1 /* 2 * Copyright (C) 2014 BlueKitchen GmbH 3 * 4 * Redistribution and use in source and binary forms, with or without 5 * modification, are permitted provided that the following conditions 6 * are met: 7 * 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 3. Neither the name of the copyright holders nor the names of 14 * contributors may be used to endorse or promote products derived 15 * from this software without specific prior written permission. 16 * 4. Any redistribution, use, or modification is done solely for 17 * personal benefit and not for any commercial purpose or for 18 * monetary gain. 19 * 20 * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS 21 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 22 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 23 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS 24 * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 25 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 26 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 27 * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 28 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 29 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 30 * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 * SUCH DAMAGE. 32 * 33 * Please inquire about commercial licensing options at 34 * [email protected] 35 * 36 */ 37 38 #define BTSTACK_FILE__ "l2cap.c" 39 40 /* 41 * l2cap.c 42 * Logical Link Control and Adaption Protocol (L2CAP) 43 */ 44 45 #include "l2cap.h" 46 #include "hci.h" 47 #include "hci_dump.h" 48 #include "bluetooth_sdp.h" 49 #include "bluetooth_psm.h" 50 #include "btstack_bool.h" 51 #include "btstack_debug.h" 52 #include "btstack_event.h" 53 #include "btstack_memory.h" 54 55 #ifdef ENABLE_LE_DATA_CHANNELS 56 // TODO avoid dependency on higher layer: used to trigger pairing for outgoing connections 57 #include "ble/sm.h" 58 #endif 59 60 #include <stdarg.h> 61 #include <string.h> 62 63 /* 64 * @brief L2CAP Supervisory function in S-Frames 65 */ 66 typedef enum { 67 L2CAP_SUPERVISORY_FUNCTION_RR_RECEIVER_READY = 0, 68 L2CAP_SUPERVISORY_FUNCTION_REJ_REJECT, 69 L2CAP_SUPERVISORY_FUNCTION_RNR_RECEIVER_NOT_READY, 70 L2CAP_SUPERVISORY_FUNCTION_SREJ_SELECTIVE_REJECT 71 } l2cap_supervisory_function_t; 72 73 /** 74 * @brief L2CAP Information Types used in Information Request & Response 75 */ 76 typedef enum { 77 L2CAP_INFO_TYPE_CONNECTIONLESS_MTU = 1, 78 L2CAP_INFO_TYPE_EXTENDED_FEATURES_SUPPORTED, 79 L2CAP_INFO_TYPE_FIXED_CHANNELS_SUPPORTED, 80 } l2cap_info_type_t; 81 82 /** 83 * @brief L2CAP Configuration Option Types used in Configurateion Request & Response 84 */ 85 typedef enum { 86 L2CAP_CONFIG_OPTION_TYPE_MAX_TRANSMISSION_UNIT = 1, 87 L2CAP_CONFIG_OPTION_TYPE_FLUSH_TIMEOUT, 88 L2CAP_CONFIG_OPTION_TYPE_QUALITY_OF_SERVICE, 89 L2CAP_CONFIG_OPTION_TYPE_RETRANSMISSION_AND_FLOW_CONTROL, 90 L2CAP_CONFIG_OPTION_TYPE_FRAME_CHECK_SEQUENCE, 91 L2CAP_CONFIG_OPTION_TYPE_EXTENDED_FLOW_SPECIFICATION, 92 L2CAP_CONFIG_OPTION_TYPE_EXTENDED_WINDOW_SIZE, 93 } l2cap_config_option_type_t; 94 95 96 #define L2CAP_SIG_ID_INVALID 0 97 98 // size of HCI ACL + L2CAP Header for regular data packets (8) 99 #define COMPLETE_L2CAP_HEADER (HCI_ACL_HEADER_SIZE + L2CAP_HEADER_SIZE) 100 101 // L2CAP Configuration Result Codes 102 #define L2CAP_CONF_RESULT_SUCCESS 0x0000 103 #define L2CAP_CONF_RESULT_UNACCEPTABLE_PARAMETERS 0x0001 104 #define L2CAP_CONF_RESULT_REJECT 0x0002 105 #define L2CAP_CONF_RESULT_UNKNOWN_OPTIONS 0x0003 106 #define L2CAP_CONF_RESULT_PENDING 0x0004 107 #define L2CAP_CONF_RESULT_FLOW_SPEC_REJECTED 0x0005 108 109 // L2CAP Reject Result Codes 110 #define L2CAP_REJ_CMD_UNKNOWN 0x0000 111 112 // Response Timeout eXpired 113 #define L2CAP_RTX_TIMEOUT_MS 10000 114 115 // Extended Response Timeout eXpired 116 #define L2CAP_ERTX_TIMEOUT_MS 120000 117 118 // nr of buffered acl packets in outgoing queue to get max performance 119 #define NR_BUFFERED_ACL_PACKETS 3 120 121 // used to cache l2cap rejects, echo, and informational requests 122 #define NR_PENDING_SIGNALING_RESPONSES 3 123 124 // nr of credits provided to remote if credits fall below watermark 125 #define L2CAP_LE_DATA_CHANNELS_AUTOMATIC_CREDITS_WATERMARK 5 126 #define L2CAP_LE_DATA_CHANNELS_AUTOMATIC_CREDITS_INCREMENT 5 127 128 // offsets for L2CAP SIGNALING COMMANDS 129 #define L2CAP_SIGNALING_COMMAND_CODE_OFFSET 0 130 #define L2CAP_SIGNALING_COMMAND_SIGID_OFFSET 1 131 #define L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET 2 132 #define L2CAP_SIGNALING_COMMAND_DATA_OFFSET 4 133 134 #if defined(ENABLE_LE_DATA_CHANNELS) || defined(ENABLE_CLASSIC) 135 #define L2CAP_USES_CHANNELS 136 #endif 137 138 // prototypes 139 static void l2cap_run(void); 140 static void l2cap_hci_event_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size); 141 static void l2cap_acl_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size ); 142 static void l2cap_notify_channel_can_send(void); 143 static void l2cap_emit_can_send_now(btstack_packet_handler_t packet_handler, uint16_t channel); 144 static uint8_t l2cap_next_sig_id(void); 145 static l2cap_fixed_channel_t * l2cap_fixed_channel_for_channel_id(uint16_t local_cid); 146 #ifdef ENABLE_CLASSIC 147 static int l2cap_security_level_0_allowed_for_PSM(uint16_t psm); 148 static void l2cap_handle_remote_supported_features_received(l2cap_channel_t * channel); 149 static void l2cap_handle_connection_complete(hci_con_handle_t con_handle, l2cap_channel_t * channel); 150 static void l2cap_finialize_channel_close(l2cap_channel_t *channel); 151 static inline l2cap_service_t * l2cap_get_service(uint16_t psm); 152 static void l2cap_emit_channel_opened(l2cap_channel_t *channel, uint8_t status); 153 static void l2cap_emit_channel_closed(l2cap_channel_t *channel); 154 static void l2cap_emit_incoming_connection(l2cap_channel_t *channel); 155 static int l2cap_channel_ready_for_open(l2cap_channel_t *channel); 156 #endif 157 #ifdef ENABLE_LE_DATA_CHANNELS 158 static void l2cap_emit_le_channel_opened(l2cap_channel_t *channel, uint8_t status); 159 static void l2cap_emit_le_channel_closed(l2cap_channel_t * channel); 160 static void l2cap_emit_le_incoming_connection(l2cap_channel_t *channel); 161 static void l2cap_le_notify_channel_can_send(l2cap_channel_t *channel); 162 static void l2cap_le_finialize_channel_close(l2cap_channel_t *channel); 163 static void l2cap_le_send_pdu(l2cap_channel_t *channel); 164 static inline l2cap_service_t * l2cap_le_get_service(uint16_t psm); 165 #endif 166 #ifdef L2CAP_USES_CHANNELS 167 static uint16_t l2cap_next_local_cid(void); 168 static l2cap_channel_t * l2cap_get_channel_for_local_cid(uint16_t local_cid); 169 static void l2cap_emit_simple_event_with_cid(l2cap_channel_t * channel, uint8_t event_code); 170 static void l2cap_dispatch_to_channel(l2cap_channel_t *channel, uint8_t type, uint8_t * data, uint16_t size); 171 static l2cap_channel_t * l2cap_create_channel_entry(btstack_packet_handler_t packet_handler, l2cap_channel_type_t channel_type, bd_addr_t address, bd_addr_type_t address_type, 172 uint16_t psm, uint16_t local_mtu, gap_security_level_t security_level); 173 static void l2cap_free_channel_entry(l2cap_channel_t * channel); 174 #endif 175 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 176 static void l2cap_ertm_notify_channel_can_send(l2cap_channel_t * channel); 177 static void l2cap_ertm_monitor_timeout_callback(btstack_timer_source_t * ts); 178 static void l2cap_ertm_retransmission_timeout_callback(btstack_timer_source_t * ts); 179 #endif 180 181 // l2cap_fixed_channel_t entries 182 #ifdef ENABLE_BLE 183 static l2cap_fixed_channel_t l2cap_fixed_channel_att; 184 static l2cap_fixed_channel_t l2cap_fixed_channel_sm; 185 #endif 186 #ifdef ENABLE_CLASSIC 187 static l2cap_fixed_channel_t l2cap_fixed_channel_connectionless; 188 #endif 189 190 #ifdef ENABLE_CLASSIC 191 static btstack_linked_list_t l2cap_services; 192 static uint8_t require_security_level2_for_outgoing_sdp; 193 static bd_addr_t l2cap_outgoing_classic_addr; 194 #endif 195 196 #ifdef ENABLE_LE_DATA_CHANNELS 197 static btstack_linked_list_t l2cap_le_services; 198 #endif 199 200 // single list of channels for Classic Channels, LE Data Channels, Classic Connectionless, ATT, and SM 201 static btstack_linked_list_t l2cap_channels; 202 #ifdef L2CAP_USES_CHANNELS 203 // next channel id for new connections 204 static uint16_t local_source_cid; 205 #endif 206 // next signaling sequence number 207 static uint8_t sig_seq_nr; 208 209 // used to cache l2cap rejects, echo, and informational requests 210 static l2cap_signaling_response_t signaling_responses[NR_PENDING_SIGNALING_RESPONSES]; 211 static int signaling_responses_pending; 212 static btstack_packet_callback_registration_t hci_event_callback_registration; 213 214 #ifdef ENABLE_BLE 215 // only used for connection parameter update events 216 static btstack_packet_handler_t l2cap_event_packet_handler; 217 static uint16_t l2cap_le_custom_max_mtu; 218 #endif 219 220 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 221 222 // enable for testing 223 // #define L2CAP_ERTM_SIMULATE_FCS_ERROR_INTERVAL 16 224 225 /* 226 * CRC lookup table for generator polynom D^16 + D^15 + D^2 + 1 227 */ 228 static const uint16_t crc16_table[256] = { 229 0x0000, 0xc0c1, 0xc181, 0x0140, 0xc301, 0x03c0, 0x0280, 0xc241, 0xc601, 0x06c0, 0x0780, 0xc741, 0x0500, 0xc5c1, 0xc481, 0x0440, 230 0xcc01, 0x0cc0, 0x0d80, 0xcd41, 0x0f00, 0xcfc1, 0xce81, 0x0e40, 0x0a00, 0xcac1, 0xcb81, 0x0b40, 0xc901, 0x09c0, 0x0880, 0xc841, 231 0xd801, 0x18c0, 0x1980, 0xd941, 0x1b00, 0xdbc1, 0xda81, 0x1a40, 0x1e00, 0xdec1, 0xdf81, 0x1f40, 0xdd01, 0x1dc0, 0x1c80, 0xdc41, 232 0x1400, 0xd4c1, 0xd581, 0x1540, 0xd701, 0x17c0, 0x1680, 0xd641, 0xd201, 0x12c0, 0x1380, 0xd341, 0x1100, 0xd1c1, 0xd081, 0x1040, 233 0xf001, 0x30c0, 0x3180, 0xf141, 0x3300, 0xf3c1, 0xf281, 0x3240, 0x3600, 0xf6c1, 0xf781, 0x3740, 0xf501, 0x35c0, 0x3480, 0xf441, 234 0x3c00, 0xfcc1, 0xfd81, 0x3d40, 0xff01, 0x3fc0, 0x3e80, 0xfe41, 0xfa01, 0x3ac0, 0x3b80, 0xfb41, 0x3900, 0xf9c1, 0xf881, 0x3840, 235 0x2800, 0xe8c1, 0xe981, 0x2940, 0xeb01, 0x2bc0, 0x2a80, 0xea41, 0xee01, 0x2ec0, 0x2f80, 0xef41, 0x2d00, 0xedc1, 0xec81, 0x2c40, 236 0xe401, 0x24c0, 0x2580, 0xe541, 0x2700, 0xe7c1, 0xe681, 0x2640, 0x2200, 0xe2c1, 0xe381, 0x2340, 0xe101, 0x21c0, 0x2080, 0xe041, 237 0xa001, 0x60c0, 0x6180, 0xa141, 0x6300, 0xa3c1, 0xa281, 0x6240, 0x6600, 0xa6c1, 0xa781, 0x6740, 0xa501, 0x65c0, 0x6480, 0xa441, 238 0x6c00, 0xacc1, 0xad81, 0x6d40, 0xaf01, 0x6fc0, 0x6e80, 0xae41, 0xaa01, 0x6ac0, 0x6b80, 0xab41, 0x6900, 0xa9c1, 0xa881, 0x6840, 239 0x7800, 0xb8c1, 0xb981, 0x7940, 0xbb01, 0x7bc0, 0x7a80, 0xba41, 0xbe01, 0x7ec0, 0x7f80, 0xbf41, 0x7d00, 0xbdc1, 0xbc81, 0x7c40, 240 0xb401, 0x74c0, 0x7580, 0xb541, 0x7700, 0xb7c1, 0xb681, 0x7640, 0x7200, 0xb2c1, 0xb381, 0x7340, 0xb101, 0x71c0, 0x7080, 0xb041, 241 0x5000, 0x90c1, 0x9181, 0x5140, 0x9301, 0x53c0, 0x5280, 0x9241, 0x9601, 0x56c0, 0x5780, 0x9741, 0x5500, 0x95c1, 0x9481, 0x5440, 242 0x9c01, 0x5cc0, 0x5d80, 0x9d41, 0x5f00, 0x9fc1, 0x9e81, 0x5e40, 0x5a00, 0x9ac1, 0x9b81, 0x5b40, 0x9901, 0x59c0, 0x5880, 0x9841, 243 0x8801, 0x48c0, 0x4980, 0x8941, 0x4b00, 0x8bc1, 0x8a81, 0x4a40, 0x4e00, 0x8ec1, 0x8f81, 0x4f40, 0x8d01, 0x4dc0, 0x4c80, 0x8c41, 244 0x4400, 0x84c1, 0x8581, 0x4540, 0x8701, 0x47c0, 0x4680, 0x8641, 0x8201, 0x42c0, 0x4380, 0x8341, 0x4100, 0x81c1, 0x8081, 0x4040, 245 }; 246 247 static uint16_t crc16_calc(uint8_t * data, uint16_t len){ 248 uint16_t crc = 0; // initial value = 0 249 while (len--){ 250 crc = (crc >> 8) ^ crc16_table[ (crc ^ ((uint16_t) *data++)) & 0x00FF ]; 251 } 252 return crc; 253 } 254 255 static inline uint16_t l2cap_encanced_control_field_for_information_frame(uint8_t tx_seq, int final, uint8_t req_seq, l2cap_segmentation_and_reassembly_t sar){ 256 return (((uint16_t) sar) << 14) | (req_seq << 8) | (final << 7) | (tx_seq << 1) | 0; 257 } 258 259 static inline uint16_t l2cap_encanced_control_field_for_supevisor_frame(l2cap_supervisory_function_t supervisory_function, int poll, int final, uint8_t req_seq){ 260 return (req_seq << 8) | (final << 7) | (poll << 4) | (((int) supervisory_function) << 2) | 1; 261 } 262 263 static int l2cap_next_ertm_seq_nr(int seq_nr){ 264 return (seq_nr + 1) & 0x3f; 265 } 266 267 static int l2cap_ertm_can_store_packet_now(l2cap_channel_t * channel){ 268 // get num free tx buffers 269 int num_free_tx_buffers = channel->num_tx_buffers - channel->num_stored_tx_frames; 270 // calculate num tx buffers for remote MTU 271 int num_tx_buffers_for_max_remote_mtu; 272 uint16_t effective_mps = btstack_min(channel->remote_mps, channel->local_mps); 273 if (channel->remote_mtu <= effective_mps){ 274 // MTU fits into single packet 275 num_tx_buffers_for_max_remote_mtu = 1; 276 } else { 277 // include SDU Length 278 num_tx_buffers_for_max_remote_mtu = (channel->remote_mtu + 2 + (effective_mps - 1)) / effective_mps; 279 } 280 log_debug("num_free_tx_buffers %u, num_tx_buffers_for_max_remote_mtu %u", num_free_tx_buffers, num_tx_buffers_for_max_remote_mtu); 281 return num_tx_buffers_for_max_remote_mtu <= num_free_tx_buffers; 282 } 283 284 static void l2cap_ertm_retransmit_unacknowleded_frames(l2cap_channel_t * l2cap_channel){ 285 log_info("Retransmit unacknowleged frames"); 286 l2cap_channel->unacked_frames = 0;; 287 l2cap_channel->tx_send_index = l2cap_channel->tx_read_index; 288 } 289 290 static void l2cap_ertm_next_tx_write_index(l2cap_channel_t * channel){ 291 channel->tx_write_index++; 292 if (channel->tx_write_index < channel->num_tx_buffers) return; 293 channel->tx_write_index = 0; 294 } 295 296 static void l2cap_ertm_start_monitor_timer(l2cap_channel_t * channel){ 297 log_info("Start Monitor timer"); 298 btstack_run_loop_remove_timer(&channel->monitor_timer); 299 btstack_run_loop_set_timer_handler(&channel->monitor_timer, &l2cap_ertm_monitor_timeout_callback); 300 btstack_run_loop_set_timer_context(&channel->monitor_timer, channel); 301 btstack_run_loop_set_timer(&channel->monitor_timer, channel->local_monitor_timeout_ms); 302 btstack_run_loop_add_timer(&channel->monitor_timer); 303 } 304 305 static void l2cap_ertm_stop_monitor_timer(l2cap_channel_t * channel){ 306 log_info("Stop Monitor timer"); 307 btstack_run_loop_remove_timer(&channel->monitor_timer); 308 } 309 310 static void l2cap_ertm_start_retransmission_timer(l2cap_channel_t * channel){ 311 log_info("Start Retransmission timer"); 312 btstack_run_loop_remove_timer(&channel->retransmission_timer); 313 btstack_run_loop_set_timer_handler(&channel->retransmission_timer, &l2cap_ertm_retransmission_timeout_callback); 314 btstack_run_loop_set_timer_context(&channel->retransmission_timer, channel); 315 btstack_run_loop_set_timer(&channel->retransmission_timer, channel->local_retransmission_timeout_ms); 316 btstack_run_loop_add_timer(&channel->retransmission_timer); 317 } 318 319 static void l2cap_ertm_stop_retransmission_timer(l2cap_channel_t * l2cap_channel){ 320 log_info("Stop Retransmission timer"); 321 btstack_run_loop_remove_timer(&l2cap_channel->retransmission_timer); 322 } 323 324 static void l2cap_ertm_monitor_timeout_callback(btstack_timer_source_t * ts){ 325 log_info("Monitor timeout"); 326 l2cap_channel_t * l2cap_channel = (l2cap_channel_t *) btstack_run_loop_get_timer_context(ts); 327 328 // TODO: we assume that it's the oldest packet 329 l2cap_ertm_tx_packet_state_t * tx_state; 330 tx_state = &l2cap_channel->tx_packets_state[l2cap_channel->tx_read_index]; 331 332 // check retry count 333 if (tx_state->retry_count < l2cap_channel->remote_max_transmit){ 334 // increment retry count 335 tx_state->retry_count++; 336 337 // start retransmit 338 l2cap_ertm_retransmit_unacknowleded_frames(l2cap_channel); 339 340 // start monitor timer 341 l2cap_ertm_start_monitor_timer(l2cap_channel); 342 343 // send RR/P=1 344 l2cap_channel->send_supervisor_frame_receiver_ready_poll = 1; 345 } else { 346 log_info("Monitor timer expired & retry count >= max transmit -> disconnect"); 347 l2cap_channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 348 } 349 l2cap_run(); 350 } 351 352 static void l2cap_ertm_retransmission_timeout_callback(btstack_timer_source_t * ts){ 353 log_info("Retransmission timeout"); 354 l2cap_channel_t * l2cap_channel = (l2cap_channel_t *) btstack_run_loop_get_timer_context(ts); 355 356 // TODO: we assume that it's the oldest packet 357 l2cap_ertm_tx_packet_state_t * tx_state; 358 tx_state = &l2cap_channel->tx_packets_state[l2cap_channel->tx_read_index]; 359 360 // set retry count = 1 361 tx_state->retry_count = 1; 362 363 // start retransmit 364 l2cap_ertm_retransmit_unacknowleded_frames(l2cap_channel); 365 366 // start monitor timer 367 l2cap_ertm_start_monitor_timer(l2cap_channel); 368 369 // send RR/P=1 370 l2cap_channel->send_supervisor_frame_receiver_ready_poll = 1; 371 l2cap_run(); 372 } 373 374 static int l2cap_ertm_send_information_frame(l2cap_channel_t * channel, int index, int final){ 375 l2cap_ertm_tx_packet_state_t * tx_state = &channel->tx_packets_state[index]; 376 hci_reserve_packet_buffer(); 377 uint8_t *acl_buffer = hci_get_outgoing_packet_buffer(); 378 uint16_t control = l2cap_encanced_control_field_for_information_frame(tx_state->tx_seq, final, channel->req_seq, tx_state->sar); 379 log_info("I-Frame: control 0x%04x", control); 380 little_endian_store_16(acl_buffer, 8, control); 381 (void)memcpy(&acl_buffer[8 + 2], 382 &channel->tx_packets_data[index * channel->local_mps], 383 tx_state->len); 384 // (re-)start retransmission timer on 385 l2cap_ertm_start_retransmission_timer(channel); 386 // send 387 return l2cap_send_prepared(channel->local_cid, 2 + tx_state->len); 388 } 389 390 static void l2cap_ertm_store_fragment(l2cap_channel_t * channel, l2cap_segmentation_and_reassembly_t sar, uint16_t sdu_length, uint8_t * data, uint16_t len){ 391 // get next index for storing packets 392 int index = channel->tx_write_index; 393 394 l2cap_ertm_tx_packet_state_t * tx_state = &channel->tx_packets_state[index]; 395 tx_state->tx_seq = channel->next_tx_seq; 396 tx_state->sar = sar; 397 tx_state->retry_count = 0; 398 399 uint8_t * tx_packet = &channel->tx_packets_data[index * channel->local_mps]; 400 log_debug("index %u, local mps %u, remote mps %u, packet tx %p, len %u", index, channel->local_mps, channel->remote_mps, tx_packet, len); 401 int pos = 0; 402 if (sar == L2CAP_SEGMENTATION_AND_REASSEMBLY_START_OF_L2CAP_SDU){ 403 little_endian_store_16(tx_packet, 0, sdu_length); 404 pos += 2; 405 } 406 (void)memcpy(&tx_packet[pos], data, len); 407 tx_state->len = pos + len; 408 409 // update 410 channel->num_stored_tx_frames++; 411 channel->next_tx_seq = l2cap_next_ertm_seq_nr(channel->next_tx_seq); 412 l2cap_ertm_next_tx_write_index(channel); 413 414 log_info("l2cap_ertm_store_fragment: tx_read_index %u, tx_write_index %u, num stored %u", channel->tx_read_index, channel->tx_write_index, channel->num_stored_tx_frames); 415 416 } 417 418 static int l2cap_ertm_send(l2cap_channel_t * channel, uint8_t * data, uint16_t len){ 419 if (len > channel->remote_mtu){ 420 log_error("l2cap_ertm_send cid 0x%02x, data length exceeds remote MTU.", channel->local_cid); 421 return L2CAP_DATA_LEN_EXCEEDS_REMOTE_MTU; 422 } 423 424 if (!l2cap_ertm_can_store_packet_now(channel)){ 425 log_error("l2cap_ertm_send cid 0x%02x, fragment store full", channel->local_cid); 426 return BTSTACK_ACL_BUFFERS_FULL; 427 } 428 429 // check if it needs to get fragmented 430 uint16_t effective_mps = btstack_min(channel->remote_mps, channel->local_mps); 431 if (len > effective_mps){ 432 // fragmentation needed. 