1 /* 2 * Copyright (C) 2013-2018 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 #ifndef ANDROID_SERVERS_CAMERA3_STREAM_H 18 #define ANDROID_SERVERS_CAMERA3_STREAM_H 19 20 #include <gui/Surface.h> 21 #include <utils/RefBase.h> 22 #include <utils/String8.h> 23 #include <utils/String16.h> 24 #include <utils/List.h> 25 26 #include "hardware/camera3.h" 27 28 #include "utils/LatencyHistogram.h" 29 #include "Camera3StreamBufferListener.h" 30 #include "Camera3StreamInterface.h" 31 32 namespace android { 33 34 namespace camera3 { 35 36 /** 37 * A class for managing a single stream of input or output data from the camera 38 * device. 39 * 40 * The stream has an internal state machine to track whether it's 41 * connected/configured/etc. 42 * 43 * States: 44 * 45 * STATE_ERROR: A serious error has occurred, stream is unusable. Outstanding 46 * buffers may still be returned. 47 * 48 * STATE_CONSTRUCTED: The stream is ready for configuration, but buffers cannot 49 * be gotten yet. Not connected to any endpoint, no buffers are registered 50 * with the HAL. 51 * 52 * STATE_IN_CONFIG: Configuration has started, but not yet concluded. During this 53 * time, the usage, max_buffers, and priv fields of camera3_stream returned by 54 * startConfiguration() may be modified. 55 * 56 * STATE_IN_RE_CONFIG: Configuration has started, and the stream has been 57 * configured before. Need to track separately from IN_CONFIG to avoid 58 * re-registering buffers with HAL. 59 * 60 * STATE_CONFIGURED: Stream is configured, and has registered buffers with the 61 * HAL (if necessary). The stream's getBuffer/returnBuffer work. The priv 62 * pointer may still be modified. 63 * 64 * STATE_PREPARING: The stream's buffers are being pre-allocated for use. On 65 * older HALs, this is done as part of configuration, but in newer HALs 66 * buffers may be allocated at time of first use. But some use cases require 67 * buffer allocation upfront, to minmize disruption due to lengthy allocation 68 * duration. In this state, only prepareNextBuffer() and cancelPrepare() 69 * may be called. 70 * 71 * STATE_IN_IDLE: This is a temporary state only intended to be used for input 72 * streams and only for the case where we need to re-configure the camera device 73 * while the input stream has an outstanding buffer. All other streams should not 74 * be able to switch to this state. For them this is invalid and should be handled 75 * as an unknown state. 76 * 77 * Transition table: 78 * 79 * <none> => STATE_CONSTRUCTED: 80 * When constructed with valid arguments 81 * <none> => STATE_ERROR: 82 * When constructed with invalid arguments 83 * STATE_CONSTRUCTED => STATE_IN_CONFIG: 84 * When startConfiguration() is called 85 * STATE_IN_CONFIG => STATE_CONFIGURED: 86 * When finishConfiguration() is called 87 * STATE_IN_CONFIG => STATE_ERROR: 88 * When finishConfiguration() fails to allocate or register buffers. 89 * STATE_CONFIGURED => STATE_IN_RE_CONFIG: * 90 * When startConfiguration() is called again, after making sure stream is 91 * idle with waitUntilIdle(). 92 * STATE_IN_RE_CONFIG => STATE_CONFIGURED: 93 * When finishConfiguration() is called. 94 * STATE_IN_RE_CONFIG => STATE_ERROR: 95 * When finishConfiguration() fails to allocate or register buffers. 96 * STATE_CONFIGURED => STATE_CONSTRUCTED: 97 * When disconnect() is called after making sure stream is idle with 98 * waitUntilIdle(). 99 * STATE_CONFIGURED => STATE_PREPARING: 100 * When startPrepare is called before the stream has a buffer 101 * queued back into it for the first time. 102 * STATE_PREPARING => STATE_CONFIGURED: 103 * When sufficient prepareNextBuffer calls have been made to allocate 104 * all stream buffers, or cancelPrepare is called. 