13deb3ec6SMatthias Ringwald /* 23deb3ec6SMatthias Ringwald * Copyright (C) 2014 BlueKitchen GmbH 33deb3ec6SMatthias Ringwald * 43deb3ec6SMatthias Ringwald * Redistribution and use in source and binary forms, with or without 53deb3ec6SMatthias Ringwald * modification, are permitted provided that the following conditions 63deb3ec6SMatthias Ringwald * are met: 73deb3ec6SMatthias Ringwald * 83deb3ec6SMatthias Ringwald * 1. Redistributions of source code must retain the above copyright 93deb3ec6SMatthias Ringwald * notice, this list of conditions and the following disclaimer. 103deb3ec6SMatthias Ringwald * 2. Redistributions in binary form must reproduce the above copyright 113deb3ec6SMatthias Ringwald * notice, this list of conditions and the following disclaimer in the 123deb3ec6SMatthias Ringwald * documentation and/or other materials provided with the distribution. 133deb3ec6SMatthias Ringwald * 3. Neither the name of the copyright holders nor the names of 143deb3ec6SMatthias Ringwald * contributors may be used to endorse or promote products derived 153deb3ec6SMatthias Ringwald * from this software without specific prior written permission. 163deb3ec6SMatthias Ringwald * 4. Any redistribution, use, or modification is done solely for 173deb3ec6SMatthias Ringwald * personal benefit and not for any commercial purpose or for 183deb3ec6SMatthias Ringwald * monetary gain. 193deb3ec6SMatthias Ringwald * 203deb3ec6SMatthias Ringwald * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS 213deb3ec6SMatthias Ringwald * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 223deb3ec6SMatthias Ringwald * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 233deb3ec6SMatthias Ringwald * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS 243deb3ec6SMatthias Ringwald * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 253deb3ec6SMatthias Ringwald * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 263deb3ec6SMatthias Ringwald * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 273deb3ec6SMatthias Ringwald * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 283deb3ec6SMatthias Ringwald * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 293deb3ec6SMatthias Ringwald * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 303deb3ec6SMatthias Ringwald * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 313deb3ec6SMatthias Ringwald * SUCH DAMAGE. 323deb3ec6SMatthias Ringwald * 333deb3ec6SMatthias Ringwald * Please inquire about commercial licensing options at 343deb3ec6SMatthias Ringwald * [email protected] 353deb3ec6SMatthias Ringwald * 363deb3ec6SMatthias Ringwald */ 373deb3ec6SMatthias Ringwald 38e501bae0SMatthias Ringwald #define BTSTACK_FILE__ "rfcomm.c" 39ab2c6ae4SMatthias Ringwald 403deb3ec6SMatthias Ringwald /* 413deb3ec6SMatthias Ringwald * rfcomm.c 423deb3ec6SMatthias Ringwald */ 433deb3ec6SMatthias Ringwald 443deb3ec6SMatthias Ringwald #include <string.h> // memcpy 453deb3ec6SMatthias Ringwald #include <stdint.h> 463deb3ec6SMatthias Ringwald 47235946f1SMatthias Ringwald #include "bluetooth_sdp.h" 4816ece135SMatthias Ringwald #include "btstack_debug.h" 490e2df43fSMatthias Ringwald #include "btstack_event.h" 50e628322dSMatthias Ringwald #include "btstack_memory.h" 51e628322dSMatthias Ringwald #include "btstack_util.h" 5259c6af15SMatthias Ringwald #include "classic/core.h" 533edc84c5SMatthias Ringwald #include "classic/rfcomm.h" 54e628322dSMatthias Ringwald #include "hci.h" 55e628322dSMatthias Ringwald #include "hci_cmd.h" 56e628322dSMatthias Ringwald #include "hci_dump.h" 57e628322dSMatthias Ringwald #include "l2cap.h" 583deb3ec6SMatthias Ringwald 593deb3ec6SMatthias Ringwald // workaround for missing PRIxPTR on mspgcc (16/20-bit MCU) 603deb3ec6SMatthias Ringwald #ifndef PRIxPTR 613deb3ec6SMatthias Ringwald #if defined(__MSP430X__) && defined(__MSP430X_LARGE__) 623deb3ec6SMatthias Ringwald #define PRIxPTR "lx" 633deb3ec6SMatthias Ringwald #else 643deb3ec6SMatthias Ringwald #define PRIxPTR "x" 653deb3ec6SMatthias Ringwald #endif 663deb3ec6SMatthias Ringwald #endif 673deb3ec6SMatthias Ringwald 68278494d6SMatthias Ringwald // ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE_FOR_RFCOMM requires ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 69278494d6SMatthias Ringwald #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE_FOR_RFCOMM 70278494d6SMatthias Ringwald #ifdef ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE 71a7a98a14SMatthias Ringwald #define RFCOMM_USE_OUTGOING_BUFFER 72a7a98a14SMatthias Ringwald #define RFCOMM_USE_ERTM 73278494d6SMatthias Ringwald #else 74278494d6SMatthias Ringwald #error "ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE_FOR_RFCOMM requires ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE. " 75278494d6SMatthias Ringwald #error "Please disable ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE_FOR_RFCOMM, or, " 76278494d6SMatthias Ringwald #error "enable ENABLE_L2CAP_ENHANCED_RETRANSMISSION_MODE" 77278494d6SMatthias Ringwald #endif 78a7a98a14SMatthias Ringwald #endif 79a7a98a14SMatthias Ringwald 803deb3ec6SMatthias Ringwald #define RFCOMM_MULIPLEXER_TIMEOUT_MS 60000 813deb3ec6SMatthias Ringwald 823deb3ec6SMatthias Ringwald #define RFCOMM_CREDITS 10 833deb3ec6SMatthias Ringwald 843deb3ec6SMatthias Ringwald // FCS calc 853deb3ec6SMatthias Ringwald #define BT_RFCOMM_CODE_WORD 0xE0 // pol = x8+x2+x1+1 863deb3ec6SMatthias Ringwald #define BT_RFCOMM_CRC_CHECK_LEN 3 873deb3ec6SMatthias Ringwald #define BT_RFCOMM_UIHCRC_CHECK_LEN 2 883deb3ec6SMatthias Ringwald 899d929efbSMatthias Ringwald // Control field values bit no. 1 2 3 4 PF 6 7 8 909d929efbSMatthias Ringwald #define BT_RFCOMM_SABM 0x3F // 1 1 1 1 1 1 0 0 919d929efbSMatthias Ringwald #define BT_RFCOMM_UA 0x73 // 1 1 0 0 1 1 1 0 929d929efbSMatthias Ringwald #define BT_RFCOMM_DM 0x0F // 1 1 1 1 0 0 0 0 939d929efbSMatthias Ringwald #define BT_RFCOMM_DM_PF 0x1F // 1 1 1 1 1 0 0 0 949d929efbSMatthias Ringwald #define BT_RFCOMM_DISC 0x53 // 1 1 0 0 1 0 1 0 959d929efbSMatthias Ringwald #define BT_RFCOMM_UIH 0xEF // 1 1 1 1 0 1 1 1 969d929efbSMatthias Ringwald #define BT_RFCOMM_UIH_PF 0xFF // 1 1 1 1 0 1 1 1 979d929efbSMatthias Ringwald 989d929efbSMatthias Ringwald // Multiplexer message types 999d929efbSMatthias Ringwald #define BT_RFCOMM_CLD_CMD 0xC3 1009d929efbSMatthias Ringwald #define BT_RFCOMM_FCON_CMD 0xA3 1019d929efbSMatthias Ringwald #define BT_RFCOMM_FCON_RSP 0xA1 1029d929efbSMatthias Ringwald #define BT_RFCOMM_FCOFF_CMD 0x63 1039d929efbSMatthias Ringwald #define BT_RFCOMM_FCOFF_RSP 0x61 1049d929efbSMatthias Ringwald #define BT_RFCOMM_MSC_CMD 0xE3 1059d929efbSMatthias Ringwald #define BT_RFCOMM_MSC_RSP 0xE1 1069d929efbSMatthias Ringwald #define BT_RFCOMM_NSC_RSP 0x11 1079d929efbSMatthias Ringwald #define BT_RFCOMM_PN_CMD 0x83 1089d929efbSMatthias Ringwald #define BT_RFCOMM_PN_RSP 0x81 1099d929efbSMatthias Ringwald #define BT_RFCOMM_RLS_CMD 0x53 1109d929efbSMatthias Ringwald #define BT_RFCOMM_RLS_RSP 0x51 1119d929efbSMatthias Ringwald #define BT_RFCOMM_RPN_CMD 0x93 1129d929efbSMatthias Ringwald #define BT_RFCOMM_RPN_RSP 0x91 1139d929efbSMatthias Ringwald #define BT_RFCOMM_TEST_CMD 0x23 1149d929efbSMatthias Ringwald #define BT_RFCOMM_TEST_RSP 0x21 115e628322dSMatthias Ringwald 116e628322dSMatthias Ringwald typedef enum { 117e628322dSMatthias Ringwald CH_EVT_RCVD_SABM = 1, 118e628322dSMatthias Ringwald CH_EVT_RCVD_UA, 119e628322dSMatthias Ringwald CH_EVT_RCVD_PN, 120e628322dSMatthias Ringwald CH_EVT_RCVD_PN_RSP, 121e628322dSMatthias Ringwald CH_EVT_RCVD_DISC, 122e628322dSMatthias Ringwald CH_EVT_RCVD_DM, 123e628322dSMatthias Ringwald CH_EVT_RCVD_MSC_CMD, 124e628322dSMatthias Ringwald CH_EVT_RCVD_MSC_RSP, 125e628322dSMatthias Ringwald CH_EVT_RCVD_NSC_RSP, 126e628322dSMatthias Ringwald CH_EVT_RCVD_RLS_CMD, 127e628322dSMatthias Ringwald CH_EVT_RCVD_RLS_RSP, 128e628322dSMatthias Ringwald CH_EVT_RCVD_RPN_CMD, 129e628322dSMatthias Ringwald CH_EVT_RCVD_RPN_REQ, 130e628322dSMatthias Ringwald CH_EVT_RCVD_CREDITS, 131e628322dSMatthias Ringwald CH_EVT_MULTIPLEXER_READY, 132e628322dSMatthias Ringwald CH_EVT_READY_TO_SEND, 133e628322dSMatthias Ringwald } RFCOMM_CHANNEL_EVENT; 134e628322dSMatthias Ringwald 135e628322dSMatthias Ringwald typedef struct rfcomm_channel_event { 136e628322dSMatthias Ringwald RFCOMM_CHANNEL_EVENT type; 137e628322dSMatthias Ringwald uint16_t dummy; // force rfcomm_channel_event to be 2-byte aligned -> avoid -Wcast-align warning 138e628322dSMatthias Ringwald } rfcomm_channel_event_t; 139e628322dSMatthias Ringwald 140e628322dSMatthias Ringwald typedef struct rfcomm_channel_event_pn { 141e628322dSMatthias Ringwald rfcomm_channel_event_t super; 142e628322dSMatthias Ringwald uint16_t max_frame_size; 143e628322dSMatthias Ringwald uint8_t priority; 144e628322dSMatthias Ringwald uint8_t credits_outgoing; 145e628322dSMatthias Ringwald } rfcomm_channel_event_pn_t; 146e628322dSMatthias Ringwald 147e628322dSMatthias Ringwald typedef struct rfcomm_channel_event_rpn { 148e628322dSMatthias Ringwald rfcomm_channel_event_t super; 149e628322dSMatthias Ringwald rfcomm_rpn_data_t data; 150e628322dSMatthias Ringwald } rfcomm_channel_event_rpn_t; 151e628322dSMatthias Ringwald 152e628322dSMatthias Ringwald typedef struct rfcomm_channel_event_rls { 153e628322dSMatthias Ringwald rfcomm_channel_event_t super; 154e628322dSMatthias Ringwald uint8_t line_status; 155e628322dSMatthias Ringwald } rfcomm_channel_event_rls_t; 156e628322dSMatthias Ringwald 157e628322dSMatthias Ringwald typedef struct rfcomm_channel_event_msc { 158e628322dSMatthias Ringwald rfcomm_channel_event_t super; 159e628322dSMatthias Ringwald uint8_t modem_status; 160e628322dSMatthias Ringwald } rfcomm_channel_event_msc_t; 161e628322dSMatthias Ringwald 1623deb3ec6SMatthias Ringwald 1633deb3ec6SMatthias Ringwald // global rfcomm data 1643deb3ec6SMatthias Ringwald static uint16_t rfcomm_client_cid_generator; // used for client channel IDs 1653deb3ec6SMatthias Ringwald 1663deb3ec6SMatthias Ringwald // linked lists for all 1671ac69172SMatthias Ringwald static btstack_linked_list_t rfcomm_multiplexers; 1681ac69172SMatthias Ringwald static btstack_linked_list_t rfcomm_channels; 1691ac69172SMatthias Ringwald static btstack_linked_list_t rfcomm_services; 1703deb3ec6SMatthias Ringwald 1713deb3ec6SMatthias Ringwald static gap_security_level_t rfcomm_security_level; 1723deb3ec6SMatthias Ringwald 173a7a98a14SMatthias Ringwald #ifdef RFCOMM_USE_ERTM 174895065eaSMatthias Ringwald static uint16_t rfcomm_ertm_id; 175a7a98a14SMatthias Ringwald void (*rfcomm_ertm_request_callback)(rfcomm_ertm_request_t * request); 176a7a98a14SMatthias Ringwald void (*rfcomm_ertm_released_callback)(uint16_t ertm_id); 1772e98e947SMatthias Ringwald #endif 1782e98e947SMatthias Ringwald 1792e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 1802e98e947SMatthias Ringwald static uint8_t outgoing_buffer[1030]; 1812e98e947SMatthias Ringwald #endif 1822e98e947SMatthias Ringwald 183b31d33b2SMatthias Ringwald static int rfcomm_channel_can_send(rfcomm_channel_t * channel); 184b31d33b2SMatthias Ringwald static int rfcomm_channel_ready_for_open(rfcomm_channel_t *channel); 18562b5b741SMatthias Ringwald static int rfcomm_channel_ready_to_send(rfcomm_channel_t * channel); 1868f904593SMatthias Ringwald static void rfcomm_channel_state_machine_with_channel(rfcomm_channel_t *channel, const rfcomm_channel_event_t *event, int * out_channel_valid); 1873232fa30SMatthias Ringwald static void rfcomm_channel_state_machine_with_dlci(rfcomm_multiplexer_t * multiplexer, uint8_t dlci, const rfcomm_channel_event_t *event); 188b31d33b2SMatthias Ringwald static void rfcomm_emit_can_send_now(rfcomm_channel_t *channel); 189b35818ceSMatthias Ringwald static int rfcomm_multiplexer_ready_to_send(rfcomm_multiplexer_t * multiplexer); 1903deb3ec6SMatthias Ringwald static void rfcomm_multiplexer_state_machine(rfcomm_multiplexer_t * multiplexer, RFCOMM_MULTIPLEXER_EVENT event); 1913deb3ec6SMatthias Ringwald 1923deb3ec6SMatthias Ringwald // MARK: RFCOMM CLIENT EVENTS 1933deb3ec6SMatthias Ringwald 194f53b779dSMilanka Ringwald static rfcomm_channel_t * rfcomm_channel_for_rfcomm_cid(uint16_t rfcomm_cid){ 195f53b779dSMilanka Ringwald btstack_linked_item_t *it; 196f53b779dSMilanka Ringwald for (it = (btstack_linked_item_t *) rfcomm_channels; it ; it = it->next){ 197f53b779dSMilanka Ringwald rfcomm_channel_t * channel = ((rfcomm_channel_t *) it); 198f53b779dSMilanka Ringwald if (channel->rfcomm_cid == rfcomm_cid) { 199f53b779dSMilanka Ringwald return channel; 200f53b779dSMilanka Ringwald }; 201f53b779dSMilanka Ringwald } 202f53b779dSMilanka Ringwald return NULL; 203f53b779dSMilanka Ringwald } 204f53b779dSMilanka Ringwald 205f53b779dSMilanka Ringwald static uint16_t rfcomm_next_client_cid(void){ 206f53b779dSMilanka Ringwald do { 207f53b779dSMilanka Ringwald if (rfcomm_client_cid_generator == 0xffff) { 208f53b779dSMilanka Ringwald // don't use 0 as channel id 209f53b779dSMilanka Ringwald rfcomm_client_cid_generator = 1; 210f53b779dSMilanka Ringwald } else { 211f53b779dSMilanka Ringwald rfcomm_client_cid_generator++; 212f53b779dSMilanka Ringwald } 213f53b779dSMilanka Ringwald } while (rfcomm_channel_for_rfcomm_cid(rfcomm_client_cid_generator) != NULL); 214f53b779dSMilanka Ringwald return rfcomm_client_cid_generator; 215f53b779dSMilanka Ringwald } 216f53b779dSMilanka Ringwald 2171859e0acSMilanka Ringwald #ifdef RFCOMM_USE_ERTM 2181859e0acSMilanka Ringwald static rfcomm_multiplexer_t * rfcomm_multiplexer_for_ertm_id(uint16_t ertm_id) { 