Remove codes related to session backward compatibility

[platform/core/multimedia/libmm-camcorder.git] / src / mm_camcorder_util.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 <stdio.h>
#include <stdarg.h>
#include <stdlib.h>
#include <sys/vfs.h> /* struct statfs */
#include <sys/time.h> /* gettimeofday */
#include <sys/stat.h>
#include <gst/video/video-info.h>
#include <gio/gio.h>

#include "mm_camcorder_internal.h"
#include "mm_camcorder_util.h"
#include "mm_camcorder_sound.h"
#include <mm_util_imgp.h>
#include <mm_util_jpeg.h>

/*-----------------------------------------------------------------------
|    GLOBAL VARIABLE DEFINITIONS for internal                           |
-----------------------------------------------------------------------*/

/*-----------------------------------------------------------------------
|    LOCAL VARIABLE DEFINITIONS for internal                            |
-----------------------------------------------------------------------*/
#define TIME_STRING_MAX_LEN                     64
#define __MMCAMCORDER_CAPTURE_WAIT_TIMEOUT      5
#define __MMCAMCORDER_MAX_WIDTH                 8192
#define __MMCAMCORDER_MAX_HEIGHT                8192

#define FPUTC_CHECK(x_char, x_file) \
{ \
        if (fputc(x_char, x_file) == EOF) { \
                _mmcam_dbg_err("[Critical] fputc() returns fail.\n"); \
                return FALSE; \
        } \
}
#define FPUTS_CHECK(x_str, x_file) \
{ \
        if (fputs(x_str, x_file) == EOF) { \
                _mmcam_dbg_err("[Critical] fputs() returns fail.\n"); \
                SAFE_G_FREE(str); \
                return FALSE; \
        } \
}

/*---------------------------------------------------------------------------
|    LOCAL FUNCTION PROTOTYPES:                                                                                         |
---------------------------------------------------------------------------*/
/* STATIC INTERNAL FUNCTION */

//static gint            skip_mdat(FILE *f);
static guint16           get_language_code(const char *str);
static gchar*            str_to_utf8(const gchar *str);
static inline gboolean   write_tag(FILE *f, const gchar *tag);
static inline gboolean   write_to_32(FILE *f, guint val);
static inline gboolean   write_to_16(FILE *f, guint val);
static inline gboolean   write_to_24(FILE *f, guint val);
static gboolean _mmcamcorder_convert_YUYV_to_I420(unsigned char *src, guint width, guint height, unsigned char **dst, unsigned int *dst_len);
static gboolean _mmcamcorder_convert_UYVY_to_I420(unsigned char *src, guint width, guint height, unsigned char **dst, unsigned int *dst_len);
static gboolean _mmcamcorder_convert_NV12_to_I420(unsigned char *src, guint width, guint height, unsigned char **dst, unsigned int *dst_len);


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

static int __gdbus_method_call_sync(GDBusConnection *conn, const char *bus_name,
        const char *object, const char *iface, const char *method,
        GVariant *args, GVariant **result, bool is_sync)
{
        int ret = MM_ERROR_NONE;
        GVariant *dbus_reply = NULL;

        if (!conn || !object || !iface || !method) {
                _mmcam_dbg_err("Invalid Argument %p %p %p %p",
                        conn, object, iface, method);
                return MM_ERROR_INVALID_ARGUMENT;
        }

        _mmcam_dbg_warn("Dbus call - obj [%s], iface [%s], method [%s]", object, iface, method);

        if (is_sync) {
                dbus_reply = g_dbus_connection_call_sync(conn,
                        bus_name, object, iface, method, args, NULL,
                        G_DBUS_CALL_FLAGS_NONE, G_DBUS_TIMEOUT, NULL, NULL);
                if (dbus_reply) {
                        _mmcam_dbg_warn("Method Call '%s.%s' Success", iface, method);
                        *result = dbus_reply;
                } else {
                        _mmcam_dbg_err("dbus method call sync reply failed");
                        ret = MM_ERROR_CAMCORDER_INTERNAL;
                }
        } else {
                g_dbus_connection_call(conn, bus_name, object, iface, method, args, NULL,
                        G_DBUS_CALL_FLAGS_NONE, G_DBUS_TIMEOUT, NULL, NULL, NULL);
        }

        _mmcam_dbg_warn("done");

        return ret;
}

static int __gdbus_subscribe_signal(GDBusConnection *conn,
        const char *object_name, const char *iface_name, const char *signal_name,
        GDBusSignalCallback signal_cb, guint *subscribe_id, void *userdata)
{
        guint subs_id = 0;

        if (!conn || !object_name || !iface_name || !signal_name || !signal_cb || !subscribe_id) {
                _mmcam_dbg_err("Invalid Argument %p %p %p %p %p %p",
                        conn, object_name, iface_name, signal_name, signal_cb, subscribe_id);
                return MM_ERROR_INVALID_ARGUMENT;
        }

        _mmcam_dbg_log("subscirbe signal Obj %s, iface_name %s, sig_name %s",
                object_name, iface_name, signal_name);

        subs_id = g_dbus_connection_signal_subscribe(conn,
                NULL, iface_name, signal_name, object_name, NULL,
                G_DBUS_SIGNAL_FLAGS_NONE, signal_cb, userdata, NULL);
        if (!subs_id) {
                _mmcam_dbg_err("g_dbus_connection_signal_subscribe() failed");
                return MM_ERROR_CAMCORDER_INTERNAL;
        } else {
                *subscribe_id = subs_id;
                _mmcam_dbg_log("subs_id %u", subs_id);
        }

        return MM_ERROR_NONE;
}


static void __gdbus_stream_eos_cb(GDBusConnection *connection,
        const gchar *sender_name, const gchar *object_path, const gchar *interface_name,
        const gchar *signal_name, GVariant *param, gpointer user_data)
{
        int played_idx = 0;
        _MMCamcorderGDbusCbInfo *gdbus_info = NULL;
        mmf_camcorder_t *hcamcorder = NULL;

        _mmcam_dbg_warn("entered");

        if (!param || !user_data) {
                _mmcam_dbg_err("invalid parameter %p %p", param, user_data);
                return;
        }

        gdbus_info = (_MMCamcorderGDbusCbInfo *)user_data;
        hcamcorder = (mmf_camcorder_t *)gdbus_info->mm_handle;

        g_variant_get(param, "(i)", &played_idx);

        g_mutex_lock(&gdbus_info->sync_mutex);

        _mmcam_dbg_warn("gdbus_info->param %d, played_idx : %d, handle : %p",
                gdbus_info->param, played_idx, hcamcorder);

        if (gdbus_info->param == played_idx) {
                g_dbus_connection_signal_unsubscribe(connection, gdbus_info->subscribe_id);

                gdbus_info->is_playing = FALSE;
                gdbus_info->subscribe_id = 0;
                gdbus_info->param = 0;

                g_cond_signal(&gdbus_info->sync_cond);
        }

        g_mutex_unlock(&gdbus_info->sync_mutex);

        _mmcam_dbg_warn("done");

        return;
}

static int __gdbus_wait_for_cb_return(_MMCamcorderGDbusCbInfo *gdbus_info, int time_out)
{
        int ret = MM_ERROR_NONE;
        gint64 end_time = 0;

        if (!gdbus_info) {
                _mmcam_dbg_err("invalid info");
                return MM_ERROR_CAMCORDER_INVALID_ARGUMENT;
        }

        g_mutex_lock(&gdbus_info->sync_mutex);

        _mmcam_dbg_warn("entered");

        if (gdbus_info->is_playing == FALSE) {
                _mmcam_dbg_log("callback is already returned");
                g_mutex_unlock(&gdbus_info->sync_mutex);
                return MM_ERROR_NONE;
        }

        end_time = g_get_monotonic_time() + (time_out * G_TIME_SPAN_MILLISECOND);

        if (g_cond_wait_until(&gdbus_info->sync_cond, &gdbus_info->sync_mutex, end_time)) {
                _mmcam_dbg_warn("wait signal received");
        } else {
                _mmcam_dbg_err("wait time is expired");
                ret = MM_ERROR_CAMCORDER_RESPONSE_TIMEOUT;
        }

        g_mutex_unlock(&gdbus_info->sync_mutex);

        _mmcam_dbg_warn("done");

        return ret;
}


gint32 _mmcamcorder_double_to_fix(gdouble d_number)
{
        return (gint32) (d_number * 65536.0);
}

// find top level tag only, do not use this function for finding sub level tags
gint _mmcamcorder_find_tag(FILE *f, guint32 tag_fourcc, gboolean do_rewind)
{
        size_t read_item = 0;
        guchar buf[8];

        if (do_rewind)
                rewind(f);

        while ((read_item = fread(&buf, sizeof(guchar), 8, f)) > 0) {
                uint64_t buf_size = 0;
                uint32_t buf_fourcc = 0;

                if (read_item < 8) {
                        _mmcam_dbg_err("fread failed : %d", read_item);
                        break;
                }

                buf_fourcc = MMCAM_FOURCC(buf[4], buf[5], buf[6], buf[7]);

                if (tag_fourcc == buf_fourcc) {
                        _mmcam_dbg_log("find tag : %c%c%c%c", MMCAM_FOURCC_ARGS(tag_fourcc));
                        return TRUE;
                } else {
                        _mmcam_dbg_log("skip [%c%c%c%c] tag", MMCAM_FOURCC_ARGS(buf_fourcc));

                        buf_size = _mmcamcorder_get_container_size(buf);

                        /* if size of mdat is 1, it means largesize is used.(bigger than 4GB) */
                        if (buf_fourcc == MMCAM_FOURCC('m', 'd', 'a', 't') &&
                            buf_size == 1) {
                                read_item = fread(&buf, sizeof(guchar), 8, f);
                                if (read_item < 8) {
                                        _mmcam_dbg_err("fread failed");
                                        return FALSE;
                                }

                                buf_size = _mmcamcorder_get_container_size64(buf);
                                buf_size = buf_size - 16; /* include tag and large file flag(size 1) */
                        } else {
                                buf_size = buf_size - 8; /* include tag */
                        }

                        _mmcam_dbg_log("seek %llu", buf_size);
                        if (fseeko(f, (off_t)buf_size, SEEK_CUR) != 0) {
                                _mmcam_dbg_err("fseeko() fail");
                                return FALSE;
                        }
                }
        }

