1 /* 2 * Copyright (C) 2017 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 #define LOG_TAG "CameraHardwareInterface" 17 //#define LOG_NDEBUG 0 18 19 #include <inttypes.h> 20 #include <media/hardware/HardwareAPI.h> // For VideoNativeHandleMetadata 21 #include "CameraHardwareInterface.h" 22 23 namespace android { 24 25 using namespace hardware::camera::device::V1_0; 26 using namespace hardware::camera::common::V1_0; 27 using hardware::hidl_handle; 28 29 CameraHardwareInterface::~CameraHardwareInterface() 30 { 31 ALOGI("Destroying camera %s", mName.string()); 32 if (mHidlDevice != nullptr) { 33 mHidlDevice->close(); 34 mHidlDevice.clear(); 35 cleanupCirculatingBuffers(); 36 } 37 } 38 39 status_t CameraHardwareInterface::initialize(sp<CameraProviderManager> manager) { 40 ALOGI("Opening camera %s", mName.string()); 41 42 status_t ret = manager->openSession(mName.string(), this, &mHidlDevice); 43 if (ret != OK) { 44 ALOGE("%s: openSession failed! %s (%d)", __FUNCTION__, strerror(-ret), ret); 45 } 46 return ret; 47 } 48 49 status_t CameraHardwareInterface::setPreviewScalingMode(int scalingMode) 50 { 51 int rc = OK; 52 mPreviewScalingMode = scalingMode; 53 if (mPreviewWindow != nullptr) { 54 rc = native_window_set_scaling_mode(mPreviewWindow.get(), 55 scalingMode); 56 } 57 return rc; 58 } 59 60 status_t CameraHardwareInterface::setPreviewTransform(int transform) { 61 int rc = OK; 62 mPreviewTransform = transform; 63 if (mPreviewWindow != nullptr) { 64 rc = native_window_set_buffers_transform(mPreviewWindow.get(), 65 mPreviewTransform); 66 } 67 return rc; 68 } 69 70 /** 71 * Implementation of android::hardware::camera::device::V1_0::ICameraDeviceCallback 72 */ 73 hardware::Return<void> CameraHardwareInterface::notifyCallback( 74 NotifyCallbackMsg msgType, int32_t ext1, int32_t ext2) { 75 sNotifyCb((int32_t) msgType, ext1, ext2, (void*) this); 76 return hardware::Void(); 77 } 78 79 hardware::Return<uint32_t> CameraHardwareInterface::registerMemory( 80 const hardware::hidl_handle& descriptor, 81 uint32_t bufferSize, uint32_t bufferCount) { 82 if (descriptor->numFds != 1) { 83 ALOGE("%s: camera memory descriptor has numFds %d (expect 1)", 84 __FUNCTION__, descriptor->numFds); 85 return 0; 86 } 87 if (descriptor->data[0] < 0) { 88 ALOGE("%s: camera memory descriptor has FD %d (expect >= 0)", 89 __FUNCTION__, descriptor->data[0]); 90 return 0; 91 } 92 93 camera_memory_t* mem = sGetMemory(descriptor->data[0], bufferSize, bufferCount, this); 94 sp<CameraHeapMemory> camMem(static_cast<CameraHeapMemory *>(mem->handle)); 95 int memPoolId = camMem->mHeap->getHeapID(); 96 if (memPoolId < 0) { 97 ALOGE("%s: CameraHeapMemory has FD %d (expect >= 0)", __FUNCTION__, memPoolId); 98 return 0; 99 } 100 std::lock_guard<std::mutex> lock(mHidlMemPoolMapLock); 101 mHidlMemPoolMap.insert(std::make_pair(memPoolId, mem)); 102 return memPoolId; 103 } 104 105 hardware::Return<void> CameraHardwareInterface::unregisterMemory(uint32_t memId) { 106 camera_memory_t* mem = nullptr; 107 { 108 std::lock_guard<std::mutex> lock(mHidlMemPoolMapLock); 109 if (mHidlMemPoolMap.count(memId) == 0) { 110 ALOGE("%s: memory pool ID %d not found", __FUNCTION__, memId); 111 return hardware::Void(); 