1 /* 2 * libjingle 3 * Copyright 2004--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_BASE_STREAM_H__ 29 #define TALK_BASE_STREAM_H__ 30 31 #include "talk/base/basictypes.h" 32 #include "talk/base/criticalsection.h" 33 #include "talk/base/logging.h" 34 #include "talk/base/messagehandler.h" 35 #include "talk/base/scoped_ptr.h" 36 #include "talk/base/sigslot.h" 37 38 namespace talk_base { 39 40 /////////////////////////////////////////////////////////////////////////////// 41 // StreamInterface is a generic asynchronous stream interface, supporting read, 42 // write, and close operations, and asynchronous signalling of state changes. 43 // The interface is designed with file, memory, and socket implementations in 44 // mind. Some implementations offer extended operations, such as seeking. 45 /////////////////////////////////////////////////////////////////////////////// 46 47 // The following enumerations are declared outside of the StreamInterface 48 // class for brevity in use. 49 50 // The SS_OPENING state indicates that the stream will signal open or closed 51 // in the future. 52 enum StreamState { SS_CLOSED, SS_OPENING, SS_OPEN }; 53 54 // Stream read/write methods return this value to indicate various success 55 // and failure conditions described below. 56 enum StreamResult { SR_ERROR, SR_SUCCESS, SR_BLOCK, SR_EOS }; 57 58 // StreamEvents are used to asynchronously signal state transitionss. The flags 59 // may be combined. 60 // SE_OPEN: The stream has transitioned to the SS_OPEN state 61 // SE_CLOSE: The stream has transitioned to the SS_CLOSED state 62 // SE_READ: Data is available, so Read is likely to not return SR_BLOCK 63 // SE_WRITE: Data can be written, so Write is likely to not return SR_BLOCK 64 enum StreamEvent { SE_OPEN = 1, SE_READ = 2, SE_WRITE = 4, SE_CLOSE = 8 }; 65 66 class Thread; 67 68 class StreamInterface : public MessageHandler { 69 public: 70 virtual ~StreamInterface(); 71 72 virtual StreamState GetState() const = 0; 73 74 // Read attempts to fill buffer of size buffer_len. Write attempts to send 75 // data_len bytes stored in data. The variables read and write are set only 76 // on SR_SUCCESS (see below). Likewise, error is only set on SR_ERROR. 77 // Read and Write return a value indicating: 78 // SR_ERROR: an error occurred, which is returned in a non-null error 79 // argument. Interpretation of the error requires knowledge of the 80 // stream's concrete type, which limits its usefulness. 81 // SR_SUCCESS: some number of bytes were successfully written, which is 82 // returned in a non-null read/write argument. 83 // SR_BLOCK: the stream is in non-blocking mode, and the operation would 84 // block, or the stream is in SS_OPENING state. 85 // SR_EOS: the end-of-stream has been reached, or the stream is in the 86 // SS_CLOSED state. 87 virtual StreamResult Read(void* buffer, size_t buffer_len, 88 size_t* read, int* error) = 0; 89 virtual StreamResult Write(const void* data, size_t data_len, 90 size_t* written, int* error) = 0; 91 // Attempt to transition to the SS_CLOSED state. SE_CLOSE will not be 92 // signalled as a result of this call. 93 virtual void Close() = 0; 94 95 // Streams may signal one or more StreamEvents to indicate state changes. 96 // The first argument identifies the stream on which the state change occured. 97 // The second argument is a bit-wise combination of StreamEvents. 98 // If SE_CLOSE is signalled, then the third argument is the associated error 99 // code. Otherwise, the value is undefined. 100 // Note: Not all streams will support asynchronous event signalling. However, 101 // SS_OPENING and SR_BLOCK returned from stream member functions imply that 102 // certain events will be raised in the future. 103 sigslot::signal3<StreamInterface*, int, int> SignalEvent; 104 105 // Like calling SignalEvent, but posts a message to the specified thread, 106 // which will call SignalEvent. This helps unroll the stack and prevent 107 // re-entrancy. 108 void PostEvent(Thread* t, int events, int err); 109 // Like the aforementioned method, but posts to the current thread. 