[platform/core/uifw/libtdm.git] / include / tdm_backend.h

/**************************************************************************
 *
 * libtdm
 *
 * Copyright 2015 Samsung Electronics co., Ltd. All Rights Reserved.
 *
 * Contact: Eunchul Kim <chulspro.kim@samsung.com>,
 *          JinYoung Jeon <jy0.jeon@samsung.com>,
 *          Taeheon Kim <th908.kim@samsung.com>,
 *          YoungJun Cho <yj44.cho@samsung.com>,
 *          SooChan Lim <sc1.lim@samsung.com>,
 *          Boram Park <boram1288.park@samsung.com>
 *
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**************************************************************************/

#ifndef _TDM_BACKEND_H_
#define _TDM_BACKEND_H_

#include <tbm_surface.h>
#include <tbm_surface_queue.h>

#include "tdm_types.h"

#ifdef __cplusplus
extern "C" {
#endif

/**
 * @file tdm_backend.h
 * @brief The backend header file of TDM to implement a TDM backend module.
 * @par Example
 * @code
 * #include <tdm_backend.h>
 * @endcode
 */

/**
 * @brief The backend module data
 * @details
 * The init() function of #tdm_backend_module returns the backend module data.
 * And it will be passed to display functions of #tdm_func_display.
 * @see tdm_backend_module, tdm_backend_module
 */
typedef void tdm_backend_data;

/**
 * @brief The output status handler
 * @details This handler will be called when the status of a output object is
 * changed in runtime.
 */
typedef void (*tdm_output_status_handler)(tdm_output *output,
                                                                                  tdm_output_conn_status status,
                                                                                  void *user_data);

/**
 * @brief The output dpms handler
 * @details This handler will be called when the dpms of a output object is
 * changed in runtime.
 */
typedef void (*tdm_output_dpms_handler)(tdm_output *output,
                                                                                tdm_output_dpms dpms,
                                                                                void *user_data);

/**
 * @brief The display capabilities structure of a backend module
 * @see The display_get_capability() function of #tdm_func_display
 */
typedef struct _tdm_caps_display {
        int max_layer_count;    /**< The maximum layer count */
} tdm_caps_display;

/**
 * @brief The capabilities structure of a output object
 * @see The output_get_capability() function of #tdm_func_output
 */
typedef struct _tdm_caps_output {
        char maker[TDM_NAME_LEN];       /**< The output maker */
        char model[TDM_NAME_LEN];       /**< The output model */
        char name[TDM_NAME_LEN];        /**< The output name */

        tdm_output_conn_status status;  /**< The connection status */
        tdm_output_type type;           /**< The connection type */
        unsigned int type_id;           /**< The connection type id */

        unsigned int mode_count;        /**< The count of available modes */
        tdm_output_mode *modes;         /**< The @b newly-allocated array of modes. will be freed in frontend. */

        unsigned int prop_count;        /**< The count of available properties */
        tdm_prop *props;                /**< The @b newly-allocated array of properties. will be freed in frontend. */

        unsigned int mmWidth;           /**< The physical width (milimeter) */
        unsigned int mmHeight;          /**< The physical height (milimeter) */
        unsigned int subpixel;          /**< The subpixel */

        int min_w;              /**< The minimun width */
        int min_h;              /**< The minimun height */
        int max_w;              /**< The maximum width */
        int max_h;              /**< The maximum height */
        int preferred_align;    /**< The prefered align */

        tdm_output_capability capabilities;  /**< The capabilities of output. @since 1.4.1 */

        int cursor_min_w;              /**< The minimun width.  @since 1.5.0 */
        int cursor_min_h;              /**< The minimun height. @since 1.5.0 */
        int cursor_max_w;              /**< The maximum width. @since 1.5.0 */
        int cursor_max_h;              /**< The maximum height. @since 1.5.0 */
        int cursor_preferred_align;    /**< The prefered align. @since 1.5.0 */
} tdm_caps_output;

/**
 * @brief The capabilities structure of a layer object
 * @see The layer_get_capability() function of #tdm_func_layer
 */
typedef struct _tdm_caps_layer {
        tdm_layer_capability capabilities;  /**< The capabilities of layer */

        /**
         * The z-order
         * GRAPHIC layers are non-changeable. The zpos of GRAPHIC layers starts
         * from 0. If there are 4 GRAPHIC layers, The zpos SHOULD be 0, 1, 2, 3.\n
         * But the zpos of VIDEO layer is changeable by layer_set_video_pos() function
         * of #tdm_func_layer. And The zpos of VIDEO layers is less than GRAPHIC
         * layers or more than GRAPHIC layers.
         * ie, ..., -2, -1, 4, 5, ... (if 0 <= GRAPHIC layer's zpos < 4).
         * The zpos of VIDEO layers is @b relative. It doesn't need to start
         * from -1 or 4. Let's suppose that there are two VIDEO layers.
         * One has -2 zpos. Another has -4 zpos. Then -2 Video layer is higher
         * than -4 VIDEO layer.
        */
        int zpos;

        unsigned int format_count;      /**< The count of available formats */
        tbm_format
        *formats;            /**< The @b newly-allocated array of formats. will be freed in frontend. */

        unsigned int prop_count;        /**< The count of available properties */
        tdm_prop *props;                /**< The @b newly-allocated array of properties. will be freed in frontend. */
} tdm_caps_layer;

/**
 * @brief The capabilities structure of a pp object
 * @see The display_get_pp_capability() function of #tdm_func_display
 */
typedef struct _tdm_caps_pp {
        tdm_pp_capability capabilities; /**< The capabilities of pp */

        unsigned int format_count;      /**< The count of available formats */
        tbm_format
        *formats;            /**< The @b newly-allocated array. will be freed in frontend. */

        int min_w;              /**< The minimun width */
        int min_h;              /**< The minimun height */
        int max_w;              /**< The maximum width */
        int max_h;              /**< The maximum height */
        int preferred_align;    /**< The prefered align */

        /**< The attach count which a PP object can handle. @since 1.2.0 */
        int max_attach_count;
} tdm_caps_pp;