105 * STATE_CONFIGURED => STATE_ABANDONED: 106 * When the buffer queue of the stream is abandoned. 107 * STATE_CONFIGURED => STATE_IN_IDLE: 108 * Only for an input stream which has an outstanding buffer. 109 * STATE_IN_IDLE => STATE_CONFIGURED: 110 * After the internal re-configuration, the input should revert back to 111 * the configured state. 112 * 113 * Status Tracking: 114 * Each stream is tracked by StatusTracker as a separate component, 115 * depending on the handed out buffer count. The state must be STATE_CONFIGURED 116 * in order for the component to be marked. 117 * 118 * It's marked in one of two ways: 119 * 120 * - ACTIVE: One or more buffers have been handed out (with #getBuffer). 121 * - IDLE: All buffers have been returned (with #returnBuffer), and their 122 * respective release_fence(s) have been signaled. The only exception to this 123 * rule is an input stream that moves to "STATE_IN_IDLE" during internal 124 * re-configuration. 125 * 126 * A typical use case is output streams. When the HAL has any buffers 127 * dequeued, the stream is marked ACTIVE. When the HAL returns all buffers 128 * (e.g. if no capture requests are active), the stream is marked IDLE. 129 * In this use case, the app consumer does not affect the component status. 130 * 131 */ 132 class Camera3Stream : 133 protected camera3_stream, 134 public virtual Camera3StreamInterface, 135 public virtual RefBase { 136 public: 137 138 virtual ~Camera3Stream(); 139 140 static Camera3Stream* cast(camera3_stream *stream); 141 static const Camera3Stream* cast(const camera3_stream *stream); 142 143 /** 144 * Get the stream's ID 145 */ 146 int getId() const; 147 148 /** 149 * Get the output stream set id. 150 */ 151 int getStreamSetId() const; 152 153 /** 154 * Get the stream's dimensions and format 155 */ 156 uint32_t getWidth() const; 157 uint32_t getHeight() const; 158 int getFormat() const; 159 android_dataspace getDataSpace() const; 160 uint64_t getUsage() const; 161 void setUsage(uint64_t usage); 162 void setFormatOverride(bool formatOverriden); 163 bool isFormatOverridden() const; 164 int getOriginalFormat() const; 165 void setDataSpaceOverride(bool dataSpaceOverriden); 166 bool isDataSpaceOverridden() const; 167 android_dataspace getOriginalDataSpace() const; 168 const String8& physicalCameraId() const; 169 asHalStream()170 camera3_stream* asHalStream() override { 171 return this; 172 } 173 174 /** 175 * Start the stream configuration process. Returns a handle to the stream's 176 * information to be passed into the HAL device's configure_streams call. 177 * 178 * Until finishConfiguration() is called, no other methods on the stream may be 179 * called. The usage and max_buffers fields of camera3_stream may be modified 180 * between start/finishConfiguration, but may not be changed after that. 181 * The priv field of camera3_stream may be modified at any time after 182 * startConfiguration. 183 * 184 * Returns NULL in case of error starting configuration. 185 */ 186 camera3_stream* startConfiguration(); 187 188 /** 189 * Check if the stream is mid-configuration (start has been called, but not 190 * finish). Used for lazy completion of configuration. 191 */ 192 bool isConfiguring() const; 193 194 /** 195 * Completes the stream configuration process. The stream information 196 * structure returned by startConfiguration() may no longer be modified 197 * after this call, but can still be read until the destruction of the 198 * stream. 199 * 200 * streamReconfigured: set to true when a stream is being reconfigured. 