Refactor WebsiteSettings to operate on a SecurityInfo
[chromium-blink-merge.git] / chrome / browser / media / webrtc_rtp_dump_writer.cc
blobe397da03cfd8b674691e072703db151724866260
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "chrome/browser/media/webrtc_rtp_dump_writer.h"
7 #include "base/big_endian.h"
8 #include "base/files/file_util.h"
9 #include "base/logging.h"
10 #include "base/stl_util.h"
11 #include "content/public/browser/browser_thread.h"
12 #include "third_party/zlib/zlib.h"
14 using content::BrowserThread;
16 namespace {
18 static const size_t kMinimumGzipOutputBufferSize = 256; // In bytes.
20 const unsigned char kRtpDumpFileHeaderFirstLine[] = "#!rtpplay1.0 0.0.0.0/0\n";
21 static const size_t kRtpDumpFileHeaderSize = 16; // In bytes.
23 // A helper for writing the header of the dump file.
24 void WriteRtpDumpFileHeaderBigEndian(base::TimeTicks start,
25 std::vector<uint8>* output) {
26 size_t buffer_start_pos = output->size();
27 output->resize(output->size() + kRtpDumpFileHeaderSize);
29 char* buffer = reinterpret_cast<char*>(&(*output)[buffer_start_pos]);
31 base::TimeDelta delta = start - base::TimeTicks();
32 uint32 start_sec = delta.InSeconds();
33 base::WriteBigEndian(buffer, start_sec);
34 buffer += sizeof(start_sec);
36 uint32 start_usec =
37 delta.InMilliseconds() * base::Time::kMicrosecondsPerMillisecond;
38 base::WriteBigEndian(buffer, start_usec);
39 buffer += sizeof(start_usec);
41 // Network source, always 0.
42 base::WriteBigEndian(buffer, uint32(0));
43 buffer += sizeof(uint32);
45 // UDP port, always 0.
46 base::WriteBigEndian(buffer, uint16(0));
47 buffer += sizeof(uint16);
49 // 2 bytes padding.
50 base::WriteBigEndian(buffer, uint16(0));
53 // The header size for each packet dump.
54 static const size_t kPacketDumpHeaderSize = 8; // In bytes.
56 // A helper for writing the header for each packet dump.
57 // |start| is the time when the recording is started.
58 // |dump_length| is the length of the packet dump including this header.
59 // |packet_length| is the length of the RTP packet header.
60 void WritePacketDumpHeaderBigEndian(const base::TimeTicks& start,
61 uint16 dump_length,
62 uint16 packet_length,
63 std::vector<uint8>* output) {
64 size_t buffer_start_pos = output->size();
65 output->resize(output->size() + kPacketDumpHeaderSize);
67 char* buffer = reinterpret_cast<char*>(&(*output)[buffer_start_pos]);
69 base::WriteBigEndian(buffer, dump_length);
70 buffer += sizeof(dump_length);
72 base::WriteBigEndian(buffer, packet_length);
73 buffer += sizeof(packet_length);
75 uint32 elapsed =
76 static_cast<uint32>((base::TimeTicks::Now() - start).InMilliseconds());
77 base::WriteBigEndian(buffer, elapsed);
80 // Append |src_len| bytes from |src| to |dest|.
81 void AppendToBuffer(const uint8* src,
82 size_t src_len,
83 std::vector<uint8>* dest) {
84 size_t old_dest_size = dest->size();
85 dest->resize(old_dest_size + src_len);
86 memcpy(&(*dest)[old_dest_size], src, src_len);
89 } // namespace
91 // This class is running on the FILE thread for compressing and writing the
92 // dump buffer to disk.
93 class WebRtcRtpDumpWriter::FileThreadWorker {
94 public:
95 explicit FileThreadWorker(const base::FilePath& dump_path)
96 : dump_path_(dump_path) {
97 thread_checker_.DetachFromThread();
99 memset(&stream_, 0, sizeof(stream_));
100 int result = deflateInit2(&stream_,
101 Z_DEFAULT_COMPRESSION,
102 Z_DEFLATED,
103 // windowBits = 15 is default, 16 is added to
104 // produce a gzip header + trailer.
105 15 + 16,
106 8, // memLevel = 8 is default.