        _mmcam_dbg_log("cannot find tag : %c%c%c%c", MMCAM_FOURCC_ARGS(tag_fourcc));

        return FALSE;
}

gboolean _mmcamcorder_find_fourcc(FILE *f, guint32 tag_fourcc, gboolean do_rewind)
{
        size_t read_item = 0;
        guchar buf[8];

        if (do_rewind)
                rewind(f);

        while ((read_item = fread(&buf, sizeof(guchar), 8, f))  > 0) {
                uint64_t buf_size = 0;
                uint32_t buf_fourcc = 0;

                if (read_item < 8) {
                        _mmcam_dbg_err("fread failed : %d", read_item);
                        break;
                }

                buf_fourcc = MMCAM_FOURCC(buf[4], buf[5], buf[6], buf[7]);

                if (tag_fourcc == buf_fourcc) {
                        _mmcam_dbg_log("find tag : %c%c%c%c", MMCAM_FOURCC_ARGS(tag_fourcc));
                        return TRUE;
                } else if (buf_fourcc == MMCAM_FOURCC('m', 'o', 'o', 'v') &&
                                   tag_fourcc != buf_fourcc) {
                        if (_mmcamcorder_find_fourcc(f, tag_fourcc, FALSE))
                                return TRUE;
                        else
                                continue;
                } else {
                        _mmcam_dbg_log("skip [%c%c%c%c] tag", MMCAM_FOURCC_ARGS(buf_fourcc));

                        buf_size = _mmcamcorder_get_container_size(buf);

                        /* if size of mdat is 1, it means largesize is used.(bigger than 4GB) */
                        if (buf_fourcc == MMCAM_FOURCC('m', 'd', 'a', 't') &&
                            buf_size == 1) {
                                read_item = fread(&buf, sizeof(guchar), 8, f);
                                if (read_item < 8) {
                                        _mmcam_dbg_err("fread failed");
                                        return FALSE;
                                }

                                buf_size = _mmcamcorder_get_container_size64(buf);
                                buf_size = buf_size - 16; /* include tag and large file flag(size 1) */
                        } else {
                                buf_size = buf_size - 8; /* include tag */
                        }

                        _mmcam_dbg_log("seek %llu", buf_size);
                        if (fseeko(f, (off_t)buf_size, SEEK_CUR) != 0) {
                                _mmcam_dbg_err("fseeko() fail");
                                return FALSE;
                        }
                }
        }

        _mmcam_dbg_log("cannot find tag : %c%c%c%c", MMCAM_FOURCC_ARGS(tag_fourcc));

        return FALSE;
}

gboolean _mmcamcorder_update_size(FILE *f, gint64 prev_pos, gint64 curr_pos)
{
        _mmcam_dbg_log("size : %"G_GINT64_FORMAT"", curr_pos-prev_pos);
        if (fseeko(f, prev_pos, SEEK_SET) != 0) {
                _mmcam_dbg_err("fseeko() fail");
                return FALSE;
        }

        if (!write_to_32(f, curr_pos -prev_pos))
                return FALSE;

        if (fseeko(f, curr_pos, SEEK_SET) != 0) {
                _mmcam_dbg_err("fseeko() fail");
                return FALSE;
        }

        return TRUE;
}

gboolean _mmcamcorder_write_loci(FILE *f, _MMCamcorderLocationInfo info)
{
        gint64 current_pos, pos;
        gchar *str = NULL;

        _mmcam_dbg_log("");

        if ((pos = ftello(f)) < 0) {
                _mmcam_dbg_err("ftello() returns negative value");
                return FALSE;
        }

        if (!write_to_32(f, 0)) //size
                return FALSE;

        if (!write_tag(f, "loci")) // type
                return FALSE;

        FPUTC_CHECK(0, f);              // version

        if (!write_to_24(f, 0)) // flags
                return FALSE;

        if (!write_to_16(f, get_language_code("eng"))) // language
                return FALSE;

        str = str_to_utf8("location_name");

        FPUTS_CHECK(str, f); // name
        SAFE_G_FREE(str);

        FPUTC_CHECK('\0', f);
        FPUTC_CHECK(0, f);              //role

        if (!write_to_32(f, info.longitude))    // Longitude
                return FALSE;

        if (!write_to_32(f, info.latitude)) // Latitude
                return FALSE;

        if (!write_to_32(f, info.altitude))     // Altitude
                return FALSE;

        str = str_to_utf8("Astronomical_body");
        FPUTS_CHECK(str, f);//Astronomical_body
        SAFE_G_FREE(str);

        FPUTC_CHECK('\0', f);

        str = str_to_utf8("Additional_notes");
        FPUTS_CHECK(str, f); // Additional_notes
        SAFE_G_FREE(str);

        FPUTC_CHECK('\0', f);

        if ((current_pos = ftello(f)) < 0) {
                _mmcam_dbg_err("ftello() returns negative value");
                return FALSE;
        }

        if (!_mmcamcorder_update_size(f, pos, current_pos))
                return FALSE;

        return TRUE;
}

void _mmcamcorder_write_Latitude(FILE *f, int value)
{
        char s_latitude[9];
        int l_decimal = 0;
        int l_below_decimal = 0;

        l_decimal = value / 10000;
        if (value < 0) {
                if (l_decimal == 0)
                        snprintf(s_latitude, 5, "-%.2d.", l_decimal);
                else
                        snprintf(s_latitude, 5, "%.2d.", l_decimal);
        } else {
                snprintf(s_latitude, 5, "+%.2d.", l_decimal);
        }

        l_below_decimal = value - (l_decimal * 10000);
        if (l_below_decimal < 0)
                l_below_decimal = -l_below_decimal;

        snprintf(&s_latitude[4], 5, "%.4d", l_below_decimal);

        write_tag(f, s_latitude);
}

void _mmcamcorder_write_Longitude(FILE *f, int value)
{
        char s_longitude[10];
        int l_decimal = 0;
        int l_below_decimal = 0;

        l_decimal = value / 10000;
        if (value < 0) {
                if (l_decimal == 0)
                        snprintf(s_longitude, 6, "-%.3d.", l_decimal);
                else
                        snprintf(s_longitude, 6, "%.3d.", l_decimal);
        } else {
                snprintf(s_longitude, 6, "+%.3d.", l_decimal);
        }

        l_below_decimal = value - (l_decimal * 10000);
        if (l_below_decimal < 0)
                l_below_decimal = -l_below_decimal;

        snprintf(&s_longitude[5], 5, "%.4d", l_below_decimal);

        write_tag(f, s_longitude);
}

#define D_GEOGRAPH "\xA9xyz"
// 0x0012 -> latitude(8) + longitude(9) + seperator(1) = 18
// 0x15c7 -> encode in english
#define D_INFO_GEOGRAPH 0x001215c7

gboolean _mmcamcorder_write_geodata(FILE *f, _MMCamcorderLocationInfo info)
{
        gint64 current_pos, pos;

        _mmcam_dbg_log("");

        if ((pos = ftello(f)) < 0) {
                _mmcam_dbg_err("ftello() returns negative value");
                return FALSE;
        }

        if (!write_to_32(f, 0))                 //size
                return FALSE;
        // tag -> .xyz
        if (!write_tag(f, D_GEOGRAPH))  // type
                return FALSE;

        if (!write_to_32(f, D_INFO_GEOGRAPH))
                return FALSE;

        _mmcamcorder_write_Latitude(f, info.latitude);
        _mmcamcorder_write_Longitude(f, info.longitude);

        FPUTC_CHECK(0x2F, f);

        if ((current_pos = ftello(f)) < 0) {
                _mmcam_dbg_err("ftello() returns negative value");
                return FALSE;
        }

        if (!_mmcamcorder_update_size(f, pos, current_pos))
                return FALSE;

        return TRUE;
}


gboolean _mmcamcorder_write_udta(FILE *f, int gps_enable, _MMCamcorderLocationInfo info, _MMCamcorderLocationInfo geotag)
{
        gint64 current_pos, pos;

        _mmcam_dbg_log("gps enable : %d", gps_enable);
        if (gps_enable == FALSE) {
                _mmcam_dbg_log("no need to write udta");
                return TRUE;
        }

        if ((pos = ftello(f)) < 0) {
                _mmcam_dbg_err("ftello() returns negative value");
                return FALSE;
        }

        /* size */
        if (!write_to_32(f, 0)) {
                _mmcam_dbg_err("failed to write size");
                return FALSE;
        }

        /* type */
        if (!write_tag(f, "udta")) {
                _mmcam_dbg_err("failed to write type udta");
                return FALSE;
        }

        if (gps_enable) {
                if (!_mmcamcorder_write_loci(f, info)) {
                        _mmcam_dbg_err("failed to write loci");
                        return FALSE;
                }

                if (!_mmcamcorder_write_geodata(f, geotag)) {
                        _mmcam_dbg_err("failed to write geodata");
                        return FALSE;
                }
        }

        if ((current_pos = ftello(f)) < 0) {
                _mmcam_dbg_err("ftello() returns negative value");
                return FALSE;
        }

        if (!_mmcamcorder_update_size(f, pos, current_pos)) {
                _mmcam_dbg_err("failed to update size");
                return FALSE;
        }

        _mmcam_dbg_log("done");

        return TRUE;
}


guint64 _mmcamcorder_get_container_size(const guchar *size)
{
        guint64 result = 0;
        guint64 temp = 0;

        temp = size[0];
        result = temp << 24;
        temp = size[1];
        result = result | (temp << 16);
        temp = size[2];
        result = result | (temp << 8);
        result = result | size[3];

        _mmcam_dbg_log("result : %llu", result);

        return result;
}


guint64 _mmcamcorder_get_container_size64(const guchar *size)
{
        guint64 result = 0;
        guint64 temp = 0;

        temp = size[0];
        result = temp << 56;
        temp = size[1];
        result = result | (temp << 48);
        temp = size[2];
        result = result | (temp << 40);
        temp = size[3];
        result = result | (temp << 32);
        temp = size[4];
        result = result | (temp << 24);
        temp = size[5];
        result = result | (temp << 16);
        temp = size[6];
        result = result | (temp << 8);
        result = result | size[7];