112 } 113 mem = mHidlMemPoolMap.at(memId); 114 mHidlMemPoolMap.erase(memId); 115 } 116 sPutMemory(mem); 117 return hardware::Void(); 118 } 119 120 hardware::Return<void> CameraHardwareInterface::dataCallback( 121 DataCallbackMsg msgType, uint32_t data, uint32_t bufferIndex, 122 const hardware::camera::device::V1_0::CameraFrameMetadata& metadata) { 123 camera_memory_t* mem = nullptr; 124 { 125 std::lock_guard<std::mutex> lock(mHidlMemPoolMapLock); 126 if (mHidlMemPoolMap.count(data) == 0) { 127 ALOGE("%s: memory pool ID %d not found", __FUNCTION__, data); 128 return hardware::Void(); 129 } 130 mem = mHidlMemPoolMap.at(data); 131 } 132 camera_frame_metadata_t md; 133 md.number_of_faces = metadata.faces.size(); 134 md.faces = (camera_face_t*) metadata.faces.data(); 135 sDataCb((int32_t) msgType, mem, bufferIndex, &md, this); 136 return hardware::Void(); 137 } 138 139 hardware::Return<void> CameraHardwareInterface::dataCallbackTimestamp( 140 DataCallbackMsg msgType, uint32_t data, 141 uint32_t bufferIndex, int64_t timestamp) { 142 camera_memory_t* mem = nullptr; 143 { 144 std::lock_guard<std::mutex> lock(mHidlMemPoolMapLock); 145 if (mHidlMemPoolMap.count(data) == 0) { 146 ALOGE("%s: memory pool ID %d not found", __FUNCTION__, data); 147 return hardware::Void(); 148 } 149 mem = mHidlMemPoolMap.at(data); 150 } 151 sDataCbTimestamp(timestamp, (int32_t) msgType, mem, bufferIndex, this); 152 return hardware::Void(); 153 } 154 155 hardware::Return<void> CameraHardwareInterface::handleCallbackTimestamp( 156 DataCallbackMsg msgType, const hidl_handle& frameData, uint32_t data, 157 uint32_t bufferIndex, int64_t timestamp) { 158 camera_memory_t* mem = nullptr; 159 { 160 std::lock_guard<std::mutex> lock(mHidlMemPoolMapLock); 161 if (mHidlMemPoolMap.count(data) == 0) { 162 ALOGE("%s: memory pool ID %d not found", __FUNCTION__, data); 163 return hardware::Void(); 164 } 165 mem = mHidlMemPoolMap.at(data); 166 } 167 sp<CameraHeapMemory> heapMem(static_cast<CameraHeapMemory *>(mem->handle)); 168 VideoNativeHandleMetadata* md = (VideoNativeHandleMetadata*) 169 heapMem->mBuffers[bufferIndex]->pointer(); 170 md->pHandle = const_cast<native_handle_t*>(frameData.getNativeHandle()); 171 sDataCbTimestamp(timestamp, (int32_t) msgType, mem, bufferIndex, this); 172 return hardware::Void(); 173 } 174 175 hardware::Return<void> CameraHardwareInterface::handleCallbackTimestampBatch( 176 DataCallbackMsg msgType, 177 const hardware::hidl_vec<hardware::camera::device::V1_0::HandleTimestampMessage>& messages) { 178 std::vector<android::HandleTimestampMessage> msgs; 179 msgs.reserve(messages.size()); 180 { 181 std::lock_guard<std::mutex> lock(mHidlMemPoolMapLock); 182 for (const auto& hidl_msg : messages) { 183 if (mHidlMemPoolMap.count(hidl_msg.data) == 0) { 184 ALOGE("%s: memory pool ID %d not found", __FUNCTION__, hidl_msg.data); 185 return hardware::Void(); 186 } 187 sp<CameraHeapMemory> mem( 188 static_cast<CameraHeapMemory *>(mHidlMemPoolMap.at(hidl_msg.data)->handle)); 189 190 if (hidl_msg.bufferIndex >= mem->mNumBufs) { 191 ALOGE("%s: invalid buffer index %d, max allowed is %d", __FUNCTION__, 192 hidl_msg.bufferIndex, mem->mNumBufs); 193 return hardware::Void(); 194 } 195 