/* * Copyright (C) 2014 BlueKitchen GmbH * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the copyright holders nor the names of * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * 4. Any redistribution, use, or modification is done solely for * personal benefit and not for any commercial purpose or for * monetary gain. * * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * Please inquire about commercial licensing options at * contact@bluekitchen-gmbh.com * */ /* * RFCOMM.h */ #ifndef RFCOMM_H #define RFCOMM_H #include "btstack_util.h" #include #include "btstack_run_loop.h" #include "gap.h" #include "l2cap.h" #if defined __cplusplus extern "C" { #endif #define UNLIMITED_INCOMING_CREDITS 0xff #define RFCOMM_TEST_DATA_MAX_LEN 4 #define RFCOMM_RLS_STATUS_INVALID 0xff // private structs typedef enum { RFCOMM_MULTIPLEXER_CLOSED = 1, RFCOMM_MULTIPLEXER_W4_CONNECT, // outgoing RFCOMM_MULTIPLEXER_SEND_SABM_0, // " RFCOMM_MULTIPLEXER_W4_UA_0, // " RFCOMM_MULTIPLEXER_W4_SABM_0, // incoming RFCOMM_MULTIPLEXER_SEND_UA_0, RFCOMM_MULTIPLEXER_OPEN, RFCOMM_MULTIPLEXER_SEND_UA_0_AND_DISC, RFCOMM_MULTIPLEXER_SHUTTING_DOWN, } RFCOMM_MULTIPLEXER_STATE; typedef enum { MULT_EV_READY_TO_SEND = 1, } RFCOMM_MULTIPLEXER_EVENT; typedef enum { RFCOMM_CHANNEL_CLOSED = 1, RFCOMM_CHANNEL_W4_MULTIPLEXER, RFCOMM_CHANNEL_SEND_UIH_PN, RFCOMM_CHANNEL_W4_PN_RSP, RFCOMM_CHANNEL_SEND_SABM_W4_UA, RFCOMM_CHANNEL_W4_UA, RFCOMM_CHANNEL_INCOMING_SETUP, RFCOMM_CHANNEL_DLC_SETUP, RFCOMM_CHANNEL_OPEN, RFCOMM_CHANNEL_SEND_UA_AFTER_DISC, RFCOMM_CHANNEL_SEND_DISC, RFCOMM_CHANNEL_W4_UA_AFTER_DISC, RFCOMM_CHANNEL_SEND_DM, RFCOMM_CHANNEL_EMIT_OPEN_FAILED_AND_DISCARD, } RFCOMM_CHANNEL_STATE; typedef enum { RFCOMM_CHANNEL_STATE_VAR_NONE = 0, RFCOMM_CHANNEL_STATE_VAR_CLIENT_ACCEPTED = 1 << 0, RFCOMM_CHANNEL_STATE_VAR_RCVD_PN = 1 << 1, RFCOMM_CHANNEL_STATE_VAR_RCVD_RPN = 1 << 2, RFCOMM_CHANNEL_STATE_VAR_RCVD_SABM = 1 << 3, RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_CMD = 1 << 4, RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_RSP = 1 << 5, RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP = 1 << 6, RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_INFO = 1 << 7, RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_RSP = 1 << 8, RFCOMM_CHANNEL_STATE_VAR_SEND_UA = 1 << 9, RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_CMD = 1 << 10, RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_RSP = 1 << 11, RFCOMM_CHANNEL_STATE_VAR_SEND_CREDITS = 1 << 12, RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_CMD = 1 << 13, RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_RSP = 1 << 14, RFCOMM_CHANNEL_STATE_VAR_SENT_CREDITS = 1 << 15, } RFCOMM_CHANNEL_STATE_VAR; typedef struct rfcomm_rpn_data { uint8_t baud_rate; uint8_t flags; uint8_t flow_control; uint8_t xon; uint8_t xoff; uint8_t parameter_mask_0; // first byte uint8_t parameter_mask_1; // second byte } rfcomm_rpn_data_t; // info regarding potential connections typedef struct { // linked list - assert: first field btstack_linked_item_t item; // packet handler btstack_packet_handler_t packet_handler; // server channel uint8_t server_channel; // incoming max frame size uint16_t max_frame_size; // use incoming flow control uint8_t incoming_flow_control; // initial incoming credits uint8_t incoming_initial_credits; } rfcomm_service_t; // info regarding multiplexer // note: spec mandates single multiplexer per device combination typedef struct { // linked list - assert: first field btstack_linked_item_t item; btstack_timer_source_t timer; int timer_active; RFCOMM_MULTIPLEXER_STATE state; uint16_t l2cap_cid; uint8_t fcon; // only send if fcon & 1, send rsp if fcon & 0x80 bd_addr_t