        _mmcam_dbg_log("result : %llu", result);

        return result;
}


gboolean _mmcamcorder_update_composition_matrix(FILE *f, int orientation)
{
        /* for 0 degree */
        guint32 a = 0x00010000;
        guint32 b = 0;
        guint32 c = 0;
        guint32 d = 0x00010000;

        switch (orientation) {
        case MM_CAMCORDER_TAG_VIDEO_ORT_90:/* 90 degree */
                a = 0;
                b = 0x00010000;
                c = 0xffff0000;
                d = 0;
                break;
        case MM_CAMCORDER_TAG_VIDEO_ORT_180:/* 180 degree */
                a = 0xffff0000;
                d = 0xffff0000;
                break;
        case MM_CAMCORDER_TAG_VIDEO_ORT_270:/* 270 degree */
                a = 0;
                b = 0xffff0000;
                c = 0x00010000;
                d = 0;
                break;
        case MM_CAMCORDER_TAG_VIDEO_ORT_NONE:/* 0 degree */
        default:
                break;
        }

        write_to_32(f, a);
        write_to_32(f, b);
        write_to_32(f, 0);
        write_to_32(f, c);
        write_to_32(f, d);
        write_to_32(f, 0);
        write_to_32(f, 0);
        write_to_32(f, 0);
        write_to_32(f, 0x40000000);

        _mmcam_dbg_log("orientation : %d, write data 0x%x 0x%x 0x%x 0x%x",
                                   orientation, a, b, c, d);

        return TRUE;
}


static int __mmcamcorder_storage_supported_cb(int storage_id, storage_type_e type,
        storage_state_e state, const char *path, void *user_data)
{
        _MMCamcorderStorageInfo *info = (_MMCamcorderStorageInfo *)user_data;

        if (!info) {
                _mmcam_dbg_err("NULL info");
                return FALSE;
        }

        if (type == info->type) {
                info->id = storage_id;
                return FALSE;
        }

        return TRUE;
}


int _mmcamcorder_get_storage_info(const gchar *path, const gchar *root_directory, _MMCamcorderStorageInfo *info)
{
        int ret = 0;
        struct stat stat_path;
        struct stat stat_root;

        if (!path || !root_directory || !info) {
                _mmcam_dbg_err("invalid parameter %p %p %p", path, root_directory, info);
                return -1;
        }

        if (strlen(root_directory) > 0) {
                if (stat(path, &stat_path) != 0) {
                        _mmcam_dbg_err("failed to stat for [%s][errno %d]", path, errno);
                        return -1;
                }

                if (stat(root_directory, &stat_root) != 0) {
                        _mmcam_dbg_err("failed to stat for [%s][errno %d]", root_directory, errno);
                        return -1;
                }

                if (stat_path.st_dev == stat_root.st_dev)
                        info->type = STORAGE_TYPE_INTERNAL;
                else
                        info->type = STORAGE_TYPE_EXTERNAL;
        } else {
                info->type = STORAGE_TYPE_INTERNAL;
                _mmcam_dbg_warn("invalid length of root directory, assume that it's internal storage.");
        }

        ret = storage_foreach_device_supported((storage_device_supported_cb)__mmcamcorder_storage_supported_cb, info);
        if (ret != STORAGE_ERROR_NONE) {
                _mmcam_dbg_err("storage_foreach_device_supported failed 0x%x", ret);
                return -1;
        }

        _mmcam_dbg_log("storage info - type %d, id %d", info->type, info->id);

        return 0;
}


int _mmcamcorder_get_freespace(storage_type_e type, guint64 *free_space)
{
        int ret = 0;
        struct statvfs vfs;

        if (type == STORAGE_TYPE_INTERNAL)
                ret = storage_get_internal_memory_size(&vfs);
        else
                ret = storage_get_external_memory_size(&vfs);

        if (ret != STORAGE_ERROR_NONE) {
                *free_space = 0;
                _mmcam_dbg_err("get memory size failed [type %d] 0x%x", type, ret);
                return -1;
        }

        *free_space = vfs.f_bsize * vfs.f_bavail;
        /*
        _mmcam_dbg_log("vfs.f_bsize [%lu], vfs.f_bavail [%lu]", vfs.f_bsize, vfs.f_bavail);
        _mmcam_dbg_log("memory size %llu [%s]", *free_space, path);
        */
        return 0;
}


int _mmcamcorder_get_file_system_type(const gchar *path, int *file_system_type)
{
        struct statfs fs;

        g_assert(path);

        if (!g_file_test(path, G_FILE_TEST_EXISTS | G_FILE_TEST_IS_DIR)) {
                _mmcam_dbg_log("File(%s) doesn't exist.", path);
                return -2;
        }

        if (-1 == statfs(path, &fs)) {
                _mmcam_dbg_log("statfs failed.(%s)", path);
                return -1;
        }

        *file_system_type = (int)fs.f_type;

        return 0;
}


int _mmcamcorder_get_device_flash_brightness(GDBusConnection *conn, int *brightness)
{
        int get_value = 0;
        int ret = MM_ERROR_NONE;
        GVariant *params = NULL;
        GVariant *result = NULL;

        ret = __gdbus_method_call_sync(conn, "org.tizen.system.deviced",
                "/Org/Tizen/System/DeviceD/Led", "org.tizen.system.deviced.Led",
                "GetBrightnessForCamera", params, &result, TRUE);
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("Dbus Call on Client Error");
                return ret;
        }

        if (result) {
                g_variant_get(result, "(i)", &get_value);
                *brightness = get_value;
                _mmcam_dbg_log("flash brightness : %d", *brightness);
        } else {
                _mmcam_dbg_err("replied result is null");
                ret = MM_ERROR_CAMCORDER_INTERNAL;
        }

        return ret;
}


int _mmcamcorder_send_sound_play_message(GDBusConnection *conn, _MMCamcorderGDbusCbInfo *gdbus_info,
        const char *sample_name, const char *stream_role, const char *volume_gain, int sync_play)
{
        int get_value = 0;
        int ret = MM_ERROR_NONE;
        GVariant *params = NULL;
        GVariant *result = NULL;
        guint subs_id = 0;

        if (!conn || !gdbus_info) {
                _mmcam_dbg_err("Invalid parameter %p %p", conn, gdbus_info);
                return MM_ERROR_CAMCORDER_INTERNAL;
        }

        params = g_variant_new("(sss)", sample_name, stream_role, volume_gain);
        result = g_variant_new("(i)", get_value);

        ret = __gdbus_method_call_sync(conn, "org.pulseaudio.Server",
                "/org/pulseaudio/SoundPlayer", "org.pulseaudio.SoundPlayer",
                "SamplePlay", params, &result, TRUE);
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("Dbus Call on Client Error");
                return ret;
        }

        if (result) {
                g_variant_get(result, "(i)", &get_value);
                _mmcam_dbg_log("played index : %d", get_value);
        } else {
                _mmcam_dbg_err("replied result is null");
                return MM_ERROR_CAMCORDER_INTERNAL;
        }

        g_mutex_lock(&gdbus_info->sync_mutex);

        if (gdbus_info->subscribe_id > 0) {
                _mmcam_dbg_warn("subscribe_id[%u] is remained. remove it.", gdbus_info->subscribe_id);

                g_dbus_connection_signal_unsubscribe(conn, gdbus_info->subscribe_id);

                gdbus_info->subscribe_id = 0;
        }

        gdbus_info->is_playing = TRUE;
        gdbus_info->param = get_value;

        ret = __gdbus_subscribe_signal(conn,
                "/org/pulseaudio/SoundPlayer", "org.pulseaudio.SoundPlayer", "EOS",
                __gdbus_stream_eos_cb, &subs_id, gdbus_info);

        if (ret == MM_ERROR_NONE)
                gdbus_info->subscribe_id = subs_id;

        g_mutex_unlock(&gdbus_info->sync_mutex);

        if (sync_play && ret == MM_ERROR_NONE)
                ret = __gdbus_wait_for_cb_return(gdbus_info, G_DBUS_TIMEOUT);

        return ret;
}


void _mmcamcorder_request_dpm_popup(GDBusConnection *conn, const char *restricted_policy)
{
        int ret = MM_ERROR_NONE;
        gboolean get_value = 0;
        GVariant *params = NULL;
        GVariant *result = NULL;

        if (!conn || !restricted_policy) {
                _mmcam_dbg_err("Invalid parameter %p %p", conn, restricted_policy);
                return;
        }

        params = g_variant_new("(s)", restricted_policy);
        result = g_variant_new("(b)", get_value);

        ret = __gdbus_method_call_sync(conn,
                "org.tizen.DevicePolicyManager",
                "/org/tizen/DevicePolicyManager/Syspopup",
                "org.tizen.DevicePolicyManager.Syspopup",
                "show", params, &result, TRUE);
        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("Dbus Call on Client Error 0x%x", ret);
                return;
        }

        if (result) {
                g_variant_get(result, "(b)", &get_value);
                _mmcam_dbg_log("request result : %d", get_value);
        } else {
                _mmcam_dbg_err("replied result is null");
        }

        return;
}


int _mmcamcorder_get_file_size(const char *filename, guint64 *size)
{
        struct stat buf;

        if (stat(filename, &buf) != 0)
                return -1;
        *size = (guint64)buf.st_size;
        return 1;
}


void _mmcamcorder_remove_buffer_probe(MMHandleType handle, _MMCamcorderHandlerCategory category)
{
        mmf_camcorder_t* hcamcorder = MMF_CAMCORDER(handle);
        GList *list = NULL;
        MMCamcorderHandlerItem *item = NULL;

        mmf_return_if_fail(hcamcorder);

        if (!hcamcorder->buffer_probes) {
                _mmcam_dbg_warn("list for buffer probe is NULL");
                return;
        }

        _mmcam_dbg_log("start - category : 0x%x", category);

        list = hcamcorder->buffer_probes;
        while (list) {
                item = list->data;
                if (!item) {
                        _mmcam_dbg_err("Remove buffer probe faild, the item is NULL");
                        list = g_list_next(list);
                        continue;
                }

                if (item->category & category) {
                        if (item->object && GST_IS_PAD(item->object)) {
                                _mmcam_dbg_log("Remove buffer probe on [%s:%s] - [ID : %lu], [Category : %x]",
                                        GST_DEBUG_PAD_NAME(item->object), item->handler_id,  item->category);
                                gst_pad_remove_probe(GST_PAD(item->object), item->handler_id);
                        } else {
                                _mmcam_dbg_warn("Remove buffer probe faild, the pad is null or not pad, just remove item from list and free it");
                        }