/**
 * @brief The capabilities structure of a capture object
 * @see The display_get_capture_capability() function of #tdm_func_display
 */
typedef struct _tdm_caps_capture {
        tdm_capture_capability capabilities;    /**< The capabilities of capture */

        unsigned int format_count;      /**< The count of available formats */
        tbm_format
        *formats;            /**< The @b newly-allocated array of formats. will be freed in frontend. */

        int min_w;              /**< The minimun width */
        int min_h;              /**< The minimun height */
        int max_w;              /**< The maximum width */
        int max_h;              /**< The maximum height */
        int preferred_align;    /**< The prefered align */

        /**< The attach count which a capture object can handle. @since 1.2.0 */
        int max_attach_count;
} tdm_caps_capture;

/**
 * @brief The display functions for a backend module.
 */
typedef struct _tdm_func_display {
        /**
         * @brief Get the display capabilities of a backend module
         * @param[in] bdata The backend module data
         * @param[out] caps The display capabilities of a backend module
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @remark
         * A backend module @b SHOULD implement this function. TDM calls this function
         * not only at the initial time, but also at the update time when new output
         * is connected.\n
         * If a hardware has the restriction of the number of max usable layer count,
         * a backend module can set the max count to max_layer_count of #tdm_caps_display
         * structure.
         */
        tdm_error (*display_get_capability)(tdm_backend_data *bdata, tdm_caps_display *caps);

        /**
         * @brief Get the pp capabilities of a backend module
         * @param[in] bdata The backend module data
         * @param[out] caps The pp capabilities of a backend module
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see tdm_backend_register_func_pp
         * @remark
         * TDM calls this function not only at the initial time, but also at the update
         * time when new output is connected.\n
         * A backend module doesn't need to implement this function if a hardware
         * doesn't have the memory-to-memory converting device. Otherwise, a backend module
         * @b SHOULD fill the #tdm_caps_pp data. #tdm_caps_pp contains the hardware
         * restriction information which a converting device can handle. ie, format, size, etc.
         */
        tdm_error (*display_get_pp_capability)(tdm_backend_data *bdata, tdm_caps_pp *caps);

        /**
         * @brief Get the capture capabilities of a backend module
         * @param[in] bdata The backend module data
         * @param[out] caps The capture capabilities of a backend module
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see tdm_backend_register_func_capture
         * @remark
         * TDM calls this function not only at the initial time, but also at the update
         * time when new output is connected.\n
         * A backend module doesn't need to implement this function if a hardware
         * doesn't have the capture device. Otherwise, a backend module @b SHOULD fill the
         * #tdm_caps_capture data. #tdm_caps_capture contains the hardware restriction
         * information which a capture device can handle. ie, format, size, etc.
         */
        tdm_error (*display_get_capture_capability)(tdm_backend_data *bdata, tdm_caps_capture *caps);

        /**
         * @brief Get a output array of a backend module
         * @param[in] bdata The backend module data
         * @param[out] count The count of outputs
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A output array which is @b newly-allocated
         * @see tdm_backend_register_func_capture
         * @remark
         * A backend module @b SHOULD implement this function. TDM calls this function
         * not only at the initial time, but also at the update time when new output
         * is connected.\n
         * A backend module @b SHOULD return the @b newly-allocated array which contains
         * "tdm_output*" data. It will be freed in frontend.
         * @par Example
         * @code
         *  tdm_output**
         *  drm_display_get_outputs(tdm_backend_data *bdata, int *count, tdm_error *error)
         *  {
         *      tdm_drm_data *drm_data = bdata;
         *      tdm_drm_output_data *output_data = NULL;
         *      tdm_output **outputs;
         *      int i;
         *
         *      (*count) = 0;
         *      LIST_FOR_EACH_ENTRY(output_data, &drm_data->output_list, link)
         *          (*count)++;
         *
         *      if ((*count) == 0)
         *      {
         *          if (error) *error = TDM_ERROR_NONE;
         *          return NULL;
         *      }
         *
         *      // will be freed in frontend
         *      outputs = calloc(*count, sizeof(tdm_drm_output_data*));
         *      if (!outputs)
         *      {
         *          (*count) = 0;
         *          if (error) *error = TDM_ERROR_OUT_OF_MEMORY;
         *          return NULL;
         *      }
         *
         *      i = 0;
         *      LIST_FOR_EACH_ENTRY(output_data, &drm_data->output_list, link)
         *          outputs[i++] = output_data;
         *
         *      if (error) *error = TDM_ERROR_NONE;
         *
         *      return outputs;
         *  }
         * @endcode
         */
        tdm_output **(*display_get_outputs)(tdm_backend_data *bdata, int *count,
                                                                                tdm_error *error);

        /**
         * @brief Get the file descriptor of a backend module
         * @param[in] bdata The backend module data
         * @param[out] fd The fd of a backend module
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see display_handle_events() function of #tdm_func_display
         * @remark
         * A backend module can return epoll's fd which is watching the backend device one more fds.
         */
        tdm_error (*display_get_fd)(tdm_backend_data *bdata, int *fd);

        /**
         * @brief Handle the events which happens on the fd of a backend module
         * @param[in] bdata The backend module data
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*display_handle_events)(tdm_backend_data *bdata);

        /**
         * @brief Create a pp object of a backend module
         * @param[in] bdata The backend module data
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A pp object
         * @see pp_destroy() function of #tdm_func_pp
         * @remark
         * A backend module doesn't need to implement this function if a hardware
         * doesn't have the memory-to-memory converting device.
         */
        tdm_pp *(*display_create_pp)(tdm_backend_data *bdata, tdm_error *error);

        /* virtual */
        tdm_output *(*display_output_create)(tdm_backend_data *bdata, const char *name, tdm_error *error);
        tdm_error (*display_output_destroy)(tdm_backend_data *bdata, tdm_output *output);

        void (*reserved3)(void);
        void (*reserved4)(void);
        void (*reserved5)(void);
        void (*reserved6)(void);
        void (*reserved7)(void);
        void (*reserved8)(void);
} tdm_func_display;

/**
 * @brief The output functions for a backend module.
 */
typedef struct _tdm_func_output {
        /**
         * @brief Get the capabilities of a output object
         * @param[in] output A output object
         * @param[out] caps The capabilities of a output object
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @remark
         * A backend module @b SHOULD implement this function. TDM calls this function
         * not only at the initial time, but also at the update time when new output
         * is connected.\n
         * #tdm_caps_output contains connection status, modes, avaiable properties,
         * size restriction information, etc.
         */
        tdm_error (*output_get_capability)(tdm_output *output, tdm_caps_output *caps);