remote_addr; hci_con_handle_t con_handle; uint8_t outgoing; // hack to deal with authentication failure only observed by remote side uint8_t at_least_one_connection; uint16_t max_frame_size; // send DM for DLCI != 0 uint8_t send_dm_for_dlci; // non supported command, 0 if not set uint8_t nsc_command; // ertm id uint16_t ertm_id; // test data - limited to RFCOMM_TEST_DATA_MAX_LEN uint8_t test_data_len; uint8_t test_data[RFCOMM_TEST_DATA_MAX_LEN]; } rfcomm_multiplexer_t; // info regarding an actual connection typedef struct { // linked list - assert: first field btstack_linked_item_t item; // packet handler btstack_packet_handler_t packet_handler; // server channel (see rfcomm_service_t) - NULL => outgoing channel rfcomm_service_t * service; // muliplexer for this channel rfcomm_multiplexer_t *multiplexer; // RFCOMM Channel ID uint16_t rfcomm_cid; // uint8_t dlci; // credits for outgoing traffic uint8_t credits_outgoing; // number of packets remote will be granted uint8_t new_credits_incoming; // credits for incoming traffic uint8_t credits_incoming; // use incoming flow control uint8_t incoming_flow_control; // channel state RFCOMM_CHANNEL_STATE state; // state variables used in RFCOMM_CHANNEL_INCOMING RFCOMM_CHANNEL_STATE_VAR state_var; // priority set by incoming side in PN uint8_t pn_priority; // negotiated frame size uint16_t max_frame_size; // local rpn data rfcomm_rpn_data_t rpn_data; // rls line status. RFCOMM_RLS_STATUS_INVALID if not set uint8_t rls_line_status; // msc modem status. uint8_t msc_modem_status; // uint8_t waiting_for_can_send_now; } rfcomm_channel_t; // struct used in ERTM callback typedef struct { // remote address bd_addr_t addr; // ERTM ID - returned in RFCOMM_EVENT_ERTM_BUFFER_RELEASED. uint16_t ertm_id; // ERTM Configuration - needs to stay valid indefinitely l2cap_ertm_config_t * ertm_config; // ERTM buffer uint8_t * ertm_buffer; uint32_t ertm_buffer_size; } rfcomm_ertm_request_t; /* API_START */ /** * @brief Set up RFCOMM. */ void rfcomm_init(void); /** * @brief Set security level required for incoming connections, need to be called before registering services. * @deprecated use gap_set_security_level instead */ void rfcomm_set_required_security_level(gap_security_level_t security_level); /* * @brief Create RFCOMM connection to a given server channel on a remote deivce. * This channel will automatically provide enough credits to the remote side. * @param addr * @param server_channel * @param out_cid * @result status */ uint8_t rfcomm_create_channel(btstack_packet_handler_t packet_handler, bd_addr_t addr, uint8_t server_channel, uint16_t * out_cid); /* * @brief Create RFCOMM connection to a given server channel on a remote deivce. * This channel will use explicit credit management. During channel establishment, an initial amount of credits is provided. * @param addr * @param server_channel * @param initial_credits * @param out_cid * @result status */ uint8_t rfcomm_create_channel_with_initial_credits(btstack_packet_handler_t packet_handler, bd_addr_t addr, uint8_t server_channel, uint8_t initial_credits, uint16_t * out_cid); /** * @brief Disconnects RFCOMM channel with given identifier. */ void rfcomm_disconnect(uint16_t rfcomm_cid); /** * @brief Registers RFCOMM service for a server channel and a maximum frame size, and assigns a packet handler. * This channel provides credits automatically to the remote side -> no flow control * @param packet handler for all channels of this service * @param channel * @param max_frame_size */ uint8_t rfcomm_register_service(btstack_packet_handler_t packet_handler, uint8_t channel, uint16_t max_frame_size); /** * @brief Registers RFCOMM service for a server channel and a maximum