/* Copyright (c) 2012-2016, The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
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* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#ifndef __MM_CAMERA_INTERFACE_H__
#define __MM_CAMERA_INTERFACE_H__
// System dependencies
#include <media/msmb_camera.h>
// Camera dependencies
#include "cam_intf.h"
#include "cam_queue.h"
#define MM_CAMERA_MAX_NUM_SENSORS MSM_MAX_CAMERA_SENSORS
#define MM_CAMERA_MAX_NUM_FRAMES CAM_MAX_NUM_BUFS_PER_STREAM
/* num of channels allowed in a camera obj */
#define MM_CAMERA_CHANNEL_MAX 16
#define PAD_TO_SIZE(size, padding) \
((size + (typeof(size))(padding - 1)) & \
(typeof(size))(~(padding - 1)))
#define CEIL_DIVISION(n, d) ((n+d-1)/d)
/** CAM_DUMP_TO_FILE:
* @filename: file name
* @name:filename
* @index: index of the file
* @extn: file extension
* @p_addr: address of the buffer
* @len: buffer length
*
* dump the image to the file
**/
#define CAM_DUMP_TO_FILE(path, name, index, extn, p_addr, len) ({ \
size_t rc = 0; \
char filename[FILENAME_MAX]; \
if (index >= 0) \
snprintf(filename, FILENAME_MAX, "%s/%s%d.%s", path, name, index, extn); \
else \
snprintf(filename, FILENAME_MAX, "%s/%s.%s", path, name, extn); \
FILE *fp = fopen(filename, "w+"); \
if (fp) { \
rc = fwrite(p_addr, 1, len, fp); \
LOGE("written size %d", len); \
fclose(fp); \
} else { \
LOGE("open %s failed", filename); \
} \
})
/* Declaring Buffer structure */
struct mm_camera_buf_def;
/** mm_camera_plane_def_t : structure for frame plane info
* @num_planes : num of planes for the frame buffer, to be
* filled during mem allocation
* @planes : plane info for the frame buffer, to be filled
* during mem allocation
**/
typedef struct {
int8_t num_planes;
struct v4l2_plane planes[VIDEO_MAX_PLANES];
} mm_camera_plane_buf_def_t;
/** mm_camera_user_buf_def_t : structure for frame plane info
* @num_buffers : num of buffers in this user defined structure
* @bufs_used : actual number of buffer filled
* @buf_in_use : flag to notify buffer usage status.
* @plane_buf : Plane buffer array pointer.
**/
typedef struct {
uint8_t num_buffers;
uint8_t bufs_used; /*Num of Buffer filled by Kernel*/
uint8_t buf_in_use; /* Container buffer is freed to fill*/
int32_t buf_idx[MSM_CAMERA_MAX_USER_BUFF_CNT];
struct mm_camera_buf_def *plane_buf;
} mm_camera_user_buf_def_t;
/** mm_camera_buf_def_t: structure for stream frame buf
* @stream_id : stream handler to uniquely identify a stream
* object
* @buf_idx : index of the buf within the stream bufs, to be
* filled during mem allocation
* @timespec_ts : time stamp, to be filled when DQBUF is
* called
* @frame_idx : frame sequence num, to be filled when DQBUF
* @plane_buf : Frame plane definition
* @fd : file descriptor of the frame buffer, to be filled
* during mem allocation
* @buffer : pointer to the frame buffer, to be filled during
* mem allocation
* @frame_len : length of the whole frame, to be filled during
* mem allocation
* @mem_info : user specific pointer to additional mem info
* @flags: v4l2_buffer flags, used to report error in data buffers
**/
typedef struct mm_camera_buf_def {
uint32_t stream_id;
cam_stream_type_t stream_type;
cam_stream_buf_type buf_type;
uint32_t buf_idx;
uint8_t is_uv_subsampled;
struct timespec ts;
uint32_t frame_idx;
union {
mm_camera_plane_buf_def_t planes_buf;
mm_camera_user_buf_def_t user_buf;
};
int fd;
void *buffer;
size_t frame_len;
void *mem_info;
uint32_t flags;
} mm_camera_buf_def_t;
/** mm_camera_super_buf_t: super buf structure for bundled