        /**
         * @brief Get a layer array of a output object
         * @param[in] output A output object
         * @param[out] count The count of layers
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A layer array which is @b newly-allocated
         * @remark
         * A backend module @b SHOULD implement this function. TDM calls this function
         * not only at the initial time, but also at the update time when new output
         * is connected.\n
         * A backend module @b SHOULD return the @b newly-allocated array which contains
         * "tdm_layer*" data. It will be freed in frontend.
         */
        tdm_layer **(*output_get_layers)(tdm_output *output, int *count,
                                                                         tdm_error *error);

        /**
         * @brief Set the property which has a given id
         * @param[in] output A output object
         * @param[in] id The property id
         * @param[in] value The value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*output_set_property)(tdm_output *output, unsigned int id,
                                                                         tdm_value value);

        /**
         * @brief Get the property which has a given id
         * @param[in] output A output object
         * @param[in] id The property id
         * @param[out] value The value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*output_get_property)(tdm_output *output, unsigned int id,
                                                                         tdm_value *value);

        /**
         * @brief Wait for VBLANK
         * @param[in] output A output object
         * @param[in] interval vblank interval
         * @param[in] sync 0: asynchronous, 1:synchronous
         * @param[in] user_data The user data
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see output_set_vblank_handler, tdm_output_vblank_handler
         * @remark
         * If this function returns TDM_ERROR_NONE, a backend module @b SHOULD call
         * a user vblank handler with the user data of this function after interval
         * vblanks.
         */
        tdm_error (*output_wait_vblank)(tdm_output *output, int interval, int sync,
                                                                        void *user_data);

        /**
         * @brief Set a user vblank handler
         * @param[in] output A output object
         * @param[in] func A user vblank handler
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*output_set_vblank_handler)(tdm_output *output,
                                                                                   tdm_output_vblank_handler func);

        /**
         * @brief Commit changes for a output object
         * @param[in] output A output object
         * @param[in] sync 0: asynchronous, 1:synchronous
         * @param[in] user_data The user data
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see output_set_commit_handler, tdm_output_commit_handler
         * @remark
         * When this function is called, a backend module @b SHOULD apply the all
         * changes of the given output object to screen as well as the layer changes
         * of this output.
         * If this function returns TDM_ERROR_NONE, a backend module @b SHOULD call
         * a user commit handler with the user data of this function after all
         * changes of the given output object are applied.
         */
        tdm_error (*output_commit)(tdm_output *output, int sync, void *user_data);

        /**
         * @brief Set a user commit handler
         * @param[in] output A output object
         * @param[in] func A user commit handler
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*output_set_commit_handler)(tdm_output *output,
                                                                                   tdm_output_commit_handler func);

        /**
         * @brief Set DPMS of a output object synchronously
         * @param[in] output A output object
         * @param[in] dpms_value DPMS value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*output_set_dpms)(tdm_output *output, tdm_output_dpms dpms_value);

        /**
         * @brief Get DPMS of a output object
         * @param[in] output A output object
         * @param[out] dpms_value DPMS value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*output_get_dpms)(tdm_output *output, tdm_output_dpms *dpms_value);

        /**
         * @brief Set one of available modes of a output object
         * @param[in] output A output object
         * @param[in] mode A output mode
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*output_set_mode)(tdm_output *output, const tdm_output_mode *mode);

        /**
         * @brief Get the mode of a output object
         * @param[in] output A output object
         * @param[out] mode A output mode
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*output_get_mode)(tdm_output *output, const tdm_output_mode **mode);

        /**
         * @brief Create a capture object of a output object
         * @param[in] output A output object
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A capture object
         * @see capture_destroy() function of #tdm_func_capture
         * @remark
         * A backend module doesn't need to implement this function if a hardware
         * doesn't have the capture device.
         */
        tdm_capture *(*output_create_capture)(tdm_output *output, tdm_error *error);

        /**
         * @brief Set a output connection status handler
         * @details A backend module need to call the output status handler when the
         * output connection status has been changed to let the TDM frontend know
         * the change.
         * @param[in] output A output object
         * @param[in] func A output status handler
         * @param[in] user_data The user data
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @since 1.1.0
         */
        tdm_error (*output_set_status_handler)(tdm_output *output,
                                                                                   tdm_output_status_handler func,
                                                                                   void *user_data);

        /**
         * @brief Set a output dpms handler
         * @details This function can be NULL if an output doesn't support asynchronous
         * DPMS control. Otherwise, a backend module needs to call the output dpms handler
         * to let the TDM frontend know the output DPMS change indeed.
         * @param[in] output A output object
         * @param[in] func A output dpms handler
         * @param[in] user_data The user data
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see #output_set_dpms_async, #TDM_OUTPUT_CAPABILITY_ASYNC_DPMS
         * @since 1.4.0
         */
        tdm_error (*output_set_dpms_handler)(tdm_output *output,
                                                                                 tdm_output_dpms_handler func,
                                                                                 void *user_data);

        /**
         * @brief Set DPMS of a output object asynchronously
         * @param[in] output A output object
         * @details This function can be NULL if an output doesn't support asynchronous
         * DPMS control. Otherwise, an output should have #TDM_OUTPUT_CAPABILITY_ASYNC_DPMS
         * flags which #output_get_capability returns. And if a output dpms handler is added with
         * #output_set_dpms_handler, a backend module needs to call the output dpms handler
         * to let the TDM frontend know the output DPMS change indeed.
         * @param[in] dpms_value DPMS value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see #output_set_dpms_handler, #TDM_OUTPUT_CAPABILITY_ASYNC_DPMS
         * @since 1.7.0
         */
        tdm_error (*output_set_dpms_async)(tdm_output *output, tdm_output_dpms dpms_value);

        /**
         * @brief Get a hwc object of a output object
         * @param[in] output A output object
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A hwc object
         */
        tdm_hwc *(*output_get_hwc)(tdm_output *output, tdm_error *error);