2191859e0acSMilanka Ringwald btstack_linked_item_t *it; 2201859e0acSMilanka Ringwald for (it = (btstack_linked_item_t *) rfcomm_multiplexers; it ; it = it->next){ 2211859e0acSMilanka Ringwald rfcomm_multiplexer_t * multiplexer = ((rfcomm_multiplexer_t *) it); 222895065eaSMatthias Ringwald if (multiplexer->ertm_id == ertm_id) { 2231859e0acSMilanka Ringwald return multiplexer; 2241859e0acSMilanka Ringwald }; 2251859e0acSMilanka Ringwald } 2261859e0acSMilanka Ringwald return NULL; 2271859e0acSMilanka Ringwald } 2281859e0acSMilanka Ringwald 2291859e0acSMilanka Ringwald static uint16_t rfcomm_next_ertm_id(void){ 2301859e0acSMilanka Ringwald do { 231895065eaSMatthias Ringwald if (rfcomm_ertm_id == 0xffff) { 2321859e0acSMilanka Ringwald // don't use 0 as channel id 233895065eaSMatthias Ringwald rfcomm_ertm_id = 1; 2341859e0acSMilanka Ringwald } else { 235895065eaSMatthias Ringwald rfcomm_ertm_id++; 2361859e0acSMilanka Ringwald } 237895065eaSMatthias Ringwald } while (rfcomm_multiplexer_for_ertm_id(rfcomm_ertm_id) != NULL); 238895065eaSMatthias Ringwald return rfcomm_ertm_id; 2391859e0acSMilanka Ringwald } 2401859e0acSMilanka Ringwald 2411859e0acSMilanka Ringwald #endif 2421859e0acSMilanka Ringwald 2433deb3ec6SMatthias Ringwald // data: event (8), len(8), address(48), channel (8), rfcomm_cid (16) 2443deb3ec6SMatthias Ringwald static void rfcomm_emit_connection_request(rfcomm_channel_t *channel) { 2453deb3ec6SMatthias Ringwald log_info("RFCOMM_EVENT_INCOMING_CONNECTION addr %s channel #%u cid 0x%02x", 2463deb3ec6SMatthias Ringwald bd_addr_to_str(channel->multiplexer->remote_addr), channel->dlci>>1, channel->rfcomm_cid); 247852600fbSMatthias Ringwald uint8_t event[13]; 2483deb3ec6SMatthias Ringwald event[0] = RFCOMM_EVENT_INCOMING_CONNECTION; 2493deb3ec6SMatthias Ringwald event[1] = sizeof(event) - 2; 250724d70a2SMatthias Ringwald reverse_bd_addr(channel->multiplexer->remote_addr, &event[2]); 2513deb3ec6SMatthias Ringwald event[8] = channel->dlci >> 1; 252f8fbdce0SMatthias Ringwald little_endian_store_16(event, 9, channel->rfcomm_cid); 253852600fbSMatthias Ringwald little_endian_store_16(event, 11, channel->multiplexer->con_handle); 2543deb3ec6SMatthias Ringwald hci_dump_packet(HCI_EVENT_PACKET, 0, event, sizeof(event)); 255b31d33b2SMatthias Ringwald (channel->packet_handler)(HCI_EVENT_PACKET, 0, event, sizeof(event)); 2563deb3ec6SMatthias Ringwald } 2573deb3ec6SMatthias Ringwald 2583deb3ec6SMatthias Ringwald // API Change: BTstack-0.3.50x uses 2593deb3ec6SMatthias Ringwald // data: event(8), len(8), status (8), address (48), server channel(8), rfcomm_cid(16), max frame size(16) 2603deb3ec6SMatthias Ringwald // next Cydia release will use SVN version of this 2613deb3ec6SMatthias Ringwald // data: event(8), len(8), status (8), address (48), handle (16), server channel(8), rfcomm_cid(16), max frame size(16) 2623deb3ec6SMatthias Ringwald static void rfcomm_emit_channel_opened(rfcomm_channel_t *channel, uint8_t status) { 263f8f6a918SMatthias Ringwald log_info("RFCOMM_EVENT_CHANNEL_OPENED status 0x%x addr %s handle 0x%x channel #%u cid 0x%02x mtu %u", 2643deb3ec6SMatthias Ringwald status, bd_addr_to_str(channel->multiplexer->remote_addr), channel->multiplexer->con_handle, 2653deb3ec6SMatthias Ringwald channel->dlci>>1, channel->rfcomm_cid, channel->max_frame_size); 266bab5f4f0SMatthias Ringwald uint8_t event[18]; 2673deb3ec6SMatthias Ringwald uint8_t pos = 0; 268f8f6a918SMatthias Ringwald event[pos++] = RFCOMM_EVENT_CHANNEL_OPENED; // 0 2695d1e858fSMatthias Ringwald event[pos++] = sizeof(event) - 2; // 1 2705d1e858fSMatthias Ringwald event[pos++] = status; // 2 271724d70a2SMatthias Ringwald reverse_bd_addr(channel->multiplexer->remote_addr, &event[pos]); pos += 6; // 3 272f8fbdce0SMatthias Ringwald little_endian_store_16(event, pos, channel->multiplexer->con_handle); pos += 2; // 9 2735d1e858fSMatthias Ringwald event[pos++] = channel->dlci >> 1; // 11 274f8fbdce0SMatthias Ringwald little_endian_store_16(event, pos, channel->rfcomm_cid); pos += 2; // 12 - channel ID 275f8fbdce0SMatthias Ringwald little_endian_store_16(event, pos, channel->max_frame_size); pos += 2; // max frame size 276bab5f4f0SMatthias Ringwald event[pos++] = channel->service ? 1 : 0; // linked to service -> incoming 2773deb3ec6SMatthias Ringwald hci_dump_packet(HCI_EVENT_PACKET, 0, event, sizeof(event)); 278b31d33b2SMatthias Ringwald (channel->packet_handler)(HCI_EVENT_PACKET, 0, event, pos); 279b31d33b2SMatthias Ringwald 280b31d33b2SMatthias Ringwald // if channel opened successfully, also send can send now if possible 281b31d33b2SMatthias Ringwald if (status) return; 282b31d33b2SMatthias Ringwald if (rfcomm_channel_can_send(channel)){ 283b31d33b2SMatthias Ringwald rfcomm_emit_can_send_now(channel); 284b31d33b2SMatthias Ringwald } 2853deb3ec6SMatthias Ringwald } 2863deb3ec6SMatthias Ringwald 2873deb3ec6SMatthias Ringwald // data: event(8), len(8), rfcomm_cid(16) 2883deb3ec6SMatthias Ringwald static void rfcomm_emit_channel_closed(rfcomm_channel_t * channel) { 2893deb3ec6SMatthias Ringwald log_info("RFCOMM_EVENT_CHANNEL_CLOSED cid 0x%02x", channel->rfcomm_cid); 2903deb3ec6SMatthias Ringwald uint8_t event[4]; 2913deb3ec6SMatthias Ringwald event[0] = RFCOMM_EVENT_CHANNEL_CLOSED; 2923deb3ec6SMatthias Ringwald event[1] = sizeof(event) - 2; 293f8fbdce0SMatthias Ringwald little_endian_store_16(event, 2, channel->rfcomm_cid); 2943deb3ec6SMatthias Ringwald hci_dump_packet(HCI_EVENT_PACKET, 0, event, sizeof(event)); 295b31d33b2SMatthias Ringwald (channel->packet_handler)(HCI_EVENT_PACKET, 0, event, sizeof(event)); 2963deb3ec6SMatthias Ringwald } 2973deb3ec6SMatthias Ringwald 2983deb3ec6SMatthias Ringwald static void rfcomm_emit_remote_line_status(rfcomm_channel_t *channel, uint8_t line_status){ 2993deb3ec6SMatthias Ringwald log_info("RFCOMM_EVENT_REMOTE_LINE_STATUS cid 0x%02x c, line status 0x%x", channel->rfcomm_cid, line_status); 3003deb3ec6SMatthias Ringwald uint8_t event[5]; 3013deb3ec6SMatthias Ringwald event[0] = RFCOMM_EVENT_REMOTE_LINE_STATUS; 3023deb3ec6SMatthias Ringwald event[1] = sizeof(event) - 2; 303f8fbdce0SMatthias Ringwald little_endian_store_16(event, 2, channel->rfcomm_cid); 3043deb3ec6SMatthias Ringwald event[4] = line_status; 3053deb3ec6SMatthias Ringwald hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 306b31d33b2SMatthias Ringwald (channel->packet_handler)(HCI_EVENT_PACKET, 0, event, sizeof(event)); 3073deb3ec6SMatthias Ringwald } 3083deb3ec6SMatthias Ringwald 3093deb3ec6SMatthias Ringwald static void rfcomm_emit_port_configuration(rfcomm_channel_t *channel){ 3103deb3ec6SMatthias Ringwald // notify client about new settings 3114461a84dSMatthias Ringwald uint8_t event[2+2+sizeof(rfcomm_rpn_data_t)]; 3123deb3ec6SMatthias Ringwald event[0] = RFCOMM_EVENT_PORT_CONFIGURATION; 3133deb3ec6SMatthias Ringwald event[1] = sizeof(rfcomm_rpn_data_t); 3144461a84dSMatthias Ringwald little_endian_store_16(event, 2, channel->rfcomm_cid); 3154461a84dSMatthias Ringwald (void)memcpy(&event[4], (uint8_t *)&channel->rpn_data, sizeof(rfcomm_rpn_data_t)); 3163deb3ec6SMatthias Ringwald hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 317b31d33b2SMatthias Ringwald (channel->packet_handler)(HCI_EVENT_PACKET, channel->rfcomm_cid, event, sizeof(event)); 318b31d33b2SMatthias Ringwald } 319b31d33b2SMatthias Ringwald 320b31d33b2SMatthias Ringwald static void rfcomm_emit_can_send_now(rfcomm_channel_t *channel) { 321d9d23054SMatthias Ringwald log_debug("RFCOMM_EVENT_CHANNEL_CAN_SEND_NOW local_cid 0x%x", channel->rfcomm_cid); 322b31d33b2SMatthias Ringwald uint8_t event[4]; 323b31d33b2SMatthias Ringwald event[0] = RFCOMM_EVENT_CAN_SEND_NOW; 324b31d33b2SMatthias Ringwald event[1] = sizeof(event) - 2; 325b31d33b2SMatthias Ringwald little_endian_store_16(event, 2, channel->rfcomm_cid); 326b31d33b2SMatthias Ringwald hci_dump_packet( HCI_EVENT_PACKET, 0, event, sizeof(event)); 327b31d33b2SMatthias Ringwald (channel->packet_handler)(HCI_EVENT_PACKET, channel->rfcomm_cid, event, sizeof(event)); 3283deb3ec6SMatthias Ringwald } 3293deb3ec6SMatthias Ringwald 3303deb3ec6SMatthias Ringwald // MARK RFCOMM RPN DATA HELPER 3313deb3ec6SMatthias Ringwald static void rfcomm_rpn_data_set_defaults(rfcomm_rpn_data_t * rpn_data){ 3323deb3ec6SMatthias Ringwald rpn_data->baud_rate = RPN_BAUD_9600; /* 9600 bps */ 3333deb3ec6SMatthias Ringwald rpn_data->flags = 0x03; /* 8-n-1 */ 3343deb3ec6SMatthias Ringwald rpn_data->flow_control = 0; /* no flow control */ 3353deb3ec6SMatthias Ringwald rpn_data->xon = 0xd1; /* XON */ 3363deb3ec6SMatthias Ringwald rpn_data->xoff = 0xd3; /* XOFF */ 3373deb3ec6SMatthias Ringwald rpn_data->parameter_mask_0 = 0x7f; /* parameter mask, all values set */ 3383deb3ec6SMatthias Ringwald rpn_data->parameter_mask_1 = 0x3f; /* parameter mask, all values set */ 3393deb3ec6SMatthias Ringwald } 3403deb3ec6SMatthias Ringwald 3413deb3ec6SMatthias Ringwald static void rfcomm_rpn_data_update(rfcomm_rpn_data_t * dest, rfcomm_rpn_data_t * src){ 3423deb3ec6SMatthias Ringwald if (src->parameter_mask_0 & RPN_PARAM_MASK_0_BAUD){ 3433deb3ec6SMatthias Ringwald dest->baud_rate = src->baud_rate; 3443deb3ec6SMatthias Ringwald } 3453deb3ec6SMatthias Ringwald if (src->parameter_mask_0 & RPN_PARAM_MASK_0_DATA_BITS){ 3463deb3ec6SMatthias Ringwald dest->flags = (dest->flags & 0xfc) | (src->flags & 0x03); 3473deb3ec6SMatthias Ringwald } 3483deb3ec6SMatthias Ringwald if (src->parameter_mask_0 & RPN_PARAM_MASK_0_STOP_BITS){ 3493deb3ec6SMatthias Ringwald dest->flags = (dest->flags & 0xfb) | (src->flags & 0x04); 3503deb3ec6SMatthias Ringwald } 3513deb3ec6SMatthias Ringwald if (src->parameter_mask_0 & RPN_PARAM_MASK_0_PARITY){ 3523deb3ec6SMatthias Ringwald dest->flags = (dest->flags & 0xf7) | (src->flags & 0x08); 3533deb3ec6SMatthias Ringwald } 3543deb3ec6SMatthias Ringwald if (src->parameter_mask_0 & RPN_PARAM_MASK_0_PARITY_TYPE){ 355*a61bcdffSMatthias Ringwald dest->flags = (dest->flags & 0xcf) | (src->flags & 0x30); 3563deb3ec6SMatthias Ringwald } 3573deb3ec6SMatthias Ringwald if (src->parameter_mask_0 & RPN_PARAM_MASK_0_XON_CHAR){ 3583deb3ec6SMatthias Ringwald dest->xon = src->xon; 3593deb3ec6SMatthias Ringwald } 3603deb3ec6SMatthias Ringwald if (src->parameter_mask_0 & RPN_PARAM_MASK_0_XOFF_CHAR){ 3613deb3ec6SMatthias Ringwald dest->xoff = src->xoff; 3623deb3ec6SMatthias Ringwald } 3635bc434feSMatthias Ringwald uint8_t mask = src->parameter_mask_1 & 0x3f; 3645bc434feSMatthias Ringwald dest->flow_control = (dest->flow_control & ~mask) | (src->flow_control & mask); 3653deb3ec6SMatthias Ringwald // always copy parameter mask, too. informative for client, needed for response 3663deb3ec6SMatthias Ringwald dest->parameter_mask_0 = src->parameter_mask_0; 3673deb3ec6SMatthias Ringwald dest->parameter_mask_1 = src->parameter_mask_1; 3683deb3ec6SMatthias Ringwald } 3693deb3ec6SMatthias Ringwald // MARK: RFCOMM MULTIPLEXER HELPER 3703deb3ec6SMatthias Ringwald 3713deb3ec6SMatthias Ringwald static uint16_t rfcomm_max_frame_size_for_l2cap_mtu(uint16_t l2cap_mtu){ 3723deb3ec6SMatthias Ringwald // Assume RFCOMM header without credits and 2 byte (14 bit) length field 3733deb3ec6SMatthias Ringwald uint16_t max_frame_size = l2cap_mtu - 5; 3743deb3ec6SMatthias Ringwald log_info("rfcomm_max_frame_size_for_l2cap_mtu: %u -> %u", l2cap_mtu, max_frame_size); 3753deb3ec6SMatthias Ringwald return max_frame_size; 3763deb3ec6SMatthias Ringwald } 3773deb3ec6SMatthias Ringwald 3783deb3ec6SMatthias Ringwald static void rfcomm_multiplexer_initialize(rfcomm_multiplexer_t *multiplexer){ 3793deb3ec6SMatthias Ringwald multiplexer->state = RFCOMM_MULTIPLEXER_CLOSED; 3803deb3ec6SMatthias Ringwald multiplexer->fcon = 1; 3813deb3ec6SMatthias Ringwald multiplexer->send_dm_for_dlci = 0; 3823deb3ec6SMatthias Ringwald multiplexer->max_frame_size = rfcomm_max_frame_size_for_l2cap_mtu(l2cap_max_mtu()); 3833deb3ec6SMatthias Ringwald multiplexer->test_data_len = 0; 3843deb3ec6SMatthias Ringwald multiplexer->nsc_command = 0; 3853deb3ec6SMatthias Ringwald } 3863deb3ec6SMatthias Ringwald 3873deb3ec6SMatthias Ringwald static rfcomm_multiplexer_t * rfcomm_multiplexer_create_for_addr(bd_addr_t addr){ 3883deb3ec6SMatthias Ringwald 3893deb3ec6SMatthias Ringwald // alloc structure 3903deb3ec6SMatthias Ringwald rfcomm_multiplexer_t * multiplexer = btstack_memory_rfcomm_multiplexer_get(); 3913deb3ec6SMatthias Ringwald if (!multiplexer) return NULL; 3923deb3ec6SMatthias Ringwald 3933deb3ec6SMatthias Ringwald // fill in 3943deb3ec6SMatthias Ringwald rfcomm_multiplexer_initialize(multiplexer); 39573988a59SMatthias Ringwald bd_addr_copy(multiplexer->remote_addr, addr); 3963deb3ec6SMatthias Ringwald 3973deb3ec6SMatthias Ringwald // add to services list 398665d90f2SMatthias Ringwald btstack_linked_list_add(&rfcomm_multiplexers, (btstack_linked_item_t *) multiplexer); 3993deb3ec6SMatthias Ringwald 4003deb3ec6SMatthias Ringwald return multiplexer; 4013deb3ec6SMatthias Ringwald } 4023deb3ec6SMatthias Ringwald 4033deb3ec6SMatthias Ringwald static rfcomm_multiplexer_t * rfcomm_multiplexer_for_addr(bd_addr_t addr){ 404665d90f2SMatthias Ringwald btstack_linked_item_t *it; 405665d90f2SMatthias Ringwald for (it = (btstack_linked_item_t *) rfcomm_multiplexers; it ; it = it->next){ 4063deb3ec6SMatthias Ringwald rfcomm_multiplexer_t * multiplexer = ((rfcomm_multiplexer_t *) it); 4074c3eeed1SMatthias Ringwald // ignore multiplexer in shutdown 4084c3eeed1SMatthias Ringwald if (multiplexer->state == RFCOMM_MULTIPLEXER_SHUTTING_DOWN) continue; 409058e3d6bSMatthias Ringwald if (bd_addr_cmp(addr, multiplexer->remote_addr) == 0) { 4103deb3ec6SMatthias Ringwald return multiplexer; 4113deb3ec6SMatthias Ringwald }; 4123deb3ec6SMatthias Ringwald } 4133deb3ec6SMatthias Ringwald return NULL; 4143deb3ec6SMatthias Ringwald } 4153deb3ec6SMatthias Ringwald 4163deb3ec6SMatthias Ringwald static rfcomm_multiplexer_t * rfcomm_multiplexer_for_l2cap_cid(uint16_t l2cap_cid) { 417665d90f2SMatthias Ringwald btstack_linked_item_t *it; 418665d90f2SMatthias Ringwald for (it = (btstack_linked_item_t *) rfcomm_multiplexers; it ; it = it->next){ 4193deb3ec6SMatthias Ringwald rfcomm_multiplexer_t * multiplexer = ((rfcomm_multiplexer_t *) it); 4203deb3ec6SMatthias Ringwald if (multiplexer->l2cap_cid == l2cap_cid) { 4213deb3ec6SMatthias Ringwald return multiplexer; 4223deb3ec6SMatthias Ringwald }; 4233deb3ec6SMatthias Ringwald } 4243deb3ec6SMatthias Ringwald return NULL; 4253deb3ec6SMatthias Ringwald } 4263deb3ec6SMatthias Ringwald 4273deb3ec6SMatthias Ringwald static int rfcomm_multiplexer_has_channels(rfcomm_multiplexer_t * multiplexer){ 428665d90f2SMatthias Ringwald btstack_linked_item_t *it; 429665d90f2SMatthias Ringwald for (it = (btstack_linked_item_t *) rfcomm_channels; it ; it = it->next){ 4303deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = ((rfcomm_channel_t *) it); 4313deb3ec6SMatthias Ringwald if (channel->multiplexer == multiplexer) { 4323deb3ec6SMatthias Ringwald return 1; 4333deb3ec6SMatthias Ringwald } 4343deb3ec6SMatthias Ringwald } 4353deb3ec6SMatthias Ringwald return 0; 4363deb3ec6SMatthias Ringwald } 4373deb3ec6SMatthias Ringwald 4383deb3ec6SMatthias Ringwald // MARK: RFCOMM CHANNEL HELPER 4393deb3ec6SMatthias Ringwald 4403deb3ec6SMatthias Ringwald static void rfcomm_dump_channels(void){ 441e0d13a19SMilanka Ringwald #ifdef ENABLE_LOG_INFO 442665d90f2SMatthias Ringwald btstack_linked_item_t * it; 4433deb3ec6SMatthias Ringwald int channels = 0; 444665d90f2SMatthias Ringwald for (it = (btstack_linked_item_t *) rfcomm_channels; it ; it = it->next){ 4453deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = (rfcomm_channel_t *) it; 4463deb3ec6SMatthias Ringwald log_info("Channel #%u: addr %p, state %u", channels, channel, channel->state); 4473deb3ec6SMatthias Ringwald channels++; 4483deb3ec6SMatthias Ringwald } 449e0d13a19SMilanka Ringwald #endif 4503deb3ec6SMatthias Ringwald } 4513deb3ec6SMatthias Ringwald 4523deb3ec6SMatthias Ringwald static void rfcomm_channel_initialize(rfcomm_channel_t *channel, rfcomm_multiplexer_t *multiplexer, 4533deb3ec6SMatthias Ringwald rfcomm_service_t *service, uint8_t server_channel){ 4543deb3ec6SMatthias Ringwald 455ccb8ddfbSMatthias Ringwald // set defaults for port configuration (even for services) 456ccb8ddfbSMatthias Ringwald rfcomm_rpn_data_set_defaults(&channel->rpn_data); 457ccb8ddfbSMatthias Ringwald 4583deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_CLOSED; 4593deb3ec6SMatthias Ringwald channel->state_var = RFCOMM_CHANNEL_STATE_VAR_NONE; 4603deb3ec6SMatthias Ringwald 4613deb3ec6SMatthias Ringwald channel->multiplexer = multiplexer; 462f53b779dSMilanka Ringwald channel->rfcomm_cid = rfcomm_next_client_cid(); 4633deb3ec6SMatthias Ringwald channel->max_frame_size = multiplexer->max_frame_size; 4643deb3ec6SMatthias Ringwald 4653deb3ec6SMatthias Ringwald channel->credits_incoming = 0; 4663deb3ec6SMatthias Ringwald channel->credits_outgoing = 0; 4673deb3ec6SMatthias Ringwald 4683deb3ec6SMatthias Ringwald // incoming flow control not active 4693deb3ec6SMatthias Ringwald channel->new_credits_incoming = RFCOMM_CREDITS; 4703deb3ec6SMatthias Ringwald channel->incoming_flow_control = 0; 4713deb3ec6SMatthias Ringwald 4723deb3ec6SMatthias Ringwald channel->rls_line_status = RFCOMM_RLS_STATUS_INVALID; 4733deb3ec6SMatthias Ringwald 474ccb8ddfbSMatthias Ringwald channel->service = service; 4753deb3ec6SMatthias Ringwald if (service) { 4763deb3ec6SMatthias Ringwald // incoming connection 4773deb3ec6SMatthias Ringwald channel->dlci = (server_channel << 1) | multiplexer->outgoing; 4783deb3ec6SMatthias Ringwald if (channel->max_frame_size > service->max_frame_size) { 4793deb3ec6SMatthias Ringwald channel->max_frame_size = service->max_frame_size; 4803deb3ec6SMatthias Ringwald } 4813deb3ec6SMatthias Ringwald channel->incoming_flow_control = service->incoming_flow_control; 4823deb3ec6SMatthias Ringwald channel->new_credits_incoming = service->incoming_initial_credits; 483ccb8ddfbSMatthias Ringwald channel->packet_handler = service->packet_handler; 4843deb3ec6SMatthias Ringwald } else { 4853deb3ec6SMatthias Ringwald // outgoing connection 4863deb3ec6SMatthias Ringwald channel->dlci = (server_channel << 1) | (multiplexer->outgoing ^ 1); 4873deb3ec6SMatthias Ringwald } 4883deb3ec6SMatthias Ringwald } 4893deb3ec6SMatthias Ringwald 4903deb3ec6SMatthias Ringwald // service == NULL -> outgoing channel 4913deb3ec6SMatthias Ringwald static rfcomm_channel_t * rfcomm_channel_create(rfcomm_multiplexer_t * multiplexer, 4923deb3ec6SMatthias Ringwald rfcomm_service_t * service, uint8_t server_channel){ 4933deb3ec6SMatthias Ringwald 4943deb3ec6SMatthias Ringwald log_info("rfcomm_channel_create for service %p, channel %u --- list of channels:", service, server_channel); 4953deb3ec6SMatthias Ringwald rfcomm_dump_channels(); 4963deb3ec6SMatthias Ringwald 4973deb3ec6SMatthias Ringwald // alloc structure 4983deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = btstack_memory_rfcomm_channel_get(); 4993deb3ec6SMatthias Ringwald if (!channel) return NULL; 5003deb3ec6SMatthias Ringwald 5013deb3ec6SMatthias Ringwald // fill in 5023deb3ec6SMatthias Ringwald rfcomm_channel_initialize(channel, multiplexer, service, server_channel); 5033deb3ec6SMatthias Ringwald 5043deb3ec6SMatthias Ringwald // add to services list 505665d90f2SMatthias Ringwald btstack_linked_list_add(&rfcomm_channels, (btstack_linked_item_t *) channel); 5063deb3ec6SMatthias Ringwald 5073deb3ec6SMatthias Ringwald return channel; 5083deb3ec6SMatthias Ringwald } 5093deb3ec6SMatthias Ringwald 510b31d33b2SMatthias Ringwald static void rfcomm_notify_channel_can_send(void){ 511b31d33b2SMatthias Ringwald btstack_linked_list_iterator_t it; 512b31d33b2SMatthias Ringwald btstack_linked_list_iterator_init(&it, &rfcomm_channels); 513b31d33b2SMatthias Ringwald while (btstack_linked_list_iterator_has_next(&it)){ 514b31d33b2SMatthias Ringwald rfcomm_channel_t * channel = (rfcomm_channel_t *) btstack_linked_list_iterator_next(&it); 515b31d33b2SMatthias Ringwald if (!channel->waiting_for_can_send_now) continue; // didn't try to send yet 516b31d33b2SMatthias Ringwald if (!rfcomm_channel_can_send(channel)) continue; // or cannot yet either 517b31d33b2SMatthias Ringwald 518b31d33b2SMatthias Ringwald channel->waiting_for_can_send_now = 0; 519b31d33b2SMatthias Ringwald rfcomm_emit_can_send_now(channel); 520b31d33b2SMatthias Ringwald } 521b31d33b2SMatthias Ringwald } 522b31d33b2SMatthias Ringwald 5233deb3ec6SMatthias Ringwald static rfcomm_channel_t * rfcomm_channel_for_multiplexer_and_dlci(rfcomm_multiplexer_t * multiplexer, uint8_t dlci){ 524665d90f2SMatthias Ringwald btstack_linked_item_t *it; 525665d90f2SMatthias Ringwald for (it = (btstack_linked_item_t *) rfcomm_channels; it ; it = it->next){ 5263deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = ((rfcomm_channel_t *) it); 527c1ab6cc1SMatthias Ringwald if ((channel->dlci == dlci) && (channel->multiplexer == multiplexer)) { 5283deb3ec6SMatthias Ringwald return channel; 5293deb3ec6SMatthias Ringwald }; 5303deb3ec6SMatthias Ringwald } 5313deb3ec6SMatthias Ringwald return NULL; 5323deb3ec6SMatthias Ringwald } 5333deb3ec6SMatthias Ringwald 5343deb3ec6SMatthias Ringwald static rfcomm_service_t * rfcomm_service_for_channel(uint8_t server_channel){ 535665d90f2SMatthias Ringwald btstack_linked_item_t *it; 536665d90f2SMatthias Ringwald for (it = (btstack_linked_item_t *) rfcomm_services; it ; it = it->next){ 5373deb3ec6SMatthias Ringwald rfcomm_service_t * service = ((rfcomm_service_t *) it); 5383deb3ec6SMatthias Ringwald if ( service->server_channel == server_channel){ 5393deb3ec6SMatthias Ringwald return service; 5403deb3ec6SMatthias Ringwald }; 5413deb3ec6SMatthias Ringwald } 5423deb3ec6SMatthias Ringwald return NULL; 5433deb3ec6SMatthias Ringwald } 5443deb3ec6SMatthias Ringwald 5453deb3ec6SMatthias Ringwald // MARK: RFCOMM SEND 5463deb3ec6SMatthias Ringwald 5473deb3ec6SMatthias Ringwald /** 5483deb3ec6SMatthias Ringwald * @param credits - only used for RFCOMM flow control in UIH wiht P/F = 1 5493deb3ec6SMatthias Ringwald */ 5503deb3ec6SMatthias Ringwald static int rfcomm_send_packet_for_multiplexer(rfcomm_multiplexer_t *multiplexer, uint8_t address, uint8_t control, uint8_t credits, uint8_t *data, uint16_t len){ 5513deb3ec6SMatthias Ringwald 5523deb3ec6SMatthias Ringwald if (!l2cap_can_send_packet_now(multiplexer->l2cap_cid)) return BTSTACK_ACL_BUFFERS_FULL; 5533deb3ec6SMatthias Ringwald 5542e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 5552e98e947SMatthias Ringwald uint8_t * rfcomm_out_buffer = outgoing_buffer; 5562e98e947SMatthias Ringwald #else 5573deb3ec6SMatthias Ringwald l2cap_reserve_packet_buffer(); 5583deb3ec6SMatthias Ringwald uint8_t * rfcomm_out_buffer = l2cap_get_outgoing_buffer(); 5592e98e947SMatthias Ringwald #endif 5603deb3ec6SMatthias Ringwald 5613deb3ec6SMatthias Ringwald uint16_t pos = 0; 5623deb3ec6SMatthias Ringwald uint8_t crc_fields = 3; 5633deb3ec6SMatthias Ringwald 5643deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = address; 5653deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = control; 5663deb3ec6SMatthias Ringwald 5673deb3ec6SMatthias Ringwald // length field can be 1 or 2 octets 5683deb3ec6SMatthias Ringwald if (len < 128){ 5693deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = (len << 1)| 1; // bits 0-6 5703deb3ec6SMatthias Ringwald } else { 5713deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = (len & 0x7f) << 1; // bits 0-6 5723deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = len >> 7; // bits 7-14 5733deb3ec6SMatthias Ringwald crc_fields++; 5743deb3ec6SMatthias Ringwald } 5753deb3ec6SMatthias Ringwald 5763deb3ec6SMatthias Ringwald // add credits for UIH frames when PF bit is set 5773deb3ec6SMatthias Ringwald if (control == BT_RFCOMM_UIH_PF){ 5783deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = credits; 5793deb3ec6SMatthias Ringwald } 5803deb3ec6SMatthias Ringwald 5813deb3ec6SMatthias Ringwald // copy actual data 5823deb3ec6SMatthias Ringwald if (len) { 5836535961aSMatthias Ringwald (void)memcpy(&rfcomm_out_buffer[pos], data, len); 5843deb3ec6SMatthias Ringwald pos += len; 5853deb3ec6SMatthias Ringwald } 5863deb3ec6SMatthias Ringwald 5873deb3ec6SMatthias Ringwald // UIH frames only calc FCS over address + control (5.1.1) 5883deb3ec6SMatthias Ringwald if ((control & 0xef) == BT_RFCOMM_UIH){ 5893deb3ec6SMatthias Ringwald crc_fields = 2; 5903deb3ec6SMatthias Ringwald } 59163dd1c76SMatthias Ringwald rfcomm_out_buffer[pos++] = btstack_crc8_calc(rfcomm_out_buffer, crc_fields); // calc fcs 5923deb3ec6SMatthias Ringwald 5932e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 5942e98e947SMatthias Ringwald int err = l2cap_send(multiplexer->l2cap_cid, rfcomm_out_buffer, pos); 5952e98e947SMatthias Ringwald #else 5963deb3ec6SMatthias Ringwald int err = l2cap_send_prepared(multiplexer->l2cap_cid, pos); 5972e98e947SMatthias Ringwald #endif 5983deb3ec6SMatthias Ringwald 5993deb3ec6SMatthias Ringwald return err; 6003deb3ec6SMatthias Ringwald } 6013deb3ec6SMatthias Ringwald 6023deb3ec6SMatthias Ringwald // simplified version of rfcomm_send_packet_for_multiplexer for prepared rfcomm packet (UIH, 2 byte len, no credits) 6033deb3ec6SMatthias Ringwald static int rfcomm_send_uih_prepared(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, uint16_t len){ 6043deb3ec6SMatthias Ringwald 6053deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1) | (dlci << 2); 6063deb3ec6SMatthias Ringwald uint8_t control = BT_RFCOMM_UIH; 6073deb3ec6SMatthias Ringwald 6082e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 6092e98e947SMatthias Ringwald uint8_t * rfcomm_out_buffer = outgoing_buffer; 6102e98e947SMatthias Ringwald #else 6113deb3ec6SMatthias Ringwald uint8_t * rfcomm_out_buffer = l2cap_get_outgoing_buffer(); 6122e98e947SMatthias Ringwald #endif 6133deb3ec6SMatthias Ringwald 6143deb3ec6SMatthias Ringwald uint16_t pos = 0; 6153deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = address; 6163deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = control; 6173deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = (len & 0x7f) << 1; // bits 0-6 6183deb3ec6SMatthias Ringwald rfcomm_out_buffer[pos++] = len >> 7; // bits 7-14 6193deb3ec6SMatthias Ringwald 6203deb3ec6SMatthias Ringwald // actual data is already in place 6213deb3ec6SMatthias Ringwald pos += len; 6223deb3ec6SMatthias Ringwald 6233deb3ec6SMatthias Ringwald // UIH frames only calc FCS over address + control (5.1.1) 62463dd1c76SMatthias Ringwald rfcomm_out_buffer[pos++] = btstack_crc8_calc(rfcomm_out_buffer, 2); // calc fcs 6253deb3ec6SMatthias Ringwald 6262e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 6272e98e947SMatthias Ringwald int err = l2cap_send(multiplexer->l2cap_cid, rfcomm_out_buffer, pos); 6282e98e947SMatthias Ringwald #else 6293deb3ec6SMatthias Ringwald int err = l2cap_send_prepared(multiplexer->l2cap_cid, pos); 6302e98e947SMatthias Ringwald #endif 6313deb3ec6SMatthias Ringwald 6323deb3ec6SMatthias Ringwald return err; 6333deb3ec6SMatthias Ringwald } 6343deb3ec6SMatthias Ringwald 6353deb3ec6SMatthias Ringwald // C/R Flag in Address 6363deb3ec6SMatthias Ringwald // - terms: initiator = station that creates multiplexer with SABM 6373deb3ec6SMatthias Ringwald // - terms: responder = station that responds to multiplexer setup with UA 6383deb3ec6SMatthias Ringwald // "For SABM, UA, DM and DISC frames C/R bit is set according to Table 1 in GSM 07.10, section 5.2.1.2" 6393deb3ec6SMatthias Ringwald // - command initiator = 1 /response responder = 1 6403deb3ec6SMatthias Ringwald // - command responder = 0 /response initiator = 0 6413deb3ec6SMatthias Ringwald // "For UIH frames, the C/R bit is always set according to section 5.4.3.1 in GSM 07.10. 