VideoNativeHandleMetadata* md = (VideoNativeHandleMetadata*) 196 mem->mBuffers[hidl_msg.bufferIndex]->pointer(); 197 md->pHandle = const_cast<native_handle_t*>(hidl_msg.frameData.getNativeHandle()); 198 199 msgs.push_back({hidl_msg.timestamp, mem->mBuffers[hidl_msg.bufferIndex]}); 200 } 201 } 202 mDataCbTimestampBatch((int32_t) msgType, msgs, mCbUser); 203 return hardware::Void(); 204 } 205 206 std::pair<bool, uint64_t> CameraHardwareInterface::getBufferId( 207 ANativeWindowBuffer* anb) { 208 std::lock_guard<std::mutex> lock(mBufferIdMapLock); 209 210 buffer_handle_t& buf = anb->handle; 211 auto it = mBufferIdMap.find(buf); 212 if (it == mBufferIdMap.end()) { 213 uint64_t bufId = mNextBufferId++; 214 mBufferIdMap[buf] = bufId; 215 mReversedBufMap[bufId] = anb; 216 return std::make_pair(true, bufId); 217 } else { 218 return std::make_pair(false, it->second); 219 } 220 } 221 222 void CameraHardwareInterface::cleanupCirculatingBuffers() { 223 std::lock_guard<std::mutex> lock(mBufferIdMapLock); 224 mBufferIdMap.clear(); 225 mReversedBufMap.clear(); 226 } 227 228 hardware::Return<void> 229 CameraHardwareInterface::dequeueBuffer(dequeueBuffer_cb _hidl_cb) { 230 ANativeWindow *a = mPreviewWindow.get(); 231 if (a == nullptr) { 232 ALOGE("%s: preview window is null", __FUNCTION__); 233 return hardware::Void(); 234 } 235 ANativeWindowBuffer* anb; 236 int rc = native_window_dequeue_buffer_and_wait(a, &anb); 237 Status s = Status::INTERNAL_ERROR; 238 uint64_t bufferId = 0; 239 uint32_t stride = 0; 240 hidl_handle buf = nullptr; 241 if (rc == OK) { 242 s = Status::OK; 243 auto pair = getBufferId(anb); 244 buf = (pair.first) ? anb->handle : nullptr; 245 bufferId = pair.second; 246 stride = anb->stride; 247 } 248 249 _hidl_cb(s, bufferId, buf, stride); 250 return hardware::Void(); 251 } 252 253 hardware::Return<Status> 254 CameraHardwareInterface::enqueueBuffer(uint64_t bufferId) { 255 ANativeWindow *a = mPreviewWindow.get(); 256 if (a == nullptr) { 257 ALOGE("%s: preview window is null", __FUNCTION__); 258 return Status::INTERNAL_ERROR; 259 } 260 if (mReversedBufMap.count(bufferId) == 0) { 261 ALOGE("%s: bufferId %" PRIu64 " not found", __FUNCTION__, bufferId); 262 return Status::ILLEGAL_ARGUMENT; 263 } 264 int rc = a->queueBuffer(a, mReversedBufMap.at(bufferId), -1); 265 if (rc == 0) { 266 return Status::OK; 267 } 268 return Status::INTERNAL_ERROR; 269 } 270 271 hardware::Return<Status> 272 CameraHardwareInterface::cancelBuffer(uint64_t bufferId) { 273 ANativeWindow *a = mPreviewWindow.get(); 274 if (a == nullptr) { 275 ALOGE("%s: preview window is null", __FUNCTION__); 276 return Status::INTERNAL_ERROR; 277 } 278 if (mReversedBufMap.count(bufferId) == 0) { 279 ALOGE("%s: bufferId %" PRIu64 " not found", __FUNCTION__, bufferId); 280 return Status::ILLEGAL_ARGUMENT; 281 } 282 int rc = a->cancelBuffer(a, mReversedBufMap.at(bufferId), -1); 283 if (rc == 0) { 284 return Status::OK; 285 } 286 return Status::INTERNAL_ERROR; 287 } 288 289 hardware::Return<Status> 290 CameraHardwareInterface::setBufferCount(uint32_t count) { 291 ANativeWindow *a = mPreviewWindow.get(); 292 if (a != nullptr) { 293 // Workaround for b/27039775 294 // Previously, setting the buffer count would reset the buffer 295 // queue's flag that allows for all buffers to be dequeued on the 296 // producer side, instead of just the producer's declared max count, 297 // if no filled buffers have yet been queued by the producer. This 298 // reset no longer happens, but some HALs depend on this behavior, 299 // so it needs to be maintained for HAL backwards compatibility. 