        /* virtual */
        tdm_error (*output_set_available_mode)(tdm_output *output, const tdm_output_mode *modes, int count);
        tdm_error (*output_set_physical_size)(tdm_output *output, unsigned int mmwidth, unsigned int mmheight);
        tdm_error (*output_set_connect)(tdm_output *output);
        tdm_error (*output_set_disconnect)(tdm_output *output);

        void (*reserved5)(void);
        void (*reserved6)(void);
        void (*reserved7)(void);
        void (*reserved8)(void);
} tdm_func_output;

/**
 * @brief The layer functions for a backend module.
 */
typedef struct _tdm_func_layer {
        /**
         * @brief Get the capabilities of a layer object
         * @param[in] layer A layer object
         * @param[out] caps The capabilities of a layer object
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @remark
         * A backend module @b SHOULD implement this function. TDM calls this function
         * not only at the initial time, but also at the update time when new output
         * is connected.\n
         * #tdm_caps_layer contains avaiable formats/properties, zpos information, etc.
         */
        tdm_error (*layer_get_capability)(tdm_layer *layer, tdm_caps_layer *caps);

        /**
         * @brief Set the property which has a given id.
         * @param[in] layer A layer object
         * @param[in] id The property id
         * @param[in] value The value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*layer_set_property)(tdm_layer *layer, unsigned int id,
                                                                        tdm_value value);

        /**
         * @brief Get the property which has a given id.
         * @param[in] layer A layer object
         * @param[in] id The property id
         * @param[out] value The value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*layer_get_property)(tdm_layer *layer, unsigned int id,
                                                                        tdm_value *value);

        /**
         * @brief Set the geometry information to a layer object
         * @param[in] layer A layer object
         * @param[in] info The geometry information
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see output_commit() function of #tdm_func_output
         * @remark
         * A backend module would apply the geometry information when the output object
         * of a layer object is committed.
         */
        tdm_error (*layer_set_info)(tdm_layer *layer, tdm_info_layer *info);

        /**
         * @brief Get the geometry information to a layer object
         * @param[in] layer A layer object
         * @param[out] info The geometry information
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*layer_get_info)(tdm_layer *layer, tdm_info_layer *info);

        /**
         * @brief Set a TDM buffer to a layer object
         * @param[in] layer A layer object
         * @param[in] buffer A TDM buffer
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see output_commit() function of #tdm_func_output
         * @remark
         * A backend module would show a TDM buffer on screen when the output object
         * of a layer object is committed.
         */
        tdm_error (*layer_set_buffer)(tdm_layer *layer, tbm_surface_h buffer);

        /**
         * @brief Unset a TDM buffer from a layer object
         * @param[in] layer A layer object
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @remark
         * A backend module @b SHOULD remove the current showing buffer from screen.
         */
        tdm_error (*layer_unset_buffer)(tdm_layer *layer);

        /**
         * @brief Set the zpos for a VIDEO layer object
         * @param[in] layer A layer object
         * @param[in] zpos z-order
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see tdm_caps_layer, tdm_layer_capability
         * @remark
         * A backend module doesn't need to implement this function if a backend
         * module doesn't have VIDEO layers.\n
         * This function is for VIDEO layers.
         * GRAPHIC layers are non-changeable. The zpos of GRAPHIC layers starts
         * from 0. If there are 4 GRAPHIC layers, The zpos SHOULD be 0, 1, 2, 3.\n
         * But the zpos of VIDEO layer is changeable. And The zpos of VIDEO layers
         * is less than GRAPHIC layers or more than GRAPHIC layers.
         * ie, ..., -2, -1, 4, 5, ... (if 0 <= GRAPHIC layer's zpos < 4).
         * The zpos of VIDEO layers is @b relative. It doesn't need to start
         * from -1 or 4. Let's suppose that there are two VIDEO layers.
         * One has -2 zpos. Another has -4 zpos. Then -2 Video layer is higher
         * than -4 VIDEO layer.
         */
        tdm_error (*layer_set_video_pos)(tdm_layer *layer, int zpos);

        /**
         * @brief Create a capture object of a layer object
         * @param[in] output A output object
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A capture object
         * @see capture_destroy() function of #tdm_func_capture
         * @remark
         * A backend module doesn't need to implement this function if a hardware
         * doesn't have the capture device.
         */
        tdm_capture *(*layer_create_capture)(tdm_layer *layer, tdm_error *error);

        /**
         * @brief Get buffer flags which the layer can support.
         * @param[in] layer A layer object
         * @param[out] flags The buffer flags which should be the tbm_bo flags
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*layer_get_buffer_flags)(tdm_layer *layer, unsigned int *flags);

        void (*reserved1)(void);
        void (*reserved2)(void);
        void (*reserved3)(void);
        void (*reserved4)(void);
        void (*reserved5)(void);
        void (*reserved6)(void);
        void (*reserved7)(void);
} tdm_func_layer;

typedef struct _tdm_func_hwc {
        /**
         * @brief Create a new window on the given hwc.
         * @param[in] hwc A hwc object
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A created window object
         * @since 2.0.0
         */
        tdm_hwc_window *(*hwc_create_window)(tdm_hwc *hwc, tdm_error *error);

        /**
         * @brief Get the supported format array for the hwc windows of a hwc object.
         * @param[in] hwc A hwc object
         * @param[out] formats The available format array
         * @param[out] count The count of formats
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_get_supported_formats)(tdm_hwc *hwc, const tbm_format **formats,
                                                                                int *count);


        /**
         * @brief Get the available property array  of a hwc object.
         * @param[in] hwc A hwc object
         * @param[out] props The available property array
         * @param[out] count The count of properties
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_get_available_properties)(tdm_hwc *hwc, const tdm_prop **props,
                                                                                int *count);

        /**
         * @brief Get a target buffer queue
         * @param[in] hwc A hwc object
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A buffer queue
         * @since 2.0.0
         */
        tbm_surface_queue_h (*hwc_get_client_target_buffer_queue)(tdm_hwc *hwc,
                                                                                                                tdm_error *error);