110 void PostEvent(int events, int err); 111 112 // 113 // OPTIONAL OPERATIONS 114 // 115 // Not all implementations will support the following operations. In general, 116 // a stream will only support an operation if it reasonably efficient to do 117 // so. For example, while a socket could buffer incoming data to support 118 // seeking, it will not do so. Instead, a buffering stream adapter should 119 // be used. 120 // 121 // Even though several of these operations are related, you should 122 // always use whichever operation is most relevant. For example, you may 123 // be tempted to use GetSize() and GetPosition() to deduce the result of 124 // GetAvailable(). However, a stream which is read-once may support the 125 // latter operation but not the former. 126 // 127 128 // The following four methods are used to avoid coping data multiple times. 129 130 // GetReadData returns a pointer to a buffer which is owned by the stream. 131 // The buffer contains data_len bytes. NULL is returned if no data is 132 // available, or if the method fails. If the caller processes the data, it 133 // must call ConsumeReadData with the number of processed bytes. GetReadData 134 // does not require a matching call to ConsumeReadData if the data is not 135 // processed. Read and ConsumeReadData invalidate the buffer returned by 136 // GetReadData. GetReadData(size_t * data_len)137 virtual const void* GetReadData(size_t* data_len) { return NULL; } ConsumeReadData(size_t used)138 virtual void ConsumeReadData(size_t used) {} 139 140 // GetWriteBuffer returns a pointer to a buffer which is owned by the stream. 141 // The buffer has a capacity of buf_len bytes. NULL is returned if there is 142 // no buffer available, or if the method fails. The call may write data to 143 // the buffer, and then call ConsumeWriteBuffer with the number of bytes 144 // written. GetWriteBuffer does not require a matching call to 145 // ConsumeWriteData if no data is written. Write, ForceWrite, and 146 // ConsumeWriteData invalidate the buffer returned by GetWriteBuffer. 147 // TODO: Allow the caller to specify a minimum buffer size. If the specified 148 // amount of buffer is not yet available, return NULL and Signal SE_WRITE 149 // when it is available. If the requested amount is too large, return an 150 // error. GetWriteBuffer(size_t * buf_len)151 virtual void* GetWriteBuffer(size_t* buf_len) { return NULL; } ConsumeWriteBuffer(size_t used)152 virtual void ConsumeWriteBuffer(size_t used) {} 153 154 // Write data_len bytes found in data, circumventing any throttling which 155 // would could cause SR_BLOCK to be returned. Returns true if all the data 156 // was written. Otherwise, the method is unsupported, or an unrecoverable 157 // error occurred, and the error value is set. This method should be used 158 // sparingly to write critical data which should not be throttled. A stream 159 // which cannot circumvent its blocking constraints should not implement this 160 // method. 161 // NOTE: This interface is being considered experimentally at the moment. It 162 // would be used by JUDP and BandwidthStream as a way to circumvent certain 163 // soft limits in writing. 164 //virtual bool ForceWrite(const void* data, size_t data_len, int* error) { 165 // if (error) *error = -1; 166 // return false; 167 //} 168 169 // Seek to a byte offset from the beginning of the stream. Returns false if 170 // the stream does not support seeking, or cannot seek to the specified 171 // position. SetPosition(size_t position)172 virtual bool SetPosition(size_t position) { return false; } 173 174 // Get the byte offset of the current position from the start of the stream. 175 // Returns false if the position is not known. GetPosition(size_t * position)176 virtual bool GetPosition(size_t* position) const { return false; } 177 178 // Get the byte length of the entire stream. Returns false if the length 179 // is not known. GetSize(size_t * size)180 virtual bool GetSize(size_t* size) const { return false; } 181 182 // Return the number of Read()-able bytes remaining before end-of-stream. 