热门标签
热门文章
- 1【Microsoft Azure 的1024种玩法】四. 利用Azure Virtual machines 打造个人专属云盘,速度吊打某云盘...
- 2etcd 与 Zookeeper、Consul 等其它 kv 组件的对比
- 3低代码平台全套源码,支持二次开发_nodejs能开发 低代码
- 4【批处理DOS-CMD命令-汇总和小结】-上网和网络通信相关命令-用户账户管理-文件(夹)共享(net)_udk用户服务
- 5RabbitMQ - 基于 SpringAMQP 带你实现五种消息队列模型_spring消息队列
- 6【C语言】动态内存_c语言动态内存
- 7微信小程序刮刮乐_小程序刮刮乐逻辑
- 8大数据技术原理与应用第10讲:Spark_spark不提供下面哪种语言的ap? () python c++ scala java
- 9Matlab第二章矩阵处理内容整理_matlab矩阵整理
- 10< 数据结构 > 堆的应用 --- 堆排序和Topk问题_堆排序topk问题
当前位置: article > 正文
Camera camx hal-架构(一)_camera3device
作者:菜鸟追梦旅行 | 2024-05-20 05:15:40
赞
踩
camera3device
和你一起终身学习,这里是程序员 Android
本篇文章主要介绍 Android 开发中的部分知识点,通过阅读本篇文章,您将收获以下内容:
一、camx 代码结构
二、camx 编译
三、camx 代码流程分析
四、camx 调试
一、camx 代码结构
目前主流的机型都使用camx架构,这个架构和之前架构的主要区别就是 芯片接口层的代码从hardware/qcom 迁移到 vendor/qcom/proprietary/下面,我们主要关注的camera hal层的源码也是放在vendor/qcom/proprietary/camx/下面。
二、camx 编译
camx的核心目录是 vendor/qcom/proprietary/camx/src/目录下面:
total 40
drwxrwxr-x 10 lxl lxl 4096 4月 4 10:52 ./
drwxrwxr-x 4 lxl lxl 4096 4月 4 10:52 ../
drwxrwxr-x 3 lxl lxl 4096 4月 4 10:52 chiiqutils/
drwxrwxr-x 7 lxl lxl 4096 4月 4 10:56 core/
drwxrwxr-x 7 lxl lxl 4096 4月 4 10:52 csl/
drwxrwxr-x 14 lxl lxl 4096 4月 4 10:52 hwl/
drwxrwxr-x 3 lxl lx 4096 4月 4 10:52 lib/
drwxrwxr-x 3 lxl lxl 4096 4月 4 10:52 osutils/
drwxrwxr-x 11 lxl lxl 4096 4月 4 10:52 swl/
drwxrwxr-x 3 lxl lxl 4096 4月 4 10:52 utils/
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
核心的Android.mk在 ./lib/build/android/Android.mk 中。
其中包括的静态库如下:
# Libraries to link LOCAL_STATIC_LIBRARIES := \ libcamxcore \ libcamxchi \ libcamxcsl \ libcamxofflinestats \ libnc \ libcamxncs \ libifestriping \ libstriping LOCAL_WHOLE_STATIC_LIBRARIES := \ libcamxdspstreamer \ libcamxhwlbps \ libcamxgenerated \ libcamxhal \ libcamxhalutils \ libcamxhwlfd \ libcamxhwlife \ libcamxhwlipe \ libcamxhwliqmodule \ libcamxswlfdmanager \ libcamxswljpeg \ libcamxhwljpeg \ libcamxhwllrme \ libcamxswlransac \ libcamxhwltitan17x \ libcamxiqsetting \ libcamxosutils \ libcamxstats \ libcamxsensor \ libcamxutils
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 30
- 31
- 32
- 33
这些静态库都是camx或者其他的目录下编译的,编译工程的时候,我们要先编译这些静态库,然后编译camx的动态库(/vendor/lib/hw/camera.qcom.so)。
#三、camx 代码流程分析
camera.provider中如何实现到camera hal层的跳跃,camera service调用到camera provider中的接口方法,现在调用到 camera provider中的 hardware/interfaces/camera/device/3.2/default/CameraDeviceSession.cpp中的processCaptureRequest(...)方法,最终会调用到:
status_t ret = mDevice->ops->process_capture_request(mDevice, &halRequest);
- 1
这个mDevice->ops 就是 hardware/libhardware/include/hardware/camera3.h中的 camera3_device_ops 结构体: (参考:https://www.jianshu.com/p/099cc3b0ab25)
typedef struct camera3_device_ops { int (*initialize)(const struct camera3_device *, const camera3_callback_ops_t *callback_ops); int (*configure_streams)(const struct camera3_device *, camera3_stream_configuration_t *stream_list); int (*register_stream_buffers)(const struct camera3_device *, const camera3_stream_buffer_set_t *buffer_set); const camera_metadata_t* (*construct_default_request_settings)( const struct camera3_device *, int type); int (*process_capture_request)(const struct camera3_device *, camera3_capture_request_t *request); void (*get_metadata_vendor_tag_ops)(const struct camera3_device*, vendor_tag_query_ops_t* ops); void (*dump)(const struct camera3_device *, int fd); int (*flush)(const struct camera3_device *); /* reserved for future use */ void *reserved[8]; } camera3_device_ops_t;
