[Release version 0.10.62] Add new attributes for reuse display, Remove unnecessary...

[platform/core/multimedia/libmm-camcorder.git] / src / mm_camcorder_stillshot.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 <stdlib.h>
#include <sys/time.h>
#include <sys/times.h>
#include <gst/video/cameracontrol.h>
#include <mm_sound.h>
#include "mm_camcorder_internal.h"
#include "mm_camcorder_stillshot.h"
#include "mm_camcorder_exifinfo.h"
#include "mm_camcorder_exifdef.h"
#include <libexif/exif-loader.h>
#include <libexif/exif-utils.h>
#include <libexif/exif-data.h>

/*---------------------------------------------------------------------------------------
|    GLOBAL VARIABLE DEFINITIONS for internal                                           |
---------------------------------------------------------------------------------------*/
#define EXIF_SET_ERR( return_type,tag_id) \
        _mmcam_dbg_err("error=%x,tag=%x",return_type,tag_id); \
        if (return_type == (int)MM_ERROR_CAMCORDER_LOW_MEMORY) { \
                goto exit; \
        }

/*---------------------------------------------------------------------------------------
|    LOCAL VARIABLE DEFINITIONS for internal                                            |
---------------------------------------------------------------------------------------*/
#define THUMBNAIL_WIDTH         320
#define THUMBNAIL_HEIGHT        240
#define THUMBNAIL_JPEG_QUALITY  90
#define TRY_LOCK_MAX_COUNT      100
#define TRY_LOCK_TIME           20000   /* ms */
#define H264_PREVIEW_BITRATE    1024*10 /* kbps */
#define H264_PREVIEW_NEWGOP_INTERVAL    1000 /* ms */
#define _MMCAMCORDER_MAKE_THUMBNAIL_INTERNAL_ENCODE


/*---------------------------------------------------------------------------------------
|    LOCAL FUNCTION PROTOTYPES:                                                         |
---------------------------------------------------------------------------------------*/
/** STATIC INTERNAL FUNCTION **/
/* Functions for JPEG capture without Encode bin */
int _mmcamcorder_image_cmd_capture(MMHandleType handle);
int _mmcamcorder_image_cmd_preview_start(MMHandleType handle);
int _mmcamcorder_image_cmd_preview_stop(MMHandleType handle);
static void __mmcamcorder_image_capture_cb(GstElement *element, GstSample *sample1, GstSample *sample2, GstSample *sample3, gpointer u_data);

/* sound status changed callback */
static void __sound_status_changed_cb(keynode_t* node, void *data);

/*=======================================================================================
|  FUNCTION DEFINITIONS                                                                 |
=======================================================================================*/

/*---------------------------------------------------------------------------------------
|    GLOBAL FUNCTION DEFINITIONS:                                                       |
---------------------------------------------------------------------------------------*/


int _mmcamcorder_create_stillshot_pipeline(MMHandleType handle)
{
        int err = MM_ERROR_UNKNOWN;
        GstPad *srcpad = NULL;
        GstPad *sinkpad = NULL;

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

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc && sc->info_image && sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        _mmcam_dbg_log("");

        /* Create gstreamer element */
        _mmcam_dbg_log("Using Encodebin for capturing");

        /* Create capture pipeline */
        _MMCAMCORDER_PIPELINE_MAKE(sc, sc->encode_element, _MMCAMCORDER_ENCODE_MAIN_PIPE, "capture_pipeline", err);

        err = _mmcamcorder_create_encodesink_bin((MMHandleType)hcamcorder, MM_CAMCORDER_ENCBIN_PROFILE_IMAGE);
        if (err != MM_ERROR_NONE) {
                return err;
        }

        /* add element and encodesink bin to encode main pipeline */
        gst_bin_add_many(GST_BIN(sc->encode_element[_MMCAMCORDER_ENCODE_MAIN_PIPE].gst),
                         sc->encode_element[_MMCAMCORDER_ENCSINK_SRC].gst,
                         sc->encode_element[_MMCAMCORDER_ENCSINK_FILT].gst,
                         sc->encode_element[_MMCAMCORDER_ENCSINK_BIN].gst,
                         NULL);

        /* Link each element : appsrc - capsfilter - encodesink bin */
        srcpad = gst_element_get_static_pad(sc->encode_element[_MMCAMCORDER_ENCSINK_SRC].gst, "src");
        sinkpad = gst_element_get_static_pad(sc->encode_element[_MMCAMCORDER_ENCSINK_FILT].gst, "sink");
        _MM_GST_PAD_LINK_UNREF(srcpad, sinkpad, err, pipeline_creation_error);

        srcpad = gst_element_get_static_pad(sc->encode_element[_MMCAMCORDER_ENCSINK_FILT].gst, "src");
        sinkpad = gst_element_get_static_pad(sc->encode_element[_MMCAMCORDER_ENCSINK_BIN].gst, "image_sink0");
        _MM_GST_PAD_LINK_UNREF(srcpad, sinkpad, err, pipeline_creation_error);

        /* connect handoff signal to get capture data */
        MMCAMCORDER_SIGNAL_CONNECT(sc->encode_element[_MMCAMCORDER_ENCSINK_SINK].gst,
                                   _MMCAMCORDER_HANDLER_STILLSHOT, "handoff",
                                   G_CALLBACK(__mmcamcorder_handoff_callback),
                                   hcamcorder);

        return MM_ERROR_NONE;

pipeline_creation_error:
        _mmcamcorder_remove_stillshot_pipeline(handle);
        return err;
}


int _mmcamcorder_connect_capture_signal(MMHandleType handle)
{
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc && sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        /* check video source element */
        if (sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst) {
                _mmcam_dbg_warn("connect capture signal to _MMCAMCORDER_VIDEOSRC_SRC");
                MMCAMCORDER_SIGNAL_CONNECT(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst,
                                           _MMCAMCORDER_HANDLER_STILLSHOT, "still-capture",
                                           G_CALLBACK(__mmcamcorder_image_capture_cb),
                                           hcamcorder);

                return MM_ERROR_NONE;
        } else {
                _mmcam_dbg_err("videosrc element is not created yet");
                return MM_ERROR_CAMCORDER_NOT_INITIALIZED;
        }
}


int _mmcamcorder_remove_stillshot_pipeline(MMHandleType handle)
{
        int ret = MM_ERROR_NONE;
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc && sc->info_image && sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        _mmcam_dbg_log("");

        /* Check pipeline */
        if (sc->encode_element[_MMCAMCORDER_ENCODE_MAIN_PIPE].gst) {
                ret = _mmcamcorder_gst_set_state(handle, sc->encode_element[_MMCAMCORDER_ENCODE_MAIN_PIPE].gst, GST_STATE_NULL);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("Faile to change encode main pipeline state [0x%x]", ret);
                        return ret;
                }

                _mmcamcorder_remove_all_handlers(handle, _MMCAMCORDER_HANDLER_STILLSHOT | _MMCAMCORDER_HANDLER_VIDEOREC);

                GstPad *reqpad = NULL;

                /* release request pad */
                reqpad = gst_element_get_static_pad(sc->encode_element[_MMCAMCORDER_ENCSINK_ENCBIN].gst, "image");
                if (reqpad) {
                        gst_element_release_request_pad(sc->encode_element[_MMCAMCORDER_ENCSINK_ENCBIN].gst, reqpad);
                        gst_object_unref(reqpad);
                        reqpad = NULL;
                }

                /* release encode main pipeline */
                gst_object_unref(sc->encode_element[_MMCAMCORDER_ENCODE_MAIN_PIPE].gst);

                _mmcam_dbg_log("Encoder pipeline removed");
        } else {
                _mmcam_dbg_log("encode main pipeline is already removed");
        }

        return MM_ERROR_NONE;
}


void _mmcamcorder_destroy_video_capture_pipeline(MMHandleType handle)
{
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;
        int display_reuse_hint = FALSE;
        GstElement *sink_element = NULL;
        mmf_attrs_t *attrs = NULL;
        int attr_index = 0;
        mmf_attribute_t *attr_item = NULL;

        mmf_return_if_fail(hcamcorder);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_if_fail(sc && sc->element);

        _mmcam_dbg_log("");

        if (sc->element[_MMCAMCORDER_MAIN_PIPE].gst) {
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", TRUE);
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", TRUE);

                /* check reuse flag for display element */
                mm_camcorder_get_attributes(handle, NULL,
                        MMCAM_DISPLAY_REUSE_HINT, &display_reuse_hint,
                        NULL);

                _mmcam_dbg_log("display reuse hint %d", display_reuse_hint);

                if (!display_reuse_hint)
                        goto _REUSE_CHECK_DONE;

                sink_element = sc->element[_MMCAMCORDER_VIDEOSINK_SINK].gst;
                if (!sink_element) {
                        _mmcam_dbg_warn("sink element is NULL");
                        goto _REUSE_CHECK_DONE;
                }

                attrs = (mmf_attrs_t *)MMF_CAMCORDER_ATTRS(handle);
                if (!attrs) {
                        _mmcam_dbg_warn("attribute is NULL");
                        goto _REUSE_CHECK_DONE;
                }

                _mmcam_dbg_log("REF sink element %p and set it to attribute", sink_element);

                /* ref element before remove it from pipeline */
                gst_object_ref(sink_element);

                if (!gst_bin_remove(GST_BIN(sc->element[_MMCAMCORDER_MAIN_PIPE].gst), sink_element)) {
                        _mmcam_dbg_warn("failed to remove sink element from pipeline");
                }

                /* set sink element pointer to attribute */
                mm_attrs_get_index((MMHandleType)attrs, MMCAM_DISPLAY_REUSE_ELEMENT, &attr_index);
                attr_item = &attrs->items[attr_index];
                mmf_attribute_set_data(attr_item, (void *)sink_element, sizeof(sink_element));
                mmf_attribute_commit(attr_item);

                /* remove notify callback */
                g_object_weak_unref(G_OBJECT(sink_element), (GWeakNotify)_mmcamcorder_element_release_noti, sc);

                sc->element[_MMCAMCORDER_VIDEOSINK_SINK].gst = NULL;
                sc->element[_MMCAMCORDER_VIDEOSINK_SINK].id = _MMCAMCORDER_NONE;

_REUSE_CHECK_DONE:
                traceBegin(TTRACE_TAG_CAMERA, "MMCAMCORDER:UNREALIZE:SET_NULL_TO_PIPELINE");

                _mmcamcorder_gst_set_state(handle, sc->element[_MMCAMCORDER_MAIN_PIPE].gst, GST_STATE_NULL);

                traceEnd(TTRACE_TAG_CAMERA);

                _mmcamcorder_remove_all_handlers(handle, _MMCAMCORDER_HANDLER_CATEGORY_ALL);

                traceBegin(TTRACE_TAG_CAMERA, "MMCAMCORDER:UNREALIZE:UNREF_PIPELINE");

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

                traceEnd(TTRACE_TAG_CAMERA);

                /* NULL initialization will be done in _mmcamcorder_element_release_noti */
        }

        return;
}


int _mmcamcorder_image_cmd_capture(MMHandleType handle)
{
        int ret = MM_ERROR_NONE;
        int UseCaptureMode = 0;
        int width = 0;
        int height = 0;
        int fps = 0;
        int cap_format = MM_PIXEL_FORMAT_NV12;
        int image_encoder = MM_IMAGE_CODEC_JPEG;
        int strobe_mode = MM_CAMCORDER_STROBE_MODE_OFF;
        int is_modified_size = FALSE;
        int tag_orientation = 0;
        unsigned int cap_fourcc = 0;

        char *err_name = NULL;
        const char *videosrc_name = NULL;

        GstCameraControl *control = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderImageInfo *info = NULL;
        _MMCamcorderSubContext *sc = NULL;
        type_element *VideosrcElement = NULL;
        MMCamcorderStateType current_state = MM_CAMCORDER_STATE_NONE;

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc && sc->info_image && sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        _mmcam_dbg_log("");

        info = sc->info_image;

        if (info->capturing) {
                _mmcam_dbg_err("already capturing");
                return MM_ERROR_CAMCORDER_DEVICE_BUSY;
        }

        _mmcamcorder_conf_get_value_int(handle, hcamcorder->conf_main,
                                        CONFIGURE_CATEGORY_MAIN_CAPTURE,
                                        "UseCaptureMode",
                                        &UseCaptureMode);

        _mmcamcorder_conf_get_element(handle, hcamcorder->conf_main,
                                      CONFIGURE_CATEGORY_MAIN_VIDEO_INPUT,
                                      "VideosrcElement",
                                      &VideosrcElement);

        _mmcamcorder_conf_get_value_element_name(VideosrcElement, &videosrc_name);

        /* get current state */
        mm_camcorder_get_state(handle, &current_state);

        /* set capture flag */
        info->capturing = TRUE;

        ret = mm_camcorder_get_attributes(handle, &err_name,
                                    MMCAM_IMAGE_ENCODER, &image_encoder,
                                    MMCAM_CAMERA_WIDTH, &width,
                                    MMCAM_CAMERA_HEIGHT, &height,
                                    MMCAM_CAMERA_FPS, &fps,
                                    MMCAM_CAPTURE_FORMAT, &cap_format,
                                    MMCAM_CAPTURE_WIDTH, &info->width,
                                    MMCAM_CAPTURE_HEIGHT, &info->height,
                                    MMCAM_CAPTURE_COUNT, &info->count,
                                    MMCAM_CAPTURE_INTERVAL, &info->interval,
                                    MMCAM_STROBE_MODE, &strobe_mode,
                                    MMCAM_TAG_ORIENTATION, &tag_orientation,
                                    NULL);
        if (err_name) {
                _mmcam_dbg_warn("get_attributes err %s, ret 0x%x", err_name, ret);
                SAFE_FREE(err_name);
        }

        ret = MM_ERROR_NONE;