183 // Returns false if not known. GetAvailable(size_t * size)184 virtual bool GetAvailable(size_t* size) const { return false; } 185 186 // Return the number of Write()-able bytes remaining before end-of-stream. 187 // Returns false if not known. GetWriteRemaining(size_t * size)188 virtual bool GetWriteRemaining(size_t* size) const { return false; } 189 190 // Communicates the amount of data which will be written to the stream. The 191 // stream may choose to preallocate memory to accomodate this data. The 192 // stream may return false to indicate that there is not enough room (ie, 193 // Write will return SR_EOS/SR_ERROR at some point). Note that calling this 194 // function should not affect the existing state of data in the stream. ReserveSize(size_t size)195 virtual bool ReserveSize(size_t size) { return true; } 196 197 // 198 // CONVENIENCE METHODS 199 // 200 // These methods are implemented in terms of other methods, for convenience. 201 // 202 203 // Seek to the start of the stream. Rewind()204 inline bool Rewind() { return SetPosition(0); } 205 206 // WriteAll is a helper function which repeatedly calls Write until all the 207 // data is written, or something other than SR_SUCCESS is returned. Note that 208 // unlike Write, the argument 'written' is always set, and may be non-zero 209 // on results other than SR_SUCCESS. The remaining arguments have the 210 // same semantics as Write. 211 StreamResult WriteAll(const void* data, size_t data_len, 212 size_t* written, int* error); 213 214 // Similar to ReadAll. Calls Read until buffer_len bytes have been read, or 215 // until a non-SR_SUCCESS result is returned. 'read' is always set. 216 StreamResult ReadAll(void* buffer, size_t buffer_len, 217 size_t* read, int* error); 218 219 // ReadLine is a helper function which repeatedly calls Read until it hits 220 // the end-of-line character, or something other than SR_SUCCESS. 221 // TODO: this is too inefficient to keep here. Break this out into a buffered 222 // readline object or adapter 223 StreamResult ReadLine(std::string *line); 224 225 protected: 226 StreamInterface(); 227 228 // MessageHandler Interface 229 virtual void OnMessage(Message* msg); 230 231 private: 232 DISALLOW_EVIL_CONSTRUCTORS(StreamInterface); 233 }; 234 235 /////////////////////////////////////////////////////////////////////////////// 236 // StreamAdapterInterface is a convenient base-class for adapting a stream. 237 // By default, all operations are pass-through. Override the methods that you 238 // require adaptation. Streams should really be upgraded to reference-counted. 239 // In the meantime, use the owned flag to indicate whether the adapter should 240 // own the adapted stream. 241 /////////////////////////////////////////////////////////////////////////////// 242 243 class StreamAdapterInterface : public StreamInterface, 244 public sigslot::has_slots<> { 245 public: 246 explicit StreamAdapterInterface(StreamInterface* stream, bool owned = true); 247 248 // Core Stream Interface GetState()249 virtual StreamState GetState() const { 250 return stream_->GetState(); 251 } Read(void * buffer,size_t buffer_len,size_t * read,int * error)252 virtual StreamResult Read(void* buffer, size_t buffer_len, 253 size_t* read, int* error) { 254 return stream_->Read(buffer, buffer_len, read, error); 255 } Write(const void * data,size_t data_len,size_t * written,int * error)256 virtual StreamResult Write(const void* data, size_t data_len, 257 size_t* written, int* error) { 258 return stream_->Write(data, data_len, written, error); 259 } Close()260 virtual void Close() { 261 stream_->Close(); 262 } 263 264 // Optional Stream Interface 265 /* Note: Many stream adapters were implemented prior to this Read/Write 266 interface. Therefore, a simple pass through of data in those cases may 267 be broken. At a later time, we should do a once-over pass of all 268 adapters, and make them compliant with these interfaces, after which this 269 code can be uncommented. 270 virtual const void* GetReadData(size_t* data_len) { 271 return stream_->GetReadData(data_len); 272 } 273 virtual void ConsumeReadData(size_t used) { 274 stream_->ConsumeReadData(used); 275 } 276 277 virtual void* GetWriteBuffer(size_t* buf_len) { 278 return stream_->GetWriteBuffer(buf_len); 279 } 280 virtual void ConsumeWriteBuffer(size_t used) { 281 stream_->ConsumeWriteBuffer(used); 282 } 283 */ 284 285 /* Note: This interface is currently undergoing evaluation. 