/* Copyright (c) 2012-2017, 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, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ // To remove #include // System dependencies #include #include #include #include #include #include #define MMAN_H #include MMAN_H // Camera dependencies #include "mm_qcamera_dbg.h" #include "mm_qcamera_app.h" static pthread_mutex_t app_mutex; static int thread_status = 0; static pthread_cond_t app_cond_v; #define MM_QCAMERA_APP_NANOSEC_SCALE 1000000000 int mm_camera_app_timedwait(uint8_t seconds) { int rc = 0; pthread_mutex_lock(&app_mutex); if(FALSE == thread_status) { struct timespec tw; memset(&tw, 0, sizeof tw); tw.tv_sec = 0; tw.tv_nsec = time(0) + seconds * MM_QCAMERA_APP_NANOSEC_SCALE; rc = pthread_cond_timedwait(&app_cond_v, &app_mutex,&tw); thread_status = FALSE; } pthread_mutex_unlock(&app_mutex); return rc; } int mm_camera_app_wait() { int rc = 0; pthread_mutex_lock(&app_mutex); if(FALSE == thread_status){ pthread_cond_wait(&app_cond_v, &app_mutex); } thread_status = FALSE; pthread_mutex_unlock(&app_mutex); return rc; } void mm_camera_app_done() { pthread_mutex_lock(&app_mutex); thread_status = TRUE; pthread_cond_signal(&app_cond_v); pthread_mutex_unlock(&app_mutex); } int mm_app_load_hal(mm_camera_app_t *my_cam_app) { memset(&my_cam_app->hal_lib, 0, sizeof(hal_interface_lib_t)); my_cam_app->hal_lib.ptr = dlopen("libmmcamera_interface.so", RTLD_NOW); my_cam_app->hal_lib.ptr_jpeg = dlopen("libmmjpeg_interface.so", RTLD_NOW); if (!my_cam_app->hal_lib.ptr || !my_cam_app->hal_lib.ptr_jpeg) { LOGE("Error opening HAL library %s\n", dlerror()); return -MM_CAMERA_E_GENERAL; } *(void **)&(my_cam_app->hal_lib.get_num_of_cameras) = dlsym(my_cam_app->hal_lib.ptr, "get_num_of_cameras"); *(void **)&(my_cam_app->hal_lib.mm_camera_open) = dlsym(my_cam_app->hal_lib.ptr, "camera_open"); *(void **)&(my_cam_app->hal_lib.jpeg_open) = dlsym(my_cam_app->hal_lib.ptr_jpeg, "jpeg_open"); if (my_cam_app->hal_lib.get_num_of_cameras == NULL || my_cam_app->hal_lib.mm_camera_open == NULL || my_cam_app->hal_lib.jpeg_open == NULL) { LOGE("Error loading HAL sym %s\n", dlerror()); return -MM_CAMERA_E_GENERAL; } if (my_cam_app->num_cameras == 0) { my_cam_app->num_cameras = my_cam_app->hal_lib.get_num_of_cameras(); } LOGD("num_cameras = %d\n", my_cam_app->num_cameras); return MM_CAMERA_OK; } int mm_app_allocate_ion_memory(mm_camera_app_buf_t *buf, __unused unsigned int ion_type) { int rc = MM_CAMERA_OK; struct ion_handle_data handle_data; struct ion_allocation_data alloc; struct ion_fd_data ion_info_fd; int main_ion_fd = -1; void *data = NULL; main_ion_fd = open("/dev/ion", O_RDONLY); if (main_ion_fd <= 0) { LOGE("Ion dev open failed %s\n", strerror(errno)); goto ION_OPEN_FAILED; } memset(&alloc, 0, sizeof(alloc)); alloc.len = buf->mem_info.size; /* to make it page size aligned */ alloc.len = (alloc.len + 4095U) & (~4095U); alloc.align = 4096; alloc.flags = ION_FLAG_CACHED; alloc.heap_id_mask = ION_HEAP(ION_SYSTEM_HEAP_ID); rc = ioctl(main_ion_fd, ION_IOC_ALLOC, &alloc); if (rc < 0) { LOGE("ION allocation failed %s with rc = %d \n",strerror(errno), rc); goto ION_ALLOC_FAILED; } memset(&ion_info_fd, 0, sizeof(ion_info_fd)); ion_info_fd.handle = alloc.handle; rc = ioctl(main_ion_fd, ION_IOC_SHARE, &ion_info_fd); if (rc < 0) { LOGE("ION map failed %s\n", strerror(errno)); goto ION_MAP_FAILED; } data = mmap(NULL, alloc.len, PROT_READ | PROT_WRITE, MAP_SHARED, ion_info_fd.fd, 0); if (data == MAP_FAILED) { LOGE("ION_MMAP_FAILED: %s (%d)\n", strerror(errno), errno); goto ION_MAP_FAILED; } buf->mem_info.main_ion_fd = main_ion_fd; buf->mem_info.fd = ion_info_fd.fd; buf->mem_info.handle = ion_info_fd.handle; buf->mem_info.size = alloc.len; buf->mem_info.data = data; return MM_CAMERA_OK; ION_MAP_FAILED: memset(&handle_data, 0, sizeof(handle_data)); handle_data.handle = ion_info_fd.handle; ioctl(main_ion_fd, ION_IOC_FREE, &handle_data); ION_ALLOC_FAILED: close(main_ion_fd); ION_OPEN_FAILED: return -MM_CAMERA_E_GENERAL; } int mm_app_deallocate_ion_memory(mm_camera_app_buf_t *buf) { struct ion_handle_data handle_data; int rc = 0; rc = munmap(buf->mem_info.data, buf->mem_info.size); if (buf->mem_info.fd >= 0) { close(buf->mem_info.fd); buf->mem_info.fd = -1; } if (buf->mem_info.main_ion_fd >= 0) { memset(&handle_data, 0, sizeof(handle_data)); handle_data.handle = buf->mem_info.handle; ioctl(buf->mem_info.main_ion_fd, ION_IOC_FREE, &handle_data); close(buf->mem_info.main_ion_fd); buf->mem_info.main_ion_fd = -1; } return rc; } /* cmd = ION_IOC_CLEAN_CACHES, ION_IOC_INV_CACHES, ION_IOC_CLEAN_INV_CACHES */ int mm_app_cache_ops(mm_camera_app_meminfo_t *mem_info, int cmd) { struct ion_flush_data cache_inv_data; struct ion_custom_data custom_data; int ret = MM_CAMERA_OK; #ifdef USE_ION if (NULL == mem_info) { LOGE("mem_info is NULL, return here"); return -MM_CAMERA_E_GENERAL; } memset(&cache_inv_data, 0, sizeof(cache_inv_data)); memset(&custom_data, 0, sizeof(custom_data)); cache_inv_data.vaddr = mem_info->data; cache_inv_data.fd = mem_info->fd; cache_inv_data.handle = mem_info->handle; cache_inv_data.length = (unsigned int)mem_info->size; custom_data.cmd = (unsigned int)cmd; custom_data.arg = (unsigned long)&cache_inv_data; LOGD("addr = %p, fd = %d, handle = %lx length = %d, ION Fd = %d", cache_inv_data.vaddr, cache_inv_data.fd, (unsigned long)cache_inv_data.handle, cache_inv_data.length, mem_info->main_ion_fd); if(mem_info->main_ion_fd >= 0) { if(ioctl(mem_info->main_ion_fd, ION_IOC_CUSTOM, &custom_data) < 0) { LOGE("Cache Invalidate failed\n"); ret = -MM_CAMERA_E_GENERAL; } } #endif return ret; } void mm_app_dump_frame(mm_camera_buf_def_t *frame, char *name, char *ext, uint32_t frame_idx) { char file_name[FILENAME_MAX]; int file_fd; int i; int offset = 0; if ( frame != NULL) { snprintf(file_name, sizeof(file_name), QCAMERA_DUMP_FRM_LOCATION"%s_%04d.%s", name, frame_idx, ext); file_fd = open(file_name, O_RDWR | O_CREAT, 0777); if (file_fd < 0) { LOGE("cannot open file %s \n", file_name); } else { for (i = 0; i < frame->planes_buf.num_planes; i++) { LOGD("saving file from address: %p, data offset: %d, " "length: %d \n", frame->buffer, frame->planes_buf.planes[i].data_offset, frame->planes_buf.planes[i].length); write(file_fd, (uint8_t *)frame->buffer + offset, frame->planes_buf.planes[i].length); offset += (int)frame->planes_buf.planes[i].length; } close(file_fd); LOGD("dump %s", file_name); } } } void mm_app_dump_jpeg_frame(const void * data, size_t size, char* name, char* ext, uint32_t index) { char buf[FILENAME_MAX]; int file_fd; if ( data != NULL) { snprintf(buf, sizeof(buf), QCAMERA_DUMP_FRM_LOCATION"test/%s_%u.