        /* check capture count */
        if (info->count < 1) {
                _mmcam_dbg_err("capture count[%d] is invalid", info->count);
                ret = MM_ERROR_CAMCORDER_INVALID_ARGUMENT;
                goto cmd_done;
        } else if (info->count == 1) {
                info->type = _MMCamcorder_SINGLE_SHOT;
        } else {
                info->type = _MMCamcorder_MULTI_SHOT;
                info->next_shot_time = 0;
                info->multi_shot_stop = FALSE;

                /* sound init to pause other session */
                _mmcamcorder_sound_init(handle);
        }

        _mmcam_dbg_log("preview(%dx%d,fmt:%d), capture(%dx%d,fmt:%d), count(%d), hdr mode(%d), interval (%d)",
                       width, height, info->preview_format, info->width, info->height, cap_format,
                       info->count, info->hdr_capture_mode, info->interval);

        /* check state */
        if (current_state >= MM_CAMCORDER_STATE_RECORDING) {
                if (info->type == _MMCamcorder_MULTI_SHOT ||
                    info->hdr_capture_mode != MM_CAMCORDER_HDR_OFF) {
                        _mmcam_dbg_err("does not support multi/HDR capture while recording");
                        ret = MM_ERROR_CAMCORDER_INVALID_STATE;
                        goto cmd_done;
                }

                /* check capture size if ZSL is not supported*/
                if (hcamcorder->support_zsl_capture == FALSE) {
                        _mmcam_dbg_warn("Capture size should be same with preview size while recording");
                        _mmcam_dbg_warn("Capture size %dx%d -> %dx%d", info->width, info->height, width, height);

                        info->width = width;
                        info->height = height;

                        _mmcam_dbg_log("set capture width and height [%dx%d] to camera plugin", width, height);
                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "capture-width", width);
                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "capture-height", height);

                        is_modified_size = TRUE;
                }
        }

        info->capture_cur_count = 0;
        info->capture_send_count = 0;

        sc->internal_encode = FALSE;

        if (!sc->bencbin_capture) {
                /* Check encoding method */
                if (cap_format == MM_PIXEL_FORMAT_ENCODED) {
                        if ((sc->SensorEncodedCapture && info->type == _MMCamcorder_SINGLE_SHOT) ||
                            hcamcorder->support_zsl_capture || is_modified_size) {
                                cap_fourcc = _mmcamcorder_get_fourcc(cap_format, image_encoder, hcamcorder->use_zero_copy_format);
                                _mmcam_dbg_log("Sensor JPEG Capture [is_modified_size:%d]", is_modified_size);
                        } else {
                                /* no need to encode internally if ITLV format */
                                if (info->preview_format != MM_PIXEL_FORMAT_ITLV_JPEG_UYVY) {
                                        sc->internal_encode = TRUE;
                                }
                                cap_fourcc = _mmcamcorder_get_fourcc(info->preview_format, image_encoder, hcamcorder->use_zero_copy_format);

                                _mmcam_dbg_log("MSL JPEG Capture : capture fourcc %c%c%c%c",
                                               cap_fourcc, cap_fourcc>>8, cap_fourcc>>16, cap_fourcc>>24);
                        }
                } else {
                        cap_fourcc = _mmcamcorder_get_fourcc(cap_format, MM_IMAGE_CODEC_INVALID, hcamcorder->use_zero_copy_format);
                }

                _mmcam_dbg_log("capture format (%d)", cap_format);

                /* Note: width/height of capture is set in commit function of attribute or in create function of pipeline */
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "capture-fourcc", cap_fourcc);
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "capture-interval", info->interval);
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "capture-count", info->count);

                if (!GST_IS_CAMERA_CONTROL(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst)) {
                        _mmcam_dbg_err("Can't cast Video source into camera control.");
                        ret = MM_ERROR_CAMCORDER_NOT_SUPPORTED;
                        goto cmd_done;
                }

                control = GST_CAMERA_CONTROL(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst);
                gst_camera_control_set_capture_command(control, GST_CAMERA_CONTROL_CAPTURE_COMMAND_START);
        } else {
                int need_change = 0;
                int set_width = 0;
                int set_height = 0;
                int cap_jpeg_quality = 0;

                if (current_state >= MM_CAMCORDER_STATE_RECORDING) {
                        _mmcam_dbg_err("could not capture in this target while recording");
                        ret = MM_ERROR_CAMCORDER_INVALID_STATE;
                        goto cmd_done;
                }

                if (UseCaptureMode) {
                        if (width != MMFCAMCORDER_HIGHQUALITY_WIDTH || height != MMFCAMCORDER_HIGHQUALITY_HEIGHT) {
                                need_change = 1;
                        }
                } else {
                        if (width != info->width || height != info->height) {
                                need_change = 1;
                        }
                }

                if (need_change) {
                        int rotation = 0;

                        _mmcam_dbg_log("Need to change resolution");

                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", TRUE);
                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", TRUE);

                        /* make pipeline state as READY */
                        ret = _mmcamcorder_gst_set_state(handle, sc->element[_MMCAMCORDER_MAIN_PIPE].gst, GST_STATE_READY);

                        /* check decoder recreation */
                        if (!_mmcamcorder_recreate_decoder_for_encoded_preview(handle)) {
                                _mmcam_dbg_err("_mmcamcorder_recreate_decoder_for_encoded_preview failed");
                                return MM_ERROR_CAMCORDER_INTERNAL;
                        }

                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", FALSE);
                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", FALSE);

                        if (ret != MM_ERROR_NONE) {
                                _mmcam_dbg_err("failed to set state PAUSED %x", ret);
                                goto cmd_done;
                        }

                        if (UseCaptureMode) {
                                set_width = MMFCAMCORDER_HIGHQUALITY_WIDTH;
                                set_height = MMFCAMCORDER_HIGHQUALITY_HEIGHT;
                        } else {
                                set_width = info->width;
                                set_height = info->height;
                        }

                        mm_camcorder_get_attributes(handle, &err_name,
                                                    MMCAM_CAMERA_ROTATION, &rotation,
                                                    NULL);
                        if (err_name) {
                                _mmcam_dbg_warn("get_attributes err %s", err_name);
                                SAFE_FREE(err_name);
                        }

                        /* set new caps */
                        ret = _mmcamcorder_set_videosrc_caps(handle, sc->fourcc, set_width, set_height, fps, rotation);
                        if (!ret) {
                                _mmcam_dbg_err("_mmcamcorder_set_videosrc_caps failed");
                                ret = MM_ERROR_CAMCORDER_INTERNAL;
                                goto cmd_done;
                        }

                        info->resolution_change = TRUE;

                        /* make pipeline state as PLAYING */
                        ret = _mmcamcorder_gst_set_state(handle, sc->element[_MMCAMCORDER_MAIN_PIPE].gst, GST_STATE_PLAYING);
                        if (ret != MM_ERROR_NONE) {
                                _mmcam_dbg_err("failed to set state PLAYING %x", ret);
                                goto cmd_done;
                        }

                        _mmcam_dbg_log("Change to target resolution(%d, %d)", set_width, set_height);
                } else {
                        _mmcam_dbg_log("No need to change resolution. Open toggle now.");
                        info->resolution_change = FALSE;
                }

                /* add encodesinkbin */
                ret = _mmcamcorder_create_stillshot_pipeline((MMHandleType)hcamcorder);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("failed to create encodesinkbin %x", ret);
                        goto cmd_done;
                }

                ret = mm_camcorder_get_attributes(handle, &err_name,
                                                  MMCAM_IMAGE_ENCODER_QUALITY, &cap_jpeg_quality,
                                                  NULL);
                if (err_name) {
                        _mmcam_dbg_warn("get_attributes err %s, ret 0x%x", err_name, ret);
                        SAFE_FREE(err_name);
                }

                /* set JPEG quality */
                MMCAMCORDER_G_OBJECT_SET(sc->encode_element[_MMCAMCORDER_ENCSINK_IENC].gst, "quality", cap_jpeg_quality);

                /* set handoff signal as TRUE */
                MMCAMCORDER_G_OBJECT_SET(sc->encode_element[_MMCAMCORDER_ENCSINK_SINK].gst,"signal-handoffs", TRUE);
                MMCAMCORDER_G_OBJECT_SET(sc->encode_element[_MMCAMCORDER_ENCSINK_ENCBIN].gst, "block", FALSE);

                /* Prepare for the shutter sound when it's the bencbin mode capture */
                sc->info_video->is_firstframe = TRUE;

                /* set push encoding buffer as TRUE */
                sc->info_video->push_encoding_buffer = PUSH_ENCODING_BUFFER_INIT;

                /* make encode pipeline state as PLAYING */
                ret = _mmcamcorder_gst_set_state(handle, sc->encode_element[_MMCAMCORDER_ENCODE_MAIN_PIPE].gst, GST_STATE_PLAYING);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("failed to set state PLAYING %x", ret);
                        goto cmd_done;
                }
        }

        /* Play capture sound here if single capture */
        if ((info->type == _MMCamcorder_SINGLE_SHOT &&
             (hcamcorder->support_zsl_capture == FALSE ||
              strobe_mode == MM_CAMCORDER_STROBE_MODE_OFF)) ||
            info->hdr_capture_mode) {
                if (current_state < MM_CAMCORDER_STATE_RECORDING &&
                    hcamcorder->support_zsl_capture == TRUE &&
                    !info->hdr_capture_mode) {
                        _mmcamcorder_sound_solo_play((MMHandleType)hcamcorder, _MMCAMCORDER_SAMPLE_SOUND_NAME_CAPTURE01, FALSE);
                }

                /* set flag */
                info->played_capture_sound = TRUE;
        } else {
                /* set flag */
                info->played_capture_sound = FALSE;
        }

cmd_done:
        if (ret != MM_ERROR_NONE) {
                info->capturing = FALSE;
        }

        return ret;
}


int _mmcamcorder_image_cmd_preview_start(MMHandleType handle)
{
        int ret = MM_ERROR_NONE;
        int width = 0;
        int height = 0;
        int fps = 0;
        int rotation = 0;
        unsigned int current_framecount = 0;
        int current_state = MM_CAMCORDER_STATE_NONE;
        gboolean fps_auto = FALSE;
        char *err_name = NULL;
        const char *videosrc_name = NULL;

        GstState state;
        GstElement *pipeline = NULL;
        GstCameraControl *control = NULL;

        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderImageInfo *info = NULL;
        _MMCamcorderSubContext *sc = NULL;
        type_element *VideosrcElement = NULL;

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc && sc->info_image && sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        /*_mmcam_dbg_log("");*/

        pipeline = sc->element[_MMCAMCORDER_MAIN_PIPE].gst;
        info = sc->info_image;

        _mmcamcorder_conf_get_element(handle, hcamcorder->conf_main,
                                      CONFIGURE_CATEGORY_MAIN_VIDEO_INPUT,
                                      "VideosrcElement",
                                      &VideosrcElement);

        _mmcamcorder_conf_get_value_element_name(VideosrcElement, &videosrc_name);

        sc->display_interval = 0;
        sc->previous_slot_time = 0;

        /* Image info */
        info->next_shot_time = 0;
        info->multi_shot_stop = TRUE;
        info->capturing = FALSE;

        _mmcamcorder_vframe_stablize(handle);

        current_state = _mmcamcorder_get_state(handle);
        _mmcam_dbg_log("current state [%d]", current_state);

        if (!sc->bencbin_capture) {
                _mmcam_dbg_log("Preview start");

                /* just set capture stop command if current state is CAPTURING */
                if (current_state == MM_CAMCORDER_STATE_CAPTURING) {
                        if (!GST_IS_CAMERA_CONTROL(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst)) {
                                _mmcam_dbg_err("Can't cast Video source into camera control.");
                                return MM_ERROR_CAMCORDER_NOT_SUPPORTED;
                        }

                        control = GST_CAMERA_CONTROL(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst);
                        gst_camera_control_set_capture_command(control, GST_CAMERA_CONTROL_CAPTURE_COMMAND_STOP);

                        current_framecount = sc->kpi.video_framecount;
                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_SINK].gst, "stop-video", FALSE);
                        if (info->type == _MMCamcorder_SINGLE_SHOT) {
                                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", FALSE);
                                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", FALSE);
                        }
                } else {
                        int focus_mode = 0;
                        mmf_attrs_t *attr = (mmf_attrs_t *)MMF_CAMCORDER_ATTRS(handle);

                        /* This case is starting of preview */
                        ret = mm_camcorder_get_attributes(handle, &err_name,
                                                          MMCAM_CAMERA_FPS_AUTO, &fps_auto,
                                                          MMCAM_CAMERA_FOCUS_MODE, &focus_mode,
                                                          NULL);
                        if (ret != MM_ERROR_NONE) {
                                _mmcam_dbg_warn("Get attrs fail. (%s:%x)", err_name, ret);
                                SAFE_FREE (err_name);
                        }

                        _mmcam_dbg_log("focus mode %d", focus_mode);

                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "fps-auto", fps_auto);

                        /* set focus mode */
                        if (attr) {
                                if (_mmcamcorder_check_supported_attribute(handle, MM_CAM_CAMERA_FOCUS_MODE)) {
                                        mmf_attribute_set_modified(&(attr->items[MM_CAM_CAMERA_FOCUS_MODE]));
                                        if (mmf_attrs_commit((MMHandleType)attr) == -1) {
                                                _mmcam_dbg_err("set focus mode error");
                                        } else {
                                                _mmcam_dbg_log("set focus mode success");
                                        }
                                } else {
                                        _mmcam_dbg_log("focus mode is not supported");
                                }
                        } else {
                                _mmcam_dbg_err("failed to get attributes");
                        }
                }
        }

        /* init prev_time */
        sc->info_video->prev_preview_ts = 0;

        gst_element_get_state(pipeline, &state, NULL, -1);

        if (state == GST_STATE_PLAYING) {
                if (!sc->bencbin_capture) {
                        int try_count = 0;

                        if (hcamcorder->support_zsl_capture == FALSE) {
                                mmf_attrs_t *attr = (mmf_attrs_t *)MMF_CAMCORDER_ATTRS(handle);