201 * 202 * Returns: 203 * OK on a successful configuration 204 * NO_INIT in case of a serious error from the HAL device 205 * NO_MEMORY in case of an error registering buffers 206 * INVALID_OPERATION in case connecting to the consumer failed or consumer 207 * doesn't exist yet. 208 */ 209 status_t finishConfiguration(/*out*/bool* streamReconfigured = nullptr); 210 211 /** 212 * Cancels the stream configuration process. This returns the stream to the 213 * initial state, allowing it to be configured again later. 214 * This is done if the HAL rejects the proposed combined stream configuration 215 */ 216 status_t cancelConfiguration(); 217 218 /** 219 * Determine whether the stream has already become in-use (has received 220 * a valid filled buffer), which determines if a stream can still have 221 * prepareNextBuffer called on it. 222 */ 223 bool isUnpreparable(); 224 225 /** 226 * Start stream preparation. May only be called in the CONFIGURED state, 227 * when no valid buffers have yet been returned to this stream. Prepares 228 * up to maxCount buffers, or the maximum number of buffers needed by the 229 * pipeline if maxCount is ALLOCATE_PIPELINE_MAX. 230 * 231 * If no prepartion is necessary, returns OK and does not transition to 232 * PREPARING state. Otherwise, returns NOT_ENOUGH_DATA and transitions 233 * to PREPARING. 234 * 235 * This call performs no allocation, so is quick to call. 236 * 237 * blockRequest specifies whether prepare will block upcoming capture 238 * request. This flag should only be set to false if the caller guarantees 239 * the whole buffer preparation process is done before capture request 240 * comes in. 241 * 242 * Returns: 243 * OK if no more buffers need to be preallocated 244 * NOT_ENOUGH_DATA if calls to prepareNextBuffer are needed to finish 245 * buffer pre-allocation, and transitions to the PREPARING state. 246 * NO_INIT in case of a serious error from the HAL device 247 * INVALID_OPERATION if called when not in CONFIGURED state, or a 248 * valid buffer has already been returned to this stream. 249 */ 250 status_t startPrepare(int maxCount, bool blockRequest); 251 252 /** 253 * Check if the request on a stream is blocked by prepare. 254 */ 255 bool isBlockedByPrepare() const; 256 257 /** 258 * Continue stream buffer preparation by allocating the next 259 * buffer for this stream. May only be called in the PREPARED state. 260 * 261 * Returns OK and transitions to the CONFIGURED state if all buffers 262 * are allocated after the call concludes. Otherwise returns NOT_ENOUGH_DATA. 263 * 264 * This call allocates one buffer, which may take several milliseconds for 265 * large buffers. 266 * 267 * Returns: 268 * OK if no more buffers need to be preallocated, and transitions 269 * to the CONFIGURED state. 270 * NOT_ENOUGH_DATA if more calls to prepareNextBuffer are needed to finish 271 * buffer pre-allocation. 272 * NO_INIT in case of a serious error from the HAL device 273 * INVALID_OPERATION if called when not in CONFIGURED state, or a 274 * valid buffer has already been returned to this stream. 275 */ 276 status_t prepareNextBuffer(); 277 278 /** 279 * Cancel stream preparation early. In case allocation needs to be 280 * stopped, this method transitions the stream back to the CONFIGURED state. 281 * Buffers that have been allocated with prepareNextBuffer remain that way, 282 * but a later use of prepareNextBuffer will require just as many 283 * calls as if the earlier prepare attempt had not existed. 284 * 285 * Returns: 286 * OK if cancellation succeeded, and transitions to the CONFIGURED state 287 * INVALID_OPERATION if not in the PREPARING state 288 * NO_INIT in case of a serious error from the HAL device 289 */ 290 status_t cancelPrepare(); 291 292 /** 293 * Tear down memory for this stream. This frees all unused gralloc buffers 294 * allocated for this stream, but leaves it ready for operation afterward. 