300 // Simulate the prior behavior by disconnecting/reconnecting to the 301 // window and setting the values again. This has the drawback of 302 // actually causing memory reallocation, which may not have happened 303 // in the past. 304 native_window_api_disconnect(a, NATIVE_WINDOW_API_CAMERA); 305 native_window_api_connect(a, NATIVE_WINDOW_API_CAMERA); 306 if (mPreviewScalingMode != NOT_SET) { 307 native_window_set_scaling_mode(a, mPreviewScalingMode); 308 } 309 if (mPreviewTransform != NOT_SET) { 310 native_window_set_buffers_transform(a, mPreviewTransform); 311 } 312 if (mPreviewWidth != NOT_SET) { 313 native_window_set_buffers_dimensions(a, 314 mPreviewWidth, mPreviewHeight); 315 native_window_set_buffers_format(a, mPreviewFormat); 316 } 317 if (mPreviewUsage != 0) { 318 native_window_set_usage(a, mPreviewUsage); 319 } 320 if (mPreviewSwapInterval != NOT_SET) { 321 a->setSwapInterval(a, mPreviewSwapInterval); 322 } 323 if (mPreviewCrop.left != NOT_SET) { 324 native_window_set_crop(a, &(mPreviewCrop)); 325 } 326 } 327 int rc = native_window_set_buffer_count(a, count); 328 if (rc == OK) { 329 cleanupCirculatingBuffers(); 330 return Status::OK; 331 } 332 return Status::INTERNAL_ERROR; 333 } 334 335 hardware::Return<Status> 336 CameraHardwareInterface::setBuffersGeometry( 337 uint32_t w, uint32_t h, hardware::graphics::common::V1_0::PixelFormat format) { 338 Status s = Status::INTERNAL_ERROR; 339 ANativeWindow *a = mPreviewWindow.get(); 340 if (a == nullptr) { 341 ALOGE("%s: preview window is null", __FUNCTION__); 342 return s; 343 } 344 mPreviewWidth = w; 345 mPreviewHeight = h; 346 mPreviewFormat = (int) format; 347 int rc = native_window_set_buffers_dimensions(a, w, h); 348 if (rc == OK) { 349 rc = native_window_set_buffers_format(a, mPreviewFormat); 350 } 351 if (rc == OK) { 352 cleanupCirculatingBuffers(); 353 s = Status::OK; 354 } 355 return s; 356 } 357 358 hardware::Return<Status> 359 CameraHardwareInterface::setCrop(int32_t left, int32_t top, int32_t right, int32_t bottom) { 360 Status s = Status::INTERNAL_ERROR; 361 ANativeWindow *a = mPreviewWindow.get(); 362 if (a == nullptr) { 363 ALOGE("%s: preview window is null", __FUNCTION__); 364 return s; 365 } 366 mPreviewCrop.left = left; 367 mPreviewCrop.top = top; 368 mPreviewCrop.right = right; 369 mPreviewCrop.bottom = bottom; 370 int rc = native_window_set_crop(a, &mPreviewCrop); 371 if (rc == OK) { 372 s = Status::OK; 373 } 374 return s; 375 } 376 377 hardware::Return<Status> 378 CameraHardwareInterface::setUsage(hardware::graphics::common::V1_0::BufferUsage usage) { 379 Status s = Status::INTERNAL_ERROR; 380 ANativeWindow *a = mPreviewWindow.get(); 381 if (a == nullptr) { 382 ALOGE("%s: preview window is null", __FUNCTION__); 383 return s; 384 } 385 mPreviewUsage = static_cast<uint64_t> (usage); 386 int rc = native_window_set_usage(a, mPreviewUsage); 387 if (rc == OK) { 388 cleanupCirculatingBuffers(); 389 s = Status::OK; 390 } 391 return s; 392 } 393 394 hardware::Return<Status> 395 CameraHardwareInterface::setSwapInterval(int32_t interval) { 396 Status s = Status::INTERNAL_ERROR; 397 ANativeWindow *a = mPreviewWindow.get(); 398 if (a == nullptr) { 399 ALOGE("%s: preview window is null", __FUNCTION__); 400 return s; 401 } 402 mPreviewSwapInterval = interval; 403 int rc = a->setSwapInterval(a, interval); 404 if (rc == OK) { 405 s = Status::OK; 406 } 407 return s; 408 } 409 410 hardware::Return<void> 411 CameraHardwareInterface::getMinUndequeuedBufferCount(getMinUndequeuedBufferCount_cb _hidl_cb) { 412 ANativeWindow *a = mPreviewWindow.get(); 413 if (a == nullptr) { 414 ALOGE("%s: preview window is null", __FUNCTION__); 415 return hardware::Void(); 416 } 417 int count = 0; 418 int rc = a->query(a, NATIVE_WINDOW_MIN_UNDEQUEUED_BUFFERS, &count); 419 Status s = Status::INTERNAL_ERROR; 420 if (rc == OK) { 421 s = Status::OK; 422 } 423 _hidl_cb(s, count); 424 return hardware::Void(); 425 } 426 427 hardware::Return<Status> 428 CameraHardwareInterface::setTimestamp(int64_t timestamp) { 429 Status s = Status::INTERNAL_ERROR; 430 ANativeWindow *a = mPreviewWindow.get(); 431 if (a == nullptr) { 432 ALOGE("%s: preview window is null", __FUNCTION__); 433 return s; 434 } 435 int rc = native_window_set_buffers_timestamp(a, timestamp); 436 if (rc == OK) { 437 s = Status::OK; 438 } 439 return s; 440 } 441 442 status_t CameraHardwareInterface::setPreviewWindow(const sp<ANativeWindow>& buf) 443 { 444 ALOGV("%s(%s) buf %p", __FUNCTION__, mName.string(), buf.get()); 445 if (CC_LIKELY(mHidlDevice != nullptr)) { 446 mPreviewWindow = buf; 447 if (buf != nullptr) { 448 if (mPreviewScalingMode != NOT_SET) { 449 setPreviewScalingMode(mPreviewScalingMode); 450 } 451 if (mPreviewTransform != NOT_SET) { 452 setPreviewTransform(mPreviewTransform); 453 } 454 } 455 return CameraProviderManager::mapToStatusT( 456 mHidlDevice->setPreviewWindow(buf.get() ? this : nullptr)); 457 } 458 return INVALID_OPERATION; 459 } 460 461 void CameraHardwareInterface::setCallbacks(notify_callback notify_cb, 462 data_callback data_cb, 463 data_callback_timestamp data_cb_timestamp, 464 data_callback_timestamp_batch data_cb_timestamp_batch, 465 void* user) 466 { 467 mNotifyCb = notify_cb; 468 mDataCb = data_cb; 469 mDataCbTimestamp = data_cb_timestamp; 470 mDataCbTimestampBatch = data_cb_timestamp_batch; 471 mCbUser = user; 472 473 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 474 } 475 476 void CameraHardwareInterface::enableMsgType(int32_t msgType) 477 { 478 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 479 if (CC_LIKELY(mHidlDevice != nullptr)) { 480 mHidlDevice->enableMsgType(msgType); 481 } 482 } 483 484 void CameraHardwareInterface::disableMsgType(int32_t msgType) 485 { 486 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 487 if (CC_LIKELY(mHidlDevice != nullptr)) { 488 mHidlDevice->disableMsgType(msgType); 489 } 490 } 491 492 int CameraHardwareInterface::msgTypeEnabled(int32_t msgType) 493 { 494 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 495 if (CC_LIKELY(mHidlDevice != nullptr)) { 