                                /* Set strobe mode - strobe mode can not be set to driver while captuing */
                                if (attr) {
                                        mmf_attribute_set_modified(&(attr->items[MM_CAM_STROBE_MODE]));
                                        if (mmf_attrs_commit((MMHandleType) attr) == -1) {
                                                _mmcam_dbg_warn("Failed to set strobe mode");
                                        }
                                }

                                while (current_framecount >= sc->kpi.video_framecount &&
                                       try_count++ < _MMCAMCORDER_CAPTURE_STOP_CHECK_COUNT) {
                                        usleep(_MMCAMCORDER_CAPTURE_STOP_CHECK_INTERVAL);
                                }
                        }

                        if (info->type == _MMCamcorder_MULTI_SHOT) {
                                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", FALSE);
                                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", FALSE);
                        }

                        _mmcam_dbg_log("Wait Frame Done. count before[%d],after[%d], try_count[%d]",
                                       current_framecount, sc->kpi.video_framecount, try_count);
                } else {
                        ret = _mmcamcorder_remove_stillshot_pipeline(handle);
                        if (ret != MM_ERROR_NONE) {
                                goto cmd_error;
                        }

                        if (info->resolution_change) {
                                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", TRUE);
                                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", TRUE);

                                ret = _mmcamcorder_gst_set_state(handle, pipeline, GST_STATE_READY);

                                /* check decoder recreation */
                                if (!_mmcamcorder_recreate_decoder_for_encoded_preview(handle)) {
                                        _mmcam_dbg_err("_mmcamcorder_recreate_decoder_for_encoded_preview failed");
                                        return MM_ERROR_CAMCORDER_INTERNAL;
                                }

                                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", FALSE);
                                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", FALSE);

                                if (ret != MM_ERROR_NONE) {
                                        goto cmd_error;
                                }

                                /* check if resolution need to rollback */
                                mm_camcorder_get_attributes(handle, &err_name,
                                                            MMCAM_CAMERA_WIDTH, &width,
                                                            MMCAM_CAMERA_HEIGHT, &height,
                                                            MMCAM_CAMERA_FPS, &fps,
                                                            MMCAM_CAMERA_ROTATION, &rotation,
                                                            NULL);
                                if (err_name) {
                                        _mmcam_dbg_warn("get_attributes err %s, ret 0x%x", err_name, ret);
                                        SAFE_FREE(err_name);
                                }

                                /* set new caps */
                                ret = _mmcamcorder_set_videosrc_caps(handle, sc->fourcc, width, height, fps, rotation);
                                if (!ret) {
                                        _mmcam_dbg_err("_mmcamcorder_set_videosrc_caps failed");
                                        ret = MM_ERROR_CAMCORDER_INTERNAL;
                                        goto cmd_error;
                                }

                                ret = _mmcamcorder_gst_set_state(handle, pipeline, GST_STATE_PLAYING);
                                if (ret != MM_ERROR_NONE) {
                                        goto cmd_error;
                                }
                        }
                }

                /* sound finalize */
                if (info->type == _MMCamcorder_MULTI_SHOT) {
                        _mmcamcorder_sound_finalize(handle);
                }
        } else {
                if (info->preview_format == MM_PIXEL_FORMAT_ENCODED_H264) {
                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "bitrate", H264_PREVIEW_BITRATE);
                        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "newgop-interval", H264_PREVIEW_NEWGOP_INTERVAL);
                }

                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", FALSE);
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", FALSE);

                traceBegin(TTRACE_TAG_CAMERA, "MMCAMCORDER:START:SET_PLAYING_TO_PIPELINE");

                ret = _mmcamcorder_gst_set_state(handle, pipeline, GST_STATE_PLAYING);

                traceEnd(TTRACE_TAG_CAMERA);

                if (ret != MM_ERROR_NONE) {
                        goto cmd_error;
                }

                /* get sound status/volume level and register changed_cb */
                if (hcamcorder->shutter_sound_policy == VCONFKEY_CAMERA_SHUTTER_SOUND_POLICY_OFF &&
                    info->sound_status == _SOUND_STATUS_INIT) {
                        _mmcam_dbg_log("register vconf changed_cb and get sound status");

                        /* register changed_cb */
                        vconf_notify_key_changed(VCONFKEY_SETAPPL_SOUND_STATUS_BOOL, __sound_status_changed_cb, hcamcorder);

                        /* get sound status */
                        vconf_get_bool(VCONFKEY_SETAPPL_SOUND_STATUS_BOOL, &(info->sound_status));

                        _mmcam_dbg_log("sound status %d", info->sound_status);
                }
        }

cmd_error:
        return ret;
}


int _mmcamcorder_image_cmd_preview_stop(MMHandleType handle)
{
        int ret = MM_ERROR_NONE;
        int strobe_mode = MM_CAMCORDER_STROBE_MODE_OFF;
        int set_strobe = 0;
        int display_reuse_hint = FALSE;
        GstCameraControl *control = NULL;
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);

        GstElement *pipeline = NULL;

        _MMCamcorderSubContext *sc = NULL;

        _mmcam_dbg_log("");

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc && sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        /* check strobe and set OFF if PERMANENT mode */
        mm_camcorder_get_attributes(handle, NULL,
                                    MMCAM_STROBE_MODE, &strobe_mode,
                                    NULL);
        if (strobe_mode == MM_CAMCORDER_STROBE_MODE_PERMANENT &&
            GST_IS_CAMERA_CONTROL(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst)) {
                _mmcam_dbg_log("current strobe mode is PERMANENT, set OFF");

                /* get camera control */
                control = GST_CAMERA_CONTROL(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst);
                if (control) {
                        /* convert MSL to sensor value */
                        set_strobe = _mmcamcorder_convert_msl_to_sensor(handle, MM_CAM_STROBE_MODE, MM_CAMCORDER_STROBE_MODE_OFF);

                        /* set strobe OFF */
                        gst_camera_control_set_strobe(control, GST_CAMERA_CONTROL_STROBE_MODE, set_strobe);

                        _mmcam_dbg_log("set strobe OFF done - value: %d", set_strobe);
                } else {
                        _mmcam_dbg_warn("cast CAMERA_CONTROL failed");
                }
        }

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

        if(sc->encode_element[_MMCAMCORDER_ENCODE_MAIN_PIPE].gst) {
                _mmcam_dbg_log("pipeline is exist so need to remove pipeline and sc->encode_element[_MMCAMCORDER_ENCODE_MAIN_PIPE].gst=%p",sc->encode_element[_MMCAMCORDER_ENCODE_MAIN_PIPE].gst);
                _mmcamcorder_remove_recorder_pipeline(handle);
        }

        mm_camcorder_get_attributes(handle, NULL,
                MMCAM_DISPLAY_REUSE_HINT, &display_reuse_hint,
                NULL);

        _mmcam_dbg_log("display reuse hint %d", display_reuse_hint);

        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_SINK].gst, "keep-camera-preview", display_reuse_hint);

        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", TRUE);
        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", TRUE);

        traceBegin(TTRACE_TAG_CAMERA, "MMCAMCORDER:STOP:SET_READY_TO_PIPELINE");

        ret = _mmcamcorder_gst_set_state(handle, pipeline, GST_STATE_READY);

        traceEnd(TTRACE_TAG_CAMERA);

        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_QUE].gst, "empty-buffers", FALSE);
        MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSRC_QUE].gst, "empty-buffers", FALSE);

        if (display_reuse_hint)
                MMCAMCORDER_G_OBJECT_SET(sc->element[_MMCAMCORDER_VIDEOSINK_SINK].gst, "keep-camera-preview", FALSE);

        /* deregister sound status callback */
        if (sc->info_image->sound_status != _SOUND_STATUS_INIT) {
                _mmcam_dbg_log("deregister sound status callback");

                vconf_ignore_key_changed(VCONFKEY_SETAPPL_SOUND_STATUS_BOOL, __sound_status_changed_cb);

                sc->info_image->sound_status = _SOUND_STATUS_INIT;
        }

        return ret;
}


int _mmcamcorder_video_capture_command(MMHandleType handle, int command)
{
        int ret = MM_ERROR_NONE;

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

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc && sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        _mmcam_dbg_log("command %d", command);

        switch (command) {
        case _MMCamcorder_CMD_CAPTURE:
                ret = _mmcamcorder_image_cmd_capture(handle);
                break;
        case _MMCamcorder_CMD_PREVIEW_START:
                ret = _mmcamcorder_image_cmd_preview_start(handle);

                /* I place this function last because it miscalculates a buffer that sents in GST_STATE_PAUSED */
                _mmcamcorder_video_current_framerate_init(handle);
                break;
        case _MMCamcorder_CMD_PREVIEW_STOP:
                ret = _mmcamcorder_image_cmd_preview_stop(handle);
                break;
        case _MMCamcorder_CMD_RECORD:
        case _MMCamcorder_CMD_PAUSE:
        case _MMCamcorder_CMD_CANCEL:
        case _MMCamcorder_CMD_COMMIT:
                /* video recording command */
                ret = _mmcamcorder_video_command(handle, command);
                break;
        default:
                ret =  MM_ERROR_CAMCORDER_INVALID_ARGUMENT;
                break;
        }

        return ret;
}


void __mmcamcorder_init_stillshot_info (MMHandleType handle)
{
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;
        _MMCamcorderImageInfo *info = NULL;

        mmf_return_if_fail(hcamcorder);

        sc = MMF_CAMCORDER_SUBCONTEXT(hcamcorder);
        mmf_return_if_fail(sc && sc->info_image);

        info = sc->info_image;

        _mmcam_dbg_log("capture type[%d], capture send count[%d]", info->type, info->capture_send_count);

        if (info->type ==_MMCamcorder_SINGLE_SHOT || info->capture_send_count == info->count) {
                info->capture_cur_count = 0;
                info->capture_send_count = 0;
                info->multi_shot_stop = TRUE;
                info->next_shot_time = 0;

                /* capturing flag set to FALSE here */
                info->capturing = FALSE;
        }

        return;
}


int __mmcamcorder_capture_save_exifinfo(MMHandleType handle, MMCamcorderCaptureDataType *original, MMCamcorderCaptureDataType *thumbnail, int provide_exif)
{
        int ret = MM_ERROR_NONE;
        unsigned char *data = NULL;
        unsigned int datalen = 0;
        _MMCamcorderSubContext *sc = NULL;
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);

        mmf_return_val_if_fail(hcamcorder, FALSE);
        sc = MMF_CAMCORDER_SUBCONTEXT(hcamcorder);
        mmf_return_val_if_fail(sc, FALSE);

        _mmcam_dbg_log("");

        if (!original || original->data == NULL || original->length == 0) {
                if (!original) {
                        _mmcam_dbg_log("original is null");
                } else {
                        _mmcam_dbg_log("data=%p, length=%d", original->data, original->length);
                }
                return MM_ERROR_CAMCORDER_INVALID_ARGUMENT;
        } else {
                /* original is input/output param. save original values to local var. */
                data = original->data;
                datalen = original->length;
        }

        if (provide_exif == FALSE) {
                if (thumbnail) {
                        if (thumbnail->data && thumbnail->length > 0) {
                                _mmcam_dbg_log("thumbnail is added!thumbnail->data=%p thumbnail->width=%d ,thumbnail->height=%d",
                                               thumbnail->data, thumbnail->width, thumbnail->height);

                                /* add thumbnail exif info */
                                ret = mm_exif_add_thumbnail_info(hcamcorder->exif_info,
                                                                 thumbnail->data,
                                                                 thumbnail->width,
                                                                 thumbnail->height,
                                                                 thumbnail->length);
                        } else {
                                _mmcam_dbg_err("Skip adding thumbnail (data=%p, length=%d)",
                                               thumbnail->data, thumbnail->length);
                        }
                }
        } else {
                ret = MM_ERROR_NONE;
        }

        if (ret == MM_ERROR_NONE) {
                /* write jpeg with exif */
                ret = mm_exif_write_exif_jpeg_to_memory(&original->data, &original->length ,hcamcorder->exif_info, data, datalen);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("mm_exif_write_exif_jpeg_to_memory error! [0x%x]",ret);
                }
        }

        _mmcam_dbg_log("END ret 0x%x", ret);

        return ret;
}


void __mmcamcorder_get_capture_data_from_buffer(MMCamcorderCaptureDataType *capture_data, int pixtype, GstSample *sample)
{
        GstCaps *caps = NULL;
        GstMapInfo mapinfo;
        const GstStructure *structure;

        mmf_return_if_fail(capture_data && sample);

        caps = gst_sample_get_caps(sample);
        if (caps == NULL) {
                _mmcam_dbg_err("failed to get caps");
                goto GET_FAILED;
        }

        structure = gst_caps_get_structure(caps, 0);
        if (structure == NULL) {
                _mmcam_dbg_err("failed to get structure");
                goto GET_FAILED;
        }

        memset(&mapinfo, 0x0, sizeof(GstMapInfo));

        gst_buffer_map(gst_sample_get_buffer(sample), &mapinfo, GST_MAP_READ);
        capture_data->data = mapinfo.data;
        capture_data->format = pixtype;
        gst_structure_get_int(structure, "width", &capture_data->width);
        gst_structure_get_int(structure, "height", &capture_data->height);
        capture_data->length = mapinfo.size;
        gst_buffer_unmap(gst_sample_get_buffer(sample), &mapinfo);

        _mmcam_dbg_warn("buffer data[%p],size[%dx%d],length[%d],format[%d]",
                        capture_data->data, capture_data->width, capture_data->height,
                        capture_data->length, capture_data->format);
        return;

GET_FAILED:
        capture_data->data = NULL;
        capture_data->format = MM_PIXEL_FORMAT_INVALID;
        capture_data->length = 0;

        return;
}


int __mmcamcorder_set_jpeg_data(MMHandleType handle, MMCamcorderCaptureDataType *dest, MMCamcorderCaptureDataType *thumbnail, int provide_exif)
{
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(hcamcorder && dest, MM_ERROR_CAMCORDER_INVALID_ARGUMENT);

        sc = MMF_CAMCORDER_SUBCONTEXT(hcamcorder);
        mmf_return_val_if_fail(sc, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        _mmcam_dbg_log("");