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
camera3_device_ops_t 映射函数指针操作: hardware/libhardware/modules/camera/3_0/Camera.cpp
const camera3_device_ops_t Camera::sOps = {
.initialize = default_camera_hal::initialize,
.configure_streams = default_camera_hal::configure_streams,
.register_stream_buffers = default_camera_hal::register_stream_buffers,
.construct_default_request_settings
= default_camera_hal::construct_default_request_settings,
.process_capture_request = default_camera_hal::process_capture_request,
.get_metadata_vendor_tag_ops = NULL,
.dump = default_camera_hal::dump,
.flush = default_camera_hal::flush,
.reserved = {0},
};
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
这样找到在camera hal层的函数指针的映射关系。
映射到:vendor/qcom/proprietary/camx/src/core/hal/camxhal3entry.cpp中的static Dispatch g_dispatchHAL3(&g_jumpTableHAL3);:
/// Array containing camera3_device_ops_t methods
static camera3_device_ops_t g_camera3DeviceOps =
{
CamX::initialize,
CamX::configure_streams,
NULL,
CamX::construct_default_request_settings,
CamX::process_capture_request,
NULL,
CamX::dump,
CamX::flush,
{0},
};
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
定义了g_camera3DeviceOps变量:
/// Array containing camera3_device_ops_t methods
static camera3_device_ops_t g_camera3DeviceOps =
{
CamX::initialize,
CamX::configure_streams,
NULL,
CamX::construct_default_request_settings,
CamX::process_capture_request,
NULL,
CamX::dump,
CamX::flush,
{0},
};
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
并在\vendor\qcom\proprietary\camx\src\core\hal\camxhaldevice.cpp的Initialize方法中通过GetCamera3DeviceOps获取,建立联系:
CamxResult HALDevice::Initialize( const HwModule* pHwModule, UINT32 cameraId) { CamxResult result = CamxResultSuccess; m_cameraId = cameraId; if (CamxResultSuccess == result) { m_camera3Device.hwDevice.tag = HARDWARE_DEVICE_TAG; /// @todo (CAMX-351) Get from local macro m_camera3Device.hwDevice.version = CAMERA_DEVICE_API_VERSION_3_3; m_camera3Device.hwDevice.close = reinterpret_cast<CloseFunc>(GetHwDeviceCloseFunc()); m_camera3Device.pDeviceOps = reinterpret_cast<Camera3DeviceOps*>(GetCamera3DeviceOps()); m_camera3Device.pPrivateData = this; // NOWHINE CP036a: Need exception here m_camera3Device.hwDevice.pModule = const_cast<HwModule*>(pHwModule); m_HALCallbacks.ProcessCaptureResult = ProcessCaptureResult; m_HALCallbacks.NotifyResult = Notify; CamX::ChiOverrideBypass(&m_HALCallbacks); } m_pHALSession = NULL; Utils::Memset(m_flushRequest, 0, sizeof(m_flushRequest)); return result; }
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
看一下g_jumpTableHAL3 变量:在 vendor/qcom/proprietary/camx/src/core/hal/camxhal3.cpp 中定义的:
