[libmm-camcorder] g_free and g_printf function fixes

[platform/core/multimedia/libmm-camcorder.git] / src / mm_camcorder_client.c

/*
 * libmm-camcorder
 *
 * Copyright (c) 2000 - 2011 Samsung Electronics Co., Ltd. All rights reserved.
 *
 * Contact: Jeongmo Yang <jm80.yang@samsung.com>
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *
 */

/*===========================================================================================
|                                                                                                                                                                                       |
|  INCLUDE FILES                                                                                                                                                        |
|                                                                                                                                                                                       |
========================================================================================== */
#include <gst/gst.h>
#include <gst/app/gstappsrc.h>
#include <gst/video/videooverlay.h>
#ifdef HAVE_WAYLAND
#include <gst/wayland/wayland.h>
#endif
#include <unistd.h>
#include <sys/stat.h>
#include <string.h>
#include <sys/time.h>
#include <stdlib.h>

#include <mm_error.h>
#include <mm_debug.h>

#include "mm_camcorder_client.h"
#include "mm_camcorder_internal.h"
#include <sched.h>

#include <storage.h>


static _MMCamcorderInfoConverting g_client_display_info[] = {
        {
                CONFIGURE_TYPE_MAIN,
                CONFIGURE_CATEGORY_MAIN_VIDEO_OUTPUT,
                MM_CAM_CLIENT_DISPLAY_DEVICE,
                MM_CAMCORDER_ATTR_NONE,
                "DisplayDevice",
                MM_CAMCONVERT_TYPE_INT_ARRAY,
                NULL,
        },
        {
                CONFIGURE_TYPE_MAIN,
                CONFIGURE_CATEGORY_MAIN_VIDEO_OUTPUT,
                MM_CAM_CLIENT_DISPLAY_MODE,
                MM_CAMCORDER_ATTR_NONE,
                "DisplayMode",
                MM_CAMCONVERT_TYPE_INT_ARRAY,
                NULL,
        },
        {
                CONFIGURE_TYPE_MAIN,
                CONFIGURE_CATEGORY_MAIN_VIDEO_OUTPUT,
                MM_CAM_CLIENT_DISPLAY_SURFACE,
                MM_CAMCORDER_ATTR_NONE,
                "Videosink",
                MM_CAMCONVERT_TYPE_INT_ARRAY,
                NULL,
        },
};


static int _storage_device_supported_cb(int storage_id, storage_type_e type, storage_state_e state, const char *path, void *user_data)
{
        char **root_directory = (char **)user_data;

        if (root_directory == NULL) {
                _mmcam_dbg_warn("user data is NULL");
                return FALSE;
        }

        _mmcam_dbg_log("storage id %d, type %d, state %d, path %s",
                       storage_id, type, state, path ? path : "NULL");

        if (type == STORAGE_TYPE_INTERNAL && path) {
                if (*root_directory) {
                        free(*root_directory);
                        *root_directory = NULL;
                }

                *root_directory = strdup(path);
                if (*root_directory) {
                        _mmcam_dbg_log("get root directory %s", *root_directory);
                        return FALSE;
                } else {
                        _mmcam_dbg_warn("strdup %s failed");
                }
        }

        return TRUE;
}

bool _mmcamcorder_client_commit_display_handle(MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int current_state = MM_CAMCORDER_STATE_NONE;
        const char *videosink_name = NULL;
        void *p_handle = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later");
                return TRUE;
        }

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        p_handle = value->value.p_val;
        if (p_handle) {
                /* get videosink name */
                _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);
                if (videosink_name == NULL) {
                        _mmcam_dbg_err("Please check videosink element in configuration file");
                        return FALSE;
                }

                _mmcam_dbg_log("Commit : videosinkname[%s]", videosink_name);

                if (!strcmp(videosink_name, "xvimagesink") ||
                    !strcmp(videosink_name, "ximagesink")) {
                        _mmcam_dbg_log("Commit : Set XID[%x]", *(int*)(p_handle));
                        gst_video_overlay_set_window_handle(GST_VIDEO_OVERLAY(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst), *(int*)(p_handle));
                } else if (!strcmp(videosink_name, "evasimagesink") ||
                           !strcmp(videosink_name, "evaspixmapsink")) {
                        _mmcam_dbg_log("Commit : Set evas object [%p]", p_handle);
                        MMCAMCORDER_G_OBJECT_SET_POINTER(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst, "evas-object", p_handle);
#ifdef HAVE_WAYLAND
                } else if (!strcmp(videosink_name, "waylandsink")) {
                        MMCamWaylandInfo *wl_info = (MMCamWaylandInfo *)p_handle;
                        GstContext *context = NULL;

                        context = gst_wayland_display_handle_context_new((struct wl_display *)wl_info->display);
                        if (context) {
                                gst_element_set_context(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst, context);
                        } else {
                                _mmcam_dbg_warn("gst_wayland_display_handle_context_new failed");
                        }

                        gst_video_overlay_set_window_handle(GST_VIDEO_OVERLAY(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst), (guintptr)wl_info->surface);
                        gst_video_overlay_set_render_rectangle(GST_VIDEO_OVERLAY(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst),
                                                               wl_info->window_x,
                                                               wl_info->window_y,
                                                               wl_info->window_width,
                                                               wl_info->window_height);
#endif /* HAVE_WAYLAND */
                } else {
                        _mmcam_dbg_warn("Commit : Nothing to commit with this element[%s]", videosink_name);
                        return FALSE;
                }
        } else {
                _mmcam_dbg_warn("Display handle is NULL");
                return FALSE;
        }

        return TRUE;
}

bool _mmcamcorder_client_commit_display_rect(MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int current_state = MM_CAMCORDER_STATE_NONE;
        int method = 0;
        const char *videosink_name = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later");
                return TRUE;
        }

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        /* check current method */
        mm_camcorder_get_attributes(handle, NULL,
                                    MMCAM_DISPLAY_GEOMETRY_METHOD, &method,
                                    NULL);
        if (method != MM_DISPLAY_METHOD_CUSTOM_ROI) {
                _mmcam_dbg_log("current method[%d] is not supported rect", method);
                return FALSE;
        }

        /* Get videosink name */
        _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);
        if (videosink_name == NULL) {
                _mmcam_dbg_err("Please check videosink element in configuration file");
                return FALSE;
        }

        if (!strcmp(videosink_name, "xvimagesink") ||
            !strcmp(videosink_name, "evaspixmapsink")) {
                int rect_x = 0;
                int rect_y = 0;
                int rect_width = 0;
                int rect_height = 0;
                int flags = MM_ATTRS_FLAG_NONE;
                MMCamAttrsInfo info;