107 Z_DEFAULT_STRATEGY);
108 DCHECK_EQ(Z_OK, result);
111 ~FileThreadWorker() {
112 DCHECK(thread_checker_.CalledOnValidThread());
114 // Makes sure all allocations are freed.
115 deflateEnd(&stream_);
118 // Compresses the data in |buffer| and write to the dump file. If |end_stream|
119 // is true, the compression stream will be ended and the dump file cannot be
120 // written to any more.
121 void CompressAndWriteToFileOnFileThread(
122 scoped_ptr<std::vector<uint8> > buffer,
123 bool end_stream,
124 FlushResult* result,
125 size_t* bytes_written) {
126 DCHECK(thread_checker_.CalledOnValidThread());
128 // This is called either when the in-memory buffer is full or the dump
129 // should be ended.
130 DCHECK(!buffer->empty() || end_stream);
132 *result = FLUSH_RESULT_SUCCESS;
133 *bytes_written = 0;
135 // There may be nothing to compress/write if there is no RTP packet since
136 // the last flush.
137 if (!buffer->empty()) {
138 *bytes_written = CompressAndWriteBufferToFile(buffer.get(), result);
139 } else if (!base::PathExists(dump_path_)) {
140 // If the dump does not exist, it means there is no RTP packet recorded.
141 // Return FLUSH_RESULT_NO_DATA to indicate no dump file created.
142 *result = FLUSH_RESULT_NO_DATA;
145 if (end_stream && !EndDumpFile())
146 *result = FLUSH_RESULT_FAILURE;
149 private:
150 // Helper for CompressAndWriteToFileOnFileThread to compress and write one
151 // dump.
152 size_t CompressAndWriteBufferToFile(std::vector<uint8>* buffer,
153 FlushResult* result) {
154 DCHECK(thread_checker_.CalledOnValidThread());
155 DCHECK(buffer->size());
157 *result = FLUSH_RESULT_SUCCESS;
159 std::vector<uint8> compressed_buffer;
160 if (!Compress(buffer, &compressed_buffer)) {
161 DVLOG(2) << "Compressing buffer failed.";
162 *result = FLUSH_RESULT_FAILURE;
163 return 0;
166 int bytes_written = -1;
168 if (base::PathExists(dump_path_)) {
169 bytes_written =
170 base::AppendToFile(dump_path_,
171 reinterpret_cast<const char*>(
172 vector_as_array(&compressed_buffer)),
173 compressed_buffer.size())
174 ? compressed_buffer.size()
175 : -1;
176 } else {
177 bytes_written = base::WriteFile(
178 dump_path_,
179 reinterpret_cast<const char*>(&compressed_buffer[0]),
180 compressed_buffer.size());
183 if (bytes_written == -1) {
184 DVLOG(2) << "Writing file failed: " << dump_path_.value();
185 *result = FLUSH_RESULT_FAILURE;
186 return 0;
189 DCHECK_EQ(static_cast<size_t>(bytes_written), compressed_buffer.size());
190 return bytes_written;
193 // Compresses |input| into |output|.
194 bool Compress(std::vector<uint8>* input, std::vector<uint8>* output) {
195 DCHECK(thread_checker_.CalledOnValidThread());
196 int result = Z_OK;
198 output->resize(std::max(kMinimumGzipOutputBufferSize, input->size()));
200 stream_.next_in = &(*input)[0];
201 stream_.avail_in = input->size();
202 stream_.next_out = &(*output)[0];
203 stream_.avail_out = output->size();
205 result = deflate(&stream_, Z_SYNC_FLUSH);
206 DCHECK_EQ(Z_OK, result);
207 DCHECK_EQ(0U, stream_.avail_in);
209 output->resize(output->size() - stream_.avail_out);
211 stream_.next_in = NULL;
212 stream_.next_out = NULL;
213 stream_.avail_out = 0;
214 return true;
217 // Ends the compression stream and completes the dump file.