433 l2cap_segmentation_and_reassembly_t sar = L2CAP_SEGMENTATION_AND_REASSEMBLY_START_OF_L2CAP_SDU; 434 int chunk_len; 435 while (len){ 436 switch (sar){ 437 case L2CAP_SEGMENTATION_AND_REASSEMBLY_START_OF_L2CAP_SDU: 438 chunk_len = effective_mps - 2; // sdu_length 439 l2cap_ertm_store_fragment(channel, sar, len, data, chunk_len); 440 len -= chunk_len; 441 sar = L2CAP_SEGMENTATION_AND_REASSEMBLY_CONTINUATION_OF_L2CAP_SDU; 442 break; 443 case L2CAP_SEGMENTATION_AND_REASSEMBLY_CONTINUATION_OF_L2CAP_SDU: 444 chunk_len = effective_mps; 445 if (chunk_len >= len){ 446 sar = L2CAP_SEGMENTATION_AND_REASSEMBLY_END_OF_L2CAP_SDU; 447 chunk_len = len; 448 } 449 l2cap_ertm_store_fragment(channel, sar, len, data, chunk_len); 450 len -= chunk_len; 451 break; 452 default: 453 break; 454 } 455 } 456 457 } else { 458 l2cap_ertm_store_fragment(channel, L2CAP_SEGMENTATION_AND_REASSEMBLY_UNSEGMENTED_L2CAP_SDU, 0, data, len); 459 } 460 461 // try to send 462 l2cap_notify_channel_can_send(); 463 return 0; 464 } 465 466 static uint16_t l2cap_setup_options_ertm_request(l2cap_channel_t * channel, uint8_t * config_options){ 467 int pos = 0; 468 config_options[pos++] = L2CAP_CONFIG_OPTION_TYPE_RETRANSMISSION_AND_FLOW_CONTROL; 469 config_options[pos++] = 9; // length 470 config_options[pos++] = (uint8_t) channel->mode; 471 config_options[pos++] = channel->num_rx_buffers; // == TxWindows size 472 config_options[pos++] = channel->local_max_transmit; 473 little_endian_store_16( config_options, pos, channel->local_retransmission_timeout_ms); 474 pos += 2; 475 little_endian_store_16( config_options, pos, channel->local_monitor_timeout_ms); 476 pos += 2; 477 little_endian_store_16( config_options, pos, channel->local_mps); 478 pos += 2; 479 // 480 config_options[pos++] = L2CAP_CONFIG_OPTION_TYPE_MAX_TRANSMISSION_UNIT; 481 config_options[pos++] = 2; // length 482 little_endian_store_16(config_options, pos, channel->local_mtu); 483 pos += 2; 484 485 // Issue: iOS (e.g. 10.2) uses "No FCS" as default while Core 5.0 specifies "FCS" as default 486 // Workaround: try to actively negotiate FCS option 487 config_options[pos++] = L2CAP_CONFIG_OPTION_TYPE_FRAME_CHECK_SEQUENCE; 488 config_options[pos++] = 1; // length 489 config_options[pos++] = channel->fcs_option; 490 return pos; // 11+4+3=18 491 } 492 493 static uint16_t l2cap_setup_options_ertm_response(l2cap_channel_t * channel, uint8_t * config_options){ 494 int pos = 0; 495 config_options[pos++] = L2CAP_CONFIG_OPTION_TYPE_RETRANSMISSION_AND_FLOW_CONTROL; 496 config_options[pos++] = 9; // length 497 config_options[pos++] = (uint8_t) channel->mode; 498 // less or equal to remote tx window size 499 config_options[pos++] = btstack_min(channel->num_tx_buffers, channel->remote_tx_window_size); 500 // max transmit in response shall be ignored -> use sender values 501 config_options[pos++] = channel->remote_max_transmit; 502 // A value for the Retransmission time-out shall be sent in a positive Configuration Response 503 // and indicates the value that will be used by the sender of the Configuration Response -> use our value 504 little_endian_store_16( config_options, pos, channel->local_retransmission_timeout_ms); 505 pos += 2; 506 // A value for the Monitor time-out shall be sent in a positive Configuration Response 507 // and indicates the value that will be used by the sender of the Configuration Response -> use our value 508 little_endian_store_16( config_options, pos, channel->local_monitor_timeout_ms); 509 pos += 2; 510 // less or equal to remote mps 511 uint16_t effective_mps = btstack_min(channel->remote_mps, channel->local_mps); 512 little_endian_store_16( config_options, pos, effective_mps); 513 pos += 2; 514 // 515 config_options[pos++] = L2CAP_CONFIG_OPTION_TYPE_MAX_TRANSMISSION_UNIT; // MTU 516 config_options[pos++] = 2; // length 517 little_endian_store_16(config_options, pos, channel->remote_mtu); 518 pos += 2; 519 #if 0 520 // 521 config_options[pos++] = L2CAP_CONFIG_OPTION_TYPE_FRAME_CHECK_SEQUENCE; 522 config_options[pos++] = 1; // length 523 config_options[pos++] = channel->fcs_option; 524 #endif 525 return pos; // 11+4=15 526 } 527 528 static int l2cap_ertm_send_supervisor_frame(l2cap_channel_t * channel, uint16_t control){ 529 hci_reserve_packet_buffer(); 530 uint8_t *acl_buffer = hci_get_outgoing_packet_buffer(); 531 log_info("S-Frame: control 0x%04x", control); 532 little_endian_store_16(acl_buffer, 8, control); 533 return l2cap_send_prepared(channel->local_cid, 2); 534 } 535 536 static uint8_t l2cap_ertm_validate_local_config(l2cap_ertm_config_t * ertm_config){ 537 538 uint8_t result = ERROR_CODE_SUCCESS; 539 if (ertm_config->max_transmit < 1){ 540 log_error("max_transmit must be >= 1"); 541 result = ERROR_CODE_INVALID_HCI_COMMAND_PARAMETERS; 542 } 543 if (ertm_config->retransmission_timeout_ms < 2000){ 544 log_error("retransmission_timeout_ms must be >= 2000 ms"); 545 result = ERROR_CODE_INVALID_HCI_COMMAND_PARAMETERS; 546 } 547 if (ertm_config->monitor_timeout_ms < 12000){ 548 log_error("monitor_timeout_ms must be >= 12000 ms"); 549 result = ERROR_CODE_INVALID_HCI_COMMAND_PARAMETERS; 550 } 551 if (ertm_config->local_mtu < 48){ 552 log_error("local_mtu must be >= 48"); 553 result = ERROR_CODE_INVALID_HCI_COMMAND_PARAMETERS; 554 } 555 if (ertm_config->num_rx_buffers < 1){ 556 log_error("num_rx_buffers must be >= 1"); 557 result = ERROR_CODE_INVALID_HCI_COMMAND_PARAMETERS; 558 } 559 if (ertm_config->num_tx_buffers < 1){ 560 log_error("num_rx_buffers must be >= 1"); 561 result = ERROR_CODE_INVALID_HCI_COMMAND_PARAMETERS; 562 } 563 return result; 564 } 565 566 static void l2cap_ertm_configure_channel(l2cap_channel_t * channel, l2cap_ertm_config_t * ertm_config, uint8_t * buffer, uint32_t size){ 567 568 channel->mode = L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION; 569 channel->ertm_mandatory = ertm_config->ertm_mandatory; 570 channel->local_max_transmit = ertm_config->max_transmit; 571 channel->local_retransmission_timeout_ms = ertm_config->retransmission_timeout_ms; 572 channel->local_monitor_timeout_ms = ertm_config->monitor_timeout_ms; 573 channel->local_mtu = ertm_config->local_mtu; 574 channel->num_rx_buffers = ertm_config->num_rx_buffers; 575 channel->num_tx_buffers = ertm_config->num_tx_buffers; 576 577 // align buffer to 16-byte boundary to assert l2cap_ertm_rx_packet_state_t is aligned 578 int bytes_till_alignment = 16 - (((uintptr_t) buffer) & 0x0f); 579 buffer += bytes_till_alignment; 580 size -= bytes_till_alignment; 581 582 // setup state buffers - use void cast to avoid -Wcast-align warning 583 uint32_t pos = 0; 584 channel->rx_packets_state = (l2cap_ertm_rx_packet_state_t *) (void *) &buffer[pos]; 585 pos += ertm_config->num_rx_buffers * sizeof(l2cap_ertm_rx_packet_state_t); 586 channel->tx_packets_state = (l2cap_ertm_tx_packet_state_t *) (void *) &buffer[pos]; 587 pos += ertm_config->num_tx_buffers * sizeof(l2cap_ertm_tx_packet_state_t); 588 589 // setup reassembly buffer 590 channel->reassembly_buffer = &buffer[pos]; 591 pos += ertm_config->local_mtu; 592 593 // divide rest of data equally 594 channel->local_mps = (size - pos) / (ertm_config->num_rx_buffers + ertm_config->num_tx_buffers); 595 log_info("Local MPS: %u", channel->local_mps); 596 channel->rx_packets_data = &buffer[pos]; 597 pos += ertm_config->num_rx_buffers * channel->local_mps; 598 channel->tx_packets_data = &buffer[pos]; 599 600 channel->fcs_option = ertm_config->fcs_option; 601 } 602 603 uint8_t l2cap_create_ertm_channel(btstack_packet_handler_t packet_handler, bd_addr_t address, uint16_t psm, 604 l2cap_ertm_config_t * ertm_config, uint8_t * buffer, uint32_t size, uint16_t * out_local_cid){ 605 606 log_info("L2CAP_CREATE_ERTM_CHANNEL addr %s, psm 0x%x, local mtu %u", bd_addr_to_str(address), psm, ertm_config->local_mtu); 607 608 // validate local config 609 uint8_t result = l2cap_ertm_validate_local_config(ertm_config); 610 if (result) return result; 611 612 // determine security level based on psm 613 const gap_security_level_t security_level = l2cap_security_level_0_allowed_for_PSM(psm) ? LEVEL_0 : gap_get_security_level(); 614 615 l2cap_channel_t * channel = l2cap_create_channel_entry(packet_handler, L2CAP_CHANNEL_TYPE_CLASSIC, address, BD_ADDR_TYPE_ACL, psm, ertm_config->local_mtu, security_level); 616 if (!channel) { 617 return BTSTACK_MEMORY_ALLOC_FAILED; 618 } 619 620 // configure ERTM 621 l2cap_ertm_configure_channel(channel, ertm_config, buffer, size); 622 623 // add to connections list 624 btstack_linked_list_add_tail(&l2cap_channels, (btstack_linked_item_t *) channel); 625 626 // store local_cid 627 if (out_local_cid){ 628 *out_local_cid = channel->local_cid; 629 } 630 631 // check if hci connection is already usable 632 hci_connection_t * conn = hci_connection_for_bd_addr_and_type(address, BD_ADDR_TYPE_ACL); 633 if (conn){ 634 log_info("l2cap_create_channel, hci connection already exists"); 635 l2cap_handle_connection_complete(conn->con_handle, channel); 636 // check if remote supported fearures are already received 637 if (conn->bonding_flags & BONDING_RECEIVED_REMOTE_FEATURES) { 638 l2cap_handle_remote_supported_features_received(channel); 639 } 640 } 641 642 l2cap_run(); 643 644 return 0; 645 } 646 647 static void l2cap_ertm_notify_channel_can_send(l2cap_channel_t * channel){ 648 if (l2cap_ertm_can_store_packet_now(channel)){ 649 channel->waiting_for_can_send_now = 0; 650 l2cap_emit_can_send_now(channel->packet_handler, channel->local_cid); 651 } 652 } 653 654 uint8_t l2cap_accept_ertm_connection(uint16_t local_cid, l2cap_ertm_config_t * ertm_config, uint8_t * buffer, uint32_t size){ 655 656 log_info("L2CAP_ACCEPT_ERTM_CONNECTION local_cid 0x%x", local_cid); 657 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 658 if (!channel) { 659 log_error("l2cap_accept_connection called but local_cid 0x%x not found", local_cid); 660 return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 661 } 662 663 // validate local config 664 uint8_t result = l2cap_ertm_validate_local_config(ertm_config); 665 if (result) return result; 666 667 // configure L2CAP ERTM 668 l2cap_ertm_configure_channel(channel, ertm_config, buffer, size); 669 670 // default: continue 671 channel->state = L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_ACCEPT; 672 673 // verify remote ERTM support 674 hci_connection_t * connection = hci_connection_for_handle(channel->con_handle); 675 if (connection == NULL) return ERROR_CODE_UNKNOWN_CONNECTION_IDENTIFIER; 676 677 if ((channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION) && ((connection->l2cap_state.extended_feature_mask & 0x08) == 0)){ 678 // ERTM not possible, select basic mode and release buffer 679 channel->mode = L2CAP_CHANNEL_MODE_BASIC; 680 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_ERTM_BUFFER_RELEASED); 681 682 // bail if ERTM is mandatory 683 if (channel->ertm_mandatory){ 684 // We chose 'no resources available' for "ERTM mandatory but you don't even know ERTM exists" 685 log_info("ERTM mandatory -> reject connection"); 686 channel->state = L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_DECLINE; 687 channel->reason = 0x04; // no resources available 688 } else { 689 log_info("ERTM not supported by remote -> use Basic mode"); 690 } 691 } 692 693 // process 694 l2cap_run(); 695 696 return ERROR_CODE_SUCCESS; 697 } 698 699 uint8_t l2cap_ertm_set_busy(uint16_t local_cid){ 700 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid( local_cid); 701 if (!channel) { 702 log_error( "l2cap_decline_connection called but local_cid 0x%x not found", local_cid); 703 return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 704 } 705 if (!channel->local_busy){ 706 channel->local_busy = 1; 707 channel->send_supervisor_frame_receiver_not_ready = 1; 708 l2cap_run(); 709 } 710 return ERROR_CODE_SUCCESS; 711 } 712 713 uint8_t l2cap_ertm_set_ready(uint16_t local_cid){ 714 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid( local_cid); 715 if (!channel) { 716 log_error( "l2cap_decline_connection called but local_cid 0x%x not found", local_cid); 717 return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 718 } 719 if (channel->local_busy){ 720 channel->local_busy = 0; 721 channel->send_supervisor_frame_receiver_ready_poll = 1; 722 l2cap_run(); 723 } 724 return ERROR_CODE_SUCCESS; 725 } 726 727 // Process-ReqSeq 728 static void l2cap_ertm_process_req_seq(l2cap_channel_t * l2cap_channel, uint8_t req_seq){ 729 int num_buffers_acked = 0; 730 l2cap_ertm_tx_packet_state_t * tx_state; 731 log_info("l2cap_ertm_process_req_seq: tx_read_index %u, tx_write_index %u, req_seq %u", l2cap_channel->tx_read_index, l2cap_channel->tx_write_index, req_seq); 732 while (true){ 733 734 // no unack packets left 735 if (l2cap_channel->unacked_frames == 0) { 736 // stop retransmission timer 737 l2cap_ertm_stop_retransmission_timer(l2cap_channel); 738 break; 739 } 740 741 tx_state = &l2cap_channel->tx_packets_state[l2cap_channel->tx_read_index]; 742 // calc delta 743 int delta = (req_seq - tx_state->tx_seq) & 0x03f; 744 if (delta == 0) break; // all packets acknowledged 745 if (delta > l2cap_channel->remote_tx_window_size) break; 746 747 num_buffers_acked++; 748 l2cap_channel->num_stored_tx_frames--; 749 l2cap_channel->unacked_frames--; 750 log_info("RR seq %u => packet with tx_seq %u done", req_seq, tx_state->tx_seq); 751 752 l2cap_channel->tx_read_index++; 753 if (l2cap_channel->tx_read_index >= l2cap_channel->num_rx_buffers){ 754 l2cap_channel->tx_read_index = 0; 755 } 756 } 757 if (num_buffers_acked){ 758 log_info("num_buffers_acked %u", num_buffers_acked); 759 l2cap_ertm_notify_channel_can_send(l2cap_channel); 760 } 761 } 762 763 static l2cap_ertm_tx_packet_state_t * l2cap_ertm_get_tx_state(l2cap_channel_t * l2cap_channel, uint8_t tx_seq){ 764 int i; 765 for (i=0;i<l2cap_channel->num_tx_buffers;i++){ 766 l2cap_ertm_tx_packet_state_t * tx_state = &l2cap_channel->tx_packets_state[i]; 767 if (tx_state->tx_seq == tx_seq) return tx_state; 768 } 769 return NULL; 770 } 771 772 // @param delta number of frames in the future, >= 1 773 // @assumption size <= l2cap_channel->local_mps (checked in l2cap_acl_classic_handler) 774 static void l2cap_ertm_handle_out_of_sequence_sdu(l2cap_channel_t * l2cap_channel, l2cap_segmentation_and_reassembly_t sar, int delta, const uint8_t * payload, uint16_t size){ 775 log_info("Store SDU with delta %u", delta); 776 // get rx state for packet to store 777 int index = l2cap_channel->rx_store_index + delta - 1; 778 if (index > l2cap_channel->num_rx_buffers){ 779 index -= l2cap_channel->num_rx_buffers; 780 } 781 log_info("Index of packet to store %u", index); 782 l2cap_ertm_rx_packet_state_t * rx_state = &l2cap_channel->rx_packets_state[index]; 783 // check if buffer is free 784 if (rx_state->valid){ 785 log_error("Packet buffer already used"); 786 return; 787 } 788 rx_state->valid = 1; 789 rx_state->sar = sar; 790 rx_state->len = size; 791 uint8_t * rx_buffer = &l2cap_channel->rx_packets_data[index]; 792 (void)memcpy(rx_buffer, payload, size); 793 } 794 795 // @assumption size <= l2cap_channel->local_mps (checked in l2cap_acl_classic_handler) 796 static void l2cap_ertm_handle_in_sequence_sdu(l2cap_channel_t * l2cap_channel, l2cap_segmentation_and_reassembly_t sar, const uint8_t * payload, uint16_t size){ 797 uint16_t reassembly_sdu_length; 798 switch (sar){ 799 case L2CAP_SEGMENTATION_AND_REASSEMBLY_UNSEGMENTED_L2CAP_SDU: 800 // assert total packet size <= our mtu 801 if (size > l2cap_channel->local_mtu) break; 802 // packet complete -> disapatch 803 l2cap_dispatch_to_channel(l2cap_channel, L2CAP_DATA_PACKET, (uint8_t*) payload, size); 804 break; 805 case L2CAP_SEGMENTATION_AND_REASSEMBLY_START_OF_L2CAP_SDU: 806 // read SDU len 807 reassembly_sdu_length = little_endian_read_16(payload, 0); 808 payload += 2; 809 size -= 2; 810 // assert reassembled size <= our mtu 811 if (reassembly_sdu_length > l2cap_channel->local_mtu) break; 812 // store start segment 813 l2cap_channel->reassembly_sdu_length = reassembly_sdu_length; 814 (void)memcpy(&l2cap_channel->reassembly_buffer[0], payload, size); 815 l2cap_channel->reassembly_pos = size; 816 break; 817 case L2CAP_SEGMENTATION_AND_REASSEMBLY_CONTINUATION_OF_L2CAP_SDU: 818 // assert size of reassembled data <= our mtu 819 if (l2cap_channel->reassembly_pos + size > l2cap_channel->local_mtu) break; 820 // store continuation segment 821 (void)memcpy(&l2cap_channel->reassembly_buffer[l2cap_channel->reassembly_pos], 822 payload, size); 823 l2cap_channel->reassembly_pos += size; 824 break; 825 case L2CAP_SEGMENTATION_AND_REASSEMBLY_END_OF_L2CAP_SDU: 826 // assert size of reassembled data <= our mtu 827 if (l2cap_channel->reassembly_pos + size > l2cap_channel->local_mtu) break; 828 // store continuation segment 829 (void)memcpy(&l2cap_channel->reassembly_buffer[l2cap_channel->reassembly_pos], 830 payload, size); 831 l2cap_channel->reassembly_pos += size; 832 // assert size of reassembled data matches announced sdu length 833 if (l2cap_channel->reassembly_pos != l2cap_channel->reassembly_sdu_length) break; 834 // packet complete -> disapatch 835 l2cap_dispatch_to_channel(l2cap_channel, L2CAP_DATA_PACKET, l2cap_channel->reassembly_buffer, l2cap_channel->reassembly_pos); 836 l2cap_channel->reassembly_pos = 0; 837 break; 838 default: 839 btstack_assert(false); 840 break; 841 } 842 } 843 844 static void l2cap_ertm_channel_send_information_frame(l2cap_channel_t * channel){ 845 channel->unacked_frames++; 846 int index = channel->tx_send_index; 847 channel->tx_send_index++; 848 if (channel->tx_send_index >= channel->num_tx_buffers){ 849 channel->tx_send_index = 0; 850 } 851 l2cap_ertm_send_information_frame(channel, index, 0); // final = 0 852 } 853 854 #endif 855 856 #ifdef L2CAP_USES_CHANNELS 857 static uint16_t l2cap_next_local_cid(void){ 858 do { 859 if (local_source_cid == 0xffffu) { 860 local_source_cid = 0x40; 861 } else { 862 local_source_cid++; 863 } 864 } while (l2cap_get_channel_for_local_cid(local_source_cid) != NULL); 865 return local_source_cid; 866 } 867 #endif 868 869 static uint8_t l2cap_next_sig_id(void){ 870 if (sig_seq_nr == 0xffu) { 871 sig_seq_nr = 1; 872 } else { 873 sig_seq_nr++; 874 } 875 return sig_seq_nr; 876 } 877 878 void l2cap_init(void){ 879 signaling_responses_pending = 0; 880 #ifdef L2CAP_USES_CHANNELS 881 local_source_cid = 0x40; 882 #endif 883 sig_seq_nr = 0xff; 884 l2cap_channels = NULL; 885 886 #ifdef ENABLE_CLASSIC 887 l2cap_services = NULL; 888 require_security_level2_for_outgoing_sdp = 0; 889 890 // Setup Connectionless Channel 891 l2cap_fixed_channel_connectionless.local_cid = L2CAP_CID_CONNECTIONLESS_CHANNEL; 892 l2cap_fixed_channel_connectionless.channel_type = L2CAP_CHANNEL_TYPE_CONNECTIONLESS; 893 btstack_linked_list_add(&l2cap_channels, (btstack_linked_item_t *) &l2cap_fixed_channel_connectionless); 894 #endif 895 896 #ifdef ENABLE_LE_DATA_CHANNELS 897 l2cap_le_services = NULL; 898 #endif 899 900 #ifdef ENABLE_BLE 901 l2cap_event_packet_handler = NULL; 902 l2cap_le_custom_max_mtu = 0; 903 904 // Setup fixed ATT Channel 905 l2cap_fixed_channel_att.local_cid = L2CAP_CID_ATTRIBUTE_PROTOCOL; 906 l2cap_fixed_channel_att.channel_type = L2CAP_CHANNEL_TYPE_LE_FIXED; 907 btstack_linked_list_add(&l2cap_channels, (btstack_linked_item_t *) &l2cap_fixed_channel_att); 908 909 // Setup fixed SM Channel 910 l2cap_fixed_channel_sm.local_cid = L2CAP_CID_SECURITY_MANAGER_PROTOCOL; 911 l2cap_fixed_channel_sm.channel_type = L2CAP_CHANNEL_TYPE_LE_FIXED; 912 btstack_linked_list_add(&l2cap_channels, (btstack_linked_item_t *) &l2cap_fixed_channel_sm); 913 #endif 914 915 // 916 // register callback with HCI 917 // 918 hci_event_callback_registration.callback = &l2cap_hci_event_handler; 919 hci_add_event_handler(&hci_event_callback_registration); 920 921 hci_register_acl_packet_handler(&l2cap_acl_handler); 922 923 #ifndef ENABLE_EXPLICIT_CONNECTABLE_MODE_CONTROL 924 #ifdef ENABLE_CLASSIC 925 gap_connectable_control(0); // no services yet 926 #endif 927 #endif 928 } 929 930 /** 931 * @brief De-Init L2CAP 932 */ 933 void l2cap_deinit(void){ 934 #ifdef ENABLE_CLASSIC 935 memset(l2cap_outgoing_classic_addr, 0, 6); 936 #endif 937 signaling_responses_pending = 0; 938 } 939 940 void l2cap_register_packet_handler(void (*handler)(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size)){ 941 #ifdef ENABLE_BLE 942 l2cap_event_packet_handler = handler; 943 #else 944 UNUSED(handler); // ok: no code 945 #endif 946 } 947 948 void l2cap_request_can_send_fix_channel_now_event(hci_con_handle_t con_handle, uint16_t channel_id){ 949 UNUSED(con_handle); // ok: there is no con handle 950 951 l2cap_fixed_channel_t * channel = l2cap_fixed_channel_for_channel_id(channel_id); 952 if (!channel) return; 953 channel->waiting_for_can_send_now = 1; 954 l2cap_notify_channel_can_send(); 955 } 956 957 int l2cap_can_send_fixed_channel_packet_now(hci_con_handle_t con_handle, uint16_t channel_id){ 958 UNUSED(channel_id); // ok: only depends on Controller LE buffers 959 960 return hci_can_send_acl_packet_now(con_handle); 961 } 962 963 uint8_t *l2cap_get_outgoing_buffer(void){ 964 return hci_get_outgoing_packet_buffer() + COMPLETE_L2CAP_HEADER; // 8 bytes 965 } 966 967 // only for L2CAP Basic Channels 968 int l2cap_reserve_packet_buffer(void){ 969 return hci_reserve_packet_buffer(); 970 } 971 972 // only for L2CAP Basic Channels 973 void l2cap_release_packet_buffer(void){ 974 hci_release_packet_buffer(); 975 } 976 977 static void l2cap_setup_header(uint8_t * acl_buffer, hci_con_handle_t con_handle, uint8_t packet_boundary, uint16_t remote_cid, uint16_t len){ 978 // 0 - Connection handle : PB=pb : BC=00 979 little_endian_store_16(acl_buffer, 0u, con_handle | (packet_boundary << 12u) | (0u << 14u)); 980 // 2 - ACL length 981 little_endian_store_16(acl_buffer, 2u, len + 4u); 982 // 4 - L2CAP packet length 983 little_endian_store_16(acl_buffer, 4u, len + 0u); 984 // 6 - L2CAP channel DEST 985 little_endian_store_16(acl_buffer, 6, remote_cid); 986 } 987 988 // assumption - only on LE connections 989 int l2cap_send_prepared_connectionless(hci_con_handle_t con_handle, uint16_t cid, uint16_t len){ 990 991 if (!hci_is_packet_buffer_reserved()){ 992 log_error("l2cap_send_prepared_connectionless called without reserving packet first"); 993 return BTSTACK_ACL_BUFFERS_FULL; 994 } 995 996 if (!hci_can_send_prepared_acl_packet_now(con_handle)){ 997 log_info("l2cap_send_prepared_connectionless handle 0x%02x, cid 0x%02x, cannot send", con_handle, cid); 998 return BTSTACK_ACL_BUFFERS_FULL; 999 } 1000 1001 log_debug("l2cap_send_prepared_connectionless handle %u, cid 0x%02x", con_handle, cid); 1002 1003 uint8_t *acl_buffer = hci_get_outgoing_packet_buffer(); 1004 l2cap_setup_header(acl_buffer, con_handle, 0, cid, len); 1005 // send 1006 return hci_send_acl_packet_buffer(len+8u); 1007 } 1008 1009 // assumption - only on LE connections 1010 int l2cap_send_connectionless(hci_con_handle_t con_handle, uint16_t cid, uint8_t *data, uint16_t len){ 1011 1012 if (!hci_can_send_acl_packet_now(con_handle)){ 1013 log_info("l2cap_send cid 0x%02x, cannot send", cid); 1014 return BTSTACK_ACL_BUFFERS_FULL; 1015 } 1016 1017 hci_reserve_packet_buffer(); 1018 uint8_t *acl_buffer = hci_get_outgoing_packet_buffer(); 1019 1020 (void)memcpy(&acl_buffer[8], data, len); 1021 1022 return l2cap_send_prepared_connectionless(con_handle, cid, len); 1023 } 1024 1025 static void l2cap_emit_can_send_now(btstack_packet_handler_t packet_handler, uint16_t channel) { 1026 log_debug("L2CAP_EVENT_CHANNEL_CAN_SEND_NOW local_cid 0x%x", channel); 1027 uint8_t event[4]; 1028 event[0] = L2CAP_EVENT_CAN_SEND_NOW; 1029 event[1] = sizeof(event) - 2u; 1030 little_endian_store_16(event, 2, channel); 1031 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 1032 packet_handler(HCI_EVENT_PACKET, channel, event, sizeof(event)); 1033 } 1034 1035 #ifdef L2CAP_USES_CHANNELS 1036 static void l2cap_dispatch_to_channel(l2cap_channel_t *channel, uint8_t type, uint8_t * data, uint16_t size){ 1037 (* (channel->packet_handler))(type, channel->local_cid, data, size); 1038 } 1039 1040 static void l2cap_emit_simple_event_with_cid(l2cap_channel_t * channel, uint8_t event_code){ 1041 uint8_t event[4]; 1042 event[0] = event_code; 1043 event[1] = sizeof(event) - 2u; 1044 little_endian_store_16(event, 2, channel->local_cid); 1045 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 1046 l2cap_dispatch_to_channel(channel, HCI_EVENT_PACKET, event, sizeof(event)); 1047 } 1048 #endif 1049 1050 #ifdef ENABLE_CLASSIC 1051 void l2cap_emit_channel_opened(l2cap_channel_t *channel, uint8_t status) { 1052 log_info("L2CAP_EVENT_CHANNEL_OPENED status 0x%x addr %s handle 0x%x psm 0x%x local_cid 0x%x remote_cid 0x%x local_mtu %u, remote_mtu %u, flush_timeout %u", 1053 status, bd_addr_to_str(channel->address), channel->con_handle, channel->psm, 1054 channel->local_cid, channel->remote_cid, channel->local_mtu, channel->remote_mtu, channel->flush_timeout); 1055 uint8_t event[26]; 1056 event[0] = L2CAP_EVENT_CHANNEL_OPENED; 1057 event[1] = sizeof(event) - 2; 1058 event[2] = status; 1059 reverse_bd_addr(channel->address, &event[3]); 1060 little_endian_store_16(event, 9, channel->con_handle); 1061 little_endian_store_16(event, 11, channel->psm); 1062 little_endian_store_16(event, 13, channel->local_cid); 1063 little_endian_store_16(event, 15, channel->remote_cid); 1064 little_endian_store_16(event, 17, channel->local_mtu); 1065 little_endian_store_16(event, 19, channel->remote_mtu); 1066 little_endian_store_16(event, 21, channel->flush_timeout); 1067 event[23] = (channel->state_var & L2CAP_CHANNEL_STATE_VAR_INCOMING) ? 