                mm_camcorder_get_attributes(handle, NULL,
                                            MMCAM_DISPLAY_RECT_X, &rect_x,
                                            MMCAM_DISPLAY_RECT_Y, &rect_y,
                                            MMCAM_DISPLAY_RECT_WIDTH, &rect_width,
                                            MMCAM_DISPLAY_RECT_HEIGHT, &rect_height,
                                            NULL);
                switch (attr_idx) {
                case MM_CAM_CLIENT_DISPLAY_RECT_X:
                        mm_camcorder_get_attribute_info(handle, MMCAM_DISPLAY_RECT_Y, &info);
                        flags |= info.flag;
                        memset(&info, 0x00, sizeof(info));
                        mm_camcorder_get_attribute_info(handle, MMCAM_DISPLAY_RECT_WIDTH, &info);
                        flags |= info.flag;
                        memset(&info, 0x00, sizeof(info));
                        mm_camcorder_get_attribute_info(handle, MMCAM_DISPLAY_RECT_HEIGHT, &info);
                        flags |= info.flag;
                        rect_x = value->value.i_val;
                        break;
                case MM_CAM_CLIENT_DISPLAY_RECT_Y:
                        mm_camcorder_get_attribute_info(handle, MMCAM_DISPLAY_RECT_WIDTH, &info);
                        flags |= info.flag;
                        memset(&info, 0x00, sizeof(info));
                        mm_camcorder_get_attribute_info(handle, MMCAM_DISPLAY_RECT_HEIGHT, &info);
                        flags |= info.flag;
                        rect_y = value->value.i_val;
                        break;
                case MM_CAM_CLIENT_DISPLAY_RECT_WIDTH:
                        mm_camcorder_get_attribute_info(handle, MMCAM_DISPLAY_RECT_HEIGHT, &info);
                        flags |= info.flag;
                        rect_width = value->value.i_val;
                        break;
                case MM_CAM_CLIENT_DISPLAY_RECT_HEIGHT:
                        rect_height = value->value.i_val;
                        break;
                default:
                        _mmcam_dbg_err("Wrong attr_idx!");
                        return FALSE;
                }

                if (!(flags & MM_ATTRS_FLAG_MODIFIED)) {
                        _mmcam_dbg_log("RECT(x,y,w,h) = (%d,%d,%d,%d)",
                                       rect_x, rect_y, rect_width, rect_height);
                        g_object_set(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst,
                                     "dst-roi-x", rect_x,
                                     "dst-roi-y", rect_y,
                                     "dst-roi-w", rect_width,
                                     "dst-roi-h", rect_height,
                                     NULL);
                }

                return TRUE;
        } else {
                _mmcam_dbg_warn("videosink[%s] does not support display rect.", videosink_name);
                return FALSE;
        }
}

bool _mmcamcorder_client_commit_display_rotation(MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int current_state = MM_CAMCORDER_STATE_NONE;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later [rotate:%d]", value->value.i_val);
                return TRUE;
        }

        return _mmcamcorder_set_display_rotation(handle, value->value.i_val, _MMCAMCORDER_CLIENT_VIDEOSINK_SINK);
}

bool _mmcamcorder_client_commit_display_visible(MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int current_state = MM_CAMCORDER_STATE_NONE;
        const char *videosink_name = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later");
                return TRUE;
        }

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        /* Get videosink name */
        _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);
        if (videosink_name == NULL) {
                _mmcam_dbg_err("Please check videosink element in configuration file");
                return FALSE;
        }

        if (!strcmp(videosink_name, "waylandsink") || !strcmp(videosink_name, "xvimagesink") ||
                !strcmp(videosink_name, "evasimagesink") || !strcmp(videosink_name, "evaspixmapsink")) {
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst, "visible", value->value.i_val);
                _mmcam_dbg_log("Set visible [%d] done.", value->value.i_val);
                return TRUE;
        } else {
                _mmcam_dbg_warn("videosink[%s] does not support VISIBLE.", videosink_name);
                return FALSE;
        }
}

bool _mmcamcorder_client_commit_display_geometry_method (MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int method = 0;
        int current_state = MM_CAMCORDER_STATE_NONE;
        const char *videosink_name = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later");
                return TRUE;
        }

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        /* Get videosink name */
        _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);
        if (videosink_name == NULL) {
                _mmcam_dbg_err("Please check videosink element in configuration file");
                return FALSE;
        }

        if (!strcmp(videosink_name, "waylandsink") || !strcmp(videosink_name, "xvimagesink") ||
                !strcmp(videosink_name, "evasimagesink") || !strcmp(videosink_name, "evaspixmapsink")) {
                method = value->value.i_val;
                MMCAMCORDER_G_OBJECT_SET( sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst, "display-geometry-method", method);
                return TRUE;
        } else {
                _mmcam_dbg_warn("videosink[%s] does not support geometry method.", videosink_name);
                return FALSE;
        }
}

bool _mmcamcorder_client_commit_display_scale(MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int zoom = 0;
        int current_state = MM_CAMCORDER_STATE_NONE;
        const char *videosink_name = NULL;
        GstElement *vs_element = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later");
                return TRUE;
        }

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        /* Get videosink name */
        _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);
        if (videosink_name == NULL) {
                _mmcam_dbg_err("Please check videosink element in configuration file");
                return FALSE;
        }

        zoom = value->value.i_val;
        if (!strcmp(videosink_name, "waylandsink") || !strcmp(videosink_name, "xvimagesink")) {
                vs_element = sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst;

                MMCAMCORDER_G_OBJECT_SET(vs_element, "zoom", (float)(zoom + 1));
                _mmcam_dbg_log("Set display zoom to %d", zoom + 1);

                return TRUE;
        } else {
                _mmcam_dbg_warn("videosink[%s] does not support scale", videosink_name);
                return FALSE;
        }
}

bool _mmcamcorder_client_commit_display_mode(MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int current_state = MM_CAMCORDER_STATE_NONE;
        const char *videosink_name = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later");
                return TRUE;
        }

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);
        if (videosink_name == NULL) {
                _mmcam_dbg_err("Please check videosink element in configuration file");
                return FALSE;
        }

        _mmcam_dbg_log("Commit : videosinkname[%s]", videosink_name);

        if (!strcmp(videosink_name, "waylandsink") || !strcmp(videosink_name, "xvimagesink")) {
                _mmcam_dbg_log("Commit : display mode [%d]", value->value.i_val);
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst, "display-mode", value->value.i_val);
                return TRUE;
        } else {
                _mmcam_dbg_warn("Commit : This element [%s] does not support display mode", videosink_name);
                return FALSE;
        }
}

bool _mmcamcorder_client_commit_display_evas_do_scaling(MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int current_state = MM_CAMCORDER_STATE_NONE;
        int do_scaling = 0;
        const char *videosink_name = NULL;

        mmf_camcorder_t *hcamcorder= MMF_CAMCORDER( handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later");
                return TRUE;
        }

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        do_scaling = value->value.i_val;

        /* Get videosink name */
        _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);
        if (videosink_name == NULL) {
                _mmcam_dbg_err("Please check videosink element in configuration file");
                return FALSE;
        }

        if (!strcmp(videosink_name, "evaspixmapsink")) {
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst, "origin-size", !do_scaling);
                _mmcam_dbg_log("Set origin-size to %d", !(value->value.i_val));
                return TRUE;
        } else {
                _mmcam_dbg_warn("videosink[%s] does not support scale", videosink_name);
                return FALSE;
        }
}

bool _mmcamcorder_client_commit_display_flip(MMHandleType handle, int attr_idx, const mmf_value_t *value)
{
        int current_state = MM_CAMCORDER_STATE_NONE;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);

        mmf_return_val_if_fail(handle, FALSE);

