/* * Copyright (C) 2009 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef HARDWARE_API_H_ #define HARDWARE_API_H_ #include #include #include #include #include "VideoAPI.h" #include struct ANativeWindowBuffer; namespace android { // This structure is used to enable Android native buffer use for either // graphic buffers or secure buffers. // // TO CONTROL ANDROID GRAPHIC BUFFER USAGE: // // A pointer to this struct is passed to the OMX_SetParameter when the extension // index for the 'OMX.google.android.index.enableAndroidNativeBuffers' extension // is given. // // When Android native buffer use is disabled for a port (the default state), // the OMX node should operate as normal, and expect UseBuffer calls to set its // buffers. This is the mode that will be used when CPU access to the buffer is // required. // // When Android native buffer use has been enabled for a given port, the video // color format for the port is to be interpreted as an Android pixel format // rather than an OMX color format. Enabling Android native buffers may also // change how the component receives the native buffers. If store-metadata-mode // is enabled on the port, the component will receive the buffers as specified // in the section below. Otherwise, unless the node supports the // 'OMX.google.android.index.useAndroidNativeBuffer2' extension, it should // expect to receive UseAndroidNativeBuffer calls (via OMX_SetParameter) rather // than UseBuffer calls for that port. // // TO CONTROL ANDROID SECURE BUFFER USAGE: // // A pointer to this struct is passed to the OMX_SetParameter when the extension // index for the 'OMX.google.android.index.allocateNativeHandle' extension // is given. // // When native handle use is disabled for a port (the default state), // the OMX node should operate as normal, and expect AllocateBuffer calls to // return buffer pointers. This is the mode that will be used for non-secure // buffers if component requires allocate buffers instead of use buffers. // // When native handle use has been enabled for a given port, the component // shall allocate native_buffer_t objects containing that can be passed between // processes using binder. This is the mode that will be used for secure buffers. // When an OMX component allocates native handle for buffers, it must close and // delete that handle when it frees those buffers. Even though pBuffer will point // to a native handle, nFilledLength, nAllocLength and nOffset will correspond // to the data inside the opaque buffer. struct EnableAndroidNativeBuffersParams { OMX_U32 nSize; OMX_VERSIONTYPE nVersion; OMX_U32 nPortIndex; OMX_BOOL enable; }; typedef struct EnableAndroidNativeBuffersParams AllocateNativeHandleParams; // A pointer to this struct is passed to OMX_SetParameter() when the extension index // "OMX.google.android.index.storeMetaDataInBuffers" or // "OMX.google.android.index.storeANWBufferInMetadata" is given. // // When meta data is stored in the video buffers passed between OMX clients // and OMX components, interpretation of the buffer data is up to the // buffer receiver, and the data may or may not be the actual video data, but // some information helpful for the receiver to locate the actual data. // The buffer receiver thus needs to know how to interpret what is stored // in these buffers, with mechanisms pre-determined externally. How to // interpret the meta data is outside of the scope of this parameter. // // Currently, this is used to pass meta data from video source (camera component, for instance) to // video encoder to avoid memcpying of input video frame data, as well as to pass dynamic output // buffer to video decoder. To do this, bStoreMetaData is set to OMX_TRUE. // // If bStoreMetaData is set to false, real YUV frame data will be stored in input buffers, and // the output buffers contain either real YUV frame data, or are themselves native handles as // directed by enable/use-android-native-buffer parameter settings. // In addition, if no OMX_SetParameter() call is made on a port with the corresponding extension // index, the component should not assume that the client is not using metadata mode for the port. // // If the component supports this using the "OMX.google.android.index.storeANWBufferInMetadata" // extension and bStoreMetaData is set to OMX_TRUE, data is passed using the VideoNativeMetadata // layout as defined below. Each buffer will be accompanied by a fence. The fence must signal // before the buffer can be used (e.g. read from or written into). When returning such buffer to // the client, component must provide a new fence that must signal before the returned