        /**
         * @brief Set the client(relative to the TDM) target buffer
         * @details Sets the buffer which will receive the hwc of client composition.
         * Window marked as TDM_COMPOSITION_CLIENT or TDM_COMPOSITION_DEVICE_CANDIDATE
         * will be composited into this buffer prior to the call to hwc_commit(),
         * and windows not marked as TDM_COMPOSITION_CLIENT and
         * TDM_COMPOSITION_DEVICE_CANDIDATE should be composited with this buffer by the
         * device.
         *
         * The buffer handle provided may be null if no windows are being composited by
         * the client. This must not result in an error (unless an invalid display
         * handle is also provided).
         *
         * The damage parameter describes a buffer damage region as defined in the
         * description of hwc_window_set_buffer_damage().
         *
         * Will be called before hwc_commit() if any of the layers are marked as
         * TDM_COMPOSITION_CLIENT or TDM_COMPOSITION_DEVICE_CANDIDATE. If no layers are
         * so marked, then it is not necessary to call this function. It is not necessary
         * to call hwc_validate() after changing the target through this function.
         * @param[in] hwc A hwc object
         * @param[in] target The new target buffer
         * @param[in] damage The buffer damage region
         * @param[in] composited_wnds The array of composited hwc_wnds
         * @param[in] num_wnds The size of #composited_wnds array
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @since 2.0.0
         */
        tdm_error (*hwc_set_client_target_buffer)(tdm_hwc *hwc,
                                                                                          tbm_surface_h target_buffer,
                                                                                          tdm_region damage);

        /**
         * @brief Validate the hwc
         * @details Instructs the device to inspect all of the layer state and
         * determine if there are any composition type changes necessary before
         * presenting the hwc. Permitted changes are described in the definition
         * of tdm_composition_t above.
         * @param[in] hwc A hwc object
         * @param[out] num_types The number of composition type changes required by
         * the device; if greater than 0, the client must either set and validate new
         * types, or call hwc_accept_changes() to accept the changes returned by
         * hwc_get_changed_composition_types(); must be the same as the number of
         * changes returned by hwc_get_changed_composition_types (see the
         * declaration of that function for more information); pointer will be non-NULL
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @since 2.0.0
         */
        tdm_error (*hwc_validate)(tdm_hwc *hwc, tdm_hwc_window **composited_wnds,
                                                          uint32_t num_wnds, uint32_t *num_types);

        /**
         * @brief Get changed composition types
         * @details Retrieves the windows for which the device requires a different
         * composition type than had been set prior to the last call to hwc_validate().
         * The client will either update its state with these types and call
         * hwc_accept_changes, or will set new types and attempt to validate the
         * display again.
         * layers and types may be NULL to retrieve the number of elements which
         * will be returned. The number of elements returned must be the same as the
         * value returned in num_types from the last call to hwc_validate().
         * @param[in] hwc A hwc object
         * @param[out] num_elements If windows or types were NULL, the number of layers
         * and types which would have been returned; if both were non-NULL, the
         * number of elements returned in layers and types, which must not exceed
         * the value stored in num_elements prior to the call; pointer will be
         * non-NULL
         * @param[out] windows An array of windows
         * @param[out] composition_types An array of composition types, each
         * corresponding to an element of windows
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @since 2.0.0
         */
        tdm_error (*hwc_get_changed_composition_types)(tdm_hwc *hwc, uint32_t *num_elements,
                                                                                                   tdm_hwc_window **hwc_window,
                                                                                                   tdm_hwc_window_composition *composition_types);
        /**
         * @brief Accepts the changes required by the device
         * @details Accepts the changes required by the device from the previous
         * hwc_validate() call (which may be queried using
         * hwc_get_chaged_composition_types()) and revalidates the display. This
         * function is equivalent to requesting the changed types from
         * hwc_get_chaged_composition_types(), setting those types on the
         * corresponding windows, and then calling hwc_validate again.
         * After this call it must be valid to present this display. Calling this after
         * hwc_validate() returns 0 changes must succeed with TDM_ERROR_NONE, but
         * should have no other effect.
         * @param[in] hwc A hwc object
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @since 2.0.0
         */
        tdm_error (*hwc_accept_changes)(tdm_hwc *hwc);

        /**
         * @brief Commit changes for a output object
         * @param[in] hwc A hwc object
         * @param[in] sync 0: asynchronous, 1:synchronous
         * @param[in] user_data The user data
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see hwc_set_commit_handler, tdm_hwc_commit_handler
         * @remark
         * When this function is called, a backend module @b SHOULD apply the all
         * changes of the given output object to screen as well as the layer changes
         * of this output.
         * If this function returns TDM_ERROR_NONE, a backend module @b SHOULD call
         * a user commit handler with the user data of this function after all
         * changes of the given output object are applied.
         */
        tdm_error (*hwc_commit)(tdm_hwc *hwc, int sync, void *user_data);

        /**
         * @brief Set a user commit handler
         * @param[in] hwc A hwc object
         * @param[in] func A user commit handler
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_set_commit_handler)(tdm_output *hwc, tdm_hwc_commit_handler func);
} tdm_func_hwc;

/**
 * @brief The window functions for a backend module.
 * @since 2.0.0
 */
typedef struct _tdm_func_hwc_window {
        /**
         * @brief Destroys the given window.
         * @param[in] window the pointer of the window to destroy
         * @since 2.0.0
         */
        void (*hwc_window_destroy)(tdm_hwc_window *hwc_window);

        /**
         * @brief Get a buffer queue for the window object
         * @param[in] hwc_window A window object
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return A buffer queue
         */
        tbm_surface_queue_h (*hwc_window_get_buffer_queue)(tdm_hwc_window *hwc_window,
                                                                                                           tdm_error *error);

        /**
         * @brief Sets the desired composition type of the given window.
         * @details During hwc_validate(), the device may request changes to
         * the composition types of any of the layers as described in the definition
         * of tdm_hwc_window_composition_t above.
         * @param[in] hwc_window A window object
         * @param[in] composition_type The new composition type
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_window_set_composition_type)(tdm_hwc_window *hwc_window,
                                                                                                 tdm_hwc_window_composition composition_type);