        /* check type */
        if (hcamcorder->type == MM_CAMCORDER_MODE_AUDIO) {
                _mmcam_dbg_err("invalid mode %d", hcamcorder->type);
                return FALSE;
        }

        /* check current state */
        current_state = _mmcamcorder_get_state(handle);
        if (current_state < MM_CAMCORDER_STATE_READY) {
                _mmcam_dbg_log("NOT initialized. this will be applied later [flip:%d]", value->value.i_val);
                return TRUE;
        }

        return _mmcamcorder_set_display_flip(handle, value->value.i_val, _MMCAMCORDER_CLIENT_VIDEOSINK_SINK);
}

int _mmcamcorder_client_videosink_window_set(MMHandleType handle, type_element* VideosinkElement)
{
        int err = MM_ERROR_NONE;
        int size = 0;
        int retx = 0;
        int rety = 0;
        int retwidth = 0;
        int retheight = 0;
        int visible = 0;
        int rotation = MM_DISPLAY_ROTATION_NONE;
        int flip = MM_FLIP_NONE;
        int display_mode = MM_DISPLAY_MODE_DEFAULT;
        int display_geometry_method = MM_DISPLAY_METHOD_LETTER_BOX;
        int origin_size = 0;
        int zoom_attr = 0;
        int zoom_level = 0;
        int do_scaling = FALSE;
        int *overlay = NULL;
        gulong xid;
        char *err_name = NULL;
        const char *videosink_name = NULL;

        GstElement *vsink = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);
        mmf_return_val_if_fail(VideosinkElement, MM_ERROR_CAMCORDER_INVALID_ARGUMENT);

        _mmcam_dbg_log("");

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc, MM_ERROR_CAMCORDER_NOT_INITIALIZED);
        mmf_return_val_if_fail(sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);
        mmf_return_val_if_fail(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        vsink = sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst;

        /* Get video display information */
        err = mm_camcorder_get_attributes(handle, &err_name,
                                          MMCAM_DISPLAY_RECT_X, &retx,
                                          MMCAM_DISPLAY_RECT_Y, &rety,
                                          MMCAM_DISPLAY_RECT_WIDTH, &retwidth,
                                          MMCAM_DISPLAY_RECT_HEIGHT, &retheight,
                                          MMCAM_DISPLAY_ROTATION, &rotation,
                                          MMCAM_DISPLAY_FLIP, &flip,
                                          MMCAM_DISPLAY_VISIBLE, &visible,
                                          MMCAM_DISPLAY_HANDLE, (void**)&overlay, &size,
                                          MMCAM_DISPLAY_MODE, &display_mode,
                                          MMCAM_DISPLAY_GEOMETRY_METHOD, &display_geometry_method,
                                          MMCAM_DISPLAY_SCALE, &zoom_attr,
                                          MMCAM_DISPLAY_EVAS_DO_SCALING, &do_scaling,
                                          NULL);
        if (err != MM_ERROR_NONE) {
                if (err_name) {
                        _mmcam_dbg_err("failed to get attributes [%s][0x%x]", err_name, err);
                        SAFE_FREE(err_name);
                } else {
                        _mmcam_dbg_err("failed to get attributes [0x%x]", err);
                }

                return err;
        }

        _mmcam_dbg_log("(overlay=%p, size=%d)", overlay, size);

        _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);

        if (videosink_name == NULL) {
                _mmcam_dbg_err("videosink_name is empty");
                return MM_ERROR_CAMCORDER_INVALID_CONDITION;
        }


        /* Set display handle */
        if (!strcmp(videosink_name, "xvimagesink") ||
            !strcmp(videosink_name, "ximagesink")) {
                if (overlay) {
                        xid = *overlay;
                        _mmcam_dbg_log("xid = %lu )", xid);
                        gst_video_overlay_set_window_handle(GST_VIDEO_OVERLAY(vsink), xid);
                } else {
                        _mmcam_dbg_warn("Handle is NULL. Set xid as 0.. but, it's not recommended.");
                        gst_video_overlay_set_window_handle(GST_VIDEO_OVERLAY(vsink), 0);
                }
        } else if (!strcmp(videosink_name, "evasimagesink") ||
                   !strcmp(videosink_name, "evaspixmapsink")) {
                _mmcam_dbg_log("videosink : %s, handle : %p", videosink_name, overlay);
                if (overlay) {
                        MMCAMCORDER_G_OBJECT_SET_POINTER(vsink, "evas-object", overlay);
                        MMCAMCORDER_G_OBJECT_SET(vsink, "origin-size", !do_scaling);
                } else {
                        _mmcam_dbg_err("display handle(eavs object) is NULL");
                        return MM_ERROR_CAMCORDER_INVALID_ARGUMENT;
                }
#ifdef HAVE_WAYLAND
        } else if (!strcmp(videosink_name, "waylandsink")) {
                MMCamWaylandInfo *wl_info = (MMCamWaylandInfo *)overlay;
                if (wl_info) {
                        GstContext *context = NULL;

                        context = gst_wayland_display_handle_context_new((struct wl_display *)wl_info->display);
                        if (context) {
                                gst_element_set_context(vsink, context);
                        } else {
                                _mmcam_dbg_warn("gst_wayland_display_handle_context_new failed");
                        }

                        gst_video_overlay_set_window_handle(GST_VIDEO_OVERLAY(vsink), (guintptr)wl_info->surface);
                        gst_video_overlay_set_render_rectangle(GST_VIDEO_OVERLAY(vsink),
                                                               wl_info->window_x,
                                                               wl_info->window_y,
                                                               wl_info->window_width,
                                                               wl_info->window_height);
                } else {
                        _mmcam_dbg_warn("Handle is NULL. skip setting.");
                }
#endif /* HAVE_WAYLAND */
        } else {
                _mmcam_dbg_warn("Who are you?? (Videosink: %s)", videosink_name);
        }

        _mmcam_dbg_log("%s set: display_geometry_method[%d],origin-size[%d],visible[%d],rotate[%d],flip[%d]",
                       videosink_name, display_geometry_method, origin_size, visible, rotation, flip);

        /* Set attribute */
        if (!strcmp(videosink_name, "waylandsink") || !strcmp(videosink_name, "xvimagesink") ||
                !strcmp(videosink_name, "evaspixmapsink")) {
                /* set rotation */
                MMCAMCORDER_G_OBJECT_SET(vsink, "rotate", rotation);

                /* set flip */
                MMCAMCORDER_G_OBJECT_SET(vsink, "flip", flip);

                switch (zoom_attr) {
                case MM_DISPLAY_SCALE_DEFAULT:
                        zoom_level = 1;
                        break;
                case MM_DISPLAY_SCALE_DOUBLE_LENGTH:
                        zoom_level = 2;
                        break;
                case MM_DISPLAY_SCALE_TRIPLE_LENGTH:
                        zoom_level = 3;
                        break;
                default:
                        _mmcam_dbg_warn("Unsupported zoom value. set as default.");
                        zoom_level = 1;
                        break;
                }