295 * 296 * May only be called in the CONFIGURED state, and keeps the stream in 297 * the CONFIGURED state. 298 * 299 * Returns: 300 * OK if teardown succeeded. 301 * INVALID_OPERATION if not in the CONFIGURED state 302 * NO_INIT in case of a serious error from the HAL device 303 */ 304 status_t tearDown(); 305 306 /** 307 * Fill in the camera3_stream_buffer with the next valid buffer for this 308 * stream, to hand over to the HAL. 309 * 310 * Multiple surfaces could share the same HAL stream, but a request may 311 * be only for a subset of surfaces. In this case, the 312 * Camera3StreamInterface object needs the surface ID information to acquire 313 * buffers for those surfaces. 314 * 315 * This method may only be called once finishConfiguration has been called. 316 * For bidirectional streams, this method applies to the output-side 317 * buffers. 318 * 319 */ 320 status_t getBuffer(camera3_stream_buffer *buffer, 321 nsecs_t waitBufferTimeout, 322 const std::vector<size_t>& surface_ids = std::vector<size_t>()); 323 324 /** 325 * Return a buffer to the stream after use by the HAL. 326 * 327 * Multiple surfaces could share the same HAL stream, but a request may 328 * be only for a subset of surfaces. In this case, the 329 * Camera3StreamInterface object needs the surface ID information to attach 330 * buffers for those surfaces. 331 * 332 * This method may only be called for buffers provided by getBuffer(). 333 * For bidirectional streams, this method applies to the output-side buffers 334 */ 335 status_t returnBuffer(const camera3_stream_buffer &buffer, 336 nsecs_t timestamp, bool timestampIncreasing, 337 const std::vector<size_t>& surface_ids = std::vector<size_t>(), 338 uint64_t frameNumber = 0); 339 340 /** 341 * Fill in the camera3_stream_buffer with the next valid buffer for this 342 * stream, to hand over to the HAL. 343 * 344 * This method may only be called once finishConfiguration has been called. 345 * For bidirectional streams, this method applies to the input-side 346 * buffers. 347 * 348 * Normally this call will block until the handed out buffer count is less than the stream 349 * max buffer count; if respectHalLimit is set to false, this is ignored. 350 */ 351 status_t getInputBuffer(camera3_stream_buffer *buffer, bool respectHalLimit = true); 352 353 /** 354 * Return a buffer to the stream after use by the HAL. 355 * 356 * This method may only be called for buffers provided by getBuffer(). 357 * For bidirectional streams, this method applies to the input-side buffers 358 */ 359 status_t returnInputBuffer(const camera3_stream_buffer &buffer); 360 361 // get the buffer producer of the input buffer queue. 362 // only apply to input streams. 363 status_t getInputBufferProducer(sp<IGraphicBufferProducer> *producer); 364 365 /** 366 * Whether any of the stream's buffers are currently in use by the HAL, 367 * including buffers that have been returned but not yet had their 368 * release fence signaled. 369 */ 370 bool hasOutstandingBuffers() const; 371 372 /** 373 * Get number of buffers currently handed out to HAL 374 */ 375 size_t getOutstandingBuffersCount() const; 376 377 enum { 378 TIMEOUT_NEVER = -1 379 }; 380 381 /** 382 * Set the status tracker to notify about idle transitions 383 */ 384 virtual status_t setStatusTracker(sp<StatusTracker> statusTracker); 385 386 /** 387 * Disconnect stream from its non-HAL endpoint. After this, 388 * start/finishConfiguration must be called before the stream can be used 389 * again. This cannot be called if the stream has outstanding dequeued 390 * buffers. 391 */ 392 status_t disconnect(); 393 394 /** 395 * Debug dump of the stream's state. 396 */ 397 virtual void dump(int fd, const Vector<String16> &args) const; 398 399 /** 400 * Add a camera3 buffer listener. Adding the same listener twice has 401 * no effect. 