* stream frames
* @camera_handle : camera handler to uniquely identify
* a camera object
* @ch_id : channel handler to uniquely ideentify a channel
* object
* @num_bufs : number of buffers in the super buf, should not
* exceeds MAX_STREAM_NUM_IN_BUNDLE
* @bufs : array of buffers in the bundle
**/
typedef struct {
uint32_t camera_handle;
uint32_t ch_id;
uint32_t num_bufs;
uint8_t bUnlockAEC;
uint8_t bReadyForPrepareSnapshot;
mm_camera_buf_def_t* bufs[MAX_STREAM_NUM_IN_BUNDLE];
} mm_camera_super_buf_t;
/** mm_camera_req_buf_type_t
* Request type for super buf from channel
**/
typedef enum {
MM_CAMERA_REQ_SUPER_BUF,
MM_CAMERA_REQ_FRAME_SYNC_BUF
} mm_camera_req_buf_type_t;
/** mm_camera_req_buf_t: Attributes for super buf request
*
* @type : type of super buf requested
* @num_buf_requested : num of super bufs requested
* @num_retro_buf_requested : number of retro bufs requested
* @primary_only : specifies if only primary camera frame for a dual
* camera is requested
**/
typedef struct {
mm_camera_req_buf_type_t type;
uint32_t num_buf_requested;
uint32_t num_retro_buf_requested;
uint8_t primary_only;
} mm_camera_req_buf_t;
typedef cam_event_t mm_camera_event_t;
/** mm_camera_event_notify_t: function definition for event
* notify handling
* @camera_handle : camera handler
* @evt : pointer to an event struct
* @user_data: user data pointer
**/
typedef void (*mm_camera_event_notify_t)(uint32_t camera_handle,
mm_camera_event_t *evt,
void *user_data);
/** mm_camera_buf_notify_t: function definition for frame notify
* handling
* @mm_camera_super_buf_t : received frame buffers
* @user_data: user data pointer
**/
typedef void (*mm_camera_buf_notify_t) (mm_camera_super_buf_t *bufs,
void *user_data);
/** map_stream_buf_op_t: function definition for operation of
* mapping stream buffers via domain socket
* @frame_idx : buffer index within stream buffers
* @plane_idx : plane index. If all planes share the same
* fd, plane_idx = -1; otherwise, plean_idx is
* the index to plane (0..num_of_planes)
* @fd : file descriptor of the stream buffer
* @size: size of the stream buffer
* @buffer: Pointer to buffer to register
* @userdata : user data pointer
**/
typedef int32_t (*map_stream_buf_op_t) (uint32_t frame_idx,
int32_t plane_idx,
int fd,
size_t size,
void *buffer,
cam_mapping_buf_type type,
void *userdata);
typedef int32_t (*map_stream_bufs_op_t) (const cam_buf_map_type_list *buf_map_list,
void *userdata);
/** unmap_stream_buf_op_t: function definition for operation of
* unmapping stream buffers via domain
* socket
* @frame_idx : buffer index within stream buffers
* @plane_idx : plane index. If all planes share the same
* fd, plane_idx = -1; otherwise, plean_idx is
* the index to plane (0..num_of_planes)
* @userdata : user data pointer
**/
typedef int32_t (*unmap_stream_buf_op_t) (uint32_t frame_idx,
int32_t plane_idx,
cam_mapping_buf_type type,
void *userdata);
/** mm_camera_map_unmap_ops_tbl_t: virtual table
* for mapping/unmapping stream buffers via
* domain socket
* @map_ops : operation for mapping
* @unmap_ops : operation for unmapping
* @userdata: user data pointer
**/
typedef struct {
map_stream_buf_op_t map_ops;
map_stream_bufs_op_t bundled_map_ops;
unmap_stream_buf_op_t unmap_ops;
void *userdata;
} mm_camera_map_unmap_ops_tbl_t;
/** mm_camera_stream_mem_vtbl_t: virtual table for stream
* memory allocation and deallocation
* @get_bufs : function definition for allocating
* stream buffers
* @put_bufs : function definition for deallocating