6423deb3ec6SMatthias Ringwald // This applies independently of what is contained wthin the UIH frames, either data or control messages." 6433deb3ec6SMatthias Ringwald // - c/r = 1 for frames by initiating station, 0 = for frames by responding station 6443deb3ec6SMatthias Ringwald 6453deb3ec6SMatthias Ringwald // C/R Flag in Message 6463deb3ec6SMatthias Ringwald // "In the message level, the C/R bit in the command type field is set as stated in section 5.4.6.2 in GSM 07.10." 6473deb3ec6SMatthias Ringwald // - If the C/R bit is set to 1 the message is a command 6483deb3ec6SMatthias Ringwald // - if it is set to 0 the message is a response. 6493deb3ec6SMatthias Ringwald 6503deb3ec6SMatthias Ringwald // temp/old messge construction 6513deb3ec6SMatthias Ringwald 6523deb3ec6SMatthias Ringwald // new object oriented version 6533deb3ec6SMatthias Ringwald static int rfcomm_send_sabm(rfcomm_multiplexer_t *multiplexer, uint8_t dlci){ 6543deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1) | (dlci << 2); // command 6553deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_SABM, 0, NULL, 0); 6563deb3ec6SMatthias Ringwald } 6573deb3ec6SMatthias Ringwald 6583deb3ec6SMatthias Ringwald static int rfcomm_send_disc(rfcomm_multiplexer_t *multiplexer, uint8_t dlci){ 6593deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1) | (dlci << 2); // command 6603deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_DISC, 0, NULL, 0); 6613deb3ec6SMatthias Ringwald } 6623deb3ec6SMatthias Ringwald 6633deb3ec6SMatthias Ringwald static int rfcomm_send_ua(rfcomm_multiplexer_t *multiplexer, uint8_t dlci){ 6643deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | ((multiplexer->outgoing ^ 1) << 1) | (dlci << 2); // response 6653deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UA, 0, NULL, 0); 6663deb3ec6SMatthias Ringwald } 6673deb3ec6SMatthias Ringwald 6683deb3ec6SMatthias Ringwald static int rfcomm_send_dm_pf(rfcomm_multiplexer_t *multiplexer, uint8_t dlci){ 6693deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | ((multiplexer->outgoing ^ 1) << 1) | (dlci << 2); // response 6703deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_DM_PF, 0, NULL, 0); 6713deb3ec6SMatthias Ringwald } 6723deb3ec6SMatthias Ringwald 6733deb3ec6SMatthias Ringwald static int rfcomm_send_uih_fc_rsp(rfcomm_multiplexer_t *multiplexer, uint8_t fcon) { 6743deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing<< 1); 6753deb3ec6SMatthias Ringwald uint8_t payload[2]; 6763deb3ec6SMatthias Ringwald uint8_t pos = 0; 6773deb3ec6SMatthias Ringwald payload[pos++] = fcon ? BT_RFCOMM_FCON_RSP : BT_RFCOMM_FCOFF_RSP; 6783deb3ec6SMatthias Ringwald payload[pos++] = (0 << 1) | 1; // len 6793deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 6803deb3ec6SMatthias Ringwald } 6813deb3ec6SMatthias Ringwald 6823deb3ec6SMatthias Ringwald // static int rfcomm_send_uih_test_cmd(rfcomm_multiplexer_t *multiplexer, uint8_t * data, uint16_t len) { 6833deb3ec6SMatthias Ringwald // uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 6843deb3ec6SMatthias Ringwald // uint8_t payload[2+len]; 6853deb3ec6SMatthias Ringwald // uint8_t pos = 0; 6863deb3ec6SMatthias Ringwald // payload[pos++] = BT_RFCOMM_TEST_CMD; 6873deb3ec6SMatthias Ringwald // payload[pos++] = (len + 1) << 1 | 1; // len 6883deb3ec6SMatthias Ringwald // memcpy(&payload[pos], data, len); 6893deb3ec6SMatthias Ringwald // pos += len; 6903deb3ec6SMatthias Ringwald // return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 6913deb3ec6SMatthias Ringwald // } 6923deb3ec6SMatthias Ringwald 6933deb3ec6SMatthias Ringwald static int rfcomm_send_uih_test_rsp(rfcomm_multiplexer_t *multiplexer, uint8_t * data, uint16_t len) { 6943deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 6953deb3ec6SMatthias Ringwald uint8_t payload[2+RFCOMM_TEST_DATA_MAX_LEN]; 6963deb3ec6SMatthias Ringwald uint8_t pos = 0; 6973deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_TEST_RSP; 6983deb3ec6SMatthias Ringwald if (len > RFCOMM_TEST_DATA_MAX_LEN) { 6993deb3ec6SMatthias Ringwald len = RFCOMM_TEST_DATA_MAX_LEN; 7003deb3ec6SMatthias Ringwald } 7013deb3ec6SMatthias Ringwald payload[pos++] = (len << 1) | 1; // len 7026535961aSMatthias Ringwald (void)memcpy(&payload[pos], data, len); 7033deb3ec6SMatthias Ringwald pos += len; 7043deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 7053deb3ec6SMatthias Ringwald } 7063deb3ec6SMatthias Ringwald 7073deb3ec6SMatthias Ringwald static int rfcomm_send_uih_msc_cmd(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, uint8_t signals) { 7083deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 7093deb3ec6SMatthias Ringwald uint8_t payload[4]; 7103deb3ec6SMatthias Ringwald uint8_t pos = 0; 7113deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_MSC_CMD; 7123deb3ec6SMatthias Ringwald payload[pos++] = (2 << 1) | 1; // len 7133deb3ec6SMatthias Ringwald payload[pos++] = (1 << 0) | (1 << 1) | (dlci << 2); // CMD => C/R = 1 7143deb3ec6SMatthias Ringwald payload[pos++] = signals; 7153deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 7163deb3ec6SMatthias Ringwald } 7173deb3ec6SMatthias Ringwald 7183deb3ec6SMatthias Ringwald static int rfcomm_send_uih_msc_rsp(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, uint8_t signals) { 7193deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing<< 1); 7203deb3ec6SMatthias Ringwald uint8_t payload[4]; 7213deb3ec6SMatthias Ringwald uint8_t pos = 0; 7223deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_MSC_RSP; 7233deb3ec6SMatthias Ringwald payload[pos++] = (2 << 1) | 1; // len 7243deb3ec6SMatthias Ringwald payload[pos++] = (1 << 0) | (1 << 1) | (dlci << 2); // CMD => C/R = 1 7253deb3ec6SMatthias Ringwald payload[pos++] = signals; 7263deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 7273deb3ec6SMatthias Ringwald } 7283deb3ec6SMatthias Ringwald 7293deb3ec6SMatthias Ringwald static int rfcomm_send_uih_nsc_rsp(rfcomm_multiplexer_t *multiplexer, uint8_t command) { 7303deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing<< 1); 7313deb3ec6SMatthias Ringwald uint8_t payload[3]; 7323deb3ec6SMatthias Ringwald uint8_t pos = 0; 7333deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_NSC_RSP; 7343deb3ec6SMatthias Ringwald payload[pos++] = (1 << 1) | 1; // len 7353deb3ec6SMatthias Ringwald payload[pos++] = command; 7363deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 7373deb3ec6SMatthias Ringwald } 7383deb3ec6SMatthias Ringwald 7393deb3ec6SMatthias Ringwald static int rfcomm_send_uih_pn_command(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, uint16_t max_frame_size){ 7403deb3ec6SMatthias Ringwald uint8_t payload[10]; 7413deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 7423deb3ec6SMatthias Ringwald uint8_t pos = 0; 7433deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_PN_CMD; 7443deb3ec6SMatthias Ringwald payload[pos++] = (8 << 1) | 1; // len 7453deb3ec6SMatthias Ringwald payload[pos++] = dlci; 7463deb3ec6SMatthias Ringwald payload[pos++] = 0xf0; // pre-defined for Bluetooth, see 5.5.3 of TS 07.10 Adaption for RFCOMM 7473deb3ec6SMatthias Ringwald payload[pos++] = 0; // priority 7483deb3ec6SMatthias Ringwald payload[pos++] = 0; // max 60 seconds ack 7493deb3ec6SMatthias Ringwald payload[pos++] = max_frame_size & 0xff; // max framesize low 7503deb3ec6SMatthias Ringwald payload[pos++] = max_frame_size >> 8; // max framesize high 7513deb3ec6SMatthias Ringwald payload[pos++] = 0x00; // number of retransmissions 7523deb3ec6SMatthias Ringwald payload[pos++] = 0x00; // (unused error recovery window) initial number of credits 7533deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 7543deb3ec6SMatthias Ringwald } 7553deb3ec6SMatthias Ringwald 756d6549a6eSMatthias Ringwald // "The response may not change the DLCI, the priority, the convergence layer, or the timer value." rfcomm_tutorial.pdf 7573deb3ec6SMatthias Ringwald static int rfcomm_send_uih_pn_response(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, 7583deb3ec6SMatthias Ringwald uint8_t priority, uint16_t max_frame_size){ 7593deb3ec6SMatthias Ringwald uint8_t payload[10]; 7603deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 7613deb3ec6SMatthias Ringwald uint8_t pos = 0; 7623deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_PN_RSP; 7633deb3ec6SMatthias Ringwald payload[pos++] = (8 << 1) | 1; // len 7643deb3ec6SMatthias Ringwald payload[pos++] = dlci; 7653deb3ec6SMatthias Ringwald payload[pos++] = 0xe0; // pre defined for Bluetooth, see 5.5.3 of TS 07.10 Adaption for RFCOMM 7663deb3ec6SMatthias Ringwald payload[pos++] = priority; // priority 7673deb3ec6SMatthias Ringwald payload[pos++] = 0; // max 60 seconds ack 7683deb3ec6SMatthias Ringwald payload[pos++] = max_frame_size & 0xff; // max framesize low 7693deb3ec6SMatthias Ringwald payload[pos++] = max_frame_size >> 8; // max framesize high 7703deb3ec6SMatthias Ringwald payload[pos++] = 0x00; // number of retransmissions 7713deb3ec6SMatthias Ringwald payload[pos++] = 0x00; // (unused error recovery window) initial number of credits 7723deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 7733deb3ec6SMatthias Ringwald } 7743deb3ec6SMatthias Ringwald 7753deb3ec6SMatthias Ringwald static int rfcomm_send_uih_rls_cmd(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, uint8_t line_status) { 7763deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 7773deb3ec6SMatthias Ringwald uint8_t payload[4]; 7783deb3ec6SMatthias Ringwald uint8_t pos = 0; 7793deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_RLS_CMD; 7803deb3ec6SMatthias Ringwald payload[pos++] = (2 << 1) | 1; // len 7813deb3ec6SMatthias Ringwald payload[pos++] = (1 << 0) | (1 << 1) | (dlci << 2); // CMD => C/R = 1 7823deb3ec6SMatthias Ringwald payload[pos++] = line_status; 7833deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 7843deb3ec6SMatthias Ringwald } 7853deb3ec6SMatthias Ringwald 7863deb3ec6SMatthias Ringwald static int rfcomm_send_uih_rls_rsp(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, uint8_t line_status) { 7873deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 7883deb3ec6SMatthias Ringwald uint8_t payload[4]; 7893deb3ec6SMatthias Ringwald uint8_t pos = 0; 7903deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_RLS_RSP; 7913deb3ec6SMatthias Ringwald payload[pos++] = (2 << 1) | 1; // len 7923deb3ec6SMatthias Ringwald payload[pos++] = (1 << 0) | (1 << 1) | (dlci << 2); // CMD => C/R = 1 7933deb3ec6SMatthias Ringwald payload[pos++] = line_status; 7943deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 7953deb3ec6SMatthias Ringwald } 7963deb3ec6SMatthias Ringwald 7973deb3ec6SMatthias Ringwald static int rfcomm_send_uih_rpn_cmd(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, rfcomm_rpn_data_t *rpn_data) { 7983deb3ec6SMatthias Ringwald uint8_t payload[10]; 7993deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 8003deb3ec6SMatthias Ringwald uint8_t pos = 0; 8013deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_RPN_CMD; 8023deb3ec6SMatthias Ringwald payload[pos++] = (8 << 1) | 1; // len 8033deb3ec6SMatthias Ringwald payload[pos++] = (1 << 0) | (1 << 1) | (dlci << 2); // CMD => C/R = 1 8043deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->baud_rate; 8053deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->flags; 8063deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->flow_control; 8073deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->xon; 8083deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->xoff; 8093deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->parameter_mask_0; 8103deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->parameter_mask_1; 8113deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 8123deb3ec6SMatthias Ringwald } 8133deb3ec6SMatthias Ringwald 8143deb3ec6SMatthias Ringwald static int rfcomm_send_uih_rpn_req(rfcomm_multiplexer_t *multiplexer, uint8_t dlci) { 8153deb3ec6SMatthias Ringwald uint8_t payload[3]; 8163deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 8173deb3ec6SMatthias Ringwald uint8_t pos = 0; 8183deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_RPN_CMD; 8193deb3ec6SMatthias Ringwald payload[pos++] = (1 << 1) | 1; // len 8203deb3ec6SMatthias Ringwald payload[pos++] = (1 << 0) | (1 << 1) | (dlci << 2); // CMD => C/R = 1 8213deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 8223deb3ec6SMatthias Ringwald } 8233deb3ec6SMatthias Ringwald 8243deb3ec6SMatthias Ringwald static int rfcomm_send_uih_rpn_rsp(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, rfcomm_rpn_data_t *rpn_data) { 8253deb3ec6SMatthias Ringwald uint8_t payload[10]; 8263deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1); 8273deb3ec6SMatthias Ringwald uint8_t pos = 0; 8283deb3ec6SMatthias Ringwald payload[pos++] = BT_RFCOMM_RPN_RSP; 8293deb3ec6SMatthias Ringwald