        /**
         * @brief Set the buffer damage
         * @details Provides the region of the source buffer which has been modified
         * since the last frame. This region does not need to be validated before
         * calling hwc_commit().
         * Once set through this function, the damage region remains the same until a
         * subsequent call to this function.
         * If damage.num_rects > 0, then it may be assumed that any portion of the source
         * buffer not covered by one of the rects has not been modified this frame. If
         * damage.num_rects == 0, then the whole source buffer must be treated as if it
         * has been modified.
         * If the layer's contents are not modified relative to the prior frame, damage
         * will contain exactly one empty rect([0, 0, 0, 0]).
         * The damage rects are relative to the pre-transformed buffer, and their origin
         * is the top-left corner. They will not exceed the dimensions of the latched
         * buffer.
         * @param[in] hwc_window A window object
         * @param[in] damage The new buffer damage region
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_window_set_buffer_damage)(tdm_hwc_window *hwc_window,
                                                                                          tdm_region damage);

        /**
         * @brief Set the information to a window object
         * @details The information will be applied when the hwc object
         * of a layer object is committed.
         * @param[in] hwc_window A window object
         * @param[in] info The geometry information
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_window_set_info)(tdm_hwc_window *hwc_window,
                                                                         tdm_hwc_window_info *info);

        /**
         * @brief Get the geometry information to a layer object
         * @param[in] layer A layer object
         * @param[out] info The geometry information
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_window_get_info)(tdm_hwc_window *hwc_window,
                                                                         tdm_hwc_window_info *info);

        /**
         * @brief Set a TDM buffer to a window object
         * @details A TDM buffer will be applied when the hwc object
         * of a layer object is committed.
         * @param[in] hwc_window A window object
         * @param[in] buffer A TDM buffer
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         *
         * Implementation should return #TDM_ERROR_BUSY if #hwc_window can't
         * be updated right now, this won't be interpreted like some critical
         * error.
         */
        tdm_error (*hwc_window_set_buffer)(tdm_hwc_window *hwc_window,
                                                                           tbm_surface_h buffer);

        /**
         * @brief Set the property which has a given id.
         * @param[in] hwc window  A hwc window object
         * @param[in] id The property id
         * @param[in] value The value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_window_set_property)(tdm_hwc_window *hwc_window,
                                                                                 uint32_t id, tdm_value value);

        /**
         * @brief Get the property which has a given id.
         * @param[in] hwc window A hwc window object
         * @param[in] id The property id
         * @param[out] value The value
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*hwc_window_get_property)(tdm_hwc_window *hwc_window,
                                                                                 uint32_t id, tdm_value *value);
} tdm_func_hwc_window;

/**
 * @brief The pp functions for a backend module.
 */
typedef struct _tdm_func_pp {
        /**
         * @brief Destroy a pp object
         * @param[in] pp A pp object
         * @see display_create_pp() function of #tdm_func_display
         */
        void (*pp_destroy)(tdm_pp *pp);

        /**
         * @brief Set the geometry information to a pp object
         * @param[in] pp A pp object
         * @param[in] info The geometry information
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see pp_commit() function of #tdm_func_pp
         * @remark
         * A backend module would apply the geometry information when committed.
         */
        tdm_error (*pp_set_info)(tdm_pp *pp, tdm_info_pp *info);

        /**
         * @brief Attach a source buffer and a destination buffer to a pp object
         * @param[in] pp A pp object
         * @param[in] src A source buffer
         * @param[in] dst A destination buffer
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see pp_set_info() function of #tdm_func_pp
         * @see pp_commit() function of #tdm_func_pp
         * @see pp_set_done_handler, tdm_pp_done_handler
         * @remark
         * A backend module converts the image of a source buffer to a destination
         * buffer when committed. The size/crop/transform information is set via
         * #pp_set_info() of #tdm_func_pp. When done, a backend module @b SHOULD
         * return the source/destination buffer via tdm_pp_done_handler.
         */
        tdm_error (*pp_attach)(tdm_pp *pp, tbm_surface_h src, tbm_surface_h dst);

        /**
         * @brief Commit changes for a pp object
         * @param[in] pp A pp object
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*pp_commit)(tdm_pp *pp);

        /**
         * @brief Set a user done handler to a pp object
         * @param[in] pp A pp object
         * @param[in] func A user done handler
         * @param[in] user_data user data
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @remark
         * A backend module @b SHOULD call #tdm_pp_done_handler when converintg a image is done.
         */
        tdm_error (*pp_set_done_handler)(tdm_pp *pp, tdm_pp_done_handler func,
                                                                         void *user_data);

        void (*reserved1)(void);
        void (*reserved2)(void);
        void (*reserved3)(void);
        void (*reserved4)(void);
        void (*reserved5)(void);
        void (*reserved6)(void);
        void (*reserved7)(void);
        void (*reserved8)(void);
} tdm_func_pp;

/**
 * @brief The capture functions for a backend module.
 */
typedef struct _tdm_func_capture {
        /**
         * @brief Destroy a capture object
         * @param[in] capture A capture object
         * @see output_create_capture() function of #tdm_func_output
         * @see layer_create_capture() function of #tdm_func_layer
         */
        void (*capture_destroy)(tdm_capture *capture);

        /**
         * @brief Set the geometry information to a capture object
         * @param[in] capture A capture object
         * @param[in] info The geometry information
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see capture_commit() function of #tdm_func_capture
         * @remark
         * A backend module would apply the geometry information when committed.
         */
        tdm_error (*capture_set_info)(tdm_capture *capture, tdm_info_capture *info);

        /**
         * @brief Attach a TDM buffer to a capture object
         * @details When capture_commit() function is called, a backend module starts
         * to dump a output or a layer to a TDM buffer.
         * @param[in] capture A capture object
         * @param[in] buffer A TDM buffer
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @see capture_set_info() function of #tdm_func_capture
         * @see capture_commit() function of #tdm_func_capture
         * @see capture_set_done_handler, tdm_capture_done_handler
         * @remark
         * A backend module starts to dump a output or a layer to to a TDM buffer when
         * committed. The size/crop/transform information is set via #capture_set_info()
         * of #tdm_func_capture. When done, a backend module @b SHOULD return the TDM
         * buffer via tdm_capture_done_handler.
         */
        tdm_error (*capture_attach)(tdm_capture *capture, tbm_surface_h buffer);

        /**
         * @brief Commit changes for a capture object
         * @param[in] capture A capture object
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         */
        tdm_error (*capture_commit)(tdm_capture *capture);

