platform_hardware_libhardware/include/hardware/hdmi_cec.h

/*
 * Copyright (C) 2014 The Android Open Source Project
 *
 * 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.
 */

#ifndef ANDROID_INCLUDE_HARDWARE_HDMI_CEC_H
#define ANDROID_INCLUDE_HARDWARE_HDMI_CEC_H

#include <stdint.h>
#include <sys/cdefs.h>

#include <hardware/hardware.h>

__BEGIN_DECLS

#define HDMI_CEC_MODULE_API_VERSION_1_0 HARDWARE_MODULE_API_VERSION(1, 0)
#define HDMI_CEC_MODULE_API_VERSION_CURRENT HDMI_MODULE_API_VERSION_1_0

#define HDMI_CEC_DEVICE_API_VERSION_1_0 HARDWARE_DEVICE_API_VERSION(1, 0)
#define HDMI_CEC_DEVICE_API_VERSION_CURRENT HDMI_DEVICE_API_VERSION_1_0

#define HDMI_CEC_HARDWARE_MODULE_ID "hdmi_cec"
#define HDMI_CEC_HARDWARE_INTERFACE "hdmi_cec_hw_if"

typedef enum cec_device_type {
    CEC_DEVICE_INACTIVE = -1,
    CEC_DEVICE_TV = 0,
    CEC_DEVICE_RECORDER = 1,
    CEC_DEVICE_RESERVED = 2,
    CEC_DEVICE_TUNER = 3,
    CEC_DEVICE_PLAYBACK = 4,
    CEC_DEVICE_AUDIO_SYSTEM = 5,
    CEC_DEVICE_MAX = CEC_DEVICE_AUDIO_SYSTEM
} cec_device_type_t;

typedef enum cec_logical_address {
    CEC_ADDR_TV = 0,
    CEC_ADDR_RECORDER_1 = 1,
    CEC_ADDR_RECORDER_2 = 2,
    CEC_ADDR_TUNER_1 = 3,
    CEC_ADDR_PLAYBACK_1 = 4,
    CEC_ADDR_AUDIO_SYSTEM = 5,
    CEC_ADDR_TUNER_2 = 6,
    CEC_ADDR_TUNER_3 = 7,
    CEC_ADDR_PLAYBACK_2 = 8,
    CEC_ADDR_RECORDER_3 = 9,
    CEC_ADDR_TUNER_4 = 10,
    CEC_ADDR_PLAYBACK_3 = 11,
    CEC_ADDR_RESERVED_1 = 12,
    CEC_ADDR_RESERVED_2 = 13,
    CEC_ADDR_FREE_USE = 14,
    CEC_ADDR_UNREGISTERED = 15,
    CEC_ADDR_BROADCAST = 15
} cec_logical_address_t;