// Jump table for HAL3 JumpTableHAL3 g_jumpTableHAL3 = { open, get_number_of_cameras, get_camera_info, set_callbacks, get_vendor_tag_ops, open_legacy, set_torch_mode, init, parallelQuery, setCallBack, get_tag_count, get_all_tags, get_section_name, get_tag_name, get_tag_type, close, initialize, configure_streams, construct_default_request_settings, process_capture_request, dump, flush, camera_device_status_change, torch_mode_status_change, process_capture_result, notify };
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 30
- 31
- 32
这儿直接构成了指针函数的映射关系(对应camxhaldevice.cpp中的函数)。vendor/qcom/proprietary/camx/src/core/chi/camxchitypes.h中定义了CHIAppCallbacks结构体,如下:
struct CHIAppCallbacks { /// @brief Called by the driver to get number of cameras INT(*CHIGetNumCameras)( UINT32* pNumFwCameras, UINT32* pNumLogicalCameras); /// @brief Called by the driver to get the camera info for the camera id CamxResult (*CHIGetCameraInfo)( UINT32 cameraId, CameraInfo* pCameraInfo); /// @brief Defines the prototype for the device status change callback method from to the framework. Please refer to /// the camera_device_status_change documentation in hardware/camera_common.h. VOID (*CHIInitializeOverrideSession)( UINT32 cameraId, const Camera3Device* pCamera3Device, const HALCallbacks* pHALCallbacks, Camera3StreamConfig* pStreamConfig, BOOL* isOverrideEnabled, VOID** ppPrivate); /// @brief Defines the prototype for the torch mode status change callback method from to the framework. Please refer to /// the torch_mode_status_change documentation in hardware/camera_common.h. VOID (*CHIFinalizeOverrideSession)( const Camera3Device* pCamera3Device, UINT64* pSession, VOID** ppPrivate); /// @brief Called by the driver to inform about session closing VOID (*CHITeardownOverrideSession)( const Camera3Device* pCamera3Device, UINT64* pSession, VOID* pPrivate); /// @brief Called by the driver to pass on capture request call to CHI INT (*CHIOverrideProcessRequest)( const Camera3Device* pCamera3Device, Camera3CaptureRequest* pCaptureRequest, VOID* pPrivate); /// @brief Called by the driver to allow for additional override processing during open() INT(*CHIExtendOpen)( UINT32 cameraId, VOID* pPrivateData); /// @brief Called by the driver to allow for additional override processing during close() INT(*CHIExtendClose)( UINT32 cameraId, VOID* pPrivateData); /// @brief Called by the driver to allow override to remap special camera IDs into logical camera IDs UINT32(*CHIRemapCameraId)( UINT32 frameworkCameraId, CameraIdRemapMode mode); /// @brief Interface to allow various override-specific settings to be toggled. UINT32(*CHIModifySettings)( VOID* pPrivateData); /// @brief Get any vendor tag specific request settings the override wants to get added to the default settings VOID (*CHIGetDefaultRequestSettings)( UINT32 frameworkCameraId, INT requestTemplate, const Metadata** pAdditionalMetadata); /// @brief Called by the driver to allow for flush() INT(*CHIOverrideFlush)( const Camera3Device* pCamera3Device); INT(*CHIParallelQuery) (INT num, char* list[]); INT(*CHISetCallback) (void*); }; typedef VOID(*CHIHALOverrideEntry)(CHIAppCallbacks* pCHIAppCallbacks);