        /**
         * @brief Set a user done handler to a capture object
         * @param[in] capture A capture object
         * @param[in] func A user done handler
         * @param[in] user_data user data
         * @return #TDM_ERROR_NONE if success. Otherwise, error value.
         * @remark
         * A backend module @b SHOULD call #tdm_capture_done_handler when capture operation is done.
         */
        tdm_error (*capture_set_done_handler)(tdm_capture *capture,
                                                                                  tdm_capture_done_handler func, void *user_data);

        void (*reserved1)(void);
        void (*reserved2)(void);
        void (*reserved3)(void);
        void (*reserved4)(void);
        void (*reserved5)(void);
        void (*reserved6)(void);
        void (*reserved7)(void);
        void (*reserved8)(void);
} tdm_func_capture;

/**
 * @brief The tdm event source
 */
typedef void tdm_event_loop_source;

/**
 * @brief The fd source handler
 */
typedef tdm_error (*tdm_event_loop_fd_handler)(int fd, tdm_event_loop_mask mask, void *user_data);

/**
 * @brief The timer source handler
 */
typedef tdm_error (*tdm_event_loop_timer_handler)(void *user_data);

#define TDM_BACKEND_MINOR_VERSION_MASK  0x0000FFFF
#define TDM_BACKEND_MAJOR_VERSION_MASK  0xFFFF0000
#define TDM_BACKEND_GET_ABI_MINOR(v)    ((v) & TDM_BACKEND_MINOR_VERSION_MASK)
#define TDM_BACKEND_GET_ABI_MAJOR(v)    (((v) & TDM_BACKEND_MAJOR_VERSION_MASK) >> 16)

/**
 * @brief
 * The ABI version of TDM backend module. It has a major and minor revision.
 * Modules using lower minor revisions will work with TDM frontend of a higher
 * minor revision. There is no compatibility between different major revisions.
 * The minor revision mask is 0x0000FFFF and the major revision mask is 0xFFFF0000.
 * @par Example
 * @code
 *  tdm_backend_module tdm_backend_module_data = {
 *      "drm",
 *      "Samsung",
 *      TDM_BACKEND_SET_ABI_VERSION(1,1),
 *      tdm_drm_init,
 *      tdm_drm_deinit
 *  };
 * @endcode
 */
#define TDM_BACKEND_SET_ABI_VERSION(major, minor) \
        (((major) << 16) & TDM_BACKEND_MAJOR_VERSION_MASK) | \
        ((minor) & TDM_BACKEND_MINOR_VERSION_MASK)


#define TDM_BACKEND_ABI_VERSION_1_0 TDM_BACKEND_SET_ABI_VERSION(1, 0)
#define TDM_BACKEND_ABI_VERSION_2_0 TDM_BACKEND_SET_ABI_VERSION(2, 0)
#define TDM_BACKEND_ABI_LATEST_VERSION TDM_BACKEND_ABI_VERSION_2_0 /**< the latest version of the tdm backend abi  */

/**
 * @brief
 * This MACRO is deprecated since 1.2.0. Use TDM_BACKEND_SET_ABI_VERSION instead of this.
 * @deprecated
 * Use #TDM_BACKEND_SET_ABI_VERSION macro instead of this macro.
 */
#define TDM_BACKEND_ABI_VERSION     TDM_BACKEND_SET_ABI_VERSION(1, 1)

/**
 * @brief The backend module information of the entry point to initialize a TDM
 * backend module.
 * @remark
 * A backend module @b SHOULD define the global data symbol of which name is
 * @b "tdm_backend_module_data". TDM will read this symbol, @b "tdm_backend_module_data",
 * at the initial time and call init() function of #tdm_backend_module.
 */
typedef struct _tdm_backend_module {
        const char *name;           /**< The module name of a backend module */
        const char *vendor;         /**< The vendor name of a backend module */
        unsigned long abi_version;  /**< The ABI version of a backend module */

        /**
         * @brief The init function of a backend module
         * @param[in] dpy A display object
         * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
         * @return The backend module data
         * @see tdm_backend_data
         */
        tdm_backend_data *(*init)(tdm_display *dpy, tdm_error *error);

        /**
         * @brief The deinit function of a backend module
         * @param[in] bdata The backend module data
         */
        void (*deinit)(tdm_backend_data *bdata);
} tdm_backend_module;

/**
 * @brief Register the backend display functions to a display
 * @param[in] dpy A display object
 * @param[in] func_display display functions
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 * @see tdm_backend_register_func_output, tdm_backend_register_func_layer
 * @remarks
 * A backend module @b SHOULD set the backend display functions at least.
 */
tdm_error
tdm_backend_register_func_display(tdm_display *dpy,
                                                                  tdm_func_display *func_display);

/**
 * @brief Register the backend output functions to a display
 * @param[in] dpy A display object
 * @param[in] func_output output functions
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 * @see tdm_backend_register_func_display, tdm_backend_register_func_layer
 * @remarks
 * A backend module @b SHOULD set the backend output functions at least.
 */
tdm_error
tdm_backend_register_func_output(tdm_display *dpy,
                                                                 tdm_func_output *func_output);

/**
 * @brief Register the backend layer functions to a display
 * @param[in] dpy A display object
 * @param[in] func_layer layer functions
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 * @see tdm_backend_register_func_display, tdm_backend_register_func_output
 * @remarks
 * A backend module @b SHOULD set the backend layer functions at least.
 */
tdm_error
tdm_backend_register_func_layer(tdm_display *dpy, tdm_func_layer *func_layer);

/**
 * @brief Register the backend hwc functions to a display
 * @param[in] dpy A display object
 * @param[in] func_hwc hwc functions
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 * @see tdm_backend_register_func_display, tdm_backend_register_func_output
 * @remarks
 * A backend module @b SHOULD set the backend hwc functions at least.
 * @since 2.0.0
 */
tdm_error
tdm_backend_register_func_hwc(tdm_display *dpy, tdm_func_hwc *func_hwc);

/**
 * @brief Register the backend hwc_window functions to a display
 * @param[in] dpy A display object
 * @param[in] func_hwc_window hwc_window functions
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 * @see tdm_backend_register_func_display, tdm_backend_register_func_output
 * @remarks
 * A backend module @b SHOULD set the backend hwc_window functions at least.
 * @since 2.0.0
 */
tdm_error
tdm_backend_register_func_hwc_window(tdm_display *dpy, tdm_func_hwc_window *func_hwc_window);