/*
 * HDMI CEC messages
 */
enum cec_message_type {
    CEC_MESSAGE_FEATURE_ABORT = 0x00,
    CEC_MESSAGE_IMAGE_VIEW_ON = 0x04,
    CEC_MESSAGE_TUNER_STEP_INCREMENT = 0x05,
    CEC_MESSAGE_TUNER_STEP_DECREMENT = 0x06,
    CEC_MESSAGE_TUNER_DEVICE_STATUS = 0x07,
    CEC_MESSAGE_GIVE_TUNER_DEVICE_STATUS = 0x08,
    CEC_MESSAGE_RECORD_ON = 0x09,
    CEC_MESSAGE_RECORD_STATUS = 0x0A,
    CEC_MESSAGE_RECORD_OFF = 0x0B,
    CEC_MESSAGE_TEXT_VIEW_ON = 0x0D,
    CEC_MESSAGE_RECORD_TV_SCREEN = 0x0F,
    CEC_MESSAGE_GIVE_DECK_STATUS = 0x1A,
    CEC_MESSAGE_DECK_STATUS = 0x1B,
    CEC_MESSAGE_SET_MENU_LANGUAGE = 0x32,
    CEC_MESSAGE_CLEAR_ANALOG_TIMER = 0x33,
    CEC_MESSAGE_SET_ANALOG_TIMER = 0x34,
    CEC_MESSAGE_TIMER_STATUS = 0x35,
    CEC_MESSAGE_STANDBY = 0x36,
    CEC_MESSAGE_PLAY = 0x41,
    CEC_MESSAGE_DECK_CONTROL = 0x42,
    CEC_MESSAGE_TIMER_CLEARED_STATUS = 0x043,
    CEC_MESSAGE_USER_CONTROL_PRESSED = 0x44,
    CEC_MESSAGE_USER_CONTROL_RELEASED = 0x45,
    CEC_MESSAGE_GIVE_OSD_NAME = 0x46,
    CEC_MESSAGE_SET_OSD_NAME = 0x47,
    CEC_MESSAGE_SET_OSD_STRING = 0x64,
    CEC_MESSAGE_SET_TIMER_PROGRAM_TITLE = 0x67,
    CEC_MESSAGE_SYSTEM_AUDIO_MODE_REQUEST = 0x70,
    CEC_MESSAGE_GIVE_AUDIO_STATUS = 0x71,
    CEC_MESSAGE_SET_SYSTEM_AUDIO_MODE = 0x72,
    CEC_MESSAGE_REPORT_AUDIO_STATUS = 0x7A,
    CEC_MESSAGE_GIVE_SYSTEM_AUDIO_MODE_STATUS = 0x7D,
    CEC_MESSAGE_SYSTEM_AUDIO_MODE_STATUS = 0x7E,
    CEC_MESSAGE_ROUTING_CHANGE = 0x80,
    CEC_MESSAGE_ROUTING_INFORMATION = 0x81,
    CEC_MESSAGE_ACTIVE_SOURCE = 0x82,
    CEC_MESSAGE_GIVE_PHYSICAL_ADDRESS = 0x83,
    CEC_MESSAGE_REPORT_PHYSICAL_ADDRESS = 0x84,
    CEC_MESSAGE_REQUEST_ACTIVE_SOURCE = 0x85,
    CEC_MESSAGE_SET_STREAM_PATH = 0x86,
    CEC_MESSAGE_DEVICE_VENDOR_ID = 0x87,
    CEC_MESSAGE_VENDOR_COMMAND = 0x89,
    CEC_MESSAGE_VENDOR_REMOTE_BUTTON_DOWN = 0x8A,
    CEC_MESSAGE_VENDOR_REMOTE_BUTTON_UP = 0x8B,
    CEC_MESSAGE_GIVE_DEVICE_VENDOR_ID = 0x8C,
    CEC_MESSAGE_MENU_REQUEST = 0x8D,
    CEC_MESSAGE_MENU_STATUS = 0x8E,
    CEC_MESSAGE_GIVE_DEVICE_POWER_STATUS = 0x8F,
    CEC_MESSAGE_REPORT_POWER_STATUS = 0x90,
    CEC_MESSAGE_GET_MENU_LANGUAGE = 0x91,
    CEC_MESSAGE_SELECT_ANALOG_SERVICE = 0x92,
    CEC_MESSAGE_SELECT_DIGITAL_SERVICE = 0x93,
    CEC_MESSAGE_SET_DIGITAL_TIMER = 0x97,
    CEC_MESSAGE_CLEAR_DIGITAL_TIMER = 0x99,
    CEC_MESSAGE_SET_AUDIO_RATE = 0x9A,
    CEC_MESSAGE_INACTIVE_SOURCE = 0x9D,
    CEC_MESSAGE_CEC_VERSION = 0x9E,
    CEC_MESSAGE_GET_CEC_VERSION = 0x9F,
    CEC_MESSAGE_VENDOR_COMMAND_WITH_ID = 0xA0,
    CEC_MESSAGE_CLEAR_EXTERNAL_TIMER = 0xA1,
    CEC_MESSAGE_SET_EXTERNAL_TIMER = 0xA2,
    CEC_MESSAGE_INITIATE_ARC = 0xC0,
    CEC_MESSAGE_REPORT_ARC_INITIATED = 0xC1,
    CEC_MESSAGE_REPORT_ARC_TERMINATED = 0xC2,
    CEC_MESSAGE_REQUEST_ARC_INITIATION = 0xC3,
    CEC_MESSAGE_REQUEST_ARC_TERMINATION = 0xC4,
    CEC_MESSAGE_TERMINATE_ARC = 0xC5,
    CEC_MESSAGE_ABORT = 0xFF
};

/*
 * Operand description [Abort Reason]
 */
enum abort_reason {
    ABORT_UNRECOGNIZED_MODE = 0,
    ABORT_NOT_IN_CORRECT_MODE = 1,
    ABORT_CANNOT_PROVIDE_SOURCE = 2,
    ABORT_INVALID_OPERAND = 3,
    ABORT_REFUSED = 4,
    ABORT_UNABLE_TO_DETERMINE = 5
};