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 30
- 31
- 32
- 33
- 34
- 35
- 36
- 37
- 38
- 39
- 40
- 41
- 42
- 43
- 44
- 45
- 46
- 47
- 48
- 49
- 50
- 51
- 52
- 53
- 54
- 55
- 56
- 57
- 58
- 59
- 60
- 61
- 62
- 63
- 64
- 65
- 66
- 67
- 68
- 69
- 70
- 71
- 72
- 73
- 74
- 75
这个结构体是函数指针,映射关系:vendor/qcom/proprietary/camx/src/core/hal/camxhal3module.h中定义了 CHIAppCallbacks m_ChiAppCallbacks;
CHIAppCallbacks m_ChiAppCallbacks; ///< CHI HAL override entry
- 1
vendor/qcom/proprietary/camx/src/core/hal/camxhal3module.cpp中的 HAL3Module构造函数中,存在下面的执行语句:
CHIHALOverrideEntry funcCHIHALOverrideEntry = reinterpret_cast<CHIHALOverrideEntry>( CamX::OsUtils::LibGetAddr(m_hChiOverrideModuleHandle, "chi_hal_override_entry")); if (NULL != funcCHIHALOverrideEntry) { funcCHIHALOverrideEntry(&m_ChiAppCallbacks); //对应到 chxextensioninterface.cpp 中的chi_hal_override_entry函数 CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIGetNumCameras); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIGetCameraInfo); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIFinalizeOverrideSession); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIInitializeOverrideSession); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIOverrideProcessRequest); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIOverrideFlush); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHITeardownOverrideSession); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIExtendOpen); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIExtendClose); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIRemapCameraId); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIModifySettings); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHIParallelQuery); CAMX_ASSERT(NULL != m_ChiAppCallbacks.CHISetCallback); if ((NULL != m_ChiAppCallbacks.CHIGetNumCameras) && (NULL != m_ChiAppCallbacks.CHIGetCameraInfo) && (NULL != m_ChiAppCallbacks.CHIFinalizeOverrideSession) && (NULL != m_ChiAppCallbacks.CHIInitializeOverrideSession) && (NULL != m_ChiAppCallbacks.CHIOverrideProcessRequest) && (NULL != m_ChiAppCallbacks.CHIOverrideFlush) && (NULL != m_ChiAppCallbacks.CHITeardownOverrideSession) && (NULL != m_ChiAppCallbacks.CHIExtendOpen) && (NULL != m_ChiAppCallbacks.CHIExtendClose) && (NULL != m_ChiAppCallbacks.CHIRemapCameraId) && (NULL != m_ChiAppCallbacks.CHIModifySettings) && (NULL != m_ChiAppCallbacks.CHIParallelQuery) && (NULL != m_ChiAppCallbacks.CHISetCallback)) { CAMX_LOG_WARN(CamxLogGroupHAL, "CHI Module library function pointers exchanged"); } }
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 30
- 31
- 32
- 33
- 34
- 35
- 36
- 37
- 38
- 39
m_ChiAppCallbacks 通过 funcCHIHALOverrideEntry 映射到 chi_hal_override_entry这个 chi_hal_override_entry 就是指vendor/qcom/proprietary/chi-cdk/vendor/chioverride/default/chxextensioninterface.cpp中的 chi_hal_override_entry 函数,如下:
