/* * Copyright (C) 2009 by Matthias Ringwald * * 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. * * THIS SOFTWARE IS PROVIDED BY MATTHIAS RINGWALD 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. * */ /* * l2cap.c * * Logical Link Control and Adaption Protocl (L2CAP) * * Created by Matthias Ringwald on 5/16/09. */ #include "l2cap.h" #include "hci.h" #include "hci_dump.h" #include #include #include // size of HCI ACL + L2CAP Header for regular data packets #define COMPLETE_L2CAP_HEADER 8 // minimum signaling MTU #define L2CAP_MINIMAL_MTU 48 #define L2CAP_DEFAULT_MTU 672 // offsets for L2CAP SIGNALING COMMANDS #define L2CAP_SIGNALING_COMMAND_CODE_OFFSET 0 #define L2CAP_SIGNALING_COMMAND_SIGID_OFFSET 1 #define L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET 2 #define L2CAP_SIGNALING_COMMAND_DATA_OFFSET 4 static void null_packet_handler(void * connection, uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size); static void l2cap_packet_handler(uint8_t packet_type, uint8_t *packet, uint16_t size); static uint8_t * sig_buffer = NULL; static linked_list_t l2cap_channels = NULL; static linked_list_t l2cap_services = NULL; static uint8_t * acl_buffer = NULL; static void (*packet_handler) (void * connection, uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size) = null_packet_handler; static uint8_t config_options[] = { 1, 2, 150, 0}; // mtu = 48 void l2cap_init(){ sig_buffer = malloc( L2CAP_MINIMAL_MTU ); // acl_buffer = malloc( 255 + 8 ); acl_buffer = malloc( 400 + 8 ); // // register callback with HCI // hci_register_packet_handler(&l2cap_packet_handler); } /** Register L2CAP packet handlers */ static void null_packet_handler(void * connection, uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size){ } void l2cap_register_packet_handler(void (*handler)(void * connection, uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size)){ packet_handler = handler; } // notify client/protocol handler void l2cap_dispatch(l2cap_channel_t *channel, uint8_t type, uint8_t * data, uint16_t size){ if (channel->packet_handler) { (* (channel->packet_handler))(type, channel->local_cid, data, size); } else { (*packet_handler)(channel->connection, type, channel->local_cid, data, size); } } void l2cap_emit_channel_opened(l2cap_channel_t *channel, uint8_t status) { uint8_t event[17]; event[0] = L2CAP_EVENT_CHANNEL_OPENED; event[1] = sizeof(event) - 2; event[2] = status; bt_flip_addr(&event[3], channel->address); bt_store_16(event, 9, channel->handle); bt_store_16(event, 11, channel->psm); bt_store_16(event, 13, channel->local_cid); bt_store_16(event, 15, channel->remote_cid); hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); l2cap_dispatch(channel, HCI_EVENT_PACKET, event, sizeof(event)); } void l2cap_emit_channel_closed(l2cap_channel_t *channel) { uint8_t event[4]; event[0] = L2CAP_EVENT_CHANNEL_CLOSED; event[1] = sizeof(event) - 2; bt_store_16(event, 2, channel->local_cid); hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); l2cap_dispatch(channel, HCI_EVENT_PACKET, event, sizeof(event)); } void l2cap_emit_connection_request(l2cap_channel_t *channel) { uint8_t event[16]; event[0] = L2CAP_EVENT_INCOMING_CONNECTION; event[1] = sizeof(event) - 2; bt_flip_addr(&event[2], channel->address); bt_store_16(event, 8, channel->handle); bt_store_16(event, 10, channel->psm); bt_store_16(event, 12, channel->local_cid); bt_store_16(event, 14, channel->remote_cid); hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); l2cap_dispatch(channel, HCI_EVENT_PACKET, event, sizeof(event)); } l2cap_channel_t * l2cap_get_channel_for_local_cid(uint16_t local_cid){ linked_item_t *it; l2cap_channel_t * channel; for (it = (linked_item_t *) l2cap_channels; it ; it = it->next){ channel = (l2cap_channel_t *) it; if ( channel->local_cid == local_cid) { return channel; } } return NULL; } uint16_t l2cap_get_remote_mtu_for_local_cid(uint16_t local_cid){ l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); if (channel) { return channel->remote_mtu; } return 0; } int l2cap_send_signaling_packet(hci_con_handle_t handle, L2CAP_SIGNALING_COMMANDS cmd, uint8_t identifier, ...){ // printf("l2cap_send_signaling_packet type %u\n", cmd); va_list argptr; va_start(argptr, identifier); uint16_t len = l2cap_create_signaling_internal(sig_buffer, handle, cmd, identifier, argptr); va_end(argptr); return hci_send_acl_packet(sig_buffer, len); } void l2cap_send_internal(uint16_t local_cid, uint8_t *data, uint16_t len){ // find channel for local_cid, construct l2cap packet and send l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); if (channel) { // 0 - Connection handle : PB=10 : BC=00 bt_store_16(acl_buffer, 0, channel->handle | (2 << 12) | (0 << 14)); // 2 - ACL length bt_store_16(acl_buffer, 2, len + 4); // 4 - L2CAP packet length bt_store_16(acl_buffer, 4, len + 0); // 6 - L2CAP channel DEST bt_store_16(acl_buffer, 6, channel->remote_cid); // 8 - data memcpy(&acl_buffer[8], data, len); // send hci_send_acl_packet(acl_buffer, len+8); } } // open outgoing L2CAP channel void l2cap_create_channel_internal(void * connection, btstack_packet_handler_t packet_handler, bd_addr_t address, uint16_t psm){ // alloc structure l2cap_channel_t * chan = malloc(sizeof(l2cap_channel_t)); // TODO: emit error event if (!chan) return; // fill in BD_ADDR_COPY(chan->address, address); chan->psm = psm; chan->handle = 0; chan->connection = connection; chan->packet_handler = packet_handler; chan->remote_mtu = L2CAP_MINIMAL_MTU; // set initial state chan->state = L2CAP_STATE_CLOSED; chan->sig_id = L2CAP_SIG_ID_INVALID; // add to connections list linked_list_add(&l2cap_channels, (linked_item_t *) chan); // send connection request // BD_ADDR, Packet_Type, Page_Scan_Repetition_Mode, Reserved, Clock_Offset, Allow_Role_Switch hci_send_cmd(&hci_create_connection, address, 0x18, 0, 0, 0, 0); } void l2cap_disconnect_internal(uint16_t local_cid, uint8_t reason){ // find channel for local_cid l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); if (channel) { channel->sig_id = l2cap_next_sig_id(); l2cap_send_signaling_packet( channel->handle, DISCONNECTION_REQUEST, channel->sig_id, channel->remote_cid, channel->local_cid); channel->state = L2CAP_STATE_WAIT_DISCONNECT; } } static void l2cap_handle_connection_failed_for_addr(bd_addr_t address, uint8_t status){ linked_item_t *it; for (it = (linked_item_t *) l2cap_channels; it ; it = it->next){ l2cap_channel_t * channel = (l2cap_channel_t *) it; if ( ! BD_ADDR_CMP( channel->address, address) ){ if (channel->state == L2CAP_STATE_CLOSED) { // failure, forward error code l2cap_emit_channel_opened(channel, status); // discard channel linked_list_remove(&l2cap_channels, (linked_item_t *) channel); free (channel); } } } } static void l2cap_handle_connection_success_for_addr(bd_addr_t address, hci_con_handle_t handle){ linked_item_t *it; for (it = (linked_item_t *) l2cap_channels; it ; it = it->next){ l2cap_channel_t * channel = (l2cap_channel_t *) it; if ( ! BD_ADDR_CMP( channel->address, address) ){ if (channel->state == L2CAP_STATE_CLOSED) { // success, start l2cap handshake channel->handle = handle; channel->sig_id = l2cap_next_sig_id(); channel->local_cid = l2cap_next_local_cid(); channel->state = L2CAP_STATE_WAIT_CONNECT_RSP; l2cap_send_signaling_packet( channel->handle, CONNECTION_REQUEST, channel->sig_id, channel->psm, channel->local_cid); } } } } void l2cap_event_handler( uint8_t *packet, uint16_t size ){ bd_addr_t address; hci_con_handle_t handle; linked_item_t *it; switch(packet[0]){ // handle connection complete events case HCI_EVENT_CONNECTION_COMPLETE: bt_flip_addr(address, &packet[5]); if (packet[2] == 0){ handle = READ_BT_16(packet, 3); l2cap_handle_connection_success_for_addr(address, handle); } else { l2cap_handle_connection_failed_for_addr(address, packet[2]); } break; // handle successful create connection cancel command case HCI_EVENT_COMMAND_COMPLETE: if ( COMMAND_COMPLETE_EVENT(packet, hci_create_connection_cancel) ) { if (packet[5] == 0){ bt_flip_addr(address, &packet[6]); // CONNECTION TERMINATED BY LOCAL HOST (0X16) l2cap_handle_connection_failed_for_addr(address, 0x16); } } break; // handle disconnection complete events case HCI_EVENT_DISCONNECTION_COMPLETE: // send l2cap disconnect events for all channels on this handle handle = READ_BT_16(packet, 3); // only access next element to allows for removal for (it = (linked_item_t *) &l2cap_channels; it->next ; it = it->next){ l2cap_channel_t * channel = (l2cap_channel_t *) it->next; if ( channel->handle == handle ){ // update prev item before free'ing next element it->next = it->next->next; l2cap_finialize_channel_close(channel); } } break; // HCI Connection Timeouts case L2CAP_EVENT_TIMEOUT_CHECK: handle = READ_BT_16(packet, 2); l2cap_channel_t * channel; int used = 0; for (it = (linked_item_t *) l2cap_channels; it ; it = it->next){ channel = (l2cap_channel_t *) it; if (channel->handle == handle) { used = 1; } } if (!used) { hci_send_cmd(&hci_disconnect, handle, 0x13); // remote closed connection } break; default: break; } // pass on (*packet_handler)(NULL, HCI_EVENT_PACKET, 0, packet, size); } static void l2cap_handle_disconnect_request(l2cap_channel_t *channel, uint16_t identifier){ l2cap_send_signaling_packet( channel->handle, DISCONNECTION_RESPONSE, identifier, channel->local_cid, channel->remote_cid); l2cap_finialize_channel_close(channel); } static void l2cap_handle_connection_request(hci_con_handle_t handle, uint8_t sig_id, uint16_t psm, uint16_t source_cid){ // printf("l2cap_handle_connection_request for handle %u, psm %u cid %u\n", handle, psm, source_cid); l2cap_service_t *service = l2cap_get_service(psm); if (!service) { // 0x0002 PSM not supported // printf("l2cap_handle_connection_request no PSM for psm %u/n", psm); l2cap_send_signaling_packet(handle, CONNECTION_RESPONSE, sig_id, 0, 0, 0x0002, 0); return; } hci_connection_t * hci_connection = connection_for_handle( handle ); if (!hci_connection) { fprintf(stderr, "no hci_connection for handle %u\n", handle); // TODO: emit error return; } // alloc structure // printf("l2cap_handle_connection_request register channel\n"); l2cap_channel_t * channel = malloc(sizeof(l2cap_channel_t)); // TODO: emit error event if (!channel) return; // fill in BD_ADDR_COPY(channel->address, hci_connection->address); channel->psm = psm; channel->handle = handle; channel->connection = service->connection; channel->packet_handler = service->packet_handler; channel->local_cid = l2cap_next_local_cid(); channel->remote_cid = source_cid; channel->remote_mtu = L2CAP_MINIMAL_MTU; // set initial state channel->state = L2CAP_STATE_WAIT_CLIENT_ACCEPT_OR_REJECT; // temp. store req sig id channel->sig_id = sig_id; // add to connections