        /* if tag enable and doesn't provide exif, we make it */
        _mmcam_dbg_log("Add exif information if existed(thumbnail[%p])", thumbnail);
        if (thumbnail && thumbnail->data) {
                return __mmcamcorder_capture_save_exifinfo(handle, dest, thumbnail, provide_exif);
        } else {
                return __mmcamcorder_capture_save_exifinfo(handle, dest, NULL, provide_exif);
        }
}


void __mmcamcorder_release_jpeg_data(MMHandleType handle, MMCamcorderCaptureDataType *dest, int tag_enable, int provide_exif)
{
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(handle);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_if_fail(hcamcorder);
        mmf_return_if_fail(dest);

        sc = MMF_CAMCORDER_SUBCONTEXT(hcamcorder);
        mmf_return_if_fail(sc);

        _mmcam_dbg_log("tag : %d, provide exif : %d", tag_enable, provide_exif);

        /* if dest->data is allocated in MSL, release it */
        if (tag_enable && !provide_exif) {
                if (dest->data) {
                        free(dest->data);
                        dest->length = 0;
                        dest->data = NULL;
                        _mmcam_dbg_log("Jpeg is released!");
                }
        } else {
                _mmcam_dbg_log("No need to release");
        }

        return;
}


static void __mmcamcorder_image_capture_cb(GstElement *element, GstSample *sample1, GstSample *sample2, GstSample *sample3, gpointer u_data)
{
        int ret = MM_ERROR_NONE;
        int pixtype_main = MM_PIXEL_FORMAT_INVALID;
        int pixtype_thumb = MM_PIXEL_FORMAT_INVALID;
        int pixtype_scrnl = MM_PIXEL_FORMAT_INVALID;
        int codectype = MM_IMAGE_CODEC_JPEG;
        int attr_index = 0;
        int count = 0;
        int stop_cont_shot = FALSE;
        int tag_enable = FALSE;
        int provide_exif = FALSE;
        int capture_quality = 0;
        int try_lock_count = 0;
        gboolean send_captured_message = FALSE;
        unsigned char *exif_raw_data = NULL;
        unsigned char *internal_main_data = NULL;
        unsigned int internal_main_length = 0;
        unsigned char *internal_thumb_data = NULL;
        unsigned int internal_thumb_length = 0;
        unsigned char *compare_data = NULL;

        MMCamcorderStateType current_state = MM_CAMCORDER_STATE_NONE;
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(u_data);
        _MMCamcorderImageInfo *info = NULL;
        _MMCamcorderSubContext *sc = NULL;
        MMCamcorderCaptureDataType dest = {0,};
        MMCamcorderCaptureDataType thumb = {0,};
        MMCamcorderCaptureDataType scrnail = {0,};
        MMCamcorderCaptureDataType encode_src = {0,};
        GstMapInfo mapinfo1;
        GstMapInfo mapinfo2;
        GstMapInfo mapinfo3;

        mmf_attrs_t *attrs = NULL;
        mmf_attribute_t *item_screennail = NULL;
        mmf_attribute_t *item_exif_raw_data = NULL;

        mmf_return_if_fail(hcamcorder);

        sc = MMF_CAMCORDER_SUBCONTEXT(hcamcorder);
        mmf_return_if_fail(sc && sc->info_image);

        info = sc->info_image;

        memset(&mapinfo1, 0x0, sizeof(GstMapInfo));
        memset(&mapinfo2, 0x0, sizeof(GstMapInfo));
        memset(&mapinfo3, 0x0, sizeof(GstMapInfo));

        /* get current state */
        current_state = _mmcamcorder_get_state((MMHandleType)hcamcorder);

        _mmcam_dbg_err("START - current state %d", current_state);

        /* check capture state */
        if (info->type == _MMCamcorder_MULTI_SHOT && info->capture_send_count > 0) {
                mm_camcorder_get_attributes((MMHandleType)hcamcorder, NULL, "capture-break-cont-shot", &stop_cont_shot, NULL);
        }

        if (!info->capturing || stop_cont_shot) {
                _mmcam_dbg_warn("stop command[%d] or not capturing state[%d]. skip this...",
                                stop_cont_shot, info->capturing);

                /*free GstBuffer*/
                if (sample1) {
                        gst_sample_unref(sample1);
                }
                if (sample2) {
                        gst_sample_unref(sample2);
                }
                if (sample3) {
                        gst_sample_unref(sample3);
                }

                return;
        }

        /* check command lock to block capture callback if capture start API is not returned
           wait for 2 seconds at worst case */
        try_lock_count = 0;
        do {
                _mmcam_dbg_log("Try command LOCK");
                if (_MMCAMCORDER_TRYLOCK_CMD(hcamcorder)) {
                        _mmcam_dbg_log("command LOCK OK");
                        _MMCAMCORDER_UNLOCK_CMD(hcamcorder);
                        break;
                }

                if (try_lock_count++ < TRY_LOCK_MAX_COUNT) {
                        _mmcam_dbg_warn("command LOCK Failed, retry...[count %d]", try_lock_count);
                        usleep(TRY_LOCK_TIME);
                } else {
                        _mmcam_dbg_err("failed to lock command LOCK");
                        break;
                }
        } while (TRUE);

        if (current_state < MM_CAMCORDER_STATE_RECORDING) {
                /* play capture sound here if multi capture
                   or preview format is ITLV(because of AF and flash control in plugin) */
                if (info->type == _MMCamcorder_MULTI_SHOT) {
                        g_mutex_lock(&hcamcorder->task_thread_lock);
                        _mmcam_dbg_log("send signal for sound play");
                        hcamcorder->task_thread_state = _MMCAMCORDER_TASK_THREAD_STATE_SOUND_PLAY_START;
                        g_cond_signal(&hcamcorder->task_thread_cond);
                        g_mutex_unlock(&hcamcorder->task_thread_lock);
                } else if (!info->played_capture_sound) {
                        _mmcamcorder_sound_solo_play((MMHandleType)hcamcorder, _MMCAMCORDER_SAMPLE_SOUND_NAME_CAPTURE01, FALSE);
                }
        }

        /* init capture data */
        memset((void *)&dest, 0x0, sizeof(MMCamcorderCaptureDataType));
        memset((void *)&thumb, 0x0, sizeof(MMCamcorderCaptureDataType));
        memset((void *)&scrnail, 0x0, sizeof(MMCamcorderCaptureDataType));

        /* Prepare main, thumbnail buffer */
        pixtype_main = _mmcamcorder_get_pixel_format(gst_sample_get_caps(sample1));
        if (pixtype_main == MM_PIXEL_FORMAT_INVALID) {
                _mmcam_dbg_err("Unsupported pixel type");
                MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_ERROR, MM_ERROR_CAMCORDER_INTERNAL);
                goto error;
        }

        /* Main image buffer */
        if (!sample1 || !gst_buffer_map(gst_sample_get_buffer(sample1), &mapinfo1, GST_MAP_READ)) {
                _mmcam_dbg_err("sample1[%p] is NULL or gst_buffer_map failed", sample1);
                MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_ERROR, MM_ERROR_CAMCORDER_INTERNAL);
                goto error;
        }else{
                if ( (mapinfo1.data == NULL) && (mapinfo1.size == 0) ){
                        _mmcam_dbg_err("mapinfo1 is wrong (%p, size %d)", mapinfo1.data, mapinfo1.size);
                        MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_ERROR, MM_ERROR_CAMCORDER_INTERNAL);
                        gst_buffer_unmap(gst_sample_get_buffer(sample1), &mapinfo1);
                        goto error;
                }else
                        __mmcamcorder_get_capture_data_from_buffer(&dest, pixtype_main, sample1);
        }

        if ( !sample2 || !gst_buffer_map(gst_sample_get_buffer(sample2), &mapinfo2, GST_MAP_READ) ) {
                _mmcam_dbg_log("sample2[%p] is NULL or gst_buffer_map failed. Not Error.", sample2);
        }
        if ( !sample3 || !gst_buffer_map(gst_sample_get_buffer(sample3), &mapinfo3, GST_MAP_READ)) {
                _mmcam_dbg_log("sample3[%p] is NULL or gst_buffer_map failed. Not Error.", sample3);
        }

        /* Screennail image buffer */
        attrs = (mmf_attrs_t *)MMF_CAMCORDER_ATTRS(hcamcorder);
        mm_attrs_get_index((MMHandleType)attrs, MMCAM_CAPTURED_SCREENNAIL, &attr_index);
        item_screennail = &attrs->items[attr_index];

        if (sample3 && mapinfo3.data && mapinfo3.size != 0) {
                _mmcam_dbg_log("Screennail (sample3=%p,size=%d)", sample3, mapinfo3.size);

                pixtype_scrnl = _mmcamcorder_get_pixel_format(gst_sample_get_caps(sample3));
                __mmcamcorder_get_capture_data_from_buffer(&scrnail, pixtype_scrnl, sample3);

                /* Set screennail attribute for application */
                ret = mmf_attribute_set_data(item_screennail, &scrnail, sizeof(scrnail));
                _mmcam_dbg_log("Screennail set attribute data %p, size %d, ret %x", &scrnail, sizeof(scrnail), ret);
        } else {
                _mmcam_dbg_log("Sample3 has wrong pointer. Not Error. (sample3=%p)",sample3);
                mmf_attribute_set_data(item_screennail, NULL, 0);
        }

        /* commit screennail data */
        mmf_attribute_commit(item_screennail);

        /* init thumb data */
        memset(&encode_src, 0x0, sizeof(MMCamcorderCaptureDataType));

        /* get provide-exif */
        MMCAMCORDER_G_OBJECT_GET(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst, "provide-exif", &provide_exif);

        /* Thumbnail image buffer */
        if (sample2 && mapinfo2.data && (mapinfo2.size != 0)) {
                _mmcam_dbg_log("Thumbnail (buffer2=%p)",gst_sample_get_buffer(sample2));
                pixtype_thumb = _mmcamcorder_get_pixel_format(gst_sample_get_caps(sample2));
                __mmcamcorder_get_capture_data_from_buffer(&thumb, pixtype_thumb, sample2);
        } else {
                _mmcam_dbg_log("Sample2 has wrong pointer. Not Error. (sample2 %p)", sample2);

                if (pixtype_main == MM_PIXEL_FORMAT_ENCODED && provide_exif) {
                        ExifLoader *l;
                        /* get thumbnail from EXIF */
                        l = exif_loader_new();
                        if (l) {
                                ExifData *ed;
                                char  width[10];
                                char  height[10];
                                ExifEntry *entry = NULL;

                                exif_loader_write (l, dest.data, dest.length);

                                /* Get a pointer to the EXIF data */
                                ed = exif_loader_get_data(l);

                                /* The loader is no longer needed--free it */
                                exif_loader_unref(l);
                                l = NULL;
                                if (ed) {
                                        entry = exif_content_get_entry(ed->ifd[EXIF_IFD_1], EXIF_TAG_IMAGE_WIDTH);
                                        if (entry != NULL) {
                                                exif_entry_get_value(entry,width,10);
                                        }
                                        entry = NULL;
                                        entry = exif_content_get_entry(ed->ifd[EXIF_IFD_1], EXIF_TAG_IMAGE_LENGTH);
                                        if (entry != NULL) {
                                                exif_entry_get_value(entry,height , 10);
                                        }
                                        entry = NULL;
                                        /* Make sure the image had a thumbnail before trying to write it */
                                        if (ed->data && ed->size) {
                                                thumb.data = malloc(ed->size);
                                                memcpy(thumb.data,ed->data,ed->size);
                                                thumb.length = ed->size;
                                                thumb.format = MM_PIXEL_FORMAT_ENCODED;
                                                thumb.width = atoi(width);
                                                thumb.height = atoi(height);
                                                internal_thumb_data = thumb.data;
                                        }
                                        exif_data_unref(ed);
                                        ed = NULL;
                                } else {
                                        _mmcam_dbg_warn("failed to get exif data");
                                }
                        } else {
                                _mmcam_dbg_warn("failed to create exif loader");
                        }
                }

                if (thumb.data == NULL) {
                        if (pixtype_main == MM_PIXEL_FORMAT_ENCODED &&
                            scrnail.data && scrnail.length != 0) {
                                /* make thumbnail image with screennail data */
                                memcpy(&encode_src, &scrnail, sizeof(MMCamcorderCaptureDataType));
                        } else if (sc->internal_encode) {
                                /* make thumbnail image with main data, this is raw data */
                                memcpy(&encode_src, &dest, sizeof(MMCamcorderCaptureDataType));
                        }
                }

                /* encode thumbnail */
                if (encode_src.data) {
                        unsigned int thumb_width = 0;
                        unsigned int thumb_height = 0;
                        unsigned int thumb_length = 0;
                        unsigned char *thumb_raw_data = NULL;

                        /* encode image */
                        _mmcam_dbg_log("Encode Thumbnail");

                        if (encode_src.width > THUMBNAIL_WIDTH) {
                                /* calculate thumbnail size */
                                thumb_width = THUMBNAIL_WIDTH;
                                thumb_height = (thumb_width * encode_src.height) / encode_src.width;
                                if (thumb_height % 2 != 0) {
                                        thumb_height += 1;
                                }

                                _mmcam_dbg_log("need to resize : thumbnail size %dx%d, format %d",
                                               thumb_width, thumb_height, encode_src.format);

                                if ((encode_src.format == MM_PIXEL_FORMAT_UYVY ||
                                     encode_src.format == MM_PIXEL_FORMAT_YUYV) &&
                                     encode_src.width % thumb_width == 0 &&
                                     encode_src.height % thumb_height == 0) {
                                        if (!_mmcamcorder_downscale_UYVYorYUYV(encode_src.data, encode_src.width, encode_src.height,
                                                &thumb_raw_data, thumb_width, thumb_height)) {
                                                thumb_raw_data = NULL;
                                                _mmcam_dbg_warn("_mmcamcorder_downscale_UYVYorYUYV failed. skip thumbnail making...");
                                        }
                                } else {
                                        if (!_mmcamcorder_resize_frame(encode_src.data, encode_src.width, encode_src.height,
                                                encode_src.length, encode_src.format,
                                                &thumb_raw_data, &thumb_width, &thumb_height, &thumb_length)) {
                                                thumb_raw_data = NULL;
                                                _mmcam_dbg_warn("_mmcamcorder_resize_frame failed. skip thumbnail making...");
                                        }
                                }
                        } else {
                                thumb_width = encode_src.width;
                                thumb_height = encode_src.height;