%s", name, index, ext); LOGD("%s size =%zu, jobId=%u", buf, size, index); file_fd = open(buf, O_RDWR | O_CREAT, 0777); write(file_fd, data, size); close(file_fd); } } int mm_app_alloc_bufs(mm_camera_app_buf_t* app_bufs, cam_frame_len_offset_t *frame_offset_info, uint8_t num_bufs, uint8_t is_streambuf, size_t multipleOf) { uint32_t i, j; unsigned int ion_type = 0x1 << CAMERA_ION_FALLBACK_HEAP_ID; if (is_streambuf) { ion_type |= 0x1 << CAMERA_ION_HEAP_ID; } for (i = 0; i < num_bufs ; i++) { if ( 0 < multipleOf ) { size_t m = frame_offset_info->frame_len / multipleOf; if ( ( frame_offset_info->frame_len % multipleOf ) != 0 ) { m++; } app_bufs[i].mem_info.size = m * multipleOf; } else { app_bufs[i].mem_info.size = frame_offset_info->frame_len; } mm_app_allocate_ion_memory(&app_bufs[i], ion_type); app_bufs[i].buf.buf_idx = i; app_bufs[i].buf.planes_buf.num_planes = (int8_t)frame_offset_info->num_planes; app_bufs[i].buf.fd = app_bufs[i].mem_info.fd; app_bufs[i].buf.frame_len = app_bufs[i].mem_info.size; app_bufs[i].buf.buffer = app_bufs[i].mem_info.data; app_bufs[i].buf.mem_info = (void *)&app_bufs[i].mem_info; /* Plane 0 needs to be set seperately. Set other planes * in a loop. */ app_bufs[i].buf.planes_buf.planes[0].length = frame_offset_info->mp[0].len; app_bufs[i].buf.planes_buf.planes[0].m.userptr = (long unsigned int)app_bufs[i].buf.fd; app_bufs[i].buf.planes_buf.planes[0].data_offset = frame_offset_info->mp[0].offset; app_bufs[i].buf.planes_buf.planes[0].reserved[0] = 0; for (j = 1; j < (uint8_t)frame_offset_info->num_planes; j++) { app_bufs[i].buf.planes_buf.planes[j].length = frame_offset_info->mp[j].len; app_bufs[i].buf.planes_buf.planes[j].m.userptr = (long unsigned int)app_bufs[i].buf.fd; app_bufs[i].buf.planes_buf.planes[j].data_offset = frame_offset_info->mp[j].offset; app_bufs[i].buf.planes_buf.planes[j].reserved[0] = app_bufs[i].buf.planes_buf.planes[j-1].reserved[0] + app_bufs[i].buf.planes_buf.planes[j-1].length; } } LOGD("X"); return MM_CAMERA_OK; } int mm_app_release_bufs(uint8_t num_bufs, mm_camera_app_buf_t* app_bufs) { int i, rc = MM_CAMERA_OK; LOGD("E"); for (i = 0; i < num_bufs; i++) { rc = mm_app_deallocate_ion_memory(&app_bufs[i]); } memset(app_bufs, 0, num_bufs * sizeof(mm_camera_app_buf_t)); LOGD("X"); return rc; } int mm_app_stream_initbuf(cam_frame_len_offset_t *frame_offset_info, 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) { mm_camera_stream_t *stream = (mm_camera_stream_t *)user_data; mm_camera_buf_def_t *pBufs = NULL; uint8_t *reg_flags = NULL; int i, rc; stream->offset = *frame_offset_info; LOGD("alloc buf for stream_id %d, len=%d, num planes: %d, offset: %d", stream->s_id, frame_offset_info->frame_len, frame_offset_info->num_planes, frame_offset_info->mp[1].offset); if (stream->num_of_bufs > CAM_MAX_NUM_BUFS_PER_STREAM) stream->num_of_bufs = CAM_MAX_NUM_BUFS_PER_STREAM; pBufs = (mm_camera_buf_def_t *)malloc(sizeof(mm_camera_buf_def_t) * stream->num_of_bufs); reg_flags = (uint8_t *)malloc(sizeof(uint8_t) * stream->num_of_bufs); if (pBufs == NULL || reg_flags == NULL) { LOGE("No mem for bufs"); if (pBufs != NULL) { free(pBufs); } if (reg_flags != NULL) { free(reg_flags); } return -1; } rc = mm_app_alloc_bufs(&stream->s_bufs[0], frame_offset_info, stream->num_of_bufs, 1, stream->multipleOf); if (rc != MM_CAMERA_OK) { LOGE("mm_stream_alloc_bufs err = %d", rc); free(pBufs); free(reg_flags); return rc; } for (i = 0; i < stream->num_of_bufs; i++) { /* mapping stream bufs first */ pBufs[i] = stream->s_bufs[i].buf; reg_flags[i] = 1; rc = ops_tbl->map_ops(pBufs[i].buf_idx, -1, pBufs[i].fd, (uint32_t)pBufs[i].frame_len, pBufs[i].buffer, CAM_MAPPING_BUF_TYPE_STREAM_BUF, ops_tbl->userdata); if (rc != MM_CAMERA_OK) { LOGE("mapping buf[%d] err = %d", i, rc); break; } } if (rc != MM_CAMERA_OK) { int j; for (j=0; j>i; j++) { ops_tbl->unmap_ops(pBufs[j].buf_idx, -1, CAM_MAPPING_BUF_TYPE_STREAM_BUF, ops_tbl->userdata); } mm_app_release_bufs(stream->num_of_bufs, &stream->s_bufs[0]); free(pBufs); free(reg_flags); return rc; } *num_bufs = stream->num_of_bufs; *bufs = pBufs; *initial_reg_flag = reg_flags; LOGD("X"); return rc; } int32_t mm_app_stream_deinitbuf(mm_camera_map_unmap_ops_tbl_t *ops_tbl, void *user_data) { mm_camera_stream_t *stream = (mm_camera_stream_t *)user_data; int i; for (i = 0; i < stream->num_of_bufs ; i++) { /* mapping stream bufs first */ ops_tbl->unmap_ops(stream->s_bufs[i].buf.buf_idx, -1, CAM_MAPPING_BUF_TYPE_STREAM_BUF, ops_tbl->userdata); } mm_app_release_bufs(stream->num_of_bufs, &stream->s_bufs[0]); LOGD("X"); return 0; } int32_t mm_app_stream_clean_invalidate_buf(uint32_t index, void *user_data) { mm_camera_stream_t *stream = (mm_camera_stream_t *)user_data; return mm_app_cache_ops(&stream->s_bufs[index].mem_info, ION_IOC_CLEAN_INV_CACHES); } int32_t mm_app_stream_invalidate_buf(uint32_t index, void *user_data) { mm_camera_stream_t *stream = (mm_camera_stream_t *)user_data; return mm_app_cache_ops(&stream->s_bufs[index].mem_info, ION_IOC_INV_CACHES); } int32_t mm_app_stream_clean_buf(uint32_t index, void *user_data) { mm_camera_stream_t *stream = (mm_camera_stream_t *)user_data; return mm_app_cache_ops(&stream->s_bufs[index].mem_info, ION_IOC_CLEAN_CACHES); } static void notify_evt_cb(uint32_t camera_handle, mm_camera_event_t *evt, void *user_data) { mm_camera_test_obj_t *test_obj = (mm_camera_test_obj_t *)user_data; if (test_obj == NULL || test_obj->cam->camera_handle != camera_handle) { LOGE("Not a valid test obj"); return; } LOGD("E evt = %d", evt->server_event_type); switch (evt->server_event_type) { case CAM_EVENT_TYPE_AUTO_FOCUS_DONE: LOGD("rcvd auto focus done evt"); break; case CAM_EVENT_TYPE_ZOOM_DONE: LOGD("rcvd zoom done evt"); break; default: break; } LOGD("X"); } int mm_app_open(mm_camera_app_t *cam_app, int cam_id, mm_camera_test_obj_t *test_obj) { int32_t rc = 0; cam_frame_len_offset_t offset_info; LOGD("BEGIN\n"); rc = cam_app->hal_lib.mm_camera_open((uint8_t)cam_id, &(test_obj->cam)); if(rc || !test_obj->cam) { LOGE("dev open error. rc = %d, vtbl = %p\n", rc, test_obj->cam); return -MM_CAMERA_E_GENERAL; } LOGD("Open Camera id = %d handle = %d", cam_id, test_obj->cam->camera_handle); /* alloc ion mem for capability buf */ memset(&offset_info, 0, sizeof(offset_info)); offset_info.frame_len = sizeof(cam_capability_t); rc = mm_app_alloc_bufs(&test_obj->cap_buf, &offset_info, 1, 0, 0); if (rc != MM_CAMERA_OK) { LOGE("alloc buf for capability error\n"); goto error_after_cam_open; } /* mapping