                        list = g_list_next(list);
                        hcamcorder->buffer_probes = g_list_remove(hcamcorder->buffer_probes, item);
                        SAFE_G_FREE(item);
                } else {
                        _mmcam_dbg_log("Skip item : [ID : %lu], [Category : %x] ", item->handler_id, item->category);
                        list = g_list_next(list);
                }
        }

        if (category == _MMCAMCORDER_HANDLER_CATEGORY_ALL) {
                g_list_free(hcamcorder->buffer_probes);
                hcamcorder->buffer_probes = NULL;
        }

        _mmcam_dbg_log("done");

        return;
}


void _mmcamcorder_remove_one_buffer_probe(MMHandleType handle, void *object)
{
        mmf_camcorder_t* hcamcorder = MMF_CAMCORDER(handle);
        GList *list = NULL;
        MMCamcorderHandlerItem *item = NULL;

        mmf_return_if_fail(hcamcorder);

        if (!hcamcorder->buffer_probes) {
                _mmcam_dbg_warn("list for buffer probe is NULL");
                return;
        }

        _mmcam_dbg_log("start - object : %p", object);

        list = hcamcorder->buffer_probes;
        while (list) {
                item = list->data;
                if (!item) {
                        _mmcam_dbg_err("Remove buffer probe faild, the item is NULL");
                        list = g_list_next(list);
                        continue;
                }

                if (item->object && item->object == object) {
                        if (GST_IS_PAD(item->object)) {
                                _mmcam_dbg_log("Remove buffer probe on [%s:%s] - [ID : %lu], [Category : %x]",
                                        GST_DEBUG_PAD_NAME(item->object), item->handler_id,  item->category);
                                gst_pad_remove_probe(GST_PAD(item->object), item->handler_id);
                        } else {
                                _mmcam_dbg_warn("Remove buffer probe faild, the pad is null or not pad, just remove item from list and free it");
                        }

                        list = g_list_next(list);
                        hcamcorder->buffer_probes = g_list_remove(hcamcorder->buffer_probes, item);
                        SAFE_G_FREE(item);

                        break;
                } else {
                        _mmcam_dbg_log("Skip item : [ID : %lu], [Category : %x] ", item->handler_id, item->category);
                        list = g_list_next(list);
                }
        }

        _mmcam_dbg_log("done");

        return;
}


void _mmcamcorder_remove_event_probe(MMHandleType handle, _MMCamcorderHandlerCategory category)
{
        mmf_camcorder_t* hcamcorder = MMF_CAMCORDER(handle);
        GList *list = NULL;
        MMCamcorderHandlerItem *item = NULL;

        mmf_return_if_fail(hcamcorder);

        if (!hcamcorder->event_probes) {
                _mmcam_dbg_warn("list for event probe is NULL");
                return;
        }

        _mmcam_dbg_log("start - category : 0x%x", category);

        list = hcamcorder->event_probes;
        while (list) {
                item = list->data;
                if (!item) {
                        _mmcam_dbg_err("Remove event probe faild, the item is NULL");
                        list = g_list_next(list);
                        continue;
                }

                if (item->category & category) {
                        if (item->object && GST_IS_PAD(item->object)) {
                                _mmcam_dbg_log("Remove event probe on [%s:%s] - [ID : %lu], [Category : %x]",
                                        GST_DEBUG_PAD_NAME(item->object), item->handler_id,  item->category);
                                gst_pad_remove_probe(GST_PAD(item->object), item->handler_id);
                        } else {
                                _mmcam_dbg_warn("Remove event probe faild, the pad is null or not pad, just remove item from list and free it");
                        }

                        list = g_list_next(list);
                        hcamcorder->event_probes = g_list_remove(hcamcorder->event_probes, item);
                        SAFE_G_FREE(item);
                } else {
                        _mmcam_dbg_log("Skip item : [ID : %lu], [Category : %x] ", item->handler_id, item->category);
                        list = g_list_next(list);
                }
        }

        if (category == _MMCAMCORDER_HANDLER_CATEGORY_ALL) {
                g_list_free(hcamcorder->event_probes);
                hcamcorder->event_probes = NULL;
        }

        _mmcam_dbg_log("done");

        return;
}


void _mmcamcorder_disconnect_signal(MMHandleType handle, _MMCamcorderHandlerCategory category)
{
        mmf_camcorder_t* hcamcorder = MMF_CAMCORDER(handle);
        GList *list = NULL;
        MMCamcorderHandlerItem *item = NULL;

        mmf_return_if_fail(hcamcorder);

        if (!hcamcorder->signals) {
                _mmcam_dbg_warn("list for signal is NULL");
                return;
        }

        _mmcam_dbg_log("start - category : 0x%x", category);

        list = hcamcorder->signals;
        while (list) {
                item = list->data;
                if (!item) {
                        _mmcam_dbg_err("Fail to Disconnecting signal, the item is NULL");
                        list = g_list_next(list);
                        continue;
                }

                if (item->category & category) {
                        if (item->object && GST_IS_ELEMENT(item->object)) {
                                if (g_signal_handler_is_connected(item->object, item->handler_id)) {
                                        _mmcam_dbg_log("Disconnect signal from [%s] : [ID : %lu], [Category : %x]",
                                                GST_OBJECT_NAME(item->object), item->handler_id, item->category);
                                        g_signal_handler_disconnect(item->object, item->handler_id);
                                } else {
                                        _mmcam_dbg_warn("Signal was not connected, cannot disconnect it :  [%s]  [ID : %lu], [Category : %x]",
                                                GST_OBJECT_NAME(item->object), item->handler_id, item->category);
                                }
                        } else {
                                _mmcam_dbg_err("Fail to Disconnecting signal, the element is null or not element, just remove item from list and free it");
                        }

                        list = g_list_next(list);
                        hcamcorder->signals = g_list_remove(hcamcorder->signals, item);
                        SAFE_G_FREE(item);
                } else {
                        _mmcam_dbg_log("Skip item : [ID : %lu], [Category : %x] ", item->handler_id, item->category);
                        list = g_list_next(list);
                }
        }

        if (category == _MMCAMCORDER_HANDLER_CATEGORY_ALL) {
                g_list_free(hcamcorder->signals);
                hcamcorder->signals = NULL;
        }

        _mmcam_dbg_log("done");

        return;
}


void _mmcamcorder_remove_all_handlers(MMHandleType handle,  _MMCamcorderHandlerCategory category)
{
        mmf_camcorder_t* hcamcorder = MMF_CAMCORDER(handle);

        _mmcam_dbg_log("ENTER");

        if (hcamcorder->signals)
                _mmcamcorder_disconnect_signal((MMHandleType)hcamcorder, category);
        if (hcamcorder->event_probes)
                _mmcamcorder_remove_event_probe((MMHandleType)hcamcorder, category);
        if (hcamcorder->buffer_probes)
                _mmcamcorder_remove_buffer_probe((MMHandleType)hcamcorder, category);

        _mmcam_dbg_log("LEAVE");
}


void _mmcamcorder_element_release_noti(gpointer data, GObject *where_the_object_was)
{
        int i = 0;
        _MMCamcorderSubContext *sc = (_MMCamcorderSubContext *)data;

        mmf_return_if_fail(sc);
        mmf_return_if_fail(sc->element);

        for (i = 0 ; i < _MMCAMCORDER_PIPELINE_ELEMENT_NUM ; i++) {
                if (sc->element[i].gst && (G_OBJECT(sc->element[i].gst) == where_the_object_was)) {
                        _mmcam_dbg_warn("The element[%d][%p] is finalized", sc->element[i].id, sc->element[i].gst);
                        sc->element[i].gst = NULL;
                        sc->element[i].id = _MMCAMCORDER_NONE;
                        return;
                }
        }

        mmf_return_if_fail(sc->encode_element);

        for (i = 0 ; i < _MMCAMCORDER_ENCODE_PIPELINE_ELEMENT_NUM ; i++) {
                if (sc->encode_element[i].gst && (G_OBJECT(sc->encode_element[i].gst) == where_the_object_was)) {
                        _mmcam_dbg_warn("The encode element[%d][%p] is finalized", sc->encode_element[i].id, sc->encode_element[i].gst);
                        sc->encode_element[i].gst = NULL;
                        sc->encode_element[i].id = _MMCAMCORDER_ENCODE_NONE;
                        return;
                }
        }

        _mmcam_dbg_warn("there is no matching element %p", where_the_object_was);

        return;
}


#ifdef _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK
gboolean _mmcamcorder_msg_callback(void *data)
{
        _MMCamcorderMsgItem *item = (_MMCamcorderMsgItem*)data;
        mmf_camcorder_t *hcamcorder = NULL;
        mmf_return_val_if_fail(item, FALSE);

        g_mutex_lock(&item->lock);

        hcamcorder = MMF_CAMCORDER(item->handle);
        if (hcamcorder == NULL) {
                _mmcam_dbg_warn("msg id:0x%x, item:%p, handle is NULL", item->id, item);
                goto MSG_CALLBACK_DONE;
        }

        /*_mmcam_dbg_log("msg id:%x, msg_cb:%p, msg_data:%p, item:%p", item->id, hcamcorder->msg_cb, hcamcorder->msg_data, item);*/

        _MMCAMCORDER_LOCK(hcamcorder);

        /* remove item from msg data */
        if (hcamcorder->msg_data) {
                /*_mmcam_dbg_log("remove item %p", item);*/
                hcamcorder->msg_data = g_list_remove(hcamcorder->msg_data, item);
        } else {
                _mmcam_dbg_warn("msg_data is NULL but item[%p] will be removed", item);
        }

        _MMCAMCORDER_UNLOCK(hcamcorder);

        _MMCAMCORDER_LOCK_MESSAGE_CALLBACK(hcamcorder);

        if ((hcamcorder) && (hcamcorder->msg_cb))
                hcamcorder->msg_cb(item->id, (MMMessageParamType*)(&(item->param)), hcamcorder->msg_cb_param);

        _MMCAMCORDER_UNLOCK_MESSAGE_CALLBACK(hcamcorder);