frame size, and assigns a packet handler. * This channel will use explicit credit management. During channel establishment, an initial amount of credits is provided. * @param packet handler for all channels of this service * @param channel * @param max_frame_size * @param initial_credits */ uint8_t rfcomm_register_service_with_initial_credits(btstack_packet_handler_t packet_handler, uint8_t channel, uint16_t max_frame_size, uint8_t initial_credits); /** * @brief Unregister RFCOMM service. */ void rfcomm_unregister_service(uint8_t service_channel); /** * @brief Accepts incoming RFCOMM connection. */ void rfcomm_accept_connection(uint16_t rfcomm_cid); /** * @brief Deny incoming RFCOMM connection. */ void rfcomm_decline_connection(uint16_t rfcomm_cid); /** * @brief Grant more incoming credits to the remote side for the given RFCOMM channel identifier. */ void rfcomm_grant_credits(uint16_t rfcomm_cid, uint8_t credits); /** * @brief Checks if RFCOMM can send packet. * @param rfcomm_cid * @result != 0 if can send now */ int rfcomm_can_send_packet_now(uint16_t rfcomm_cid); /** * @brief Request emission of RFCOMM_EVENT_CAN_SEND_NOW as soon as possible * @note RFCOMM_EVENT_CAN_SEND_NOW might be emitted during call to this function * so packet handler should be ready to handle it * @param rfcomm_cid */ void rfcomm_request_can_send_now_event(uint16_t rfcomm_cid); /** * @brief Sends RFCOMM data packet to the RFCOMM channel with given identifier. * @param rfcomm_cid */ int rfcomm_send(uint16_t rfcomm_cid, uint8_t *data, uint16_t len); /** * @brief Sends Local Line Status, see LINE_STATUS_.. * @param rfcomm_cid * @param line_status */ int rfcomm_send_local_line_status(uint16_t rfcomm_cid, uint8_t line_status); /** * @brief Send local modem status. see MODEM_STAUS_.. * @param rfcomm_cid * @param modem_status */ int rfcomm_send_modem_status(uint16_t rfcomm_cid, uint8_t modem_status); /** * @brief Configure remote port * @param rfcomm_cid * @param baud_rate * @param data_bits * @param stop_bits * @param parity * @param flow_control */ int rfcomm_send_port_configuration(uint16_t rfcomm_cid, rpn_baud_t baud_rate, rpn_data_bits_t data_bits, rpn_stop_bits_t stop_bits, rpn_parity_t parity, rpn_flow_control_t flow_control); /** * @brief Query remote port * @param rfcomm_cid */ int rfcomm_query_port_configuration(uint16_t rfcomm_cid); /** * @brief Query max frame size * @param rfcomm_cid */ uint16_t rfcomm_get_max_frame_size(uint16_t rfcomm_cid); /** * @brief Allow to create RFCOMM packet in outgoing buffer. * if (rfcomm_can_send_packet_now(cid)){ * rfcomm_reserve_packet_buffer(); * uint8_t * buffer = rfcomm_get_outgoing_buffer(); * uint16_t buffer_size = rfcomm_get_max_frame_size(cid); * .. setup data in buffer with len .. * rfcomm_send_prepared(cid, len) * } */ int rfcomm_reserve_packet_buffer(void); uint8_t * rfcomm_get_outgoing_buffer(void); int rfcomm_send_prepared(uint16_t rfcomm_cid, uint16_t len); void rfcomm_release_packet_buffer(void); /** * @brief Enable L2CAP ERTM mode for RFCOMM. request callback is used to provide ERTM buffer. released callback returns buffer * * @note on request_callback, the app must set the ertm_config, buffer, size fields to enable ERTM for the current connection * @note if buffer is not set, BASIC mode will be used instead * * @note released_callback provides ertm_id from earlier request to match request and release * * @param request_callback * @param released_callback */ void rfcomm_enable_l2cap_ertm(void request_callback(rfcomm_ertm_request_t * request), void released_callback(uint16_t ertm_id)); /** * @brief De-Init RFCOMM */ void rfcomm_deinit(void); /* API_END */ #if defined __cplusplus } #endif #endif // RFCOMM_H