1 : 0; 1068 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1069 log_info("ERTM mode %u, fcs enabled %u", channel->mode, channel->fcs_option); 1070 event[24] = channel->mode; 1071 event[25] = channel->fcs_option; 1072 1073 #else 1074 event[24] = L2CAP_CHANNEL_MODE_BASIC; 1075 event[25] = 0; 1076 #endif 1077 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 1078 l2cap_dispatch_to_channel(channel, HCI_EVENT_PACKET, event, sizeof(event)); 1079 } 1080 1081 static void l2cap_emit_channel_closed(l2cap_channel_t *channel) { 1082 log_info("L2CAP_EVENT_CHANNEL_CLOSED local_cid 0x%x", channel->local_cid); 1083 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_CHANNEL_CLOSED); 1084 } 1085 1086 static void l2cap_emit_incoming_connection(l2cap_channel_t *channel) { 1087 log_info("L2CAP_EVENT_INCOMING_CONNECTION addr %s handle 0x%x psm 0x%x local_cid 0x%x remote_cid 0x%x", 1088 bd_addr_to_str(channel->address), channel->con_handle, channel->psm, channel->local_cid, channel->remote_cid); 1089 uint8_t event[16]; 1090 event[0] = L2CAP_EVENT_INCOMING_CONNECTION; 1091 event[1] = sizeof(event) - 2; 1092 reverse_bd_addr(channel->address, &event[2]); 1093 little_endian_store_16(event, 8, channel->con_handle); 1094 little_endian_store_16(event, 10, channel->psm); 1095 little_endian_store_16(event, 12, channel->local_cid); 1096 little_endian_store_16(event, 14, channel->remote_cid); 1097 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 1098 l2cap_dispatch_to_channel(channel, HCI_EVENT_PACKET, event, sizeof(event)); 1099 } 1100 1101 static void l2cap_handle_channel_open_failed(l2cap_channel_t * channel, uint8_t status){ 1102 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1103 // emit ertm buffer released, as it's not needed. if in basic mode, it was either not allocated or already released 1104 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 1105 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_ERTM_BUFFER_RELEASED); 1106 } 1107 #endif 1108 l2cap_emit_channel_opened(channel, status); 1109 } 1110 1111 static void l2cap_handle_channel_closed(l2cap_channel_t * channel){ 1112 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1113 // emit ertm buffer released, as it's not needed anymore. if in basic mode, it was either not allocated or already released 1114 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 1115 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_ERTM_BUFFER_RELEASED); 1116 } 1117 #endif 1118 l2cap_emit_channel_closed(channel); 1119 } 1120 #endif 1121 1122 static l2cap_fixed_channel_t * l2cap_channel_item_by_cid(uint16_t cid){ 1123 btstack_linked_list_iterator_t it; 1124 btstack_linked_list_iterator_init(&it, &l2cap_channels); 1125 while (btstack_linked_list_iterator_has_next(&it)){ 1126 l2cap_fixed_channel_t * channel = (l2cap_fixed_channel_t*) btstack_linked_list_iterator_next(&it); 1127 if (channel->local_cid == cid) { 1128 return channel; 1129 } 1130 } 1131 return NULL; 1132 } 1133 1134 // used for fixed channels in LE (ATT/SM) and Classic (Connectionless Channel). CID < 0x04 1135 static l2cap_fixed_channel_t * l2cap_fixed_channel_for_channel_id(uint16_t local_cid){ 1136 if (local_cid >= 0x40u) return NULL; 1137 return (l2cap_fixed_channel_t*) l2cap_channel_item_by_cid(local_cid); 1138 } 1139 1140 // used for Classic Channels + LE Data Channels. local_cid >= 0x40 1141 #ifdef L2CAP_USES_CHANNELS 1142 static l2cap_channel_t * l2cap_get_channel_for_local_cid(uint16_t local_cid){ 1143 if (local_cid < 0x40u) return NULL; 1144 return (l2cap_channel_t*) l2cap_channel_item_by_cid(local_cid); 1145 } 1146 1147 static l2cap_channel_t * l2cap_get_channel_for_local_cid_and_handle(uint16_t local_cid, hci_con_handle_t con_handle){ 1148 if (local_cid < 0x40u) return NULL; 1149 l2cap_channel_t * l2cap_channel = (l2cap_channel_t*) l2cap_channel_item_by_cid(local_cid); 1150 if (l2cap_channel == NULL) return NULL; 1151 if (l2cap_channel->con_handle != con_handle) return NULL; 1152 return l2cap_channel; 1153 } 1154 1155 void l2cap_request_can_send_now_event(uint16_t local_cid){ 1156 l2cap_channel_t *channel = l2cap_get_channel_for_local_cid(local_cid); 1157 if (!channel) return; 1158 channel->waiting_for_can_send_now = 1; 1159 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1160 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 1161 l2cap_ertm_notify_channel_can_send(channel); 1162 return; 1163 } 1164 #endif 1165 l2cap_notify_channel_can_send(); 1166 } 1167 1168 int l2cap_can_send_packet_now(uint16_t local_cid){ 1169 l2cap_channel_t *channel = l2cap_get_channel_for_local_cid(local_cid); 1170 if (!channel) return 0; 1171 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1172 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 1173 return l2cap_ertm_can_store_packet_now(channel); 1174 } 1175 #endif 1176 return hci_can_send_acl_packet_now(channel->con_handle); 1177 } 1178 1179 int l2cap_can_send_prepared_packet_now(uint16_t local_cid){ 1180 l2cap_channel_t *channel = l2cap_get_channel_for_local_cid(local_cid); 1181 if (!channel) return 0; 1182 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1183 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 1184 return 0; 1185 } 1186 #endif 1187 return hci_can_send_prepared_acl_packet_now(channel->con_handle); 1188 } 1189 1190 uint16_t l2cap_get_remote_mtu_for_local_cid(uint16_t local_cid){ 1191 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 1192 if (channel) { 1193 return channel->remote_mtu; 1194 } 1195 return 0; 1196 } 1197 #endif 1198 1199 #ifdef L2CAP_USES_CHANNELS 1200 static int l2cap_is_dynamic_channel_type(l2cap_channel_type_t channel_type){ 1201 switch (channel_type){ 1202 case L2CAP_CHANNEL_TYPE_CLASSIC: 1203 case L2CAP_CHANNEL_TYPE_LE_DATA_CHANNEL: 1204 return 1; 1205 default: 1206 return 0; 1207 } 1208 } 1209 #endif 1210 1211 #ifdef ENABLE_CLASSIC 1212 // RTX Timer only exist for dynamic channels 1213 static l2cap_channel_t * l2cap_channel_for_rtx_timer(btstack_timer_source_t * ts){ 1214 btstack_linked_list_iterator_t it; 1215 btstack_linked_list_iterator_init(&it, &l2cap_channels); 1216 while (btstack_linked_list_iterator_has_next(&it)){ 1217 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 1218 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 1219 if (&channel->rtx == ts) { 1220 return channel; 1221 } 1222 } 1223 return NULL; 1224 } 1225 1226 static void l2cap_rtx_timeout(btstack_timer_source_t * ts){ 1227 l2cap_channel_t * channel = l2cap_channel_for_rtx_timer(ts); 1228 if (!channel) return; 1229 1230 log_info("l2cap_rtx_timeout for local cid 0x%02x", channel->local_cid); 1231 1232 // "When terminating the channel, it is not necessary to send a L2CAP_DisconnectReq 1233 // and enter WAIT_DISCONNECT state. Channels can be transitioned directly to the CLOSED state." 1234 // notify client 1235 l2cap_handle_channel_open_failed(channel, L2CAP_CONNECTION_RESPONSE_RESULT_RTX_TIMEOUT); 1236 1237 // discard channel 1238 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 1239 l2cap_free_channel_entry(channel); 1240 } 1241 1242 #endif 1243 1244 #ifdef L2CAP_USES_CHANNELS 1245 static void l2cap_stop_rtx(l2cap_channel_t * channel){ 1246 log_info("l2cap_stop_rtx for local cid 0x%02x", channel->local_cid); 1247 btstack_run_loop_remove_timer(&channel->rtx); 1248 } 1249 #endif 1250 1251 #ifdef ENABLE_CLASSIC 1252 1253 static void l2cap_start_rtx(l2cap_channel_t * channel){ 1254 l2cap_stop_rtx(channel); 1255 log_info("l2cap_start_rtx for local cid 0x%02x", channel->local_cid); 1256 btstack_run_loop_set_timer_handler(&channel->rtx, l2cap_rtx_timeout); 1257 btstack_run_loop_set_timer(&channel->rtx, L2CAP_RTX_TIMEOUT_MS); 1258 btstack_run_loop_add_timer(&channel->rtx); 1259 } 1260 1261 static void l2cap_start_ertx(l2cap_channel_t * channel){ 1262 log_info("l2cap_start_ertx for local cid 0x%02x", channel->local_cid); 1263 l2cap_stop_rtx(channel); 1264 btstack_run_loop_set_timer_handler(&channel->rtx, l2cap_rtx_timeout); 1265 btstack_run_loop_set_timer(&channel->rtx, L2CAP_ERTX_TIMEOUT_MS); 1266 btstack_run_loop_add_timer(&channel->rtx); 1267 } 1268 1269 void l2cap_require_security_level_2_for_outgoing_sdp(void){ 1270 require_security_level2_for_outgoing_sdp = 1; 1271 } 1272 1273 static int l2cap_security_level_0_allowed_for_PSM(uint16_t psm){ 1274 return (psm == BLUETOOTH_PSM_SDP) && (!require_security_level2_for_outgoing_sdp); 1275 } 1276 1277 static int l2cap_send_signaling_packet(hci_con_handle_t handle, L2CAP_SIGNALING_COMMANDS cmd, int identifier, ...){ 1278 if (!hci_can_send_acl_packet_now(handle)){ 1279 log_info("l2cap_send_signaling_packet, cannot send"); 1280 return BTSTACK_ACL_BUFFERS_FULL; 1281 } 1282 1283 // log_info("l2cap_send_signaling_packet type %u", cmd); 1284 hci_reserve_packet_buffer(); 1285 uint8_t *acl_buffer = hci_get_outgoing_packet_buffer(); 1286 va_list argptr; 1287 va_start(argptr, identifier); 1288 uint16_t len = l2cap_create_signaling_classic(acl_buffer, handle, cmd, identifier, argptr); 1289 va_end(argptr); 1290 // log_info("l2cap_send_signaling_packet con %u!", handle); 1291 return hci_send_acl_packet_buffer(len); 1292 } 1293 1294 // assumption - only on Classic connections 1295 // cannot be used for L2CAP ERTM 1296 int l2cap_send_prepared(uint16_t local_cid, uint16_t len){ 1297 1298 if (!hci_is_packet_buffer_reserved()){ 1299 log_error("l2cap_send_prepared called without reserving packet first"); 1300 return BTSTACK_ACL_BUFFERS_FULL; 1301 } 1302 1303 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 1304 if (!channel) { 1305 log_error("l2cap_send_prepared no channel for cid 0x%02x", local_cid); 1306 return -1; // TODO: define error 1307 } 1308 1309 if (!hci_can_send_prepared_acl_packet_now(channel->con_handle)){ 1310 log_info("l2cap_send_prepared cid 0x%02x, cannot send", local_cid); 1311 return BTSTACK_ACL_BUFFERS_FULL; 1312 } 1313 1314 log_debug("l2cap_send_prepared cid 0x%02x, handle %u, 1 credit used", local_cid, channel->con_handle); 1315 1316 int fcs_size = 0; 1317 1318 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1319 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION && channel->fcs_option){ 1320 fcs_size = 2; 1321 } 1322 #endif 1323 1324 // set non-flushable packet boundary flag if supported on Controller 1325 uint8_t *acl_buffer = hci_get_outgoing_packet_buffer(); 1326 uint8_t packet_boundary_flag = hci_non_flushable_packet_boundary_flag_supported() ? 0x00 : 0x02; 1327 l2cap_setup_header(acl_buffer, channel->con_handle, packet_boundary_flag, channel->remote_cid, len + fcs_size); 1328 1329 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1330 if (fcs_size){ 1331 // calculate FCS over l2cap data 1332 uint16_t fcs = crc16_calc(acl_buffer + 4, 4 + len); 1333 log_info("I-Frame: fcs 0x%04x", fcs); 1334 little_endian_store_16(acl_buffer, 8 + len, fcs); 1335 } 1336 #endif 1337 1338 // send 1339 return hci_send_acl_packet_buffer(len+8+fcs_size); 1340 } 1341 1342 // assumption - only on Classic connections 1343 int l2cap_send(uint16_t local_cid, uint8_t *data, uint16_t len){ 1344 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 1345 if (!channel) { 1346 log_error("l2cap_send no channel for cid 0x%02x", local_cid); 1347 return -1; // TODO: define error 1348 } 1349 1350 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1351 // send in ERTM 1352 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 1353 return l2cap_ertm_send(channel, data, len); 1354 } 1355 #endif 1356 1357 if (len > channel->remote_mtu){ 1358 log_error("l2cap_send cid 0x%02x, data length exceeds remote MTU.", local_cid); 1359 return L2CAP_DATA_LEN_EXCEEDS_REMOTE_MTU; 1360 } 1361 1362 if (!hci_can_send_acl_packet_now(channel->con_handle)){ 1363 log_info("l2cap_send cid 0x%02x, cannot send", local_cid); 1364 return BTSTACK_ACL_BUFFERS_FULL; 1365 } 1366 1367 hci_reserve_packet_buffer(); 1368 uint8_t *acl_buffer = hci_get_outgoing_packet_buffer(); 1369 (void)memcpy(&acl_buffer[8], data, len); 1370 return l2cap_send_prepared(local_cid, len); 1371 } 1372 1373 int l2cap_send_echo_request(hci_con_handle_t con_handle, uint8_t *data, uint16_t len){ 1374 return l2cap_send_signaling_packet(con_handle, ECHO_REQUEST, l2cap_next_sig_id(), len, data); 1375 } 1376 1377 static inline void channelStateVarSetFlag(l2cap_channel_t *channel, L2CAP_CHANNEL_STATE_VAR flag){ 1378 channel->state_var = (L2CAP_CHANNEL_STATE_VAR) (channel->state_var | flag); 1379 } 1380 1381 static inline void channelStateVarClearFlag(l2cap_channel_t *channel, L2CAP_CHANNEL_STATE_VAR flag){ 1382 channel->state_var = (L2CAP_CHANNEL_STATE_VAR) (channel->state_var & ~flag); 1383 } 1384 #endif 1385 1386 1387 #ifdef ENABLE_BLE 1388 static int l2cap_send_le_signaling_packet(hci_con_handle_t handle, L2CAP_SIGNALING_COMMANDS cmd, int identifier, ...){ 1389 1390 if (!hci_can_send_acl_packet_now(handle)){ 1391 log_info("l2cap_send_le_signaling_packet, cannot send"); 1392 return BTSTACK_ACL_BUFFERS_FULL; 1393 } 1394 1395 // log_info("l2cap_send_le_signaling_packet type %u", cmd); 1396 hci_reserve_packet_buffer(); 1397 uint8_t *acl_buffer = hci_get_outgoing_packet_buffer(); 1398 va_list argptr; 1399 va_start(argptr, identifier); 1400 uint16_t len = l2cap_create_signaling_le(acl_buffer, handle, cmd, identifier, argptr); 1401 va_end(argptr); 1402 // log_info("l2cap_send_le_signaling_packet con %u!", handle); 1403 return hci_send_acl_packet_buffer(len); 1404 } 1405 #endif 1406 1407 uint16_t l2cap_max_mtu(void){ 1408 return HCI_ACL_PAYLOAD_SIZE - L2CAP_HEADER_SIZE; 1409 } 1410 1411 #ifdef ENABLE_BLE 1412 uint16_t l2cap_max_le_mtu(void){ 1413 if (l2cap_le_custom_max_mtu != 0u) return l2cap_le_custom_max_mtu; 1414 return l2cap_max_mtu(); 1415 } 1416 1417 void l2cap_set_max_le_mtu(uint16_t max_mtu){ 1418 if (max_mtu < l2cap_max_mtu()){ 1419 l2cap_le_custom_max_mtu = max_mtu; 1420 } 1421 } 1422 #endif 1423 1424 #ifdef ENABLE_CLASSIC 1425 1426 static uint16_t l2cap_setup_options_mtu(uint8_t * config_options, uint16_t mtu){ 1427 config_options[0] = L2CAP_CONFIG_OPTION_TYPE_MAX_TRANSMISSION_UNIT; // MTU 1428 config_options[1] = 2; // len param 1429 little_endian_store_16(config_options, 2, mtu); 1430 return 4; 1431 } 1432 1433 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1434 static int l2cap_ertm_mode(l2cap_channel_t * channel){ 1435 hci_connection_t * connection = hci_connection_for_handle(channel->con_handle); 1436 return ((connection->l2cap_state.information_state == L2CAP_INFORMATION_STATE_DONE) 1437 && (connection->l2cap_state.extended_feature_mask & 0x08)); 1438 } 1439 #endif 1440 1441 static uint16_t l2cap_setup_options_request(l2cap_channel_t * channel, uint8_t * config_options){ 1442 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1443 // use ERTM options if supported by remote and channel ready to use it 1444 if (l2cap_ertm_mode(channel) && channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 1445 return l2cap_setup_options_ertm_request(channel, config_options); 1446 } 1447 #endif 1448 uint16_t mtu = channel->local_mtu; 1449 return l2cap_setup_options_mtu(config_options, mtu); 1450 } 1451 1452 static uint16_t l2cap_setup_options_mtu_response(l2cap_channel_t * channel, uint8_t * config_options){ 1453 uint16_t mtu = btstack_min(channel->local_mtu, channel->remote_mtu); 1454 return l2cap_setup_options_mtu(config_options, mtu); 1455 } 1456 1457 static uint32_t l2cap_extended_features_mask(void){ 1458 // extended features request supported, features: fixed channels, unicast connectionless data reception 1459 uint32_t features = 0x280; 1460 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1461 features |= 0x0028; 1462 #endif 1463 return features; 1464 } 1465 #endif 1466 1467 // 1468 #ifdef ENABLE_CLASSIC 1469 1470 // returns true if channel was finalized 1471 static bool l2cap_run_for_classic_channel(l2cap_channel_t * channel){ 1472 1473 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1474 uint8_t config_options[18]; 1475 #else 1476 uint8_t config_options[10]; 1477 #endif 1478 1479 switch (channel->state){ 1480 1481 case L2CAP_STATE_WAIT_INCOMING_SECURITY_LEVEL_UPDATE: 1482 case L2CAP_STATE_WAIT_CLIENT_ACCEPT_OR_REJECT: 1483 if (!hci_can_send_acl_packet_now(channel->con_handle)) return false; 1484 if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONN_RESP_PEND) { 1485 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONN_RESP_PEND); 1486 l2cap_send_signaling_packet(channel->con_handle, CONNECTION_RESPONSE, channel->remote_sig_id, channel->local_cid, channel->remote_cid, 1, 0); 1487 } 1488 break; 1489 1490 case L2CAP_STATE_WILL_SEND_CREATE_CONNECTION: 1491 if (!hci_can_send_command_packet_now()) break; 1492 // send connection request - set state first 1493 channel->state = L2CAP_STATE_WAIT_CONNECTION_COMPLETE; 1494 // BD_ADDR, Packet_Type, Page_Scan_Repetition_Mode, Reserved, Clock_Offset, Allow_Role_Switch 1495 (void)memcpy(l2cap_outgoing_classic_addr, channel->address, 6); 1496 hci_send_cmd(&hci_create_connection, channel->address, hci_usable_acl_packet_types(), 0, 0, 0, hci_get_allow_role_switch()); 1497 break; 1498 1499 case L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_DECLINE: 1500 if (!hci_can_send_acl_packet_now(channel->con_handle)) return false; 1501 channel->state = L2CAP_STATE_INVALID; 1502 l2cap_send_signaling_packet(channel->con_handle, CONNECTION_RESPONSE, channel->remote_sig_id, channel->local_cid, channel->remote_cid, channel->reason, 0); 1503 // discard channel - l2cap_finialize_channel_close without sending l2cap close event 1504 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 1505 l2cap_free_channel_entry(channel); 1506 channel = NULL; 1507 break; 1508 1509 case L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_ACCEPT: 1510 if (!hci_can_send_acl_packet_now(channel->con_handle)) return false; 1511 channel->state = L2CAP_STATE_CONFIG; 1512 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_REQ); 1513 l2cap_send_signaling_packet(channel->con_handle, CONNECTION_RESPONSE, channel->remote_sig_id, channel->local_cid, channel->remote_cid, 0, 0); 1514 break; 1515 1516 case L2CAP_STATE_WILL_SEND_CONNECTION_REQUEST: 1517 if (!hci_can_send_acl_packet_now(channel->con_handle)) return false; 1518 // success, start l2cap handshake 1519 channel->local_sig_id = l2cap_next_sig_id(); 1520 channel->state = L2CAP_STATE_WAIT_CONNECT_RSP; 1521 l2cap_send_signaling_packet( channel->con_handle, CONNECTION_REQUEST, channel->local_sig_id, channel->psm, channel->local_cid); 1522 l2cap_start_rtx(channel); 1523 break; 1524 1525 case L2CAP_STATE_CONFIG: 1526 if (!hci_can_send_acl_packet_now(channel->con_handle)) return false; 1527 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1528 // fallback to basic mode if ERTM requested but not not supported by remote 1529 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 1530 if (!l2cap_ertm_mode(channel)){ 1531 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_ERTM_BUFFER_RELEASED); 1532 channel->mode = L2CAP_CHANNEL_MODE_BASIC; 1533 } 1534 } 1535 #endif 1536 if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP){ 1537 uint16_t flags = 0; 1538 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP); 1539 if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_CONT) { 1540 flags = 1; 1541 } else { 1542 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SENT_CONF_RSP); 1543 } 1544 if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_INVALID){ 1545 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SENT_CONF_RSP); 1546 l2cap_send_signaling_packet(channel->con_handle, CONFIGURE_RESPONSE, channel->remote_sig_id, channel->remote_cid, flags, L2CAP_CONF_RESULT_UNKNOWN_OPTIONS, 1, &channel->unknown_option); 1547 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1548 } else if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_REJECTED){ 1549 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_REJECTED); 1550 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SENT_CONF_RSP); 1551 uint16_t options_size = l2cap_setup_options_ertm_response(channel, config_options); 1552 l2cap_send_signaling_packet(channel->con_handle, CONFIGURE_RESPONSE, channel->remote_sig_id, channel->remote_cid, flags, L2CAP_CONF_RESULT_UNACCEPTABLE_PARAMETERS, options_size, &config_options); 1553 } else if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_ERTM){ 1554 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_ERTM); 1555 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_MTU); 1556 uint16_t options_size = l2cap_setup_options_ertm_response(channel, config_options); 1557 l2cap_send_signaling_packet(channel->con_handle, CONFIGURE_RESPONSE, channel->remote_sig_id, channel->remote_cid, flags, L2CAP_CONF_RESULT_SUCCESS, options_size, &config_options); 1558 #endif 1559 } else if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_MTU){ 1560 channelStateVarClearFlag(channel,L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_MTU); 1561 uint16_t options_size = l2cap_setup_options_mtu_response(channel, config_options); 1562 