                MMCAMCORDER_G_OBJECT_SET(vsink, "display-geometry-method", display_geometry_method);
                MMCAMCORDER_G_OBJECT_SET(vsink, "display-mode", display_mode);
                MMCAMCORDER_G_OBJECT_SET(vsink, "visible", visible);
                MMCAMCORDER_G_OBJECT_SET(vsink, "zoom", zoom_level);

                if (display_geometry_method == MM_DISPLAY_METHOD_CUSTOM_ROI) {
                        g_object_set(vsink,
                                     "dst-roi-x", retx,
                                     "dst-roi-y", rety,
                                     "dst-roi-w", retwidth,
                                     "dst-roi-h", retheight,
                                     NULL);
                }
        } else {
                _mmcam_dbg_warn("unsupported videosink [%s]", videosink_name);
        }

        return MM_ERROR_NONE;
}

int _mmcamcorder_client_init_attr_from_configure(MMHandleType handle)
{
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderInfoConverting *info = NULL;

        int table_size = 0;
        int ret = MM_ERROR_NONE;

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        /* Initialize attribute related to display */
        info = g_client_display_info;
        table_size = sizeof(g_client_display_info) / sizeof(_MMCamcorderInfoConverting);
        ret = __mmcamcorder_set_info_to_attr(handle, info, table_size);
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("display info set error : 0x%x", ret);
                return ret;
        }

        _mmcam_dbg_log("done");

        return ret;
}

MMHandleType _mmcamcorder_client_alloc_attribute(MMHandleType handle)
{
        _mmcam_dbg_log( "" );

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        MMHandleType attrs = 0;
        mmf_attrs_construct_info_t *attrs_const_info = NULL;
        unsigned int attr_count = 0;
        unsigned int idx;
        static int visible_values[] = { 0, 1 }; /*0: off, 1:on*/

        mmf_return_val_if_fail(hcamcorder, NULL);

        /* Create attribute constructor */
        _mmcam_dbg_log("start");

        /* alloc 'mmf_attrs_construct_info_t' */
        attr_count = MM_CAM_CLIENT_ATTRIBUTE_NUM;
        attrs_const_info = malloc(attr_count * sizeof(mmf_attrs_construct_info_t));
        if (!attrs_const_info) {
                _mmcam_dbg_err("Fail to alloc constructor.");
                return 0;
        }

        /* alloc default attribute info */
        hcamcorder->cam_attrs_const_info = (mm_cam_attr_construct_info *)malloc(sizeof(mm_cam_attr_construct_info) * attr_count);
        if (hcamcorder->cam_attrs_const_info == NULL) {
                _mmcam_dbg_err("failed to alloc default attribute info");
                free(attrs_const_info);
                attrs_const_info = NULL;
                return 0;
        }

        /* basic attributes' info */
        mm_cam_attr_construct_info temp_info[] = {
                {
                        MM_CAM_CLIENT_DISPLAY_SOCKET_PATH,
                        MMCAM_DISPLAY_SOCKET_PATH,
                        MMF_VALUE_TYPE_STRING,
                        MM_ATTRS_FLAG_RW,
                        {(void*)NULL},
                        MM_ATTRS_VALID_TYPE_NONE,
                        {0},
                        {0},
                        NULL,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_HANDLE,
                        "display-handle",
                        MMF_VALUE_TYPE_DATA,
                        MM_ATTRS_FLAG_RW,
                        {(void*)NULL},
                        MM_ATTRS_VALID_TYPE_NONE,
                        {0},
                        {0},
                        _mmcamcorder_client_commit_display_handle,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_DEVICE,
                        "display-device",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)MM_DISPLAY_DEVICE_MAINLCD},
                        MM_ATTRS_VALID_TYPE_INT_ARRAY,
                        {0},
                        {0},
                        NULL,
                },
                // 50
                {
                        MM_CAM_CLIENT_DISPLAY_SURFACE,
                        "display-surface",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)MM_DISPLAY_SURFACE_OVERLAY},
                        MM_ATTRS_VALID_TYPE_INT_ARRAY,
                        {0},
                        {0},
                        NULL,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_RECT_X,
                        "display-rect-x",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = 0},
                        {.int_max = _MMCAMCORDER_MAX_INT},
                        _mmcamcorder_client_commit_display_rect,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_RECT_Y,
                        "display-rect-y",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = 0},
                        {.int_max = _MMCAMCORDER_MAX_INT},
                        _mmcamcorder_client_commit_display_rect,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_RECT_WIDTH,
                        "display-rect-width",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = 0},
                        {.int_max = _MMCAMCORDER_MAX_INT},
                        _mmcamcorder_client_commit_display_rect,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_RECT_HEIGHT,
                        "display-rect-height",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = 0},
                        {.int_max = _MMCAMCORDER_MAX_INT},
                        _mmcamcorder_client_commit_display_rect,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_SOURCE_X,
                        "display-src-x",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = 0},
                        {.int_max = _MMCAMCORDER_MAX_INT},
                        NULL,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_SOURCE_Y,
                        "display-src-y",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = 0},
                        {.int_max = _MMCAMCORDER_MAX_INT},
                        NULL,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_SOURCE_WIDTH,
                        "display-src-width",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = 0},
                        {.int_max = _MMCAMCORDER_MAX_INT},
                        NULL,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_SOURCE_HEIGHT,
                        "display-src-height",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = 0},
                        {.int_max = _MMCAMCORDER_MAX_INT},
                        NULL,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_ROTATION,
                        "display-rotation",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)MM_DISPLAY_ROTATION_NONE},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = MM_DISPLAY_ROTATION_NONE},
                        {.int_max = MM_DISPLAY_ROTATION_270},
                        _mmcamcorder_client_commit_display_rotation,
                },
                { // 60
                        MM_CAM_CLIENT_DISPLAY_VISIBLE,
                        "display-visible",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)1},
                        MM_ATTRS_VALID_TYPE_INT_ARRAY,
                        {visible_values},
                        {ARRAY_SIZE(visible_values)},
                        _mmcamcorder_client_commit_display_visible,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_SCALE,
                        "display-scale",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = MM_DISPLAY_SCALE_DEFAULT},
                        {.int_max = MM_DISPLAY_SCALE_TRIPLE_LENGTH},
                        _mmcamcorder_client_commit_display_scale,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_GEOMETRY_METHOD,
                        "display-geometry-method",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)0},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = MM_DISPLAY_METHOD_LETTER_BOX},
                        {.int_max = MM_DISPLAY_METHOD_CUSTOM_ROI},
                        _mmcamcorder_client_commit_display_geometry_method,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_MODE,
                        "display-mode",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)MM_DISPLAY_MODE_DEFAULT},
                        MM_ATTRS_VALID_TYPE_INT_ARRAY,
                        {0},
                        {0},
                        _mmcamcorder_client_commit_display_mode,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_EVAS_SURFACE_SINK,
                        "display-evas-surface-sink",
                        MMF_VALUE_TYPE_STRING,
                        MM_ATTRS_FLAG_READABLE,
                        {(void*)NULL},
                        MM_ATTRS_VALID_TYPE_NONE,
                        {0},
                        {0},
                        NULL,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_EVAS_DO_SCALING,
                        "display-evas-do-scaling",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)TRUE},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = FALSE},
                        {.int_max = TRUE},
                        _mmcamcorder_client_commit_display_evas_do_scaling,
                },
                {
                        MM_CAM_CLIENT_DISPLAY_FLIP,
                        "display-flip",
                        MMF_VALUE_TYPE_INT,
                        MM_ATTRS_FLAG_RW,
                        {(void*)MM_FLIP_NONE},
                        MM_ATTRS_VALID_TYPE_INT_RANGE,
                        {.int_min = MM_FLIP_NONE},
                        {.int_max = MM_FLIP_BOTH},
                        _mmcamcorder_client_commit_display_flip,
                },
        };