496 return mHidlDevice->msgTypeEnabled(msgType); 497 } 498 return false; 499 } 500 501 status_t CameraHardwareInterface::startPreview() 502 { 503 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 504 if (CC_LIKELY(mHidlDevice != nullptr)) { 505 return CameraProviderManager::mapToStatusT( 506 mHidlDevice->startPreview()); 507 } 508 return INVALID_OPERATION; 509 } 510 511 void CameraHardwareInterface::stopPreview() 512 { 513 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 514 if (CC_LIKELY(mHidlDevice != nullptr)) { 515 mHidlDevice->stopPreview(); 516 } 517 } 518 519 int CameraHardwareInterface::previewEnabled() 520 { 521 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 522 if (CC_LIKELY(mHidlDevice != nullptr)) { 523 return mHidlDevice->previewEnabled(); 524 } 525 return false; 526 } 527 528 status_t CameraHardwareInterface::storeMetaDataInBuffers(int enable) 529 { 530 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 531 if (CC_LIKELY(mHidlDevice != nullptr)) { 532 return CameraProviderManager::mapToStatusT( 533 mHidlDevice->storeMetaDataInBuffers(enable)); 534 } 535 return enable ? INVALID_OPERATION: OK; 536 } 537 538 status_t CameraHardwareInterface::startRecording() 539 { 540 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 541 if (CC_LIKELY(mHidlDevice != nullptr)) { 542 return CameraProviderManager::mapToStatusT( 543 mHidlDevice->startRecording()); 544 } 545 return INVALID_OPERATION; 546 } 547 548 /** 549 * Stop a previously started recording. 550 */ 551 void CameraHardwareInterface::stopRecording() 552 { 553 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 554 if (CC_LIKELY(mHidlDevice != nullptr)) { 555 mHidlDevice->stopRecording(); 556 } 557 } 558 559 /** 560 * Returns true if recording is enabled. 561 */ 562 int CameraHardwareInterface::recordingEnabled() 563 { 564 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 565 if (CC_LIKELY(mHidlDevice != nullptr)) { 566 return mHidlDevice->recordingEnabled(); 567 } 568 return false; 569 } 570 571 void CameraHardwareInterface::releaseRecordingFrame(const sp<IMemory>& mem) 572 { 573 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 574 ssize_t offset; 575 size_t size; 576 sp<IMemoryHeap> heap = mem->getMemory(&offset, &size); 577 int heapId = heap->getHeapID(); 578 int bufferIndex = offset / size; 579 if (CC_LIKELY(mHidlDevice != nullptr)) { 580 if (size == sizeof(VideoNativeHandleMetadata)) { 581 VideoNativeHandleMetadata* md = (VideoNativeHandleMetadata*) mem->pointer(); 582 // Caching the handle here because md->pHandle will be subject to HAL's edit 583 native_handle_t* nh = md->pHandle; 584 hidl_handle frame = nh; 585 mHidlDevice->releaseRecordingFrameHandle(heapId, bufferIndex, frame); 586 native_handle_close(nh); 587 native_handle_delete(nh); 588 } else { 589 mHidlDevice->releaseRecordingFrame(heapId, bufferIndex); 590 } 591 } 592 } 593 594 void CameraHardwareInterface::releaseRecordingFrameBatch(const std::vector<sp<IMemory>>& frames) 595 { 596 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 597 size_t n = frames.size(); 598 std::vector<VideoFrameMessage> msgs; 599 msgs.reserve(n); 600 for (auto& mem : frames) { 601 if (CC_LIKELY(mHidlDevice != nullptr)) { 602 ssize_t offset; 603 size_t size; 604 sp<IMemoryHeap> heap = mem->getMemory(&offset, &size); 605 if (size == sizeof(VideoNativeHandleMetadata)) { 606 uint32_t heapId = heap->getHeapID(); 607 uint32_t bufferIndex = offset / size; 608 VideoNativeHandleMetadata* md = (VideoNativeHandleMetadata*) mem->pointer(); 609 // Caching the handle here because md->pHandle will be subject to HAL's edit 610 native_handle_t* nh = md->pHandle; 611 VideoFrameMessage msg; 612 msgs.push_back({nh, heapId, bufferIndex}); 613 } else { 614 ALOGE("%s only supports VideoNativeHandleMetadata mode", __FUNCTION__); 615 return; 616 } 617 } 618 } 619 620 mHidlDevice->releaseRecordingFrameHandleBatch(msgs); 621 622 for (auto& msg : msgs) { 623 native_handle_t* nh = const_cast<native_handle_t*>(msg.frameData.getNativeHandle()); 624 native_handle_close(nh); 625 native_handle_delete(nh); 626 } 627 } 628 629 status_t CameraHardwareInterface::autoFocus() 630 { 631 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 632 if (CC_LIKELY(mHidlDevice != nullptr)) { 633 return CameraProviderManager::mapToStatusT( 634 mHidlDevice->autoFocus()); 635 } 636 return INVALID_OPERATION; 637 } 638 639 status_t CameraHardwareInterface::cancelAutoFocus() 640 { 641 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 642 if (CC_LIKELY(mHidlDevice != nullptr)) { 643 return CameraProviderManager::mapToStatusT( 644 mHidlDevice->cancelAutoFocus()); 645 } 646 return INVALID_OPERATION; 647 } 648 649 status_t CameraHardwareInterface::takePicture() 650 { 651 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 652 if (CC_LIKELY(mHidlDevice != nullptr)) { 653 return CameraProviderManager::mapToStatusT( 654 mHidlDevice->takePicture()); 655 } 656 return INVALID_OPERATION; 657 } 658 659 status_t CameraHardwareInterface::cancelPicture() 660 { 661 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 662 if (CC_LIKELY(mHidlDevice != nullptr)) { 663 return CameraProviderManager::mapToStatusT( 664 mHidlDevice->cancelPicture()); 665 } 666 return INVALID_OPERATION; 667 } 668 669 status_t CameraHardwareInterface::setParameters(const CameraParameters ¶ms) 670 { 671 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 672 if (CC_LIKELY(mHidlDevice != nullptr)) { 673 return CameraProviderManager::mapToStatusT( 674 mHidlDevice->setParameters(params.flatten().string())); 675 } 676 return INVALID_OPERATION; 677 } 678 679 CameraParameters CameraHardwareInterface::getParameters() const 680 { 681 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 682 CameraParameters parms; 683 if (CC_LIKELY(mHidlDevice != nullptr)) { 684 hardware::hidl_string outParam; 685 mHidlDevice->getParameters( 686 [&outParam](const auto& outStr) { 687 outParam = outStr; 688 }); 689 String8 tmp(outParam.c_str()); 690 parms.unflatten(tmp); 691 } 692 return parms; 693 } 694 695 status_t CameraHardwareInterface::sendCommand(int32_t cmd, int32_t arg1, int32_t arg2) 696 { 697 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 698 if (CC_LIKELY(mHidlDevice != nullptr)) { 699 return CameraProviderManager::mapToStatusT( 700 mHidlDevice->sendCommand((CommandType) cmd, arg1, arg2)); 701 } 702 return INVALID_OPERATION; 703 } 704 705 /** 706 * Release the hardware resources owned by this object. Note that this is 707 * *not* done in the destructor. 