* stream buffers
* @user_data: user data pointer
**/
typedef struct {
void *user_data;
int32_t (*set_config_ops) (mm_camera_map_unmap_ops_tbl_t *ops_tbl,
void *user_data);
int32_t (*get_bufs) (cam_frame_len_offset_t *offset,
uint8_t *num_bufs,
uint8_t **initial_reg_flag,
mm_camera_buf_def_t **bufs,
mm_camera_map_unmap_ops_tbl_t *ops_tbl,
void *user_data);
int32_t (*put_bufs) (mm_camera_map_unmap_ops_tbl_t *ops_tbl,
void *user_data);
int32_t (*invalidate_buf)(uint32_t index, void *user_data);
int32_t (*clean_invalidate_buf)(uint32_t index, void *user_data);
} mm_camera_stream_mem_vtbl_t;
/** mm_camera_stream_config_t: structure for stream
* configuration
* @stream_info : pointer to a stream info structure
* @padding_info: padding info obtained from querycapability
* @mem_tbl : memory operation table for
* allocating/deallocating stream buffers
* @stream_cb_sync : SYNC callback handling stream frame notify
* @stream_cb : ASYNC callback handling stream frame notify
* @userdata : user data pointer
**/
typedef struct {
cam_stream_info_t *stream_info;
cam_padding_info_t padding_info;
mm_camera_stream_mem_vtbl_t mem_vtbl;
mm_camera_buf_notify_t stream_cb_sync;
mm_camera_buf_notify_t stream_cb;
void *userdata;
} mm_camera_stream_config_t;
/** mm_camera_super_buf_notify_mode_t: enum for super uffer
* notification mode
* @MM_CAMERA_SUPER_BUF_NOTIFY_BURST :
* ZSL use case: get burst of frames
* @MM_CAMERA_SUPER_BUF_NOTIFY_CONTINUOUS :
* get continuous frames: when the super buf is ready
* dispatch it to HAL
**/
typedef enum {
MM_CAMERA_SUPER_BUF_NOTIFY_BURST = 0,
MM_CAMERA_SUPER_BUF_NOTIFY_CONTINUOUS,
MM_CAMERA_SUPER_BUF_NOTIFY_MAX
} mm_camera_super_buf_notify_mode_t;
/** mm_camera_super_buf_priority_t: enum for super buffer
* matching priority
* @MM_CAMERA_SUPER_BUF_PRIORITY_NORMAL :
* Save the frame no matter focused or not. Currently only
* this type is supported.
* @MM_CAMERA_SUPER_BUF_PRIORITY_FOCUS :
* only queue the frame that is focused. Will enable meta
* data header to carry focus info
* @MM_CAMERA_SUPER_BUF_PRIORITY_EXPOSURE_BRACKETING :
* after shutter, only queue matched exposure index
**/
typedef enum {
MM_CAMERA_SUPER_BUF_PRIORITY_NORMAL = 0,
MM_CAMERA_SUPER_BUF_PRIORITY_FOCUS,
MM_CAMERA_SUPER_BUF_PRIORITY_EXPOSURE_BRACKETING,
MM_CAMERA_SUPER_BUF_PRIORITY_LOW,/* Bundled metadata frame may not match*/
MM_CAMERA_SUPER_BUF_PRIORITY_MAX
} mm_camera_super_buf_priority_t;
/** mm_camera_advanced_capture_t: enum for advanced capture type.
* @MM_CAMERA_AF_BRACKETING :
* to enable AF Bracketig.
* @MM_CAMERA_AE_BRACKETING :
* to enable AF Bracketing.
* @MM_CAMERA_FLASH_BRACKETING :
* to enable Flash Bracketing.
* @MM_CAMERA_ZOOM_1X :
* to enable zoom 1x capture request
**/
typedef enum {
MM_CAMERA_AF_BRACKETING = 0,
MM_CAMERA_AE_BRACKETING,
MM_CAMERA_FLASH_BRACKETING,
MM_CAMERA_ZOOM_1X,
MM_CAMERA_FRAME_CAPTURE,
} mm_camera_advanced_capture_t;
/** mm_camera_stream_cb_type: enum for stream buffer callback type.
* @MM_CAMERA_STREAM_CB_TYPE_ASYNC :
* callback is async type. buffer process done in client thread context
* @MM_CAMERA_STREAM_CB_TYPE_SYNC :
* callback is sync type. buffer process done interface thread context
**/
typedef enum {
MM_CAMERA_STREAM_CB_TYPE_ASYNC,
MM_CAMERA_STREAM_CB_TYPE_SYNC,
} mm_camera_stream_cb_type;
/** mm_camera_channel_attr_t: structure for defining channel
* attributes
* @notify_mode : notify mode: burst or continuous
* @water_mark : queue depth. Only valid for burst mode
* @look_back : look back how many frames from last buf.