402 */ 403 void addBufferListener( 404 wp<Camera3StreamBufferListener> listener); 405 406 /** 407 * Remove a camera3 buffer listener. Removing the same listener twice 408 * or the listener that was never added has no effect. 409 */ 410 void removeBufferListener( 411 const sp<Camera3StreamBufferListener>& listener); 412 413 414 // Setting listener will remove previous listener (if exists) 415 virtual void setBufferFreedListener( 416 wp<Camera3StreamBufferFreedListener> listener) override; 417 418 /** 419 * Return if the buffer queue of the stream is abandoned. 420 */ 421 bool isAbandoned() const; 422 423 /** 424 * Switch a configured stream with possibly outstanding buffers in idle 425 * state. Configuration for such streams will be skipped assuming there 426 * are no changes to the stream parameters. 427 */ 428 status_t forceToIdle(); 429 430 /** 431 * Restore a forced idle stream to configured state, marking it active 432 * in case it contains outstanding buffers. 433 */ 434 status_t restoreConfiguredState(); 435 436 /** 437 * Notify buffer stream listeners about incoming request with particular frame number. 438 */ 439 void fireBufferRequestForFrameNumber(uint64_t frameNumber, 440 const CameraMetadata& settings) override; 441 442 protected: 443 const int mId; 444 /** 445 * Stream set id, used to indicate which group of this stream belongs to for buffer sharing 446 * across multiple streams. 447 * 448 * The default value is set to CAMERA3_STREAM_SET_ID_INVALID, which indicates that this stream 449 * doesn't intend to share buffers with any other streams, and this stream will fall back to 450 * the existing BufferQueue mechanism to manage the buffer allocations and buffer circulation. 451 * When a valid stream set id is set, this stream intends to use the Camera3BufferManager to 452 * manage the buffer allocations; the BufferQueue will only handle the buffer transaction 453 * between the producer and consumer. For this case, upon successfully registration, the streams 454 * with the same stream set id will potentially share the buffers allocated by 455 * Camera3BufferManager. 456 */ 457 const int mSetId; 458 459 const String8 mName; 460 // Zero for formats with fixed buffer size for given dimensions. 461 const size_t mMaxSize; 462 463 enum StreamState { 464 STATE_ERROR, 465 STATE_CONSTRUCTED, 466 STATE_IN_CONFIG, 467 STATE_IN_RECONFIG, 468 STATE_CONFIGURED, 469 STATE_PREPARING, 470 STATE_ABANDONED, 471 STATE_IN_IDLE 472 } mState; 473 474 mutable Mutex mLock; 475 476 Camera3Stream(int id, camera3_stream_type type, 477 uint32_t width, uint32_t height, size_t maxSize, int format, 478 android_dataspace dataSpace, camera3_stream_rotation_t rotation, 479 const String8& physicalCameraId, int setId); 480 481 wp<Camera3StreamBufferFreedListener> mBufferFreedListener; 482 483 /** 484 * Interface to be implemented by derived classes 485 */ 486 487 // getBuffer / returnBuffer implementations 488 489 // Since camera3_stream_buffer includes a raw pointer to the stream, 490 // cast to camera3_stream*, implementations must increment the 491 // refcount of the stream manually in getBufferLocked, and decrement it in 492 // returnBufferLocked. 493 virtual status_t getBufferLocked(camera3_stream_buffer *buffer, 494 const std::vector<size_t>& surface_ids = std::vector<size_t>()); 495 virtual status_t returnBufferLocked(const camera3_stream_buffer &buffer, 496 nsecs_t timestamp, 497 const std::vector<size_t>& surface_ids = std::vector<size_t>()); 498 virtual status_t getInputBufferLocked(camera3_stream_buffer *buffer); 499 virtual status_t returnInputBufferLocked( 500 const camera3_stream_buffer &buffer); 501 virtual bool hasOutstandingBuffersLocked() const = 0; 502 // Get the buffer producer of the input buffer queue. Only apply to input streams. 