                                _mmcam_dbg_log("NO need to resize : thumbnail size %dx%d", thumb_width, thumb_height);

                                thumb_raw_data = encode_src.data;
                                thumb_length = encode_src.length;
                        }

                        if (thumb_raw_data) {
                                ret = _mmcamcorder_encode_jpeg(thumb_raw_data, thumb_width, thumb_height,
                                        encode_src.format, thumb_length, THUMBNAIL_JPEG_QUALITY,
                                        (void **)&internal_thumb_data, &internal_thumb_length);
                                if (ret) {
                                        _mmcam_dbg_log("encode THUMBNAIL done - data %p, length %d",
                                                       internal_thumb_data, internal_thumb_length);

                                        thumb.data = internal_thumb_data;
                                        thumb.length = internal_thumb_length;
                                        thumb.width = thumb_width;
                                        thumb.height = thumb_height;
                                        thumb.format = MM_PIXEL_FORMAT_ENCODED;
                                } else {
                                        _mmcam_dbg_warn("failed to encode THUMBNAIL");
                                }

                                /* release allocated raw data memory */
                                if (thumb_raw_data != encode_src.data) {
                                        free(thumb_raw_data);
                                        thumb_raw_data = NULL;
                                        _mmcam_dbg_log("release thumb_raw_data");
                                }
                        } else {
                                _mmcam_dbg_warn("thumb_raw_data is NULL");
                        }
                } else {
                        // no raw data src for thumbnail
                        _mmcam_dbg_log("no need to encode thumbnail");
                }
        }

        /* Encode JPEG */
        if (sc->internal_encode && pixtype_main != MM_PIXEL_FORMAT_ENCODED) {
                mm_camcorder_get_attributes((MMHandleType)hcamcorder, NULL,
                                            MMCAM_IMAGE_ENCODER_QUALITY, &capture_quality,
                                            NULL);
                _mmcam_dbg_log("Start Internal Encode - capture_quality %d", capture_quality);

                ret = _mmcamcorder_encode_jpeg(mapinfo1.data, dest.width, dest.height,
                        pixtype_main, dest.length, capture_quality,
                        (void **)&internal_main_data, &internal_main_length);
                if (!ret) {
                        _mmcam_dbg_err("_mmcamcorder_encode_jpeg failed");

                        MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_ERROR, MM_ERROR_CAMCORDER_INTERNAL);

                        goto error;
                }

                /* set format */
                dest.data = internal_main_data;
                dest.length = internal_main_length;
                dest.format = MM_PIXEL_FORMAT_ENCODED;

                _mmcam_dbg_log("Done Internal Encode - data %p, length %d", dest.data, dest.length);
        }

        /* create EXIF info */
        if(!provide_exif){ // make new exif
                ret = mm_exif_create_exif_info(&(hcamcorder->exif_info));
        } else { // load from jpeg buffer dest.data
                ret = mm_exif_load_exif_info(&(hcamcorder->exif_info), dest.data, dest.length);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("Failed to load exif_info [%x], try to create EXIF", ret);
                        provide_exif = FALSE;
                        ret = mm_exif_create_exif_info(&(hcamcorder->exif_info));
                }
        }
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("Failed to create exif_info [%x], but keep going...", ret);
        } else {
                /* add basic exif info */
                if(!provide_exif) {
                        _mmcam_dbg_log("add basic exif info");
                        ret = __mmcamcorder_set_exif_basic_info((MMHandleType)hcamcorder, dest.width, dest.height);
                } else {
                        _mmcam_dbg_log("update exif info");
                        ret = __mmcamcorder_update_exif_info((MMHandleType)hcamcorder, dest.data, dest.length);
                }

                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_warn("Failed set_exif_basic_info [%x], but keep going...", ret);
                        ret = MM_ERROR_NONE;
                }
        }

        /* get attribute item for EXIF data */
        mm_attrs_get_index((MMHandleType)attrs, MMCAM_CAPTURED_EXIF_RAW_DATA, &attr_index);
        item_exif_raw_data = &attrs->items[attr_index];

        /* set EXIF data to attribute */
        if (hcamcorder->exif_info && hcamcorder->exif_info->data) {
                exif_raw_data = (unsigned char *)malloc(hcamcorder->exif_info->size);
                if (exif_raw_data) {
                        memcpy(exif_raw_data, hcamcorder->exif_info->data, hcamcorder->exif_info->size);
                        mmf_attribute_set_data(item_exif_raw_data, exif_raw_data, hcamcorder->exif_info->size);
                        _mmcam_dbg_log("set EXIF raw data %p, size %d", exif_raw_data, hcamcorder->exif_info->size);
                } else {
                        _mmcam_dbg_warn("failed to alloc for EXIF, size %d", hcamcorder->exif_info->size);
                }
        } else {
                _mmcam_dbg_warn("failed to create EXIF. set EXIF as NULL");
                mmf_attribute_set_data(item_exif_raw_data, NULL, 0);
        }

        /* commit EXIF data */
        mmf_attribute_commit(item_exif_raw_data);

        /* get tag-enable */
        mm_camcorder_get_attributes((MMHandleType)hcamcorder, NULL, MMCAM_TAG_ENABLE, &tag_enable, NULL);

        /* Set extra data for JPEG if tag enabled and doesn't provide EXIF */
        if (dest.format == MM_PIXEL_FORMAT_ENCODED){
                if (tag_enable) {
                        mm_camcorder_get_attributes((MMHandleType)hcamcorder, NULL,
                                                    MMCAM_IMAGE_ENCODER, &codectype,
                                                    NULL);
                        _mmcam_dbg_log("codectype %d", codectype);

                        switch (codectype) {
                        case MM_IMAGE_CODEC_JPEG:
                        case MM_IMAGE_CODEC_SRW:
                        case MM_IMAGE_CODEC_JPEG_SRW:
                                ret = __mmcamcorder_set_jpeg_data((MMHandleType)hcamcorder, &dest, &thumb, provide_exif);
                                if (ret != MM_ERROR_NONE) {
                                        _mmcam_dbg_err("Error on setting extra data to jpeg");
                                        MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_ERROR, ret);
                                        goto error;
                                }
                                break;
                        default:
                                _mmcam_dbg_err("The codectype is not supported. (%d)", codectype);
                                MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_ERROR, MM_ERROR_CAMCORDER_INTERNAL);
                                goto error;
                        }
                }
        }

        /* Handle Capture Callback */
        _MMCAMCORDER_LOCK_VCAPTURE_CALLBACK(hcamcorder);

        if (hcamcorder->vcapture_cb) {
                _mmcam_dbg_log("APPLICATION CALLBACK START");
                if (thumb.data) {
                        ret = hcamcorder->vcapture_cb(&dest, &thumb, hcamcorder->vcapture_cb_param);
                } else {
                        ret = hcamcorder->vcapture_cb(&dest, NULL, hcamcorder->vcapture_cb_param);
                }
                _mmcam_dbg_log("APPLICATION CALLBACK END");
        } else {
                _mmcam_dbg_err("Capture callback is NULL.");

                MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_ERROR, MM_ERROR_CAMCORDER_INVALID_ARGUMENT);

                goto err_release_exif;
        }

        /* Set capture count */
        count = ++(info->capture_send_count);
        send_captured_message = TRUE;

err_release_exif:
        _MMCAMCORDER_UNLOCK_VCAPTURE_CALLBACK(hcamcorder);

        /* init screennail and EXIF raw data */
        mmf_attribute_set_data(item_screennail, NULL, 0);
        mmf_attribute_commit(item_screennail);
        if (exif_raw_data) {
                free(exif_raw_data);
                exif_raw_data = NULL;

                mmf_attribute_set_data(item_exif_raw_data, NULL, 0);
                mmf_attribute_commit(item_exif_raw_data);
        }

        /* Release jpeg data */
        if (pixtype_main == MM_PIXEL_FORMAT_ENCODED) {
                __mmcamcorder_release_jpeg_data((MMHandleType)hcamcorder, &dest, tag_enable, provide_exif);
        }

error:
        /* Check end condition and set proper value */
        if (info->hdr_capture_mode != MM_CAMCORDER_HDR_ON_AND_ORIGINAL ||
            (info->hdr_capture_mode == MM_CAMCORDER_HDR_ON_AND_ORIGINAL && count == 2)) {
                __mmcamcorder_init_stillshot_info((MMHandleType)hcamcorder);
        }

        /* release internal allocated data */
        if (sc->internal_encode) {
                compare_data = internal_main_data;
        } else {
                compare_data = mapinfo1.data;
        }
        if (dest.data && compare_data &&
            dest.data != compare_data) {
                _mmcam_dbg_log("release internal allocated data %p", dest.data);
                free(dest.data);
                dest.data = NULL;
                dest.length = 0;
        }
        if (internal_main_data) {
                _mmcam_dbg_log("release internal main data %p", internal_main_data);
                free(internal_main_data);
                internal_main_data = NULL;
        }
        if (internal_thumb_data) {
                _mmcam_dbg_log("release internal thumb data %p", internal_thumb_data);
                free(internal_thumb_data);
                internal_thumb_data = NULL;
        }

        /* reset compare_data */
        compare_data = NULL;

        /*free GstBuffer*/
        if (sample1) {
                gst_buffer_unmap(gst_sample_get_buffer(sample1), &mapinfo1);
                gst_sample_unref(sample1);
        }
        if (sample2) {
                gst_buffer_unmap(gst_sample_get_buffer(sample2), &mapinfo2);
                gst_sample_unref(sample2);
        }
        if (sample3) {
                gst_buffer_unmap(gst_sample_get_buffer(sample3), &mapinfo3);
                gst_sample_unref(sample3);
        }

        /* destroy exif info */
        mm_exif_destory_exif_info(hcamcorder->exif_info);
        hcamcorder->exif_info = NULL;

        /* send captured message */
        if (send_captured_message) {
                if (info->hdr_capture_mode != MM_CAMCORDER_HDR_ON_AND_ORIGINAL) {
                        /* Send CAPTURED message and count - capture success */
                        if (current_state >= MM_CAMCORDER_STATE_RECORDING) {
                                MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_VIDEO_SNAPSHOT_CAPTURED, count);
                        } else {
                                MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_CAPTURED, count);
                        }
                } else if (info->hdr_capture_mode == MM_CAMCORDER_HDR_ON_AND_ORIGINAL && count == 2) {
                        /* send captured message only once in HDR and Original Capture mode */
                        MMCAM_SEND_MESSAGE(hcamcorder, MM_MESSAGE_CAMCORDER_CAPTURED, 1);
                }
        }

        if (current_state >= MM_CAMCORDER_STATE_RECORDING) {
                /* Handle capture in recording case */
                hcamcorder->capture_in_recording = FALSE;

                g_mutex_lock(&hcamcorder->task_thread_lock);

                if (hcamcorder->task_thread_state == _MMCAMCORDER_TASK_THREAD_STATE_CHECK_CAPTURE_IN_RECORDING) {
                        _mmcam_dbg_log("send signal for capture in recording");
                        g_cond_signal(&hcamcorder->task_thread_cond);
                } else {
                        _mmcam_dbg_warn("unexpected task thread state : %d", hcamcorder->task_thread_state);
                }

                g_mutex_unlock(&hcamcorder->task_thread_lock);

                _MMCAMCORDER_CMD_SIGNAL(hcamcorder);
        }

        _mmcam_dbg_err("END");

        return;
}


gboolean __mmcamcorder_handoff_callback(GstElement *fakesink, GstBuffer *buffer, GstPad *pad, gpointer u_data)
{
        mmf_camcorder_t *hcamcorder = MMF_CAMCORDER(u_data);
        _MMCamcorderSubContext *sc = NULL;

        mmf_return_val_if_fail(hcamcorder, FALSE);

        sc = MMF_CAMCORDER_SUBCONTEXT(hcamcorder);
        mmf_return_val_if_fail(sc && sc->element, FALSE);

        _mmcam_dbg_log("");