l2cap_send_signaling_packet(channel->con_handle, CONFIGURE_RESPONSE, channel->remote_sig_id, channel->remote_cid, flags, L2CAP_CONF_RESULT_SUCCESS, options_size, &config_options); 1563 } else { 1564 l2cap_send_signaling_packet(channel->con_handle, CONFIGURE_RESPONSE, channel->remote_sig_id, channel->remote_cid, flags, L2CAP_CONF_RESULT_SUCCESS, 0, NULL); 1565 } 1566 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_CONT); 1567 } 1568 else if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_REQ){ 1569 channelStateVarClearFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_REQ); 1570 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SENT_CONF_REQ); 1571 channel->local_sig_id = l2cap_next_sig_id(); 1572 uint16_t options_size = l2cap_setup_options_request(channel, config_options); 1573 l2cap_send_signaling_packet(channel->con_handle, CONFIGURE_REQUEST, channel->local_sig_id, channel->remote_cid, 0, options_size, &config_options); 1574 l2cap_start_rtx(channel); 1575 } 1576 if (l2cap_channel_ready_for_open(channel)){ 1577 channel->state = L2CAP_STATE_OPEN; 1578 l2cap_emit_channel_opened(channel, 0); // success 1579 } 1580 break; 1581 1582 case L2CAP_STATE_WILL_SEND_DISCONNECT_RESPONSE: 1583 if (!hci_can_send_acl_packet_now(channel->con_handle)) return false; 1584 channel->state = L2CAP_STATE_INVALID; 1585 l2cap_send_signaling_packet( channel->con_handle, DISCONNECTION_RESPONSE, channel->remote_sig_id, channel->local_cid, channel->remote_cid); 1586 // we don't start an RTX timer for a disconnect - there's no point in closing the channel if the other side doesn't respond :) 1587 l2cap_finialize_channel_close(channel); // -- remove from list 1588 channel = NULL; 1589 break; 1590 1591 case L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST: 1592 if (!hci_can_send_acl_packet_now(channel->con_handle)) return false; 1593 channel->local_sig_id = l2cap_next_sig_id(); 1594 channel->state = L2CAP_STATE_WAIT_DISCONNECT; 1595 l2cap_send_signaling_packet( channel->con_handle, DISCONNECTION_REQUEST, channel->local_sig_id, channel->remote_cid, channel->local_cid); 1596 break; 1597 default: 1598 break; 1599 } 1600 1601 // handle channel finalize on L2CAP_STATE_WILL_SEND_DISCONNECT_RESPONSE and L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_DECLINE 1602 return channel == NULL; 1603 } 1604 1605 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1606 static void l2cap_run_for_classic_channel_ertm(l2cap_channel_t * channel){ 1607 1608 // ERTM mode 1609 if (channel->mode != L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION) return; 1610 1611 // check if we can still send 1612 if (channel->con_handle == HCI_CON_HANDLE_INVALID) return; 1613 if (!hci_can_send_acl_packet_now(channel->con_handle)) return; 1614 1615 if (channel->send_supervisor_frame_receiver_ready){ 1616 channel->send_supervisor_frame_receiver_ready = 0; 1617 log_info("Send S-Frame: RR %u, final %u", channel->req_seq, channel->set_final_bit_after_packet_with_poll_bit_set); 1618 uint16_t control = l2cap_encanced_control_field_for_supevisor_frame( L2CAP_SUPERVISORY_FUNCTION_RR_RECEIVER_READY, 0, channel->set_final_bit_after_packet_with_poll_bit_set, channel->req_seq); 1619 channel->set_final_bit_after_packet_with_poll_bit_set = 0; 1620 l2cap_ertm_send_supervisor_frame(channel, control); 1621 return; 1622 } 1623 if (channel->send_supervisor_frame_receiver_ready_poll){ 1624 channel->send_supervisor_frame_receiver_ready_poll = 0; 1625 log_info("Send S-Frame: RR %u with poll=1 ", channel->req_seq); 1626 uint16_t control = l2cap_encanced_control_field_for_supevisor_frame( L2CAP_SUPERVISORY_FUNCTION_RR_RECEIVER_READY, 1, 0, channel->req_seq); 1627 l2cap_ertm_send_supervisor_frame(channel, control); 1628 return; 1629 } 1630 if (channel->send_supervisor_frame_receiver_not_ready){ 1631 channel->send_supervisor_frame_receiver_not_ready = 0; 1632 log_info("Send S-Frame: RNR %u", channel->req_seq); 1633 uint16_t control = l2cap_encanced_control_field_for_supevisor_frame( L2CAP_SUPERVISORY_FUNCTION_RNR_RECEIVER_NOT_READY, 0, 0, channel->req_seq); 1634 l2cap_ertm_send_supervisor_frame(channel, control); 1635 return; 1636 } 1637 if (channel->send_supervisor_frame_reject){ 1638 channel->send_supervisor_frame_reject = 0; 1639 log_info("Send S-Frame: REJ %u", channel->req_seq); 1640 uint16_t control = l2cap_encanced_control_field_for_supevisor_frame( L2CAP_SUPERVISORY_FUNCTION_REJ_REJECT, 0, 0, channel->req_seq); 1641 l2cap_ertm_send_supervisor_frame(channel, control); 1642 return; 1643 } 1644 if (channel->send_supervisor_frame_selective_reject){ 1645 channel->send_supervisor_frame_selective_reject = 0; 1646 log_info("Send S-Frame: SREJ %u", channel->expected_tx_seq); 1647 uint16_t control = l2cap_encanced_control_field_for_supevisor_frame( L2CAP_SUPERVISORY_FUNCTION_SREJ_SELECTIVE_REJECT, 0, channel->set_final_bit_after_packet_with_poll_bit_set, channel->expected_tx_seq); 1648 channel->set_final_bit_after_packet_with_poll_bit_set = 0; 1649 l2cap_ertm_send_supervisor_frame(channel, control); 1650 return; 1651 } 1652 1653 if (channel->srej_active){ 1654 int i; 1655 for (i=0;i<channel->num_tx_buffers;i++){ 1656 l2cap_ertm_tx_packet_state_t * tx_state = &channel->tx_packets_state[i]; 1657 if (tx_state->retransmission_requested) { 1658 tx_state->retransmission_requested = 0; 1659 uint8_t final = channel->set_final_bit_after_packet_with_poll_bit_set; 1660 channel->set_final_bit_after_packet_with_poll_bit_set = 0; 1661 l2cap_ertm_send_information_frame(channel, i, final); 1662 break; 1663 } 1664 } 1665 if (i == channel->num_tx_buffers){ 1666 // no retransmission request found 1667 channel->srej_active = 0; 1668 } else { 1669 // packet was sent 1670 return; 1671 } 1672 } 1673 } 1674 #endif /* ERTM */ 1675 #endif /* Classic */ 1676 1677 static void l2cap_run_signaling_response(void) { 1678 1679 // check pending signaling responses 1680 while (signaling_responses_pending){ 1681 1682 hci_con_handle_t handle = signaling_responses[0].handle; 1683 1684 if (!hci_can_send_acl_packet_now(handle)) break; 1685 1686 uint8_t sig_id = signaling_responses[0].sig_id; 1687 uint8_t response_code = signaling_responses[0].code; 1688 uint16_t result = signaling_responses[0].data; // CONNECTION_REQUEST, COMMAND_REJECT 1689 #ifdef ENABLE_CLASSIC 1690 uint16_t info_type = signaling_responses[0].data; // INFORMATION_REQUEST 1691 uint16_t source_cid = signaling_responses[0].cid; // CONNECTION_REQUEST 1692 #endif 1693 1694 // remove first item before sending (to avoid sending response mutliple times) 1695 signaling_responses_pending--; 1696 int i; 1697 for (i=0; i < signaling_responses_pending; i++){ 1698 (void)memcpy(&signaling_responses[i], 1699 &signaling_responses[i + 1], 1700 sizeof(l2cap_signaling_response_t)); 1701 } 1702 1703 switch (response_code){ 1704 #ifdef ENABLE_CLASSIC 1705 case CONNECTION_REQUEST: 1706 l2cap_send_signaling_packet(handle, CONNECTION_RESPONSE, sig_id, source_cid, 0, result, 0); 1707 // also disconnect if result is 0x0003 - security blocked 1708 if (result == 0x0003){ 1709 hci_disconnect_security_block(handle); 1710 } 1711 break; 1712 case ECHO_REQUEST: 1713 l2cap_send_signaling_packet(handle, ECHO_RESPONSE, sig_id, 0, NULL); 1714 break; 1715 case INFORMATION_REQUEST: 1716 switch (info_type){ 1717 case L2CAP_INFO_TYPE_CONNECTIONLESS_MTU: { 1718 uint16_t connectionless_mtu = hci_max_acl_data_packet_length(); 1719 l2cap_send_signaling_packet(handle, INFORMATION_RESPONSE, sig_id, info_type, 0, sizeof(connectionless_mtu), &connectionless_mtu); 1720 } 1721 break; 1722 case L2CAP_INFO_TYPE_EXTENDED_FEATURES_SUPPORTED: { 1723 uint32_t features = l2cap_extended_features_mask(); 1724 l2cap_send_signaling_packet(handle, INFORMATION_RESPONSE, sig_id, info_type, 0, sizeof(features), &features); 1725 } 1726 break; 1727 case L2CAP_INFO_TYPE_FIXED_CHANNELS_SUPPORTED: { 1728 uint8_t map[8]; 1729 memset(map, 0, 8); 1730 map[0] = 0x06; // L2CAP Signaling Channel (0x02) + Connectionless reception (0x04) 1731 l2cap_send_signaling_packet(handle, INFORMATION_RESPONSE, sig_id, info_type, 0, sizeof(map), &map); 1732 } 1733 break; 1734 default: 1735 // all other types are not supported 1736 l2cap_send_signaling_packet(handle, INFORMATION_RESPONSE, sig_id, info_type, 1, 0, NULL); 1737 break; 1738 } 1739 break; 1740 case COMMAND_REJECT: 1741 l2cap_send_signaling_packet(handle, COMMAND_REJECT, sig_id, result, 0, NULL); 1742 break; 1743 #endif 1744 #ifdef ENABLE_BLE 1745 case LE_CREDIT_BASED_CONNECTION_REQUEST: 1746 l2cap_send_le_signaling_packet(handle, LE_CREDIT_BASED_CONNECTION_RESPONSE, sig_id, 0, 0, 0, 0, result); 1747 break; 1748 case COMMAND_REJECT_LE: 1749 l2cap_send_le_signaling_packet(handle, COMMAND_REJECT, sig_id, result, 0, NULL); 1750 break; 1751 #endif 1752 default: 1753 // should not happen 1754 break; 1755 } 1756 } 1757 } 1758 1759 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1760 static bool l2ap_run_ertm(void){ 1761 // send l2cap information request if neccessary 1762 btstack_linked_list_iterator_t it; 1763 hci_connections_get_iterator(&it); 1764 while(btstack_linked_list_iterator_has_next(&it)){ 1765 hci_connection_t * connection = (hci_connection_t *) btstack_linked_list_iterator_next(&it); 1766 if (connection->l2cap_state.information_state == L2CAP_INFORMATION_STATE_W2_SEND_EXTENDED_FEATURE_REQUEST){ 1767 if (!hci_can_send_acl_packet_now(connection->con_handle)) break; 1768 connection->l2cap_state.information_state = L2CAP_INFORMATION_STATE_W4_EXTENDED_FEATURE_RESPONSE; 1769 uint8_t sig_id = l2cap_next_sig_id(); 1770 uint8_t info_type = L2CAP_INFO_TYPE_EXTENDED_FEATURES_SUPPORTED; 1771 l2cap_send_signaling_packet(connection->con_handle, INFORMATION_REQUEST, sig_id, info_type); 1772 return true; 1773 } 1774 } 1775 return false; 1776 } 1777 #endif 1778 1779 #ifdef ENABLE_LE_DATA_CHANNELS 1780 static void l2cap_run_le_data_channels(void){ 1781 btstack_linked_list_iterator_t it; 1782 btstack_linked_list_iterator_init(&it, &l2cap_channels); 1783 while (btstack_linked_list_iterator_has_next(&it)){ 1784 uint16_t mps; 1785 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 1786 1787 if (channel->channel_type != L2CAP_CHANNEL_TYPE_LE_DATA_CHANNEL) continue; 1788 1789 // log_info("l2cap_run: channel %p, state %u, var 0x%02x", channel, channel->state, channel->state_var); 1790 switch (channel->state){ 1791 case L2CAP_STATE_WILL_SEND_LE_CONNECTION_REQUEST: 1792 if (!hci_can_send_acl_packet_now(channel->con_handle)) break; 1793 channel->state = L2CAP_STATE_WAIT_LE_CONNECTION_RESPONSE; 1794 // le psm, source cid, mtu, mps, initial credits 1795 channel->local_sig_id = l2cap_next_sig_id(); 1796 channel->credits_incoming = channel->new_credits_incoming; 1797 channel->new_credits_incoming = 0; 1798 mps = btstack_min(l2cap_max_le_mtu(), channel->local_mtu); 1799 l2cap_send_le_signaling_packet( channel->con_handle, LE_CREDIT_BASED_CONNECTION_REQUEST, channel->local_sig_id, channel->psm, channel->local_cid, channel->local_mtu, mps, channel->credits_incoming); 1800 break; 1801 case L2CAP_STATE_WILL_SEND_LE_CONNECTION_RESPONSE_ACCEPT: 1802 if (!hci_can_send_acl_packet_now(channel->con_handle)) break; 1803 // TODO: support larger MPS 1804 channel->state = L2CAP_STATE_OPEN; 1805 channel->credits_incoming = channel->new_credits_incoming; 1806 channel->new_credits_incoming = 0; 1807 mps = btstack_min(l2cap_max_le_mtu(), channel->local_mtu); 1808 l2cap_send_le_signaling_packet(channel->con_handle, LE_CREDIT_BASED_CONNECTION_RESPONSE, channel->remote_sig_id, channel->local_cid, channel->local_mtu, mps, channel->credits_incoming, 0); 1809 // notify client 1810 l2cap_emit_le_channel_opened(channel, 0); 1811 break; 1812 case L2CAP_STATE_WILL_SEND_LE_CONNECTION_RESPONSE_DECLINE: 1813 if (!hci_can_send_acl_packet_now(channel->con_handle)) break; 1814 channel->state = L2CAP_STATE_INVALID; 1815 l2cap_send_le_signaling_packet(channel->con_handle, LE_CREDIT_BASED_CONNECTION_RESPONSE, channel->remote_sig_id, 0, 0, 0, 0, channel->reason); 1816 // discard channel - l2cap_finialize_channel_close without sending l2cap close event 1817 btstack_linked_list_iterator_remove(&it); 1818 l2cap_free_channel_entry(channel); 1819 break; 1820 case L2CAP_STATE_OPEN: 1821 if (!hci_can_send_acl_packet_now(channel->con_handle)) break; 1822 1823 // send credits 1824 if (channel->new_credits_incoming){ 1825 log_info("l2cap: sending %u credits", channel->new_credits_incoming); 1826 channel->local_sig_id = l2cap_next_sig_id(); 1827 uint16_t new_credits = channel->new_credits_incoming; 1828 channel->new_credits_incoming = 0; 1829 channel->credits_incoming += new_credits; 1830 l2cap_send_le_signaling_packet(channel->con_handle, LE_FLOW_CONTROL_CREDIT, channel->local_sig_id, channel->remote_cid, new_credits); 1831 } 1832 break; 1833 1834 case L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST: 1835 if (!hci_can_send_acl_packet_now(channel->con_handle)) break; 1836 channel->local_sig_id = l2cap_next_sig_id(); 1837 channel->state = L2CAP_STATE_WAIT_DISCONNECT; 1838 l2cap_send_le_signaling_packet( channel->con_handle, DISCONNECTION_REQUEST, channel->local_sig_id, channel->remote_cid, channel->local_cid); 1839 break; 1840 case L2CAP_STATE_WILL_SEND_DISCONNECT_RESPONSE: 1841 if (!hci_can_send_acl_packet_now(channel->con_handle)) break; 1842 channel->state = L2CAP_STATE_INVALID; 1843 l2cap_send_le_signaling_packet( channel->con_handle, DISCONNECTION_RESPONSE, channel->remote_sig_id, channel->local_cid, channel->remote_cid); 1844 l2cap_le_finialize_channel_close(channel); // -- remove from list 1845 break; 1846 default: 1847 break; 1848 } 1849 } 1850 } 1851 #endif 1852 1853 // MARK: L2CAP_RUN 1854 // process outstanding signaling tasks 1855 static void l2cap_run(void){ 1856 1857 // log_info("l2cap_run: entered"); 1858 l2cap_run_signaling_response(); 1859 1860 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1861 bool done = l2ap_run_ertm(); 1862 if (done) return; 1863 #endif 1864 1865 #if defined(ENABLE_CLASSIC) || defined(ENABLE_BLE) 1866 btstack_linked_list_iterator_t it; 1867 #endif 1868 1869 #ifdef ENABLE_CLASSIC 1870 btstack_linked_list_iterator_init(&it, &l2cap_channels); 1871 while (btstack_linked_list_iterator_has_next(&it)){ 1872 1873 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 1874 1875 if (channel->channel_type != L2CAP_CHANNEL_TYPE_CLASSIC) continue; 1876 1877 // log_info("l2cap_run: channel %p, state %u, var 0x%02x", channel, channel->state, channel->state_var); 1878 bool finalized = l2cap_run_for_classic_channel(channel); 1879 1880 if (!finalized) { 1881 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1882 l2cap_run_for_classic_channel_ertm(channel); 1883 #endif 1884 } 1885 } 1886 #endif 1887 1888 #ifdef ENABLE_LE_DATA_CHANNELS 1889 l2cap_run_le_data_channels(); 1890 #endif 1891 1892 #ifdef ENABLE_BLE 1893 // send l2cap con paramter update if necessary 1894 hci_connections_get_iterator(&it); 1895 while(btstack_linked_list_iterator_has_next(&it)){ 1896 hci_connection_t * connection = (hci_connection_t *) btstack_linked_list_iterator_next(&it); 1897 if ((connection->address_type != BD_ADDR_TYPE_LE_PUBLIC) && (connection->address_type != BD_ADDR_TYPE_LE_RANDOM)) continue; 1898 if (!hci_can_send_acl_packet_now(connection->con_handle)) continue; 1899 switch (connection->le_con_parameter_update_state){ 1900 case CON_PARAMETER_UPDATE_SEND_REQUEST: 1901 connection->le_con_parameter_update_state = CON_PARAMETER_UPDATE_NONE; 1902 l2cap_send_le_signaling_packet(connection->con_handle, CONNECTION_PARAMETER_UPDATE_REQUEST, l2cap_next_sig_id(), 1903 connection->le_conn_interval_min, connection->le_conn_interval_max, connection->le_conn_latency, connection->le_supervision_timeout); 1904 break; 1905 case CON_PARAMETER_UPDATE_SEND_RESPONSE: 1906 connection->le_con_parameter_update_state = CON_PARAMETER_UPDATE_CHANGE_HCI_CON_PARAMETERS; 1907 l2cap_send_le_signaling_packet(connection->con_handle, CONNECTION_PARAMETER_UPDATE_RESPONSE, connection->le_con_param_update_identifier, 0); 1908 break; 1909 case CON_PARAMETER_UPDATE_DENY: 1910 connection->le_con_parameter_update_state = CON_PARAMETER_UPDATE_NONE; 1911 l2cap_send_le_signaling_packet(connection->con_handle, CONNECTION_PARAMETER_UPDATE_RESPONSE, connection->le_con_param_update_identifier, 1); 1912 break; 1913 default: 1914 break; 1915 } 1916 } 1917 #endif 1918 1919 // log_info("l2cap_run: exit"); 1920 } 1921 1922 #ifdef ENABLE_CLASSIC 1923 static void l2cap_handle_connection_complete(hci_con_handle_t con_handle, l2cap_channel_t * channel){ 1924 if ((channel->state == L2CAP_STATE_WAIT_CONNECTION_COMPLETE) || (channel->state == L2CAP_STATE_WILL_SEND_CREATE_CONNECTION)) { 1925 log_info("connection complete con_handle %04x - for channel %p cid 0x%04x", (int) con_handle, channel, channel->local_cid); 1926 // success, start l2cap handshake 1927 channel->con_handle = con_handle; 1928 // check remote SSP feature first 1929 channel->state = L2CAP_STATE_WAIT_REMOTE_SUPPORTED_FEATURES; 1930 } 1931 } 1932 1933 static void l2cap_ready_to_connect(l2cap_channel_t * channel){ 1934 1935 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 1936 // assumption: outgoing connection 1937 hci_connection_t * connection = hci_connection_for_handle(channel->con_handle); 1938 if (connection->l2cap_state.information_state == L2CAP_INFORMATION_STATE_IDLE){ 1939 connection->l2cap_state.information_state = L2CAP_INFORMATION_STATE_W2_SEND_EXTENDED_FEATURE_REQUEST; 1940 channel->state = L2CAP_STATE_WAIT_OUTGOING_EXTENDED_FEATURES; 1941 return; 1942 } 1943 #endif 1944 1945 // fine, go ahead 1946 channel->state = L2CAP_STATE_WILL_SEND_CONNECTION_REQUEST; 1947 } 1948 1949 static void l2cap_handle_remote_supported_features_received(l2cap_channel_t * channel){ 1950 if (channel->state != L2CAP_STATE_WAIT_REMOTE_SUPPORTED_FEATURES) return; 1951 1952 // abort if Secure Connections Only Mode with legacy connection 1953 if (gap_get_secure_connections_only_mode() && gap_secure_connection(channel->con_handle) == false){ 1954 l2cap_handle_channel_open_failed(channel, L2CAP_CONNECTION_RESPONSE_RESULT_REFUSED_SECURITY); 1955 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 1956 l2cap_free_channel_entry(channel); 1957 return; 1958 } 1959 1960 // we have been waiting for remote supported features 1961 if (channel->required_security_level > LEVEL_0){ 1962 // request security level 1963 channel->state = L2CAP_STATE_WAIT_OUTGOING_SECURITY_LEVEL_UPDATE; 1964 gap_request_security_level(channel->con_handle, channel->required_security_level); 1965 return; 1966 } 1967 1968 l2cap_ready_to_connect(channel); 1969 } 1970 #endif 1971 1972 #ifdef L2CAP_USES_CHANNELS 1973 static l2cap_channel_t * l2cap_create_channel_entry(btstack_packet_handler_t packet_handler, l2cap_channel_type_t channel_type, bd_addr_t address, bd_addr_type_t address_type, 1974 uint16_t psm, uint16_t local_mtu, gap_security_level_t security_level){ 1975 1976 l2cap_channel_t * channel = btstack_memory_l2cap_channel_get(); 1977 if (!channel) { 1978 return NULL; 1979 } 1980 1981 // fill in 1982 channel->packet_handler = packet_handler; 1983 channel->channel_type = channel_type; 1984 bd_addr_copy(channel->address, address); 1985 channel->address_type = address_type; 1986 channel->psm = psm; 1987 channel->local_mtu = local_mtu; 1988 channel->remote_mtu = L2CAP_DEFAULT_MTU; 1989 channel->required_security_level = security_level; 1990 1991 // 1992 channel->local_cid = l2cap_next_local_cid(); 1993 channel->con_handle = HCI_CON_HANDLE_INVALID; 1994 1995 // set initial state 1996 channel->state = L2CAP_STATE_WILL_SEND_CREATE_CONNECTION; 1997 channel->state_var = L2CAP_CHANNEL_STATE_VAR_NONE; 1998 channel->remote_sig_id = L2CAP_SIG_ID_INVALID; 1999 channel->local_sig_id = L2CAP_SIG_ID_INVALID; 2000 2001 log_info("create channel %p, local_cid 0x%04x", channel, channel->local_cid); 2002 2003 return channel; 2004 } 2005 2006 static void l2cap_free_channel_entry(l2cap_channel_t * channel){ 2007 log_info("free channel %p, local_cid 0x%04x", channel, channel->local_cid); 2008 // assert all timers are stopped 2009 l2cap_stop_rtx(channel); 2010 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2011 l2cap_ertm_stop_retransmission_timer(channel); 2012 l2cap_ertm_stop_monitor_timer(channel); 2013 #endif 2014 // free memory 2015 btstack_memory_l2cap_channel_free(channel); 2016 } 2017 #endif 2018 2019 #ifdef ENABLE_CLASSIC 2020 2021 /** 2022 * @brief Creates L2CAP channel to the PSM of a remote device with baseband address. A new baseband connection will be initiated if necessary. 