capability buf */ rc = test_obj->cam->ops->map_buf(test_obj->cam->camera_handle, CAM_MAPPING_BUF_TYPE_CAPABILITY, test_obj->cap_buf.mem_info.fd, test_obj->cap_buf.mem_info.size, test_obj->cap_buf.buf.buffer); if (rc != MM_CAMERA_OK) { LOGE("map for capability error\n"); goto error_after_cap_buf_alloc; } /* alloc ion mem for getparm buf */ memset(&offset_info, 0, sizeof(offset_info)); offset_info.frame_len = sizeof(parm_buffer_t); rc = mm_app_alloc_bufs(&test_obj->parm_buf, &offset_info, 1, 0, 0); if (rc != MM_CAMERA_OK) { LOGE("alloc buf for getparm_buf error\n"); goto error_after_cap_buf_map; } /* mapping getparm buf */ rc = test_obj->cam->ops->map_buf(test_obj->cam->camera_handle, CAM_MAPPING_BUF_TYPE_PARM_BUF, test_obj->parm_buf.mem_info.fd, test_obj->parm_buf.mem_info.size, test_obj->parm_buf.buf.buffer); if (rc != MM_CAMERA_OK) { LOGE("map getparm_buf error\n"); goto error_after_getparm_buf_alloc; } test_obj->params_buffer = (parm_buffer_t*) test_obj->parm_buf.mem_info.data; LOGH("\n%s params_buffer=%p\n",test_obj->params_buffer); rc = test_obj->cam->ops->register_event_notify(test_obj->cam->camera_handle, notify_evt_cb, test_obj); if (rc != MM_CAMERA_OK) { LOGE("failed register_event_notify"); rc = -MM_CAMERA_E_GENERAL; goto error_after_getparm_buf_map; } rc = test_obj->cam->ops->query_capability(test_obj->cam->camera_handle); if (rc != MM_CAMERA_OK) { LOGE("failed query_capability"); rc = -MM_CAMERA_E_GENERAL; goto error_after_getparm_buf_map; } memset(&test_obj->jpeg_ops, 0, sizeof(mm_jpeg_ops_t)); test_obj->mExifParams.debug_params = \ (mm_jpeg_debug_exif_params_t *) malloc (sizeof(mm_jpeg_debug_exif_params_t)); if (test_obj->mExifParams.debug_params != NULL) { memset(test_obj->mExifParams.debug_params, 0, sizeof(mm_jpeg_debug_exif_params_t)); } else { LOGE("debug params alloc fail"); rc = -MM_CAMERA_E_GENERAL; goto error_after_getparm_buf_map; } mm_dimension pic_size; memset(&pic_size, 0, sizeof(mm_dimension)); pic_size.w = 4000; pic_size.h = 3000; test_obj->jpeg_hdl = cam_app->hal_lib.jpeg_open(&test_obj->jpeg_ops, NULL, pic_size, NULL); if (test_obj->jpeg_hdl == 0) { LOGE("jpeg lib open err"); rc = -MM_CAMERA_E_GENERAL; goto error_after_getparm_buf_map; } return rc; error_after_getparm_buf_map: test_obj->cam->ops->unmap_buf(test_obj->cam->camera_handle, CAM_MAPPING_BUF_TYPE_PARM_BUF); error_after_getparm_buf_alloc: mm_app_release_bufs(1, &test_obj->parm_buf); error_after_cap_buf_map: test_obj->cam->ops->unmap_buf(test_obj->cam->camera_handle, CAM_MAPPING_BUF_TYPE_CAPABILITY); error_after_cap_buf_alloc: mm_app_release_bufs(1, &test_obj->cap_buf); error_after_cam_open: test_obj->cam->ops->close_camera(test_obj->cam->camera_handle); test_obj->cam = NULL; return rc; } int init_batch_update(parm_buffer_t *p_table) { int rc = MM_CAMERA_OK; LOGH("\nEnter %s\n"); int32_t hal_version = CAM_HAL_V1; memset(p_table, 0, sizeof(parm_buffer_t)); if(ADD_SET_PARAM_ENTRY_TO_BATCH(p_table, CAM_INTF_PARM_HAL_VERSION, hal_version)) { rc = -1; } return rc; } int commit_set_batch(mm_camera_test_obj_t *test_obj) { int rc = MM_CAMERA_OK; int i = 0; for(i = 0; i < CAM_INTF_PARM_MAX; i++){ if(test_obj->params_buffer->is_valid[i]) break; } if (i < CAM_INTF_PARM_MAX) { LOGH("\n set_param p_buffer =%p\n",test_obj->params_buffer); rc = test_obj->cam->ops->set_parms(test_obj->cam->camera_handle, test_obj->params_buffer); } if (rc != MM_CAMERA_OK) { LOGE("cam->ops->set_parms failed !!"); } return rc; } int mm_app_close(mm_camera_test_obj_t *test_obj) { int32_t rc = MM_CAMERA_OK; if (test_obj == NULL || test_obj->cam ==NULL) { LOGE("cam not opened"); return -MM_CAMERA_E_GENERAL; } /* unmap capability buf */ rc = test_obj->cam->ops->unmap_buf(test_obj->cam->camera_handle, CAM_MAPPING_BUF_TYPE_CAPABILITY); if (rc != MM_CAMERA_OK) { LOGE("unmap capability buf failed, rc=%d", rc); } /* unmap parm buf */ rc = test_obj->cam->ops->unmap_buf(test_obj->cam->camera_handle, CAM_MAPPING_BUF_TYPE_PARM_BUF); if (rc != MM_CAMERA_OK) { LOGE("unmap setparm buf failed, rc=%d", rc); } rc = test_obj->cam->ops->close_camera(test_obj->cam->camera_handle); if (rc != MM_CAMERA_OK) { LOGE("close camera failed, rc=%d", rc); } test_obj->cam = NULL; /* close jpeg client */ if (test_obj->jpeg_hdl && test_obj->jpeg_ops.close) { rc = test_obj->jpeg_ops.close(test_obj->jpeg_hdl); test_obj->jpeg_hdl = 0; if (rc != MM_CAMERA_OK) { LOGE("close jpeg failed, rc=%d", rc); } } /* dealloc capability buf */ rc = mm_app_release_bufs(1, &test_obj->cap_buf); if (rc != MM_CAMERA_OK) { LOGE("release capability buf failed, rc=%d", rc); } /* dealloc parm buf */ rc = mm_app_release_bufs(1, &test_obj->parm_buf); if (rc != MM_CAMERA_OK) { LOGE("release setparm buf failed, rc=%d", rc); } if (test_obj->mExifParams.debug_params) { free(test_obj->mExifParams.debug_params); test_obj->mExifParams.debug_params = NULL; } return MM_CAMERA_OK; } mm_camera_channel_t * mm_app_add_channel(mm_camera_test_obj_t *test_obj, mm_camera_channel_type_t ch_type, mm_camera_channel_attr_t *attr, mm_camera_buf_notify_t channel_cb, void *userdata) { uint32_t ch_id = 0; mm_camera_channel_t *channel = NULL; ch_id = test_obj->cam->ops->add_channel(test_obj->cam->camera_handle, attr, channel_cb, userdata); if (ch_id == 0) { LOGE("add channel failed"); return NULL; } channel = &test_obj->channels[ch_type]; channel->ch_id = ch_id; return channel; } int mm_app_del_channel(mm_camera_test_obj_t *test_obj, mm_camera_channel_t *channel) { test_obj->cam->ops->delete_channel(test_obj->cam->camera_handle, channel->ch_id); memset(channel, 0, sizeof(mm_camera_channel_t)); return MM_CAMERA_OK; } mm_camera_stream_t * mm_app_add_stream(mm_camera_test_obj_t *test_obj, mm_camera_channel_t *channel) { mm_camera_stream_t *stream = NULL; int rc = MM_CAMERA_OK; cam_frame_len_offset_t offset_info; stream = &(channel->streams[channel->num_streams++]); stream->s_id = test_obj->cam->ops->add_stream(test_obj->cam->camera_handle, channel->ch_id); if (stream->s_id == 0) { LOGE("add stream failed"); return NULL; } stream->multipleOf = test_obj->slice_size; /* alloc ion mem for stream_info buf */ memset(&offset_info, 0, sizeof(offset_info)); offset_info.frame_len = sizeof(cam_stream_info_t); rc = mm_app_alloc_bufs(&stream->s_info_buf, &offset_info, 1, 0, 0); if (rc != MM_CAMERA_OK) { LOGE("alloc buf for stream_info error\n"); test_obj->cam->ops->delete_stream(test_obj->cam->camera_handle, channel->ch_id, stream->s_id); stream->s_id = 0; return NULL; } /* mapping streaminfo buf */ rc = test_obj->cam->ops->map_stream_buf(test_obj->cam->camera_handle, channel->ch_id, stream->s_id, CAM_MAPPING_BUF_TYPE_STREAM_INFO, 