286 virtual bool ForceWrite(const void* data, size_t data_len, int* error) { 287 return stream_->ForceWrite(data, data_len, error); 288 } 289 */ 290 SetPosition(size_t position)291 virtual bool SetPosition(size_t position) { 292 return stream_->SetPosition(position); 293 } GetPosition(size_t * position)294 virtual bool GetPosition(size_t* position) const { 295 return stream_->GetPosition(position); 296 } GetSize(size_t * size)297 virtual bool GetSize(size_t* size) const { 298 return stream_->GetSize(size); 299 } GetAvailable(size_t * size)300 virtual bool GetAvailable(size_t* size) const { 301 return stream_->GetAvailable(size); 302 } GetWriteRemaining(size_t * size)303 virtual bool GetWriteRemaining(size_t* size) const { 304 return stream_->GetWriteRemaining(size); 305 } ReserveSize(size_t size)306 virtual bool ReserveSize(size_t size) { 307 return stream_->ReserveSize(size); 308 } 309 310 void Attach(StreamInterface* stream, bool owned = true); 311 StreamInterface* Detach(); 312 313 protected: 314 virtual ~StreamAdapterInterface(); 315 316 // Note that the adapter presents itself as the origin of the stream events, 317 // since users of the adapter may not recognize the adapted object. OnEvent(StreamInterface * stream,int events,int err)318 virtual void OnEvent(StreamInterface* stream, int events, int err) { 319 SignalEvent(this, events, err); 320 } stream()321 StreamInterface* stream() { return stream_; } 322 323 private: 324 StreamInterface* stream_; 325 bool owned_; 326 DISALLOW_EVIL_CONSTRUCTORS(StreamAdapterInterface); 327 }; 328 329 /////////////////////////////////////////////////////////////////////////////// 330 // StreamTap is a non-modifying, pass-through adapter, which copies all data 331 // in either direction to the tap. Note that errors or blocking on writing to 332 // the tap will prevent further tap writes from occurring. 333 /////////////////////////////////////////////////////////////////////////////// 334 335 class StreamTap : public StreamAdapterInterface { 336 public: 337 explicit StreamTap(StreamInterface* stream, StreamInterface* tap); 338 339 void AttachTap(StreamInterface* tap); 340 StreamInterface* DetachTap(); 341 StreamResult GetTapResult(int* error); 342 343 // StreamAdapterInterface Interface 344 virtual StreamResult Read(void* buffer, size_t buffer_len, 345 size_t* read, int* error); 346 virtual StreamResult Write(const void* data, size_t data_len, 347 size_t* written, int* error); 348 349 private: 350 scoped_ptr<StreamInterface> tap_; 351 StreamResult tap_result_; 352 int tap_error_; 353 DISALLOW_EVIL_CONSTRUCTORS(StreamTap); 354 }; 355 356 /////////////////////////////////////////////////////////////////////////////// 357 // StreamSegment adapts a read stream, to expose a subset of the adapted 358 // stream's data. This is useful for cases where a stream contains multiple 359 // documents concatenated together. StreamSegment can expose a subset of 360 // the data as an independent stream, including support for rewinding and 361 // seeking. 362 /////////////////////////////////////////////////////////////////////////////// 363 364 class StreamSegment : public StreamAdapterInterface { 365 public: 366 // The current position of the adapted stream becomes the beginning of the 367 // segment. If a length is specified, it bounds the length of the segment. 