        memcpy(hcamcorder->cam_attrs_const_info, temp_info, sizeof(mm_cam_attr_construct_info) * attr_count);

        for (idx = 0 ; idx < attr_count ; idx++) {
                /* attribute order check. This should be same. */
                if (idx != hcamcorder->cam_attrs_const_info[idx].attrid) {
                        _mmcam_dbg_err("Please check attributes order. Is the idx same with enum val?");
                        free(attrs_const_info);
                        attrs_const_info = NULL;
                        free(hcamcorder->cam_attrs_const_info);
                        hcamcorder->cam_attrs_const_info = NULL;
                        return 0;
                }

                attrs_const_info[idx].name = hcamcorder->cam_attrs_const_info[idx].name;
                attrs_const_info[idx].value_type = hcamcorder->cam_attrs_const_info[idx].value_type;
                attrs_const_info[idx].flags = hcamcorder->cam_attrs_const_info[idx].flags;
                attrs_const_info[idx].default_value = hcamcorder->cam_attrs_const_info[idx].default_value.value_void;
        }

        /* Camcorder Attributes */
        _mmcam_dbg_log("Create Camcorder Attributes[%p, %d]", attrs_const_info, attr_count);

        attrs = mmf_attrs_new_from_data("Camcorder_Mused_Attributes",
                                        attrs_const_info,
                                        attr_count,
                                        _mmcamcorder_commit_camcorder_attrs,
                                        (void *)handle);

        free(attrs_const_info);
        attrs_const_info = NULL;

        if (attrs == 0) {
                _mmcam_dbg_err("Fail to alloc attribute handle");
                free(hcamcorder->cam_attrs_const_info);
                hcamcorder->cam_attrs_const_info = NULL;
                return 0;
        }

        for (idx = 0; idx < attr_count; idx++)
        {
                _mmcam_dbg_log("Valid type [%s]", hcamcorder->cam_attrs_const_info[idx].name);

                mmf_attrs_set_valid_type (attrs, idx, hcamcorder->cam_attrs_const_info[idx].validity_type);

                switch (hcamcorder->cam_attrs_const_info[idx].validity_type)
                {
                        case MM_ATTRS_VALID_TYPE_INT_ARRAY:
                                if (hcamcorder->cam_attrs_const_info[idx].validity_value_1.int_array &&
                                    hcamcorder->cam_attrs_const_info[idx].validity_value_2.count > 0) {
                                        mmf_attrs_set_valid_array(attrs, idx,
                                                                  (const int *)(hcamcorder->cam_attrs_const_info[idx].validity_value_1.int_array),
                                                                  hcamcorder->cam_attrs_const_info[idx].validity_value_2.count,
                                                                  hcamcorder->cam_attrs_const_info[idx].default_value.value_int);
                                }
                        break;
                        case MM_ATTRS_VALID_TYPE_INT_RANGE:
                                _mmcam_dbg_err("MM_ATTRS_VALID_TYPE_INT_RANGE");
                                mmf_attrs_set_valid_range(attrs, idx,
                                                          hcamcorder->cam_attrs_const_info[idx].validity_value_1.int_min,
                                                          hcamcorder->cam_attrs_const_info[idx].validity_value_2.int_max,
                                                          hcamcorder->cam_attrs_const_info[idx].default_value.value_int);
                        break;
                        case MM_ATTRS_VALID_TYPE_DOUBLE_ARRAY:
                                if (hcamcorder->cam_attrs_const_info[idx].validity_value_1.double_array &&
                                    hcamcorder->cam_attrs_const_info[idx].validity_value_2.count > 0) {
                                        mmf_attrs_set_valid_double_array(attrs, idx,
                                                                         (const double *)(hcamcorder->cam_attrs_const_info[idx].validity_value_1.double_array),
                                                                         hcamcorder->cam_attrs_const_info[idx].validity_value_2.count,
                                                                         hcamcorder->cam_attrs_const_info[idx].default_value.value_double);
                                }
                        break;
                        case MM_ATTRS_VALID_TYPE_DOUBLE_RANGE:
                                mmf_attrs_set_valid_double_range(attrs, idx,
                                                                 hcamcorder->cam_attrs_const_info[idx].validity_value_1.double_min,
                                                                 hcamcorder->cam_attrs_const_info[idx].validity_value_2.double_max,
                                                                 hcamcorder->cam_attrs_const_info[idx].default_value.value_double);
                        break;
                        case MM_ATTRS_VALID_TYPE_NONE:
                        break;
                        case MM_ATTRS_VALID_TYPE_INVALID:
                        default:
                                _mmcam_dbg_err("Valid type error.");
                        break;
                }
        }

        return attrs;
}

static gboolean
__mmcamcorder_client_gstreamer_init(camera_conf * conf)
{
        static const int max_argc = 10;
        int i = 0;
        int cnt_str = 0;
        gint *argc = NULL;
        gchar **argv = NULL;
        GError *err = NULL;
        gboolean ret = FALSE;
        type_string_array *GSTInitOption = NULL;

        mmf_return_val_if_fail(conf, FALSE);

        _mmcam_dbg_log("");

        /* alloc */
        argc = malloc(sizeof(int));
        argv = malloc(sizeof(gchar *) * max_argc);

        if (!argc || !argv) {
                goto ERROR;
        }

        memset(argv, 0, sizeof(gchar *) * max_argc);

        /* add initial */
        *argc = 1;
        argv[0] = g_strdup("mmcamcorder");

        /* add gst_param */
        _mmcamcorder_conf_get_value_string_array(conf,
                                                 CONFIGURE_CATEGORY_MAIN_GENERAL,
                                                 "GSTInitOption",
                                                 &GSTInitOption);
        if (GSTInitOption != NULL && GSTInitOption->value) {
                cnt_str = GSTInitOption->count;
                for( ; *argc < max_argc && *argc <= cnt_str ; (*argc)++ )
                {
                        argv[*argc] = g_strdup(GSTInitOption->value[(*argc)-1]);
                }
        }

        _mmcam_dbg_log("initializing gstreamer with following parameter[argc:%d]", *argc);

        for (i = 0; i < *argc; i++) {
                _mmcam_dbg_log("argv[%d] : %s", i, argv[i]);
        }

        /* initializing gstreamer */
        ret = gst_init_check (argc, &argv, &err);
        if (!ret) {
                _mmcam_dbg_err("Could not initialize GStreamer: %s ",
                               err ? err->message : "unknown error occurred");
                if (err) {
                        g_error_free (err);
                }
        }

        /* release */
        for (i = 0; i < *argc; i++) {
                if (argv[i]) {
                        g_free(argv[i]);
                        argv[i] = NULL;
                }
        }

        free(argv);
        argv = NULL;

        free(argc);
        argc = NULL;

        return ret;