0, -1, stream->s_info_buf.mem_info.fd, (uint32_t)stream->s_info_buf.mem_info.size, stream->s_info_buf.buf.buffer); if (rc != MM_CAMERA_OK) { LOGE("map setparm_buf error\n"); mm_app_deallocate_ion_memory(&stream->s_info_buf); test_obj->cam->ops->delete_stream(test_obj->cam->camera_handle, channel->ch_id, stream->s_id); stream->s_id = 0; return NULL; } return stream; } int mm_app_del_stream(mm_camera_test_obj_t *test_obj, mm_camera_channel_t *channel, mm_camera_stream_t *stream) { test_obj->cam->ops->unmap_stream_buf(test_obj->cam->camera_handle, channel->ch_id, stream->s_id, CAM_MAPPING_BUF_TYPE_STREAM_INFO, 0, -1); mm_app_deallocate_ion_memory(&stream->s_info_buf); test_obj->cam->ops->delete_stream(test_obj->cam->camera_handle, channel->ch_id, stream->s_id); memset(stream, 0, sizeof(mm_camera_stream_t)); return MM_CAMERA_OK; } mm_camera_channel_t *mm_app_get_channel_by_type(mm_camera_test_obj_t *test_obj, mm_camera_channel_type_t ch_type) { return &test_obj->channels[ch_type]; } int mm_app_config_stream(mm_camera_test_obj_t *test_obj, mm_camera_channel_t *channel, mm_camera_stream_t *stream, mm_camera_stream_config_t *config) { return test_obj->cam->ops->config_stream(test_obj->cam->camera_handle, channel->ch_id, stream->s_id, config); } int mm_app_start_channel(mm_camera_test_obj_t *test_obj, mm_camera_channel_t *channel) { return test_obj->cam->ops->start_channel(test_obj->cam->camera_handle, channel->ch_id, /*start_sensor_streaming*/true); } int mm_app_stop_channel(mm_camera_test_obj_t *test_obj, mm_camera_channel_t *channel) { return test_obj->cam->ops->stop_channel(test_obj->cam->camera_handle, channel->ch_id, /*stop_immediately*/false); } int initBatchUpdate(mm_camera_test_obj_t *test_obj) { int32_t hal_version = CAM_HAL_V1; parm_buffer_t *parm_buf = ( parm_buffer_t * ) test_obj->parm_buf.mem_info.data; memset(parm_buf, 0, sizeof(parm_buffer_t)); ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_HAL_VERSION, hal_version); return MM_CAMERA_OK; } int commitSetBatch(mm_camera_test_obj_t *test_obj) { int rc = MM_CAMERA_OK; int i = 0; parm_buffer_t *p_table = ( parm_buffer_t * ) test_obj->parm_buf.mem_info.data; for(i = 0; i < CAM_INTF_PARM_MAX; i++){ if(p_table->is_valid[i]) break; } if (i < CAM_INTF_PARM_MAX) { rc = test_obj->cam->ops->set_parms(test_obj->cam->camera_handle, p_table); } return rc; } int commitGetBatch(mm_camera_test_obj_t *test_obj) { int rc = MM_CAMERA_OK; int i = 0; parm_buffer_t *p_table = ( parm_buffer_t * ) test_obj->parm_buf.mem_info.data; for(i = 0; i < CAM_INTF_PARM_MAX; i++){ if(p_table->is_valid[i]) break; } if (i < CAM_INTF_PARM_MAX) { rc = test_obj->cam->ops->get_parms(test_obj->cam->camera_handle, p_table); } return rc; } int setAecLock(mm_camera_test_obj_t *test_obj, int value) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_AEC_LOCK, (uint32_t)value)) { LOGE("AEC Lock parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int setAwbLock(mm_camera_test_obj_t *test_obj, int value) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_AWB_LOCK, (uint32_t)value)) { LOGE("AWB Lock parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int set3Acommand(mm_camera_test_obj_t *test_obj, cam_eztune_cmd_data_t *value) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_EZTUNE_CMD, *value)) { LOGE("CAM_INTF_PARM_EZTUNE_CMD parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int setAutoFocusTuning(mm_camera_test_obj_t *test_obj, tune_actuator_t *value) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_SET_AUTOFOCUSTUNING, *value)) { LOGE("AutoFocus Tuning not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int setVfeCommand(mm_camera_test_obj_t *test_obj, tune_cmd_t *value) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_SET_VFE_COMMAND, *value)) { LOGE("VFE Command not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int setmetainfoCommand(mm_camera_test_obj_t *test_obj, cam_stream_size_info_t *value) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_META_STREAM_INFO, *value)) { LOGE("PP Command not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int setPPCommand(mm_camera_test_obj_t *test_obj, tune_cmd_t *value) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_SET_PP_COMMAND, *value)) { LOGE("PP Command not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int setFocusMode(mm_camera_test_obj_t *test_obj, cam_focus_mode_type mode) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } uint32_t value = mode; if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_FOCUS_MODE, value)) { LOGE("Focus mode parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int updateDebuglevel(mm_camera_test_obj_t *test_obj) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if ( rc != MM_CAMERA_OK ) { LOGE("Failed to initialize group update table"); return rc; } uint32_t dummyDebugLevel = 0; if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_UPDATE_DEBUG_LEVEL, dummyDebugLevel)) { LOGE("Parameters batch failed"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if ( rc != MM_CAMERA_OK ) { LOGE("Failed to commit batch parameters"); return rc; } ERROR: return rc; } int setEVCompensation(mm_camera_test_obj_t *test_obj, int ev) { int rc = MM_CAMERA_OK; cam_capability_t *camera_cap = NULL; camera_cap = (cam_capability_t *) test_obj->cap_buf.mem_info.data; if ( (ev >= camera_cap->exposure_compensation_min) && (ev <= camera_cap->exposure_compensation_max) ) { rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_EXPOSURE_COMPENSATION, ev)) { LOGE("EV compensation parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("EV compensation set to: %d", ev); } else { LOGE("Invalid EV compensation"); return -EINVAL; } ERROR: return rc; } int setAntibanding(mm_camera_test_obj_t *test_obj, cam_antibanding_mode_type antibanding) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_ANTIBANDING, antibanding)) { LOGE("Antibanding parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Antibanding set to: %d", (int)antibanding); ERROR: return rc; } int setFlipMode(mm_camera_test_obj_t *test_obj, cam_flip_t mode) { int rc = MM_CAMERA_OK; uint32_t i = 0; mm_camera_channel_t *channel = NULL; mm_camera_stream_t *snapshot_stream = NULL; mm_camera_stream_t *preview_stream = NULL; cam_stream_parm_buffer_t param; cam_stream_parm_buffer_t param2; test_obj->flip_mode = mode; memset(¶m, 0, sizeof(cam_stream_parm_buffer_t)); memset(¶m2, 0, sizeof(cam_stream_parm_buffer_t)); if (test_obj->zsl_enabled) channel = &test_obj->channels[MM_CHANNEL_TYPE_ZSL]; else