buffer can // be used (e.g. read from or written into). The component owns the incoming fenceFd, and must close // it when fence has signaled. The client will own and close the returned fence file descriptor. // // If the component supports this using the "OMX.google.android.index.storeMetaDataInBuffers" // extension and bStoreMetaData is set to OMX_TRUE, data is passed using VideoGrallocMetadata // (the layout of which is the VideoGrallocMetadata defined below). Camera input can be also passed // as "CameraSource", the layout of which is vendor dependent. // // Metadata buffers are registered with the component using UseBuffer calls, or can be allocated // by the component for encoder-metadata-output buffers. struct StoreMetaDataInBuffersParams { OMX_U32 nSize; OMX_VERSIONTYPE nVersion; OMX_U32 nPortIndex; OMX_BOOL bStoreMetaData; }; // Meta data buffer layout used to transport output frames to the decoder for // dynamic buffer handling. struct VideoGrallocMetadata { MetadataBufferType eType; // must be kMetadataBufferTypeGrallocSource #ifdef OMX_ANDROID_COMPILE_AS_32BIT_ON_64BIT_PLATFORMS OMX_PTR pHandle; #else buffer_handle_t pHandle; #endif }; // Legacy name for VideoGrallocMetadata struct. struct VideoDecoderOutputMetaData : public VideoGrallocMetadata {}; struct VideoNativeMetadata { MetadataBufferType eType; // must be kMetadataBufferTypeANWBuffer #ifdef OMX_ANDROID_COMPILE_AS_32BIT_ON_64BIT_PLATFORMS OMX_PTR pBuffer; #else struct ANativeWindowBuffer* pBuffer; #endif int nFenceFd; // -1 if unused }; // Meta data buffer layout for passing a native_handle to codec struct VideoNativeHandleMetadata { MetadataBufferType eType; // must be kMetadataBufferTypeNativeHandleSource #ifdef OMX_ANDROID_COMPILE_AS_32BIT_ON_64BIT_PLATFORMS OMX_PTR pHandle; #else native_handle_t *pHandle; #endif }; // A pointer to this struct is passed to OMX_SetParameter() when the extension // index "OMX.google.android.index.prepareForAdaptivePlayback" is given. // // This method is used to signal a video decoder, that the user has requested // seamless resolution change support (if bEnable is set to OMX_TRUE). // nMaxFrameWidth and nMaxFrameHeight are the dimensions of the largest // anticipated frames in the video. If bEnable is OMX_FALSE, no resolution // change is expected, and the nMaxFrameWidth/Height fields are unused. // // If the decoder supports dynamic output buffers, it may ignore this // request. Otherwise, it shall request resources in such a way so that it // avoids full port-reconfiguration (due to output port-definition change) // during resolution changes. // // DO NOT USE THIS STRUCTURE AS IT WILL BE REMOVED. INSTEAD, IMPLEMENT // METADATA SUPPORT FOR VIDEO DECODERS. struct PrepareForAdaptivePlaybackParams { OMX_U32 nSize; OMX_VERSIONTYPE nVersion; OMX_U32 nPortIndex; OMX_BOOL bEnable; OMX_U32 nMaxFrameWidth; OMX_U32 nMaxFrameHeight; }; // A pointer to this struct is passed to OMX_SetParameter when the extension // index for the 'OMX.google.android.index.useAndroidNativeBuffer' extension is // given. This call will only be performed if a prior call was made with the // 'OMX.google.android.index.enableAndroidNativeBuffers' extension index, // enabling use of Android native buffers. struct UseAndroidNativeBufferParams { OMX_U32 nSize; OMX_VERSIONTYPE nVersion; OMX_U32 nPortIndex; OMX_PTR pAppPrivate; OMX_BUFFERHEADERTYPE **bufferHeader; const sp& nativeBuffer; }; // A pointer to this struct is passed to OMX_GetParameter when the extension // index for the 'OMX.google.android.index.getAndroidNativeBufferUsage' // extension is given. The usage bits returned from this query will be used to // allocate the Gralloc buffers that get passed to the useAndroidNativeBuffer // command. struct GetAndroidNativeBufferUsageParams { OMX_U32 nSize; // IN OMX_VERSIONTYPE nVersion; // IN OMX_U32 nPortIndex; // IN OMX_U32 nUsage; // OUT }; // An enum OMX_COLOR_FormatAndroidOpaque to indicate an opaque colorformat // is declared in media/stagefright/openmax/OMX_IVCommon.h // This will inform the encoder that the actual // colorformat will be relayed by the GRalloc Buffers. // OMX_COLOR_FormatAndroidOpaque = 0x7F000001, // A pointer to this struct is passed to OMX_SetParameter when the extension // index for the 'OMX.google.android.index.prependSPSPPSToIDRFrames' extension // is given. // A successful result indicates that future IDR frames will be prefixed by // SPS/PPS. struct PrependSPSPPSToIDRFramesParams { OMX_U32 nSize; OMX_VERSIONTYPE nVersion; OMX_BOOL bEnable; }; // A pointer to this struct is passed to OMX_GetParameter when the extension // index for the 