/* Copyright (c) 2012-2013, 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, * 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 // Camera dependencies #include "mm_qcamera_commands.h" #include "mm_qcamera_dbg.h" int tuneserver_initialize_prevtuningp(void * ctrl, int pr_client_socket_id, cam_dimension_t dimension, char **send_buf, uint32_t *send_len) { int result = 0; mm_camera_lib_handle *lib_handle = (mm_camera_lib_handle *) ctrl; tuningserver_t *tctrl = &lib_handle->tsctrl; LOGD("E"); if (tctrl->tuning_params.func_tbl->prevcommand_process == NULL) { LOGE("prevcommand_process is NULL"); return -1; } result = tctrl->tuning_params.func_tbl->prevcommand_process( NULL, TUNE_PREVCMD_INIT, (void *)&pr_client_socket_id, send_buf, send_len); result = tctrl->tuning_params.func_tbl->prevcommand_process( NULL, TUNE_PREVCMD_SETDIM, (void *)&dimension, send_buf, send_len); mm_camera_lib_set_preview_usercb(lib_handle, (tctrl->tuning_params.func_tbl->prevframe_callback)); return result; } int tuneserver_deinitialize_prevtuningp(void * ctrl, char **send_buf, uint32_t *send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->prevcommand_process( &tctrl->pr_proto, TUNE_PREVCMD_DEINIT, NULL, send_buf, send_len); return result; } int tuneserver_preview_getinfo(void * ctrl, char **send_buf, uint32_t *send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->prevcommand_process( &tctrl->pr_proto, TUNE_PREVCMD_GETINFO, NULL, send_buf, send_len); return result; } int tuneserver_preview_getchunksize(void * ctrl, char **send_buf, uint32_t *send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->prevcommand_process( &tctrl->pr_proto, TUNE_PREVCMD_GETCHUNKSIZE, (void *)&tctrl->pr_proto->new_cnk_size, send_buf, send_len); return result; } int tuneserver_preview_getframe(void * ctrl, char **send_buf, uint32_t *send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->prevcommand_process( &tctrl->pr_proto, TUNE_PREVCMD_GETFRAME, NULL, send_buf, send_len); return result; } int tuneserver_preview_unsupported(void * ctrl, char **send_buf, uint32_t *send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->prevcommand_process( &tctrl->pr_proto, TUNE_PREVCMD_UNSUPPORTED, NULL, send_buf, send_len); return result; } int tuneserver_initialize_tuningp(void * ctrl, int client_socket_id, char *send_buf, uint32_t send_len) { int result = 0; mm_camera_lib_handle *lib_handle = (mm_camera_lib_handle *) ctrl; tuningserver_t *tctrl = &lib_handle->tsctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->command_process( lib_handle, TUNE_CMD_INIT, &client_socket_id, send_buf, send_len); return result; } int tuneserver_deinitialize_tuningp(void * ctrl, int client_socket_id, char *send_buf, uint32_t send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->command_process( NULL, TUNE_CMD_DEINIT, &client_socket_id, send_buf, send_len); return result; } int tuneserver_process_get_list_cmd(void * ctrl, void *recv_cmd, char *send_buf, uint32_t send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->command_process( recv_cmd, TUNE_CMD_GET_LIST, NULL, send_buf, send_len); return result; } int tuneserver_process_get_params_cmd(void * ctrl, void *recv_cmd, char *send_buf, uint32_t send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->command_process (recv_cmd, TUNE_CMD_GET_PARAMS, NULL, send_buf, send_len); return result; } int tuneserver_process_set_params_cmd(void * ctrl, void *recv_cmd, char *send_buf, uint32_t send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->command_process( recv_cmd, TUNE_CMD_SET_PARAMS, NULL, send_buf, send_len); return result; } int tuneserver_process_misc_cmd(void * ctrl, void *recv_cmd, char *send_buf, uint32_t send_len) { int result = 0; tuningserver_t *tctrl = (tuningserver_t *) ctrl; LOGD("E"); result = tctrl->tuning_params.func_tbl->command_process( recv_cmd, TUNE_CMD_MISC, NULL, send_buf, send_len); return result; } /** tuneserver_close_cam * @lib_handle: the camera handle object * * closes the camera * * Return: >=0 on success, -1 on failure. **/ int tuneserver_close_cam(mm_camera_lib_handle *lib_handle) { int result = 0; result = mm_camera_lib_close(lib_handle); if (result < 0) { printf(" Camera close failed\n"); } else { printf("Camera is closed \n"); } return result; } #if 0 /** tuneserver_start_cam * @lib_handle: the camera handle object * * starts the camera * * Return: >=0 on success, -1 on failure. **/ static int tuneserver_start_cam(mm_camera_lib_handle *lib_handle) { int result = 0; result = mm_camera_lib_start_stream(lib_handle); if (result < 0) { printf(" Camera start failed\n"); goto error1; } return result; error1: mm_camera_lib_close(lib_handle); return result; } #endif /** tuneserver_stop_cam * @lib_handle: the camera handle object * * stops the camera * * Return: >=0 on success, -1 on failure. **/ int tuneserver_stop_cam(mm_camera_lib_handle *lib_handle) { int result = 0; result = mm_camera_lib_stop_stream(lib_handle); if (result < 0) { printf(" Camera stop failed\n"); } // result = mm_camera_lib_close(lib_handle); return result; } /** tuneserver_open_cam * @lib_handle: the camera handle object * * opens the camera * * Return: >=0 on success, -1 on failure. **/ #if 1 int tuneserver_open_cam(mm_camera_lib_handle *lib_handle) { int result = 0; LOGD("E"); result = mm_camera_load_tuninglibrary(&lib_handle->tsctrl.tuning_params); if (result < 0) { LOGE(" tuning library open failed\n"); } return result; } #endif