        _MMCAMCORDER_SIGNAL(hcamcorder);

MSG_CALLBACK_DONE:
        /* release allocated memory */
        if (item->id == MM_MESSAGE_CAMCORDER_FACE_DETECT_INFO) {
                MMCamFaceDetectInfo *cam_fd_info = (MMCamFaceDetectInfo *)item->param.data;
                if (cam_fd_info) {
                        SAFE_G_FREE(cam_fd_info->face_info);
                        SAFE_G_FREE(cam_fd_info);

                        item->param.data = NULL;
                        item->param.size = 0;
                }
        } else if (item->id == MM_MESSAGE_CAMCORDER_VIDEO_CAPTURED || item->id == MM_MESSAGE_CAMCORDER_AUDIO_CAPTURED) {
                MMCamRecordingReport *report = (MMCamRecordingReport *)item->param.data;
                if (report) {
                        SAFE_G_FREE(report->recording_filename);
                        g_free(report);
                        report = NULL;
                        item->param.data = NULL;
                }
        }

        g_mutex_unlock(&item->lock);
        g_mutex_clear(&item->lock);

        SAFE_G_FREE(item);

        /* For not being called again */
        return FALSE;
}
#endif /* _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK */


gboolean _mmcamcorder_send_message(MMHandleType handle, _MMCamcorderMsgItem *data)
{
        mmf_camcorder_t* hcamcorder = MMF_CAMCORDER(handle);
#ifdef _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK
        _MMCamcorderMsgItem *item = NULL;
#endif /* _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK */

        mmf_return_val_if_fail(hcamcorder, FALSE);
        mmf_return_val_if_fail(data, FALSE);

        switch (data->id) {
        case MM_MESSAGE_CAMCORDER_STATE_CHANGED:
        case MM_MESSAGE_CAMCORDER_STATE_CHANGED_BY_RM:
                data->param.union_type = MM_MSG_UNION_STATE;
                break;
        case MM_MESSAGE_CAMCORDER_RECORDING_STATUS:
                data->param.union_type = MM_MSG_UNION_RECORDING_STATUS;
                break;
        case MM_MESSAGE_CAMCORDER_FIRMWARE_UPDATE:
                data->param.union_type = MM_MSG_UNION_FIRMWARE;
                break;
        case MM_MESSAGE_CAMCORDER_CURRENT_VOLUME:
                data->param.union_type = MM_MSG_UNION_REC_VOLUME_DB;
                break;
        case MM_MESSAGE_CAMCORDER_TIME_LIMIT:
        case MM_MESSAGE_CAMCORDER_MAX_SIZE:
        case MM_MESSAGE_CAMCORDER_NO_FREE_SPACE:
        case MM_MESSAGE_CAMCORDER_ERROR:
        case MM_MESSAGE_CAMCORDER_FOCUS_CHANGED:
        case MM_MESSAGE_CAMCORDER_CAPTURED:
        case MM_MESSAGE_CAMCORDER_VIDEO_CAPTURED:
        case MM_MESSAGE_CAMCORDER_AUDIO_CAPTURED:
        case MM_MESSAGE_READY_TO_RESUME:
        default:
                data->param.union_type = MM_MSG_UNION_CODE;
                break;
        }

#ifdef _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK
        item = g_malloc(sizeof(_MMCamcorderMsgItem));
        if (item) {
                memcpy(item, data, sizeof(_MMCamcorderMsgItem));
                item->handle = handle;
                g_mutex_init(&item->lock);

                _MMCAMCORDER_LOCK(handle);
                hcamcorder->msg_data = g_list_append(hcamcorder->msg_data, item);
                /*_mmcam_dbg_log("item[%p]", item);*/

                /* Use DEFAULT priority */
                g_idle_add_full(G_PRIORITY_DEFAULT, _mmcamcorder_msg_callback, item, NULL);

                _MMCAMCORDER_UNLOCK(handle);
        } else {
                _mmcam_dbg_err("item[id:0x%x] malloc failed : %d", data->id, sizeof(_MMCamcorderMsgItem));
        }
#else /* _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK */
        _MMCAMCORDER_LOCK_MESSAGE_CALLBACK(hcamcorder);

        if (hcamcorder->msg_cb)
                hcamcorder->msg_cb(data->id, (MMMessageParamType*)(&(data->param)), hcamcorder->msg_cb_param);
        else
                _mmcam_dbg_log("message callback is NULL. message id %d", data->id);

        _MMCAMCORDER_UNLOCK_MESSAGE_CALLBACK(hcamcorder);

        /* release allocated memory */
        if (data->id == MM_MESSAGE_CAMCORDER_FACE_DETECT_INFO) {
                MMCamFaceDetectInfo *cam_fd_info = (MMCamFaceDetectInfo *)data->param.data;
                if (cam_fd_info) {
                        SAFE_G_FREE(cam_fd_info->face_info);
                        data->param.data = NULL;
                        g_free(cam_fd_info);
                }
        } else if (data->id == MM_MESSAGE_CAMCORDER_VIDEO_CAPTURED || data->id == MM_MESSAGE_CAMCORDER_AUDIO_CAPTURED) {
                MMCamRecordingReport *report = (MMCamRecordingReport *)data->param.data;
                if (report) {
                        SAFE_G_FREE(report->recording_filename);
                        data->param.data = NULL;
                        g_free(report);
                }
        }
#endif /* _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK */

        return TRUE;
}


void _mmcamcorder_remove_message_all(MMHandleType handle)
{
        mmf_camcorder_t* hcamcorder = MMF_CAMCORDER(handle);
        gboolean ret = TRUE;
#ifdef _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK
        _MMCamcorderMsgItem *item = NULL;
        GList *list = NULL;
        gint64 end_time = 0;
#endif /* _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK */

        mmf_return_if_fail(hcamcorder);

        _MMCAMCORDER_LOCK(handle);

#ifdef _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK
        if (!hcamcorder->msg_data) {
                _mmcam_dbg_log("No message data is remained.");
        } else {
                list = hcamcorder->msg_data;

                while (list) {
                        item = list->data;
                        list = g_list_next(list);

                        if (!item) {
                                _mmcam_dbg_err("Fail to remove message. The item is NULL");
                        } else {
                                if (g_mutex_trylock(&(item->lock))) {
                                        ret = g_idle_remove_by_data(item);

                                        _mmcam_dbg_log("remove msg item[%p], ret[%d]", item, ret);

                                        if (ret == FALSE) {
                                                item->handle = 0;
                                                _mmcam_dbg_warn("failed to remove msg cb for item %p, it will be called later with NULL handle", item);
                                        }

                                        /* release allocated memory */
                                        if (item->id == MM_MESSAGE_CAMCORDER_FACE_DETECT_INFO) {
                                                MMCamFaceDetectInfo *cam_fd_info = (MMCamFaceDetectInfo *)item->param.data;
                                                if (cam_fd_info) {
                                                        SAFE_G_FREE(cam_fd_info->face_info);
                                                        item->param.size = 0;
                                                }
                                                SAFE_G_FREE(cam_fd_info);
                                        } else if (item->id == MM_MESSAGE_CAMCORDER_VIDEO_CAPTURED || item->id == MM_MESSAGE_CAMCORDER_AUDIO_CAPTURED) {
                                                MMCamRecordingReport *report = (MMCamRecordingReport *)item->param.data;
                                                if (report)
                                                        SAFE_G_FREE(report->recording_filename);

                                                SAFE_G_FREE(report);
                                        }

                                        hcamcorder->msg_data = g_list_remove(hcamcorder->msg_data, item);

                                        g_mutex_unlock(&(item->lock));

                                        if (ret == TRUE) {
                                                g_mutex_clear(&item->lock);

                                                SAFE_G_FREE(item);

                                                _mmcam_dbg_log("remove msg done");
                                        }
                                } else {
                                        _mmcam_dbg_warn("item lock failed. it's being called...");

                                        end_time = g_get_monotonic_time() + (100 * G_TIME_SPAN_MILLISECOND);

                                        if (_MMCAMCORDER_WAIT_UNTIL(handle, end_time))
                                                _mmcam_dbg_warn("signal received");
                                        else
                                                _mmcam_dbg_warn("timeout");
                                }
                        }
                }

                g_list_free(hcamcorder->msg_data);
                hcamcorder->msg_data = NULL;
        }
#endif /* _MMCAMCORDER_ENABLE_IDLE_MESSAGE_CALLBACK */

        /* remove idle function for playing capture sound */
        do {
                ret = g_idle_remove_by_data(hcamcorder);
                _mmcam_dbg_log("remove idle function for playing capture sound. ret[%d]", ret);
        } while (ret);

        _MMCAMCORDER_UNLOCK(handle);

        return;
}


int _mmcamcorder_get_pixel_format(GstCaps *caps)
{
        const GstStructure *structure;
        const char *media_type;
        GstVideoInfo media_info;
        MMPixelFormatType type = 0;
        unsigned int fourcc = 0;

        mmf_return_val_if_fail(caps != NULL, MM_PIXEL_FORMAT_INVALID);

        structure = gst_caps_get_structure(caps, 0);
        media_type = gst_structure_get_name(structure);
        if (media_type == NULL) {
                _mmcam_dbg_err("failed to get media_type");
                return MM_PIXEL_FORMAT_INVALID;
        }

        gst_video_info_init(&media_info);

        if (!strcmp(media_type, "image/jpeg")) {
                _mmcam_dbg_log("It is jpeg.");
                type = MM_PIXEL_FORMAT_ENCODED;
        } else if (!strcmp(media_type, "video/x-raw") &&
                   gst_video_info_from_caps(&media_info, caps) &&
                   GST_VIDEO_INFO_IS_YUV(&media_info)) {
                _mmcam_dbg_log("It is yuv.");
                fourcc = gst_video_format_to_fourcc(GST_VIDEO_INFO_FORMAT(&media_info));
                type = _mmcamcorder_get_pixtype(fourcc);
        } else if (!strcmp(media_type, "video/x-raw") &&
                   gst_video_info_from_caps(&media_info, caps) &&
                   GST_VIDEO_INFO_IS_RGB(&media_info)) {
                _mmcam_dbg_log("It is rgb.");
                type = MM_PIXEL_FORMAT_RGB888;
        } else if (!strcmp(media_type, "video/x-h264")) {
                _mmcam_dbg_log("It is H264");
                type = MM_PIXEL_FORMAT_ENCODED_H264;
        } else {
                _mmcam_dbg_err("Not supported format [%s]", media_type);
                type = MM_PIXEL_FORMAT_INVALID;
        }