void chi_hal_override_entry( chi_hal_callback_ops_t* callbacks) { ExtensionModule* pExtensionModule = ExtensionModule::GetInstance(); CHX_ASSERT(NULL != callbacks); if (NULL != pExtensionModule) { callbacks->chi_get_num_cameras = chi_get_num_cameras; callbacks->chi_get_camera_info = chi_get_camera_info; callbacks->chi_initialize_override_session = chi_initialize_override_session; callbacks->chi_finalize_override_session = chi_finalize_override_session; callbacks->chi_override_process_request = chi_override_process_request; callbacks->chi_teardown_override_session = chi_teardown_override_session; callbacks->chi_extend_open = chi_extend_open; callbacks->chi_extend_close = chi_extend_close; callbacks->chi_remap_camera_id = chi_remap_camera_id; callbacks->chi_modify_settings = chi_modify_settings; callbacks->chi_get_default_request_settings = chi_get_default_request_settings; callbacks->chi_override_flush = chi_override_flush; callbacks->chi_parallelquery = chi_parallelquery; callbacks->chi_setcallback = chi_setcallback; } }
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
这样就建立了 CHIAppCallbacks 中函数指针的一一映射关系。
vendor/qcom/proprietary/chi-cdk/vendor/chioverride/default/chxextensionmodule.cpp 中的 ExtensionModule::OverrideProcessRequest 函数中执行了 m_pUsecaseFactory->CreateUsecaseObject,如下:
m_pSelectedUsecase[logicalCameraId] =
m_pUsecaseFactory->CreateUsecaseObject(&m_logicalCameraInfo[logicalCameraId],
static_cast<UsecaseId>(m_SelectedUsecaseId[logicalCameraId]),
m_pStreamConfig[logicalCameraId]);
- 1
- 2
- 3
- 4
直接调用到:vendor/qcom/proprietary/chi-cdk/vendor/chioverride/default/chxusecaseutils.cpp中的 UsecaseFactory::CreateUsecaseObject 函数:
Usecase* UsecaseFactory::CreateUsecaseObject( LogicalCameraInfo* pLogicalCameraInfo, ///< camera info UsecaseId usecaseId, ///< Usecase Id camera3_stream_configuration_t* pStreamConfig) ///< Stream config { Usecase* pUsecase = NULL; UINT camera0Id = pLogicalCameraInfo->ppDeviceInfo[0]->cameraId; CHX_LOG_ERROR("UsecaseFactory::CreateUsecaseObject id = %d", usecaseId); switch (usecaseId) { case UsecaseId::PreviewZSL: pUsecase = AdvancedCameraUsecase::Create(pLogicalCameraInfo, pStreamConfig, usecaseId); break; case UsecaseId::MultiCamera: pUsecase = UsecaseMultiCamera::Create(pLogicalCameraInfo, pStreamConfig); break; case UsecaseId::MultiCameraVR: pUsecase = UsecaseMultiVRCamera::Create(pLogicalCameraInfo, pStreamConfig); break; case UsecaseId::MFNR: pUsecase = UsecaseMFNR::Create(camera0Id, pStreamConfig); break; case UsecaseId::QuadCFA: pUsecase = UsecaseQuadCFA::Create(pLogicalCameraInfo, pStreamConfig); break; case UsecaseId::Torch: pUsecase = UsecaseTorch::Create(camera0Id, pStreamConfig); break; default: pUsecase = AdvancedCameraUsecase::Create(pLogicalCameraInfo, pStreamConfig, usecaseId); break; } return pUsecase; }
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 30
- 31
- 32
- 33
- 34
- 35
enum class UsecaseId { NoMatch = 0, Default = 1, Preview = 2, PreviewZSL = 3, MFNR = 4, MFSR = 5, MultiCamera = 6, QuadCFA = 7, RawJPEG = 8, MultiCameraVR = 9, Torch = 10, YUVInBlobOut = 11, MaxUsecases = 12, };