2023 * @param packet_handler 2024 * @param address 2025 * @param psm 2026 * @param mtu 2027 * @param local_cid 2028 */ 2029 2030 uint8_t l2cap_create_channel(btstack_packet_handler_t channel_packet_handler, bd_addr_t address, uint16_t psm, uint16_t mtu, uint16_t * out_local_cid){ 2031 // limit MTU to the size of our outgoing HCI buffer 2032 uint16_t local_mtu = btstack_min(mtu, l2cap_max_mtu()); 2033 2034 // determine security level based on psm 2035 const gap_security_level_t security_level = l2cap_security_level_0_allowed_for_PSM(psm) ? LEVEL_0 : gap_get_security_level(); 2036 log_info("L2CAP_CREATE_CHANNEL addr %s psm 0x%x mtu %u -> local mtu %u, sec level %u", bd_addr_to_str(address), psm, mtu, local_mtu, (int) security_level); 2037 2038 l2cap_channel_t * channel = l2cap_create_channel_entry(channel_packet_handler, L2CAP_CHANNEL_TYPE_CLASSIC, address, BD_ADDR_TYPE_ACL, psm, local_mtu, security_level); 2039 if (!channel) { 2040 return BTSTACK_MEMORY_ALLOC_FAILED; 2041 } 2042 2043 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2044 channel->mode = L2CAP_CHANNEL_MODE_BASIC; 2045 #endif 2046 2047 // add to connections list 2048 btstack_linked_list_add_tail(&l2cap_channels, (btstack_linked_item_t *) channel); 2049 2050 // store local_cid 2051 if (out_local_cid){ 2052 *out_local_cid = channel->local_cid; 2053 } 2054 2055 // state: L2CAP_STATE_WILL_SEND_CREATE_CONNECTION 2056 2057 // check if hci connection is already usable, 2058 hci_connection_t * conn = hci_connection_for_bd_addr_and_type(address, BD_ADDR_TYPE_ACL); 2059 if (conn && conn->state == OPEN){ 2060 // simulate connection complete 2061 l2cap_handle_connection_complete(conn->con_handle, channel); 2062 2063 // state: L2CAP_STATE_WAIT_REMOTE_SUPPORTED_FEATURES 2064 2065 // check if remote supported features are already received 2066 if (conn->bonding_flags & BONDING_RECEIVED_REMOTE_FEATURES) { 2067 // simulate remote features received 2068 l2cap_handle_remote_supported_features_received(channel); 2069 } 2070 } 2071 2072 l2cap_run(); 2073 2074 return ERROR_CODE_SUCCESS; 2075 } 2076 2077 void l2cap_disconnect(uint16_t local_cid, uint8_t reason){ 2078 log_info("L2CAP_DISCONNECT local_cid 0x%x reason 0x%x", local_cid, reason); 2079 // find channel for local_cid 2080 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 2081 if (channel) { 2082 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 2083 } 2084 // process 2085 l2cap_run(); 2086 } 2087 2088 static void l2cap_handle_connection_failed_for_addr(bd_addr_t address, uint8_t status){ 2089 // mark all channels before emitting open events as these could trigger new connetion requests to the same device 2090 btstack_linked_list_iterator_t it; 2091 btstack_linked_list_iterator_init(&it, &l2cap_channels); 2092 while (btstack_linked_list_iterator_has_next(&it)){ 2093 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2094 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 2095 if (bd_addr_cmp( channel->address, address) != 0) continue; 2096 // channel for this address found 2097 switch (channel->state){ 2098 case L2CAP_STATE_WAIT_CONNECTION_COMPLETE: 2099 case L2CAP_STATE_WILL_SEND_CREATE_CONNECTION: 2100 channel->state = L2CAP_STATE_EMIT_OPEN_FAILED_AND_DISCARD; 2101 break; 2102 default: 2103 break; 2104 } 2105 } 2106 // emit and free marked entries. restart loop to deal with list changes 2107 int done = 0; 2108 while (!done) { 2109 done = 1; 2110 btstack_linked_list_iterator_init(&it, &l2cap_channels); 2111 while (btstack_linked_list_iterator_has_next(&it)){ 2112 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2113 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 2114 if (channel->state == L2CAP_STATE_EMIT_OPEN_FAILED_AND_DISCARD){ 2115 done = 0; 2116 // failure, forward error code 2117 l2cap_handle_channel_open_failed(channel, status); 2118 // discard channel 2119 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 2120 l2cap_free_channel_entry(channel); 2121 break; 2122 } 2123 } 2124 } 2125 2126 } 2127 2128 static void l2cap_handle_connection_success_for_addr(bd_addr_t address, hci_con_handle_t handle){ 2129 btstack_linked_list_iterator_t it; 2130 btstack_linked_list_iterator_init(&it, &l2cap_channels); 2131 while (btstack_linked_list_iterator_has_next(&it)){ 2132 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2133 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 2134 if ( ! bd_addr_cmp( channel->address, address) ){ 2135 l2cap_handle_connection_complete(handle, channel); 2136 } 2137 } 2138 // process 2139 l2cap_run(); 2140 } 2141 #endif 2142 2143 static bool l2cap_channel_ready_to_send(l2cap_channel_t * channel){ 2144 switch (channel->channel_type){ 2145 #ifdef ENABLE_CLASSIC 2146 case L2CAP_CHANNEL_TYPE_CLASSIC: 2147 if (channel->state != L2CAP_STATE_OPEN) return false; 2148 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2149 // send if we have more data and remote windows isn't full yet 2150 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION) { 2151 if (channel->unacked_frames >= btstack_min(channel->num_stored_tx_frames, channel->remote_tx_window_size)) return false; 2152 return hci_can_send_acl_classic_packet_now() != 0; 2153 } 2154 #endif 2155 if (!channel->waiting_for_can_send_now) return false; 2156 return (hci_can_send_acl_classic_packet_now() != 0); 2157 case L2CAP_CHANNEL_TYPE_CONNECTIONLESS: 2158 if (!channel->waiting_for_can_send_now) return false; 2159 return hci_can_send_acl_classic_packet_now() != 0; 2160 #endif 2161 #ifdef ENABLE_BLE 2162 case L2CAP_CHANNEL_TYPE_LE_FIXED: 2163 if (!channel->waiting_for_can_send_now) return false; 2164 return hci_can_send_acl_le_packet_now() != 0; 2165 #ifdef ENABLE_LE_DATA_CHANNELS 2166 case L2CAP_CHANNEL_TYPE_LE_DATA_CHANNEL: 2167 if (channel->state != L2CAP_STATE_OPEN) return false; 2168 if (channel->send_sdu_buffer == NULL) return false; 2169 if (channel->credits_outgoing == 0u) return false; 2170 return hci_can_send_acl_le_packet_now() != 0; 2171 #endif 2172 #endif 2173 default: 2174 return false; 2175 } 2176 } 2177 2178 static void l2cap_channel_trigger_send(l2cap_channel_t * channel){ 2179 switch (channel->channel_type){ 2180 #ifdef ENABLE_CLASSIC 2181 case L2CAP_CHANNEL_TYPE_CLASSIC: 2182 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2183 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION) { 2184 l2cap_ertm_channel_send_information_frame(channel); 2185 return; 2186 } 2187 #endif 2188 channel->waiting_for_can_send_now = 0; 2189 l2cap_emit_can_send_now(channel->packet_handler, channel->local_cid); 2190 break; 2191 case L2CAP_CHANNEL_TYPE_CONNECTIONLESS: 2192 channel->waiting_for_can_send_now = 0; 2193 l2cap_emit_can_send_now(channel->packet_handler, channel->local_cid); 2194 break; 2195 #endif 2196 #ifdef ENABLE_BLE 2197 case L2CAP_CHANNEL_TYPE_LE_FIXED: 2198 channel->waiting_for_can_send_now = 0; 2199 l2cap_emit_can_send_now(channel->packet_handler, channel->local_cid); 2200 break; 2201 #ifdef ENABLE_LE_DATA_CHANNELS 2202 case L2CAP_CHANNEL_TYPE_LE_DATA_CHANNEL: 2203 l2cap_le_send_pdu(channel); 2204 break; 2205 #endif 2206 #endif 2207 default: 2208 break; 2209 } 2210 } 2211 2212 static void l2cap_notify_channel_can_send(void){ 2213 bool done = false; 2214 while (!done){ 2215 done = true; 2216 btstack_linked_list_iterator_t it; 2217 btstack_linked_list_iterator_init(&it, &l2cap_channels); 2218 while (btstack_linked_list_iterator_has_next(&it)){ 2219 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2220 bool ready = l2cap_channel_ready_to_send(channel); 2221 if (!ready) continue; 2222 2223 // requeue channel for fairness 2224 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 2225 btstack_linked_list_add_tail(&l2cap_channels, (btstack_linked_item_t *) channel); 2226 2227 // trigger sending 2228 l2cap_channel_trigger_send(channel); 2229 2230 // exit inner loop as we just broke the iterator, but try again 2231 done = false; 2232 break; 2233 } 2234 } 2235 } 2236 2237 #ifdef L2CAP_USES_CHANNELS 2238 2239 static int l2cap_send_open_failed_on_hci_disconnect(l2cap_channel_t * channel){ 2240 // open cannot fail for for incoming connections 2241 if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_INCOMING) return 0; 2242 2243 // check state 2244 switch (channel->state){ 2245 case L2CAP_STATE_WILL_SEND_CREATE_CONNECTION: 2246 case L2CAP_STATE_WAIT_CONNECTION_COMPLETE: 2247 case L2CAP_STATE_WAIT_REMOTE_SUPPORTED_FEATURES: 2248 case L2CAP_STATE_WAIT_OUTGOING_SECURITY_LEVEL_UPDATE: 2249 case L2CAP_STATE_WAIT_CLIENT_ACCEPT_OR_REJECT: 2250 case L2CAP_STATE_WAIT_OUTGOING_EXTENDED_FEATURES: 2251 case L2CAP_STATE_WAIT_CONNECT_RSP: 2252 case L2CAP_STATE_CONFIG: 2253 case L2CAP_STATE_WILL_SEND_CONNECTION_REQUEST: 2254 case L2CAP_STATE_WILL_SEND_LE_CONNECTION_REQUEST: 2255 case L2CAP_STATE_WAIT_LE_CONNECTION_RESPONSE: 2256 case L2CAP_STATE_EMIT_OPEN_FAILED_AND_DISCARD: 2257 return 1; 2258 2259 case L2CAP_STATE_OPEN: 2260 case L2CAP_STATE_CLOSED: 2261 case L2CAP_STATE_WAIT_INCOMING_EXTENDED_FEATURES: 2262 case L2CAP_STATE_WAIT_DISCONNECT: 2263 case L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_INSUFFICIENT_SECURITY: 2264 case L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_DECLINE: 2265 case L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_ACCEPT: 2266 case L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST: 2267 case L2CAP_STATE_WILL_SEND_DISCONNECT_RESPONSE: 2268 case L2CAP_STATE_WILL_SEND_LE_CONNECTION_RESPONSE_DECLINE: 2269 case L2CAP_STATE_WILL_SEND_LE_CONNECTION_RESPONSE_ACCEPT: 2270 case L2CAP_STATE_INVALID: 2271 case L2CAP_STATE_WAIT_INCOMING_SECURITY_LEVEL_UPDATE: 2272 return 0; 2273 2274 default: 2275 // get a "warning" about new states 2276 btstack_assert(false); 2277 return 0; 2278 } 2279 } 2280 #endif 2281 2282 #ifdef ENABLE_CLASSIC 2283 static void l2cap_handle_hci_disconnect_event(l2cap_channel_t * channel){ 2284 if (l2cap_send_open_failed_on_hci_disconnect(channel)){ 2285 l2cap_handle_channel_open_failed(channel, L2CAP_CONNECTION_BASEBAND_DISCONNECT); 2286 } else { 2287 l2cap_handle_channel_closed(channel); 2288 } 2289 l2cap_free_channel_entry(channel); 2290 } 2291 #endif 2292 2293 #ifdef ENABLE_LE_DATA_CHANNELS 2294 static void l2cap_handle_hci_le_disconnect_event(l2cap_channel_t * channel){ 2295 if (l2cap_send_open_failed_on_hci_disconnect(channel)){ 2296 l2cap_emit_le_channel_opened(channel, L2CAP_CONNECTION_BASEBAND_DISCONNECT); 2297 } else { 2298 l2cap_emit_le_channel_closed(channel); 2299 } 2300 l2cap_free_channel_entry(channel); 2301 } 2302 #endif 2303 2304 #ifdef ENABLE_CLASSIC 2305 static void l2cap_check_classic_timeout(hci_con_handle_t handle){ 2306 if (gap_get_connection_type(handle) != GAP_CONNECTION_ACL) { 2307 return; 2308 } 2309 if (hci_authentication_active_for_handle(handle)) { 2310 return; 2311 } 2312 bool hci_con_used = false; 2313 btstack_linked_list_iterator_t it; 2314 btstack_linked_list_iterator_init(&it, &l2cap_channels); 2315 while (btstack_linked_list_iterator_has_next(&it)){ 2316 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2317 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 2318 if (channel->con_handle != handle) continue; 2319 hci_con_used = true; 2320 break; 2321 } 2322 if (hci_con_used) { 2323 return; 2324 } 2325 if (!hci_can_send_command_packet_now()) { 2326 return; 2327 } 2328 hci_send_cmd(&hci_disconnect, handle, 0x13); // remote closed connection 2329 } 2330 static void l2cap_handle_features_complete(hci_con_handle_t handle){ 2331 hci_connection_t * hci_connection = hci_connection_for_handle(handle); 2332 if (hci_connection == NULL) { 2333 return; 2334 }; 2335 if ((hci_connection->bonding_flags & BONDING_RECEIVED_REMOTE_FEATURES) == 0) { 2336 return; 2337 } 2338 btstack_linked_list_iterator_t it; 2339 btstack_linked_list_iterator_init(&it, &l2cap_channels); 2340 while (btstack_linked_list_iterator_has_next(&it)){ 2341 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2342 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 2343 if (channel->con_handle != handle) continue; 2344 log_info("remote supported features, channel %p, cid %04x - state %u", channel, channel->local_cid, channel->state); 2345 l2cap_handle_remote_supported_features_received(channel); 2346 } 2347 } 2348 static void l2cap_handle_security_level(hci_con_handle_t handle, gap_security_level_t actual_level){ 2349 log_info("l2cap - security level update for handle 0x%04x", handle); 2350 btstack_linked_list_iterator_t it; 2351 btstack_linked_list_iterator_init(&it, &l2cap_channels); 2352 while (btstack_linked_list_iterator_has_next(&it)){ 2353 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2354 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 2355 if (channel->con_handle != handle) continue; 2356 2357 gap_security_level_t required_level = channel->required_security_level; 2358 2359 log_info("channel %p, cid %04x - state %u: actual %u >= required %u?", channel, channel->local_cid, channel->state, actual_level, required_level); 2360 2361 switch (channel->state){ 2362 case L2CAP_STATE_WAIT_INCOMING_SECURITY_LEVEL_UPDATE: 2363 if ((actual_level >= required_level) && 2364 ((gap_get_secure_connections_only_mode() == false) || gap_secure_connection(channel->con_handle))){ 2365 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2366 // we need to know if ERTM is supported before sending a config response 2367 hci_connection_t * connection = hci_connection_for_handle(channel->con_handle); 2368 if (connection->l2cap_state.information_state != L2CAP_INFORMATION_STATE_DONE){ 2369 connection->l2cap_state.information_state = L2CAP_INFORMATION_STATE_W2_SEND_EXTENDED_FEATURE_REQUEST; 2370 channel->state = L2CAP_STATE_WAIT_INCOMING_EXTENDED_FEATURES; 2371 break; 2372 } 2373 #endif 2374 channel->state = L2CAP_STATE_WAIT_CLIENT_ACCEPT_OR_REJECT; 2375 l2cap_emit_incoming_connection(channel); 2376 } else { 2377 channel->reason = 0x0003; // security block 2378 channel->state = L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_DECLINE; 2379 } 2380 break; 2381 2382 case L2CAP_STATE_WAIT_OUTGOING_SECURITY_LEVEL_UPDATE: 2383 if (actual_level >= required_level){ 2384 l2cap_ready_to_connect(channel); 2385 } else { 2386 // disconnnect, authentication not good enough 2387 hci_disconnect_security_block(handle); 2388 } 2389 break; 2390 2391 default: 2392 break; 2393 } 2394 } 2395 } 2396 #endif 2397 2398 #ifdef L2CAP_USES_CHANNELS 2399 static void l2cap_handle_disconnection_complete(hci_con_handle_t handle){ 2400 // collect channels to close 2401 btstack_linked_list_t channels_to_close = NULL; 2402 btstack_linked_list_iterator_t it; 2403 btstack_linked_list_iterator_init(&it, &l2cap_channels); 2404 while (btstack_linked_list_iterator_has_next(&it)) { 2405 l2cap_channel_t *channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2406 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 2407 if (channel->con_handle != handle) continue; 2408 btstack_linked_list_iterator_remove(&it); 2409 btstack_linked_list_add(&channels_to_close, (btstack_linked_item_t *) channel); 2410 } 2411 // send l2cap open failed or closed events for all channels on this handle and free them 2412 btstack_linked_list_iterator_init(&it, &channels_to_close); 2413 while (btstack_linked_list_iterator_has_next(&it)) { 2414 l2cap_channel_t *channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 2415 btstack_linked_list_iterator_remove(&it); 2416 switch(channel->channel_type){ 2417 #ifdef ENABLE_CLASSIC 2418 case L2CAP_CHANNEL_TYPE_CLASSIC: 2419 l2cap_handle_hci_disconnect_event(channel); 2420 break; 2421 #endif 2422 #ifdef ENABLE_LE_DATA_CHANNELS 2423 case L2CAP_CHANNEL_TYPE_LE_DATA_CHANNEL: 2424 l2cap_handle_hci_le_disconnect_event(channel); 2425 break; 2426 #endif 2427 default: 2428 break; 2429 } 2430 } 2431 } 2432 #endif 2433 2434 static void l2cap_hci_event_handler(uint8_t packet_type, uint16_t cid, uint8_t *packet, uint16_t size){ 2435 2436 UNUSED(packet_type); // ok: registered with hci_event_callback_registration 2437 UNUSED(cid); // ok: there is no channel 2438 UNUSED(size); // ok: fixed format events read from HCI buffer 2439 2440 #ifdef ENABLE_CLASSIC 2441 bd_addr_t address; 2442 gap_security_level_t security_level; 2443 #endif 2444 #ifdef L2CAP_USES_CHANNELS 2445 hci_con_handle_t handle; 2446 #endif 2447 2448 switch(hci_event_packet_get_type(packet)){ 2449 2450 // Notify channel packet handler if they can send now 2451 case HCI_EVENT_TRANSPORT_PACKET_SENT: 2452 case HCI_EVENT_NUMBER_OF_COMPLETED_PACKETS: 2453 case BTSTACK_EVENT_NR_CONNECTIONS_CHANGED: 2454 l2cap_run(); // try sending signaling packets first 2455 l2cap_notify_channel_can_send(); 2456 break; 2457 2458 case HCI_EVENT_COMMAND_STATUS: 2459 #ifdef ENABLE_CLASSIC 2460 // check command status for create connection for errors 2461 if (HCI_EVENT_IS_COMMAND_STATUS(packet, hci_create_connection)){ 2462 // cache outgoing address and reset 2463 (void)memcpy(address, l2cap_outgoing_classic_addr, 6); 2464 memset(l2cap_outgoing_classic_addr, 0, 6); 2465 // error => outgoing connection failed 2466 uint8_t status = hci_event_command_status_get_status(packet); 2467 if (status){ 2468 l2cap_handle_connection_failed_for_addr(address, status); 2469 } 2470 } 2471 #endif 2472 l2cap_run(); // try sending signaling packets first 2473 break; 2474 2475 #ifdef ENABLE_CLASSIC 2476 // handle connection complete events 2477 case HCI_EVENT_CONNECTION_COMPLETE: 2478 reverse_bd_addr(&packet[5], address); 2479 if (packet[2] == 0){ 2480 handle = little_endian_read_16(packet, 3); 2481 l2cap_handle_connection_success_for_addr(address, handle); 2482 } else { 2483 l2cap_handle_connection_failed_for_addr(address, packet[2]); 2484 } 2485 break; 2486 2487 // handle successful create connection cancel command 2488 case HCI_EVENT_COMMAND_COMPLETE: 2489 if (HCI_EVENT_IS_COMMAND_COMPLETE(packet, hci_create_connection_cancel)) { 2490 if (packet[5] == 0){ 2491 reverse_bd_addr(&packet[6], address); 2492 // CONNECTION TERMINATED BY LOCAL HOST (0X16) 2493 l2cap_handle_connection_failed_for_addr(address, 0x16); 2494 } 2495 } 2496 l2cap_run(); // try sending signaling packets first 2497 break; 2498 #endif 2499 2500 #ifdef L2CAP_USES_CHANNELS 2501 // handle disconnection complete events 2502 case HCI_EVENT_DISCONNECTION_COMPLETE: 2503 handle = little_endian_read_16(packet, 3); 2504 l2cap_handle_disconnection_complete(handle); 2505 break; 2506 #endif 2507 2508 // HCI Connection Timeouts 2509 #ifdef ENABLE_CLASSIC 2510 case L2CAP_EVENT_TIMEOUT_CHECK: 2511 handle = little_endian_read_16(packet, 2); 2512 l2cap_check_classic_timeout(handle); 2513 break; 2514 2515 case HCI_EVENT_READ_REMOTE_SUPPORTED_FEATURES_COMPLETE: 2516 case HCI_EVENT_READ_REMOTE_EXTENDED_FEATURES_COMPLETE: 2517 handle = little_endian_read_16(packet, 3); 2518 l2cap_handle_features_complete(handle); 2519 break; 2520 2521 case GAP_EVENT_SECURITY_LEVEL: 2522 handle = little_endian_read_16(packet, 2); 2523 security_level = (gap_security_level_t) packet[4]; 2524 l2cap_handle_security_level(handle, security_level); 2525 break; 2526 #endif 2527 default: 2528 break; 2529 } 2530 2531 l2cap_run(); 2532 } 2533 2534 static void l2cap_register_signaling_response(hci_con_handle_t handle, uint8_t code, uint8_t sig_id, uint16_t cid, uint16_t data){ 2535 // Vol 3, Part A, 4.3: "The DCID and SCID fields shall be ignored when the result field indi- cates the connection was refused." 2536 if (signaling_responses_pending < NR_PENDING_SIGNALING_RESPONSES) { 2537 signaling_responses[signaling_responses_pending].handle = handle; 2538 signaling_responses[signaling_responses_pending].code = code; 2539 signaling_responses[signaling_responses_pending].sig_id = sig_id; 2540 signaling_responses[signaling_responses_pending].cid = cid; 2541 signaling_responses[signaling_responses_pending].data = data; 2542 signaling_responses_pending++; 2543 l2cap_run(); 2544 } 2545 } 2546 2547 #ifdef ENABLE_CLASSIC 2548 static void l2cap_handle_disconnect_request(l2cap_channel_t *channel, uint16_t identifier){ 2549 switch (channel->state){ 2550 case L2CAP_STATE_CONFIG: 2551 case L2CAP_STATE_OPEN: 2552 case L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST: 2553 case L2CAP_STATE_WAIT_DISCONNECT: 2554 break; 2555 default: 2556 // ignore in other states 2557 return; 2558 } 2559 2560 channel->remote_sig_id = identifier; 2561 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_RESPONSE; 2562 l2cap_run(); 2563 } 2564 2565 static void l2cap_handle_connection_request(hci_con_handle_t handle, uint8_t sig_id, uint16_t psm, uint16_t source_cid){ 2566 2567 // log_info("l2cap_handle_connection_request for handle %u, psm %u cid 0x%02x", handle, psm, source_cid); 2568 l2cap_service_t *service = l2cap_get_service(psm); 2569 if (!service) { 2570 // 0x0002 PSM not supported 2571 l2cap_register_signaling_response(handle, CONNECTION_REQUEST, sig_id, source_cid, 0x0002); 2572 return; 2573 } 2574 2575 hci_connection_t * hci_connection = hci_connection_for_handle( handle ); 2576 if (!hci_connection) { 2577 // 2578 log_error("no hci_connection for handle %u", handle); 2579 return; 2580 } 2581 2582 // Core V5.2, Vol 3, Part C, 5.2.2.2 - Security Mode 4 2583 // If the remote device has indicated support for Secure Simple Pairing, a channel establishment request is 2584 // received for a service other than SDP, and encryption has not yet been enabled, then the local device shall 2585 // disconnect the ACL link with error code 0x05 - Authentication Failure. 