/**
 * @brief Register the backend pp functions to a display
 * @param[in] dpy A display object
 * @param[in] func_pp pp functions
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 * @see tdm_backend_register_func_display, tdm_backend_register_func_capture
 * @remark
 * A backend module doesn'tcan skip to register the backend pp functions
 * if a hardware doesn't have the memory-to-memory converting device.
 */
tdm_error
tdm_backend_register_func_pp(tdm_display *dpy, tdm_func_pp *func_pp);

/**
 * @brief Register the backend capture functions to a display
 * @param[in] dpy A display object
 * @param[in] func_capture capture functions
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 * @see tdm_backend_register_func_display, tdm_backend_register_func_pp
 * @remark
 * A backend module can skip to register the backend capture functions
 * if a hardware doesn't have the capture device.
 */
tdm_error
tdm_backend_register_func_capture(tdm_display *dpy,
                                                                  tdm_func_capture *func_capture);

/* virtual */
tdm_error
tdm_backend_register_output(tdm_display *dpy, tdm_output *output);

void
tdm_backend_unregister_output(tdm_display *dpy, tdm_output *output);

/**
 * @brief Increase the ref_count of a TDM buffer
 * @details
 * TDM has its own buffer release mechanism to let an frontend user know when a TDM buffer
 * becomes available for a next job. A TDM buffer can be used for TDM to show
 * it on screen or to capture an output and a layer. After all operations,
 * TDM will release it immediately when TDM doesn't need it any more.
 * @param[in] buffer A TDM buffer
 * @return A buffer itself. Otherwise, NULL.
 * @see tdm_buffer_unref_backend
 * @remark
 * - This function @b SHOULD be paired with #tdm_buffer_unref_backend. \n
 * - For example, this function @b SHOULD be called in case that a backend module uses the TDM
 * buffer of a layer for capturing a output or a layer to avoid tearing issue.
 */
tbm_surface_h
tdm_buffer_ref_backend(tbm_surface_h buffer);

/**
 * @brief Decrease the ref_count of a TDM buffer
 * @param[in] buffer A TDM buffer
 * @see tdm_buffer_ref_backend
 */
void
tdm_buffer_unref_backend(tbm_surface_h buffer);

/**
 * @brief The destroy handler of a TDM buffer
 * @param[in] buffer A TDM buffer
 * @param[in] user_data user data
 * @see tdm_buffer_add_destroy_handler, tdm_buffer_remove_destroy_handler
 */
typedef void (*tdm_buffer_destroy_handler)(tbm_surface_h buffer,
                                                                                   void *user_data);

/**
 * @brief Add a destroy handler to a TDM buffer
 * @param[in] buffer A TDM buffer
 * @param[in] func A destroy handler
 * @param[in] user_data user data
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 * @see tdm_buffer_remove_destroy_handler
 * @remark
 * A backend module can add a TDM buffer destroy handler to a TDM buffer which
 * is a #tbm_surface_h object. When the TDM buffer is destroyed, this handler will
 * be called.
 */
tdm_error
tdm_buffer_add_destroy_handler(tbm_surface_h buffer,
                                                           tdm_buffer_destroy_handler func, void *user_data);

/**
 * @brief Remove a destroy handler from a TDM buffer
 * @param[in] buffer A TDM buffer
 * @param[in] func A destroy handler
 * @param[in] user_data user data
 * @see tdm_buffer_add_destroy_handler
 */
void
tdm_buffer_remove_destroy_handler(tbm_surface_h buffer,
                                                                  tdm_buffer_destroy_handler func, void *user_data);

/**
 * @brief Add a FD handler for activity on the given file descriptor
 * @param[in] dpy A display object
 * @param[in] fd A file descriptor
 * @param[in] mask to monitor FD
 * @param[in] func A FD handler function
 * @param[in] user_data user data
 * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
 * @return A FD event source
 * @see #tdm_event_loop_source_fd_update, #tdm_event_loop_source_remove
 */
tdm_event_loop_source*
tdm_event_loop_add_fd_handler(tdm_display *dpy, int fd, tdm_event_loop_mask mask,
                                                          tdm_event_loop_fd_handler func, void *user_data,
                                                          tdm_error *error);

/**
 * @brief Update the mask of the given FD event source
 * @param[in] source The given FD event source
 * @param[in] mask to monitor FD
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 */
tdm_error
tdm_event_loop_source_fd_update(tdm_event_loop_source *source, tdm_event_loop_mask mask);

/**
 * @brief Add a timer handler
 * @param[in] dpy A display object
 * @param[in] func A timer handler function
 * @param[in] user_data user data
 * @param[out] error #TDM_ERROR_NONE if success. Otherwise, error value.
 * @return A timer event source
 * @see #tdm_event_loop_source_timer_update, #tdm_event_loop_source_remove
 */
tdm_event_loop_source*
tdm_event_loop_add_timer_handler(tdm_display *dpy, tdm_event_loop_timer_handler func,
                                                                 void *user_data, tdm_error *error);

/**
 * @brief Update the millisecond delay time of the given timer event source.
 * @param[in] source The given timer event source
 * @param[in] ms_delay The millisecond delay time. zero "0" disarms the timer.
 * @return #TDM_ERROR_NONE if success. Otherwise, error value.
 */
tdm_error
tdm_event_loop_source_timer_update(tdm_event_loop_source *source, unsigned int ms_delay);

/**
 * @brief Remove the given event source
 * @param[in] source The given event source
 * @see #tdm_event_loop_add_fd_handler, #tdm_event_loop_add_timer_handler
 */
void
tdm_event_loop_source_remove(tdm_event_loop_source *source);

/**
 * @brief Get the ini value with given key
 * @details
 * @param[in] key The given key
 * @param[in] default_value The default value
 * @return the value of given key if success. Otherwise, default_value.
 * @see #tdm_config_get_string
 */
int
tdm_config_get_int(const char *key, int default_value);

/**
 * @brief Get the ini value with given key
 * @details
 * @param[in] key The given key
 * @param[in] default_value The default value
 * @return the value of given key if success. Otherwise, default_value.
 * @see #tdm_config_get_int
 */
const char *
tdm_config_get_string(const char *key, const char *default_value);

#ifdef __cplusplus
}
#endif

#endif /* _TDM_BACKEND_H_ */