218 bool EndDumpFile() {
219 DCHECK(thread_checker_.CalledOnValidThread());
221 std::vector<uint8> output_buffer;
222 output_buffer.resize(kMinimumGzipOutputBufferSize);
224 stream_.next_in = NULL;
225 stream_.avail_in = 0;
226 stream_.next_out = &output_buffer[0];
227 stream_.avail_out = output_buffer.size();
229 int result = deflate(&stream_, Z_FINISH);
230 DCHECK_EQ(Z_STREAM_END, result);
232 result = deflateEnd(&stream_);
233 DCHECK_EQ(Z_OK, result);
235 output_buffer.resize(output_buffer.size() - stream_.avail_out);
237 memset(&stream_, 0, sizeof(z_stream));
239 DCHECK(!output_buffer.empty());
240 return base::AppendToFile(dump_path_,
241 reinterpret_cast<const char*>(
242 vector_as_array(&output_buffer)),
243 output_buffer.size());
246 const base::FilePath dump_path_;
248 z_stream stream_;
250 base::ThreadChecker thread_checker_;
252 DISALLOW_COPY_AND_ASSIGN(FileThreadWorker);
255 WebRtcRtpDumpWriter::WebRtcRtpDumpWriter(
256 const base::FilePath& incoming_dump_path,
257 const base::FilePath& outgoing_dump_path,
258 size_t max_dump_size,
259 const base::Closure& max_dump_size_reached_callback)
260 : max_dump_size_(max_dump_size),
261 max_dump_size_reached_callback_(max_dump_size_reached_callback),
262 total_dump_size_on_disk_(0),
263 incoming_file_thread_worker_(new FileThreadWorker(incoming_dump_path)),
264 outgoing_file_thread_worker_(new FileThreadWorker(outgoing_dump_path)),
265 weak_ptr_factory_(this) {
268 WebRtcRtpDumpWriter::~WebRtcRtpDumpWriter() {
269 DCHECK(thread_checker_.CalledOnValidThread());
271 bool success = BrowserThread::DeleteSoon(
272 BrowserThread::FILE, FROM_HERE, incoming_file_thread_worker_.release());
273 DCHECK(success);
275 success = BrowserThread::DeleteSoon(
276 BrowserThread::FILE, FROM_HERE, outgoing_file_thread_worker_.release());
277 DCHECK(success);
280 void WebRtcRtpDumpWriter::WriteRtpPacket(const uint8* packet_header,
281 size_t header_length,
282 size_t packet_length,
283 bool incoming) {
284 DCHECK(thread_checker_.CalledOnValidThread());
286 static const size_t kMaxInMemoryBufferSize = 65536;
288 std::vector<uint8>* dest_buffer =
289 incoming ? &incoming_buffer_ : &outgoing_buffer_;
291 // We use the capacity of the buffer to indicate if the buffer has been
292 // initialized and if the dump file header has been created.
293 if (!dest_buffer->capacity()) {
294 dest_buffer->reserve(std::min(kMaxInMemoryBufferSize, max_dump_size_));
296 start_time_ = base::TimeTicks::Now();
298 // Writes the dump file header.
299 AppendToBuffer(kRtpDumpFileHeaderFirstLine,
300 arraysize(kRtpDumpFileHeaderFirstLine) - 1,
301 dest_buffer);
302 WriteRtpDumpFileHeaderBigEndian(start_time_, dest_buffer);
305 size_t packet_dump_length = kPacketDumpHeaderSize + header_length;
307 // Flushes the buffer to disk if the buffer is full.
308 if (dest_buffer->size() + packet_dump_length > dest_buffer->capacity())
309 FlushBuffer(incoming, false, FlushDoneCallback());
311 WritePacketDumpHeaderBigEndian(
312 start_time_, packet_dump_length, packet_length, dest_buffer);
314 // Writes the actual RTP packet header.
315 AppendToBuffer(packet_header, header_length, dest_buffer);
318 void WebRtcRtpDumpWriter::EndDump(RtpDumpType type,
319 const EndDumpCallback& finished_callback) {
320 DCHECK(thread_checker_.CalledOnValidThread());
321 DCHECK(type == RTP_DUMP_OUTGOING || incoming_file_thread_worker_ != NULL);
322 DCHECK(type == RTP_DUMP_INCOMING || outgoing_file_thread_worker_ != NULL);
324 bool incoming = (type == RTP_DUMP_BOTH || type == RTP_DUMP_INCOMING);
325 EndDumpContext context(type, finished_callback);
327 // End the incoming dump first if required. OnDumpEnded will continue to end
328 // the outgoing dump if necessary.