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
前置摄像头的UsecaseId是 PreviewZSL,是单摄,后置摄像头的UsecaseId是 MultiCamera,是多摄。
camx-usecase
vendor/qcom/proprietary/camx/src/core/chi/camxchi.cpp中的 ChiEntry函数如下:
/// ChiEntry CAMX_VISIBILITY_PUBLIC VOID ChiEntry( ChiContextOps* pChiContextOps) { if (NULL != pChiContextOps) { pChiContextOps->size = sizeof(ChiContextOps); pChiContextOps->majorVersion = CHI_API_MAJOR_VERSION; pChiContextOps->minorVersion = CHI_API_MINOR_VERSION; pChiContextOps->pOpenContext = CamX::ChiOpenContext; pChiContextOps->pCloseContext = CamX::ChiCloseContext; pChiContextOps->pGetNumCameras = CamX::ChiGetNumCameras; pChiContextOps->pGetCameraInfo = CamX::ChiGetCameraInfo; pChiContextOps->pEnumerateSensorModes = CamX::ChiEnumerateSensorModes; pChiContextOps->pCreatePipelineDescriptor = CamX::ChiCreatePipelineDescriptor; pChiContextOps->pDestroyPipelineDescriptor = CamX::ChiDestroyPipelineDescriptor; pChiContextOps->pCreateSession = CamX::ChiCreateSession; pChiContextOps->pDestroySession = CamX::ChiDestroySession; pChiContextOps->pFlushSession = CamX::ChiFlushSession; pChiContextOps->pActivatePipeline = CamX::ChiActivatePipeline; pChiContextOps->pDeactivatePipeline = CamX::ChiDeactivatePipeline; pChiContextOps->pSubmitPipelineRequest = CamX::ChiSubmitPipelineRequest; pChiContextOps->pTagOps = CamX::ChiGetTagOps; } // This is the workaround for presil HAL3test on Windows // On Device, set_camera_metadata_vendor_ops will be call the set the // static vendor tag operation in camera_metadata.c // // On Windows side, theoretically hal3test should mimic what Android framework // does and call the set_camera_metadata_vendor_ops function in libcamxext library // However, in Windows, if both hal3test.exe and hal.dll link to libcamxext library, // there are two different instance of static varibles sit in different memory location. // Even if set_camera_metadata_vendor_ops is called in hal3test, when hal try to // access to vendor tag ops, it is still not set. // // This is also a workaround to call vendor tag ops in Chi at GetNumCameras which happens to get called before // GetVendorTagOps CamX::g_vendorTagOps.get_all_tags = CamX::ChiGetAllTags; CamX::g_vendorTagOps.get_section_name = CamX::ChiGetSectionName; CamX::g_vendorTagOps.get_tag_count = CamX::ChiGetTagCount; CamX::g_vendorTagOps.get_tag_name = CamX::ChiGetTagName; CamX::g_vendorTagOps.get_tag_type = CamX::ChiGetTagType; set_camera_metadata_vendor_ops(&(CamX::g_vendorTagOps)); }
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 30
- 31
- 32
- 33
- 34
- 35
- 36
- 37
- 38
- 39
- 40
- 41
- 42
- 43
- 44
- 45
- 46
- 47
- 48
- 49
这个函数映射关系很重要,也在camx chi中比较常见,直接映射在此文件的CamxChi类中。都是从 vendor/qcom/proprietary/chi-cdk/vendor/chioverride/default/chxextensionmodule.cpp中调用过来的。
下面是预览时capture request 处理流程图:
check这段流程的时候我们最关注应该是5个重要的处理类型:
-
1.UseCase
vendor/qcom/proprietary/chi-cdk/vendor/chioverride/default/chxusecase.h上面有介绍类图。UseCase在camx中很有很多衍生类,这是camx针对不同的stream来建立不同的usecase对象,用来管理选择feature,并且创建 pipeline以及session。 -