* Only valid for burst mode
* @post_frame_skip : after send first frame to HAL, how many
* frames needing to be skipped for next
* delivery. Only valid for burst mode
* @max_unmatched_frames : max number of unmatched frames in
* queue
* @enable_frame_sync: Enables frame sync for dual camera
* @priority : save matched priority frames only
* @user_expected_frame_id : Number of frames, camera interface
* will wait for getting the instant capture frame.
**/
typedef struct {
mm_camera_super_buf_notify_mode_t notify_mode;
uint8_t water_mark;
uint8_t look_back;
uint8_t post_frame_skip;
uint8_t max_unmatched_frames;
uint8_t enable_frame_sync;
mm_camera_super_buf_priority_t priority;
uint8_t user_expected_frame_id;
} mm_camera_channel_attr_t;
typedef struct {
/** query_capability: fucntion definition for querying static
* camera capabilities
* @camera_handle : camer handler
* Return value: 0 -- success
* -1 -- failure
* Note: would assume cam_capability_t is already mapped
**/
int32_t (*query_capability) (uint32_t camera_handle);
/** register_event_notify: fucntion definition for registering
* for event notification
* @camera_handle : camer handler
* @evt_cb : callback for event notify
* @user_data : user data poiner
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*register_event_notify) (uint32_t camera_handle,
mm_camera_event_notify_t evt_cb,
void *user_data);
/** close_camera: fucntion definition for closing a camera
* @camera_handle : camer handler
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*close_camera) (uint32_t camera_handle);
/** map_buf: fucntion definition for mapping a camera buffer
* via domain socket
* @camera_handle : camer handler
* @buf_type : type of mapping buffers, can be value of
* CAM_MAPPING_BUF_TYPE_CAPABILITY
* CAM_MAPPING_BUF_TYPE_SETPARM_BUF
* CAM_MAPPING_BUF_TYPE_GETPARM_BUF
* @fd : file descriptor of the stream buffer
* @size : size of the stream buffer
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*map_buf) (uint32_t camera_handle,
uint8_t buf_type,
int fd,
size_t size,
void *buffer);
/** map_bufs: function definition for mapping multiple camera buffers
* via domain socket
* @camera_handle : camera handler
* @buf_map_list : list of buffers to map
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*map_bufs) (uint32_t camera_handle,
const cam_buf_map_type_list *buf_map_list);
/** unmap_buf: fucntion definition for unmapping a camera buffer
* via domain socket
* @camera_handle : camer handler
* @buf_type : type of mapping buffers, can be value of
* CAM_MAPPING_BUF_TYPE_CAPABILITY
* CAM_MAPPING_BUF_TYPE_SETPARM_BUF
* CAM_MAPPING_BUF_TYPE_GETPARM_BUF
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*unmap_buf) (uint32_t camera_handle,
uint8_t buf_type);
/** set_parms: fucntion definition for setting camera
* based parameters to server
* @camera_handle : camer handler
* @parms : batch for parameters to be set, stored in
* parm_buffer_t
* Return value: 0 -- success
* -1 -- failure
* Note: would assume parm_buffer_t is already mapped, and
* according parameter entries to be set are filled in the
* buf before this call
**/
int32_t (*set_parms) (uint32_t camera_handle,
parm_buffer_t *parms);
/** get_parms: fucntion definition for querying camera
* based parameters from server
* @camera_handle : camer handler
* @parms : batch for parameters to be queried, stored in
* parm_buffer_t
* Return value: 0 -- success
* -1 -- failure
* Note: would assume parm_buffer_t is already mapped, and
* according parameter entries to be queried are filled in
* the buf before this call
**/
int32_t (*get_parms) (uint32_t camera_handle,
parm_buffer_t *parms);
/** do_auto_focus: fucntion definition for performing auto focus
* @camera_handle : camer handler
* Return value: 0 -- success
* -1 -- failure
* Note: if this call success, we will always assume there will
* be an auto_focus event following up.