329 FlushBuffer(incoming,
330 true,
331 base::Bind(&WebRtcRtpDumpWriter::OnDumpEnded,
332 weak_ptr_factory_.GetWeakPtr(),
333 context,
334 incoming));
337 size_t WebRtcRtpDumpWriter::max_dump_size() const {
338 DCHECK(thread_checker_.CalledOnValidThread());
339 return max_dump_size_;
342 WebRtcRtpDumpWriter::EndDumpContext::EndDumpContext(
343 RtpDumpType type,
344 const EndDumpCallback& callback)
345 : type(type),
346 incoming_succeeded(false),
347 outgoing_succeeded(false),
348 callback(callback) {
351 WebRtcRtpDumpWriter::EndDumpContext::~EndDumpContext() {
354 void WebRtcRtpDumpWriter::FlushBuffer(bool incoming,
355 bool end_stream,
356 const FlushDoneCallback& callback) {
357 DCHECK(thread_checker_.CalledOnValidThread());
359 scoped_ptr<std::vector<uint8> > new_buffer(new std::vector<uint8>());
361 if (incoming) {
362 new_buffer->reserve(incoming_buffer_.capacity());
363 new_buffer->swap(incoming_buffer_);
364 } else {
365 new_buffer->reserve(outgoing_buffer_.capacity());
366 new_buffer->swap(outgoing_buffer_);
369 scoped_ptr<FlushResult> result(new FlushResult(FLUSH_RESULT_FAILURE));
371 scoped_ptr<size_t> bytes_written(new size_t(0));
373 FileThreadWorker* worker = incoming ? incoming_file_thread_worker_.get()
374 : outgoing_file_thread_worker_.get();
376 // Using "Unretained(worker)" because |worker| is owner by this object and it
377 // guaranteed to be deleted on the FILE thread before this object goes away.
378 base::Closure task =
379 base::Bind(&FileThreadWorker::CompressAndWriteToFileOnFileThread,
380 base::Unretained(worker),
381 Passed(&new_buffer),
382 end_stream,
383 result.get(),
384 bytes_written.get());
386 // OnFlushDone is necessary to avoid running the callback after this
387 // object is gone.
388 base::Closure reply = base::Bind(&WebRtcRtpDumpWriter::OnFlushDone,
389 weak_ptr_factory_.GetWeakPtr(),
390 callback,
391 Passed(&result),
392 Passed(&bytes_written));
394 // Define the task and reply outside the method call so that getting and
395 // passing the scoped_ptr does not depend on the argument evaluation order.
396 BrowserThread::PostTaskAndReply(BrowserThread::FILE, FROM_HERE, task, reply);
398 if (end_stream) {
399 bool success = BrowserThread::DeleteSoon(
400 BrowserThread::FILE,
401 FROM_HERE,
402 incoming ? incoming_file_thread_worker_.release()
403 : outgoing_file_thread_worker_.release());
404 DCHECK(success);
408 void WebRtcRtpDumpWriter::OnFlushDone(const FlushDoneCallback& callback,
409 const scoped_ptr<FlushResult>& result,
410 const scoped_ptr<size_t>& bytes_written) {
411 DCHECK(thread_checker_.CalledOnValidThread());
413 total_dump_size_on_disk_ += *bytes_written;
415 if (total_dump_size_on_disk_ >= max_dump_size_ &&
416 !max_dump_size_reached_callback_.is_null()) {
417 max_dump_size_reached_callback_.Run();
420 // Returns success for FLUSH_RESULT_MAX_SIZE_REACHED since the dump is still
421 // valid.
422 if (!callback.is_null()) {
423 callback.Run(*result != FLUSH_RESULT_FAILURE &&
424 *result != FLUSH_RESULT_NO_DATA);
428 void WebRtcRtpDumpWriter::OnDumpEnded(EndDumpContext context,
429 bool incoming,
430 bool success) {
431 DCHECK(thread_checker_.CalledOnValidThread());
433 DVLOG(2) << "Dump ended, incoming = " << incoming
434 << ", succeeded = " << success;
436 if (incoming)
437 context.incoming_succeeded = success;
438 else
439 context.outgoing_succeeded = success;
441 // End the outgoing dump if needed.
442 if (incoming && context.type == RTP_DUMP_BOTH) {
443 FlushBuffer(false,
444 true,
445 base::Bind(&WebRtcRtpDumpWriter::OnDumpEnded,
446 weak_ptr_factory_.GetWeakPtr(),
447 context,
448 false));
449 return;
452 // This object might be deleted after running the callback.
453 context.callback.Run(context.incoming_succeeded, context.outgoing_succeeded);