        /* FIXME. How could you get a thumbnail? */
        __mmcamcorder_image_capture_cb(fakesink, gst_sample_new(buffer, gst_pad_get_current_caps(pad), NULL, NULL), NULL, NULL, u_data);

        if (sc->encode_element[_MMCAMCORDER_ENCSINK_ENCBIN].gst) {
                MMCAMCORDER_G_OBJECT_SET(sc->encode_element[_MMCAMCORDER_ENCSINK_SINK].gst, "signal-handoffs", FALSE);
                MMCAMCORDER_G_OBJECT_SET(sc->encode_element[_MMCAMCORDER_ENCSINK_ENCBIN].gst, "block", TRUE);
                sc->info_video->push_encoding_buffer = PUSH_ENCODING_BUFFER_STOP;
        }

        return TRUE;
}


static ExifData *__mmcamcorder_update_exif_orientation(MMHandleType handle, ExifData *ed)
{
        int value = 0;
        ExifShort eshort = 0;
        int ret = MM_ERROR_NONE;

        mm_camcorder_get_attributes(handle, NULL, MMCAM_TAG_ORIENTATION, &value, NULL);
        _mmcam_dbg_log("get orientation [%d]",value);
        if (value == 0) {
                value = MM_EXIF_ORIENTATION;
        }

        exif_set_short((unsigned char *)&eshort, exif_data_get_byte_order(ed), value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_ORIENTATION,
                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_MAKER_NOTE);
        }

exit:
        return ed;
}


static ExifData *__mmcamcorder_update_exif_make(MMHandleType handle, ExifData *ed)
{
        int ret = MM_ERROR_NONE;
        char *make = strdup(MM_MAKER_NAME);

        if (make) {
                _mmcam_dbg_log("maker [%s]", make);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_MAKE,
                                            EXIF_FORMAT_ASCII, strlen(make)+1, (const char *)make);
                free(make);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_MAKE);
                }
        } else {
                ret = MM_ERROR_CAMCORDER_LOW_MEMORY;
                EXIF_SET_ERR(ret, EXIF_TAG_MAKE);
        }

exit:
        return ed;
}


static ExifData *__mmcamcorder_update_exif_software(MMHandleType handle, ExifData *ed)
{
        int ret = MM_ERROR_NONE;
        mmf_camcorder_t *hcamcorder = (mmf_camcorder_t *)handle;

        if (hcamcorder == NULL || ed == NULL) {
                _mmcam_dbg_err("NULL parameter %p,%p", hcamcorder, ed);
                return NULL;
        }

        if (hcamcorder->software_version) {
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_SOFTWARE, EXIF_FORMAT_ASCII,
                                            strlen(hcamcorder->software_version)+1, (const char *)hcamcorder->software_version);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("set software_version[%s] failed", hcamcorder->software_version);
                } else {
                        _mmcam_dbg_log("set software_version[%s] done", hcamcorder->software_version);
                }
        } else {
                _mmcam_dbg_err("model_name is NULL");
        }

        return ed;
}


static ExifData *__mmcamcorder_update_exif_model(MMHandleType handle, ExifData *ed)
{
        int ret = MM_ERROR_NONE;
        mmf_camcorder_t *hcamcorder = (mmf_camcorder_t *)handle;

        if (hcamcorder == NULL || ed == NULL) {
                _mmcam_dbg_err("NULL parameter %p,%p", hcamcorder, ed);
                return NULL;
        }

        if (hcamcorder->model_name) {
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_MODEL, EXIF_FORMAT_ASCII,
                                            strlen(hcamcorder->model_name)+1, (const char *)hcamcorder->model_name);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("set model name[%s] failed", hcamcorder->model_name);
                } else {
                        _mmcam_dbg_log("set model name[%s] done", hcamcorder->model_name);
                }
        } else {
                _mmcam_dbg_err("model_name is NULL");
        }

        return ed;
}

static ExifData *__mmcamcorder_update_exif_gps(MMHandleType handle, ExifData *ed)
{
        int ret = MM_ERROR_NONE;
        int gps_enable = TRUE;
        char *err_name = NULL;
        double latitude = INVALID_GPS_VALUE;
        double longitude = INVALID_GPS_VALUE;
        double altitude = INVALID_GPS_VALUE;

        ret = mm_camcorder_get_attributes(handle, NULL, MMCAM_TAG_GPS_ENABLE, &gps_enable, NULL);
        if (ret == MM_ERROR_NONE && gps_enable) {
                ExifByte GpsVersion[4]={2,2,0,0};

                _mmcam_dbg_log("Tag for GPS is ENABLED.");

                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_VERSION_ID,
                                            EXIF_FORMAT_BYTE, 4, (const char *)&GpsVersion);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_VERSION_ID);
                }

                ret = mm_camcorder_get_attributes(handle, &err_name,
                                                  MMCAM_TAG_LATITUDE, &latitude,
                                                  MMCAM_TAG_LONGITUDE, &longitude,
                                                  MMCAM_TAG_ALTITUDE, &altitude, NULL);
                if (ret != MM_ERROR_NONE) {
                        _mmcam_dbg_err("failed to get gps info [%x][%s]", ret, err_name);
                        SAFE_FREE(err_name);
                        goto exit;
                }

                _mmcam_dbg_log("latitude [%f]", latitude);
                if (latitude != INVALID_GPS_VALUE) {
                        unsigned char *b = NULL;
                        unsigned int deg;
                        unsigned int min;
                        unsigned int sec;
                        ExifRational rData;

                        if (latitude < 0) {
                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_LATITUDE_REF,
                                                            EXIF_FORMAT_ASCII, 2, "S");
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_LATITUDE_REF);
                                }
                                latitude = -latitude;
                        } else if (latitude > 0) {
                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_LATITUDE_REF,
                                                            EXIF_FORMAT_ASCII, 2, "N");
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_LATITUDE_REF);
                                }
                        }

                        deg = (unsigned int)(latitude);
                        min = (unsigned int)((latitude-deg)*60);
                        sec = (unsigned int)(((latitude-deg)*3600)-min*60);

                        _mmcam_dbg_log("f_latitude deg[%d], min[%d], sec[%d]", deg, min, sec);
                        b = malloc(3 * sizeof(ExifRational));
                        if (b) {
                                rData.numerator = deg;
                                rData.denominator = 1;
                                exif_set_rational(b, exif_data_get_byte_order(ed), rData);
                                rData.numerator = min;
                                exif_set_rational(b+8, exif_data_get_byte_order(ed), rData);
                                rData.numerator = sec;
                                exif_set_rational(b+16, exif_data_get_byte_order(ed), rData);

                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_LATITUDE,
                                                            EXIF_FORMAT_RATIONAL, 3, (const char *)b);
                                free(b);
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_LATITUDE);
                                }
                        } else {
                                _mmcam_dbg_warn("malloc failed");
                        }
                }

                _mmcam_dbg_log("longitude [%f]", longitude);
                if (longitude != INVALID_GPS_VALUE) {
                        unsigned char *b = NULL;
                        unsigned int deg;
                        unsigned int min;
                        unsigned int sec;
                        ExifRational rData;

                        if (longitude < 0) {
                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_LONGITUDE_REF,
                                                            EXIF_FORMAT_ASCII, 2, "W");
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_LONGITUDE_REF);
                                }
                                longitude = -longitude;
                        } else if (longitude > 0) {
                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_LONGITUDE_REF,
                                                            EXIF_FORMAT_ASCII, 2, "E");
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_LONGITUDE_REF);
                                }
                        }

                        deg = (unsigned int)(longitude);
                        min = (unsigned int)((longitude-deg)*60);
                        sec = (unsigned int)(((longitude-deg)*3600)-min*60);

                        _mmcam_dbg_log("longitude deg[%d], min[%d], sec[%d]", deg, min, sec);
                        b = malloc(3 * sizeof(ExifRational));
                        if (b) {
                                rData.numerator = deg;
                                rData.denominator = 1;
                                exif_set_rational(b, exif_data_get_byte_order(ed), rData);
                                rData.numerator = min;
                                exif_set_rational(b+8, exif_data_get_byte_order(ed), rData);
                                rData.numerator = sec;
                                exif_set_rational(b+16, exif_data_get_byte_order(ed), rData);
                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_LONGITUDE,
                                                            EXIF_FORMAT_RATIONAL, 3, (const char *)b);
                                free(b);
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_LONGITUDE);
                                }
                        } else {
                                _mmcam_dbg_warn("malloc failed");
                        }
                }

                _mmcam_dbg_log("f_altitude [%f]", altitude);
                if (altitude != INVALID_GPS_VALUE) {
                        ExifByte alt_ref = 0;
                        unsigned char *b = NULL;
                        ExifRational rData;
                        b = malloc(sizeof(ExifRational));
                        if (b) {
                                if (altitude < 0) {
                                        alt_ref = 1;
                                        altitude = -altitude;
                                }

                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_ALTITUDE_REF,
                                                            EXIF_FORMAT_BYTE, 1, (const char *)&alt_ref);
                                if (ret != MM_ERROR_NONE) {
                                        _mmcam_dbg_err("error [%x], tag [%x]", ret, EXIF_TAG_GPS_ALTITUDE_REF);
                                        if (ret == (int)MM_ERROR_CAMCORDER_LOW_MEMORY) {
                                                free(b);
                                                b = NULL;
                                                goto exit;
                                        }
                                }

                                rData.numerator = (unsigned int)(altitude + 0.5)*100;
                                rData.denominator = 100;
                                exif_set_rational(b, exif_data_get_byte_order(ed), rData);
                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_ALTITUDE,
                                                            EXIF_FORMAT_RATIONAL, 1, (const char *)b);
                                free(b);
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_ALTITUDE);
                                }
                        } else {
                                _mmcam_dbg_warn("malloc failed");
                        }
                }

                {
                        double gps_timestamp = INVALID_GPS_VALUE;
                        mm_camcorder_get_attributes(handle, NULL, "tag-gps-time-stamp", &gps_timestamp, NULL);
                        _mmcam_dbg_log("Gps timestamp [%f]", gps_timestamp);
                        if (gps_timestamp > 0.0) {
                                unsigned char *b = NULL;
                                unsigned int hour;
                                unsigned int min;
                                unsigned int microsec;
                                ExifRational rData;

                                hour = (unsigned int)(gps_timestamp / 3600);
                                min = (unsigned int)((gps_timestamp - 3600 * hour) / 60);
                                microsec = (unsigned int)(((double)((double)gps_timestamp -(double)(3600 * hour)) -(double)(60 * min)) * 1000000);

                                _mmcam_dbg_log("Gps timestamp hour[%d], min[%d], microsec[%d]", hour, min, microsec);
                                b = malloc(3 * sizeof(ExifRational));
                                if (b) {
                                        rData.numerator = hour;
                                        rData.denominator = 1;
                                        exif_set_rational(b, exif_data_get_byte_order(ed), rData);

                                        rData.numerator = min;
                                        rData.denominator = 1;
                                        exif_set_rational(b + 8, exif_data_get_byte_order(ed), rData);

                                        rData.numerator = microsec;
                                        rData.denominator = 1000000;
                                        exif_set_rational(b + 16, exif_data_get_byte_order(ed), rData);

                                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_TIME_STAMP,
                                                                    EXIF_FORMAT_RATIONAL, 3, (const char *)b);
                                        free(b);
                                        if (ret != MM_ERROR_NONE) {
                                                EXIF_SET_ERR(ret, EXIF_TAG_GPS_TIME_STAMP);
                                        }
                                } else {
                                        _mmcam_dbg_warn( "malloc failed." );
                                }
                        }
                }

                {
                        unsigned char *date_stamp = NULL;
                        int date_stamp_len = 0;

                        mm_camcorder_get_attributes(handle, NULL, "tag-gps-date-stamp", &date_stamp, &date_stamp_len, NULL);

                        if (date_stamp) {
                                _mmcam_dbg_log("Date stamp [%s]", date_stamp);

                                /* cause it should include NULL char */
                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_DATE_STAMP,
                                                            EXIF_FORMAT_ASCII, date_stamp_len + 1, (const char *)date_stamp);
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_DATE_STAMP);
                                }
                        }
                }

                {
                        unsigned char *processing_method = NULL;
                        int processing_method_len = 0;

                        mm_camcorder_get_attributes(handle, NULL, "tag-gps-processing-method", &processing_method, &processing_method_len, NULL);

                        if (processing_method) {
                                _mmcam_dbg_log("Processing method [%s]", processing_method);

                                ret = mm_exif_set_add_entry(ed, EXIF_IFD_GPS, EXIF_TAG_GPS_PROCESSING_METHOD,
                                                            EXIF_FORMAT_UNDEFINED, processing_method_len, (const char *)processing_method);
                                if (ret != MM_ERROR_NONE) {
                                        EXIF_SET_ERR(ret, EXIF_TAG_GPS_PROCESSING_METHOD);
                                }
                        }
                }
        } else {
                _mmcam_dbg_log( "Tag for GPS is DISABLED." );
        }

exit:
        return ed;
}


int __mmcamcorder_update_exif_info(MMHandleType handle, void* imagedata, int imgln)
{
        int ret = MM_ERROR_NONE;
        mmf_camcorder_t *hcamcorder = NULL;
        ExifData *ed = NULL;

        hcamcorder = MMF_CAMCORDER(handle);

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        ed = exif_data_new_from_data(imagedata, imgln);
        //ed = mm_exif_get_exif_from_info(hcamcorder->exif_info);

        if (ed == NULL) {
                _mmcam_dbg_err("get exif data error!!");
                return MM_ERROR_INVALID_HANDLE;
        }

        /* update necessary */

        __mmcamcorder_update_exif_make(handle, ed);
        __mmcamcorder_update_exif_software(handle, ed);
        __mmcamcorder_update_exif_model(handle, ed);
        __mmcamcorder_update_exif_orientation(handle, ed);
        __mmcamcorder_update_exif_gps(handle, ed);
        ret = mm_exif_set_exif_to_info(hcamcorder->exif_info, ed);
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("mm_exif_set_exif_to_info err!! [%x]", ret);
        }

        exif_data_unref(ed);
        ed = NULL;
        return ret;
}

int __mmcamcorder_set_exif_basic_info(MMHandleType handle, int image_width, int image_height)
{
        int ret = MM_ERROR_NONE;
        int value;
        int str_val_len = 0;
        int cntl = 0;
        int cnts = 0;
        char *str_value = NULL;
        char *user_comment = NULL;
        ExifData *ed = NULL;
        ExifLong config;
        ExifLong ExifVersion;
        static ExifShort eshort[20];
        static ExifLong elong[10];

        GstCameraControl *control = NULL;
        GstCameraControlExifInfo avsys_exif_info;

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

        _mmcam_dbg_log("");

        mmf_return_val_if_fail(hcamcorder, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        sc = MMF_CAMCORDER_SUBCONTEXT(handle);
        mmf_return_val_if_fail(sc && sc->element, MM_ERROR_CAMCORDER_NOT_INITIALIZED);

        CLEAR(avsys_exif_info);

        if (!GST_IS_CAMERA_CONTROL(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst)) {
                _mmcam_dbg_err("Can't cast Video source into camera control. Skip camera control values...");
        } else {
                control = GST_CAMERA_CONTROL(sc->element[_MMCAMCORDER_VIDEOSRC_SRC].gst);
                /* get device information */
                gst_camera_control_get_exif_info(control, &avsys_exif_info);
        }

        /* get ExifData from exif info */
        ed = mm_exif_get_exif_from_info(hcamcorder->exif_info);
        if (ed == NULL) {
                _mmcam_dbg_err("get exif data error!!");
                return MM_ERROR_INVALID_HANDLE;
        }