channel = &test_obj->channels[MM_CHANNEL_TYPE_PREVIEW]; /* find snapshot stream */ for (i = 0; i < channel->num_streams; i++) { if (channel->streams[i].s_config.stream_info->stream_type == CAM_STREAM_TYPE_SNAPSHOT) { snapshot_stream = &channel->streams[i]; break; } } /* find preview stream */ for (i = 0; i < channel->num_streams; i++) { if (channel->streams[i].s_config.stream_info->stream_type == CAM_STREAM_TYPE_PREVIEW) { preview_stream = &channel->streams[i]; break; } } param.type = CAM_STREAM_PARAM_TYPE_SET_FLIP; param.flipInfo.flip_mask = mode; param2.type = CAM_STREAM_PARAM_TYPE_SET_FLIP; param2.flipInfo.flip_mask = mode; if (preview_stream != NULL) { preview_stream->s_config.stream_info->parm_buf = param; rc = test_obj->cam->ops->set_stream_parms(test_obj->cam->camera_handle, channel->ch_id, preview_stream->s_id, &preview_stream->s_config.stream_info->parm_buf ); } if (snapshot_stream != NULL){ snapshot_stream->s_config.stream_info->parm_buf = param2; rc = test_obj->cam->ops->set_stream_parms(test_obj->cam->camera_handle, channel->ch_id, snapshot_stream->s_id, &snapshot_stream->s_config.stream_info->parm_buf ); } if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Flip Mode set to: %d", (int)mode); ERROR: return rc; } int setManualWhiteBalance(mm_camera_test_obj_t *test_obj, cam_manual_wb_parm_t *manual_info){ int rc = MM_CAMERA_OK; cam_manual_wb_parm_t param; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } memset(¶m, 0, sizeof(cam_manual_wb_parm_t)); if (manual_info->type == CAM_MANUAL_WB_MODE_GAIN){ param.type = CAM_MANUAL_WB_MODE_GAIN; param.gains.r_gain = manual_info->gains.r_gain; param.gains.g_gain = manual_info->gains.g_gain; param.gains.b_gain = manual_info->gains.b_gain; }else { param.type = CAM_MANUAL_WB_MODE_CCT; param.cct = manual_info->cct; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_WB_MANUAL, param)) { LOGE("Manual White balance parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int setWhiteBalance(mm_camera_test_obj_t *test_obj, cam_wb_mode_type mode) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_WHITE_BALANCE, mode)) { LOGE("White balance parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("White balance set to: %d", (int)mode); ERROR: return rc; } int setExposureMetering(mm_camera_test_obj_t *test_obj, cam_auto_exposure_mode_type mode) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_EXPOSURE, mode)) { LOGE("Exposure metering parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Exposure metering set to: %d", (int)mode); ERROR: return rc; } int setBrightness(mm_camera_test_obj_t *test_obj, int brightness) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_BRIGHTNESS, brightness)) { LOGE("Brightness parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Brightness set to: %d", brightness); ERROR: return rc; } int setContrast(mm_camera_test_obj_t *test_obj, int contrast) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_CONTRAST, contrast)) { LOGE("Contrast parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Contrast set to: %d", contrast); ERROR: return rc; } int setTintless(mm_camera_test_obj_t *test_obj, int tintless) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_TINTLESS, tintless)) { LOGE("Tintless parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("set Tintless to: %d", tintless); ERROR: return rc; } int setSaturation(mm_camera_test_obj_t *test_obj, int saturation) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_SATURATION, saturation)) { LOGE("Saturation parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Saturation set to: %d", saturation); ERROR: return rc; } int setSharpness(mm_camera_test_obj_t *test_obj, int sharpness) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_SHARPNESS, sharpness)) { LOGE("Sharpness parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } test_obj->reproc_sharpness = sharpness; LOGE("Sharpness set to: %d", sharpness); ERROR: return rc; } int setISO(mm_camera_test_obj_t *test_obj, cam_iso_mode_type iso) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } cam_intf_parm_manual_3a_t iso_settings; memset(&iso_settings, 0, sizeof(cam_intf_parm_manual_3a_t)); iso_settings.previewOnly = FALSE; iso_settings.value = (uint64_t)iso; if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_ISO, iso_settings)) { LOGE("ISO parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("ISO set to: %d", (int)iso); ERROR: return rc; } int setZoom(mm_camera_test_obj_t *test_obj, int zoom) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_ZOOM, zoom)) { LOGE("Zoom parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Zoom set to: %d", zoom); ERROR: return rc; } int setFPSRange(mm_camera_test_obj_t *test_obj, cam_fps_range_t range) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_FPS_RANGE, range)) { LOGE("FPS range parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("FPS Range set to: [%5.2f:%5.2f]", range.min_fps, range.max_fps); ERROR: return rc; } int setEffect(mm_camera_test_obj_t *test_obj, cam_effect_mode_type effect) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_EFFECT, effect)) { LOGE("Scene parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Scene set to: %d", (int)effect); ERROR: return rc; } int setScene(mm_camera_test_obj_t *test_obj, cam_scene_mode_type scene) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_BESTSHOT_MODE, scene)) { LOGE("Scene parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Scene set to: %d", (int)scene); ERROR: return rc; } int setFlash(mm_camera_test_obj_t *test_obj, cam_flash_mode_t flash) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_LED_MODE, flash)) { LOGE("Flash parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("Flash set to: %d", (int)flash); ERROR: return rc; } int setWNR(mm_camera_test_obj_t *test_obj, uint8_t enable) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } cam_denoise_param_t param; memset(¶m, 0, sizeof(cam_denoise_param_t)); param.denoise_enable = enable; param.process_plates = CAM_WAVELET_DENOISE_YCBCR_PLANE; if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_WAVELET_DENOISE, param)) { LOGE("WNR enabled parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } test_obj->reproc_wnr = param; LOGE("WNR enabled: %d", enable); ERROR: return rc; } int setIRMode(mm_camera_test_obj_t *test_obj, cam_ir_mode_type_t ir_mode) { int rc = MM_CAMERA_OK; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_META_IR_MODE, ir_mode)) { LOGE("Flash parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("IR LED set to: %d", (int)ir_mode); ERROR: return rc; } int setsHDRMode(mm_camera_test_obj_t *test_obj, uint8_t shdr_mode) { int rc = MM_CAMERA_OK; cam_sensor_hdr_type_t vhdr_type = CAM_SENSOR_HDR_MAX; rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (shdr_mode) { vhdr_type = CAM_SENSOR_HDR_STAGGERED; } else { vhdr_type = CAM_SENSOR_HDR_OFF; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_SENSOR_HDR, vhdr_type)) { LOGE("Flash parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } LOGE("sHDR set to: %d", (int)shdr_mode); ERROR: return rc; } int setEZTune(mm_camera_test_obj_t *test_obj, uint8_t enable) { test_obj->enable_EZTune = enable; return 0; } /** tuneserver_capture * @lib_handle: the camera handle object * @dim: snapshot dimensions * * makes JPEG capture * * Return: >=0 on success, -1 on failure. **/ int tuneserver_capture(mm_camera_lib_handle *lib_handle, mm_camera_lib_snapshot_params *dim) { int rc = 0; printf("Take jpeg snapshot\n"); if ( lib_handle->stream_running ) { if ( lib_handle->test_obj.zsl_enabled) { if ( NULL != dim) { if ( ( lib_handle->test_obj.buffer_width != dim->width) || ( lib_handle->test_obj.buffer_height = dim->height ) ) { lib_handle->test_obj.buffer_width = dim->width; lib_handle->test_obj.buffer_height = dim->height; rc = mm_camera_lib_stop_stream(lib_handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_stop_stream() err=%d\n", rc); goto EXIT; } rc = mm_camera_lib_start_stream(lib_handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_start_stream() err=%d\n", rc); goto EXIT; } } } lib_handle->test_obj.encodeJpeg = 1; mm_camera_app_wait(); } else { // For standard 2D capture streaming has to be disabled first rc = mm_camera_lib_stop_stream(lib_handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_stop_stream() err=%d\n", rc); goto EXIT; } if ( NULL != dim ) { lib_handle->test_obj.buffer_width = dim->width; lib_handle->test_obj.buffer_height = dim->height; } rc = mm_app_start_capture(&lib_handle->test_obj, 1); if (rc != MM_CAMERA_OK) { LOGE("mm_app_start_capture() err=%d\n", rc); goto EXIT; } mm_camera_app_wait(); rc = mm_app_stop_capture(&lib_handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("mm_app_stop_capture() err=%d\n", rc); goto EXIT; } // Restart streaming after capture is done rc = mm_camera_lib_start_stream(lib_handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_start_stream() err=%d\n", rc); goto EXIT; } } } EXIT: return rc; } int mm_app_start_regression_test(int run_tc) { int rc = MM_CAMERA_OK; mm_camera_app_t my_cam_app; LOGD("\nCamera Test Application\n"); memset(&my_cam_app, 0, sizeof(mm_camera_app_t)); rc = mm_app_load_hal(&my_cam_app); if (rc != MM_CAMERA_OK) { LOGE("mm_app_load_hal failed !!"); return rc; } if(run_tc) { rc = mm_app_unit_test_entry(&my_cam_app); return rc; } #if 0 if(run_dual_tc) { printf("\tRunning Dual camera test engine only\n"); rc = mm_app_dual_test_entry(&my_cam_app); printf("\t Dual camera engine. EXIT(%d)!!!\n", rc); exit(rc); } #endif return rc; } int32_t mm_camera_load_tuninglibrary(mm_camera_tuning_lib_params_t *tuning_param) { void *(*tuning_open_lib)(void) = NULL; LOGD("E"); tuning_param->lib_handle = dlopen("libmmcamera_tuning.so", RTLD_NOW); if (!tuning_param->lib_handle) { LOGE("Failed opening libmmcamera_tuning.so\n"); return -EINVAL; } *(void **)&tuning_open_lib = dlsym(tuning_param->lib_handle, "open_tuning_lib"); if (!tuning_open_lib) { LOGE("Failed symbol libmmcamera_tuning.so\n"); return -EINVAL; } if (tuning_param->func_tbl) { LOGE("already loaded tuninglib.."); return 0; } tuning_param->func_tbl = (mm_camera_tune_func_t *)tuning_open_lib(); if (!tuning_param->func_tbl) { LOGE("Failed opening library func table ptr\n"); return -EINVAL; } LOGD("X"); return 0; } int mm_camera_lib_open(mm_camera_lib_handle *handle, int cam_id) { int rc = MM_CAMERA_OK; if ( NULL == handle ) { LOGE(" Invalid handle"); rc = MM_CAMERA_E_INVALID_INPUT; goto EXIT; } handle->test_obj.buffer_width = DEFAULT_PREVIEW_WIDTH; handle->test_obj.buffer_height = DEFAULT_PREVIEW_HEIGHT; handle->test_obj.buffer_format = DEFAULT_SNAPSHOT_FORMAT; handle->current_params.stream_width = DEFAULT_SNAPSHOT_WIDTH; handle->current_params.stream_height = DEFAULT_SNAPSHOT_HEIGHT; handle->current_params.af_mode = CAM_FOCUS_MODE_AUTO; // Default to auto focus mode rc = mm_app_open(&handle->app_ctx, (uint8_t)cam_id, &handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("mm_app_open() cam_idx=%d, err=%d\n", cam_id, rc); goto EXIT; } //rc = mm_app_initialize_fb(&handle->test_obj); rc = MM_CAMERA_OK; if (rc != MM_CAMERA_OK) { LOGE("mm_app_initialize_fb() cam_idx=%d, err=%d\n", cam_id, rc); goto EXIT; } EXIT: return rc; } int mm_camera_lib_start_stream(mm_camera_lib_handle *handle) { int rc = MM_CAMERA_OK; cam_capability_t camera_cap; if ( NULL == handle ) { LOGE(" Invalid handle"); rc = MM_CAMERA_E_INVALID_INPUT; goto EXIT; } if ( handle->test_obj.zsl_enabled ) { rc = mm_app_start_preview_zsl(&handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("mm_app_start_preview_zsl() err=%d\n", rc); goto EXIT; } } else { handle->test_obj.enable_reproc = ENABLE_REPROCESSING; rc = mm_app_start_preview(&handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("mm_app_start_preview() err=%d\n", rc); goto EXIT; } } // Configure focus mode after stream starts rc = mm_camera_lib_get_caps(handle, &camera_cap); if ( MM_CAMERA_OK != rc ) { LOGE("mm_camera_lib_get_caps() err=%d\n", rc); return -1; } if (camera_cap.supported_focus_modes_cnt == 1 && camera_cap.supported_focus_modes[0] == CAM_FOCUS_MODE_FIXED) { LOGD("focus not supported"); handle->test_obj.focus_supported = 0; handle->current_params.af_mode = CAM_FOCUS_MODE_FIXED; } else { handle->test_obj.focus_supported = 1; } rc = setFocusMode(&handle->test_obj, handle->current_params.af_mode); if (rc != MM_CAMERA_OK) { LOGE("autofocus error\n"); goto EXIT; } rc = updateDebuglevel(&handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("autofocus error\n"); goto EXIT; } handle->stream_running = 1; EXIT: return rc; } int mm_camera_lib_stop_stream(mm_camera_lib_handle *handle) { int rc = MM_CAMERA_OK; if ( NULL == handle ) { LOGE(" Invalid handle"); rc = MM_CAMERA_E_INVALID_INPUT; goto EXIT; } if ( handle->test_obj.zsl_enabled ) { rc = mm_app_stop_preview_zsl(&handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("mm_app_stop_preview_zsl() err=%d\n", rc); goto EXIT; } } else { rc = mm_app_stop_preview(&handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("mm_app_stop_preview() err=%d\n", rc); goto EXIT; } } handle->stream_running = 0; EXIT: return rc; } int mm_camera_lib_get_caps(mm_camera_lib_handle *handle, cam_capability_t *caps) { int rc = MM_CAMERA_OK; if ( NULL == handle ) { LOGE(" Invalid handle"); rc = MM_CAMERA_E_INVALID_INPUT; goto EXIT; } if ( NULL == caps ) { LOGE(" Invalid capabilities structure"); rc = MM_CAMERA_E_INVALID_INPUT; goto EXIT; } *caps = *( (cam_capability_t *) handle->test_obj.cap_buf.mem_info.data ); EXIT: return rc; } int mm_camera_lib_send_command(mm_camera_lib_handle *handle, mm_camera_lib_commands cmd, void *in_data, __unused void *out_data) { uint32_t width, height; int rc = MM_CAMERA_OK; cam_capability_t *camera_cap = NULL; mm_camera_lib_snapshot_params *dim = NULL; if ( NULL == handle ) { LOGE(" Invalid handle"); rc = MM_CAMERA_E_INVALID_INPUT; goto EXIT; } camera_cap = (cam_capability_t *) handle->test_obj.cap_buf.mem_info.data; switch(cmd) { case MM_CAMERA_LIB_FPS_RANGE: if ( NULL != in_data ) { cam_fps_range_t range = *(( cam_fps_range_t * )in_data); rc = setFPSRange(&handle->test_obj, range); if (rc != MM_CAMERA_OK) { LOGE("setFPSRange() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_EZTUNE_ENABLE: if ( NULL != in_data) { int enable_eztune = *(( int * )in_data); if ( ( enable_eztune != handle->test_obj.enable_EZTune) && handle->stream_running ) { rc = mm_camera_lib_stop_stream(handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_stop_stream() err=%d\n", rc); goto EXIT; } handle->test_obj.enable_EZTune= enable_eztune; rc = mm_camera_lib_start_stream(handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_start_stream() err=%d\n", rc); goto EXIT; } } else { handle->test_obj.enable_EZTune= enable_eztune; } } break; case MM_CAMERA_LIB_IRMODE: if ( NULL != in_data) { int enable_ir = *(( int * )in_data); if (enable_ir != handle->test_obj.enable_ir) { handle->test_obj.enable_ir = enable_ir; rc = setIRMode(&handle->test_obj, enable_ir); if (rc != MM_CAMERA_OK) { LOGE("setZoom() err=%d\n", rc); goto EXIT; } } } break; case MM_CAMERA_LIB_SHDR_MODE: if ( NULL != in_data) { int enable_shdr= *(( int * )in_data); if (enable_shdr != handle->test_obj.enable_ir) { handle->test_obj.enable_ir = enable_shdr; rc = setsHDRMode(&handle->test_obj, enable_shdr); if (rc != MM_CAMERA_OK) { LOGE("setHDR() err=%d\n", rc); goto EXIT; } } } break; case MM_CAMERA_LIB_FLASH: if ( NULL != in_data ) { cam_flash_mode_t flash = *(( int * )in_data); rc = setFlash(&handle->test_obj, flash); if (rc != MM_CAMERA_OK) { LOGE("setFlash() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_SPL_EFFECT: if (NULL != in_data) { cam_effect_mode_type effect = *(( int * )in_data); rc = setEffect(&handle->test_obj, effect); if (rc != MM_CAMERA_OK) { LOGE("setEffect() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_BESTSHOT: if ( NULL != in_data ) { cam_scene_mode_type scene = *(( int * )in_data); rc = setScene(&handle->test_obj, scene); if (rc != MM_CAMERA_OK) { LOGE("setScene() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_ZOOM: if ( NULL != in_data ) { int zoom = *(( int * )in_data); rc = setZoom(&handle->test_obj, zoom); if (rc != MM_CAMERA_OK) { LOGE("setZoom() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_ISO: if ( NULL != in_data ) { cam_iso_mode_type iso = *(( int * )in_data); rc = setISO(&handle->test_obj, iso); if (rc != MM_CAMERA_OK) { LOGE("setISO() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_SHARPNESS: if ( NULL != in_data ) { int sharpness = *(( int * )in_data); rc = setSharpness(&handle->test_obj, sharpness); if (rc != MM_CAMERA_OK) { LOGE("setSharpness() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_SATURATION: if ( NULL != in_data ) { int saturation = *(( int * )in_data); rc = setSaturation(&handle->test_obj, saturation); if (rc != MM_CAMERA_OK) { LOGE("setSaturation() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_CONTRAST: if ( NULL != in_data ) { int contrast = *(( int * )in_data); rc = setContrast(&handle->test_obj, contrast); if (rc != MM_CAMERA_OK) { LOGE("setContrast() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_SET_TINTLESS: if ( NULL != in_data ) { int tintless = *(( int * )in_data); rc = setTintless(&handle->test_obj, tintless); if (rc != MM_CAMERA_OK) { LOGE("enlabe/disable:%d tintless() err=%d\n", tintless, rc); goto EXIT; } } break; case MM_CAMERA_LIB_BRIGHTNESS: if ( NULL != in_data ) { int brightness = *(( int * )in_data); rc = setBrightness(&handle->test_obj, brightness); if (rc != MM_CAMERA_OK) { LOGE("setBrightness() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_EXPOSURE_METERING: if ( NULL != in_data ) { cam_auto_exposure_mode_type exp = *(( int * )in_data); rc = setExposureMetering(&handle->test_obj, exp); if (rc != MM_CAMERA_OK) { LOGE("setExposureMetering() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_MN_WB: if ( NULL != in_data ) { cam_manual_wb_parm_t *manual_info = (( cam_manual_wb_parm_t* )in_data); rc = setManualWhiteBalance(&handle->test_obj, manual_info); if (rc != MM_CAMERA_OK) { LOGE("etManualWhiteBalance() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_WB: if ( NULL != in_data ) { cam_wb_mode_type wb = *(( int * )in_data); rc = setWhiteBalance(&handle->test_obj, wb); if (rc != MM_CAMERA_OK) { LOGE("setWhiteBalance() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_ANTIBANDING: if ( NULL != in_data ) { int antibanding = *(( int * )in_data); rc = setAntibanding(&handle->test_obj, antibanding); if (rc != MM_CAMERA_OK) { LOGE("setAntibanding() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_FLIP: if ( NULL != in_data ) { int mode = *(( int * )in_data); rc = setFlipMode(&handle->test_obj, mode); if (rc != MM_CAMERA_OK) { LOGE("setFlipMode() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_EV: if ( NULL != in_data ) { int ev = *(( int * )in_data); rc = setEVCompensation(&handle->test_obj, ev); if (rc != MM_CAMERA_OK) { LOGE("setEVCompensation() err=%d\n", rc); goto EXIT; } } break; case MM_CAMERA_LIB_ZSL_ENABLE: if ( NULL != in_data) { dim = ( mm_camera_lib_snapshot_params * ) in_data; if ( ( dim->isZSL!