**/
int32_t (*do_auto_focus) (uint32_t camera_handle);
/** cancel_auto_focus: fucntion definition for cancelling
* previous auto focus request
* @camera_handle : camer handler
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*cancel_auto_focus) (uint32_t camera_handle);
/** prepare_snapshot: fucntion definition for preparing hardware
* for snapshot.
* @camera_handle : camer handler
* @do_af_flag : flag indicating if AF needs to be done
* 0 -- no AF needed
* 1 -- AF needed
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*prepare_snapshot) (uint32_t camera_handle,
int32_t do_af_flag);
/** start_zsl_snapshot: function definition for starting
* zsl snapshot.
* @camera_handle : camer handler
* @ch_id : channel id
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*start_zsl_snapshot) (uint32_t camera_handle, uint32_t ch_id);
/** stop_zsl_snapshot: function definition for stopping
* zsl snapshot.
* @camera_handle : camer handler
* @ch_id : channel id
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*stop_zsl_snapshot) (uint32_t camera_handle, uint32_t ch_id);
/** add_channel: fucntion definition for adding a channel
* @camera_handle : camer handler
* @ch_id : channel handler
* @attr : pointer to channel attribute structure
* @channel_cb : callbak to handle bundled super buffer
* @userdata : user data pointer
* Return value: channel id, zero is invalid ch_id
* Note: attr, channel_cb, and userdata can be NULL if no
* superbufCB is needed
**/
uint32_t (*add_channel) (uint32_t camera_handle,
mm_camera_channel_attr_t *attr,
mm_camera_buf_notify_t channel_cb,
void *userdata);
/** delete_channel: fucntion definition for deleting a channel
* @camera_handle : camer handler
* @ch_id : channel handler
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*delete_channel) (uint32_t camera_handle,
uint32_t ch_id);
/** get_bundle_info: function definition for querying bundle
* info of the channel
* @camera_handle : camera handler
* @ch_id : channel handler
* @bundle_info : bundle info to be filled in
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*get_bundle_info) (uint32_t camera_handle,
uint32_t ch_id,
cam_bundle_config_t *bundle_info);
/** add_stream: fucntion definition for adding a stream
* @camera_handle : camer handler
* @ch_id : channel handler
* Return value: stream_id. zero is invalid stream_id
**/
uint32_t (*add_stream) (uint32_t camera_handle,
uint32_t ch_id);
/** delete_stream: fucntion definition for deleting a stream
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handler
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*delete_stream) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t stream_id);
/** link_stream: function definition for linking a stream
* @camera_handle : camera handle
* @ch_id : channel handle from which the stream originates
* @stream_id : stream handle
* @linked_ch_id: channel handle in which the stream will be linked
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*link_stream) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t stream_id,
uint32_t linked_ch_id);
/** config_stream: fucntion definition for configuring a stream
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handler
* @confid : pointer to a stream configuration structure
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*config_stream) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t stream_id,
mm_camera_stream_config_t *config);
/** map_stream_buf: fucntion definition for mapping
* stream buffer via domain socket
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handler
* @buf_type : type of mapping buffers, can be value of
* CAM_MAPPING_BUF_TYPE_STREAM_BUF
* CAM_MAPPING_BUF_TYPE_STREAM_INFO
* CAM_MAPPING_BUF_TYPE_OFFLINE_INPUT_BUF
* @buf_idx : buffer index within the stream buffers
* @plane_idx : plane index. If all planes share the same fd,
* plane_idx = -1; otherwise, plean_idx is the
* index to plane (0..num_of_planes)
* @fd : file descriptor of the stream buffer
* @size : size of the stream buffer
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*map_stream_buf) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t stream_id,
uint8_t buf_type,
uint32_t buf_idx,
int32_t plane_idx,
int fd,
size_t size,
void *buffer);
/** map_stream_bufs: function definition for mapping multiple
* stream buffers via domain socket
* @camera_handle : camera handler
* @ch_id : channel handler
* @buf_map_list : list of buffers to map
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*map_stream_bufs) (uint32_t camera_handle,
uint32_t ch_id,
const cam_buf_map_type_list *buf_map_list);
/** unmap_stream_buf: fucntion definition for unmapping
* stream buffer via domain socket
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handler
* @buf_type : type of mapping buffers, can be value of