        /* Receive attribute info */

        /* START INSERT IFD_0 */

        /*0. EXIF_TAG_EXIF_VERSION */
        ExifVersion = MM_EXIF_VERSION;
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_EXIF_VERSION,
                                    EXIF_FORMAT_UNDEFINED, 4, (const char *)&ExifVersion);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_EXIF_VERSION);
        }

        /*1. EXIF_TAG_IMAGE_WIDTH */ /*EXIF_TAG_PIXEL_X_DIMENSION*/
        value = image_width;

        exif_set_long((unsigned char *)&elong[cntl], exif_data_get_byte_order(ed), value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_IMAGE_WIDTH,
                                    EXIF_FORMAT_LONG, 1, (const char *)&elong[cntl]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_IMAGE_WIDTH);
        }

        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_PIXEL_X_DIMENSION,
                                    EXIF_FORMAT_LONG, 1, (const char *)&elong[cntl++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_PIXEL_X_DIMENSION);
        }
        _mmcam_dbg_log("width[%d]", value);

        /*2. EXIF_TAG_IMAGE_LENGTH*/ /*EXIF_TAG_PIXEL_Y_DIMENSION*/
        value = image_height;

        exif_set_long((unsigned char *)&elong[cntl], exif_data_get_byte_order (ed), value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_IMAGE_LENGTH,
                                    EXIF_FORMAT_LONG, 1, (const char *)&elong[cntl]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_IMAGE_LENGTH);
        }

        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_PIXEL_Y_DIMENSION,
                                    EXIF_FORMAT_LONG, 1, (const char *)&elong[cntl++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_PIXEL_Y_DIMENSION);
        }
        _mmcam_dbg_log("height[%d]", value);

        /*4. EXIF_TAG_DATE_TIME */

        /*12. EXIF_TAG_DATE_TIME_ORIGINAL */

        /*13. EXIF_TAG_DATE_TIME_DIGITIZED*/
        {
                unsigned char *b;
                time_t t;
                struct tm tm;

                b = malloc(20 * sizeof(unsigned char));
                if (b == NULL) {
                        _mmcam_dbg_err("failed to alloc b");
                        ret = MM_ERROR_CAMCORDER_LOW_MEMORY;
                        EXIF_SET_ERR(ret, EXIF_TAG_DATE_TIME);
                }

                memset(b, '\0', 20);

                t = time(NULL);
                tzset();
                localtime_r(&t, &tm);

                snprintf((char *)b, 20, "%04i:%02i:%02i %02i:%02i:%02i",
                         tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday,
                         tm.tm_hour, tm.tm_min, tm.tm_sec);

                ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_DATE_TIME, EXIF_FORMAT_ASCII, 20, (const char *)b);
                if (ret != MM_ERROR_NONE) {
                        if (ret == (int)MM_ERROR_CAMCORDER_LOW_MEMORY) {
                                free(b);
                        }
                        EXIF_SET_ERR(ret, EXIF_TAG_DATE_TIME);
                }

                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_DATE_TIME_ORIGINAL, EXIF_FORMAT_ASCII, 20, (const char *)b);
                if (ret != MM_ERROR_NONE) {
                        if (ret == (int)MM_ERROR_CAMCORDER_LOW_MEMORY) {
                                free(b);
                        }
                        EXIF_SET_ERR(ret, EXIF_TAG_DATE_TIME_ORIGINAL);
                }

                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_DATE_TIME_DIGITIZED, EXIF_FORMAT_ASCII, 20, (const char *)b);
                if (ret != MM_ERROR_NONE) {
                        if (ret == (int)MM_ERROR_CAMCORDER_LOW_MEMORY) {
                                free(b);
                        }
                        EXIF_SET_ERR(ret, EXIF_TAG_DATE_TIME_DIGITIZED);
                }

                free(b);
        }

        /*5. EXIF_TAG_MAKE */
        __mmcamcorder_update_exif_make(handle, ed);

#ifdef WRITE_EXIF_MAKER_INFO /* FIXME */

        /*6. EXIF_TAG_MODEL */
        __mmcamcorder_update_exif_model(handle, ed);

#endif
        /*6. EXIF_TAG_IMAGE_DESCRIPTION */
        mm_camcorder_get_attributes(handle, NULL, MMCAM_TAG_IMAGE_DESCRIPTION, &str_value, &str_val_len, NULL);
        if (str_value && str_val_len > 0) {
                char *description = strdup(str_value);

                _mmcam_dbg_log("desctiption [%s]", str_value);

                if (description) {
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_IMAGE_DESCRIPTION,
                                                    EXIF_FORMAT_ASCII, strlen(description), (const char *)description);
                        free(description);
                        str_value = NULL;
                        str_val_len = 0;
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_IMAGE_DESCRIPTION);
                        }
                } else {
                        _mmcam_dbg_err("strdup failed for [%s]", str_value);
                }
        } else {
                _mmcam_dbg_warn("failed to get description");
        }

        /*7. EXIF_TAG_SOFTWARE*/
        __mmcamcorder_update_exif_software(handle, ed);

/*
        if (control != NULL) {
                char software[50] = {0,};
                unsigned int len = 0;

                len = snprintf(software, sizeof(software), "%x.%x ", avsys_exif_info.software_used>>8,(avsys_exif_info.software_used & 0xff));
                _mmcam_dbg_log("software [%s], len [%d]", software, len);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_0, EXIF_TAG_SOFTWARE,
                                            EXIF_FORMAT_ASCII, len, (const char *)software);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_SOFTWARE);
                }
        }
*/

        __mmcamcorder_update_exif_orientation(handle, ed);

        /* START INSERT EXIF_IFD */

        /*3. User Comment*/
        /*FIXME : get user comment from real user */
        user_comment = strdup(MM_USER_COMMENT);
        if (user_comment) {
                _mmcam_dbg_log("user_comment=%s",user_comment);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_USER_COMMENT,
                                            EXIF_FORMAT_ASCII, strlen(user_comment), (const char *)user_comment);
                free(user_comment);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_USER_COMMENT);
                }
        } else {
                ret = MM_ERROR_CAMCORDER_LOW_MEMORY;
                EXIF_SET_ERR(ret, EXIF_TAG_USER_COMMENT);
        }

        /*9. EXIF_TAG_COLOR_SPACE */
        if (control != NULL) {
                exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), avsys_exif_info.colorspace);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_COLOR_SPACE,
                                            EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_COLOR_SPACE);
                }
        }

        /*10. EXIF_TAG_COMPONENTS_CONFIGURATION */
        if (control != NULL) {
                config = avsys_exif_info.component_configuration;
                _mmcam_dbg_log("EXIF_TAG_COMPONENTS_CONFIGURATION [%4x] ",config);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_COMPONENTS_CONFIGURATION,
                                            EXIF_FORMAT_UNDEFINED, 4, (const char *)&config);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_COMPONENTS_CONFIGURATION);
                }
        }

        /*11. EXIF_TAG_COMPRESSED_BITS_PER_PIXEL */
        /* written  the device_info */

        /*12. EXIF_TAG_DATE_TIME_ORIGINAL */
        /*13. EXIF_TAG_DATE_TIME_DIGITIZED*/

        /*14. EXIF_TAG_EXPOSURE_TIME*/
        if (avsys_exif_info.exposure_time_numerator && avsys_exif_info.exposure_time_denominator) {
                unsigned char *b = NULL;
                ExifRational rData;

                _mmcam_dbg_log("EXIF_TAG_EXPOSURE_TIME numerator [%d], denominator [%d]",
                               avsys_exif_info.exposure_time_numerator, avsys_exif_info.exposure_time_denominator);

                b = malloc(sizeof(ExifRational));
                if (b) {
                        rData.numerator = avsys_exif_info.exposure_time_numerator;
                        rData.denominator = avsys_exif_info.exposure_time_denominator;

                        exif_set_rational(b, exif_data_get_byte_order(ed), rData);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_EXPOSURE_TIME,
                                                    EXIF_FORMAT_RATIONAL, 1, (const char *)b);
                        free(b);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_EXPOSURE_TIME);
                        }
                } else {
                        _mmcam_dbg_warn("malloc failed.");
                }
        } else {
                _mmcam_dbg_log("Skip set EXIF_TAG_EXPOSURE_TIME numerator [%d], denominator [%d]",
                               avsys_exif_info.exposure_time_numerator, avsys_exif_info.exposure_time_denominator);
        }

        /*15. EXIF_TAG_FNUMBER */
        if (avsys_exif_info.aperture_f_num_numerator && avsys_exif_info.aperture_f_num_denominator) {
                unsigned char *b = NULL;
                ExifRational rData;

                _mmcam_dbg_log("EXIF_TAG_FNUMBER numerator [%d], denominator [%d]",
                               avsys_exif_info.aperture_f_num_numerator, avsys_exif_info.aperture_f_num_denominator);

                b = malloc(sizeof(ExifRational));
                if (b) {
                        rData.numerator = avsys_exif_info.aperture_f_num_numerator;
                        rData.denominator = avsys_exif_info.aperture_f_num_denominator;
                        exif_set_rational(b, exif_data_get_byte_order(ed), rData);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_FNUMBER,
                                                    EXIF_FORMAT_RATIONAL, 1, (const char *)b);
                        free(b);
                        if(ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_FNUMBER);
                        }
                } else {
                        _mmcam_dbg_warn( "malloc failed." );
                }
        } else {
                _mmcam_dbg_log("Skip set EXIF_TAG_FNUMBER numerator [%d], denominator [%d]",
                               avsys_exif_info.aperture_f_num_numerator, avsys_exif_info.aperture_f_num_denominator);
        }

        /*16. EXIF_TAG_EXPOSURE_PROGRAM*/
        /*FIXME*/
        value = MM_EXPOSURE_PROGRAM;
        exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_EXPOSURE_PROGRAM,
                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_EXPOSURE_PROGRAM);
        }

        /*17. EXIF_TAG_ISO_SPEED_RATINGS*/
        if (avsys_exif_info.iso) {
                _mmcam_dbg_log("EXIF_TAG_ISO_SPEED_RATINGS [%d]", avsys_exif_info.iso);
                exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), avsys_exif_info.iso);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_ISO_SPEED_RATINGS,
                                            EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_ISO_SPEED_RATINGS);
                }
        }

        /*18. EXIF_TAG_SHUTTER_SPEED_VALUE*/
        if (avsys_exif_info.shutter_speed_numerator && avsys_exif_info.shutter_speed_denominator) {
                unsigned char *b = NULL;
                ExifSRational rsData;

                _mmcam_dbg_log("EXIF_TAG_SHUTTER_SPEED_VALUE numerator [%d], denominator [%d]",
                               avsys_exif_info.shutter_speed_numerator, avsys_exif_info.shutter_speed_denominator);

                b = malloc(sizeof(ExifSRational));
                if (b) {
                        rsData.numerator = avsys_exif_info.shutter_speed_numerator;
                        rsData.denominator = avsys_exif_info.shutter_speed_denominator;
                        exif_set_srational(b, exif_data_get_byte_order(ed), rsData);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_SHUTTER_SPEED_VALUE,
                                                    EXIF_FORMAT_SRATIONAL, 1, (const char *)b);
                        free(b);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_SHUTTER_SPEED_VALUE);
                        }
                } else {
                        _mmcam_dbg_warn("malloc failed.");
                }
        } else {
                _mmcam_dbg_log("Skip set EXIF_TAG_SHUTTER_SPEED_VALUE numerator [%d], denominator [%d]",
                               avsys_exif_info.shutter_speed_numerator, avsys_exif_info.shutter_speed_denominator);
        }

        /*19. EXIF_TAG_APERTURE_VALUE*/
        if (avsys_exif_info.aperture_in_APEX) {
                unsigned char *b = NULL;
                ExifRational rData;

                _mmcam_dbg_log("EXIF_TAG_APERTURE_VALUE [%d]", avsys_exif_info.aperture_in_APEX);

                b = malloc(sizeof(ExifRational));
                if (b) {
                        rData.numerator = avsys_exif_info.aperture_in_APEX;
                        rData.denominator = 1;
                        exif_set_rational(b, exif_data_get_byte_order(ed), rData);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_APERTURE_VALUE,
                                                    EXIF_FORMAT_RATIONAL, 1, (const char *)b);
                        free(b);
                        if(ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_APERTURE_VALUE);
                        }
                } else {
                        _mmcam_dbg_warn("malloc failed.");
                }
        } else {
                _mmcam_dbg_log("Skip set EXIF_TAG_APERTURE_VALUE [%d]", avsys_exif_info.aperture_in_APEX);
        }

        /*20. EXIF_TAG_BRIGHTNESS_VALUE*/
        if (avsys_exif_info.brigtness_numerator && avsys_exif_info.brightness_denominator) {
                unsigned char *b = NULL;
                ExifSRational rsData;

                _mmcam_dbg_log("EXIF_TAG_BRIGHTNESS_VALUE numerator [%d], denominator [%d]",
                               avsys_exif_info.brigtness_numerator, avsys_exif_info.brightness_denominator);

                b = malloc(sizeof(ExifSRational));
                if (b) {
                        rsData.numerator = avsys_exif_info.brigtness_numerator;
                        rsData.denominator = avsys_exif_info.brightness_denominator;
                        exif_set_srational(b, exif_data_get_byte_order(ed), rsData);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_BRIGHTNESS_VALUE,
                                                    EXIF_FORMAT_SRATIONAL, 1, (const char *)b);
                        free(b);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_BRIGHTNESS_VALUE);
                        }
                } else {
                        _mmcam_dbg_warn( "malloc failed." );
                }
        } else {
                _mmcam_dbg_log("Skip set EXIF_TAG_BRIGHTNESS_VALUE numerator [%d], denominatorr [%d]",
                               avsys_exif_info.brigtness_numerator, avsys_exif_info.brightness_denominator);
        }