368 explicit StreamSegment(StreamInterface* stream); 369 explicit StreamSegment(StreamInterface* stream, size_t length); 370 371 // StreamAdapterInterface Interface 372 virtual StreamResult Read(void* buffer, size_t buffer_len, 373 size_t* read, int* error); 374 virtual bool SetPosition(size_t position); 375 virtual bool GetPosition(size_t* position) const; 376 virtual bool GetSize(size_t* size) const; 377 virtual bool GetAvailable(size_t* size) const; 378 379 private: 380 size_t start_, pos_, length_; 381 DISALLOW_EVIL_CONSTRUCTORS(StreamSegment); 382 }; 383 384 /////////////////////////////////////////////////////////////////////////////// 385 // NullStream gives errors on read, and silently discards all written data. 386 /////////////////////////////////////////////////////////////////////////////// 387 388 class NullStream : public StreamInterface { 389 public: 390 NullStream(); 391 virtual ~NullStream(); 392 393 // StreamInterface Interface 394 virtual StreamState GetState() const; 395 virtual StreamResult Read(void* buffer, size_t buffer_len, 396 size_t* read, int* error); 397 virtual StreamResult Write(const void* data, size_t data_len, 398 size_t* written, int* error); 399 virtual void Close(); 400 }; 401 402 /////////////////////////////////////////////////////////////////////////////// 403 // FileStream is a simple implementation of a StreamInterface, which does not 404 // support asynchronous notification. 405 /////////////////////////////////////////////////////////////////////////////// 406 407 class FileStream : public StreamInterface { 408 public: 409 FileStream(); 410 virtual ~FileStream(); 411 412 // The semantics of filename and mode are the same as stdio's fopen 413 virtual bool Open(const std::string& filename, const char* mode); 414 virtual bool OpenShare(const std::string& filename, const char* mode, 415 int shflag); 416 417 // By default, reads and writes are buffered for efficiency. Disabling 418 // buffering causes writes to block until the bytes on disk are updated. 419 virtual bool DisableBuffering(); 420 421 virtual StreamState GetState() const; 422 virtual StreamResult Read(void* buffer, size_t buffer_len, 423 size_t* read, int* error); 424 virtual StreamResult Write(const void* data, size_t data_len, 425 size_t* written, int* error); 426 virtual void Close(); 427 virtual bool SetPosition(size_t position); 428 virtual bool GetPosition(size_t* position) const; 429 virtual bool GetSize(size_t* size) const; 430 virtual bool GetAvailable(size_t* size) const; 431 virtual bool ReserveSize(size_t size); 432 433 bool Flush(); 434 435 #if defined(POSIX) 436 // Tries to aquire an exclusive lock on the file. 437 // Use OpenShare(...) on win32 to get similar functionality. 438 bool TryLock(); 439 bool Unlock(); 440 #endif 441 442 // Note: Deprecated in favor of Filesystem::GetFileSize(). 443 static bool GetSize(const std::string& filename, size_t* size); 444 445 protected: 446 virtual void DoClose(); 447 448 FILE* file_; 449 450 private: 451 DISALLOW_EVIL_CONSTRUCTORS(FileStream); 452 }; 453 454 #ifdef POSIX 455 // A FileStream that is actually not a file, but the output or input of a 456 // sub-command. See "man 3 popen" for documentation of the underlying OS popen() 457 // function. 458 class POpenStream : public FileStream { 459 public: POpenStream()460 POpenStream() : wait_status_(-1) {} 461 virtual ~POpenStream(); 462 463 virtual bool Open(const std::string& subcommand, const char* mode); 464 // Same as Open(). shflag is ignored. 465 virtual bool OpenShare(const std::string& subcommand, const char* mode, 466 int shflag); 467 468 // Returns the wait status from the last Close() of an Open()'ed stream, or 469 // -1 if no Open()+Close() has been done on this object. Meaning of the number 470 // is documented in "man 2 wait". GetWaitStatus()471 int GetWaitStatus() const { return wait_status_; } 472 473 protected: 474 virtual void DoClose(); 475 476 private: 477 int wait_status_; 478 }; 479 #endif // POSIX 480 481 /////////////////////////////////////////////////////////////////////////////// 482 // MemoryStream is a simple implementation of a StreamInterface over in-memory 483 // data. Data is read and written at the current seek position. Reads return 484 // end-of-stream when they reach the end of data. Writes actually extend the 485 // end of data mark. 486 /////////////////////////////////////////////////////////////////////////////// 487 488 class MemoryStreamBase : public StreamInterface { 489 public: 490 virtual StreamState GetState() const; 491 virtual StreamResult Read(void* buffer, size_t bytes, size_t* bytes_read, 492 int* error); 493 virtual StreamResult Write(const void* buffer, size_t bytes, 494 size_t* bytes_written, int* error); 