2586 if ((gap_get_security_mode() == GAP_SECURITY_MODE_4) && gap_ssp_supported_on_both_sides(handle) && (psm != PSM_SDP) && (gap_encryption_key_size(handle) == 0)){ 2587 hci_disconnect_security_block(handle); 2588 return; 2589 } 2590 2591 // alloc structure 2592 // log_info("l2cap_handle_connection_request register channel"); 2593 l2cap_channel_t * channel = l2cap_create_channel_entry(service->packet_handler, L2CAP_CHANNEL_TYPE_CLASSIC, hci_connection->address, BD_ADDR_TYPE_ACL, 2594 psm, service->mtu, service->required_security_level); 2595 if (!channel){ 2596 // 0x0004 No resources available 2597 l2cap_register_signaling_response(handle, CONNECTION_REQUEST, sig_id, source_cid, 0x0004); 2598 return; 2599 } 2600 2601 channel->con_handle = handle; 2602 channel->remote_cid = source_cid; 2603 channel->remote_sig_id = sig_id; 2604 2605 // limit local mtu to max acl packet length - l2cap header 2606 if (channel->local_mtu > l2cap_max_mtu()) { 2607 channel->local_mtu = l2cap_max_mtu(); 2608 } 2609 2610 // set initial state 2611 channel->state = L2CAP_STATE_WAIT_INCOMING_SECURITY_LEVEL_UPDATE; 2612 channel->state_var = (L2CAP_CHANNEL_STATE_VAR) (L2CAP_CHANNEL_STATE_VAR_SEND_CONN_RESP_PEND | L2CAP_CHANNEL_STATE_VAR_INCOMING); 2613 2614 // add to connections list 2615 btstack_linked_list_add_tail(&l2cap_channels, (btstack_linked_item_t *) channel); 2616 2617 // assert security requirements 2618 gap_request_security_level(handle, channel->required_security_level); 2619 } 2620 2621 void l2cap_accept_connection(uint16_t local_cid){ 2622 log_info("L2CAP_ACCEPT_CONNECTION local_cid 0x%x", local_cid); 2623 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 2624 if (!channel) { 2625 log_error("l2cap_accept_connection called but local_cid 0x%x not found", local_cid); 2626 return; 2627 } 2628 2629 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2630 // configure L2CAP Basic mode 2631 channel->mode = L2CAP_CHANNEL_MODE_BASIC; 2632 #endif 2633 2634 channel->state = L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_ACCEPT; 2635 2636 // process 2637 l2cap_run(); 2638 } 2639 2640 void l2cap_decline_connection(uint16_t local_cid){ 2641 log_info("L2CAP_DECLINE_CONNECTION local_cid 0x%x", local_cid); 2642 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid( local_cid); 2643 if (!channel) { 2644 log_error( "l2cap_decline_connection called but local_cid 0x%x not found", local_cid); 2645 return; 2646 } 2647 channel->state = L2CAP_STATE_WILL_SEND_CONNECTION_RESPONSE_DECLINE; 2648 channel->reason = 0x04; // no resources available 2649 l2cap_run(); 2650 } 2651 2652 // @pre command len is valid, see check in l2cap_signaling_handler_channel 2653 static void l2cap_signaling_handle_configure_request(l2cap_channel_t *channel, uint8_t *command){ 2654 2655 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2656 uint8_t use_fcs = 1; 2657 #endif 2658 2659 channel->remote_sig_id = command[L2CAP_SIGNALING_COMMAND_SIGID_OFFSET]; 2660 2661 uint16_t flags = little_endian_read_16(command, 6); 2662 if (flags & 1) { 2663 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_CONT); 2664 } 2665 2666 // accept the other's configuration options 2667 uint16_t end_pos = 4 + little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); 2668 uint16_t pos = 8; 2669 while (pos < end_pos){ 2670 uint8_t option_hint = command[pos] >> 7; 2671 uint8_t option_type = command[pos] & 0x7f; 2672 // log_info("l2cap cid %u, hint %u, type %u", channel->local_cid, option_hint, option_type); 2673 pos++; 2674 uint8_t length = command[pos++]; 2675 // MTU { type(8): 1, len(8):2, MTU(16) } 2676 if ((option_type == L2CAP_CONFIG_OPTION_TYPE_MAX_TRANSMISSION_UNIT) && (length == 2)){ 2677 channel->remote_mtu = little_endian_read_16(command, pos); 2678 log_info("Remote MTU %u", channel->remote_mtu); 2679 if (channel->remote_mtu > l2cap_max_mtu()){ 2680 log_info("Remote MTU %u larger than outgoing buffer, only using MTU = %u", channel->remote_mtu, l2cap_max_mtu()); 2681 channel->remote_mtu = l2cap_max_mtu(); 2682 } 2683 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_MTU); 2684 } 2685 // Flush timeout { type(8):2, len(8): 2, Flush Timeout(16)} 2686 if ((option_type == L2CAP_CONFIG_OPTION_TYPE_FLUSH_TIMEOUT) && (length == 2)){ 2687 channel->flush_timeout = little_endian_read_16(command, pos); 2688 log_info("Flush timeout: %u ms", channel->flush_timeout); 2689 } 2690 2691 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2692 // Retransmission and Flow Control Option 2693 if (option_type == L2CAP_CONFIG_OPTION_TYPE_RETRANSMISSION_AND_FLOW_CONTROL && length == 9){ 2694 l2cap_channel_mode_t mode = (l2cap_channel_mode_t) command[pos]; 2695 switch(channel->mode){ 2696 case L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION: 2697 // Store remote config 2698 channel->remote_tx_window_size = command[pos+1]; 2699 channel->remote_max_transmit = command[pos+2]; 2700 channel->remote_retransmission_timeout_ms = little_endian_read_16(command, pos + 3); 2701 channel->remote_monitor_timeout_ms = little_endian_read_16(command, pos + 5); 2702 channel->remote_mps = little_endian_read_16(command, pos + 7); 2703 log_info("FC&C config: tx window: %u, max transmit %u, retrans timeout %u, monitor timeout %u, mps %u", 2704 channel->remote_tx_window_size, 2705 channel->remote_max_transmit, 2706 channel->remote_retransmission_timeout_ms, 2707 channel->remote_monitor_timeout_ms, 2708 channel->remote_mps); 2709 // If ERTM mandatory, but remote doens't offer ERTM -> disconnect 2710 if (channel->ertm_mandatory && mode != L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 2711 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 2712 } else { 2713 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_ERTM); 2714 } 2715 break; 2716 case L2CAP_CHANNEL_MODE_BASIC: 2717 switch (mode){ 2718 case L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION: 2719 // remote asks for ERTM, but we want basic mode. disconnect if this happens a second time 2720 if (channel->state_var & L2CAP_CHANNEL_STATE_VAR_BASIC_FALLBACK_TRIED){ 2721 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 2722 } 2723 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_BASIC_FALLBACK_TRIED); 2724 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_REJECTED); 2725 break; 2726 default: // case L2CAP_CHANNEL_MODE_BASIC: 2727 // TODO store and evaluate configuration 2728 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_ERTM); 2729 break; 2730 } 2731 break; 2732 default: 2733 break; 2734 } 2735 } 2736 if (option_type == L2CAP_CONFIG_OPTION_TYPE_FRAME_CHECK_SEQUENCE && length == 1){ 2737 use_fcs = command[pos]; 2738 } 2739 #endif 2740 // check for unknown options 2741 if ((option_hint == 0) && ((option_type < L2CAP_CONFIG_OPTION_TYPE_MAX_TRANSMISSION_UNIT) || (option_type > L2CAP_CONFIG_OPTION_TYPE_EXTENDED_WINDOW_SIZE))){ 2742 log_info("l2cap cid %u, unknown option 0x%02x", channel->local_cid, option_type); 2743 channel->unknown_option = option_type; 2744 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_INVALID); 2745 } 2746 pos += length; 2747 } 2748 2749 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2750 // "FCS" has precedence over "No FCS" 2751 uint8_t update = channel->fcs_option || use_fcs; 2752 log_info("local fcs: %u, remote fcs: %u -> %u", channel->fcs_option, use_fcs, update); 2753 channel->fcs_option = update; 2754 // If ERTM mandatory, but remote didn't send Retransmission and Flowcontrol options -> disconnect 2755 if (((channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_ERTM) == 0) & (channel->ertm_mandatory)){ 2756 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 2757 } 2758 #endif 2759 } 2760 2761 // @pre command len is valid, see check in l2cap_signaling_handler_channel 2762 static void l2cap_signaling_handle_configure_response(l2cap_channel_t *channel, uint8_t result, uint8_t *command){ 2763 log_info("l2cap_signaling_handle_configure_response"); 2764 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2765 uint16_t end_pos = 4 + little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); 2766 uint16_t pos = 10; 2767 while (pos < end_pos){ 2768 uint8_t option_hint = command[pos] >> 7; 2769 uint8_t option_type = command[pos] & 0x7f; 2770 // log_info("l2cap cid %u, hint %u, type %u", channel->local_cid, option_hint, option_type); 2771 pos++; 2772 uint8_t length = command[pos++]; 2773 2774 // Retransmission and Flow Control Option 2775 if (option_type == L2CAP_CONFIG_OPTION_TYPE_RETRANSMISSION_AND_FLOW_CONTROL && length == 9){ 2776 switch (channel->mode){ 2777 case L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION: 2778 if (channel->ertm_mandatory){ 2779 // ?? 2780 } else { 2781 // On 'Reject - Unacceptable Parameters' to our optional ERTM request, fall back to BASIC mode 2782 if (result == L2CAP_CONF_RESULT_UNACCEPTABLE_PARAMETERS){ 2783 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_ERTM_BUFFER_RELEASED); 2784 channel->mode = L2CAP_CHANNEL_MODE_BASIC; 2785 } 2786 } 2787 break; 2788 case L2CAP_CHANNEL_MODE_BASIC: 2789 if (result == L2CAP_CONF_RESULT_UNACCEPTABLE_PARAMETERS){ 2790 // On 'Reject - Unacceptable Parameters' to our Basic mode request, disconnect 2791 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 2792 } 2793 break; 2794 default: 2795 break; 2796 } 2797 } 2798 2799 // check for unknown options 2800 if (option_hint == 0 && (option_type < L2CAP_CONFIG_OPTION_TYPE_MAX_TRANSMISSION_UNIT || option_type > L2CAP_CONFIG_OPTION_TYPE_EXTENDED_WINDOW_SIZE)){ 2801 log_info("l2cap cid %u, unknown option 0x%02x", channel->local_cid, option_type); 2802 channel->unknown_option = option_type; 2803 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_INVALID); 2804 } 2805 2806 pos += length; 2807 } 2808 #else 2809 UNUSED(channel); // ok: no code 2810 UNUSED(result); // ok: no code 2811 UNUSED(command); // ok: no code 2812 #endif 2813 } 2814 2815 static int l2cap_channel_ready_for_open(l2cap_channel_t *channel){ 2816 // log_info("l2cap_channel_ready_for_open 0x%02x", channel->state_var); 2817 if ((channel->state_var & L2CAP_CHANNEL_STATE_VAR_RCVD_CONF_RSP) == 0) return 0; 2818 if ((channel->state_var & L2CAP_CHANNEL_STATE_VAR_SENT_CONF_RSP) == 0) return 0; 2819 // addition check that fixes re-entrance issue causing l2cap event channel opened twice 2820 if (channel->state == L2CAP_STATE_OPEN) return 0; 2821 return 1; 2822 } 2823 2824 2825 // @pre command len is valid, see check in l2cap_signaling_handler_dispatch 2826 static void l2cap_signaling_handler_channel(l2cap_channel_t *channel, uint8_t *command){ 2827 2828 uint8_t code = command[L2CAP_SIGNALING_COMMAND_CODE_OFFSET]; 2829 uint8_t identifier = command[L2CAP_SIGNALING_COMMAND_SIGID_OFFSET]; 2830 uint16_t cmd_len = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); 2831 uint16_t result = 0; 2832 2833 log_info("L2CAP signaling handler code %u, state %u", code, channel->state); 2834 2835 // handle DISCONNECT REQUESTS seperately 2836 if (code == DISCONNECTION_REQUEST){ 2837 l2cap_handle_disconnect_request(channel, identifier); 2838 return; 2839 } 2840 2841 // @STATEMACHINE(l2cap) 2842 switch (channel->state) { 2843 2844 case L2CAP_STATE_WAIT_CONNECT_RSP: 2845 switch (code){ 2846 case CONNECTION_RESPONSE: 2847 if (cmd_len < 8){ 2848 // command imcomplete 2849 l2cap_register_signaling_response(channel->con_handle, COMMAND_REJECT, identifier, 0, L2CAP_REJ_CMD_UNKNOWN); 2850 break; 2851 } 2852 l2cap_stop_rtx(channel); 2853 result = little_endian_read_16 (command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET+4); 2854 switch (result) { 2855 case 0: 2856 // successful connection 2857 channel->remote_cid = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); 2858 channel->state = L2CAP_STATE_CONFIG; 2859 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_REQ); 2860 break; 2861 case 1: 2862 // connection pending. get some coffee, but start the ERTX 2863 l2cap_start_ertx(channel); 2864 break; 2865 default: 2866 // channel closed 2867 channel->state = L2CAP_STATE_CLOSED; 2868 // map l2cap connection response result to BTstack status enumeration 2869 l2cap_handle_channel_open_failed(channel, L2CAP_CONNECTION_RESPONSE_RESULT_SUCCESSFUL + result); 2870 2871 // drop link key if security block 2872 if ((L2CAP_CONNECTION_RESPONSE_RESULT_SUCCESSFUL + result) == L2CAP_CONNECTION_RESPONSE_RESULT_REFUSED_SECURITY){ 2873 gap_drop_link_key_for_bd_addr(channel->address); 2874 } 2875 2876 // discard channel 2877 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 2878 l2cap_free_channel_entry(channel); 2879 break; 2880 } 2881 break; 2882 2883 default: 2884 //@TODO: implement other signaling packets 2885 break; 2886 } 2887 break; 2888 2889 case L2CAP_STATE_CONFIG: 2890 switch (code) { 2891 case CONFIGURE_REQUEST: 2892 if (cmd_len < 4){ 2893 // command incomplete 2894 l2cap_register_signaling_response(channel->con_handle, COMMAND_REJECT, identifier, 0, L2CAP_REJ_CMD_UNKNOWN); 2895 break; 2896 } 2897 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP); 2898 l2cap_signaling_handle_configure_request(channel, command); 2899 if (!(channel->state_var & L2CAP_CHANNEL_STATE_VAR_SEND_CONF_RSP_CONT)){ 2900 // only done if continuation not set 2901 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_RCVD_CONF_REQ); 2902 } 2903 break; 2904 case CONFIGURE_RESPONSE: 2905 if (cmd_len < 6){ 2906 // command incomplete 2907 l2cap_register_signaling_response(channel->con_handle, COMMAND_REJECT, identifier, 0, L2CAP_REJ_CMD_UNKNOWN); 2908 break; 2909 } 2910 result = little_endian_read_16 (command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET+4); 2911 l2cap_stop_rtx(channel); 2912 l2cap_signaling_handle_configure_response(channel, result, command); 2913 switch (result){ 2914 case 0: // success 2915 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_RCVD_CONF_RSP); 2916 break; 2917 case 4: // pending 2918 l2cap_start_ertx(channel); 2919 break; 2920 default: 2921 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2922 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION && channel->ertm_mandatory){ 2923 // remote does not offer ertm but it's required 2924 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 2925 break; 2926 } 2927 #endif 2928 // retry on negative result 2929 channelStateVarSetFlag(channel, L2CAP_CHANNEL_STATE_VAR_SEND_CONF_REQ); 2930 break; 2931 } 2932 break; 2933 default: 2934 break; 2935 } 2936 if (l2cap_channel_ready_for_open(channel)){ 2937 2938 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 2939 // assert that packet can be stored in fragment buffers in ertm 2940 if (channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 2941 uint16_t effective_mps = btstack_min(channel->remote_mps, channel->local_mps); 2942 uint16_t usable_mtu = channel->num_tx_buffers == 1 ? effective_mps : channel->num_tx_buffers * effective_mps - 2; 2943 if (usable_mtu < channel->remote_mtu){ 2944 log_info("Remote MTU %u > max storable ERTM packet, only using MTU = %u", channel->remote_mtu, usable_mtu); 2945 channel->remote_mtu = usable_mtu; 2946 } 2947 } 2948 #endif 2949 // for open: 2950 channel->state = L2CAP_STATE_OPEN; 2951 l2cap_emit_channel_opened(channel, 0); 2952 } 2953 break; 2954 2955 case L2CAP_STATE_WAIT_DISCONNECT: 2956 switch (code) { 2957 case DISCONNECTION_RESPONSE: 2958 l2cap_finialize_channel_close(channel); 2959 break; 2960 default: 2961 //@TODO: implement other signaling packets 2962 break; 2963 } 2964 break; 2965 2966 case L2CAP_STATE_CLOSED: 2967 // @TODO handle incoming requests 2968 break; 2969 2970 case L2CAP_STATE_OPEN: 2971 //@TODO: implement other signaling packets, e.g. re-configure 2972 break; 2973 default: 2974 break; 2975 } 2976 // log_info("new state %u", channel->state); 2977 } 2978 2979 2980 // @pre command len is valid, see check in l2cap_acl_classic_handler 2981 static void l2cap_signaling_handler_dispatch(hci_con_handle_t handle, uint8_t * command){ 2982 2983 btstack_linked_list_iterator_t it; 2984 2985 // get code, signalind identifier and command len 2986 uint8_t code = command[L2CAP_SIGNALING_COMMAND_CODE_OFFSET]; 2987 uint8_t sig_id = command[L2CAP_SIGNALING_COMMAND_SIGID_OFFSET]; 2988 uint16_t cmd_len = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); 2989 2990 // not for a particular channel, and not CONNECTION_REQUEST, ECHO_[REQUEST|RESPONSE], INFORMATION_RESPONSE 2991 if ((code < 1) || (code == ECHO_RESPONSE) || (code > INFORMATION_RESPONSE)){ 2992 l2cap_register_signaling_response(handle, COMMAND_REJECT, sig_id, 0, L2CAP_REJ_CMD_UNKNOWN); 2993 return; 2994 } 2995 2996 // general commands without an assigned channel 2997 switch(code) { 2998 2999 case CONNECTION_REQUEST: 3000 if (cmd_len == 4){ 3001 uint16_t psm = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); 3002 uint16_t source_cid = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET+2); 3003 l2cap_handle_connection_request(handle, sig_id, psm, source_cid); 3004 } else { 3005 l2cap_register_signaling_response(handle, COMMAND_REJECT, sig_id, 0, L2CAP_REJ_CMD_UNKNOWN); 3006 } 3007 return; 3008 3009 case ECHO_REQUEST: 3010 l2cap_register_signaling_response(handle, code, sig_id, 0, 0); 3011 return; 3012 3013 case INFORMATION_REQUEST: 3014 if (cmd_len == 2) { 3015 uint16_t info_type = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); 3016 l2cap_register_signaling_response(handle, code, sig_id, 0, info_type); 3017 } else { 3018 l2cap_register_signaling_response(handle, COMMAND_REJECT, sig_id, 0, L2CAP_REJ_CMD_UNKNOWN); 3019 } 3020 return; 3021 3022 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 3023 case INFORMATION_RESPONSE: { 3024 hci_connection_t * connection = hci_connection_for_handle(handle); 3025 if (!connection) return; 3026 if (connection->l2cap_state.information_state != L2CAP_INFORMATION_STATE_W4_EXTENDED_FEATURE_RESPONSE) return; 3027 3028 // get extended features from response if valid 3029 connection->l2cap_state.extended_feature_mask = 0; 3030 if (cmd_len >= 6) { 3031 uint16_t info_type = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); 3032 uint16_t result = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET+2); 3033 if (result == 0 && info_type == L2CAP_INFO_TYPE_EXTENDED_FEATURES_SUPPORTED) { 3034 connection->l2cap_state.extended_feature_mask = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET+4); 3035 } 3036 } 3037 connection->l2cap_state.information_state = L2CAP_INFORMATION_STATE_DONE; 3038 log_info("extended features mask 0x%02x", connection->l2cap_state.extended_feature_mask); 3039 3040 // trigger connection request 3041 btstack_linked_list_iterator_init(&it, &l2cap_channels); 3042 while (btstack_linked_list_iterator_has_next(&it)){ 3043 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 3044 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 3045 if (channel->con_handle != handle) continue; 3046 3047 // incoming connection: ask user for channel configuration, esp. if ertm will be mandatory 3048 if (channel->state == L2CAP_STATE_WAIT_INCOMING_EXTENDED_FEATURES){ 3049 channel->state = L2CAP_STATE_WAIT_CLIENT_ACCEPT_OR_REJECT; 3050 l2cap_emit_incoming_connection(channel); 3051 continue; 3052 } 3053 3054 // outgoing connection 3055 if (channel->state == L2CAP_STATE_WAIT_OUTGOING_EXTENDED_FEATURES){ 3056 3057 // if ERTM was requested, but is not listed in extended feature mask: 3058 if ((channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION) && ((connection->l2cap_state.extended_feature_mask & 0x08) == 0)){ 3059 3060 if (channel->ertm_mandatory){ 3061 // bail if ERTM is mandatory 3062 channel->state = L2CAP_STATE_CLOSED; 3063 // map l2cap connection response result to BTstack status enumeration 3064 l2cap_handle_channel_open_failed(channel, L2CAP_CONNECTION_RESPONSE_RESULT_ERTM_NOT_SUPPORTED); 3065 // discard channel 3066 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 3067 l2cap_free_channel_entry(channel); 3068 continue; 3069 3070 } else { 3071 // fallback to Basic mode 3072 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_ERTM_BUFFER_RELEASED); 3073 channel->mode = L2CAP_CHANNEL_MODE_BASIC; 3074 } 3075 } 3076 3077 // respond to connection request 3078 channel->state = L2CAP_STATE_WILL_SEND_CONNECTION_REQUEST; 3079 continue; 3080 } 3081 } 3082 return; 3083 } 3084 #endif 3085 3086 default: 3087 break; 3088 } 3089 3090 // Get potential destination CID 3091 uint16_t dest_cid = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET); 3092 3093 // Find channel for this sig_id and connection handle 3094 btstack_linked_list_iterator_init(&it, &l2cap_channels); 3095 while (btstack_linked_list_iterator_has_next(&it)){ 3096 l2cap_channel_t * channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 3097 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 3098 if (channel->con_handle != handle) continue; 3099 if (code & 1) { 3100 // match odd commands (responses) by previous signaling identifier 3101 if (channel->local_sig_id == sig_id) { 3102 l2cap_signaling_handler_channel(channel, command); 3103 break; 3104 } 3105 } else { 3106 // match even commands (requests) by local channel id 3107 if (channel->local_cid == dest_cid) { 3108 l2cap_signaling_handler_channel(channel, command); 3109 break; 3110 } 3111 } 3112 } 3113 } 3114 #endif 3115 3116 #ifdef ENABLE_BLE 3117 3118 static void l2cap_emit_connection_parameter_update_response(hci_con_handle_t con_handle, uint16_t result){ 3119 uint8_t event[6]; 3120 event[0] = L2CAP_EVENT_CONNECTION_PARAMETER_UPDATE_RESPONSE; 3121 event[1] = 4; 3122 little_endian_store_16(event, 2, con_handle); 3123 little_endian_store_16(event, 4, result); 3124 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 3125 if (!l2cap_event_packet_handler) return; 3126 (*l2cap_event_packet_handler)(HCI_EVENT_PACKET, 0, event, sizeof(event)); 3127 } 3128 3129 // @returns valid 3130 static int l2cap_le_signaling_handler_dispatch(hci_con_handle_t handle, uint8_t * command, uint8_t sig_id){ 3131 hci_connection_t * connection; 3132 uint16_t result; 3133 uint8_t event[12]; 3134 3135 #ifdef ENABLE_LE_DATA_CHANNELS 3136 btstack_linked_list_iterator_t it; 3137 l2cap_channel_t * channel; 3138 uint16_t local_cid; 3139 uint16_t le_psm; 3140 uint16_t new_credits; 3141 uint16_t credits_before; 3142 l2cap_service_t * service; 3143 uint16_t source_cid; 3144 #endif 3145 3146 uint8_t code = command[L2CAP_SIGNALING_COMMAND_CODE_OFFSET]; 3147 uint16_t len = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); 3148 log_info("l2cap_le_signaling_handler_dispatch: command 0x%02x, sig id %u, len %u", code, sig_id, len); 3149 3150 switch (code){ 3151 3152 case CONNECTION_PARAMETER_UPDATE_REQUEST: 3153 // check size 3154 if (len < 8u) return 0u; 3155 connection = hci_connection_for_handle(handle); 3156 if (connection != NULL){ 3157 if (connection->role != HCI_ROLE_MASTER){ 3158 // reject command without notifying upper layer when not in master role 3159 return 0; 3160 } 3161 le_connection_parameter_range_t existing_range; 3162 gap_get_connection_parameter_range(&existing_range); 3163 uint16_t le_conn_interval_min = little_endian_read_16(command,L2CAP_SIGNALING_COMMAND_DATA_OFFSET); 3164 uint16_t le_conn_interval_max = little_endian_read_16(command,L2CAP_SIGNALING_COMMAND_DATA_OFFSET+2); 3165 uint16_t le_conn_latency = little_endian_read_16(command,L2CAP_SIGNALING_COMMAND_DATA_OFFSET+4); 3166 uint16_t le_supervision_timeout = little_endian_read_16(command,L2CAP_SIGNALING_COMMAND_DATA_OFFSET+6); 3167 3168 int update_parameter = gap_connection_parameter_range_included(&existing_range, le_conn_interval_min, le_conn_interval_max, le_conn_latency, le_supervision_timeout); 3169 if (update_parameter){ 3170 connection->le_con_parameter_update_state = CON_PARAMETER_UPDATE_SEND_RESPONSE; 3171 connection->le_conn_interval_min = le_conn_interval_min; 3172 connection->le_conn_interval_max = le_conn_interval_max; 3173 connection->le_conn_latency = le_conn_latency; 3174 connection->le_supervision_timeout = le_supervision_timeout; 3175 } else { 3176 connection->le_con_parameter_update_state = CON_PARAMETER_UPDATE_DENY; 3177 } 3178 connection->le_con_param_update_identifier = sig_id; 3179 } 3180 3181 if (!l2cap_event_packet_handler) break; 3182 3183 event[0] = L2CAP_EVENT_CONNECTION_PARAMETER_UPDATE_REQUEST; 3184 event[1] = 8; 3185 