/*
 * HDMI event type. used for hdmi_event_t.
 */
enum {
    HDMI_EVENT_CEC_MESSAGE = 1,
    HDMI_EVENT_HOT_PLUG = 2,
};

/*
 * HDMI hotplug event type. Used when the event
 * type is HDMI_EVENT_HOT_PLUG.
 */
enum {
    HDMI_NOT_CONNECTED = 0,
    HDMI_CONNECTED = 1
};

/*
 * error code used for send_message.
 */
enum {
    HDMI_RESULT_SUCCESS = 0,
    HDMI_RESULT_NACK = 1,        /* not acknowledged */
    HDMI_RESULT_BUSY = 2,        /* bus is busy */
    HDMI_RESULT_FAIL = 3,
};

/*
 * HDMI port type.
 */
typedef enum hdmi_port_type {
    HDMI_INPUT = 0,
    HDMI_OUTPUT = 1
} hdmi_port_type_t;

/*
 * Flags used for set_option()
 */
enum {
    /* When set to false, HAL does not wake up the system upon receiving
     * <Image View On> or <Text View On>. Used when user changes the TV
     * settings to disable the auto TV on functionality.
     * True by default.
     */
    HDMI_OPTION_WAKEUP = 1,

    /* When set to false, all the CEC commands are discarded. Used when
     * user changes the TV settings to disable CEC functionality.
     * True by default.
     */
    HDMI_OPTION_ENABLE_CEC = 2,

    /* Setting this flag to false means Android system will stop handling
     * CEC service and yield the control over to the microprocessor that is
     * powered on through the standby mode. When set to true, the system
     * will gain the control over, hence telling the microprocessor to stop
     * handling the cec commands. This is called when system goes
     * in and out of standby mode to notify the microprocessor that it should
     * start/stop handling CEC commands on behalf of the system.
     * False by default.
     */
    HDMI_OPTION_SYSTEM_CEC_CONTROL = 3,
};

/*
 * Maximum length in bytes of cec message body (exclude header block),
 * should not exceed 16 (spec CEC 6 Frame Description)
 */
#define CEC_MESSAGE_BODY_MAX_LENGTH 16

typedef struct cec_message {
    /* logical address of sender */
    cec_logical_address_t initiator;

    /* logical address of receiver */
    cec_logical_address_t destination;

    /* Length in bytes of body, range [0, CEC_MESSAGE_BODY_MAX_LENGTH] */
    size_t length;
    unsigned char body[CEC_MESSAGE_BODY_MAX_LENGTH];
} cec_message_t;

typedef struct hotplug_event {
    /*
     * true if the cable is connected; otherwise false.
     */
    int connected;
    int port_id;
} hotplug_event_t;

typedef struct tx_status_event {
    int status;
    int opcode;  /* CEC opcode */
} tx_status_event_t;

/*
 * HDMI event generated from HAL.
 */
typedef struct hdmi_event {
    int type;
    struct hdmi_cec_device* dev;
    union {
        cec_message_t cec;
        hotplug_event_t hotplug;
    };
} hdmi_event_t;

/*
 * HDMI port descriptor
 */
typedef struct hdmi_port_info {
    hdmi_port_type_t type;
    // Port ID should start from 1 which corresponds to HDMI "port 1".
    int port_id;
    int cec_supported;
    int arc_supported;
    uint16_t physical_address;
} hdmi_port_info_t;

/*
 * Callback function type that will be called by HAL implementation.
 * Services can not close/open the device in the callback.
 */
typedef void (*event_callback_t)(const hdmi_event_t* event, void* arg);

typedef struct hdmi_cec_module {
    /**
     * Common methods of the HDMI CEC module.  This *must* be the first member of
     * hdmi_cec_module as users of this structure will cast a hw_module_t to hdmi_cec_module
     * pointer in contexts where it's known the hw_module_t references a hdmi_cec_module.
     */
    struct hw_module_t common;
} hdmi_module_t;

/*
 * HDMI-CEC HAL interface definition.
 */
typedef struct hdmi_cec_device {
    /**
     * Common methods of the HDMI CEC device.  This *must* be the first member of
     * hdmi_cec_device as users of this structure will cast a hw_device_t to hdmi_cec_device
     * pointer in contexts where it's known the hw_device_t references a hdmi_cec_device.
     */
    struct hw_device_t common;