ERROR:
        _mmcam_dbg_err("failed to initialize gstreamer");

        if (argv) {
                free(argv);
                argv = NULL;
        }

        if (argc) {
                free(argc);
                argc = NULL;
        }

        return FALSE;
}

int _mmcamcorder_client_create_preview_elements(MMHandleType handle, const char *videosink_name, char *string_caps)
{
        int ret = MM_ERROR_NONE;
        GList *element_list = NULL;
        GstElement *pipeline = NULL;
        char *socket_path = NULL;
        int socket_path_length;
        GstCaps *caps;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);
        mmf_return_val_if_fail(hcamcorder->sub_context, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        _MMCamcorderSubContext *sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        /* create pipeline */
        _MMCAMCORDER_PIPELINE_MAKE(sc, sc->element, _MMCAMCORDER_CLIENT_MAIN_PIPE, "camera_client", ret);

        /* create source */
        if (hcamcorder->use_zero_copy_format) {
                _MMCAMCORDER_ELEMENT_MAKE(sc, sc->element, _MMCAMCORDER_CLIENT_VIDEOSRC_SRC, "tizenipcsrc", "client_videosrc_src", element_list, ret);
        } else {
                _MMCAMCORDER_ELEMENT_MAKE(sc, sc->element, _MMCAMCORDER_CLIENT_VIDEOSRC_SRC, "shmsrc", "client_videosrc_src", element_list, ret);
        }

        mm_camcorder_get_attributes(handle, NULL,
                                    MMCAM_DISPLAY_SOCKET_PATH, &socket_path, &socket_path_length,
                                    NULL);

        if (socket_path == NULL ) {
                _mmcam_dbg_err("socket path is not set");
                goto set_videosrc_error;
        }

        _mmcam_dbg_err("ipc src socket path : %s", socket_path);

        g_object_set(sc->element[_MMCAMCORDER_CLIENT_VIDEOSRC_SRC].gst,
                     "socket-path", socket_path,
                     "is-live", TRUE,
                     NULL);

        /* create capsfilter */
        _MMCAMCORDER_ELEMENT_MAKE(sc, sc->element, _MMCAMCORDER_CLIENT_VIDEOSRC_FILT, "capsfilter", "client_vidoesrc_filt", element_list, ret);

        caps = gst_caps_from_string(string_caps);
        MMCAMCORDER_G_OBJECT_SET_POINTER(sc->element[_MMCAMCORDER_CLIENT_VIDEOSRC_FILT].gst, "caps", caps);

        gst_caps_unref(caps);

        caps = NULL;

        /* Making Video sink from here */
        _MMCAMCORDER_ELEMENT_MAKE(sc, sc->element, _MMCAMCORDER_CLIENT_VIDEOSINK_QUE, "queue", "client_videosink_queue", element_list, ret);

        /* Add color converting element */
        if (!strcmp(videosink_name, "evasimagesink") || !strcmp(videosink_name, "ximagesink")) {
                _MMCAMCORDER_ELEMENT_MAKE(sc, sc->element, _MMCAMCORDER_CLIENT_VIDEOSINK_CLS, "videoconvert", "client_videosrc_convert", element_list, ret);
        }

        /* create sink */
        _MMCAMCORDER_ELEMENT_MAKE(sc, sc->element, _MMCAMCORDER_CLIENT_VIDEOSINK_SINK, videosink_name, "client_videosink_sink", element_list, ret);

        if (strcmp(videosink_name, "fakesink") && strcmp(videosink_name, "tizenipcsink") &&
                strcmp(videosink_name, "shmsink")) {
                if (_mmcamcorder_client_videosink_window_set(handle, sc->VideosinkElement) != MM_ERROR_NONE) {
                        _mmcam_dbg_err("_mmcamcorder_client_videosink_window_set error");
                        ret = MM_ERROR_CAMCORDER_INVALID_ARGUMENT;
                        goto pipeline_creation_error;
                }
        }

        _mmcamcorder_conf_set_value_element_property(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_SINK].gst, sc->VideosinkElement);

        /* add elements to main pipeline */
        if (!_mmcamcorder_add_elements_to_bin(GST_BIN(sc->element[_MMCAMCORDER_CLIENT_MAIN_PIPE].gst), element_list)) {
                _mmcam_dbg_err("element_list add error.");
                ret = MM_ERROR_CAMCORDER_RESOURCE_CREATION;
                goto pipeline_creation_error;
        }

        /* link elements */
        if (!_mmcamcorder_link_elements(element_list)) {
                _mmcam_dbg_err( "element link error." );
                ret = MM_ERROR_CAMCORDER_GST_LINK;
                goto pipeline_creation_error;
        }

        pipeline = sc->element[_MMCAMCORDER_CLIENT_MAIN_PIPE].gst;

        ret = _mmcamcorder_gst_set_state(handle, pipeline, GST_STATE_PLAYING);
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("error : destroy pipeline");
                goto pipeline_creation_error;
        }

        if (element_list) {
                g_list_free(element_list);
                element_list = NULL;
        }

        return MM_ERROR_NONE;

pipeline_creation_error:
        _MMCAMCORDER_ELEMENT_REMOVE(sc->element, _MMCAMCORDER_CLIENT_VIDEOSINK_SINK);
        if (!strcmp(videosink_name, "evasimagesink") || !strcmp(videosink_name, "ximagesink")) {
                _MMCAMCORDER_ELEMENT_REMOVE(sc->element, _MMCAMCORDER_CLIENT_VIDEOSINK_CLS);
        }
        _MMCAMCORDER_ELEMENT_REMOVE(sc->element, _MMCAMCORDER_CLIENT_VIDEOSINK_QUE);
set_videosrc_error:
        _MMCAMCORDER_ELEMENT_REMOVE(sc->element, _MMCAMCORDER_CLIENT_VIDEOSRC_SRC);
        _MMCAMCORDER_ELEMENT_REMOVE(sc->element, _MMCAMCORDER_CLIENT_MAIN_PIPE);

        if (element_list) {
                g_list_free(element_list);
                element_list = NULL;
        }

        return ret;
}

void __mmcamcorder_client_gst_destroy_pipeline(MMHandleType handle)
{
        _MMCamcorderSubContext *sc;
        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        if (sc->element[_MMCAMCORDER_CLIENT_MAIN_PIPE].gst) {
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_CLIENT_VIDEOSINK_QUE].gst, "empty-buffers", TRUE);

                _mmcamcorder_gst_set_state(handle, sc->element[_MMCAMCORDER_CLIENT_MAIN_PIPE].gst, GST_STATE_NULL);
                _mmcamcorder_remove_all_handlers(handle, _MMCAMCORDER_HANDLER_CATEGORY_ALL);

                gst_object_unref(sc->element[_MMCAMCORDER_CLIENT_MAIN_PIPE].gst);
        }

        return;
}

int _mmcamcorder_client_realize(MMHandleType handle, char *string_caps)
{
        int ret = MM_ERROR_NONE;
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);

        _MMCamcorderSubContext *sc;
        int display_surface_type = MM_DISPLAY_SURFACE_OVERLAY;
        char *videosink_element_type = NULL;
        const char *videosink_name = NULL;
        char *err_name = NULL;