495 virtual void Close(); 496 virtual bool SetPosition(size_t position); 497 virtual bool GetPosition(size_t* position) const; 498 virtual bool GetSize(size_t* size) const; 499 virtual bool GetAvailable(size_t* size) const; 500 virtual bool ReserveSize(size_t size); 501 GetBuffer()502 char* GetBuffer() { return buffer_; } GetBuffer()503 const char* GetBuffer() const { return buffer_; } 504 505 protected: 506 MemoryStreamBase(); 507 508 virtual StreamResult DoReserve(size_t size, int* error); 509 510 // Invariant: 0 <= seek_position <= data_length_ <= buffer_length_ 511 char* buffer_; 512 size_t buffer_length_; 513 size_t data_length_; 514 size_t seek_position_; 515 516 private: 517 DISALLOW_EVIL_CONSTRUCTORS(MemoryStreamBase); 518 }; 519 520 // MemoryStream dynamically resizes to accomodate written data. 521 522 class MemoryStream : public MemoryStreamBase { 523 public: 524 MemoryStream(); 525 explicit MemoryStream(const char* data); // Calls SetData(data, strlen(data)) 526 MemoryStream(const void* data, size_t length); // Calls SetData(data, length) 527 virtual ~MemoryStream(); 528 529 void SetData(const void* data, size_t length); 530 531 protected: 532 virtual StreamResult DoReserve(size_t size, int* error); 533 // Memory Streams are aligned for efficiency. 534 static const int kAlignment = 16; 535 char* buffer_alloc_; 536 }; 537 538 // ExternalMemoryStream adapts an external memory buffer, so writes which would 539 // extend past the end of the buffer will return end-of-stream. 540 541 class ExternalMemoryStream : public MemoryStreamBase { 542 public: 543 ExternalMemoryStream(); 544 ExternalMemoryStream(void* data, size_t length); 545 virtual ~ExternalMemoryStream(); 546 547 void SetData(void* data, size_t length); 548 }; 549 550 // FifoBuffer allows for efficient, thread-safe buffering of data between 551 // writer and reader. As the data can wrap around the end of the buffer, 552 // MemoryStreamBase can't help us here. 553 554 class FifoBuffer : public StreamInterface { 555 public: 556 // Creates a FIFO buffer with the specified capacity. 557 explicit FifoBuffer(size_t length); 558 virtual ~FifoBuffer(); 559 // Gets the amount of data currently readable from the buffer. 560 bool GetBuffered(size_t* data_len) const; 561 // Resizes the buffer to the specified capacity. Fails if data_length_ > size 562 bool SetCapacity(size_t length); 563 564 // StreamInterface methods 565 virtual StreamState GetState() const; 566 virtual StreamResult Read(void* buffer, size_t bytes, 567 size_t* bytes_read, int* error); 568 virtual StreamResult Write(const void* buffer, size_t bytes, 569 size_t* bytes_written, int* error); 570 virtual void Close(); 571 virtual const void* GetReadData(size_t* data_len); 572 virtual void ConsumeReadData(size_t used); 573 virtual void* GetWriteBuffer(size_t *buf_len); 574 virtual void ConsumeWriteBuffer(size_t used); 575 576 private: 577 StreamState state_; // keeps the opened/closed state of the stream 578 scoped_array<char> buffer_; // the allocated buffer 579 size_t buffer_length_; // size of the allocated buffer 580 size_t data_length_; // amount of readable data in the buffer 581 size_t read_position_; // offset to the readable data 582 Thread* owner_; // stream callbacks are dispatched on this thread 583 mutable CriticalSection crit_; // object lock 584 DISALLOW_EVIL_CONSTRUCTORS(FifoBuffer); 585 }; 586 587 /////////////////////////////////////////////////////////////////////////////// 588 589 class LoggingAdapter : public StreamAdapterInterface { 590 public: 591 LoggingAdapter(StreamInterface* stream, LoggingSeverity level, 592 const std::string& label, bool hex_mode = false); 593 594 void set_label(const std::string& label); 595 596 virtual StreamResult Read(void* buffer, size_t buffer_len, 597 size_t* read, int* error); 598 virtual StreamResult Write(const void* data, size_t data_len, 599 size_t* written, int* error); 600 virtual void Close(); 601 602 protected: 603 virtual void OnEvent(StreamInterface* stream, int events, int err); 604 605 private: 606 LoggingSeverity level_; 607 std::string label_; 608 bool hex_mode_; 609 LogMultilineState