    /*
     * (*add_logical_address)() passes the logical address that will be used
     * in this system.
     *
     * HAL may use it to configure the hardware so that the CEC commands addressed
     * the given logical address can be filtered in. This method can be called
     * as many times as necessary in order to support multiple logical devices.
     * addr should be in the range of valid logical addresses for the call
     * to succeed.
     *
     * Returns 0 on success or -errno on error.
     */
    int (*add_logical_address)(const struct hdmi_cec_device* dev, cec_logical_address_t addr);

    /*
     * (*clear_logical_address)() tells HAL to reset all the logical addresses.
     *
     * It is used when the system doesn't need to process CEC command any more,
     * hence to tell HAL to stop receiving commands from the CEC bus, and change
     * the state back to the beginning.
     */
    void (*clear_logical_address)(const struct hdmi_cec_device* dev);

    /*
     * (*get_physical_address)() returns the CEC physical address. The
     * address is written to addr.
     *
     * The physical address depends on the topology of the network formed
     * by connected HDMI devices. It is therefore likely to change if the cable
     * is plugged off and on again. It is advised to call get_physical_address
     * to get the updated address when hot plug event takes place.
     *
     * Returns 0 on success or -errno on error.
     */
    int (*get_physical_address)(const struct hdmi_cec_device* dev, uint16_t* addr);

    /*
     * (*send_message)() transmits HDMI-CEC message to other HDMI device.
     *
     * The method should be designed to return in a certain amount of time not
     * hanging forever, which can happen if CEC signal line is pulled low for
     * some reason. HAL implementation should take the situation into account
     * so as not to wait forever for the message to get sent out.
     *
     * It should try retransmission at least once as specified in the standard.
     *
     * Returns error code. See HDMI_RESULT_SUCCESS, HDMI_RESULT_NACK, and
     * HDMI_RESULT_BUSY.
     */
    int (*send_message)(const struct hdmi_cec_device* dev, const cec_message_t*);

    /*
     * (*register_event_callback)() registers a callback that HDMI-CEC HAL
     * can later use for incoming CEC messages or internal HDMI events.
     * When calling from C++, use the argument arg to pass the calling object.
     * It will be passed back when the callback is invoked so that the context
     * can be retrieved.
     */
    void (*register_event_callback)(const struct hdmi_cec_device* dev,
            event_callback_t callback, void* arg);

    /*
     * (*get_version)() returns the CEC version supported by underlying hardware.
     */
    void (*get_version)(const struct hdmi_cec_device* dev, int* version);

    /*
     * (*get_vendor_id)() returns the identifier of the vendor. It is
     * the 24-bit unique company ID obtained from the IEEE Registration
     * Authority Committee (RAC).
     */
    void (*get_vendor_id)(const struct hdmi_cec_device* dev, uint32_t* vendor_id);

    /*
     * (*get_port_info)() returns the hdmi port information of underlying hardware.
     * info is the list of HDMI port information, and 'total' is the number of
     * HDMI ports in the system.
     */
    void (*get_port_info)(const struct hdmi_cec_device* dev,
            struct hdmi_port_info* list[], int* total);

    /*
     * (*set_option)() passes flags controlling the way HDMI-CEC service works down
     * to HAL implementation. Those flags will be used in case the feature needs
     * update in HAL itself, firmware or microcontroller.
     */
    void (*set_option)(const struct hdmi_cec_device* dev, int flag, int value);

    /*
     * (*set_audio_return_channel)() configures ARC circuit in the hardware logic
     * to start or stop the feature. Flag can be either 1 to start the feature
     * or 0 to stop it.
     *
     * Returns 0 on success or -errno on error.
     */
    void (*set_audio_return_channel)(const struct hdmi_cec_device* dev, int flag);

    /*
     * (*is_connected)() returns the connection status of the specified port.
     * Returns HDMI_CONNECTED if a device is connected, otherwise HDMI_NOT_CONNECTED.
     * The HAL should watch for +5V power signal to determine the status.
     */
    int (*is_connected)(const struct hdmi_cec_device* dev, int port_id);

    /* Reserved for future use to maximum 16 functions. Must be NULL. */
    void* reserved[16 - 11];
} hdmi_cec_device_t;

/** convenience API for opening and closing a device */

static inline int hdmi_cec_open(const struct hw_module_t* module,
        struct hdmi_cec_device** device) {
    return module->methods->open(module,
            HDMI_CEC_HARDWARE_INTERFACE, (struct hw_device_t**)device);
}

static inline int hdmi_cec_close(struct hdmi_cec_device* device) {
    return device->common.close(&device->common);
}

__END_DECLS

#endif /* ANDROID_INCLUDE_HARDWARE_HDMI_CEC_H */