        /*_mmcam_dbg_log( "Type [%d]", type );*/

        return type;
}

unsigned int _mmcamcorder_get_fourcc(int pixtype, int codectype, int use_zero_copy_format)
{
        unsigned int fourcc = 0;

        /*_mmcam_dbg_log("pixtype(%d)", pixtype);*/

        switch (pixtype) {
        case MM_PIXEL_FORMAT_NV12:
                if (use_zero_copy_format)
                        fourcc = GST_MAKE_FOURCC('S', 'N', '1', '2');
                else
                        fourcc = GST_MAKE_FOURCC('N', 'V', '1', '2');

                break;
        case MM_PIXEL_FORMAT_NV21:
                if (use_zero_copy_format)
                        fourcc = GST_MAKE_FOURCC('S', 'N', '2', '1');
                else
                        fourcc = GST_MAKE_FOURCC('N', 'V', '2', '1');

                break;
        case MM_PIXEL_FORMAT_YUYV:
                if (use_zero_copy_format)
                        fourcc = GST_MAKE_FOURCC('S', 'U', 'Y', 'V');
                else
                        fourcc = GST_MAKE_FOURCC('Y', 'U', 'Y', '2');

                break;
        case MM_PIXEL_FORMAT_UYVY:
                if (use_zero_copy_format)
                        fourcc = GST_MAKE_FOURCC('S', 'Y', 'V', 'Y');
                else
                        fourcc = GST_MAKE_FOURCC('U', 'Y', 'V', 'Y');

                break;
        case MM_PIXEL_FORMAT_I420:
                if (use_zero_copy_format)
                        fourcc = GST_MAKE_FOURCC('S', '4', '2', '0');
                else
                        fourcc = GST_MAKE_FOURCC('I', '4', '2', '0');

                break;
        case MM_PIXEL_FORMAT_YV12:
                fourcc = GST_MAKE_FOURCC('Y', 'V', '1', '2');
                break;
        case MM_PIXEL_FORMAT_422P:
                fourcc = GST_MAKE_FOURCC('4', '2', '2', 'P');
                break;
        case MM_PIXEL_FORMAT_RGB565:
                fourcc = GST_MAKE_FOURCC('R', 'G', 'B', 'P');
                break;
        case MM_PIXEL_FORMAT_RGB888:
                fourcc = GST_MAKE_FOURCC('R', 'G', 'B', ' ');
                break;
        case MM_PIXEL_FORMAT_ENCODED:
                if (codectype == MM_IMAGE_CODEC_JPEG) {
                        fourcc = GST_MAKE_FOURCC('J', 'P', 'E', 'G');
                } else if (codectype == MM_IMAGE_CODEC_JPEG_SRW) {
                        fourcc = GST_MAKE_FOURCC('J', 'P', 'E', 'G'); /*TODO: JPEG+SamsungRAW format */
                } else if (codectype == MM_IMAGE_CODEC_SRW) {
                        fourcc = GST_MAKE_FOURCC('J', 'P', 'E', 'G'); /*TODO: SamsungRAW format */
                } else if (codectype == MM_IMAGE_CODEC_PNG) {
                        fourcc = GST_MAKE_FOURCC('P', 'N', 'G', ' ');
                } else {
                        /* Please let us know what other fourcces are. ex) BMP, GIF?*/
                        fourcc = GST_MAKE_FOURCC('J', 'P', 'E', 'G');
                }
                break;
        case MM_PIXEL_FORMAT_ITLV_JPEG_UYVY:
                fourcc = GST_MAKE_FOURCC('I', 'T', 'L', 'V');
                break;
        case MM_PIXEL_FORMAT_ENCODED_H264:
                fourcc = GST_MAKE_FOURCC('H', '2', '6', '4');
                break;
        default:
                _mmcam_dbg_log("Not proper pixel type[%d]. Set default - I420", pixtype);
                if (use_zero_copy_format)
                        fourcc = GST_MAKE_FOURCC('S', '4', '2', '0');
                else
                        fourcc = GST_MAKE_FOURCC('I', '4', '2', '0');

                break;
        }

        return fourcc;
}


int _mmcamcorder_get_pixtype(unsigned int fourcc)
{
        int pixtype = MM_PIXEL_FORMAT_INVALID;
        /*
        char *pfourcc = (char*)&fourcc;

        _mmcam_dbg_log("fourcc(%c%c%c%c)",
                                   pfourcc[0], pfourcc[1], pfourcc[2], pfourcc[3]);
        */

        switch (fourcc) {
        case GST_MAKE_FOURCC('S', 'N', '1', '2'):
        case GST_MAKE_FOURCC('N', 'V', '1', '2'):
                pixtype = MM_PIXEL_FORMAT_NV12;
                break;
        case GST_MAKE_FOURCC('S', 'N', '2', '1'):
        case GST_MAKE_FOURCC('N', 'V', '2', '1'):
                pixtype = MM_PIXEL_FORMAT_NV21;
                break;
        case GST_MAKE_FOURCC('S', 'U', 'Y', 'V'):
        case GST_MAKE_FOURCC('Y', 'U', 'Y', 'V'):
        case GST_MAKE_FOURCC('Y', 'U', 'Y', '2'):
                pixtype = MM_PIXEL_FORMAT_YUYV;
                break;
        case GST_MAKE_FOURCC('S', 'Y', 'V', 'Y'):
        case GST_MAKE_FOURCC('U', 'Y', 'V', 'Y'):
                pixtype = MM_PIXEL_FORMAT_UYVY;
                break;
        case GST_MAKE_FOURCC('S', '4', '2', '0'):
        case GST_MAKE_FOURCC('I', '4', '2', '0'):
                pixtype = MM_PIXEL_FORMAT_I420;
                break;
        case GST_MAKE_FOURCC('Y', 'V', '1', '2'):
                pixtype = MM_PIXEL_FORMAT_YV12;
                break;
        case GST_MAKE_FOURCC('4', '2', '2', 'P'):
                pixtype = MM_PIXEL_FORMAT_422P;
                break;
        case GST_MAKE_FOURCC('R', 'G', 'B', 'P'):
                pixtype = MM_PIXEL_FORMAT_RGB565;
                break;
        case GST_MAKE_FOURCC('R', 'G', 'B', '3'):
                pixtype = MM_PIXEL_FORMAT_RGB888;
                break;
        case GST_MAKE_FOURCC('A', 'R', 'G', 'B'):
        case GST_MAKE_FOURCC('x', 'R', 'G', 'B'):
                pixtype = MM_PIXEL_FORMAT_ARGB;
                break;
        case GST_MAKE_FOURCC('B', 'G', 'R', 'A'):
        case GST_MAKE_FOURCC('B', 'G', 'R', 'x'):
        case GST_MAKE_FOURCC('S', 'R', '3', '2'):
                pixtype = MM_PIXEL_FORMAT_RGBA;
                break;
        case GST_MAKE_FOURCC('J', 'P', 'E', 'G'):
        case GST_MAKE_FOURCC('P', 'N', 'G', ' '):
                pixtype = MM_PIXEL_FORMAT_ENCODED;
                break;
        /*FIXME*/
        case GST_MAKE_FOURCC('I', 'T', 'L', 'V'):
                pixtype = MM_PIXEL_FORMAT_ITLV_JPEG_UYVY;
                break;
        case GST_MAKE_FOURCC('H', '2', '6', '4'):
                pixtype = MM_PIXEL_FORMAT_ENCODED_H264;
                break;
        default:
                _mmcam_dbg_log("Not supported fourcc type(%c%c%c%c)", fourcc, fourcc>>8, fourcc>>16, fourcc>>24);
                pixtype = MM_PIXEL_FORMAT_INVALID;
                break;
        }

        return pixtype;
}


gboolean _mmcamcorder_add_elements_to_bin(GstBin *bin, GList *element_list)
{
        GList *local_list = element_list;
        _MMCamcorderGstElement *element = NULL;

        mmf_return_val_if_fail(bin && local_list, FALSE);

        while (local_list) {
                element = (_MMCamcorderGstElement*)local_list->data;
                if (element && element->gst) {
                        if (!gst_bin_add(bin, GST_ELEMENT(element->gst))) {
                                _mmcam_dbg_err("Add element [%s] to bin [%s] FAILED",
                                        GST_ELEMENT_NAME(GST_ELEMENT(element->gst)),
                                        GST_ELEMENT_NAME(GST_ELEMENT(bin)));
                                return FALSE;
                        } else {
                                _mmcam_dbg_log("Add element [%s] to bin [%s] OK",
                                        GST_ELEMENT_NAME(GST_ELEMENT(element->gst)),
                                        GST_ELEMENT_NAME(GST_ELEMENT(bin)));
                        }
                }
                local_list = local_list->next;
        }

        return TRUE;
}

gboolean _mmcamcorder_link_elements(GList *element_list)
{
        GList                  *local_list  = element_list;
        _MMCamcorderGstElement *element     = NULL;
        _MMCamcorderGstElement *pre_element = NULL;

        mmf_return_val_if_fail(local_list, FALSE);

        pre_element = (_MMCamcorderGstElement*)local_list->data;
        local_list = local_list->next;

        while (local_list) {
                element = (_MMCamcorderGstElement*)local_list->data;
                if (pre_element && pre_element->gst && element && element->gst) {
                        if (_MM_GST_ELEMENT_LINK(GST_ELEMENT(pre_element->gst), GST_ELEMENT(element->gst))) {
                                _mmcam_dbg_log("Link [%s] to [%s] OK",
                                        GST_ELEMENT_NAME(GST_ELEMENT(pre_element->gst)),
                                        GST_ELEMENT_NAME(GST_ELEMENT(element->gst)));
                        } else {
                                _mmcam_dbg_err("Link [%s] to [%s] FAILED",
                                        GST_ELEMENT_NAME(GST_ELEMENT(pre_element->gst)),
                                        GST_ELEMENT_NAME(GST_ELEMENT(element->gst)));
                                return FALSE;
                        }
                }

                pre_element = element;
                local_list = local_list->next;
        }

        return TRUE;
}

gboolean _mmcamcorder_resize_frame(unsigned char *src_data, unsigned int src_width, unsigned int src_height, unsigned int src_length, int src_format,
        unsigned char **dst_data, unsigned int *dst_width, unsigned int *dst_height, size_t *dst_length)
{
        int ret = TRUE;
        int mm_ret = MM_ERROR_NONE;
        int input_format = MM_UTIL_COLOR_YUV420;

        if (!src_data || !dst_data || !dst_width || !dst_height || !dst_length) {
                _mmcam_dbg_err("something is NULL %p,%p,%p,%p,%p",
                        src_data, dst_data, dst_width, dst_height, dst_length);
                return FALSE;
        }