little_endian_store_16(event, 2, handle); 3186 (void)memcpy(&event[4], &command[4], 8); 3187 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 3188 (*l2cap_event_packet_handler)( HCI_EVENT_PACKET, 0, event, sizeof(event)); 3189 break; 3190 3191 case CONNECTION_PARAMETER_UPDATE_RESPONSE: 3192 // check size 3193 if (len < 2u) return 0u; 3194 result = little_endian_read_16(command, 4); 3195 l2cap_emit_connection_parameter_update_response(handle, result); 3196 break; 3197 3198 #ifdef ENABLE_LE_DATA_CHANNELS 3199 3200 case COMMAND_REJECT: 3201 // Find channel for this sig_id and connection handle 3202 channel = NULL; 3203 btstack_linked_list_iterator_init(&it, &l2cap_channels); 3204 while (btstack_linked_list_iterator_has_next(&it)){ 3205 l2cap_channel_t * a_channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 3206 if (!l2cap_is_dynamic_channel_type(a_channel->channel_type)) continue; 3207 if (a_channel->con_handle != handle) continue; 3208 if (a_channel->local_sig_id != sig_id) continue; 3209 channel = a_channel; 3210 break; 3211 } 3212 if (!channel) break; 3213 3214 // if received while waiting for le connection response, assume legacy device 3215 if (channel->state == L2CAP_STATE_WAIT_LE_CONNECTION_RESPONSE){ 3216 channel->state = L2CAP_STATE_CLOSED; 3217 // no official value for this, use: Connection refused – LE_PSM not supported - 0x0002 3218 l2cap_emit_le_channel_opened(channel, 0x0002); 3219 3220 // discard channel 3221 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 3222 l2cap_free_channel_entry(channel); 3223 break; 3224 } 3225 break; 3226 3227 case LE_CREDIT_BASED_CONNECTION_REQUEST: 3228 // check size 3229 if (len < 10u) return 0u; 3230 3231 // get hci connection, bail if not found (must not happen) 3232 connection = hci_connection_for_handle(handle); 3233 if (!connection) return 0; 3234 3235 // check if service registered 3236 le_psm = little_endian_read_16(command, 4); 3237 service = l2cap_le_get_service(le_psm); 3238 source_cid = little_endian_read_16(command, 6); 3239 3240 if (service){ 3241 if (source_cid < 0x40u){ 3242 // 0x0009 Connection refused - Invalid Source CID 3243 l2cap_register_signaling_response(handle, LE_CREDIT_BASED_CONNECTION_REQUEST, sig_id, source_cid, 0x0009); 3244 return 1; 3245 } 3246 3247 // go through list of channels for this ACL connection and check if we get a match 3248 btstack_linked_list_iterator_init(&it, &l2cap_channels); 3249 while (btstack_linked_list_iterator_has_next(&it)){ 3250 l2cap_channel_t * a_channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 3251 if (!l2cap_is_dynamic_channel_type(a_channel->channel_type)) continue; 3252 if (a_channel->con_handle != handle) continue; 3253 if (a_channel->remote_cid != source_cid) continue; 3254 // 0x000a Connection refused - Source CID already allocated 3255 l2cap_register_signaling_response(handle, LE_CREDIT_BASED_CONNECTION_REQUEST, sig_id, source_cid, 0x000a); 3256 return 1; 3257 } 3258 3259 // security: check encryption 3260 if (service->required_security_level >= LEVEL_2){ 3261 if (gap_encryption_key_size(handle) == 0){ 3262 // 0x0008 Connection refused - insufficient encryption 3263 l2cap_register_signaling_response(handle, LE_CREDIT_BASED_CONNECTION_REQUEST, sig_id, source_cid, 0x0008); 3264 return 1; 3265 } 3266 // anything less than 16 byte key size is insufficient 3267 if (gap_encryption_key_size(handle) < 16){ 3268 // 0x0007 Connection refused – insufficient encryption key size 3269 l2cap_register_signaling_response(handle, LE_CREDIT_BASED_CONNECTION_REQUEST, sig_id, source_cid, 0x0007); 3270 return 1; 3271 } 3272 } 3273 3274 // security: check authencation 3275 if (service->required_security_level >= LEVEL_3){ 3276 if (!gap_authenticated(handle)){ 3277 // 0x0005 Connection refused – insufficient authentication 3278 l2cap_register_signaling_response(handle, LE_CREDIT_BASED_CONNECTION_REQUEST, sig_id, source_cid, 0x0005); 3279 return 1; 3280 } 3281 } 3282 3283 // security: check authorization 3284 if (service->required_security_level >= LEVEL_4){ 3285 if (gap_authorization_state(handle) != AUTHORIZATION_GRANTED){ 3286 // 0x0006 Connection refused – insufficient authorization 3287 l2cap_register_signaling_response(handle, LE_CREDIT_BASED_CONNECTION_REQUEST, sig_id, source_cid, 0x0006); 3288 return 1; 3289 } 3290 } 3291 3292 // allocate channel 3293 channel = l2cap_create_channel_entry(service->packet_handler, L2CAP_CHANNEL_TYPE_LE_DATA_CHANNEL, connection->address, 3294 BD_ADDR_TYPE_LE_RANDOM, le_psm, service->mtu, service->required_security_level); 3295 if (!channel){ 3296 // 0x0004 Connection refused – no resources available 3297 l2cap_register_signaling_response(handle, LE_CREDIT_BASED_CONNECTION_REQUEST, sig_id, source_cid, 0x0004); 3298 return 1; 3299 } 3300 3301 channel->con_handle = handle; 3302 channel->remote_cid = source_cid; 3303 channel->remote_sig_id = sig_id; 3304 channel->remote_mtu = little_endian_read_16(command, 8); 3305 channel->remote_mps = little_endian_read_16(command, 10); 3306 channel->credits_outgoing = little_endian_read_16(command, 12); 3307 3308 // set initial state 3309 channel->state = L2CAP_STATE_WAIT_CLIENT_ACCEPT_OR_REJECT; 3310 channel->state_var |= L2CAP_CHANNEL_STATE_VAR_INCOMING; 3311 3312 // add to connections list 3313 btstack_linked_list_add_tail(&l2cap_channels, (btstack_linked_item_t *) channel); 3314 3315 // post connection request event 3316 l2cap_emit_le_incoming_connection(channel); 3317 3318 } else { 3319 // Connection refused – LE_PSM not supported 3320 l2cap_register_signaling_response(handle, LE_CREDIT_BASED_CONNECTION_REQUEST, sig_id, source_cid, 0x0002); 3321 } 3322 break; 3323 3324 case LE_CREDIT_BASED_CONNECTION_RESPONSE: 3325 // check size 3326 if (len < 10u) return 0u; 3327 3328 // Find channel for this sig_id and connection handle 3329 channel = NULL; 3330 btstack_linked_list_iterator_init(&it, &l2cap_channels); 3331 while (btstack_linked_list_iterator_has_next(&it)){ 3332 l2cap_channel_t * a_channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 3333 if (!l2cap_is_dynamic_channel_type(a_channel->channel_type)) continue; 3334 if (a_channel->con_handle != handle) continue; 3335 if (a_channel->local_sig_id != sig_id) continue; 3336 channel = a_channel; 3337 break; 3338 } 3339 if (!channel) break; 3340 3341 // cid + 0 3342 result = little_endian_read_16 (command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET+8); 3343 if (result){ 3344 channel->state = L2CAP_STATE_CLOSED; 3345 // map l2cap connection response result to BTstack status enumeration 3346 l2cap_emit_le_channel_opened(channel, result); 3347 3348 // discard channel 3349 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 3350 l2cap_free_channel_entry(channel); 3351 break; 3352 } 3353 3354 // success 3355 channel->remote_cid = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET + 0); 3356 channel->remote_mtu = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET + 2); 3357 channel->remote_mps = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET + 4); 3358 channel->credits_outgoing = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET + 6); 3359 channel->state = L2CAP_STATE_OPEN; 3360 l2cap_emit_le_channel_opened(channel, result); 3361 break; 3362 3363 case LE_FLOW_CONTROL_CREDIT: 3364 // check size 3365 if (len < 4u) return 0u; 3366 3367 // find channel 3368 local_cid = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET + 0); 3369 channel = l2cap_get_channel_for_local_cid_and_handle(local_cid, handle); 3370 if (!channel) { 3371 log_error("l2cap: no channel for cid 0x%02x", local_cid); 3372 break; 3373 } 3374 new_credits = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET + 2); 3375 credits_before = channel->credits_outgoing; 3376 channel->credits_outgoing += new_credits; 3377 // check for credit overrun 3378 if (credits_before > channel->credits_outgoing){ 3379 log_error("l2cap: new credits caused overrrun for cid 0x%02x, disconnecting", local_cid); 3380 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 3381 break; 3382 } 3383 log_info("l2cap: %u credits for 0x%02x, now %u", new_credits, local_cid, channel->credits_outgoing); 3384 break; 3385 3386 case DISCONNECTION_REQUEST: 3387 3388 // check size 3389 if (len < 4u) return 0u; 3390 3391 // find channel 3392 local_cid = little_endian_read_16(command, L2CAP_SIGNALING_COMMAND_DATA_OFFSET + 0); 3393 channel = l2cap_get_channel_for_local_cid_and_handle(local_cid, handle); 3394 if (!channel) { 3395 log_error("l2cap: no channel for cid 0x%02x", local_cid); 3396 break; 3397 } 3398 channel->remote_sig_id = sig_id; 3399 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_RESPONSE; 3400 break; 3401 3402 #endif 3403 3404 case DISCONNECTION_RESPONSE: 3405 break; 3406 3407 default: 3408 // command unknown -> reject command 3409 return 0; 3410 } 3411 return 1; 3412 } 3413 #endif 3414 3415 #ifdef ENABLE_CLASSIC 3416 static void l2cap_acl_classic_handler_for_channel(l2cap_channel_t * l2cap_channel, uint8_t * packet, uint16_t size){ 3417 3418 // forward data only in OPEN state 3419 if (l2cap_channel->state != L2CAP_STATE_OPEN) return; 3420 3421 #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 3422 if (l2cap_channel->mode == L2CAP_CHANNEL_MODE_ENHANCED_RETRANSMISSION){ 3423 3424 int fcs_size = l2cap_channel->fcs_option ? 2 : 0; 3425 3426 // assert control + FCS fields are inside 3427 if (size < COMPLETE_L2CAP_HEADER+2+fcs_size) return; 3428 3429 if (l2cap_channel->fcs_option){ 3430 // verify FCS (required if one side requested it) 3431 uint16_t fcs_calculated = crc16_calc(&packet[4], size - (4+2)); 3432 uint16_t fcs_packet = little_endian_read_16(packet, size-2); 3433 3434 #ifdef L2CAP_ERTM_SIMULATE_FCS_ERROR_INTERVAL 3435 // simulate fcs error 3436 static int counter = 0; 3437 if (++counter == L2CAP_ERTM_SIMULATE_FCS_ERROR_INTERVAL) { 3438 log_info("Simulate fcs error"); 3439 fcs_calculated++; 3440 counter = 0; 3441 } 3442 #endif 3443 3444 if (fcs_calculated == fcs_packet){ 3445 log_info("Packet FCS 0x%04x verified", fcs_packet); 3446 } else { 3447 log_error("FCS mismatch! Packet 0x%04x, calculated 0x%04x", fcs_packet, fcs_calculated); 3448 // ERTM State Machine in Bluetooth Spec does not handle 'I-Frame with invalid FCS' 3449 return; 3450 } 3451 } 3452 3453 // switch on packet type 3454 uint16_t control = little_endian_read_16(packet, COMPLETE_L2CAP_HEADER); 3455 uint8_t req_seq = (control >> 8) & 0x3f; 3456 int final = (control >> 7) & 0x01; 3457 if (control & 1){ 3458 // S-Frame 3459 int poll = (control >> 4) & 0x01; 3460 l2cap_supervisory_function_t s = (l2cap_supervisory_function_t) ((control >> 2) & 0x03); 3461 log_info("Control: 0x%04x => Supervisory function %u, ReqSeq %02u", control, (int) s, req_seq); 3462 l2cap_ertm_tx_packet_state_t * tx_state; 3463 switch (s){ 3464 case L2CAP_SUPERVISORY_FUNCTION_RR_RECEIVER_READY: 3465 log_info("L2CAP_SUPERVISORY_FUNCTION_RR_RECEIVER_READY"); 3466 l2cap_ertm_process_req_seq(l2cap_channel, req_seq); 3467 if (poll && final){ 3468 // S-frames shall not be transmitted with both the F-bit and the P-bit set to 1 at the same time. 3469 log_error("P=F=1 in S-Frame"); 3470 break; 3471 } 3472 if (poll){ 3473 // check if we did request selective retransmission before <==> we have stored SDU segments 3474 int i; 3475 int num_stored_out_of_order_packets = 0; 3476 for (i=0;i<l2cap_channel->num_rx_buffers;i++){ 3477 int index = l2cap_channel->rx_store_index + i; 3478 if (index >= l2cap_channel->num_rx_buffers){ 3479 index -= l2cap_channel->num_rx_buffers; 3480 } 3481 l2cap_ertm_rx_packet_state_t * rx_state = &l2cap_channel->rx_packets_state[index]; 3482 if (!rx_state->valid) continue; 3483 num_stored_out_of_order_packets++; 3484 } 3485 if (num_stored_out_of_order_packets){ 3486 l2cap_channel->send_supervisor_frame_selective_reject = 1; 3487 } else { 3488 l2cap_channel->send_supervisor_frame_receiver_ready = 1; 3489 } 3490 l2cap_channel->set_final_bit_after_packet_with_poll_bit_set = 1; 3491 } 3492 if (final){ 3493 // Stop-MonitorTimer 3494 l2cap_ertm_stop_monitor_timer(l2cap_channel); 3495 // If UnackedFrames > 0 then Start-RetransTimer 3496 if (l2cap_channel->unacked_frames){ 3497 l2cap_ertm_start_retransmission_timer(l2cap_channel); 3498 } 3499 // final bit set <- response to RR with poll bit set. All not acknowledged packets need to be retransmitted 3500 l2cap_ertm_retransmit_unacknowleded_frames(l2cap_channel); 3501 } 3502 break; 3503 case L2CAP_SUPERVISORY_FUNCTION_REJ_REJECT: 3504 log_info("L2CAP_SUPERVISORY_FUNCTION_REJ_REJECT"); 3505 l2cap_ertm_process_req_seq(l2cap_channel, req_seq); 3506 // restart transmittion from last unacknowledted packet (earlier packets already freed in l2cap_ertm_process_req_seq) 3507 l2cap_ertm_retransmit_unacknowleded_frames(l2cap_channel); 3508 break; 3509 case L2CAP_SUPERVISORY_FUNCTION_RNR_RECEIVER_NOT_READY: 3510 log_error("L2CAP_SUPERVISORY_FUNCTION_RNR_RECEIVER_NOT_READY"); 3511 break; 3512 case L2CAP_SUPERVISORY_FUNCTION_SREJ_SELECTIVE_REJECT: 3513 log_info("L2CAP_SUPERVISORY_FUNCTION_SREJ_SELECTIVE_REJECT"); 3514 if (poll){ 3515 l2cap_ertm_process_req_seq(l2cap_channel, req_seq); 3516 } 3517 // find requested i-frame 3518 tx_state = l2cap_ertm_get_tx_state(l2cap_channel, req_seq); 3519 if (tx_state){ 3520 log_info("Retransmission for tx_seq %u requested", req_seq); 3521 l2cap_channel->set_final_bit_after_packet_with_poll_bit_set = poll; 3522 tx_state->retransmission_requested = 1; 3523 l2cap_channel->srej_active = 1; 3524 } 3525 break; 3526 default: 3527 break; 3528 } 3529 } else { 3530 // I-Frame 3531 // get control 3532 l2cap_segmentation_and_reassembly_t sar = (l2cap_segmentation_and_reassembly_t) (control >> 14); 3533 uint8_t tx_seq = (control >> 1) & 0x3f; 3534 log_info("Control: 0x%04x => SAR %u, ReqSeq %02u, R?, TxSeq %02u", control, (int) sar, req_seq, tx_seq); 3535 log_info("SAR: pos %u", l2cap_channel->reassembly_pos); 3536 log_info("State: expected_tx_seq %02u, req_seq %02u", l2cap_channel->expected_tx_seq, l2cap_channel->req_seq); 3537 l2cap_ertm_process_req_seq(l2cap_channel, req_seq); 3538 if (final){ 3539 // final bit set <- response to RR with poll bit set. All not acknowledged packets need to be retransmitted 3540 l2cap_ertm_retransmit_unacknowleded_frames(l2cap_channel); 3541 } 3542 3543 // get SDU 3544 const uint8_t * payload_data = &packet[COMPLETE_L2CAP_HEADER+2]; 3545 uint16_t payload_len = size-(COMPLETE_L2CAP_HEADER+2+fcs_size); 3546 3547 // assert SDU size is smaller or equal to our buffers 3548 uint16_t max_payload_size = 0; 3549 switch (sar){ 3550 case L2CAP_SEGMENTATION_AND_REASSEMBLY_UNSEGMENTED_L2CAP_SDU: 3551 case L2CAP_SEGMENTATION_AND_REASSEMBLY_START_OF_L2CAP_SDU: 3552 // SDU Length + MPS 3553 max_payload_size = l2cap_channel->local_mps + 2; 3554 break; 3555 case L2CAP_SEGMENTATION_AND_REASSEMBLY_CONTINUATION_OF_L2CAP_SDU: 3556 case L2CAP_SEGMENTATION_AND_REASSEMBLY_END_OF_L2CAP_SDU: 3557 max_payload_size = l2cap_channel->local_mps; 3558 break; 3559 default: 3560 btstack_assert(false); 3561 break; 3562 } 3563 if (payload_len > max_payload_size){ 3564 log_info("payload len %u > max payload %u -> drop packet", payload_len, max_payload_size); 3565 return; 3566 } 3567 3568 // check ordering 3569 if (l2cap_channel->expected_tx_seq == tx_seq){ 3570 log_info("Received expected frame with TxSeq == ExpectedTxSeq == %02u", tx_seq); 3571 l2cap_channel->expected_tx_seq = l2cap_next_ertm_seq_nr(l2cap_channel->expected_tx_seq); 3572 l2cap_channel->req_seq = l2cap_channel->expected_tx_seq; 3573 3574 // process SDU 3575 l2cap_ertm_handle_in_sequence_sdu(l2cap_channel, sar, payload_data, payload_len); 3576 3577 // process stored segments 3578 while (true){ 3579 int index = l2cap_channel->rx_store_index; 3580 l2cap_ertm_rx_packet_state_t * rx_state = &l2cap_channel->rx_packets_state[index]; 3581 if (!rx_state->valid) break; 3582 3583 log_info("Processing stored frame with TxSeq == ExpectedTxSeq == %02u", l2cap_channel->expected_tx_seq); 3584 l2cap_channel->expected_tx_seq = l2cap_next_ertm_seq_nr(l2cap_channel->expected_tx_seq); 3585 l2cap_channel->req_seq = l2cap_channel->expected_tx_seq; 3586 3587 rx_state->valid = 0; 3588 l2cap_ertm_handle_in_sequence_sdu(l2cap_channel, rx_state->sar, &l2cap_channel->rx_packets_data[index], rx_state->len); 3589 3590 // update rx store index 3591 index++; 3592 if (index >= l2cap_channel->num_rx_buffers){ 3593 index = 0; 3594 } 3595 l2cap_channel->rx_store_index = index; 3596 } 3597 3598 // 3599 l2cap_channel->send_supervisor_frame_receiver_ready = 1; 3600 3601 } else { 3602 int delta = (tx_seq - l2cap_channel->expected_tx_seq) & 0x3f; 3603 if (delta < 2){ 3604 // store segment 3605 l2cap_ertm_handle_out_of_sequence_sdu(l2cap_channel, sar, delta, payload_data, payload_len); 3606 3607 log_info("Received unexpected frame TxSeq %u but expected %u -> send S-SREJ", tx_seq, l2cap_channel->expected_tx_seq); 3608 l2cap_channel->send_supervisor_frame_selective_reject = 1; 3609 } else { 3610 log_info("Received unexpected frame TxSeq %u but expected %u -> send S-REJ", tx_seq, l2cap_channel->expected_tx_seq); 3611 l2cap_channel->send_supervisor_frame_reject = 1; 3612 } 3613 } 3614 } 3615 return; 3616 } 3617 #endif 3618 3619 // check size 3620 uint16_t payload_size = size - COMPLETE_L2CAP_HEADER; 3621 if (l2cap_channel->local_mtu < payload_size) return; 3622 3623 l2cap_dispatch_to_channel(l2cap_channel, L2CAP_DATA_PACKET, &packet[COMPLETE_L2CAP_HEADER], payload_size); 3624 } 3625 #endif 3626 3627 static void l2cap_acl_classic_handler(hci_con_handle_t handle, uint8_t *packet, uint16_t size){ 3628 #ifdef ENABLE_CLASSIC 3629 l2cap_channel_t * l2cap_channel; 3630 l2cap_fixed_channel_t * l2cap_fixed_channel; 3631 3632 uint16_t channel_id = READ_L2CAP_CHANNEL_ID(packet); 3633 uint8_t broadcast_flag = READ_ACL_FLAGS(packet) >> 2; 3634 switch (channel_id) { 3635 3636 case L2CAP_CID_SIGNALING: { 3637 if (broadcast_flag != 0) break; 3638 uint32_t command_offset = 8; 3639 while ((command_offset + L2CAP_SIGNALING_COMMAND_DATA_OFFSET) < size) { 3640 // assert signaling command is fully inside packet 3641 uint16_t data_len = little_endian_read_16(packet, command_offset + L2CAP_SIGNALING_COMMAND_LENGTH_OFFSET); 3642 uint32_t next_command_offset = command_offset + L2CAP_SIGNALING_COMMAND_DATA_OFFSET + data_len; 3643 if (next_command_offset > size){ 3644 log_error("l2cap signaling command len invalid -> drop"); 3645 break; 3646 } 3647 // handle signaling command 3648 l2cap_signaling_handler_dispatch(handle, &packet[command_offset]); 3649 // go to next command 3650 command_offset = next_command_offset; 3651 } 3652 break; 3653 } 3654 case L2CAP_CID_CONNECTIONLESS_CHANNEL: 3655 if (broadcast_flag == 0) break; 3656 l2cap_fixed_channel = l2cap_fixed_channel_for_channel_id(L2CAP_CID_CONNECTIONLESS_CHANNEL); 3657 if (!l2cap_fixed_channel) break; 3658 if (!l2cap_fixed_channel->packet_handler) break; 3659 (*l2cap_fixed_channel->packet_handler)(UCD_DATA_PACKET, handle, &packet[COMPLETE_L2CAP_HEADER], size-COMPLETE_L2CAP_HEADER); 3660 break; 3661 3662 default: 3663 if (broadcast_flag != 0) break; 3664 // Find channel for this channel_id and connection handle 3665 l2cap_channel = l2cap_get_channel_for_local_cid_and_handle(channel_id, handle); 3666 if (l2cap_channel != NULL){ 3667 l2cap_acl_classic_handler_for_channel(l2cap_channel, packet, size); 3668 } 3669 break; 3670 } 3671 #else 3672 UNUSED(handle); // ok: no code 3673 UNUSED(packet); // ok: no code 3674 UNUSED(size); // ok: no code 3675 #endif 3676 } 3677 3678 static void l2cap_acl_le_handler(hci_con_handle_t handle, uint8_t *packet, uint16_t size){ 3679 #ifdef ENABLE_BLE 3680 3681 l2cap_fixed_channel_t * l2cap_fixed_channel; 3682 3683 #ifdef ENABLE_LE_DATA_CHANNELS 3684 l2cap_channel_t * l2cap_channel; 3685 #endif 3686 uint16_t channel_id = READ_L2CAP_CHANNEL_ID(packet); 3687 switch (channel_id) { 3688 3689 case L2CAP_CID_SIGNALING_LE: { 3690 uint16_t sig_id = packet[COMPLETE_L2CAP_HEADER + 1]; 3691 uint16_t len = little_endian_read_16(packet, COMPLETE_L2CAP_HEADER + 2); 3692 if ((COMPLETE_L2CAP_HEADER + 4u + len) > size) break; 3693 int valid = l2cap_le_signaling_handler_dispatch(handle, &packet[COMPLETE_L2CAP_HEADER], sig_id); 3694 if (!valid){ 3695 l2cap_register_signaling_response(handle, COMMAND_REJECT_LE, sig_id, 0, L2CAP_REJ_CMD_UNKNOWN); 3696 } 3697 break; 3698 } 3699 3700 case L2CAP_CID_ATTRIBUTE_PROTOCOL: 3701 l2cap_fixed_channel = l2cap_fixed_channel_for_channel_id(L2CAP_CID_ATTRIBUTE_PROTOCOL); 3702 if (!l2cap_fixed_channel) break; 3703 if (!l2cap_fixed_channel->packet_handler) break; 3704 (*l2cap_fixed_channel->packet_handler)(ATT_DATA_PACKET, handle, &packet[COMPLETE_L2CAP_HEADER], size-COMPLETE_L2CAP_HEADER); 3705 break; 3706 3707 case L2CAP_CID_SECURITY_MANAGER_PROTOCOL: 3708 l2cap_fixed_channel = l2cap_fixed_channel_for_channel_id(L2CAP_CID_SECURITY_MANAGER_PROTOCOL); 3709 if (!l2cap_fixed_channel) break; 3710 if (!l2cap_fixed_channel->packet_handler) break; 3711 (*l2cap_fixed_channel->packet_handler)(SM_DATA_PACKET, handle, &packet[COMPLETE_L2CAP_HEADER], size-COMPLETE_L2CAP_HEADER); 3712 break; 3713 3714 default: 3715 3716 #ifdef ENABLE_LE_DATA_CHANNELS 3717 l2cap_channel = l2cap_get_channel_for_local_cid_and_handle(channel_id, handle); 3718 if (l2cap_channel != NULL) { 3719 // credit counting 3720 if (l2cap_channel->credits_incoming == 0u){ 3721 log_info("LE Data Channel packet received but no incoming credits"); 3722 l2cap_channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 3723 break; 3724 } 3725 l2cap_channel->credits_incoming--; 3726 3727 // automatic credits 3728 if ((l2cap_channel->credits_incoming < L2CAP_LE_DATA_CHANNELS_AUTOMATIC_CREDITS_WATERMARK) && l2cap_channel->automatic_credits){ 3729 l2cap_channel->new_credits_incoming = L2CAP_LE_DATA_CHANNELS_AUTOMATIC_CREDITS_INCREMENT; 3730 } 3731 3732 // first fragment 3733 uint16_t pos = 0; 3734 if (!l2cap_channel->receive_sdu_len){ 3735 uint16_t sdu_len = little_endian_read_16(packet, COMPLETE_L2CAP_HEADER); 3736 if(sdu_len > l2cap_channel->local_mtu) break; // SDU would be larger than our buffer 