
	endRow = inf;
	end

	%% Format string for each line of text:
	% column1: double (%f)
	% column2: double (%f)
	% column3: double (%f)
	% column4: double (%f)
	% column5: double (%f)
	% column6: double (%f)
	% column7: text (%s)
	% For more information, see the TEXTSCAN documentation.
	formatSpec = '%5f%11f%11f%6f%6f%3f%s%[^\n\r]';

	%% Open the text file.
	fileID = fopen(filename,'r');

	%% Read columns of data according to format string.
	% This call is based on the structure of the file used to generate this
	% code. If an error occurs for a different file, try regenerating the code
	% from the Import Tool.
	dataArray = textscan(fileID, formatSpec, endRow(1)-startRow(1)+1, ...
	'Delimiter', '', 'WhiteSpace', '', 'HeaderLines', startRow(1)-1, ...
	'ReturnOnError', false);
	for block=2:length(startRow)
	frewind(fileID);
	dataArrayBlock = textscan(fileID, formatSpec, ...
	endRow(block)-startRow(block)+1, 'Delimiter', '', 'WhiteSpace', ...
	'', 'HeaderLines', startRow(block)-1, 'ReturnOnError', false);
	for col=1:length(dataArray)
	dataArray{col} = [dataArray{col};dataArrayBlock{col}];
	end
	end

	%% Close the text file.
	fclose(fileID);

	%% Post processing for unimportable data.
	% No unimportable data rules were applied during the import, so no post
	% processing code is included. To generate code which works for
	% unimportable data, select unimportable cells in a file and regenerate the
	% script.

	%% Allocate imported array to column variable names
	SeqNo = dataArray{:, 1};
	TimeStamp = dataArray{:, 2};
	SendTime = dataArray{:, 3};
	Size = dataArray{:, 4};
	PT = dataArray{:, 5};
	M = dataArray{:, 6};
	SSRC = dataArray{:, 7};
	end