        /* set input format for mm-util */
        switch (src_format) {
        case MM_PIXEL_FORMAT_I420:
                input_format = MM_UTIL_COLOR_I420;
                break;
        case MM_PIXEL_FORMAT_YV12:
                input_format = MM_UTIL_COLOR_YUV420;
                break;
        case MM_PIXEL_FORMAT_NV12:
                input_format = MM_UTIL_COLOR_NV12;
                break;
        case MM_PIXEL_FORMAT_YUYV:
                input_format = MM_UTIL_COLOR_YUYV;
                break;
        case MM_PIXEL_FORMAT_UYVY:
                input_format = MM_UTIL_COLOR_UYVY;
                break;
        case MM_PIXEL_FORMAT_RGB888:
                input_format = MM_UTIL_COLOR_RGB24;
                break;
        default:
                _mmcam_dbg_err("NOT supported format [%d]", src_format);
                return FALSE;
        }

        _mmcam_dbg_log("src size %dx%d -> dst size %dx%d", src_width, src_height, *dst_width, *dst_height);

        mm_ret = mm_util_resize_image(src_data, src_width, src_height, input_format,
                *dst_width, *dst_height, dst_data, dst_width, dst_height, dst_length);

        if (mm_ret != MM_ERROR_NONE) {
                GST_ERROR("mm_util_resize_image failed 0x%x", ret);
                return FALSE;
        }

        _mmcam_dbg_log("resize done %dx%d -> %dx%d, %p, length %zu",
                src_width, src_height, *dst_width, *dst_height, *dst_data, *dst_length);

        return TRUE;
}


gboolean _mmcamcorder_encode_jpeg(void *src_data, unsigned int src_width, unsigned int src_height,
        int src_format, unsigned int src_length, unsigned int jpeg_quality,
        void **result_data, unsigned int *result_length)
{
        int ret = 0;
        gboolean ret_conv = TRUE;
        int jpeg_format = 0;
        unsigned char *converted_src = NULL;
        unsigned int converted_src_size = 0;

        mmf_return_val_if_fail(src_data && result_data && result_length, FALSE);

        switch (src_format) {
        case MM_PIXEL_FORMAT_NV12:
                //jpeg_format = MM_UTIL_COLOR_NV12;
                ret_conv = _mmcamcorder_convert_NV12_to_I420(src_data, src_width, src_height, &converted_src, &converted_src_size);
                jpeg_format = MM_UTIL_COLOR_YUV420;
                break;
        case MM_PIXEL_FORMAT_NV16:
                jpeg_format = MM_UTIL_COLOR_NV16;
                converted_src = src_data;
                break;
        case MM_PIXEL_FORMAT_NV21:
                jpeg_format = MM_UTIL_COLOR_NV21;
                converted_src = src_data;
                break;
        case MM_PIXEL_FORMAT_YUYV:
                //jpeg_format = MM_UTIL_COLOR_YUYV;
                ret_conv = _mmcamcorder_convert_YUYV_to_I420(src_data, src_width, src_height, &converted_src, &converted_src_size);
                jpeg_format = MM_UTIL_COLOR_YUV420;
                break;
        case MM_PIXEL_FORMAT_UYVY:
                //jpeg_format = MM_UTIL_COLOR_UYVY;
                ret_conv = _mmcamcorder_convert_UYVY_to_I420(src_data, src_width, src_height, &converted_src, &converted_src_size);
                jpeg_format = MM_UTIL_COLOR_YUV420;
                break;
        case MM_PIXEL_FORMAT_I420:
                jpeg_format = MM_UTIL_COLOR_YUV420;
                converted_src = src_data;
                break;
        case MM_PIXEL_FORMAT_RGB888:
                jpeg_format = MM_UTIL_COLOR_RGB24;
                converted_src = src_data;
                break;
        case MM_PIXEL_FORMAT_RGBA:
                jpeg_format = MM_UTIL_COLOR_RGBA;
                converted_src = src_data;
                break;
        case MM_PIXEL_FORMAT_ARGB:
                jpeg_format = MM_UTIL_COLOR_ARGB;
                converted_src = src_data;
                break;
        case MM_PIXEL_FORMAT_422P:
                jpeg_format = MM_UTIL_COLOR_YUV422;     // not supported
                return FALSE;
        case MM_PIXEL_FORMAT_NV12T:
        case MM_PIXEL_FORMAT_YV12:
        case MM_PIXEL_FORMAT_RGB565:
        case MM_PIXEL_FORMAT_ENCODED:
        case MM_PIXEL_FORMAT_ITLV_JPEG_UYVY:
        default:
                return FALSE;
        }

        if (ret_conv == FALSE) {
                if (converted_src &&
                    converted_src != src_data) {
                        free(converted_src);
                        converted_src = NULL;
                }
                _mmcam_dbg_err("color convert error source format[%d], jpeg format[%d]", src_format, jpeg_format);
                return FALSE;
        }

        ret = mm_util_jpeg_encode_to_memory(result_data, result_length,
                converted_src, src_width, src_height, jpeg_format, jpeg_quality);

        if (converted_src && (converted_src != src_data)) {
                free(converted_src);
                converted_src = NULL;
        }

        if (ret != MM_ERROR_NONE) {
                _mmcam_dbg_err("No encoder supports %d format, error code %x", src_format, ret);
                return FALSE;
        }

        return TRUE;
}


/* make UYVY smaller as multiple size. ex: 640x480 -> 320x240 or 160x120 ... */
gboolean _mmcamcorder_downscale_UYVYorYUYV(unsigned char *src, unsigned int src_width, unsigned int src_height,
        unsigned char **dst, unsigned int dst_width, unsigned int dst_height)
{
        unsigned int i = 0;
        int j = 0;
        int k = 0;
        int src_index = 0;
        int ratio_width = 0;
        int ratio_height = 0;
        int line_base = 0;
        int line_width = 0;
        int jump_width = 0;
        unsigned char *result = NULL;

        if (src == NULL || dst == NULL) {
                _mmcam_dbg_err("src[%p] or dst[%p] is NULL", src, dst);
                return FALSE;
        }

        result = (unsigned char *)malloc((dst_width * dst_height)<<1);
        if (!result) {
                _mmcam_dbg_err("failed to alloc dst data");
                return FALSE;
        }

        ratio_width = src_width / dst_width;
        ratio_height = src_height / dst_height;
        line_width = src_width << 1;
        jump_width = ratio_width << 1;

        _mmcam_dbg_warn("[src %dx%d] [dst %dx%d] [line width %d] [ratio width %d, height %d]",
                src_width, src_height, dst_width, dst_height, line_width, ratio_width, ratio_height);

        for (i = 0 ; i < src_height ; i += ratio_height) {
                line_base = i * line_width;
                for (j = 0 ; j < line_width ; j += jump_width) {
                        src_index = line_base + j;
                        result[k++] = src[src_index];
                        result[k++] = src[src_index+1];

                        j += jump_width;
                        src_index = line_base + j;
                        if (src_index % 4 == 0)
                                result[k++] = src[src_index+2];
                        else
                                result[k++] = src[src_index];

                        result[k++] = src[src_index+1];
                }
        }

        *dst = result;

        _mmcam_dbg_warn("converting done - result %p", result);

        return TRUE;
}


static guint16 get_language_code(const char *str)
{
        return (guint16)(((str[0]-0x60) & 0x1F) << 10) + (((str[1]-0x60) & 0x1F) << 5) + ((str[2]-0x60) & 0x1F);
}

static gchar * str_to_utf8(const gchar *str)
{
        return g_convert(str, -1, "UTF-8", "ASCII", NULL, NULL, NULL);
}

static inline gboolean write_tag(FILE *f, const gchar *tag)
{
        while (*tag)
                FPUTC_CHECK(*tag++, f);

        return TRUE;
}

static inline gboolean write_to_32(FILE *f, guint val)
{
        FPUTC_CHECK(val >> 24, f);
        FPUTC_CHECK(val >> 16, f);
        FPUTC_CHECK(val >> 8, f);
        FPUTC_CHECK(val, f);
        return TRUE;
}

static inline gboolean write_to_16(FILE *f, guint val)
{
        FPUTC_CHECK(val >> 8, f);
        FPUTC_CHECK(val, f);
        return TRUE;
}

static inline gboolean write_to_24(FILE *f, guint val)
{
        write_to_16(f, val >> 8);
        FPUTC_CHECK(val, f);
        return TRUE;
}

void *_mmcamcorder_util_task_thread_func(void *data)
{
        int ret = MM_ERROR_NONE;
        mmf_camcorder_t *hcamcorder = (mmf_camcorder_t *)data;

        if (!hcamcorder) {
                _mmcam_dbg_err("handle is NULL");
                return NULL;
        }

        _mmcam_dbg_warn("start thread");

        g_mutex_lock(&hcamcorder->task_thread_lock);

        while (hcamcorder->task_thread_state != _MMCAMCORDER_TASK_THREAD_STATE_EXIT) {
                switch (hcamcorder->task_thread_state) {
                case _MMCAMCORDER_TASK_THREAD_STATE_NONE:
                        _mmcam_dbg_warn("wait for task signal");
                        g_cond_wait(&hcamcorder->task_thread_cond, &hcamcorder->task_thread_lock);
                        _mmcam_dbg_warn("task signal received : state %d", hcamcorder->task_thread_state);
                        break;
                case _MMCAMCORDER_TASK_THREAD_STATE_SOUND_PLAY_START:
                        _mmcamcorder_sound_play((MMHandleType)hcamcorder, _MMCAMCORDER_SAMPLE_SOUND_NAME_CAPTURE02, FALSE);
                        hcamcorder->task_thread_state = _MMCAMCORDER_TASK_THREAD_STATE_NONE;
                        break;
                case _MMCAMCORDER_TASK_THREAD_STATE_SOUND_SOLO_PLAY_START:
                        _mmcamcorder_sound_solo_play((MMHandleType)hcamcorder, _MMCAMCORDER_SAMPLE_SOUND_NAME_CAPTURE01, FALSE);
                        hcamcorder->task_thread_state = _MMCAMCORDER_TASK_THREAD_STATE_NONE;
                        break;
                case _MMCAMCORDER_TASK_THREAD_STATE_ENCODE_PIPE_CREATE:
                        ret = _mmcamcorder_video_prepare_record((MMHandleType)hcamcorder);