* CAM_MAPPING_BUF_TYPE_STREAM_BUF
* CAM_MAPPING_BUF_TYPE_STREAM_INFO
* CAM_MAPPING_BUF_TYPE_OFFLINE_INPUT_BUF
* @buf_idx : buffer index within the stream buffers
* @plane_idx : plane index. If all planes share the same fd,
* plane_idx = -1; otherwise, plean_idx is the
* index to plane (0..num_of_planes)
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*unmap_stream_buf) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t stream_id,
uint8_t buf_type,
uint32_t buf_idx,
int32_t plane_idx);
/** set_stream_parms: fucntion definition for setting stream
* specific parameters to server
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handler
* @parms : batch for parameters to be set
* Return value: 0 -- success
* -1 -- failure
* Note: would assume parm buffer is already mapped, and
* according parameter entries to be set are filled in the
* buf before this call
**/
int32_t (*set_stream_parms) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t s_id,
cam_stream_parm_buffer_t *parms);
/** get_stream_parms: fucntion definition for querying stream
* specific parameters from server
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handler
* @parms : batch for parameters to be queried
* Return value: 0 -- success
* -1 -- failure
* Note: would assume parm buffer is already mapped, and
* according parameter entries to be queried are filled in
* the buf before this call
**/
int32_t (*get_stream_parms) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t s_id,
cam_stream_parm_buffer_t *parms);
/** start_channel: fucntion definition for starting a channel
* @camera_handle : camer handler
* @ch_id : channel handler
* Return value: 0 -- success
* -1 -- failure
* This call will start all streams belongs to the channel
**/
int32_t (*start_channel) (uint32_t camera_handle,
uint32_t ch_id);
/** stop_channel: fucntion definition for stopping a channel
* @camera_handle : camer handler
* @ch_id : channel handler
* Return value: 0 -- success
* -1 -- failure
* This call will stop all streams belongs to the channel
**/
int32_t (*stop_channel) (uint32_t camera_handle,
uint32_t ch_id);
/** qbuf: fucntion definition for queuing a frame buffer back to
* kernel for reuse
* @camera_handle : camer handler
* @ch_id : channel handler
* @buf : a frame buffer to be queued back to kernel
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*qbuf) (uint32_t camera_handle,
uint32_t ch_id,
mm_camera_buf_def_t *buf);
/** cancel_buffer: fucntion definition for recalling a frame
* buffer from the kernel this is most likely when h/w
* failed to use this buffer and dropped the frame we use
* this API to recall the buffer and return it to the
* framework
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handle
* @buf : a frame buffer to be queued back to kernel
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*cancel_buffer) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t stream_id,
uint32_t buf_idx);
/** get_queued_buf_count: fucntion definition for querying queued buf count
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handler
* Return value: queued buf count
**/
int32_t (*get_queued_buf_count) (uint32_t camera_handle,
uint32_t ch_id,
uint32_t stream_id);
/** request_super_buf: fucntion definition for requesting frames
* from superbuf queue in burst mode
* @camera_handle : camer handler
* @ch_id : channel handler
* @buf : provides info related to the super buf request
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*request_super_buf) (uint32_t camera_handle,
uint32_t ch_id,
mm_camera_req_buf_t *buf);
/** cancel_super_buf_request: fucntion definition for canceling
* frames dispatched from superbuf queue in
* burst mode
* @camera_handle : camer handler
* @ch_id : channel handler
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*cancel_super_buf_request) (uint32_t camera_handle,
uint32_t ch_id);
/** flush_super_buf_queue: function definition for flushing out
* all frames in the superbuf queue up to frame_idx,
* even if frames with frame_idx come in later than
* this call.
* @camera_handle : camer handler
* @ch_id : channel handler
* @frame_idx : frame index up until which all superbufs are flushed
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*flush_super_buf_queue) (uint32_t camera_handle,
uint32_t ch_id, uint32_t frame_idx);
/** configure_notify_mode: function definition for configuring the
* notification mode of channel
* @camera_handle : camera handler
* @ch_id : channel handler
* @notify_mode : notification mode
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*configure_notify_mode) (uint32_t camera_handle,
uint32_t ch_id,
mm_camera_super_buf_notify_mode_t notify_mode);
/** process_advanced_capture: function definition for start/stop advanced capture
* for snapshot.