3737 l2cap_channel->receive_sdu_len = sdu_len; 3738 l2cap_channel->receive_sdu_pos = 0; 3739 pos += 2u; 3740 size -= 2u; 3741 } 3742 uint16_t fragment_size = size-COMPLETE_L2CAP_HEADER; 3743 uint16_t remaining_space = l2cap_channel->local_mtu - l2cap_channel->receive_sdu_pos; 3744 if (fragment_size > remaining_space) break; // SDU would cause buffer overrun 3745 (void)memcpy(&l2cap_channel->receive_sdu_buffer[l2cap_channel->receive_sdu_pos], 3746 &packet[COMPLETE_L2CAP_HEADER + pos], 3747 fragment_size); 3748 l2cap_channel->receive_sdu_pos += size - COMPLETE_L2CAP_HEADER; 3749 // done? 3750 log_debug("le packet pos %u, len %u", l2cap_channel->receive_sdu_pos, l2cap_channel->receive_sdu_len); 3751 if (l2cap_channel->receive_sdu_pos >= l2cap_channel->receive_sdu_len){ 3752 l2cap_dispatch_to_channel(l2cap_channel, L2CAP_DATA_PACKET, l2cap_channel->receive_sdu_buffer, l2cap_channel->receive_sdu_len); 3753 l2cap_channel->receive_sdu_len = 0; 3754 } 3755 } 3756 #endif 3757 break; 3758 } 3759 #else 3760 UNUSED(handle); // ok: no code 3761 UNUSED(packet); // ok: no code 3762 UNUSED(size); // ok: no code 3763 #endif 3764 } 3765 3766 static void l2cap_acl_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size){ 3767 UNUSED(packet_type); // ok: registered with hci_register_acl_packet_handler 3768 UNUSED(channel); // ok: there is no channel 3769 3770 // Assert full L2CAP header present 3771 if (size < COMPLETE_L2CAP_HEADER) return; 3772 3773 // Dispatch to Classic or LE handler (SCO packets are not dispatched to L2CAP) 3774 hci_con_handle_t handle = READ_ACL_CONNECTION_HANDLE(packet); 3775 hci_connection_t *conn = hci_connection_for_handle(handle); 3776 if (!conn) return; 3777 if (conn->address_type == BD_ADDR_TYPE_ACL){ 3778 l2cap_acl_classic_handler(handle, packet, size); 3779 } else { 3780 l2cap_acl_le_handler(handle, packet, size); 3781 } 3782 3783 l2cap_run(); 3784 } 3785 3786 // Bluetooth 4.0 - allows to register handler for Attribute Protocol and Security Manager Protocol 3787 void l2cap_register_fixed_channel(btstack_packet_handler_t the_packet_handler, uint16_t channel_id) { 3788 l2cap_fixed_channel_t * channel = l2cap_fixed_channel_for_channel_id(channel_id); 3789 if (!channel) return; 3790 channel->packet_handler = the_packet_handler; 3791 } 3792 3793 #ifdef ENABLE_CLASSIC 3794 // finalize closed channel - l2cap_handle_disconnect_request & DISCONNECTION_RESPONSE 3795 void l2cap_finialize_channel_close(l2cap_channel_t * channel){ 3796 channel->state = L2CAP_STATE_CLOSED; 3797 l2cap_handle_channel_closed(channel); 3798 // discard channel 3799 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 3800 l2cap_free_channel_entry(channel); 3801 } 3802 #endif 3803 3804 #ifdef L2CAP_USES_CHANNELS 3805 static l2cap_service_t * l2cap_get_service_internal(btstack_linked_list_t * services, uint16_t psm){ 3806 btstack_linked_list_iterator_t it; 3807 btstack_linked_list_iterator_init(&it, services); 3808 while (btstack_linked_list_iterator_has_next(&it)){ 3809 l2cap_service_t * service = (l2cap_service_t *) btstack_linked_list_iterator_next(&it); 3810 if ( service->psm == psm){ 3811 return service; 3812 }; 3813 } 3814 return NULL; 3815 } 3816 #endif 3817 3818 #ifdef ENABLE_CLASSIC 3819 static inline l2cap_service_t * l2cap_get_service(uint16_t psm){ 3820 return l2cap_get_service_internal(&l2cap_services, psm); 3821 } 3822 3823 uint8_t l2cap_register_service(btstack_packet_handler_t service_packet_handler, uint16_t psm, uint16_t mtu, gap_security_level_t security_level){ 3824 3825 log_info("L2CAP_REGISTER_SERVICE psm 0x%x mtu %u", psm, mtu); 3826 3827 // check for alread registered psm 3828 l2cap_service_t *service = l2cap_get_service(psm); 3829 if (service) { 3830 log_error("l2cap_register_service: PSM %u already registered", psm); 3831 return L2CAP_SERVICE_ALREADY_REGISTERED; 3832 } 3833 3834 // alloc structure 3835 service = btstack_memory_l2cap_service_get(); 3836 if (!service) { 3837 log_error("l2cap_register_service: no memory for l2cap_service_t"); 3838 return BTSTACK_MEMORY_ALLOC_FAILED; 3839 } 3840 3841 // fill in 3842 service->psm = psm; 3843 service->mtu = mtu; 3844 service->packet_handler = service_packet_handler; 3845 service->required_security_level = security_level; 3846 3847 // add to services list 3848 btstack_linked_list_add(&l2cap_services, (btstack_linked_item_t *) service); 3849 3850 #ifndef ENABLE_EXPLICIT_CONNECTABLE_MODE_CONTROL 3851 // enable page scan 3852 gap_connectable_control(1); 3853 #endif 3854 3855 return ERROR_CODE_SUCCESS; 3856 } 3857 3858 uint8_t l2cap_unregister_service(uint16_t psm){ 3859 3860 log_info("L2CAP_UNREGISTER_SERVICE psm 0x%x", psm); 3861 3862 l2cap_service_t *service = l2cap_get_service(psm); 3863 if (!service) return L2CAP_SERVICE_DOES_NOT_EXIST; 3864 btstack_linked_list_remove(&l2cap_services, (btstack_linked_item_t *) service); 3865 btstack_memory_l2cap_service_free(service); 3866 3867 #ifndef ENABLE_EXPLICIT_CONNECTABLE_MODE_CONTROL 3868 // disable page scan when no services registered 3869 if (btstack_linked_list_empty(&l2cap_services)) { 3870 gap_connectable_control(0); 3871 } 3872 #endif 3873 3874 return ERROR_CODE_SUCCESS; 3875 } 3876 #endif 3877 3878 3879 #ifdef ENABLE_LE_DATA_CHANNELS 3880 3881 static void l2cap_le_notify_channel_can_send(l2cap_channel_t *channel){ 3882 if (!channel->waiting_for_can_send_now) return; 3883 if (channel->send_sdu_buffer) return; 3884 channel->waiting_for_can_send_now = 0; 3885 log_debug("L2CAP_EVENT_CHANNEL_LE_CAN_SEND_NOW local_cid 0x%x", channel->local_cid); 3886 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_LE_CAN_SEND_NOW); 3887 } 3888 3889 // 1BH2222 3890 static void l2cap_emit_le_incoming_connection(l2cap_channel_t *channel) { 3891 log_info("L2CAP_EVENT_LE_INCOMING_CONNECTION addr_type %u, addr %s handle 0x%x psm 0x%x local_cid 0x%x remote_cid 0x%x, remote_mtu %u", 3892 channel->address_type, bd_addr_to_str(channel->address), channel->con_handle, channel->psm, channel->local_cid, channel->remote_cid, channel->remote_mtu); 3893 uint8_t event[19]; 3894 event[0] = L2CAP_EVENT_LE_INCOMING_CONNECTION; 3895 event[1] = sizeof(event) - 2u; 3896 event[2] = channel->address_type; 3897 reverse_bd_addr(channel->address, &event[3]); 3898 little_endian_store_16(event, 9, channel->con_handle); 3899 little_endian_store_16(event, 11, channel->psm); 3900 little_endian_store_16(event, 13, channel->local_cid); 3901 little_endian_store_16(event, 15, channel->remote_cid); 3902 little_endian_store_16(event, 17, channel->remote_mtu); 3903 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 3904 l2cap_dispatch_to_channel(channel, HCI_EVENT_PACKET, event, sizeof(event)); 3905 } 3906 // 11BH22222 3907 static void l2cap_emit_le_channel_opened(l2cap_channel_t *channel, uint8_t status) { 3908 log_info("L2CAP_EVENT_LE_CHANNEL_OPENED status 0x%x addr_type %u addr %s handle 0x%x psm 0x%x local_cid 0x%x remote_cid 0x%x local_mtu %u, remote_mtu %u", 3909 status, channel->address_type, bd_addr_to_str(channel->address), channel->con_handle, channel->psm, 3910 channel->local_cid, channel->remote_cid, channel->local_mtu, channel->remote_mtu); 3911 uint8_t event[23]; 3912 event[0] = L2CAP_EVENT_LE_CHANNEL_OPENED; 3913 event[1] = sizeof(event) - 2u; 3914 event[2] = status; 3915 event[3] = channel->address_type; 3916 reverse_bd_addr(channel->address, &event[4]); 3917 little_endian_store_16(event, 10, channel->con_handle); 3918 event[12] = (channel->state_var & L2CAP_CHANNEL_STATE_VAR_INCOMING) ? 1 : 0; 3919 little_endian_store_16(event, 13, channel->psm); 3920 little_endian_store_16(event, 15, channel->local_cid); 3921 little_endian_store_16(event, 17, channel->remote_cid); 3922 little_endian_store_16(event, 19, channel->local_mtu); 3923 little_endian_store_16(event, 21, channel->remote_mtu); 3924 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 3925 l2cap_dispatch_to_channel(channel, HCI_EVENT_PACKET, event, sizeof(event)); 3926 } 3927 // 2 3928 static void l2cap_emit_le_channel_closed(l2cap_channel_t * channel){ 3929 log_info("L2CAP_EVENT_LE_CHANNEL_CLOSED local_cid 0x%x", channel->local_cid); 3930 uint8_t event[4]; 3931 event[0] = L2CAP_EVENT_LE_CHANNEL_CLOSED; 3932 event[1] = sizeof(event) - 2u; 3933 little_endian_store_16(event, 2, channel->local_cid); 3934 hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 3935 l2cap_dispatch_to_channel(channel, HCI_EVENT_PACKET, event, sizeof(event)); 3936 } 3937 3938 static void l2cap_le_send_pdu(l2cap_channel_t *channel){ 3939 btstack_assert(channel != NULL); 3940 btstack_assert(channel->send_sdu_buffer != NULL); 3941 btstack_assert(channel->credits_outgoing > 0); 3942 3943 // send part of SDU 3944 hci_reserve_packet_buffer(); 3945 uint8_t * acl_buffer = hci_get_outgoing_packet_buffer(); 3946 uint8_t * l2cap_payload = acl_buffer + 8; 3947 uint16_t pos = 0; 3948 if (!channel->send_sdu_pos){ 3949 // store SDU len 3950 channel->send_sdu_pos += 2u; 3951 little_endian_store_16(l2cap_payload, pos, channel->send_sdu_len); 3952 pos += 2u; 3953 } 3954 uint16_t payload_size = btstack_min(channel->send_sdu_len + 2u - channel->send_sdu_pos, channel->remote_mps - pos); 3955 log_info("len %u, pos %u => payload %u, credits %u", channel->send_sdu_len, channel->send_sdu_pos, payload_size, channel->credits_outgoing); 3956 (void)memcpy(&l2cap_payload[pos], 3957 &channel->send_sdu_buffer[channel->send_sdu_pos - 2u], 3958 payload_size); // -2 for virtual SDU len 3959 pos += payload_size; 3960 channel->send_sdu_pos += payload_size; 3961 l2cap_setup_header(acl_buffer, channel->con_handle, 0, channel->remote_cid, pos); 3962 3963 channel->credits_outgoing--; 3964 3965 hci_send_acl_packet_buffer(8u + pos); 3966 3967 if (channel->send_sdu_pos >= (channel->send_sdu_len + 2u)){ 3968 channel->send_sdu_buffer = NULL; 3969 // send done event 3970 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_LE_PACKET_SENT); 3971 // inform about can send now 3972 l2cap_le_notify_channel_can_send(channel); 3973 } 3974 } 3975 3976 // finalize closed channel - l2cap_handle_disconnect_request & DISCONNECTION_RESPONSE 3977 void l2cap_le_finialize_channel_close(l2cap_channel_t * channel){ 3978 channel->state = L2CAP_STATE_CLOSED; 3979 l2cap_emit_simple_event_with_cid(channel, L2CAP_EVENT_CHANNEL_CLOSED); 3980 // discard channel 3981 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 3982 l2cap_free_channel_entry(channel); 3983 } 3984 3985 static inline l2cap_service_t * l2cap_le_get_service(uint16_t le_psm){ 3986 return l2cap_get_service_internal(&l2cap_le_services, le_psm); 3987 } 3988 3989 uint8_t l2cap_le_register_service(btstack_packet_handler_t packet_handler, uint16_t psm, gap_security_level_t security_level){ 3990 3991 log_info("L2CAP_LE_REGISTER_SERVICE psm 0x%x", psm); 3992 3993 // check for alread registered psm 3994 l2cap_service_t *service = l2cap_le_get_service(psm); 3995 if (service) { 3996 return L2CAP_SERVICE_ALREADY_REGISTERED; 3997 } 3998 3999 // alloc structure 4000 service = btstack_memory_l2cap_service_get(); 4001 if (!service) { 4002 log_error("l2cap_register_service_internal: no memory for l2cap_service_t"); 4003 return BTSTACK_MEMORY_ALLOC_FAILED; 4004 } 4005 4006 // fill in 4007 service->psm = psm; 4008 service->mtu = 0; 4009 service->packet_handler = packet_handler; 4010 service->required_security_level = security_level; 4011 4012 // add to services list 4013 btstack_linked_list_add(&l2cap_le_services, (btstack_linked_item_t *) service); 4014 4015 // done 4016 return ERROR_CODE_SUCCESS; 4017 } 4018 4019 uint8_t l2cap_le_unregister_service(uint16_t psm) { 4020 log_info("L2CAP_LE_UNREGISTER_SERVICE psm 0x%x", psm); 4021 l2cap_service_t *service = l2cap_le_get_service(psm); 4022 if (!service) return L2CAP_SERVICE_DOES_NOT_EXIST; 4023 4024 btstack_linked_list_remove(&l2cap_le_services, (btstack_linked_item_t *) service); 4025 btstack_memory_l2cap_service_free(service); 4026 return ERROR_CODE_SUCCESS; 4027 } 4028 4029 uint8_t l2cap_le_accept_connection(uint16_t local_cid, uint8_t * receive_sdu_buffer, uint16_t mtu, uint16_t initial_credits){ 4030 // get channel 4031 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 4032 if (!channel) return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 4033 4034 // validate state 4035 if (channel->state != L2CAP_STATE_WAIT_CLIENT_ACCEPT_OR_REJECT){ 4036 return ERROR_CODE_COMMAND_DISALLOWED; 4037 } 4038 4039 // set state accept connection 4040 channel->state = L2CAP_STATE_WILL_SEND_LE_CONNECTION_RESPONSE_ACCEPT; 4041 channel->receive_sdu_buffer = receive_sdu_buffer; 4042 channel->local_mtu = mtu; 4043 channel->new_credits_incoming = initial_credits; 4044 channel->automatic_credits = initial_credits == L2CAP_LE_AUTOMATIC_CREDITS; 4045 4046 // test 4047 // channel->new_credits_incoming = 1; 4048 4049 // go 4050 l2cap_run(); 4051 return ERROR_CODE_SUCCESS; 4052 } 4053 4054 /** 4055 * @brief Deny incoming LE Data Channel connection due to resource constraints 4056 * @param local_cid L2CAP LE Data Channel Identifier 4057 */ 4058 4059 uint8_t l2cap_le_decline_connection(uint16_t local_cid){ 4060 // get channel 4061 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 4062 if (!channel) return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 4063 4064 // validate state 4065 if (channel->state != L2CAP_STATE_WAIT_CLIENT_ACCEPT_OR_REJECT){ 4066 return ERROR_CODE_COMMAND_DISALLOWED; 4067 } 4068 4069 // set state decline connection 4070 channel->state = L2CAP_STATE_WILL_SEND_LE_CONNECTION_RESPONSE_DECLINE; 4071 channel->reason = 0x04; // no resources available 4072 l2cap_run(); 4073 return ERROR_CODE_SUCCESS; 4074 } 4075 4076 static gap_security_level_t l2cap_le_security_level_for_connection(hci_con_handle_t con_handle){ 4077 uint8_t encryption_key_size = gap_encryption_key_size(con_handle); 4078 if (encryption_key_size == 0) return LEVEL_0; 4079 4080 uint8_t authenticated = gap_authenticated(con_handle); 4081 if (!authenticated) return LEVEL_2; 4082 4083 return encryption_key_size == 16 ? LEVEL_4 : LEVEL_3; 4084 } 4085 4086 // used to handle pairing complete after triggering to increase 4087 static void l2cap_sm_packet_handler(uint8_t packet_type, uint16_t channel_nr, uint8_t *packet, uint16_t size) { 4088 UNUSED(channel_nr); 4089 UNUSED(size); 4090 UNUSED(packet_type); 4091 btstack_assert(packet_type == HCI_EVENT_PACKET); 4092 if (hci_event_packet_get_type(packet) != SM_EVENT_PAIRING_COMPLETE) return; 4093 hci_con_handle_t con_handle = sm_event_pairing_complete_get_handle(packet); 4094 btstack_linked_list_iterator_t it; 4095 btstack_linked_list_iterator_init(&it, &l2cap_channels); 4096 while (btstack_linked_list_iterator_has_next(&it)) { 4097 l2cap_channel_t *channel = (l2cap_channel_t *) btstack_linked_list_iterator_next(&it); 4098 if (!l2cap_is_dynamic_channel_type(channel->channel_type)) continue; 4099 if (channel->con_handle != con_handle) continue; 4100 if (channel->state != L2CAP_STATE_WAIT_OUTGOING_SECURITY_LEVEL_UPDATE) continue; 4101 4102 // found channel, check security level 4103 if (l2cap_le_security_level_for_connection(con_handle) < channel->required_security_level){ 4104 // pairing failed or wasn't good enough, inform user 4105 l2cap_emit_le_channel_opened(channel, ERROR_CODE_INSUFFICIENT_SECURITY); 4106 // discard channel 4107 btstack_linked_list_remove(&l2cap_channels, (btstack_linked_item_t *) channel); 4108 l2cap_free_channel_entry(channel); 4109 } else { 4110 // send conn request now 4111 channel->state = L2CAP_STATE_WILL_SEND_LE_CONNECTION_REQUEST; 4112 l2cap_run(); 4113 } 4114 } 4115 } 4116 4117 uint8_t l2cap_le_create_channel(btstack_packet_handler_t packet_handler, hci_con_handle_t con_handle, 4118 uint16_t psm, uint8_t * receive_sdu_buffer, uint16_t mtu, uint16_t initial_credits, gap_security_level_t security_level, 4119 uint16_t * out_local_cid) { 4120 4121 static btstack_packet_callback_registration_t sm_event_callback_registration; 4122 static bool sm_callback_registered = false; 4123 4124 log_info("L2CAP_LE_CREATE_CHANNEL handle 0x%04x psm 0x%x mtu %u", con_handle, psm, mtu); 4125 4126 hci_connection_t * connection = hci_connection_for_handle(con_handle); 4127 if (!connection) { 4128 log_error("no hci_connection for handle 0x%04x", con_handle); 4129 return ERROR_CODE_UNKNOWN_CONNECTION_IDENTIFIER; 4130 } 4131 4132 l2cap_channel_t * channel = l2cap_create_channel_entry(packet_handler, L2CAP_CHANNEL_TYPE_LE_DATA_CHANNEL, connection->address, connection->address_type, psm, mtu, security_level); 4133 if (!channel) { 4134 return BTSTACK_MEMORY_ALLOC_FAILED; 4135 } 4136 log_info("l2cap_le_create_channel %p", channel); 4137 4138 // store local_cid 4139 if (out_local_cid){ 4140 *out_local_cid = channel->local_cid; 4141 } 4142 4143 // setup channel entry 4144 channel->con_handle = con_handle; 4145 channel->receive_sdu_buffer = receive_sdu_buffer; 4146 channel->new_credits_incoming = initial_credits; 4147 channel->automatic_credits = initial_credits == L2CAP_LE_AUTOMATIC_CREDITS; 4148 4149 // add to connections list 4150 btstack_linked_list_add_tail(&l2cap_channels, (btstack_linked_item_t *) channel); 4151 4152 // check security level 4153 if (l2cap_le_security_level_for_connection(con_handle) < channel->required_security_level){ 4154 if (!sm_callback_registered){ 4155 sm_callback_registered = true; 4156 // lazy registration for SM events 4157 sm_event_callback_registration.callback = &l2cap_sm_packet_handler; 4158 sm_add_event_handler(&sm_event_callback_registration); 4159 } 4160 4161 // start pairing 4162 channel->state = L2CAP_STATE_WAIT_OUTGOING_SECURITY_LEVEL_UPDATE; 4163 sm_request_pairing(con_handle); 4164 } else { 4165 // send conn request right away 4166 channel->state = L2CAP_STATE_WILL_SEND_LE_CONNECTION_REQUEST; 4167 l2cap_run(); 4168 } 4169 4170 return ERROR_CODE_SUCCESS; 4171 } 4172 4173 /** 4174 * @brief Provide credtis for LE Data Channel 4175 * @param local_cid L2CAP LE Data Channel Identifier 4176 * @param credits Number additional credits for peer 4177 */ 4178 uint8_t l2cap_le_provide_credits(uint16_t local_cid, uint16_t credits){ 4179 4180 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 4181 if (!channel) { 4182 log_error("l2cap_le_provide_credits no channel for cid 0x%02x", local_cid); 4183 return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 4184 } 4185 4186 // check state 4187 if (channel->state != L2CAP_STATE_OPEN){ 4188 log_error("l2cap_le_provide_credits but channel 0x%02x not open yet", local_cid); 4189 } 4190 4191 // assert incoming credits + credits <= 0xffff 4192 uint32_t total_credits = channel->credits_incoming; 4193 total_credits += channel->new_credits_incoming; 4194 total_credits += credits; 4195 if (total_credits > 0xffffu){ 4196 log_error("l2cap_le_provide_credits overrun: current %u, scheduled %u, additional %u", channel->credits_incoming, 4197 channel->new_credits_incoming, credits); 4198 } 4199 4200 // set credits_granted 4201 channel->new_credits_incoming += credits; 4202 4203 // go 4204 l2cap_run(); 4205 return ERROR_CODE_SUCCESS; 4206 } 4207 4208 /** 4209 * @brief Check if outgoing buffer is available and that there's space on the Bluetooth module 4210 * @param local_cid L2CAP LE Data Channel Identifier 4211 */ 4212 int l2cap_le_can_send_now(uint16_t local_cid){ 4213 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 4214 if (!channel) { 4215 log_error("l2cap_le_provide_credits no channel for cid 0x%02x", local_cid); 4216 return 0; 4217 } 4218 4219 // check state 4220 if (channel->state != L2CAP_STATE_OPEN) return 0; 4221 4222 // check queue 4223 if (channel->send_sdu_buffer) return 0; 4224 4225 // fine, go ahead 4226 return 1; 4227 } 4228 4229 /** 4230 * @brief Request emission of L2CAP_EVENT_CAN_SEND_NOW as soon as possible 4231 * @note L2CAP_EVENT_CAN_SEND_NOW might be emitted during call to this function 4232 * so packet handler should be ready to handle it 4233 * @param local_cid L2CAP LE Data Channel Identifier 4234 */ 4235 uint8_t l2cap_le_request_can_send_now_event(uint16_t local_cid){ 4236 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 4237 if (!channel) { 4238 log_error("l2cap_le_request_can_send_now_event no channel for cid 0x%02x", local_cid); 4239 return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 4240 } 4241 channel->waiting_for_can_send_now = 1; 4242 l2cap_le_notify_channel_can_send(channel); 4243 return ERROR_CODE_SUCCESS; 4244 } 4245 4246 /** 4247 * @brief Send data via LE Data Channel 4248 * @note Since data larger then the maximum PDU needs to be segmented into multiple PDUs, data needs to stay valid until ... event 4249 * @param local_cid L2CAP LE Data Channel Identifier 4250 * @param data data to send 4251 * @param size data size 4252 */ 4253 uint8_t l2cap_le_send_data(uint16_t local_cid, uint8_t * data, uint16_t len){ 4254 4255 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 4256 if (!channel) { 4257 log_error("l2cap_send no channel for cid 0x%02x", local_cid); 4258 return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 4259 } 4260 4261 if (len > channel->remote_mtu){ 4262 log_error("l2cap_send cid 0x%02x, data length exceeds remote MTU.", local_cid); 4263 return L2CAP_DATA_LEN_EXCEEDS_REMOTE_MTU; 4264 } 4265 4266 if (channel->send_sdu_buffer){ 4267 log_info("l2cap_send cid 0x%02x, cannot send", local_cid); 4268 return BTSTACK_ACL_BUFFERS_FULL; 4269 } 4270 4271 channel->send_sdu_buffer = data; 4272 channel->send_sdu_len = len; 4273 channel->send_sdu_pos = 0; 4274 4275 l2cap_notify_channel_can_send(); 4276 return ERROR_CODE_SUCCESS; 4277 } 4278 4279 /** 4280 * @brief Disconnect from LE Data Channel 4281 * @param local_cid L2CAP LE Data Channel Identifier 4282 */ 4283 uint8_t l2cap_le_disconnect(uint16_t local_cid) 4284 { 4285 l2cap_channel_t * channel = l2cap_get_channel_for_local_cid(local_cid); 4286 if (!channel) { 4287 log_error("l2cap_send no channel for cid 0x%02x", local_cid); 4288 return L2CAP_LOCAL_CID_DOES_NOT_EXIST; 4289 } 4290 4291 channel->state = L2CAP_STATE_WILL_SEND_DISCONNECT_REQUEST; 4292 l2cap_run(); 4293 return ERROR_CODE_SUCCESS; 4294 } 4295 4296 #endif 4297