2.ChiFeature
vendor/qcom/proprietary/chi-cdk/vendor/chioverride/default/chxfeature.h, usecase选择相应的feature,关联一组pipeline,收到request请求,根据request选择对应的feature。 -
3.Node
vendro/qcom/propriatary/camx/src/core/camxnode.h,下面有类图。Node是camx中非常重要的一个父类,是camx中处理camera 请求的一个中间节点,用于处理pipeline下发的请求,下面有类图介绍,比较重要**的Node子类已经标出来了。 -
4.pipeline
一连串node的集合,通过pipeline下发给各个node处理。 -
5.session
若干个有关联的pipeline的集合,用来管理pipeline,使用pipeline处理请求。
注: Node 节点在camx chi架构中至关重要,数据的处理都是通过封装好的Node节点来进行的。
camxnode结构图:
node节点的创建地方在vendor/qcom/proprietary/camx/src/hwl/titian17x/camxtitian17xfactory.cpp
Node* Titan17xFactory::HwCreateNode( const NodeCreateInputData* pCreateInputData, NodeCreateOutputData* pCreateOutputData ) const { Node* pNode = NULL; switch (pCreateInputData->pNodeInfo->nodeId) { case AutoFocus: pNode = AutoFocusNode::Create(pCreateInputData, pCreateOutputData); break; case BPS: pNode = BPSNode::Create(pCreateInputData, pCreateOutputData); break; case IFE: pNode = IFENode::Create(pCreateInputData, pCreateOutputData); break; case IPE: pNode = IPENode::Create(pCreateInputData, pCreateOutputData); break; case Sensor: pNode = SensorNode::Create(pCreateInputData, pCreateOutputData); break; case StatsProcessing: pNode = StatsProcessingNode::Create(pCreateInputData, pCreateOutputData); break; case JPEG: pNode = JPEGEncNode::Create(pCreateInputData, pCreateOutputData); break; case JPEGAggregator: pNode = JPEGAggrNode::Create(pCreateInputData, pCreateOutputData); break; case StatsParse: pNode = StatsParseNode::Create(pCreateInputData, pCreateOutputData); break; case ChiExternalNode: pNode = ChiNodeWrapper::Create(pCreateInputData, pCreateOutputData); break; case FDHw: pNode = FDHwNode::Create(pCreateInputData, pCreateOutputData); break; case FDManager: pNode = FDManagerNode::Create(pCreateInputData, pCreateOutputData); break; case OfflineStats: pNode = OfflineStatsNode::Create(pCreateInputData, pCreateOutputData); break; case Torch: pNode = TorchNode::Create(pCreateInputData, pCreateOutputData); break; case LRME: pNode = LRMENode::Create(pCreateInputData, pCreateOutputData); break; case RANSAC: pNode = RANSACNode::Create(pCreateInputData, pCreateOutputData); break; default: CAMX_ASSERT_ALWAYS_MESSAGE("Unexpected node type"); break; } return pNode; }
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- 21
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 30
- 31
- 32
- 33
- 34
- 35
- 36
- 37
- 38
- 39
- 40
- 41
- 42
- 43
- 44
- 45
- 46
- 47
- 48
- 49
- 50
- 51
- 52
- 53
- 54
- 55
- 56
- 57
- 58
- 59
- 60
- 61
- 62
- 63
- 64
camx_feature:
在 vendor/qcom/proprietary/chi-cdk/vendor/chioverride/default/chxadvancedcamerausecase.cpp中的SelectFeatures(…)函数中有这些feature的创建代码。
拍照的场景分为前置和后置,前置是单摄,后置是多摄,前面也有介绍,单摄和多摄使用的usecase是不同:
前置拍照创建的pipeline有:
MiuiZSLSnapshotJpeg at index 0 for session 0, session's pipeline 0, camera id:1
MiuiZSLPreviewRaw at index 1 for session 1, session's pipeline 0, camera id:1
BinningZSLYuv2Jpeg at index 2 for session 2, session's pipeline 0, camera id:1