'OMX.google.android.index.describeColorFormat' // extension is given. This method can be called from any component state // other than invalid. The color-format, frame width/height, and stride/ // slice-height parameters are ones that are associated with a raw video // port (input or output), but the stride/slice height parameters may be // incorrect. bUsingNativeBuffers is OMX_TRUE if native android buffers will // be used (while specifying this color format). // // The component shall fill out the MediaImage structure that // corresponds to the described raw video format, and the potentially corrected // stride and slice-height info. // // The behavior is slightly different if bUsingNativeBuffers is OMX_TRUE, // though most implementations can ignore this difference. When using native buffers, // the component may change the configured color format to an optimized format. // Additionally, when allocating these buffers for flexible usecase, the framework // will set the SW_READ/WRITE_OFTEN usage flags. In this case (if bUsingNativeBuffers // is OMX_TRUE), the component shall fill out the MediaImage information for the // scenario when these SW-readable/writable buffers are locked using gralloc_lock. // Note, that these buffers may also be locked using gralloc_lock_ycbcr, which must // be supported for vendor-specific formats. // // For non-YUV packed planar/semiplanar image formats, or if bUsingNativeBuffers // is OMX_TRUE and the component does not support this color format with native // buffers, the component shall set mNumPlanes to 0, and mType to MEDIA_IMAGE_TYPE_UNKNOWN. // @deprecated: use DescribeColorFormat2Params struct DescribeColorFormat2Params; struct DescribeColorFormatParams { OMX_U32 nSize; OMX_VERSIONTYPE nVersion; // input: parameters from OMX_VIDEO_PORTDEFINITIONTYPE OMX_COLOR_FORMATTYPE eColorFormat; OMX_U32 nFrameWidth; OMX_U32 nFrameHeight; OMX_U32 nStride; OMX_U32 nSliceHeight; OMX_BOOL bUsingNativeBuffers; // output: fill out the MediaImage fields MediaImage sMediaImage; explicit DescribeColorFormatParams(const DescribeColorFormat2Params&); // for internal use only }; // A pointer to this struct is passed to OMX_GetParameter when the extension // index for the 'OMX.google.android.index.describeColorFormat2' // extension is given. This is operationally the same as DescribeColorFormatParams // but can be used for HDR and RGBA/YUVA formats. struct DescribeColorFormat2Params { OMX_U32 nSize; OMX_VERSIONTYPE nVersion; // input: parameters from OMX_VIDEO_PORTDEFINITIONTYPE OMX_COLOR_FORMATTYPE eColorFormat; OMX_U32 nFrameWidth; OMX_U32 nFrameHeight; OMX_U32 nStride; OMX_U32 nSliceHeight; OMX_BOOL bUsingNativeBuffers; // output: fill out the MediaImage2 fields MediaImage2 sMediaImage; void initFromV1(const DescribeColorFormatParams&); // for internal use only }; // A pointer to this struct is passed to OMX_SetParameter or OMX_GetParameter // when the extension index for the // 'OMX.google.android.index.configureVideoTunnelMode' extension is given. // If the extension is supported then tunneled playback mode should be supported // by the codec. If bTunneled is set to OMX_TRUE then the video decoder should // operate in "tunneled" mode and output its decoded frames directly to the // sink. In this case nAudioHwSync is the HW SYNC ID of the audio HAL Output // stream to sync the video with. If bTunneled is set to OMX_FALSE, "tunneled" // mode should be disabled and nAudioHwSync should be ignored. // OMX_GetParameter is used to query tunneling configuration. bTunneled should // return whether decoder is operating in tunneled mode, and if it is, // pSidebandWindow should contain the codec allocated sideband window handle. struct ConfigureVideoTunnelModeParams { OMX_U32 nSize; // IN OMX_VERSIONTYPE nVersion; // IN OMX_U32 nPortIndex; // IN OMX_BOOL bTunneled; // IN/OUT OMX_U32 nAudioHwSync; // IN OMX_PTR pSidebandWindow; // OUT }; // Color space description (aspects) parameters. // This is passed via OMX_SetConfig or OMX_GetConfig to video encoders and decoders when the // 'OMX.google.android.index.describeColorAspects' extension is given. Component SHALL behave // as described below if it supports this extension. // // bDataSpaceChanged and bRequestingDataSpace is assumed to be OMX_FALSE unless noted otherwise. // // VIDEO ENCODERS: the framework uses OMX_SetConfig to specify color aspects of the coded video. // This may happen: // a) before the component transitions to idle state // b) before the input frame is sent via OMX_EmptyThisBuffer in executing state // c) during execution, just before an input frame with a different color aspect information // is