        /*21. EXIF_TAG_EXPOSURE_BIAS_VALUE*/
        value = 0;
        ret = mm_camcorder_get_attributes(handle, NULL, MMCAM_FILTER_BRIGHTNESS, &value, NULL);
        if (ret == MM_ERROR_NONE) {
                unsigned char *b = NULL;
                ExifSRational rsData;

                _mmcam_dbg_log("EXIF_TAG_BRIGHTNESS_VALUE %d, default %d, step denominator %d",
                               value, hcamcorder->brightness_default, hcamcorder->brightness_step_denominator);

                b = malloc(sizeof(ExifSRational));
                if (b) {
                        rsData.numerator = value - hcamcorder->brightness_default;
                        if (hcamcorder->brightness_step_denominator != 0) {
                                rsData.denominator = hcamcorder->brightness_step_denominator;
                        } else {
                                _mmcam_dbg_warn("brightness_step_denominator is ZERO, so set 1");
                                rsData.denominator = 1;
                        }
                        exif_set_srational(b, exif_data_get_byte_order(ed), rsData);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_EXPOSURE_BIAS_VALUE,
                                                    EXIF_FORMAT_SRATIONAL, 1, (const char *)b);
                        free(b);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_EXPOSURE_BIAS_VALUE);
                        }
                } else {
                        _mmcam_dbg_warn("malloc failed.");
                }
        } else {
                _mmcam_dbg_log("failed to get MMCAM_FILTER_BRIGHTNESS [%x]", ret);
        }

        /*22  EXIF_TAG_MAX_APERTURE_VALUE*/
/*
        if (avsys_exif_info.max_lens_aperture_in_APEX) {
                unsigned char *b = NULL;
                ExifRational rData;

                _mmcam_dbg_log("EXIF_TAG_MAX_APERTURE_VALUE [%d]", avsys_exif_info.max_lens_aperture_in_APEX);

                b = malloc(sizeof(ExifRational));
                if (b) {
                        rData.numerator = avsys_exif_info.max_lens_aperture_in_APEX;
                        rData.denominator = 1;
                        exif_set_rational(b, exif_data_get_byte_order(ed), rData);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_MAX_APERTURE_VALUE,
                                                    EXIF_FORMAT_RATIONAL, 1, b);
                        free(b);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_MAX_APERTURE_VALUE);
                        }
                } else {
                        _mmcam_dbg_warn("failed to alloc for MAX aperture value");
                }
        }
*/

        /*23. EXIF_TAG_SUBJECT_DISTANCE*/
        /* defualt : none */

        /*24. EXIF_TAG_METERING_MODE */
        if (control != NULL) {
                exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed),avsys_exif_info.metering_mode);
                _mmcam_dbg_log("EXIF_TAG_METERING_MODE [%d]", avsys_exif_info.metering_mode);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_METERING_MODE,
                                            EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_METERING_MODE);
                }
        }

        /*25. EXIF_TAG_LIGHT_SOURCE*/

        /*26. EXIF_TAG_FLASH*/
        if (control != NULL) {
                exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order (ed),avsys_exif_info.flash);
                _mmcam_dbg_log("EXIF_TAG_FLASH [%d]", avsys_exif_info.flash);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_FLASH,
                                            EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_FLASH);
                }
        }

        /*27. EXIF_TAG_FOCAL_LENGTH*/
        if (avsys_exif_info.focal_len_numerator && avsys_exif_info.focal_len_denominator) {
                unsigned char *b = NULL;
                ExifRational rData;

                _mmcam_dbg_log("EXIF_TAG_FOCAL_LENGTH numerator [%d], denominator [%d]",
                               avsys_exif_info.focal_len_numerator, avsys_exif_info.focal_len_denominator);

                b = malloc(sizeof(ExifRational));
                if (b) {
                        rData.numerator = avsys_exif_info.focal_len_numerator;
                        rData.denominator = avsys_exif_info.focal_len_denominator;
                        exif_set_rational(b, exif_data_get_byte_order(ed), rData);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_FOCAL_LENGTH,
                                                    EXIF_FORMAT_RATIONAL, 1, (const char *)b);
                        free(b);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_FOCAL_LENGTH);
                        }
                } else {
                        _mmcam_dbg_warn("malloc failed.");
                }
        } else {
                _mmcam_dbg_log("Skip set EXIF_TAG_FOCAL_LENGTH numerator [%d], denominator [%d]",
                               avsys_exif_info.focal_len_numerator, avsys_exif_info.focal_len_denominator);
        }

        /*28. EXIF_TAG_SENSING_METHOD*/
        /*FIXME*/
        value = MM_SENSING_MODE;
        exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order (ed),value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_SENSING_METHOD,
                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_SENSING_METHOD);
        }

        /*29. EXIF_TAG_FILE_SOURCE*/
/*
        value = MM_FILE_SOURCE;
        exif_set_long(&elong[cntl], exif_data_get_byte_order(ed),value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_FILE_SOURCE,
                                    EXIF_FORMAT_UNDEFINED, 4, (const char *)&elong[cntl++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_FILE_SOURCE);
        }
*/

        /*30. EXIF_TAG_SCENE_TYPE*/
/*
        value = MM_SCENE_TYPE;
        exif_set_long(&elong[cntl], exif_data_get_byte_order(ed),value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_SCENE_TYPE,
                                    EXIF_FORMAT_UNDEFINED, 4, (const char *)&elong[cntl++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_SCENE_TYPE);
        }
*/

        /*31. EXIF_TAG_EXPOSURE_MODE*/
        /*FIXME*/
        value = MM_EXPOSURE_MODE;
        exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed),value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_EXPOSURE_MODE,
                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_EXPOSURE_MODE);
        }


        /*32. EXIF_TAG_WHITE_BALANCE*/
        ret = mm_camcorder_get_attributes(handle, NULL, MMCAM_FILTER_WB, &value, NULL);
        if (ret == MM_ERROR_NONE) {
                int set_value = 0;
                _mmcam_dbg_log("WHITE BALANCE [%d]", value);

                if (value == MM_CAMCORDER_WHITE_BALANCE_AUTOMATIC) {
                        set_value = 0;
                } else {
                        set_value = 1;
                }

                exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), set_value);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_WHITE_BALANCE,
                                            EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_WHITE_BALANCE);
                }
        } else {
                _mmcam_dbg_warn("failed to get white balance [%x]", ret);
        }

        /*33. EXIF_TAG_DIGITAL_ZOOM_RATIO*/
/*
        ret = mm_camcorder_get_attributes(handle, NULL, MMCAM_CAMERA_DIGITAL_ZOOM, &value, NULL);
        if (ret == MM_ERROR_NONE) {
                _mmcam_dbg_log("DIGITAL ZOOM [%d]", value);

                exif_set_long(&elong[cntl], exif_data_get_byte_order(ed), value);
                ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_DIGITAL_ZOOM_RATIO,
                                            EXIF_FORMAT_LONG, 1, (const char *)&elong[cntl++]);
                if (ret != MM_ERROR_NONE) {
                        EXIF_SET_ERR(ret, EXIF_TAG_DIGITAL_ZOOM_RATIO);
                }
        } else {
                _mmcam_dbg_warn("failed to get digital zoom [%x]", ret);
        }
*/

        /*34. EXIF_TAG_FOCAL_LENGTH_IN_35MM_FILM*/
        /*FIXME*/
/*
        value = MM_FOCAL_LENGTH_35MMFILM;
        exif_set_short(&eshort[cnts], exif_data_get_byte_order(ed),value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_FOCAL_LENGTH_IN_35MM_FILM,
                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_FOCAL_LENGTH_IN_35MM_FILM);
        }
*/

        /*35. EXIF_TAG_SCENE_CAPTURE_TYPE*/
        {
                int scene_capture_type;

                ret = mm_camcorder_get_attributes(handle, NULL, MMCAM_FILTER_SCENE_MODE, &value, NULL);
                if (ret == MM_ERROR_NONE) {
                        _mmcam_dbg_log("Scene mode(program mode) [%d]", value);

                        if (value == MM_CAMCORDER_SCENE_MODE_NORMAL) {
                                scene_capture_type = 0; /* standard */
                        } else if (value == MM_CAMCORDER_SCENE_MODE_PORTRAIT) {
                                scene_capture_type = 2; /* portrait */
                        } else if (value == MM_CAMCORDER_SCENE_MODE_LANDSCAPE) {
                                scene_capture_type = 1; /* landscape */
                        } else if (value == MM_CAMCORDER_SCENE_MODE_NIGHT_SCENE) {
                                scene_capture_type = 3; /* night scene */
                        } else {
                                scene_capture_type = 4; /* Others */
                        }

                        exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), scene_capture_type);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_SCENE_CAPTURE_TYPE,
                                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_SCENE_CAPTURE_TYPE);
                        }
                } else {
                        _mmcam_dbg_warn("failed to get scene mode [%x]", ret);
                }
        }

        /*36. EXIF_TAG_GAIN_CONTROL*/
        /*FIXME*/
/*
        value = MM_GAIN_CONTROL;
        exif_set_long(&elong[cntl], exif_data_get_byte_order(ed), value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_GAIN_CONTROL,
                                    EXIF_FORMAT_LONG, 1, (const char *)&elong[cntl++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_GAIN_CONTROL);
        }
*/


        /*37. EXIF_TAG_CONTRAST */
        {
                type_int_range *irange = NULL;
                int level = 0;

                _mmcamcorder_conf_get_value_int_range(hcamcorder->conf_ctrl,
                                                      CONFIGURE_CATEGORY_CTRL_EFFECT,
                                                      "Contrast",
                                                      &irange);
                if (irange != NULL) {
                        mm_camcorder_get_attributes(handle, NULL, MMCAM_FILTER_CONTRAST, &value, NULL);

                        _mmcam_dbg_log("CONTRAST currentt [%d], default [%d]", value, irange->default_value);

                        if (value == irange->default_value) {
                                level = MM_VALUE_NORMAL;
                        } else if (value < irange->default_value) {
                                level = MM_VALUE_LOW;
                        } else {
                                level = MM_VALUE_HARD;
                        }

                        exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), level);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_CONTRAST,
                                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_CONTRAST);
                        }
                } else {
                        _mmcam_dbg_warn("failed to get range of contrast");
                }
        }

        /*38. EXIF_TAG_SATURATION*/
        {
                type_int_range *irange = NULL;
                int level = 0;

                _mmcamcorder_conf_get_value_int_range(hcamcorder->conf_ctrl,
                                                      CONFIGURE_CATEGORY_CTRL_EFFECT,
                                                      "Saturation",
                                                      &irange);
                if (irange != NULL) {
                        mm_camcorder_get_attributes(handle, NULL, MMCAM_FILTER_SATURATION, &value, NULL);

                        _mmcam_dbg_log("SATURATION current [%d], default [%d]", value, irange->default_value);

                        if (value == irange->default_value) {
                                level = MM_VALUE_NORMAL;
                        } else if (value < irange->default_value) {
                                level = MM_VALUE_LOW;
                        } else {
                                level=MM_VALUE_HARD;
                        }

                        exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), level);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_SATURATION,
                                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_SATURATION);
                        }
                } else {
                        _mmcam_dbg_warn("failed to get range of saturation");
                }
        }

        /*39. EXIF_TAG_SHARPNESS*/
        {
                type_int_range *irange = NULL;
                int level = 0;

                _mmcamcorder_conf_get_value_int_range(hcamcorder->conf_ctrl,
                                                      CONFIGURE_CATEGORY_CTRL_EFFECT,
                                                      "Sharpness",
                                                      &irange);
                if (irange != NULL) {
                        mm_camcorder_get_attributes(handle, NULL, MMCAM_FILTER_SHARPNESS, &value, NULL);

                        _mmcam_dbg_log("SHARPNESS current [%d], default [%d]", value, irange->default_value);

                        if (value == irange->default_value) {
                                level = MM_VALUE_NORMAL;
                        } else if (value < irange->default_value) {
                                level = MM_VALUE_LOW;
                        } else {
                                level = MM_VALUE_HARD;
                        }

                        exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), level);
                        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_SHARPNESS,
                                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
                        if (ret != MM_ERROR_NONE) {
                                EXIF_SET_ERR(ret, EXIF_TAG_SHARPNESS);
                        }
                } else {
                        _mmcam_dbg_warn("failed to get range of sharpness");
                }
        }

        /*40. EXIF_TAG_SUBJECT_DISTANCE_RANGE*/
        /*FIXME*/
        value = MM_SUBJECT_DISTANCE_RANGE;
        _mmcam_dbg_log("DISTANCE_RANGE [%d]", value);
        exif_set_short((unsigned char *)&eshort[cnts], exif_data_get_byte_order(ed), value);
        ret = mm_exif_set_add_entry(ed, EXIF_IFD_EXIF, EXIF_TAG_SUBJECT_DISTANCE_RANGE,
                                    EXIF_FORMAT_SHORT, 1, (const char *)&eshort[cnts++]);
        if (ret != MM_ERROR_NONE) {
                EXIF_SET_ERR(ret, EXIF_TAG_SUBJECT_DISTANCE_RANGE);
        }

        /* GPS information */
        __mmcamcorder_update_exif_gps(handle, ed);

        _mmcam_dbg_log("");

        ret = mm_exif_set_exif_to_info(hcamcorder->exif_info, ed);
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("mm_exif_set_exif_to_info err!! [%x]", ret);
        }

exit:
        _mmcam_dbg_log("finished!! [%x]", ret);

        if (ed) {
                exif_data_unref (ed);
        }

        return ret;
}


static void __sound_status_changed_cb(keynode_t* node, void *data)
{
        mmf_camcorder_t *hcamcorder = (mmf_camcorder_t *)data;
        _MMCamcorderImageInfo *info = NULL;

        mmf_return_if_fail(hcamcorder && hcamcorder->sub_context && hcamcorder->sub_context->info_image);

        _mmcam_dbg_log("START");

        info = hcamcorder->sub_context->info_image;

        vconf_get_bool(VCONFKEY_SETAPPL_SOUND_STATUS_BOOL, &(info->sound_status));

        _mmcam_dbg_log("DONE : sound status %d", info->sound_status);

        return;
}