708 */ 709 void CameraHardwareInterface::release() { 710 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 711 if (CC_LIKELY(mHidlDevice != nullptr)) { 712 mHidlDevice->close(); 713 mHidlDevice.clear(); 714 } 715 } 716 717 /** 718 * Dump state of the camera hardware 719 */ 720 status_t CameraHardwareInterface::dump(int fd, const Vector<String16>& /*args*/) const 721 { 722 ALOGV("%s(%s)", __FUNCTION__, mName.string()); 723 if (CC_LIKELY(mHidlDevice != nullptr)) { 724 native_handle_t* handle = native_handle_create(1,0); 725 handle->data[0] = fd; 726 Status s = mHidlDevice->dumpState(handle); 727 native_handle_delete(handle); 728 return CameraProviderManager::mapToStatusT(s); 729 } 730 return OK; // It's fine if the HAL doesn't implement dump() 731 } 732 733 void CameraHardwareInterface::sNotifyCb(int32_t msg_type, int32_t ext1, 734 int32_t ext2, void *user) 735 { 736 ALOGV("%s", __FUNCTION__); 737 CameraHardwareInterface *object = 738 static_cast<CameraHardwareInterface *>(user); 739 object->mNotifyCb(msg_type, ext1, ext2, object->mCbUser); 740 } 741 742 void CameraHardwareInterface::sDataCb(int32_t msg_type, 743 const camera_memory_t *data, unsigned int index, 744 camera_frame_metadata_t *metadata, 745 void *user) 746 { 747 ALOGV("%s", __FUNCTION__); 748 CameraHardwareInterface *object = 749 static_cast<CameraHardwareInterface *>(user); 750 sp<CameraHeapMemory> mem(static_cast<CameraHeapMemory *>(data->handle)); 751 if (index >= mem->mNumBufs) { 752 ALOGE("%s: invalid buffer index %d, max allowed is %d", __FUNCTION__, 753 index, mem->mNumBufs); 754 return; 755 } 756 object->mDataCb(msg_type, mem->mBuffers[index], metadata, object->mCbUser); 757 } 758 759 void CameraHardwareInterface::sDataCbTimestamp(nsecs_t timestamp, int32_t msg_type, 760 const camera_memory_t *data, unsigned index, 761 void *user) 762 { 763 ALOGV("%s", __FUNCTION__); 764 CameraHardwareInterface *object = 765 static_cast<CameraHardwareInterface *>(user); 766 // Start refcounting the heap object from here on. When the clients 767 // drop all references, it will be destroyed (as well as the enclosed 768 // MemoryHeapBase. 769 sp<CameraHeapMemory> mem(static_cast<CameraHeapMemory *>(data->handle)); 770 if (index >= mem->mNumBufs) { 771 ALOGE("%s: invalid buffer index %d, max allowed is %d", __FUNCTION__, 772 index, mem->mNumBufs); 773 return; 774 } 775 object->mDataCbTimestamp(timestamp, msg_type, mem->mBuffers[index], object->mCbUser); 776 } 777 778 camera_memory_t* CameraHardwareInterface::sGetMemory( 779 int fd, size_t buf_size, uint_t num_bufs, 780 void *user __attribute__((unused))) 781 { 782 CameraHeapMemory *mem; 783 if (fd < 0) { 784 mem = new CameraHeapMemory(buf_size, num_bufs); 785 } else { 786 mem = new CameraHeapMemory(fd, buf_size, num_bufs); 787 } 788 mem->incStrong(mem); 789 return &mem->handle; 790 } 791 792 void CameraHardwareInterface::sPutMemory(camera_memory_t *data) 793 { 794 if (!data) { 795 return; 796 } 797 798 CameraHeapMemory *mem = static_cast<CameraHeapMemory *>(data->handle); 799 mem->decStrong(mem); 800 } 801 802 }; // namespace android 803