lms_; 610 611 DISALLOW_EVIL_CONSTRUCTORS(LoggingAdapter); 612 }; 613 614 /////////////////////////////////////////////////////////////////////////////// 615 // StringStream - Reads/Writes to an external std::string 616 /////////////////////////////////////////////////////////////////////////////// 617 618 class StringStream : public StreamInterface { 619 public: 620 explicit StringStream(std::string& str); 621 explicit StringStream(const std::string& str); 622 623 virtual StreamState GetState() const; 624 virtual StreamResult Read(void* buffer, size_t buffer_len, 625 size_t* read, int* error); 626 virtual StreamResult Write(const void* data, size_t data_len, 627 size_t* written, int* error); 628 virtual void Close(); 629 virtual bool SetPosition(size_t position); 630 virtual bool GetPosition(size_t* position) const; 631 virtual bool GetSize(size_t* size) const; 632 virtual bool GetAvailable(size_t* size) const; 633 virtual bool ReserveSize(size_t size); 634 635 private: 636 std::string& str_; 637 size_t read_pos_; 638 bool read_only_; 639 }; 640 641 /////////////////////////////////////////////////////////////////////////////// 642 // StreamReference - A reference counting stream adapter 643 /////////////////////////////////////////////////////////////////////////////// 644 645 // Keep in mind that the streams and adapters defined in this file are 646 // not thread-safe, so this has limited uses. 647 648 // A StreamRefCount holds the reference count and a pointer to the 649 // wrapped stream. It deletes the wrapped stream when there are no 650 // more references. We can then have multiple StreamReference 651 // instances pointing to one StreamRefCount, all wrapping the same 652 // stream. 653 654 class StreamReference : public StreamAdapterInterface { 655 class StreamRefCount; 656 public: 657 // Constructor for the first reference to a stream 658 // Note: get more references through NewReference(). Use this 659 // constructor only once on a given stream. 660 explicit StreamReference(StreamInterface* stream); GetStream()661 StreamInterface* GetStream() { return stream(); } 662 StreamInterface* NewReference(); 663 virtual ~StreamReference(); 664 665 private: 666 class StreamRefCount { 667 public: StreamRefCount(StreamInterface * stream)668 explicit StreamRefCount(StreamInterface* stream) 669 : stream_(stream), ref_count_(1) { 670 } AddReference()671 void AddReference() { 672 CritScope lock(&cs_); 673 ++ref_count_; 674 } Release()675 void Release() { 676 int ref_count; 677 { // Atomic ops would have been a better fit here. 678 CritScope lock(&cs_); 679 ref_count = --ref_count_; 680 } 681 if (ref_count == 0) { 682 delete stream_; 683 delete this; 684 } 685 } 686 private: 687 StreamInterface* stream_; 688 int ref_count_; 689 CriticalSection cs_; 690 DISALLOW_EVIL_CONSTRUCTORS(StreamRefCount); 691 }; 692 693 // Constructor for adding references 694 explicit StreamReference(StreamRefCount* stream_ref_count, 695 StreamInterface* stream); 696 697 StreamRefCount* stream_ref_count_; 698 DISALLOW_EVIL_CONSTRUCTORS(StreamReference); 699 }; 700 701 /////////////////////////////////////////////////////////////////////////////// 702 703 // Flow attempts to move bytes from source to sink via buffer of size 704 // buffer_len. The function returns SR_SUCCESS when source reaches 705 // end-of-stream (returns SR_EOS), and all the data has been written successful 706 // to sink. Alternately, if source returns SR_BLOCK or SR_ERROR, or if sink 707 // returns SR_BLOCK, SR_ERROR, or SR_EOS, then the function immediately returns 708 // with the unexpected StreamResult value. 709 // data_len is the length of the valid data in buffer. in case of error 710 // this is the data that read from source but can't move to destination. 711 // as a pass in parameter, it indicates data in buffer that should move to sink 712 StreamResult Flow(StreamInterface* source, 713 char* buffer, size_t buffer_len, 714 StreamInterface* sink, size_t* data_len = NULL); 715 716 /////////////////////////////////////////////////////////////////////////////// 717 718 } // namespace talk_base 719 720 #endif // TALK_BASE_STREAM_H__ 721