* @camera_handle : camera handle
* @ch_id : channel handler
* @type : advanced capture type.
* @trigger : flag indicating if advanced capture needs to be done
* 0 -- stop advanced capture
* 1 -- start advanced capture
* @in_value: Input value. Configaration
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*process_advanced_capture) (uint32_t camera_handle,
uint32_t ch_id, mm_camera_advanced_capture_t type,
int8_t start_flag, void *in_value);
/** get_session_id: gets the backend session id from the kernel
* @camera_handle : camera handle
* @sessionid : session id to be retrieved
* Return value: 0 -- success
* -1 -- failure
* Note: if this call succeeds, we will get a valid session id
**/
int32_t (*get_session_id) (uint32_t camera_handle,
uint32_t* sessionid);
/** sync_related_sensors: sends sync cmd
* @camera_handle : camera handle
* @related_cam_info : related cam info to be sent to server
* Return value: 0 -- success
* -1 -- failure
* Note: if this call succeeds, we will get linking established in back end
**/
int32_t (*sync_related_sensors) (uint32_t camera_handle,
cam_sync_related_sensors_event_info_t*
related_cam_info);
/** flush: function definition for flush
* @camera_handle: camera handler
* Return value: 0 -- success
* -1 -- failure
**/
int32_t (*flush) (uint32_t camera_handle);
/** register_stream_buf_cb: fucntion definition for registering special stream callbacks
* @camera_handle : camer handler
* @ch_id : channel handler
* @stream_id : stream handler
* @buf_cb : callback function pointer
* @cb_type : Callback type SYNC/ASYNC
* @userdata : user data pointer
* Return value: 0 -- success
* - 1 -- failure
**/
int32_t (*register_stream_buf_cb) (uint32_t camera_handle,
uint32_t ch_id, uint32_t stream_id, mm_camera_buf_notify_t buf_cb,
mm_camera_stream_cb_type cb_type, void *userdata);
} mm_camera_ops_t;
/** mm_camera_vtbl_t: virtual table for camera operations
* @camera_handle : camera handler which uniquely identifies a
* camera object
* @ops : API call table
**/
typedef struct {
uint32_t camera_handle;
mm_camera_ops_t *ops;
} mm_camera_vtbl_t;
/* return number of cameras */
uint8_t get_num_of_cameras();
/* return reference pointer of camera vtbl */
int32_t camera_open(uint8_t camera_idx, mm_camera_vtbl_t **camera_obj);
/* helper functions */
int32_t mm_stream_calc_offset_preview(cam_stream_info_t *stream_info,
cam_dimension_t *dim,
cam_padding_info_t *padding,
cam_stream_buf_plane_info_t *buf_planes);
int32_t mm_stream_calc_offset_post_view(cam_format_t fmt,
cam_dimension_t *dim,
cam_stream_buf_plane_info_t *buf_planes);
int32_t mm_stream_calc_offset_snapshot(cam_format_t fmt,
cam_dimension_t *dim,
cam_padding_info_t *padding,
cam_stream_buf_plane_info_t *buf_planes);
int32_t mm_stream_calc_offset_raw(cam_format_t fmt,
cam_dimension_t *dim,
cam_padding_info_t *padding,
cam_stream_buf_plane_info_t *buf_planes);
int32_t mm_stream_calc_offset_video(cam_format_t fmt,
cam_dimension_t *dim,
cam_stream_buf_plane_info_t *buf_planes);
int32_t mm_stream_calc_offset_metadata(cam_dimension_t *dim,
cam_padding_info_t *padding,
cam_stream_buf_plane_info_t *buf_planes);
int32_t mm_stream_calc_offset_postproc(cam_stream_info_t *stream_info,
cam_padding_info_t *padding,
cam_stream_buf_plane_info_t *buf_planes);
int32_t mm_stream_calc_offset_analysis(cam_format_t fmt,
cam_dimension_t *dim,
cam_padding_info_t *padding,
cam_stream_buf_plane_info_t *buf_planes);
uint32_t mm_stream_calc_lcm (int32_t num1, int32_t num2);
struct camera_info *get_cam_info(uint32_t camera_id, cam_sync_type_t *pCamType);
uint8_t is_yuv_sensor(uint32_t camera_id);
#endif /*__MM_CAMERA_INTERFACE_H__*/