list linked_list_add(&l2cap_channels, (linked_item_t *) channel); // emit incoming connection request l2cap_emit_connection_request(channel); } void l2cap_accept_connection_internal(uint16_t local_cid){ l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); if (!channel) { fprintf(stderr, "l2cap_accept_connection_internal called but local_cid 0x%x not found", local_cid); return; } // accept connection l2cap_send_signaling_packet(channel->handle, CONNECTION_RESPONSE, channel->sig_id, channel->local_cid, channel->remote_cid, 0, 0); // set real sig and state and start config channel->sig_id = l2cap_next_sig_id(); channel->state = L2CAP_STATE_WAIT_CONFIG_REQ_RSP_OR_CONFIG_REQ; l2cap_send_signaling_packet(channel->handle, CONFIGURE_REQUEST, channel->sig_id, channel->remote_cid, 0, 4, &config_options); // printf("new state %u\n", channel->state); } void l2cap_decline_connection_internal(uint16_t local_cid, uint8_t reason){ l2cap_channel_t * channel = l2cap_get_channel_for_local_cid( local_cid); if (!channel) { fprintf(stderr, "l2cap_decline_connection_internal called but local_cid 0x%x not found", local_cid); return; } l2cap_send_signaling_packet(channel->handle, CONNECTION_RESPONSE, channel->sig_id, 0, 0, reason, 0); // discard channel linked_list_remove(&l2cap_channels, (linked_item_t *) channel); free (channel); } void l2cap_signaling_handle_configure_request(l2cap_channel_t *channel, uint8_t *command){ // accept the other's configuration options uint16_t end_pos = 4 + READ_BT_16(command, L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); uint16_t pos = 8; while (pos < end_pos){ uint8_t type = command[pos++]; uint8_t length = command[pos++]; // MTU { type(8): 1, len(8):2, MTU(16) } if ((type & 0x7f) == 1 && length == 2){ channel->remote_mtu = READ_BT_16(command, pos); // printf("l2cap cid %u, remote mtu %u\n", channel->local_cid, channel->remote_mtu); } pos += length; } uint8_t identifier = command[L2CAP_SIGNALING_COMMAND_SIGID_OFFSET]; // send back received options // l2cap_send_signaling_packet(channel->handle, CONFIGURE_RESPONSE, identifier, channel->remote_cid, 0, 0, len-4, &command[8]); // send back OK l2cap_send_signaling_packet(channel->handle, CONFIGURE_RESPONSE, identifier, channel->remote_cid, 0, 0, 0, NULL); } void l2cap_signaling_handler_channel(l2cap_channel_t *channel, uint8_t *command){ uint8_t code = command[L2CAP_SIGNALING_COMMAND_CODE_OFFSET]; uint8_t identifier = command[L2CAP_SIGNALING_COMMAND_SIGID_OFFSET]; uint16_t result = 0; // printf("signaling handler code %u\n", code); switch (channel->state) { case L2CAP_STATE_WAIT_CONNECT_RSP: switch (code){ case CONNECTION_RESPONSE: result = READ_BT_16 (command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET+4); switch (result) { case 0: // successful connection channel->remote_cid = READ_BT_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); channel->sig_id = l2cap_next_sig_id(); l2cap_send_signaling_packet(channel->handle, CONFIGURE_REQUEST, channel->sig_id, channel->remote_cid, 0, 4, &config_options); channel->state = L2CAP_STATE_WAIT_CONFIG_REQ_RSP_OR_CONFIG_REQ; break; case 1: // connection pending. get some coffee break; default: // map l2cap connection response result to BTstack status enumeration l2cap_emit_channel_opened(channel, L2CAP_CONNECTION_RESPONSE_RESULT_SUCCESSFUL + result); break; } break; case DISCONNECTION_REQUEST: l2cap_handle_disconnect_request(channel, identifier); break; default: //@TODO: implement other signaling packets break; } break; case L2CAP_STATE_WAIT_CONFIG_REQ_RSP_OR_CONFIG_REQ: switch (code) { case CONFIGURE_RESPONSE: channel->state = L2CAP_STATE_WAIT_CONFIG_REQ; break; case CONFIGURE_REQUEST: l2cap_signaling_handle_configure_request(channel, command); channel->state = L2CAP_STATE_WAIT_CONFIG_REQ_RSP; break; case DISCONNECTION_REQUEST: l2cap_handle_disconnect_request(channel, identifier); break; default: //@TODO: implement other signaling packets break; } break; case L2CAP_STATE_WAIT_CONFIG_REQ: switch (code) { case CONFIGURE_REQUEST: l2cap_signaling_handle_configure_request(channel, command); channel->state = L2CAP_STATE_OPEN; l2cap_emit_channel_opened(channel, 0); // success break; case DISCONNECTION_REQUEST: l2cap_handle_disconnect_request(channel, identifier); break; default: //@TODO: implement other signaling packets break; } break; case L2CAP_STATE_WAIT_CONFIG_REQ_RSP: switch (code) { case CONFIGURE_RESPONSE: channel->state = L2CAP_STATE_OPEN; l2cap_emit_channel_opened(channel, 0); // success break; case DISCONNECTION_REQUEST: l2cap_handle_disconnect_request(channel, identifier); break; default: //@TODO: implement other signaling packets break; } break; case L2CAP_STATE_WAIT_DISCONNECT: switch (code) { case DISCONNECTION_RESPONSE: l2cap_finialize_channel_close(channel); break; case DISCONNECTION_REQUEST: l2cap_handle_disconnect_request(channel, identifier); break; default: //@TODO: implement other signaling packets break; } break; case L2CAP_STATE_CLOSED: // @TODO handle incoming requests break; case L2CAP_STATE_OPEN: switch (code) { case DISCONNECTION_REQUEST: l2cap_handle_disconnect_request(channel, identifier); break; default: //@TODO: implement other signaling packets, e.g. re-configure break; } break; default: break; } // printf("new state %u\n", channel->state); } void l2cap_signaling_handler_dispatch( hci_con_handle_t handle, uint8_t * command){ // get code, signalind identifier and command len uint8_t code = command[L2CAP_SIGNALING_COMMAND_CODE_OFFSET]; uint8_t sig_id = command[L2CAP_SIGNALING_COMMAND_SIGID_OFFSET]; uint16_t len = READ_BT_16(command, L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); // not for a particular channel, and not CONNECTION_REQUEST, ECHO_[REQUEST|RESPONSE], INFORMATION_REQUEST if (code < 1 || code == ECHO_RESPONSE || code > INFORMATION_REQUEST){ return; } // general commands without an assigned channel switch(code) { case CONNECTION_REQUEST: { uint16_t psm = READ_BT_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); uint16_t source_cid = READ_BT_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET+2); l2cap_handle_connection_request(handle, sig_id, psm, source_cid); break; } case ECHO_REQUEST: { // send back packet l2cap_send_signaling_packet(handle, ECHO_RESPONSE, sig_id, len, &command[L2CAP_SIGNALING_COMMAND_DATA_OFFSET]); break; } case INFORMATION_REQUEST: { // we neither support connectionless L2CAP data nor support any flow control modes yet uint16_t infoType = READ_BT_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); if (infoType == 2) { uint32_t features = 0; // extended features request supported, however no features present l2cap_send_signaling_packet(handle, INFORMATION_RESPONSE, sig_id, infoType, 0, 4, &features); } else { // all other types are not supported l2cap_send_signaling_packet(handle, INFORMATION_RESPONSE, sig_id, infoType, 1, 0, NULL); } break;; } default: break; } // Get potential destination CID uint16_t dest_cid = READ_BT_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); // Find channel for this sig_id and connection handle linked_item_t *it; for (it = (linked_item_t *) l2cap_channels; it ; it = it->next){ l2cap_channel_t * channel = (l2cap_channel_t *) it; if (channel->handle == handle) { if (code & 1) { // match odd commands by previous signaling identifier if (channel->sig_id == sig_id) { l2cap_signaling_handler_channel(channel, command); } } else { // match even commands by local channel id if (channel->local_cid == dest_cid) { l2cap_signaling_handler_channel(channel, command); } } } } } void l2cap_acl_handler( uint8_t *packet, uint16_t size ){ // Get Channel ID uint16_t channel_id = READ_L2CAP_CHANNEL_ID(packet); // Signaling Packet? if (channel_id == 1) { // Get Connection hci_con_handle_t handle = READ_ACL_CONNECTION_HANDLE(packet); uint16_t command_offset = 8; while (command_offset < size) { // handle signaling commands l2cap_signaling_handler_dispatch(handle, &packet[command_offset]); // increment command_offset command_offset += L2CAP_SIGNALING_COMMAND_DATA_OFFSET + READ_BT_16(packet, command_offset + L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); } return; } // Find channel for this channel_id and connection handle l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(channel_id); if (channel) { l2cap_dispatch(channel, L2CAP_DATA_PACKET, &packet[COMPLETE_L2CAP_HEADER], size-COMPLETE_L2CAP_HEADER); } } static void l2cap_packet_handler(uint8_t packet_type, uint8_t *packet, uint16_t size){ switch (packet_type) { case HCI_EVENT_PACKET: l2cap_event_handler(packet, size); break; case HCI_ACL_DATA_PACKET: l2cap_acl_handler(packet, size); break; default: break; } } // finalize closed channel void l2cap_finialize_channel_close(l2cap_channel_t *channel){ channel->state = L2CAP_STATE_CLOSED; l2cap_emit_channel_closed(channel); // discard channel linked_list_remove(&l2cap_channels, (linked_item_t *) channel); free (channel); } l2cap_service_t * l2cap_get_service(uint16_t psm){ linked_item_t *it; // close open channels for (it = (linked_item_t *) l2cap_services; it ; it = it->next){ l2cap_service_t * service = ((l2cap_service_t *) it); if ( service->psm == psm){ return service; }; } return NULL; } void l2cap_register_service_internal(void *connection, btstack_packet_handler_t packet_handler, uint16_t psm, uint16_t mtu){ // check for alread registered psm // TODO: emit error event l2cap_service_t *service = l2cap_get_service(psm); if (service) return; // alloc structure // TODO: emit error event service = malloc(sizeof(l2cap_service_t)); if (!service) return; // fill in service->psm = psm; service->mtu = mtu; service->connection = connection; service->packet_handler = packet_handler; // add to services list linked_list_add(&l2cap_services, (linked_item_t *) service); } void l2cap_unregister_service_internal(void *connection, uint16_t psm){ l2cap_service_t *service = l2cap_get_service(psm); if (!service) return; linked_list_remove(&l2cap_services, (linked_item_t *) service); free(service); } // void l2cap_close_connection(void *connection){ linked_item_t *it; // close open channels l2cap_channel_t * channel; for (it = (linked_item_t *) l2cap_channels; it ; it = it->next){ channel = (l2cap_channel_t *) it; if (channel->connection == connection) { channel->sig_id = l2cap_next_sig_id(); l2cap_send_signaling_packet( channel->handle, DISCONNECTION_REQUEST, channel->sig_id, channel->remote_cid, channel->local_cid); channel->state = L2CAP_STATE_WAIT_DISCONNECT; } } // unregister services it = (linked_item_t *) &l2cap_services; while (it->next){ l2cap_service_t * service = (l2cap_service_t *) it->next; if (service->connection == connection){ it->next = it->next->next; free(service); } else { it = it->next; } } }