sent. // // The framework also uses OMX_GetConfig to // d) verify the color aspects that will be written to the stream // e) (optional) verify the color aspects that should be reported to the container for a // given dataspace/pixelformat received // // 1. Encoders SHOULD maintain an internal color aspect state, initialized to Unspecified values. // This represents the values that will be written into the bitstream. // 2. Upon OMX_SetConfig, they SHOULD update their internal state to the aspects received // (including Unspecified values). For specific aspect values that are not supported by the // codec standard, encoders SHOULD substitute Unspecified values; or they MAY use a suitable // alternative (e.g. to suggest the use of BT.709 EOTF instead of SMPTE 240M.) // 3. OMX_GetConfig SHALL return the internal state (values that will be written). // 4. OMX_SetConfig SHALL always succeed before receiving the first frame. It MAY fail afterwards, // but only if the configured values would change AND the component does not support updating the // color information to those values mid-stream. If component supports updating a portion of // the color information, those values should be updated in the internal state, and OMX_SetConfig // SHALL succeed. Otherwise, the internal state SHALL remain intact and OMX_SetConfig SHALL fail // with OMX_ErrorUnsupportedSettings. // 5. When the framework receives an input frame with an unexpected dataspace, it will query // encoders for the color aspects that should be reported to the container using OMX_GetConfig // with bDataSpaceChanged set to OMX_TRUE, and nPixelFormat/nDataSpace containing the new // format/dataspace values. This allows vendors to use extended dataspace during capture and // composition (e.g. screenrecord) - while performing color-space conversion inside the encoder - // and encode and report a different color-space information in the bitstream/container. // sColorAspects contains the requested color aspects by the client for reference, which may // include aspects not supported by the encoding. This is used together with guidance for // dataspace selection; see 6. below. // // VIDEO DECODERS: the framework uses OMX_SetConfig to specify the default color aspects to use // for the video. // This may happen: // a) before the component transitions to idle state // b) during execution, when the resolution or the default color aspects change. // // The framework also uses OMX_GetConfig to // c) get the final color aspects reported by the coded bitstream after taking the default values // into account. // // 1. Decoders should maintain two color aspect states - the default state as reported by the // framework, and the coded state as reported by the bitstream - as each state can change // independently from the other. // 2. Upon OMX_SetConfig, it SHALL update its default state regardless of whether such aspects // could be supplied by the component bitstream. (E.g. it should blindly support all enumeration // values, even unknown ones, and the Other value). This SHALL always succeed. // 3. Upon OMX_GetConfig, the component SHALL return the final color aspects by replacing // Unspecified coded values with the default values. This SHALL always succeed. // 4. Whenever the component processes color aspect information in the bitstream even with an // Unspecified value, it SHOULD update its internal coded state with that information just before // the frame with the new information would be outputted, and the component SHALL signal an // OMX_EventPortSettingsChanged event with data2 set to the extension index. // NOTE: Component SHOULD NOT signal a separate event purely for color aspect change, if it occurs // together with a port definition (e.g. size) or crop change. // 5. If the aspects a component encounters in the bitstream cannot be represented with enumeration // values as defined below, the component SHALL set those aspects to Other. Restricted values in // the bitstream SHALL be treated as defined by the relevant bitstream specifications/standards, // or as Unspecified, if not defined. // // BOTH DECODERS AND ENCODERS: the framework uses OMX_GetConfig during idle and executing state to // f) (optional) get guidance for the dataspace to set for given color aspects, by setting // bRequestingDataSpace to OMX_TRUE. The component SHALL return OMX_ErrorUnsupportedSettings // IF it does not support this request. // // 6. This is an information request that can happen at any time, independent of the normal // configuration process. This allows vendors to use extended dataspace during capture, playback // and composition - while performing color-space conversion inside the component. Component // SHALL set the desired dataspace into nDataSpace. Otherwise, it SHALL return // OMX_ErrorUnsupportedSettings to let the framework choose a nearby standard dataspace. // // 6.a. For encoders, this query happens before the first frame is received using surface encoding. // This allows the encoder to use a specific dataspace for the color aspects (e.g. because the // device supports additional dataspaces, or because it wants to perform color-space extension // to facilitate a more optimal rendering/capture pipeline.). // // 6.b. For decoders, this query happens before the first frame, and every time the color aspects // change, while using surface buffers. This allows the decoder to use a specific dataspace for // the color aspects (e.g. because the device supports additional dataspaces, or because it wants // to perform color-space extension by inline color-space conversion to facilitate a more optimal // rendering pipeline.). // // Note: the size of sAspects may increase in the future by additional fields. // Implementations SHOULD NOT require a certain size. struct DescribeColorAspectsParams { OMX_U32 nSize; // IN OMX_VERSIONTYPE nVersion; // IN OMX_U32 nPortIndex; // IN OMX_BOOL bRequestingDataSpace; // IN OMX_BOOL bDataSpaceChanged; // IN OMX_U32 nPixelFormat; // IN OMX_U32 nDataSpace; // OUT ColorAspects sAspects; // IN/OUT }; // HDR color description parameters. // This is passed via OMX_SetConfig or OMX_GetConfig to video encoders and decoders when the // 'OMX.google.android.index.describeHDRStaticInfo' extension is given and an HDR stream // is detected. Component SHALL behave as described below if it supports this extension. // // Currently, only Static Metadata Descriptor Type 1 support is required. // // VIDEO ENCODERS: the framework uses OMX_SetConfig to specify the HDR static information of the // coded video. // This may happen: // a) before the component transitions to idle state // b) before the input frame is sent via OMX_EmptyThisBuffer in executing state // c) during execution, just before an input frame with a different HDR static // information is sent. // // The framework also uses OMX_GetConfig to // d) verify the HDR static information that will be written to the stream. // // 1. Encoders SHOULD maintain an internal HDR static info data, initialized to Unspecified values. // This represents the values that will be written into the bitstream. // 2. Upon OMX_SetConfig, they SHOULD update their internal state to the info received // (including Unspecified values). For specific parameters that are not supported by the // codec standard, encoders SHOULD substitute Unspecified values. NOTE: no other substitution // is allowed. // 3. OMX_GetConfig SHALL return the internal state (values that will be written). // 4. OMX_SetConfig SHALL always succeed before receiving the first frame if the encoder is // configured into an HDR compatible profile. It MAY fail with OMX_ErrorUnsupportedSettings error // code if it is not configured into such a profile, OR if the configured values would change // AND the component does not support updating the HDR static information mid-stream. If the // component supports updating a portion of the information, those values should be updated in // the internal state, and OMX_SetConfig SHALL succeed. Otherwise, the internal state SHALL // remain intact. // // VIDEO DECODERS: the framework uses OMX_SetConfig to specify the default HDR static information // to use for the video. // a) This only happens if the client supplies this information, in which case it occurs before // the component transitions to idle state. // b) This may also happen subsequently if the default HDR static information changes. // // The framework also uses OMX_GetConfig to // c) get the final HDR static information reported by the coded bitstream after taking the // default values into account. // // 1. Decoders should maintain two HDR static information structures - the default values as // reported by the framework, and the coded values as reported by the bitstream - as each // structure can change independently from the other. // 2. Upon OMX_SetConfig, it SHALL update its default structure regardless of whether such static // parameters could be supplied by the component bitstream. (E.g. it should blindly support all // parameter values, even seemingly illegal ones). This SHALL always succeed. // Note: The descriptor ID used in sInfo may change in subsequent calls. (although for now only // Type 1 support is required.) // 3. Upon OMX_GetConfig, the component