payload[pos++] = (8 << 1) | 1; // len 8303deb3ec6SMatthias Ringwald payload[pos++] = (1 << 0) | (1 << 1) | (dlci << 2); // CMD => C/R = 1 8313deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->baud_rate; 8323deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->flags; 8333deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->flow_control; 8343deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->xon; 8353deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->xoff; 8363deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->parameter_mask_0; 8373deb3ec6SMatthias Ringwald payload[pos++] = rpn_data->parameter_mask_1; 8383deb3ec6SMatthias Ringwald return rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH, 0, (uint8_t *) payload, pos); 8393deb3ec6SMatthias Ringwald } 8403deb3ec6SMatthias Ringwald 8413deb3ec6SMatthias Ringwald static void rfcomm_send_uih_credits(rfcomm_multiplexer_t *multiplexer, uint8_t dlci, uint8_t credits){ 8423deb3ec6SMatthias Ringwald uint8_t address = (1 << 0) | (multiplexer->outgoing << 1) | (dlci << 2); 8433deb3ec6SMatthias Ringwald rfcomm_send_packet_for_multiplexer(multiplexer, address, BT_RFCOMM_UIH_PF, credits, NULL, 0); 8443deb3ec6SMatthias Ringwald } 8453deb3ec6SMatthias Ringwald 846020e217aSMatthias Ringwald // depending on channel state emit channel opened with status or channel closed 847020e217aSMatthias Ringwald static void rfcomm_channel_emit_final_event(rfcomm_channel_t * channel, uint8_t status){ 848020e217aSMatthias Ringwald // emit appropriate events 849020e217aSMatthias Ringwald switch(channel->state){ 850020e217aSMatthias Ringwald case RFCOMM_CHANNEL_OPEN: 851020e217aSMatthias Ringwald case RFCOMM_CHANNEL_W4_UA_AFTER_DISC: 852020e217aSMatthias Ringwald rfcomm_emit_channel_closed(channel); 853020e217aSMatthias Ringwald break; 854020e217aSMatthias Ringwald case RFCOMM_CHANNEL_SEND_UA_AFTER_DISC: 855020e217aSMatthias Ringwald // remote didn't wait until we send the UA disc 856020e217aSMatthias Ringwald // close event already emitted 857020e217aSMatthias Ringwald break; 858020e217aSMatthias Ringwald default: 859020e217aSMatthias Ringwald rfcomm_emit_channel_opened(channel, status); 860020e217aSMatthias Ringwald break; 861020e217aSMatthias Ringwald } 862020e217aSMatthias Ringwald } 863020e217aSMatthias Ringwald 8643deb3ec6SMatthias Ringwald // MARK: RFCOMM MULTIPLEXER 8653deb3ec6SMatthias Ringwald static void rfcomm_multiplexer_stop_timer(rfcomm_multiplexer_t * multiplexer){ 8663deb3ec6SMatthias Ringwald if (multiplexer->timer_active) { 867528a4a3bSMatthias Ringwald btstack_run_loop_remove_timer(&multiplexer->timer); 8683deb3ec6SMatthias Ringwald multiplexer->timer_active = 0; 8693deb3ec6SMatthias Ringwald } 8703deb3ec6SMatthias Ringwald } 8713deb3ec6SMatthias Ringwald static void rfcomm_multiplexer_free(rfcomm_multiplexer_t * multiplexer){ 872665d90f2SMatthias Ringwald btstack_linked_list_remove( &rfcomm_multiplexers, (btstack_linked_item_t *) multiplexer); 8733deb3ec6SMatthias Ringwald btstack_memory_rfcomm_multiplexer_free(multiplexer); 8743deb3ec6SMatthias Ringwald } 8753deb3ec6SMatthias Ringwald 8763deb3ec6SMatthias Ringwald static void rfcomm_multiplexer_finalize(rfcomm_multiplexer_t * multiplexer){ 8773deb3ec6SMatthias Ringwald // remove (potential) timer 8783deb3ec6SMatthias Ringwald rfcomm_multiplexer_stop_timer(multiplexer); 8793deb3ec6SMatthias Ringwald 8803deb3ec6SMatthias Ringwald // close and remove all channels 881665d90f2SMatthias Ringwald btstack_linked_item_t *it = (btstack_linked_item_t *) &rfcomm_channels; 8823deb3ec6SMatthias Ringwald while (it->next){ 8833deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = (rfcomm_channel_t *) it->next; 8843deb3ec6SMatthias Ringwald if (channel->multiplexer == multiplexer) { 885020e217aSMatthias Ringwald // emit open with status or closed 886020e217aSMatthias Ringwald rfcomm_channel_emit_final_event(channel, RFCOMM_MULTIPLEXER_STOPPED); 8873deb3ec6SMatthias Ringwald // remove from list 8883deb3ec6SMatthias Ringwald it->next = it->next->next; 8893deb3ec6SMatthias Ringwald // free channel struct 8903deb3ec6SMatthias Ringwald btstack_memory_rfcomm_channel_free(channel); 8913deb3ec6SMatthias Ringwald } else { 8923deb3ec6SMatthias Ringwald it = it->next; 8933deb3ec6SMatthias Ringwald } 8943deb3ec6SMatthias Ringwald } 8953deb3ec6SMatthias Ringwald 8963deb3ec6SMatthias Ringwald // remove mutliplexer 8973deb3ec6SMatthias Ringwald rfcomm_multiplexer_free(multiplexer); 8983deb3ec6SMatthias Ringwald } 8993deb3ec6SMatthias Ringwald 900ec820d77SMatthias Ringwald static void rfcomm_multiplexer_timer_handler(btstack_timer_source_t *timer){ 901c5b64319SMatthias Ringwald rfcomm_multiplexer_t * multiplexer = (rfcomm_multiplexer_t*) btstack_run_loop_get_timer_context(timer); 9023deb3ec6SMatthias Ringwald if (rfcomm_multiplexer_has_channels(multiplexer)) return; 9033deb3ec6SMatthias Ringwald 904374709acSMilanka Ringwald log_info("handler timeout: shutting down multiplexer! (no channels)"); 9053deb3ec6SMatthias Ringwald uint16_t l2cap_cid = multiplexer->l2cap_cid; 9063deb3ec6SMatthias Ringwald rfcomm_multiplexer_finalize(multiplexer); 907ce8f182eSMatthias Ringwald l2cap_disconnect(l2cap_cid, 0x13); 9083deb3ec6SMatthias Ringwald } 9093deb3ec6SMatthias Ringwald 9103deb3ec6SMatthias Ringwald static void rfcomm_multiplexer_prepare_idle_timer(rfcomm_multiplexer_t * multiplexer){ 9113deb3ec6SMatthias Ringwald if (multiplexer->timer_active) { 912528a4a3bSMatthias Ringwald btstack_run_loop_remove_timer(&multiplexer->timer); 9133deb3ec6SMatthias Ringwald multiplexer->timer_active = 0; 9143deb3ec6SMatthias Ringwald } 9153deb3ec6SMatthias Ringwald if (rfcomm_multiplexer_has_channels(multiplexer)) return; 9163deb3ec6SMatthias Ringwald 9173deb3ec6SMatthias Ringwald // start idle timer for multiplexer timeout check as there are no rfcomm channels yet 918528a4a3bSMatthias Ringwald btstack_run_loop_set_timer(&multiplexer->timer, RFCOMM_MULIPLEXER_TIMEOUT_MS); 91991a977e8SMatthias Ringwald btstack_run_loop_set_timer_handler(&multiplexer->timer, rfcomm_multiplexer_timer_handler); 92091a977e8SMatthias Ringwald btstack_run_loop_set_timer_context(&multiplexer->timer, multiplexer); 921528a4a3bSMatthias Ringwald btstack_run_loop_add_timer(&multiplexer->timer); 9223deb3ec6SMatthias Ringwald multiplexer->timer_active = 1; 9233deb3ec6SMatthias Ringwald } 9243deb3ec6SMatthias Ringwald 9253deb3ec6SMatthias Ringwald static void rfcomm_multiplexer_opened(rfcomm_multiplexer_t *multiplexer){ 9263deb3ec6SMatthias Ringwald log_info("Multiplexer up and running"); 9273deb3ec6SMatthias Ringwald multiplexer->state = RFCOMM_MULTIPLEXER_OPEN; 9283deb3ec6SMatthias Ringwald 92956f7db63SMatthias Ringwald const rfcomm_channel_event_t event = { CH_EVT_MULTIPLEXER_READY, 0}; 9303deb3ec6SMatthias Ringwald 9313deb3ec6SMatthias Ringwald // transition of channels that wait for multiplexer 932665d90f2SMatthias Ringwald btstack_linked_item_t *it; 933665d90f2SMatthias Ringwald for (it = (btstack_linked_item_t *) rfcomm_channels; it ; it = it->next){ 9343deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = ((rfcomm_channel_t *) it); 9353deb3ec6SMatthias Ringwald if (channel->multiplexer != multiplexer) continue; 9368f904593SMatthias Ringwald int rfcomm_channel_valid = 1; 9378f904593SMatthias Ringwald rfcomm_channel_state_machine_with_channel(channel, &event, &rfcomm_channel_valid); 9388f904593SMatthias Ringwald if (rfcomm_channel_valid && rfcomm_channel_ready_to_send(channel)){ 93962b5b741SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 94062b5b741SMatthias Ringwald } 9413deb3ec6SMatthias Ringwald } 9423deb3ec6SMatthias Ringwald rfcomm_multiplexer_prepare_idle_timer(multiplexer); 943b35818ceSMatthias Ringwald 944b35818ceSMatthias Ringwald // request can send now for multiplexer if ready 945b35818ceSMatthias Ringwald if (rfcomm_multiplexer_ready_to_send(multiplexer)){ 946b35818ceSMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 947b35818ceSMatthias Ringwald } 9483deb3ec6SMatthias Ringwald } 9493deb3ec6SMatthias Ringwald 950b35818ceSMatthias Ringwald static void rfcomm_handle_can_send_now(uint16_t l2cap_cid){ 951b35818ceSMatthias Ringwald 952374709acSMilanka Ringwald log_debug("can_send_now enter: %u", l2cap_cid); 95362b5b741SMatthias Ringwald 954e9a7c22dSMatthias Ringwald btstack_linked_list_iterator_t it; 955e9a7c22dSMatthias Ringwald int token_consumed = 0; 956e9a7c22dSMatthias Ringwald 957e9a7c22dSMatthias Ringwald // forward token to multiplexer 958b35818ceSMatthias Ringwald btstack_linked_list_iterator_init(&it, &rfcomm_multiplexers); 959e9a7c22dSMatthias Ringwald while (!token_consumed && btstack_linked_list_iterator_has_next(&it)){ 960b35818ceSMatthias Ringwald rfcomm_multiplexer_t * multiplexer = (rfcomm_multiplexer_t *) btstack_linked_list_iterator_next(&it); 961b35818ceSMatthias Ringwald if (multiplexer->l2cap_cid != l2cap_cid) continue; 962b35818ceSMatthias Ringwald if (rfcomm_multiplexer_ready_to_send(multiplexer)){ 963374709acSMilanka Ringwald log_debug("can_send_now enter: multiplexer token"); 964e9a7c22dSMatthias Ringwald token_consumed = 1; 965b35818ceSMatthias Ringwald rfcomm_multiplexer_state_machine(multiplexer, MULT_EV_READY_TO_SEND); 966b35818ceSMatthias Ringwald } 967b35818ceSMatthias Ringwald } 968b35818ceSMatthias Ringwald 969e9a7c22dSMatthias Ringwald // forward token to channel state machine 97062b5b741SMatthias Ringwald btstack_linked_list_iterator_init(&it, &rfcomm_channels); 971e9a7c22dSMatthias Ringwald while (!token_consumed && btstack_linked_list_iterator_has_next(&it)){ 97262b5b741SMatthias Ringwald rfcomm_channel_t * channel = (rfcomm_channel_t *) btstack_linked_list_iterator_next(&it); 97362b5b741SMatthias Ringwald if (channel->multiplexer->l2cap_cid != l2cap_cid) continue; 97462b5b741SMatthias Ringwald // channel state machine 97562b5b741SMatthias Ringwald if (rfcomm_channel_ready_to_send(channel)){ 976374709acSMilanka Ringwald log_debug("can_send_now enter: channel token"); 977e9a7c22dSMatthias Ringwald token_consumed = 1; 97856f7db63SMatthias Ringwald const rfcomm_channel_event_t event = { CH_EVT_READY_TO_SEND, 0 }; 9798f904593SMatthias Ringwald int rfcomm_channel_valid = 1; 9808f904593SMatthias Ringwald rfcomm_channel_state_machine_with_channel(channel, &event, &rfcomm_channel_valid); 98162b5b741SMatthias Ringwald } 9825ef5325cSMatthias Ringwald } 9835ef5325cSMatthias Ringwald 984e9a7c22dSMatthias Ringwald // forward token to client 9855ef5325cSMatthias Ringwald btstack_linked_list_iterator_init(&it, &rfcomm_channels); 986e9a7c22dSMatthias Ringwald while (!token_consumed && btstack_linked_list_iterator_has_next(&it)){ 9875ef5325cSMatthias Ringwald rfcomm_channel_t * channel = (rfcomm_channel_t *) btstack_linked_list_iterator_next(&it); 9885ef5325cSMatthias Ringwald if (channel->multiplexer->l2cap_cid != l2cap_cid) continue; 98962b5b741SMatthias Ringwald // client waiting for can send now 99062b5b741SMatthias Ringwald if (!channel->waiting_for_can_send_now) continue; 99162b5b741SMatthias Ringwald if ((channel->multiplexer->fcon & 1) == 0) continue; 992e4431960SMatthias Ringwald if (!channel->credits_outgoing){ 993374709acSMilanka Ringwald log_debug("can_send_now waiting to send but no credits (ignore)"); 994e4431960SMatthias Ringwald continue; 995e4431960SMatthias Ringwald } 99662b5b741SMatthias Ringwald 997374709acSMilanka Ringwald log_debug("can_send_now enter: client token"); 998e9a7c22dSMatthias Ringwald token_consumed = 1; 99962b5b741SMatthias Ringwald channel->waiting_for_can_send_now = 0; 100062b5b741SMatthias Ringwald rfcomm_emit_can_send_now(channel); 100162b5b741SMatthias Ringwald } 1002e9a7c22dSMatthias Ringwald 1003e9a7c22dSMatthias Ringwald // if token was consumed, request another one 1004e9a7c22dSMatthias Ringwald if (token_consumed) { 1005e9a7c22dSMatthias Ringwald l2cap_request_can_send_now_event(l2cap_cid); 100662b5b741SMatthias Ringwald } 1007e9a7c22dSMatthias Ringwald 1008374709acSMilanka Ringwald log_debug("can_send_now exit"); 1009b35818ceSMatthias Ringwald } 10103deb3ec6SMatthias Ringwald 1011f7d61b10SMatthias Ringwald static void rfcomm_multiplexer_set_state_and_request_can_send_now_event(rfcomm_multiplexer_t * multiplexer, RFCOMM_MULTIPLEXER_STATE state){ 1012f7d61b10SMatthias Ringwald multiplexer->state = state; 1013f7d61b10SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 1014f7d61b10SMatthias Ringwald } 1015f7d61b10SMatthias Ringwald 10163deb3ec6SMatthias Ringwald /** 10173deb3ec6SMatthias Ringwald * @return handled packet 10183deb3ec6SMatthias Ringwald */ 10190d78ab98SMatthias Ringwald static int rfcomm_hci_event_handler(uint8_t *packet, uint16_t size){ 102054383f05SMatthias Ringwald 102154383f05SMatthias Ringwald UNUSED(size); // ok: handling own l2cap events 10229ec2630cSMatthias Ringwald 10233deb3ec6SMatthias Ringwald bd_addr_t event_addr; 10243deb3ec6SMatthias Ringwald uint16_t l2cap_cid; 10253deb3ec6SMatthias Ringwald hci_con_handle_t con_handle; 10263deb3ec6SMatthias Ringwald rfcomm_multiplexer_t *multiplexer = NULL; 10273deb3ec6SMatthias Ringwald uint8_t status; 10283deb3ec6SMatthias Ringwald 10290e2df43fSMatthias Ringwald switch (hci_event_packet_get_type(packet)) { 10303deb3ec6SMatthias Ringwald 1031235946f1SMatthias Ringwald // accept incoming rfcomm connection if no multiplexer exists yet 10323deb3ec6SMatthias Ringwald case L2CAP_EVENT_INCOMING_CONNECTION: 1033b8c16440SMatthias Ringwald l2cap_event_incoming_connection_get_address(packet, event_addr); 1034b8c16440SMatthias Ringwald con_handle = l2cap_event_incoming_connection_get_handle(packet); 1035b8c16440SMatthias Ringwald l2cap_cid = l2cap_event_incoming_connection_get_local_cid(packet); 10363deb3ec6SMatthias Ringwald 1037f02edde1SMatthias Ringwald btstack_assert(l2cap_event_incoming_connection_get_psm(packet) == BLUETOOTH_PROTOCOL_RFCOMM); 10383deb3ec6SMatthias Ringwald 10393deb3ec6SMatthias Ringwald multiplexer = rfcomm_multiplexer_for_addr(event_addr); 10403deb3ec6SMatthias Ringwald 10413deb3ec6SMatthias Ringwald if (multiplexer) { 1042374709acSMilanka Ringwald log_info("RFCOMM incoming (l2cap_cid 0x%02x) => decline - multiplexer already exists", l2cap_cid); 10437ef6a7bbSMatthias Ringwald l2cap_decline_connection(l2cap_cid); 10443deb3ec6SMatthias Ringwald return 1; 10453deb3ec6SMatthias Ringwald } 10463deb3ec6SMatthias Ringwald 10473deb3ec6SMatthias Ringwald // create and inititialize new multiplexer instance (incoming) 10483deb3ec6SMatthias Ringwald multiplexer = rfcomm_multiplexer_create_for_addr(event_addr); 10493deb3ec6SMatthias Ringwald if (!multiplexer){ 1050374709acSMilanka Ringwald log_info("RFCOMM incoming (l2cap_cid 0x%02x) => decline - no memory left", l2cap_cid); 10517ef6a7bbSMatthias Ringwald l2cap_decline_connection(l2cap_cid); 10523deb3ec6SMatthias Ringwald return 1; 10533deb3ec6SMatthias Ringwald } 10543deb3ec6SMatthias Ringwald 10553deb3ec6SMatthias Ringwald multiplexer->con_handle = con_handle; 10563deb3ec6SMatthias Ringwald multiplexer->l2cap_cid = l2cap_cid; 10570d78ab98SMatthias Ringwald // 10583deb3ec6SMatthias Ringwald multiplexer->state = RFCOMM_MULTIPLEXER_W4_SABM_0; 1059374709acSMilanka Ringwald log_info("RFCOMM incoming (l2cap_cid 0x%02x) => accept", l2cap_cid); 1060a7a98a14SMatthias Ringwald 1061a7a98a14SMatthias Ringwald #ifdef RFCOMM_USE_ERTM 1062a7a98a14SMatthias Ringwald // request 1063a7a98a14SMatthias Ringwald rfcomm_ertm_request_t request; 1064a7a98a14SMatthias Ringwald memset(&request, 0, sizeof(rfcomm_ertm_request_t)); 10656535961aSMatthias Ringwald (void)memcpy(request.addr, event_addr, 6); 10661859e0acSMilanka Ringwald request.ertm_id = rfcomm_next_ertm_id(); 1067a7a98a14SMatthias Ringwald if (rfcomm_ertm_request_callback){ 1068a7a98a14SMatthias Ringwald (*rfcomm_ertm_request_callback)(&request); 1069a7a98a14SMatthias Ringwald } 1070a7a98a14SMatthias Ringwald if (request.ertm_config && request.ertm_buffer && request.ertm_buffer_size){ 1071a7a98a14SMatthias Ringwald multiplexer->ertm_id = request.ertm_id; 1072a7a98a14SMatthias Ringwald l2cap_accept_ertm_connection(l2cap_cid, request.ertm_config, request.ertm_buffer, request.ertm_buffer_size); 1073a7a98a14SMatthias Ringwald return 1; 107426244be4SMatthias Ringwald } 1075a7a98a14SMatthias Ringwald #endif 1076a7a98a14SMatthias Ringwald 1077ce8f182eSMatthias Ringwald l2cap_accept_connection(l2cap_cid); 10783deb3ec6SMatthias Ringwald return 1; 10793deb3ec6SMatthias Ringwald 10803deb3ec6SMatthias Ringwald // l2cap connection opened -> store l2cap_cid, remote_addr 10813deb3ec6SMatthias Ringwald case L2CAP_EVENT_CHANNEL_OPENED: 10823deb3ec6SMatthias Ringwald 1083f02edde1SMatthias Ringwald btstack_assert(l2cap_event_channel_opened_get_psm(packet) == BLUETOOTH_PROTOCOL_RFCOMM); 10843deb3ec6SMatthias Ringwald 1085b8c16440SMatthias Ringwald status = l2cap_event_channel_opened_get_status(packet); 1086374709acSMilanka Ringwald log_info("channel opened, status %u", status); 10873deb3ec6SMatthias Ringwald 10883deb3ec6SMatthias Ringwald // get multiplexer for remote addr 1089b8c16440SMatthias Ringwald con_handle = l2cap_event_channel_opened_get_handle(packet); 1090b8c16440SMatthias Ringwald l2cap_cid = l2cap_event_channel_opened_get_local_cid(packet); 1091b8c16440SMatthias Ringwald l2cap_event_channel_opened_get_address(packet, event_addr); 10923deb3ec6SMatthias Ringwald multiplexer = rfcomm_multiplexer_for_addr(event_addr); 10933deb3ec6SMatthias Ringwald if (!multiplexer) { 1094374709acSMilanka Ringwald log_error("channel opened but no multiplexer prepared"); 10953deb3ec6SMatthias Ringwald return 1; 10963deb3ec6SMatthias Ringwald } 10973deb3ec6SMatthias Ringwald 1098ee9fa3dfSMatthias Ringwald // set con handle for outgoing (already set for incoming) 1099ee9fa3dfSMatthias Ringwald multiplexer->con_handle = con_handle; 1100ee9fa3dfSMatthias Ringwald 11013deb3ec6SMatthias Ringwald // on l2cap open error discard everything 11023deb3ec6SMatthias Ringwald if (status){ 11033deb3ec6SMatthias Ringwald 11043deb3ec6SMatthias Ringwald // remove (potential) timer 11053deb3ec6SMatthias Ringwald rfcomm_multiplexer_stop_timer(multiplexer); 11063deb3ec6SMatthias Ringwald 11074c3eeed1SMatthias Ringwald // mark multiplexer as shutting down 11084c3eeed1SMatthias Ringwald multiplexer->state = RFCOMM_MULTIPLEXER_SHUTTING_DOWN; 11094c3eeed1SMatthias Ringwald 11103deb3ec6SMatthias Ringwald // emit rfcomm_channel_opened with status and free channel 11116b896dfcSMatthias Ringwald // note: repeatedly go over list until full iteration causes no further change 11126b896dfcSMatthias Ringwald int done; 11136b896dfcSMatthias Ringwald do { 11146b896dfcSMatthias Ringwald done = 1; 1115665d90f2SMatthias Ringwald btstack_linked_item_t * it = (btstack_linked_item_t *) &rfcomm_channels; 11163deb3ec6SMatthias Ringwald while (it->next) { 11173deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = (rfcomm_channel_t *) it->next; 11183deb3ec6SMatthias Ringwald if (channel->multiplexer == multiplexer){ 11196b896dfcSMatthias Ringwald done = 0; 11203deb3ec6SMatthias Ringwald rfcomm_emit_channel_opened(channel, status); 11214c3eeed1SMatthias Ringwald btstack_linked_list_remove(&rfcomm_channels, (btstack_linked_item_t *) channel); 11223deb3ec6SMatthias Ringwald btstack_memory_rfcomm_channel_free(channel); 11234c3eeed1SMatthias Ringwald break; 11243deb3ec6SMatthias Ringwald } else { 11253deb3ec6SMatthias Ringwald it = it->next; 11263deb3ec6SMatthias Ringwald } 11273deb3ec6SMatthias Ringwald } 11286b896dfcSMatthias Ringwald } while (!done); 11293deb3ec6SMatthias Ringwald 11303deb3ec6SMatthias Ringwald // free multiplexer 11313deb3ec6SMatthias Ringwald rfcomm_multiplexer_free(multiplexer); 11323deb3ec6SMatthias Ringwald return 1; 11333deb3ec6SMatthias Ringwald } 11343deb3ec6SMatthias Ringwald 1135ee9fa3dfSMatthias Ringwald // following could be: rfcomm_multiplexer_state_machine(..., EVENT_L2CAP_OPENED) 11360d78ab98SMatthias Ringwald 1137d9d3c2ecSMatthias Ringwald // set max frame size based on l2cap MTU 1138d9d3c2ecSMatthias Ringwald multiplexer->max_frame_size = rfcomm_max_frame_size_for_l2cap_mtu(little_endian_read_16(packet, 17)); 1139d9d3c2ecSMatthias Ringwald 11403deb3ec6SMatthias Ringwald if (multiplexer->state == RFCOMM_MULTIPLEXER_W4_CONNECT) { 1141374709acSMilanka Ringwald log_info("channel opened: outgoing connection"); 11423deb3ec6SMatthias Ringwald multiplexer->l2cap_cid = l2cap_cid; 11433deb3ec6SMatthias Ringwald // send SABM #0 1144f7d61b10SMatthias Ringwald rfcomm_multiplexer_set_state_and_request_can_send_now_event(multiplexer, RFCOMM_MULTIPLEXER_SEND_SABM_0); 11453deb3ec6SMatthias Ringwald } 11463deb3ec6SMatthias Ringwald return 1; 11473deb3ec6SMatthias Ringwald 11483deb3ec6SMatthias Ringwald // l2cap disconnect -> state = RFCOMM_MULTIPLEXER_CLOSED; 11493deb3ec6SMatthias Ringwald 1150b31d33b2SMatthias Ringwald // Notify channel packet handler if they can send now 1151b31d33b2SMatthias Ringwald case L2CAP_EVENT_CAN_SEND_NOW: 1152b35818ceSMatthias Ringwald l2cap_cid = l2cap_event_can_send_now_get_local_cid(packet); 1153b35818ceSMatthias Ringwald rfcomm_handle_can_send_now(l2cap_cid); 11540d78ab98SMatthias Ringwald return 1; 11553deb3ec6SMatthias Ringwald 11563deb3ec6SMatthias Ringwald case L2CAP_EVENT_CHANNEL_CLOSED: 1157b8c16440SMatthias Ringwald l2cap_cid = l2cap_event_channel_closed_get_local_cid(packet); 11583deb3ec6SMatthias Ringwald multiplexer = rfcomm_multiplexer_for_l2cap_cid(l2cap_cid); 1159374709acSMilanka Ringwald log_info("channel closed cid 0x%0x, mult %p", l2cap_cid, multiplexer); 11603deb3ec6SMatthias Ringwald if (!multiplexer) break; 1161374709acSMilanka Ringwald log_info("channel closed state %u", multiplexer->state); 11627d20d6a4SMatthias Ringwald // no need to call l2cap_disconnect here, as it's already closed 11633deb3ec6SMatthias Ringwald rfcomm_multiplexer_finalize(multiplexer); 1164d5499c6fSMatthias Ringwald return 1; 1165d5499c6fSMatthias Ringwald 1166a7a98a14SMatthias Ringwald #ifdef RFCOMM_USE_ERTM 1167a7a98a14SMatthias Ringwald case L2CAP_EVENT_ERTM_BUFFER_RELEASED: 1168a7a98a14SMatthias Ringwald l2cap_cid = l2cap_event_ertm_buffer_released_get_local_cid(packet); 1169a7a98a14SMatthias Ringwald multiplexer = rfcomm_multiplexer_for_l2cap_cid(l2cap_cid); 1170a7a98a14SMatthias Ringwald if (multiplexer) { 1171a7a98a14SMatthias Ringwald log_info("buffer for ertm id %u released", multiplexer->ertm_id); 1172a7a98a14SMatthias Ringwald if (rfcomm_ertm_released_callback){ 1173a7a98a14SMatthias Ringwald (*rfcomm_ertm_released_callback)(multiplexer->ertm_id); 1174a7a98a14SMatthias Ringwald } 1175a7a98a14SMatthias Ringwald } 1176a7a98a14SMatthias Ringwald break; 1177a7a98a14SMatthias Ringwald #endif 1178a7a98a14SMatthias Ringwald 11793deb3ec6SMatthias Ringwald default: 11803deb3ec6SMatthias Ringwald break; 11813deb3ec6SMatthias Ringwald } 11823deb3ec6SMatthias Ringwald return 0; 11833deb3ec6SMatthias Ringwald } 11843deb3ec6SMatthias Ringwald 11853deb3ec6SMatthias Ringwald static int rfcomm_multiplexer_l2cap_packet_handler(uint16_t channel, uint8_t *packet, uint16_t size){ 11863deb3ec6SMatthias Ringwald // get or create a multiplexer for a certain device 11873deb3ec6SMatthias Ringwald rfcomm_multiplexer_t *multiplexer = rfcomm_multiplexer_for_l2cap_cid(channel); 11883deb3ec6SMatthias Ringwald if (!multiplexer) return 0; 11893deb3ec6SMatthias Ringwald 11903deb3ec6SMatthias Ringwald uint16_t l2cap_cid = multiplexer->l2cap_cid; 11913deb3ec6SMatthias Ringwald 119211d526b3SMatthias Ringwald if (size < 3) return 0; 119311d526b3SMatthias Ringwald 11943deb3ec6SMatthias Ringwald // but only care for multiplexer control channel 11953deb3ec6SMatthias Ringwald uint8_t frame_dlci = packet[0] >> 2; 11963deb3ec6SMatthias Ringwald if (frame_dlci) return 0; 11973deb3ec6SMatthias Ringwald const uint8_t length_offset = (packet[2] & 1) ^ 1; // to be used for pos >= 3 11983deb3ec6SMatthias Ringwald const uint8_t credit_offset = ((packet[1] & BT_RFCOMM_UIH_PF) == BT_RFCOMM_UIH_PF) ? 1 : 0; // credits for uih_pf frames 11993deb3ec6SMatthias Ringwald const uint8_t payload_offset = 3 + length_offset + credit_offset; 12003deb3ec6SMatthias Ringwald switch (packet[1]){ 12013deb3ec6SMatthias Ringwald 12023deb3ec6SMatthias Ringwald case BT_RFCOMM_SABM: 12033deb3ec6SMatthias Ringwald if (multiplexer->state == RFCOMM_MULTIPLEXER_W4_SABM_0){ 12043deb3ec6SMatthias Ringwald log_info("Received SABM #0"); 12053deb3ec6SMatthias Ringwald multiplexer->outgoing = 0; 1206f7d61b10SMatthias Ringwald rfcomm_multiplexer_set_state_and_request_can_send_now_event(multiplexer, RFCOMM_MULTIPLEXER_SEND_UA_0); 12073deb3ec6SMatthias Ringwald return 1; 12083deb3ec6SMatthias Ringwald } 12093deb3ec6SMatthias Ringwald break; 12103deb3ec6SMatthias Ringwald 12113deb3ec6SMatthias Ringwald case BT_RFCOMM_UA: 12123deb3ec6SMatthias Ringwald if (multiplexer->state == RFCOMM_MULTIPLEXER_W4_UA_0) { 12133deb3ec6SMatthias Ringwald // UA #0 -> send UA #0, state = RFCOMM_MULTIPLEXER_OPEN 12143deb3ec6SMatthias Ringwald log_info("Received UA #0 "); 12153deb3ec6SMatthias Ringwald rfcomm_multiplexer_opened(multiplexer); 12163deb3ec6SMatthias Ringwald return 1; 12173deb3ec6SMatthias Ringwald } 12183deb3ec6SMatthias Ringwald break; 12193deb3ec6SMatthias Ringwald 12203deb3ec6SMatthias Ringwald case BT_RFCOMM_DISC: 12213deb3ec6SMatthias Ringwald // DISC #0 -> send UA #0, close multiplexer 12223deb3ec6SMatthias Ringwald log_info("Received DISC #0, (ougoing = %u)", multiplexer->outgoing); 1223f7d61b10SMatthias Ringwald rfcomm_multiplexer_set_state_and_request_can_send_now_event(multiplexer, RFCOMM_MULTIPLEXER_SEND_UA_0_AND_DISC); 12243deb3ec6SMatthias Ringwald return 1; 12253deb3ec6SMatthias Ringwald 12263deb3ec6SMatthias Ringwald case BT_RFCOMM_DM: 12273deb3ec6SMatthias Ringwald // DM #0 - we shouldn't get this, just give up 12283deb3ec6SMatthias Ringwald log_info("Received DM #0"); 12293deb3ec6SMatthias Ringwald log_info("-> Closing down multiplexer"); 12303deb3ec6SMatthias Ringwald rfcomm_multiplexer_finalize(multiplexer); 1231ce8f182eSMatthias Ringwald l2cap_disconnect(l2cap_cid, 0x13); 12323deb3ec6SMatthias Ringwald return 1; 12333deb3ec6SMatthias Ringwald 12343deb3ec6SMatthias Ringwald case BT_RFCOMM_UIH: 123511d526b3SMatthias Ringwald if (payload_offset >= size) return 0; 123611d526b3SMatthias Ringwald 12373deb3ec6SMatthias Ringwald if (packet[payload_offset] == BT_RFCOMM_CLD_CMD){ 12383deb3ec6SMatthias Ringwald // Multiplexer close down (CLD) -> close mutliplexer 12393deb3ec6SMatthias Ringwald log_info("Received Multiplexer close down command"); 12403deb3ec6SMatthias Ringwald log_info("-> Closing down multiplexer"); 12413deb3ec6SMatthias Ringwald rfcomm_multiplexer_finalize(multiplexer); 1242ce8f182eSMatthias Ringwald l2cap_disconnect(l2cap_cid, 0x13); 12433deb3ec6SMatthias Ringwald return 1; 12443deb3ec6SMatthias Ringwald } 12453deb3ec6SMatthias Ringwald switch (packet[payload_offset]){ 12463deb3ec6SMatthias Ringwald case BT_RFCOMM_CLD_CMD: 12473deb3ec6SMatthias Ringwald // Multiplexer close down (CLD) -> close mutliplexer 12483deb3ec6SMatthias Ringwald log_info("Received