= handle->test_obj.zsl_enabled ) && handle->stream_running ) { rc = mm_camera_lib_stop_stream(handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_stop_stream() err=%d\n", rc); goto EXIT; } handle->test_obj.zsl_enabled = dim->isZSL; handle->test_obj.buffer_width = dim->width; handle->test_obj.buffer_height = dim->height; rc = mm_camera_lib_start_stream(handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_start_stream() err=%d\n", rc); goto EXIT; } } else { handle->test_obj.zsl_enabled = dim->isZSL; } } break; case MM_CAMERA_LIB_RAW_CAPTURE: if ( 0 == handle->stream_running ) { LOGE(" Streaming is not enabled!"); rc = MM_CAMERA_E_INVALID_OPERATION; goto EXIT; } rc = mm_camera_lib_stop_stream(handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_stop_stream() err=%d\n", rc); goto EXIT; } width = handle->test_obj.buffer_width; height = handle->test_obj.buffer_height; handle->test_obj.buffer_width = (uint32_t)camera_cap->raw_dim[0].width; handle->test_obj.buffer_height = (uint32_t)camera_cap->raw_dim[0].height; handle->test_obj.buffer_format = DEFAULT_RAW_FORMAT; LOGE("MM_CAMERA_LIB_RAW_CAPTURE %dx%d\n", camera_cap->raw_dim[0].width, camera_cap->raw_dim[0].height); rc = mm_app_start_capture_raw(&handle->test_obj, 1); if (rc != MM_CAMERA_OK) { LOGE("mm_app_start_capture() err=%d\n", rc); goto EXIT; } mm_camera_app_wait(); rc = mm_app_stop_capture_raw(&handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("mm_app_stop_capture() err=%d\n", rc); goto EXIT; } handle->test_obj.buffer_width = width; handle->test_obj.buffer_height = height; handle->test_obj.buffer_format = DEFAULT_SNAPSHOT_FORMAT; rc = mm_camera_lib_start_stream(handle); if (rc != MM_CAMERA_OK) { LOGE("mm_camera_lib_start_stream() err=%d\n", rc); goto EXIT; } break; case MM_CAMERA_LIB_JPEG_CAPTURE: if ( 0 == handle->stream_running ) { LOGE(" Streaming is not enabled!"); rc = MM_CAMERA_E_INVALID_OPERATION; goto EXIT; } if ( NULL != in_data ) { dim = ( mm_camera_lib_snapshot_params * ) in_data; } rc = tuneserver_capture(handle, dim); if (rc != MM_CAMERA_OK) { LOGE("capture error %d\n", rc); goto EXIT; } break; case MM_CAMERA_LIB_SET_FOCUS_MODE: { cam_focus_mode_type mode = *((cam_focus_mode_type *)in_data); handle->current_params.af_mode = mode; rc = setFocusMode(&handle->test_obj, mode); if (rc != MM_CAMERA_OK) { LOGE("autofocus error\n"); goto EXIT; } break; } case MM_CAMERA_LIB_DO_AF: if (handle->test_obj.focus_supported) { rc = handle->test_obj.cam->ops->do_auto_focus(handle->test_obj.cam->camera_handle); if (rc != MM_CAMERA_OK) { LOGE("autofocus error\n"); goto EXIT; } /*Waiting for Auto Focus Done Call Back*/ mm_camera_app_wait(); } break; case MM_CAMERA_LIB_CANCEL_AF: rc = handle->test_obj.cam->ops->cancel_auto_focus(handle->test_obj.cam->camera_handle); if (rc != MM_CAMERA_OK) { LOGE("autofocus error\n"); goto EXIT; } break; case MM_CAMERA_LIB_LOCK_AWB: rc = setAwbLock(&handle->test_obj, 1); if (rc != MM_CAMERA_OK) { LOGE("AWB locking failed\n"); goto EXIT; } break; case MM_CAMERA_LIB_UNLOCK_AWB: rc = setAwbLock(&handle->test_obj, 0); if (rc != MM_CAMERA_OK) { LOGE("AE unlocking failed\n"); goto EXIT; } break; case MM_CAMERA_LIB_LOCK_AE: rc = setAecLock(&handle->test_obj, 1); if (rc != MM_CAMERA_OK) { LOGE("AE locking failed\n"); goto EXIT; } break; case MM_CAMERA_LIB_UNLOCK_AE: rc = setAecLock(&handle->test_obj, 0); if (rc != MM_CAMERA_OK) { LOGE("AE unlocking failed\n"); goto EXIT; } break; case MM_CAMERA_LIB_SET_3A_COMMAND: { rc = set3Acommand(&handle->test_obj, (cam_eztune_cmd_data_t *)in_data); if (rc != MM_CAMERA_OK) { LOGE("3A set command error\n"); goto EXIT; } break; } case MM_CAMERA_LIB_SET_AUTOFOCUS_TUNING: { rc = setAutoFocusTuning(&handle->test_obj, in_data); if (rc != MM_CAMERA_OK) { LOGE("Set AF tuning failed\n"); goto EXIT; } break; } case MM_CAMERA_LIB_SET_VFE_COMMAND: { rc = setVfeCommand(&handle->test_obj, in_data); if (rc != MM_CAMERA_OK) { LOGE("Set vfe command failed\n"); goto EXIT; } break; } case MM_CAMERA_LIB_SET_POSTPROC_COMMAND: { rc = setPPCommand(&handle->test_obj, in_data); if (rc != MM_CAMERA_OK) { LOGE("Set pp command failed\n"); goto EXIT; } break; } case MM_CAMERA_LIB_WNR_ENABLE: { rc = setWNR(&handle->test_obj, *((uint8_t *)in_data)); if ( rc != MM_CAMERA_OK) { LOGE("Set wnr enable failed\n"); goto EXIT; } } case MM_CAMERA_LIB_NO_ACTION: default: break; }; EXIT: return rc; } int mm_camera_lib_number_of_cameras(mm_camera_lib_handle *handle) { int rc = 0; if ( NULL == handle ) { LOGE(" Invalid handle"); goto EXIT; } rc = handle->app_ctx.num_cameras; EXIT: return rc; } int mm_camera_lib_close(mm_camera_lib_handle *handle) { int rc = MM_CAMERA_OK; if ( NULL == handle ) { LOGE(" Invalid handle"); rc = MM_CAMERA_E_INVALID_INPUT; goto EXIT; } //rc = mm_app_close_fb(&handle->test_obj); rc = MM_CAMERA_OK; if (rc != MM_CAMERA_OK) { LOGE("mm_app_close_fb() err=%d\n", rc); goto EXIT; } rc = mm_app_close(&handle->test_obj); if (rc != MM_CAMERA_OK) { LOGE("mm_app_close() err=%d\n", rc); goto EXIT; } EXIT: return rc; } int mm_camera_lib_set_preview_usercb( mm_camera_lib_handle *handle, cam_stream_user_cb cb) { if (handle->test_obj.user_preview_cb != NULL) { LOGE(" already set preview callbacks\n"); return -1; } handle->test_obj.user_preview_cb = *cb; return 0; } int mm_app_set_preview_fps_range(mm_camera_test_obj_t *test_obj, cam_fps_range_t *fpsRange) { int rc = MM_CAMERA_OK; LOGH("preview fps range: min=%f, max=%f.", fpsRange->min_fps, fpsRange->max_fps); rc = setFPSRange(test_obj, *fpsRange); if (rc != MM_CAMERA_OK) { LOGE("add_parm_entry_tobatch failed !!"); return rc; } return rc; } int mm_app_set_face_detection(mm_camera_test_obj_t *test_obj, cam_fd_set_parm_t *fd_set_parm) { int rc = MM_CAMERA_OK; if (test_obj == NULL || fd_set_parm == NULL) { LOGE(" invalid params!"); return MM_CAMERA_E_INVALID_INPUT; } LOGH("mode = %d, num_fd = %d", fd_set_parm->fd_mode, fd_set_parm->num_fd); rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_FD, *fd_set_parm)) { LOGE("FD parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int mm_app_set_flash_mode(mm_camera_test_obj_t *test_obj, cam_flash_mode_t flashMode) { int rc = MM_CAMERA_OK; if (test_obj == NULL) { LOGE(" invalid params!"); return MM_CAMERA_E_INVALID_INPUT; } LOGH("mode = %d", (int)flashMode); rc = initBatchUpdate(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch camera parameter update failed\n"); goto ERROR; } if (ADD_SET_PARAM_ENTRY_TO_BATCH(test_obj->parm_buf.mem_info.data, CAM_INTF_PARM_LED_MODE, flashMode)) { LOGE("Flash mode parameter not added to batch\n"); rc = -1; goto ERROR; } rc = commitSetBatch(test_obj); if (rc != MM_CAMERA_OK) { LOGE("Batch parameters commit failed\n"); goto ERROR; } ERROR: return rc; } int mm_app_set_metadata_usercb(mm_camera_test_obj_t *test_obj, cam_stream_user_cb usercb) { if (test_obj == NULL || usercb == NULL) { LOGE(" invalid params!"); return MM_CAMERA_E_INVALID_INPUT; } LOGH("%s, set user metadata callback, addr: %p\n", usercb); if (test_obj->user_metadata_cb != NULL) { LOGH("%s, already set user metadata callback"); } test_obj->user_metadata_cb = usercb; return 0; }