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);
        _mmcam_dbg_log("Enter");

        if (!_MMCAMCORDER_TRYLOCK_CMD(hcamcorder)) {
                _mmcam_dbg_err("Another command is running.");
                ret = MM_ERROR_CAMCORDER_CMD_IS_RUNNING;
                goto _ERR_CAMCORDER_CMD_PRECON;
        }

        /* alloc sub context */
        hcamcorder->sub_context = _mmcamcorder_alloc_subcontext(hcamcorder->type);
        if(!hcamcorder->sub_context) {
                ret = MM_ERROR_CAMCORDER_RESOURCE_CREATION;
                goto _ERR_CAMCORDER_CMD;
        }

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);

        ret = mm_camcorder_get_attributes(handle, &err_name,
                                    MMCAM_DISPLAY_SURFACE, &display_surface_type,
                                    NULL);

        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_warn("Get attrs fail. (%s:%x)", err_name, ret);
                SAFE_FREE(err_name);
                goto _ERR_CAMCORDER_SET_DISPLAY;
        }

        _mmcam_dbg_warn("display_surface_type : %d", display_surface_type);

        switch (display_surface_type) {
        case MM_DISPLAY_SURFACE_OVERLAY:
                videosink_element_type = strdup("VideosinkElementOverlay");
                break;
        case MM_DISPLAY_SURFACE_EVAS:
                videosink_element_type = strdup("VideosinkElementEvas");
                break;
        case MM_DISPLAY_SURFACE_GL:
                videosink_element_type = strdup("VideosinkElementGL");
                break;
        case MM_DISPLAY_SURFACE_NULL:
                videosink_element_type = strdup("VideosinkElementNull");
                break;
        default:
                videosink_element_type = strdup("VideosinkElementOverlay");
                break;
        }

        /* check string of videosink element */
        if (videosink_element_type) {
                _mmcamcorder_conf_get_element(handle, hcamcorder->conf_main,
                                              CONFIGURE_CATEGORY_MAIN_VIDEO_OUTPUT,
                                              videosink_element_type,
                                              &sc->VideosinkElement);
                free(videosink_element_type);
                videosink_element_type = NULL;
        } else {
                _mmcam_dbg_warn("strdup failed(display_surface_type %d). Use default X type",
                                display_surface_type);

                _mmcamcorder_conf_get_element(handle, hcamcorder->conf_main,
                                              CONFIGURE_CATEGORY_MAIN_VIDEO_OUTPUT,
                                              _MMCAMCORDER_DEFAULT_VIDEOSINK_TYPE,
                                              &sc->VideosinkElement);
        }

        _mmcamcorder_conf_get_value_element_name(sc->VideosinkElement, &videosink_name);

        if(videosink_name != NULL) {
                _mmcam_dbg_log("Videosink name : %s", videosink_name);
                ret = _mmcamcorder_client_create_preview_elements(handle, videosink_name, string_caps);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("create client's preview elements Failed.");
                        goto _ERR_CAMCORDER_SET_DISPLAY;
                }
        } else {
                _mmcam_dbg_err("Get Videosink name error");
                goto _ERR_CAMCORDER_SET_DISPLAY;
        }

        /* set command function */
        _mmcamcorder_set_state(handle, MM_CAMCORDER_STATE_READY);

        _MMCAMCORDER_UNLOCK_CMD(hcamcorder);
        return ret;

_ERR_CAMCORDER_SET_DISPLAY:
        if (hcamcorder->sub_context) {
                _mmcamcorder_dealloc_subcontext(hcamcorder->sub_context);
                hcamcorder->sub_context = NULL;
        }
_ERR_CAMCORDER_CMD:
        _MMCAMCORDER_UNLOCK_CMD(hcamcorder);
_ERR_CAMCORDER_CMD_PRECON:
        return ret;
}

int _mmcamcorder_client_unrealize(MMHandleType handle)
{
        int ret = MM_ERROR_NONE;
        int state = MM_CAMCORDER_STATE_NONE;
        int state_FROM = MM_CAMCORDER_STATE_READY;
        int state_TO = MM_CAMCORDER_STATE_NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);
        _mmcam_dbg_log("Enter");

        if (!hcamcorder) {
                _mmcam_dbg_err("Not initialized");
                ret = MM_ERROR_CAMCORDER_NOT_INITIALIZED;
                return ret;
        }

        _mmcam_dbg_log("try lock");
        if (!_MMCAMCORDER_TRYLOCK_CMD(hcamcorder)) {
                _mmcam_dbg_err("Another command is running.");
                ret = MM_ERROR_CAMCORDER_CMD_IS_RUNNING;
                goto _ERR_CAMCORDER_CMD_PRECON;
        }

        state = _mmcamcorder_get_state(handle);
        if (state != state_FROM) {
                _mmcam_dbg_err("Wrong state(%d)", state);
                ret = MM_ERROR_CAMCORDER_INVALID_STATE;
                goto _ERR_CAMCORDER_CMD_PRECON_AFTER_LOCK;
        }

        /* Release SubContext */
        if (hcamcorder->sub_context) {
                /* destroy pipeline */
                _mmcam_dbg_warn("destroy pipeline");
                __mmcamcorder_client_gst_destroy_pipeline(handle);
                /* Deallocate SubContext */
                _mmcamcorder_dealloc_subcontext(hcamcorder->sub_context);
                hcamcorder->sub_context = NULL;
        }

        /* Deinitialize main context member */
        hcamcorder->command = NULL;

        _mmcam_dbg_log("un lock");
        _MMCAMCORDER_UNLOCK_CMD(hcamcorder);

        _mmcamcorder_set_state(handle, state_TO);

        return MM_ERROR_NONE;

_ERR_CAMCORDER_CMD_PRECON_AFTER_LOCK:
        _mmcam_dbg_log("un lock");
        _MMCAMCORDER_UNLOCK_CMD(hcamcorder);

_ERR_CAMCORDER_CMD_PRECON:
        /* send message */
        _mmcam_dbg_err("Unrealize fail (type %d, ret %x)",
                       hcamcorder->type, ret);

        return ret;
}

static int _mm_camcorder_client_set_socket_path(MMHandleType handle, const char *path)
{
        int ret = MM_ERROR_NONE;

        _mmcam_dbg_log("handle : 0x%x, path:%s", handle, path);

        mm_camcorder_set_attributes(handle, NULL,
                                    MMCAM_DISPLAY_SOCKET_PATH, path, strlen(path),
                                    NULL);

        return ret;
}

int mm_camcorder_client_create(MMHandleType *handle)
{
        int ret = MM_ERROR_NONE;
        mmf_camcorder_t *hcamcorder = NULL;

        _mmcam_dbg_log("Enter");
        mmf_return_val_if_fail(handle, MM_ERROR_CAMCORDER_INVALID_ARGUMENT);

        /* Create mmf_camcorder_t handle and initialize every variable */
        hcamcorder = (mmf_camcorder_t *)malloc(sizeof(mmf_camcorder_t));
        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_LOW_MEMORY);
        memset(hcamcorder, 0x00, sizeof(mmf_camcorder_t));