503 virtual status_t getInputBufferProducerLocked(sp<IGraphicBufferProducer> *producer); 504 505 // Can return -ENOTCONN when we are already disconnected (not an error) 506 virtual status_t disconnectLocked() = 0; 507 508 // Configure the buffer queue interface to the other end of the stream, 509 // after the HAL has provided usage and max_buffers values. After this call, 510 // the stream must be ready to produce all buffers for registration with 511 // HAL. 512 // Returns NO_INIT or DEAD_OBJECT if the queue has been abandoned. 513 virtual status_t configureQueueLocked() = 0; 514 515 // Get the total number of buffers in the queue 516 virtual size_t getBufferCountLocked() = 0; 517 518 // Get handout output buffer count. 519 virtual size_t getHandoutOutputBufferCountLocked() const = 0; 520 521 // Get handout input buffer count. 522 virtual size_t getHandoutInputBufferCountLocked() = 0; 523 524 // Get the usage flags for the other endpoint, or return 525 // INVALID_OPERATION if they cannot be obtained. 526 virtual status_t getEndpointUsage(uint64_t *usage) const = 0; 527 528 // Return whether the buffer is in the list of outstanding buffers. 529 bool isOutstandingBuffer(const camera3_stream_buffer& buffer) const; 530 531 // Tracking for idle state 532 wp<StatusTracker> mStatusTracker; 533 // Status tracker component ID 534 int mStatusId; 535 536 // Tracking for stream prepare - whether this stream can still have 537 // prepareNextBuffer called on it. 538 bool mStreamUnpreparable; 539 540 uint64_t mUsage; 541 542 private: 543 // Previously configured stream properties (post HAL override) 544 uint64_t mOldUsage; 545 uint32_t mOldMaxBuffers; 546 int mOldFormat; 547 android_dataspace mOldDataSpace; 548 549 Condition mOutputBufferReturnedSignal; 550 Condition mInputBufferReturnedSignal; 551 static const nsecs_t kWaitForBufferDuration = 3000000000LL; // 3000 ms 552 553 void fireBufferListenersLocked(const camera3_stream_buffer& buffer, 554 bool acquired, bool output, nsecs_t timestamp = 0, uint64_t frameNumber = 0); 555 List<wp<Camera3StreamBufferListener> > mBufferListenerList; 556 557 status_t cancelPrepareLocked(); 558 559 // Remove the buffer from the list of outstanding buffers. 560 void removeOutstandingBuffer(const camera3_stream_buffer& buffer); 561 562 // Tracking for PREPARING state 563 564 // State of buffer preallocation. Only true if either prepareNextBuffer 565 // has been called sufficient number of times, or stream configuration 566 // had to register buffers with the HAL 567 bool mPrepared; 568 bool mPrepareBlockRequest; 569 570 Vector<camera3_stream_buffer_t> mPreparedBuffers; 571 size_t mPreparedBufferIdx; 572 573 // Number of buffers allocated on last prepare call. 574 size_t mLastMaxCount; 575 576 mutable Mutex mOutstandingBuffersLock; 577 // Outstanding buffers dequeued from the stream's buffer queue. 578 List<buffer_handle_t> mOutstandingBuffers; 579 580 // Latency histogram of the wait time for handout buffer count to drop below 581 // max_buffers. 582 static const int32_t kBufferLimitLatencyBinSize = 33; //in ms 583 CameraLatencyHistogram mBufferLimitLatency; 584 585 //Keep track of original format when the stream is created in case it gets overridden 586 bool mFormatOverridden; 587 const int mOriginalFormat; 588 589 //Keep track of original dataSpace in case it gets overridden 590 bool mDataSpaceOverridden; 591 android_dataspace mOriginalDataSpace; 592 593 String8 mPhysicalCameraId; 594 nsecs_t mLastTimestamp; 595 }; // class Camera3Stream 596 597 }; // namespace camera3 598 599 }; // namespace android 600 601 #endif 602