SHALL return the final HDR static information by replacing // Unspecified coded values with the default values. This SHALL always succeed. This may be // provided using any supported descriptor ID (currently only Type 1) with the goal of expressing // the most of the available static information. // 4. Whenever the component processes HDR static information in the bitstream even ones with // Unspecified parameters, it SHOULD update its internal coded structure with that information // just before the frame with the new information would be outputted, and the component SHALL // signal an OMX_EventPortSettingsChanged event with data2 set to the extension index. // NOTE: Component SHOULD NOT signal a separate event purely for HDR static info change, if it // occurs together with a port definition (e.g. size), color aspect or crop change. // 5. If certain parameters of the HDR static information encountered in the bitstream cannot be // represented using sInfo, the component SHALL use the closest representation. // // Note: the size of sInfo may increase in the future by supporting additional descriptor types. // Implementations SHOULD NOT require a certain size. struct DescribeHDRStaticInfoParams { OMX_U32 nSize; // IN OMX_VERSIONTYPE nVersion; // IN OMX_U32 nPortIndex; // IN HDRStaticInfo sInfo; // IN/OUT }; // HDR10+ metadata configuration. // // nParamSize: size of the storage starting at nValue (must be at least 1 and at most // MAX_HDR10PLUSINFO_SIZE). This field must not be modified by the component. // nParamSizeUsed: size of the actual HDR10+ metadata starting at nValue. For OMX_SetConfig, // it must not be modified by the component. For OMX_GetConfig, the component // should put the actual size of the retrieved config in this field (and in // case where nParamSize is smaller than nParamSizeUsed, the component should // still update nParamSizeUsed without actually copying the metadata to nValue). // nValue: storage of the HDR10+ metadata conforming to the user_data_registered_itu_t_t35() // syntax of SEI message for ST 2094-40. // // This is passed via OMX_SetConfig or OMX_GetConfig to video encoders and decoders when the // 'OMX.google.android.index.describeHDR10PlusInfo' extension is given. In general, this config // is associated with a particular frame. A typical sequence of usage is as follows: // // a) OMX_SetConfig associates the config with the next input buffer sent in OMX_EmptyThisBuffer // (input A); // b) The component sends OMX_EventConfigUpdate to notify the client that there is a config // update on the output port that is associated with the next output buffer that's about to // be sent via FillBufferDone callback (output A); // c) The client, upon receiving the OMX_EventConfigUpdate, calls OMX_GetConfig to retrieve // the config and associates it with output A. // // All config updates will be retrieved in the order reported, and the client is required to // call OMX_GetConfig for each OMX_EventConfigUpdate for this config. Note that the order of // OMX_EventConfigUpdate relative to FillBufferDone callback determines which output frame // the config should be associated with, the actual OMX_GetConfig for the config could happen // before or after the component calls the FillBufferDone callback. // // Depending on the video codec type (in particular, whether the codec uses in-band or out-of- // band HDR10+ metadata), the component shall behave as detailed below: // // VIDEO DECODERS: // 1) If the codec utilizes out-of-band HDR10+ metadata, the decoder must support the sequence // a) ~ c) outlined above; // 2) If the codec utilizes in-band HDR10+ metadata, OMX_SetConfig for this config should be // ignored (as the metadata is embedded in the input buffer), while the notification and // retrieval of the config on the output as outlined in b) & c) must be supported. // // VIDEO ENCODERS: // 1) If the codec utilizes out-of-band HDR10+ metadata, the decoder must support the sequence // a) ~ c) outlined above; // 2) If the codec utilizes in-band HDR10+ metadata, OMX_SetConfig for this config outlined in // a) must be supported. The notification as outlined in b) must not be sent, and the // retrieval of the config via OMX_GetConfig should be ignored (as the metadata is embedded // in the output buffer). #define MAX_HDR10PLUSINFO_SIZE 1024 struct DescribeHDR10PlusInfoParams { OMX_U32 nSize; // IN OMX_VERSIONTYPE nVersion; // IN OMX_U32 nPortIndex; // IN OMX_U32 nParamSize; // IN OMX_U32 nParamSizeUsed; // IN/OUT OMX_U8 nValue[1]; // IN/OUT }; } // namespace android extern android::OMXPluginBase *createOMXPlugin(); #endif // HARDWARE_API_H_