        /* init values */
        hcamcorder->type = 0;
        hcamcorder->state = MM_CAMCORDER_STATE_NONE;
        hcamcorder->sub_context = NULL;
        hcamcorder->target_state = MM_CAMCORDER_STATE_NULL;
        hcamcorder->capture_in_recording = FALSE;

        g_mutex_init(&(hcamcorder->mtsafe).lock);
        g_cond_init(&(hcamcorder->mtsafe).cond);
        g_mutex_init(&(hcamcorder->mtsafe).cmd_lock);
        g_mutex_init(&(hcamcorder->mtsafe).state_lock);
        g_mutex_init(&(hcamcorder->mtsafe).gst_state_lock);
        g_mutex_init(&(hcamcorder->mtsafe).message_cb_lock);
        g_mutex_init(&hcamcorder->restart_preview_lock);

        /* Get Camera Configure information from Camcorder INI file */
        _mmcamcorder_conf_get_info((MMHandleType)hcamcorder, CONFIGURE_TYPE_MAIN, CONFIGURE_MAIN_FILE, &hcamcorder->conf_main);

        if (!(hcamcorder->conf_main)) {
                _mmcam_dbg_err( "Failed to get configure(main) info." );

                ret = MM_ERROR_CAMCORDER_CREATE_CONFIGURE;
                goto _ERR_CAMCORDER_CREATE_CONFIGURE;
        }
        _mmcam_dbg_log("aloc attribute handle : 0x%x", (MMHandleType)hcamcorder);
        hcamcorder->attributes = _mmcamcorder_client_alloc_attribute((MMHandleType)hcamcorder);
        if (!(hcamcorder->attributes)) {
                _mmcam_dbg_err("_mmcamcorder_create::alloc attribute error.");

                ret = MM_ERROR_CAMCORDER_RESOURCE_CREATION;
                goto _ERR_CAMCORDER_RESOURCE_CREATION;
        }

        ret = __mmcamcorder_client_gstreamer_init(hcamcorder->conf_main);
        if (!ret) {
                _mmcam_dbg_err( "Failed to initialize gstreamer!!" );
                ret = MM_ERROR_CAMCORDER_NOT_INITIALIZED;
                goto _ERR_DEFAULT_VALUE_INIT;
        }

        ret = _mmcamcorder_client_init_attr_from_configure((MMHandleType)hcamcorder);
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_warn("client_init_attr_from_configure error!!");
                ret = MM_ERROR_CAMCORDER_INTERNAL;
                goto _ERR_DEFAULT_VALUE_INIT;
        }

        /* Get UseZeroCopyFormat value from INI */
        _mmcamcorder_conf_get_value_int((MMHandleType)hcamcorder, hcamcorder->conf_main,
                                        CONFIGURE_CATEGORY_MAIN_VIDEO_INPUT,
                                        "UseZeroCopyFormat",
                                        &(hcamcorder->use_zero_copy_format));

        /* Set initial state */
        _mmcamcorder_set_state((MMHandleType)hcamcorder, MM_CAMCORDER_STATE_NULL);

        _mmcam_dbg_log("created handle %p - UseZeroCopyFormat %d",
                hcamcorder, hcamcorder->use_zero_copy_format);

        *handle = (MMHandleType)hcamcorder;
        _mmcam_dbg_log("created client handle : 0x%x", *handle);

        return MM_ERROR_NONE;

_ERR_CAMCORDER_CREATE_CONFIGURE:
_ERR_CAMCORDER_RESOURCE_CREATION:
_ERR_DEFAULT_VALUE_INIT:
        /* Release lock, cond */
        g_mutex_clear(&(hcamcorder->mtsafe).lock);
        g_cond_clear(&(hcamcorder->mtsafe).cond);
        g_mutex_clear(&(hcamcorder->mtsafe).cmd_lock);
        g_mutex_clear(&(hcamcorder->mtsafe).state_lock);
        g_mutex_clear(&(hcamcorder->mtsafe).gst_state_lock);
        g_mutex_clear(&(hcamcorder->mtsafe).gst_encode_state_lock);
        g_mutex_clear(&(hcamcorder->mtsafe).message_cb_lock);

        g_mutex_clear(&(hcamcorder->restart_preview_lock));

        if (hcamcorder->conf_ctrl) {
                _mmcamcorder_conf_release_info(handle, &hcamcorder->conf_ctrl);
        }

        if (hcamcorder->conf_main) {
                _mmcamcorder_conf_release_info(handle, &hcamcorder->conf_main);
        }

        /* Release handle */
        memset(hcamcorder, 0x00, sizeof(mmf_camcorder_t));
        free(hcamcorder);

        return ret;
}

void mm_camcorder_client_destroy(MMHandleType handle)
{
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);

        _mmcam_dbg_log("try lock");

        if (!_MMCAMCORDER_TRYLOCK_CMD(hcamcorder)) {
                _mmcam_dbg_err("Another command is running.");
                goto _ERR_CAMCORDER_CMD_PRECON;
        }

        if (hcamcorder->attributes) {
                _mmcamcorder_dealloc_attribute(handle, hcamcorder->attributes);
        }

        _mmcam_dbg_log("unlock");
        _MMCAMCORDER_UNLOCK_CMD(hcamcorder);

        g_mutex_clear(&((hcamcorder->mtsafe).lock));
        g_cond_clear(&((hcamcorder->mtsafe).cond));
        g_mutex_clear(&((hcamcorder->mtsafe).cmd_lock));
        g_mutex_clear(&((hcamcorder->mtsafe).state_lock));
        g_mutex_clear(&((hcamcorder->mtsafe).gst_state_lock));
        g_mutex_clear(&((hcamcorder->mtsafe).message_cb_lock));
        g_mutex_clear(&(hcamcorder->restart_preview_lock));
        _mmcamcorder_set_state((MMHandleType)hcamcorder, MM_CAMCORDER_STATE_NONE);
        /* Release handle */
        memset(hcamcorder, 0x00, sizeof(mmf_camcorder_t));
        free(hcamcorder);

_ERR_CAMCORDER_CMD_PRECON:
        return;
}

int mm_camcorder_client_realize(MMHandleType handle, char *caps)
{
        int ret = MM_ERROR_NONE;
        ret = _mmcamcorder_client_realize(handle, caps);
        return ret;
}

int mm_camcorder_client_unrealize(MMHandleType handle)
{
        int ret = MM_ERROR_NONE;
        ret = _mmcamcorder_client_unrealize(handle);
        return ret;
}

int mm_camcorder_client_set_socket_path(MMHandleType handle, const char *path)
{
        int ret = MM_ERROR_NONE;
        _mmcam_dbg_log("Entered ");
        ret = _mm_camcorder_client_set_socket_path(handle, path);
        return ret;
}

int mm_camcorder_client_get_root_directory(char **root_directory)
{
        int ret = STORAGE_ERROR_NONE;

        if (root_directory == NULL) {
                _mmcam_dbg_warn("user data is NULL");
                return MM_ERROR_CAMCORDER_INVALID_ARGUMENT;
        }

        ret = storage_foreach_device_supported((storage_device_supported_cb)_storage_device_supported_cb, root_directory);
        if (ret != STORAGE_ERROR_NONE) {
                _mmcam_dbg_err("storage_foreach_device_supported failed 0x%x", ret);
                return MM_ERROR_CAMCORDER_INTERNAL;
        }

        return MM_ERROR_NONE;
}