BinningMerge3YuvCustomTo1Yuv at index 3 for session 3, session's pipeline 0, camera id:1
ZSLSnapshotYUV at index 4 for session 4, session's pipeline 0, camera id:1
AdvancedAsdMeta at index 5 for session 5, session's pipeline 0, camera id:1
SWMFClearShotYuv at index 6 for session 6, session's pipeline 0, camera id:1
BinningZSLSnapshotYUV at index 7 for session 7, session's pipeline 0, camera id:1
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
后置拍照创建的pipeline有:
BackCameraJpegEncode at index 0 for session 0, session's pipeline 0, camera id:0
MfnrPrefilter at index 1 for session 0, session's pipeline 1, camera id:0
MfnrBlend at index 2 for session 0, session's pipeline 2, camera id:0
MfnrPostFilter at index 3 for session 0, session's pipeline 3, camera id:0
MfnrScale at index 4 for session 0, session's pipeline 4, camera id:0
Merge3YuvCustomTo1Yuv at index 5 for session 1, session's pipeline 0, camera id:0
ZSLSnapshotYUV at index 6 for session 2, session's pipeline 0, camera id:0
ZSLSnapshotYUVAux at index 7 for session 3, session's pipeline 0, camera id:3
SWMFSRYuv at index 8 for session 4, session's pipeline 0, camera id:0
AdvancedAsdMeta at index 9 for session 5, session's pipeline 0, camera id:0
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
pipeline在camx中的配置文件是:vendor/qcom/proprietary/chi-cdk/vendor/topology/default/titan17x_usecases.xml,编译时会根据此xml的配置生成对应vendor\qcom\proprietary\chi-cdk\vendor\chioverride\default\g_pipelines.h,vendor\qcom\proprietary\chi-cdk\vendor\chioverride\default\build\android\Android.mk:
...
$(info $(shell perl $(CAMX_CDK_PATH)/topology/usecaseconverter.pl $(CAMX_VENDOR_PATH)/topology/default/titan17x_usecases.xml $(LOCAL_PATH)/g_pipelines.h))
...
- 1
- 2
- 3
然后在\vendor\qcom\proprietary\chi-cdk\vendor\chioverride\default\chxusecaseutils.cpp中会根据pStreamConfig->num_streams选择到对应的Usecases(g_pipelines.h中定义):
// UsecaseSelector::DefaultMatchingUsecase
ChiUsecase* UsecaseSelector::DefaultMatchingUsecase(
camera3_stream_configuration_t* pStreamConfig)
{
...
pSelectedUsecase = &pChiTargetUsecases->pChiUsecases[i];
...
}
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
DefaultMatchingUsecase方法即在\vendor\qcom\proprietary\chi-cdk\vendor\chioverride\default\chxadvancedcamerausecase.cpp 被调用:
CDKResult AdvancedCameraUsecase::SelectUsecaseConfig(
LogicalCameraInfo* pCameraInfo, ///< Camera info
camera3_stream_configuration_t* pStreamConfig) ///< Stream configuration
{
...
m_pChiUsecase = UsecaseSelector::DefaultMatchingUsecase(pStreamConfig);
...
}
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
四、camx 调试
修改\vendor\qcom\proprietary\camx\src\core\camxsettings.xml 设置 log 打印级别,如:
overrideLogLevels=0x1F
logInfoMask=0x40080
logVerboseMask=0x40000
- 1
- 2
- 3
原文链接:https://www.cnblogs.com/blogs-of-lxl/p/10668554.html
至此,本篇已结束。转载网络的文章,小编觉得很优秀,欢迎点击阅读原文,支持原创作者,如有侵权,恳请联系小编删除,欢迎您的建议与指正。同时期待您的关注,感谢您的阅读,谢谢!
声明:本文内容由网友自发贡献,不代表【wpsshop博客】立场,版权归原作者所有,本站不承担相应法律责任。如您发现有侵权的内容,请联系我们。转载请注明出处:https://www.wpsshop.cn/w/菜鸟追梦旅行/article/detail/596311
推荐阅读
相关标签