Multiplexer close down command"); 12493deb3ec6SMatthias Ringwald log_info("-> Closing down multiplexer"); 12503deb3ec6SMatthias Ringwald rfcomm_multiplexer_finalize(multiplexer); 1251ce8f182eSMatthias Ringwald l2cap_disconnect(l2cap_cid, 0x13); 12523deb3ec6SMatthias Ringwald return 1; 12533deb3ec6SMatthias Ringwald 12543deb3ec6SMatthias Ringwald case BT_RFCOMM_FCON_CMD: 12553deb3ec6SMatthias Ringwald multiplexer->fcon = 0x81; 1256b35818ceSMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 1257b35818ceSMatthias Ringwald return 1; 12583deb3ec6SMatthias Ringwald 12593deb3ec6SMatthias Ringwald case BT_RFCOMM_FCOFF_CMD: 12603deb3ec6SMatthias Ringwald multiplexer->fcon = 0x80; 1261b35818ceSMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 1262b35818ceSMatthias Ringwald return 1; 12633deb3ec6SMatthias Ringwald 12643deb3ec6SMatthias Ringwald case BT_RFCOMM_TEST_CMD: { 126511d526b3SMatthias Ringwald if ((payload_offset + 1) >= size) return 0; // (1) 12663deb3ec6SMatthias Ringwald log_info("Received test command"); 12673deb3ec6SMatthias Ringwald int len = packet[payload_offset+1] >> 1; // length < 125 12683deb3ec6SMatthias Ringwald if (len > RFCOMM_TEST_DATA_MAX_LEN){ 12693deb3ec6SMatthias Ringwald len = RFCOMM_TEST_DATA_MAX_LEN; 12703deb3ec6SMatthias Ringwald } 127111d526b3SMatthias Ringwald // from (1) => (size - 1 - payload_offset) > 0 127254383f05SMatthias Ringwald len = btstack_min(len, size - 1 - payload_offset); // avoid information leak 12733deb3ec6SMatthias Ringwald multiplexer->test_data_len = len; 12746535961aSMatthias Ringwald (void)memcpy(multiplexer->test_data, 12756535961aSMatthias Ringwald &packet[payload_offset + 2], len); 1276b35818ceSMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 12773deb3ec6SMatthias Ringwald return 1; 12783deb3ec6SMatthias Ringwald } 12793deb3ec6SMatthias Ringwald default: 12803deb3ec6SMatthias Ringwald break; 12813deb3ec6SMatthias Ringwald } 12823deb3ec6SMatthias Ringwald break; 12833deb3ec6SMatthias Ringwald 12843deb3ec6SMatthias Ringwald default: 12853deb3ec6SMatthias Ringwald break; 12863deb3ec6SMatthias Ringwald 12873deb3ec6SMatthias Ringwald } 12883deb3ec6SMatthias Ringwald return 0; 12893deb3ec6SMatthias Ringwald } 12903deb3ec6SMatthias Ringwald 1291b35818ceSMatthias Ringwald static int rfcomm_multiplexer_ready_to_send(rfcomm_multiplexer_t * multiplexer){ 1292b35818ceSMatthias Ringwald if (multiplexer->send_dm_for_dlci) return 1; 1293b35818ceSMatthias Ringwald if (multiplexer->nsc_command) return 1; 1294b35818ceSMatthias Ringwald if (multiplexer->fcon & 0x80) return 1; 1295b35818ceSMatthias Ringwald switch (multiplexer->state){ 1296b35818ceSMatthias Ringwald case RFCOMM_MULTIPLEXER_SEND_SABM_0: 1297b35818ceSMatthias Ringwald case RFCOMM_MULTIPLEXER_SEND_UA_0: 1298b35818ceSMatthias Ringwald case RFCOMM_MULTIPLEXER_SEND_UA_0_AND_DISC: 1299b35818ceSMatthias Ringwald return 1; 1300b35818ceSMatthias Ringwald case RFCOMM_MULTIPLEXER_OPEN: 1301b35818ceSMatthias Ringwald if (multiplexer->test_data_len) { 1302b35818ceSMatthias Ringwald return 1; 1303b35818ceSMatthias Ringwald } 1304b35818ceSMatthias Ringwald break; 1305b35818ceSMatthias Ringwald default: 1306b35818ceSMatthias Ringwald break; 1307b35818ceSMatthias Ringwald } 1308b35818ceSMatthias Ringwald return 0; 1309b35818ceSMatthias Ringwald } 1310b35818ceSMatthias Ringwald 13113deb3ec6SMatthias Ringwald static void rfcomm_multiplexer_state_machine(rfcomm_multiplexer_t * multiplexer, RFCOMM_MULTIPLEXER_EVENT event){ 13123deb3ec6SMatthias Ringwald 1313f7d61b10SMatthias Ringwald if (event != MULT_EV_READY_TO_SEND) return; 1314f7d61b10SMatthias Ringwald 13153deb3ec6SMatthias Ringwald uint16_t l2cap_cid = multiplexer->l2cap_cid; 13163deb3ec6SMatthias Ringwald 13173deb3ec6SMatthias Ringwald // process stored DM responses 13183deb3ec6SMatthias Ringwald if (multiplexer->send_dm_for_dlci){ 13193deb3ec6SMatthias Ringwald uint8_t dlci = multiplexer->send_dm_for_dlci; 13203deb3ec6SMatthias Ringwald multiplexer->send_dm_for_dlci = 0; 13213deb3ec6SMatthias Ringwald rfcomm_send_dm_pf(multiplexer, dlci); 13223deb3ec6SMatthias Ringwald return; 13233deb3ec6SMatthias Ringwald } 13243deb3ec6SMatthias Ringwald 13253deb3ec6SMatthias Ringwald if (multiplexer->nsc_command){ 13263deb3ec6SMatthias Ringwald uint8_t command = multiplexer->nsc_command; 13273deb3ec6SMatthias Ringwald multiplexer->nsc_command = 0; 13283deb3ec6SMatthias Ringwald rfcomm_send_uih_nsc_rsp(multiplexer, command); 13293deb3ec6SMatthias Ringwald return; 13303deb3ec6SMatthias Ringwald } 13313deb3ec6SMatthias Ringwald 13323deb3ec6SMatthias Ringwald if (multiplexer->fcon & 0x80){ 13333deb3ec6SMatthias Ringwald multiplexer->fcon &= 0x01; 13343deb3ec6SMatthias Ringwald rfcomm_send_uih_fc_rsp(multiplexer, multiplexer->fcon); 1335f7d61b10SMatthias Ringwald 13363deb3ec6SMatthias Ringwald if (multiplexer->fcon == 0) return; 13373deb3ec6SMatthias Ringwald // trigger client to send again after sending FCon Response 1338b31d33b2SMatthias Ringwald rfcomm_notify_channel_can_send(); 13393deb3ec6SMatthias Ringwald return; 13403deb3ec6SMatthias Ringwald } 13413deb3ec6SMatthias Ringwald 13423deb3ec6SMatthias Ringwald switch (multiplexer->state) { 13433deb3ec6SMatthias Ringwald case RFCOMM_MULTIPLEXER_SEND_SABM_0: 13443deb3ec6SMatthias Ringwald log_info("Sending SABM #0 - (multi 0x%p)", multiplexer); 13453deb3ec6SMatthias Ringwald multiplexer->state = RFCOMM_MULTIPLEXER_W4_UA_0; 13463deb3ec6SMatthias Ringwald rfcomm_send_sabm(multiplexer, 0); 13473deb3ec6SMatthias Ringwald break; 13483deb3ec6SMatthias Ringwald case RFCOMM_MULTIPLEXER_SEND_UA_0: 13493deb3ec6SMatthias Ringwald log_info("Sending UA #0"); 13503deb3ec6SMatthias Ringwald multiplexer->state = RFCOMM_MULTIPLEXER_OPEN; 13513deb3ec6SMatthias Ringwald rfcomm_send_ua(multiplexer, 0); 1352f7d61b10SMatthias Ringwald 13533deb3ec6SMatthias Ringwald rfcomm_multiplexer_opened(multiplexer); 13543deb3ec6SMatthias Ringwald break; 13553deb3ec6SMatthias Ringwald case RFCOMM_MULTIPLEXER_SEND_UA_0_AND_DISC: 13563deb3ec6SMatthias Ringwald log_info("Sending UA #0"); 13573deb3ec6SMatthias Ringwald log_info("Closing down multiplexer"); 13583deb3ec6SMatthias Ringwald multiplexer->state = RFCOMM_MULTIPLEXER_CLOSED; 13593deb3ec6SMatthias Ringwald rfcomm_send_ua(multiplexer, 0); 1360f7d61b10SMatthias Ringwald 13613deb3ec6SMatthias Ringwald rfcomm_multiplexer_finalize(multiplexer); 1362ce8f182eSMatthias Ringwald l2cap_disconnect(l2cap_cid, 0x13); 13633deb3ec6SMatthias Ringwald break; 13643deb3ec6SMatthias Ringwald case RFCOMM_MULTIPLEXER_OPEN: 13653deb3ec6SMatthias Ringwald // respond to test command 13663deb3ec6SMatthias Ringwald if (multiplexer->test_data_len){ 13673deb3ec6SMatthias Ringwald int len = multiplexer->test_data_len; 13683deb3ec6SMatthias Ringwald log_info("Sending TEST Response with %u bytes", len); 13693deb3ec6SMatthias Ringwald multiplexer->test_data_len = 0; 13703deb3ec6SMatthias Ringwald rfcomm_send_uih_test_rsp(multiplexer, multiplexer->test_data, len); 13713deb3ec6SMatthias Ringwald return; 13723deb3ec6SMatthias Ringwald } 13733deb3ec6SMatthias Ringwald break; 13743deb3ec6SMatthias Ringwald default: 13753deb3ec6SMatthias Ringwald break; 13763deb3ec6SMatthias Ringwald } 13773deb3ec6SMatthias Ringwald } 13783deb3ec6SMatthias Ringwald 13793deb3ec6SMatthias Ringwald // MARK: RFCOMM CHANNEL 13803deb3ec6SMatthias Ringwald 13813deb3ec6SMatthias Ringwald static void rfcomm_channel_send_credits(rfcomm_channel_t *channel, uint8_t credits){ 13823deb3ec6SMatthias Ringwald channel->credits_incoming += credits; 1383ec3f4248SMatthias Ringwald rfcomm_send_uih_credits(channel->multiplexer, channel->dlci, credits); 13843deb3ec6SMatthias Ringwald } 13853deb3ec6SMatthias Ringwald 1386b31d33b2SMatthias Ringwald static int rfcomm_channel_can_send(rfcomm_channel_t * channel){ 1387b31d33b2SMatthias Ringwald if (!channel->credits_outgoing) return 0; 1388b31d33b2SMatthias Ringwald if ((channel->multiplexer->fcon & 1) == 0) return 0; 1389b31d33b2SMatthias Ringwald return l2cap_can_send_packet_now(channel->multiplexer->l2cap_cid); 1390b31d33b2SMatthias Ringwald } 1391b31d33b2SMatthias Ringwald 13923deb3ec6SMatthias Ringwald static void rfcomm_channel_opened(rfcomm_channel_t *rfChannel){ 13933deb3ec6SMatthias Ringwald 1394374709acSMilanka Ringwald log_info("opened"); 13953deb3ec6SMatthias Ringwald 13963deb3ec6SMatthias Ringwald rfChannel->state = RFCOMM_CHANNEL_OPEN; 13973deb3ec6SMatthias Ringwald rfcomm_emit_channel_opened(rfChannel, 0); 13983deb3ec6SMatthias Ringwald rfcomm_emit_port_configuration(rfChannel); 13993deb3ec6SMatthias Ringwald 14003deb3ec6SMatthias Ringwald // remove (potential) timer 14013deb3ec6SMatthias Ringwald rfcomm_multiplexer_t *multiplexer = rfChannel->multiplexer; 14023deb3ec6SMatthias Ringwald if (multiplexer->timer_active) { 1403528a4a3bSMatthias Ringwald btstack_run_loop_remove_timer(&multiplexer->timer); 14043deb3ec6SMatthias Ringwald multiplexer->timer_active = 0; 14053deb3ec6SMatthias Ringwald } 14063deb3ec6SMatthias Ringwald // hack for problem detecting authentication failure 14073deb3ec6SMatthias Ringwald multiplexer->at_least_one_connection = 1; 14083deb3ec6SMatthias Ringwald 140962b5b741SMatthias Ringwald // request can send now if channel ready 141062b5b741SMatthias Ringwald if (rfcomm_channel_ready_to_send(rfChannel)){ 141162b5b741SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 141262b5b741SMatthias Ringwald } 14133deb3ec6SMatthias Ringwald } 14143deb3ec6SMatthias Ringwald 14153deb3ec6SMatthias Ringwald static void rfcomm_channel_packet_handler_uih(rfcomm_multiplexer_t *multiplexer, uint8_t * packet, uint16_t size){ 14163deb3ec6SMatthias Ringwald const uint8_t frame_dlci = packet[0] >> 2; 14173deb3ec6SMatthias Ringwald const uint8_t length_offset = (packet[2] & 1) ^ 1; // to be used for pos >= 3 14183deb3ec6SMatthias Ringwald const uint8_t credit_offset = ((packet[1] & BT_RFCOMM_UIH_PF) == BT_RFCOMM_UIH_PF) ? 1 : 0; // credits for uih_pf frames 14193deb3ec6SMatthias Ringwald const uint8_t payload_offset = 3 + length_offset + credit_offset; 1420e0a14df4SMatthias Ringwald int request_can_send_now = 0; 14213deb3ec6SMatthias Ringwald 14223deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_multiplexer_and_dlci(multiplexer, frame_dlci); 14233deb3ec6SMatthias Ringwald if (!channel) return; 14243deb3ec6SMatthias Ringwald 14253deb3ec6SMatthias Ringwald // handle new outgoing credits 14263deb3ec6SMatthias Ringwald if (packet[1] == BT_RFCOMM_UIH_PF) { 14273deb3ec6SMatthias Ringwald 14283deb3ec6SMatthias Ringwald // add them 14293deb3ec6SMatthias Ringwald uint16_t new_credits = packet[3+length_offset]; 14303deb3ec6SMatthias Ringwald channel->credits_outgoing += new_credits; 1431e4431960SMatthias Ringwald log_info( "RFCOMM data UIH_PF, new credits channel 0x%02x: %u, now %u", channel->rfcomm_cid, new_credits, channel->credits_outgoing); 14323deb3ec6SMatthias Ringwald 14333deb3ec6SMatthias Ringwald // notify channel statemachine 143456f7db63SMatthias Ringwald rfcomm_channel_event_t channel_event = { CH_EVT_RCVD_CREDITS, 0 }; 1435374709acSMilanka Ringwald log_debug("state machine, waiting_for_can_send_now %u", channel->waiting_for_can_send_now); 14368f904593SMatthias Ringwald int rfcomm_channel_valid = 1; 14378f904593SMatthias Ringwald rfcomm_channel_state_machine_with_channel(channel, &channel_event, &rfcomm_channel_valid); 14388f904593SMatthias Ringwald if (rfcomm_channel_valid){ 1439e0a14df4SMatthias Ringwald if (rfcomm_channel_ready_to_send(channel) || channel->waiting_for_can_send_now){ 1440e0a14df4SMatthias Ringwald request_can_send_now = 1; 144162b5b741SMatthias Ringwald } 14423deb3ec6SMatthias Ringwald } 14438f904593SMatthias Ringwald } 14443deb3ec6SMatthias Ringwald 14453deb3ec6SMatthias Ringwald // contains payload? 