                        /* Play record start sound */
                        _mmcamcorder_sound_solo_play((MMHandleType)hcamcorder, _MMCAMCORDER_SAMPLE_SOUND_NAME_REC_START, FALSE);

                        _mmcam_dbg_log("_mmcamcorder_video_prepare_record return 0x%x", ret);
                        hcamcorder->task_thread_state = _MMCAMCORDER_TASK_THREAD_STATE_NONE;
                        break;
                case _MMCAMCORDER_TASK_THREAD_STATE_CHECK_CAPTURE_IN_RECORDING:
                        {
                                gint64 end_time = 0;

                                _mmcam_dbg_warn("wait for capture data in recording. wait signal...");

                                end_time = g_get_monotonic_time() + (5 * G_TIME_SPAN_SECOND);

                                if (g_cond_wait_until(&hcamcorder->task_thread_cond, &hcamcorder->task_thread_lock, end_time)) {
                                        _mmcam_dbg_warn("signal received");
                                } else {
                                        _MMCamcorderMsgItem message;

                                        memset(&message, 0x0, sizeof(_MMCamcorderMsgItem));

                                        _mmcam_dbg_err("capture data wait time out, send error message");

                                        message.id = MM_MESSAGE_CAMCORDER_ERROR;
                                        message.param.code = MM_ERROR_CAMCORDER_RESPONSE_TIMEOUT;

                                        _mmcamcorder_send_message((MMHandleType)hcamcorder, &message);

                                        hcamcorder->capture_in_recording = FALSE;
                                }

                                hcamcorder->task_thread_state = _MMCAMCORDER_TASK_THREAD_STATE_NONE;
                        }
                        break;
                default:
                        _mmcam_dbg_warn("invalid task thread state %d", hcamcorder->task_thread_state);
                        hcamcorder->task_thread_state = _MMCAMCORDER_TASK_THREAD_STATE_EXIT;
                        break;
                }
        }

        g_mutex_unlock(&hcamcorder->task_thread_lock);

        _mmcam_dbg_warn("exit thread");

        return NULL;
}


static gboolean _mmcamcorder_convert_YUYV_to_I420(unsigned char *src, guint width, guint height, unsigned char **dst, unsigned int *dst_len)
{
        unsigned int i = 0;
        int j = 0;
        int src_offset = 0;
        int dst_y_offset = 0;
        int dst_u_offset = 0;
        int dst_v_offset = 0;
        int loop_length = 0;
        unsigned int dst_size = 0;
        unsigned char *dst_data = NULL;

        if (!src || !dst || !dst_len) {
                _mmcam_dbg_err("NULL pointer %p, %p, %p", src, dst, dst_len);
                return FALSE;
        }

        dst_size = (width * height * 3) >> 1;

        _mmcam_dbg_log("YUVY -> I420 : %dx%d, dst size %d", width, height, dst_size);

        dst_data = (unsigned char *)malloc(dst_size);
        if (!dst_data) {
                _mmcam_dbg_err("failed to alloc dst_data. size %d", dst_size);
                return FALSE;
        }

        loop_length = width << 1;
        dst_u_offset = width * height;
        dst_v_offset = dst_u_offset + (dst_u_offset >> 2);

        _mmcam_dbg_log("offset y %d, u %d, v %d", dst_y_offset, dst_u_offset, dst_v_offset);

        for (i = 0 ; i < height ; i++) {
                for (j = 0 ; j < loop_length ; j += 2) {
                        dst_data[dst_y_offset++] = src[src_offset++]; /*Y*/

                        if (i % 2 == 0) {
                                if (j % 4 == 0)
                                        dst_data[dst_u_offset++] = src[src_offset++]; /*U*/
                                else
                                        dst_data[dst_v_offset++] = src[src_offset++]; /*V*/
                        } else {
                                src_offset++;
                        }
                }
        }

        *dst = dst_data;
        *dst_len = dst_size;

        _mmcam_dbg_log("DONE: YUVY -> I420 : %dx%d, dst data %p, size %d", width, height, *dst, dst_size);

        return TRUE;
}


static gboolean _mmcamcorder_convert_UYVY_to_I420(unsigned char *src, guint width, guint height, unsigned char **dst, unsigned int *dst_len)
{
        unsigned int i = 0;
        int j = 0;
        int src_offset = 0;
        int dst_y_offset = 0;
        int dst_u_offset = 0;
        int dst_v_offset = 0;
        int loop_length = 0;
        unsigned int dst_size = 0;
        unsigned char *dst_data = NULL;

        if (!src || !dst || !dst_len) {
                _mmcam_dbg_err("NULL pointer %p, %p, %p", src, dst, dst_len);
                return FALSE;
        }

        dst_size = (width * height * 3) >> 1;

        _mmcam_dbg_log("UYVY -> I420 : %dx%d, dst size %d", width, height, dst_size);

        dst_data = (unsigned char *)malloc(dst_size);
        if (!dst_data) {
                _mmcam_dbg_err("failed to alloc dst_data. size %d", dst_size);
                return FALSE;
        }

        loop_length = width << 1;
        dst_u_offset = width * height;
        dst_v_offset = dst_u_offset + (dst_u_offset >> 2);

        _mmcam_dbg_log("offset y %d, u %d, v %d", dst_y_offset, dst_u_offset, dst_v_offset);

        for (i = 0 ; i < height ; i++) {
                for (j = 0 ; j < loop_length ; j += 2) {
                        if (i % 2 == 0) {
                                if (j % 4 == 0)
                                        dst_data[dst_u_offset++] = src[src_offset++]; /*U*/
                                else
                                        dst_data[dst_v_offset++] = src[src_offset++]; /*V*/
                        } else {
                                src_offset++;
                        }

                        dst_data[dst_y_offset++] = src[src_offset++]; /*Y*/
                }
        }

        *dst = dst_data;
        *dst_len = dst_size;

        _mmcam_dbg_log("DONE: UYVY -> I420 : %dx%d, dst data %p, size %d", width, height, *dst, dst_size);

        return TRUE;
}


static gboolean _mmcamcorder_convert_NV12_to_I420(unsigned char *src, guint width, guint height, unsigned char **dst, unsigned int *dst_len)
{
        int i = 0;
        int src_offset = 0;
        int dst_y_offset = 0;
        int dst_u_offset = 0;
        int dst_v_offset = 0;
        int loop_length = 0;
        unsigned int dst_size = 0;
        unsigned char *dst_data = NULL;

        if (!src || !dst || !dst_len) {
                _mmcam_dbg_err("NULL pointer %p, %p, %p", src, dst, dst_len);
                return FALSE;
        }

        /* buffer overflow prevention check */
        if (width > __MMCAMCORDER_MAX_WIDTH || height > __MMCAMCORDER_MAX_HEIGHT) {
                _mmcam_dbg_err("too large size %d x %d", width, height);
                return FALSE;
        }

        dst_size = (width * height * 3) >> 1;

        _mmcam_dbg_log("NV12 -> I420 : %dx%d, dst size %d", width, height, dst_size);

        dst_data = (unsigned char *)malloc(dst_size);
        if (!dst_data) {
                _mmcam_dbg_err("failed to alloc dst_data. size %d", dst_size);
                return FALSE;
        }

        loop_length = width << 1;
        dst_u_offset = width * height;
        dst_v_offset = dst_u_offset + (dst_u_offset >> 2);

        _mmcam_dbg_log("offset y %d, u %d, v %d", dst_y_offset, dst_u_offset, dst_v_offset);

        /* memcpy Y */
        memcpy(dst_data, src, dst_u_offset);

        loop_length = dst_u_offset >> 1;
        src_offset = dst_u_offset;

        /* set U and V */
        for (i = 0 ; i < loop_length ; i++) {
                if (i % 2 == 0)
                        dst_data[dst_u_offset++] = src[src_offset++];
                else
                        dst_data[dst_v_offset++] = src[src_offset++];
        }

        *dst = dst_data;
        *dst_len = dst_size;

        _mmcam_dbg_log("DONE: NV12 -> I420 : %dx%d, dst data %p, size %d", width, height, *dst, dst_size);

        return TRUE;
}


void _mmcamcorder_emit_dbus_signal(GDBusConnection *conn, const char *object_name,
        const char *interface_name, const char *signal_name, int value)
{
        if (!conn || !object_name || !interface_name || !signal_name) {
                _mmcam_dbg_err("NULL pointer %p %p %p %p",
                        conn, object_name, interface_name, signal_name);
                return;
        }

        if (!g_dbus_connection_emit_signal(conn, NULL,
                object_name, interface_name, signal_name,
                g_variant_new("(i)", value), NULL)) {
                _mmcam_dbg_warn("failed to emit signal");
        } else {
                _mmcam_dbg_log("emit signal done - value 0x%.8x", value);
                g_dbus_connection_flush(conn, NULL, NULL, NULL);
                _mmcam_dbg_log("signal flush done");
        }

        return;
}


int _mmcamcorder_get_audiosrc_blocksize(int samplerate, int format, int channel, int interval, int *blocksize)
{
        int depth = 8;

        if (!blocksize) {
                _mmcam_dbg_err("NULL ptr");
                return FALSE;
        }

        if (samplerate == 0 || channel == 0 || interval == 0) {
                _mmcam_dbg_err("invalid param %d %d %d", samplerate, channel, interval);
                return FALSE;
        }

        if (format == MM_CAMCORDER_AUDIO_FORMAT_PCM_S16_LE)
                depth = 16;

        *blocksize = samplerate * depth * channel * interval / 8000;

        return TRUE;
}