1446c1ab6cc1SMatthias Ringwald if ((size - 1) > payload_offset){ 14473deb3ec6SMatthias Ringwald 14483deb3ec6SMatthias Ringwald // log_info( "RFCOMM data UIH_PF, size %u, channel %p", size-payload_offset-1, rfChannel->connection); 14493deb3ec6SMatthias Ringwald 14503deb3ec6SMatthias Ringwald // decrease incoming credit counter 14513deb3ec6SMatthias Ringwald if (channel->credits_incoming > 0){ 14523deb3ec6SMatthias Ringwald channel->credits_incoming--; 14533deb3ec6SMatthias Ringwald } 14543deb3ec6SMatthias Ringwald 14553deb3ec6SMatthias Ringwald // deliver payload 1456fc376368SMatthias Ringwald (channel->packet_handler)(RFCOMM_DATA_PACKET, channel->rfcomm_cid, 14573deb3ec6SMatthias Ringwald &packet[payload_offset], size-payload_offset-1); 14583deb3ec6SMatthias Ringwald } 14593deb3ec6SMatthias Ringwald 14603deb3ec6SMatthias Ringwald // automatically provide new credits to remote device, if no incoming flow control 1461c1ab6cc1SMatthias Ringwald if (!channel->incoming_flow_control && (channel->credits_incoming < 5)){ 14623deb3ec6SMatthias Ringwald channel->new_credits_incoming = RFCOMM_CREDITS; 1463e0a14df4SMatthias Ringwald request_can_send_now = 1; 1464e0a14df4SMatthias Ringwald } 1465e0a14df4SMatthias Ringwald 1466e0a14df4SMatthias Ringwald if (request_can_send_now){ 146762b5b741SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 14683deb3ec6SMatthias Ringwald } 14693deb3ec6SMatthias Ringwald } 14703deb3ec6SMatthias Ringwald 14713deb3ec6SMatthias Ringwald static void rfcomm_channel_accept_pn(rfcomm_channel_t *channel, rfcomm_channel_event_pn_t *event){ 14723deb3ec6SMatthias Ringwald // priority of client request 14733deb3ec6SMatthias Ringwald channel->pn_priority = event->priority; 14743deb3ec6SMatthias Ringwald 14753deb3ec6SMatthias Ringwald // new credits 14763deb3ec6SMatthias Ringwald channel->credits_outgoing = event->credits_outgoing; 14773deb3ec6SMatthias Ringwald 14783deb3ec6SMatthias Ringwald // negotiate max frame size 14793deb3ec6SMatthias Ringwald if (channel->max_frame_size > channel->multiplexer->max_frame_size) { 14803deb3ec6SMatthias Ringwald channel->max_frame_size = channel->multiplexer->max_frame_size; 14813deb3ec6SMatthias Ringwald } 14823deb3ec6SMatthias Ringwald if (channel->max_frame_size > event->max_frame_size) { 14833deb3ec6SMatthias Ringwald channel->max_frame_size = event->max_frame_size; 14843deb3ec6SMatthias Ringwald } 14853deb3ec6SMatthias Ringwald 14863deb3ec6SMatthias Ringwald } 14873deb3ec6SMatthias Ringwald 14883deb3ec6SMatthias Ringwald static void rfcomm_channel_finalize(rfcomm_channel_t *channel){ 14893deb3ec6SMatthias Ringwald 14903deb3ec6SMatthias Ringwald rfcomm_multiplexer_t *multiplexer = channel->multiplexer; 14913deb3ec6SMatthias Ringwald 14923deb3ec6SMatthias Ringwald // remove from list 1493665d90f2SMatthias Ringwald btstack_linked_list_remove( &rfcomm_channels, (btstack_linked_item_t *) channel); 14943deb3ec6SMatthias Ringwald 14953deb3ec6SMatthias Ringwald // free channel 14963deb3ec6SMatthias Ringwald btstack_memory_rfcomm_channel_free(channel); 14973deb3ec6SMatthias Ringwald 14983deb3ec6SMatthias Ringwald // update multiplexer timeout after channel was removed from list 14993deb3ec6SMatthias Ringwald rfcomm_multiplexer_prepare_idle_timer(multiplexer); 15003deb3ec6SMatthias Ringwald } 15013deb3ec6SMatthias Ringwald 15023232fa30SMatthias Ringwald static void rfcomm_channel_state_machine_with_dlci(rfcomm_multiplexer_t * multiplexer, uint8_t dlci, const rfcomm_channel_event_t *event){ 15033deb3ec6SMatthias Ringwald 15043deb3ec6SMatthias Ringwald // TODO: if client max frame size is smaller than RFCOMM_DEFAULT_SIZE, send PN 15053deb3ec6SMatthias Ringwald 15063deb3ec6SMatthias Ringwald 15073deb3ec6SMatthias Ringwald // lookup existing channel 15083deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_multiplexer_and_dlci(multiplexer, dlci); 15093deb3ec6SMatthias Ringwald 15103232fa30SMatthias Ringwald // log_info("rfcomm_channel_state_machine_with_dlci lookup dlci #%u = 0x%08x - event %u", dlci, (int) channel, event->type); 15113deb3ec6SMatthias Ringwald 15123deb3ec6SMatthias Ringwald if (channel) { 15138f904593SMatthias Ringwald int rfcomm_channel_valid = 1; 15148f904593SMatthias Ringwald rfcomm_channel_state_machine_with_channel(channel, event, &rfcomm_channel_valid); 15158f904593SMatthias Ringwald if (rfcomm_channel_valid && rfcomm_channel_ready_to_send(channel)){ 15163232fa30SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 15173232fa30SMatthias Ringwald } 15183deb3ec6SMatthias Ringwald return; 15193deb3ec6SMatthias Ringwald } 15203deb3ec6SMatthias Ringwald 15213deb3ec6SMatthias Ringwald // service registered? 15223deb3ec6SMatthias Ringwald rfcomm_service_t * service = rfcomm_service_for_channel(dlci >> 1); 15233232fa30SMatthias Ringwald // log_info("rfcomm_channel_state_machine_with_dlci service dlci #%u = 0x%08x", dlci, (int) service); 15243deb3ec6SMatthias Ringwald if (!service) { 15253deb3ec6SMatthias Ringwald // discard request by sending disconnected mode 15263deb3ec6SMatthias Ringwald multiplexer->send_dm_for_dlci = dlci; 152762b5b741SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 15283deb3ec6SMatthias Ringwald return; 15293deb3ec6SMatthias Ringwald } 15303deb3ec6SMatthias Ringwald 15313deb3ec6SMatthias Ringwald // create channel for some events 15323deb3ec6SMatthias Ringwald switch (event->type) { 15333deb3ec6SMatthias Ringwald case CH_EVT_RCVD_SABM: 15343deb3ec6SMatthias Ringwald case CH_EVT_RCVD_PN: 15353deb3ec6SMatthias Ringwald case CH_EVT_RCVD_RPN_REQ: 15363deb3ec6SMatthias Ringwald case CH_EVT_RCVD_RPN_CMD: 15373deb3ec6SMatthias Ringwald // setup incoming channel 15383deb3ec6SMatthias Ringwald channel = rfcomm_channel_create(multiplexer, service, dlci >> 1); 15393deb3ec6SMatthias Ringwald if (!channel){ 15403deb3ec6SMatthias Ringwald // discard request by sending disconnected mode 15413deb3ec6SMatthias Ringwald multiplexer->send_dm_for_dlci = dlci; 154262b5b741SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 15433deb3ec6SMatthias Ringwald } 15443deb3ec6SMatthias Ringwald break; 15453deb3ec6SMatthias Ringwald default: 15463deb3ec6SMatthias Ringwald break; 15473deb3ec6SMatthias Ringwald } 15483deb3ec6SMatthias Ringwald 15493deb3ec6SMatthias Ringwald if (!channel) { 15503deb3ec6SMatthias Ringwald // discard request by sending disconnected mode 15513deb3ec6SMatthias Ringwald multiplexer->send_dm_for_dlci = dlci; 155262b5b741SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 15533deb3ec6SMatthias Ringwald return; 15543deb3ec6SMatthias Ringwald } 155562b5b741SMatthias Ringwald 15568f904593SMatthias Ringwald int rfcomm_channel_valid = 1; 15578f904593SMatthias Ringwald rfcomm_channel_state_machine_with_channel(channel, event, &rfcomm_channel_valid); 15588f904593SMatthias Ringwald if (rfcomm_channel_valid && rfcomm_channel_ready_to_send(channel)){ 15593232fa30SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 15603232fa30SMatthias Ringwald } 15613deb3ec6SMatthias Ringwald } 15623deb3ec6SMatthias Ringwald 15633deb3ec6SMatthias Ringwald static void rfcomm_channel_packet_handler(rfcomm_multiplexer_t * multiplexer, uint8_t *packet, uint16_t size){ 156454383f05SMatthias Ringwald 156554383f05SMatthias Ringwald UNUSED(size); // ok: fixed format messages 15663deb3ec6SMatthias Ringwald 15673deb3ec6SMatthias Ringwald // rfcomm: (0) addr [76543 server channel] [2 direction: initiator uses 1] [1 C/R: CMD by initiator = 1] [0 EA=1] 15683deb3ec6SMatthias Ringwald const uint8_t frame_dlci = packet[0] >> 2; 15693deb3ec6SMatthias Ringwald uint8_t message_dlci; // used by commands in UIH(_PF) packets 15703deb3ec6SMatthias Ringwald uint8_t message_len; // " 15713deb3ec6SMatthias Ringwald 15723deb3ec6SMatthias Ringwald // rfcomm: (1) command/control 15733deb3ec6SMatthias Ringwald // -- credits_offset = 1 if command == BT_RFCOMM_UIH_PF 15743deb3ec6SMatthias Ringwald const uint8_t credit_offset = ((packet[1] & BT_RFCOMM_UIH_PF) == BT_RFCOMM_UIH_PF) ? 1 : 0; // credits for uih_pf frames 15753deb3ec6SMatthias Ringwald // rfcomm: (2) length. if bit 0 is cleared, 2 byte length is used. (little endian) 15763deb3ec6SMatthias Ringwald const uint8_t length_offset = (packet[2] & 1) ^ 1; // to be used for pos >= 3 15773deb3ec6SMatthias Ringwald // rfcomm: (3+length_offset) credits if credits_offset == 1 15783deb3ec6SMatthias Ringwald // rfcomm: (3+length_offest+credits_offset) 15793deb3ec6SMatthias Ringwald const uint8_t payload_offset = 3 + length_offset + credit_offset; 15803deb3ec6SMatthias Ringwald 15813deb3ec6SMatthias Ringwald rfcomm_channel_event_t event; 15823deb3ec6SMatthias Ringwald rfcomm_channel_event_pn_t event_pn; 15833deb3ec6SMatthias Ringwald rfcomm_channel_event_rpn_t event_rpn; 15843deb3ec6SMatthias Ringwald rfcomm_channel_event_msc_t event_msc; 15853deb3ec6SMatthias Ringwald 15863deb3ec6SMatthias Ringwald // switch by rfcomm message type 15873deb3ec6SMatthias Ringwald switch(packet[1]) { 15883deb3ec6SMatthias Ringwald 15893deb3ec6SMatthias Ringwald case BT_RFCOMM_SABM: 15903deb3ec6SMatthias Ringwald event.type = CH_EVT_RCVD_SABM; 15913deb3ec6SMatthias Ringwald log_info("Received SABM #%u", frame_dlci); 15923232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, frame_dlci, &event); 15933deb3ec6SMatthias Ringwald break; 15943deb3ec6SMatthias Ringwald 15953deb3ec6SMatthias Ringwald case BT_RFCOMM_UA: 15963deb3ec6SMatthias Ringwald event.type = CH_EVT_RCVD_UA; 15973deb3ec6SMatthias Ringwald log_info("Received UA #%u",frame_dlci); 15983232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, frame_dlci, &event); 15993deb3ec6SMatthias Ringwald break; 16003deb3ec6SMatthias Ringwald 16013deb3ec6SMatthias Ringwald case BT_RFCOMM_DISC: 16023deb3ec6SMatthias Ringwald event.type = CH_EVT_RCVD_DISC; 16033232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, frame_dlci, &event); 16043deb3ec6SMatthias Ringwald break; 16053deb3ec6SMatthias Ringwald 16063deb3ec6SMatthias Ringwald case BT_RFCOMM_DM: 16073deb3ec6SMatthias Ringwald case BT_RFCOMM_DM_PF: 16083deb3ec6SMatthias Ringwald event.type = CH_EVT_RCVD_DM; 16093232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, frame_dlci, &event); 16103deb3ec6SMatthias Ringwald break; 16113deb3ec6SMatthias Ringwald 16123deb3ec6SMatthias Ringwald case BT_RFCOMM_UIH_PF: 16133deb3ec6SMatthias Ringwald case BT_RFCOMM_UIH: 16143deb3ec6SMatthias Ringwald 16153deb3ec6SMatthias Ringwald message_len = packet[payload_offset+1] >> 1; 16163deb3ec6SMatthias Ringwald 16173deb3ec6SMatthias Ringwald switch (packet[payload_offset]) { 16183deb3ec6SMatthias Ringwald case BT_RFCOMM_PN_CMD: 16193deb3ec6SMatthias Ringwald message_dlci = packet[payload_offset+2]; 16203deb3ec6SMatthias Ringwald event_pn.super.type = CH_EVT_RCVD_PN; 16213deb3ec6SMatthias Ringwald event_pn.priority = packet[payload_offset+4]; 1622f8fbdce0SMatthias Ringwald event_pn.max_frame_size = little_endian_read_16(packet, payload_offset+6); 16233deb3ec6SMatthias Ringwald event_pn.credits_outgoing = packet[payload_offset+9]; 16243deb3ec6SMatthias Ringwald log_info("Received UIH Parameter Negotiation Command for #%u, credits %u", 16253deb3ec6SMatthias Ringwald message_dlci, event_pn.credits_outgoing); 16263232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, message_dlci, (rfcomm_channel_event_t*) &event_pn); 16273deb3ec6SMatthias Ringwald break; 16283deb3ec6SMatthias Ringwald 16293deb3ec6SMatthias Ringwald case BT_RFCOMM_PN_RSP: 16303deb3ec6SMatthias Ringwald message_dlci = packet[payload_offset+2]; 16313deb3ec6SMatthias Ringwald event_pn.super.type = CH_EVT_RCVD_PN_RSP; 16323deb3ec6SMatthias Ringwald event_pn.priority = packet[payload_offset+4]; 1633f8fbdce0SMatthias Ringwald event_pn.max_frame_size = little_endian_read_16(packet, payload_offset+6); 16343deb3ec6SMatthias Ringwald event_pn.credits_outgoing = packet[payload_offset+9]; 16353deb3ec6SMatthias Ringwald log_info("Received UIH Parameter Negotiation Response max frame %u, credits %u", 16363deb3ec6SMatthias Ringwald event_pn.max_frame_size, event_pn.credits_outgoing); 16373232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, message_dlci, (rfcomm_channel_event_t*) &event_pn); 16383deb3ec6SMatthias Ringwald break; 16393deb3ec6SMatthias Ringwald 16403deb3ec6SMatthias Ringwald case BT_RFCOMM_MSC_CMD: 16413deb3ec6SMatthias Ringwald message_dlci = packet[payload_offset+2] >> 2; 16423deb3ec6SMatthias Ringwald event_msc.super.type = CH_EVT_RCVD_MSC_CMD; 16433deb3ec6SMatthias Ringwald event_msc.modem_status = packet[payload_offset+3]; 16443deb3ec6SMatthias Ringwald log_info("Received MSC CMD for #%u, ", message_dlci); 16453232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, message_dlci, (rfcomm_channel_event_t*) &event_msc); 16463deb3ec6SMatthias Ringwald break; 16473deb3ec6SMatthias Ringwald 16483deb3ec6SMatthias Ringwald case BT_RFCOMM_MSC_RSP: 16493deb3ec6SMatthias Ringwald message_dlci = packet[payload_offset+2] >> 2; 16503deb3ec6SMatthias Ringwald event.type = CH_EVT_RCVD_MSC_RSP; 16513deb3ec6SMatthias Ringwald log_info("Received MSC RSP for #%u", message_dlci); 16523232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, message_dlci, &event); 16533deb3ec6SMatthias Ringwald break; 16543deb3ec6SMatthias Ringwald 16553deb3ec6SMatthias Ringwald case BT_RFCOMM_RPN_CMD: 16563deb3ec6SMatthias Ringwald message_dlci = packet[payload_offset+2] >> 2; 16573deb3ec6SMatthias Ringwald switch (message_len){ 16583deb3ec6SMatthias Ringwald case 1: 16593deb3ec6SMatthias Ringwald log_info("Received Remote Port Negotiation Request for #%u", message_dlci); 16603deb3ec6SMatthias Ringwald event.type = CH_EVT_RCVD_RPN_REQ; 16613232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, message_dlci, &event); 16623deb3ec6SMatthias Ringwald break; 16633deb3ec6SMatthias Ringwald case 8: 16643deb3ec6SMatthias Ringwald log_info("Received Remote Port Negotiation Update for #%u", message_dlci); 16653deb3ec6SMatthias Ringwald event_rpn.super.type = CH_EVT_RCVD_RPN_CMD; 16663deb3ec6SMatthias Ringwald event_rpn.data = *(rfcomm_rpn_data_t*) &packet[payload_offset+3]; 16673232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, message_dlci, (rfcomm_channel_event_t*) &event_rpn); 16683deb3ec6SMatthias Ringwald break; 16693deb3ec6SMatthias Ringwald default: 16703deb3ec6SMatthias Ringwald break; 16713deb3ec6SMatthias Ringwald } 16723deb3ec6SMatthias Ringwald break; 16733deb3ec6SMatthias Ringwald 16743deb3ec6SMatthias Ringwald case BT_RFCOMM_RPN_RSP: 16753deb3ec6SMatthias Ringwald log_info("Received RPN response"); 16763deb3ec6SMatthias Ringwald break; 16773deb3ec6SMatthias Ringwald 16783deb3ec6SMatthias Ringwald case BT_RFCOMM_RLS_CMD: { 16793deb3ec6SMatthias Ringwald log_info("Received RLS command"); 16803deb3ec6SMatthias Ringwald message_dlci = packet[payload_offset+2] >> 2; 16813deb3ec6SMatthias Ringwald rfcomm_channel_event_rls_t event_rls; 16823deb3ec6SMatthias Ringwald event_rls.super.type = CH_EVT_RCVD_RLS_CMD; 16833deb3ec6SMatthias Ringwald event_rls.line_status = packet[payload_offset+3]; 16843232fa30SMatthias Ringwald rfcomm_channel_state_machine_with_dlci(multiplexer, message_dlci, (rfcomm_channel_event_t*) &event_rls); 16853deb3ec6SMatthias Ringwald break; 16863deb3ec6SMatthias Ringwald } 16873deb3ec6SMatthias Ringwald 16883deb3ec6SMatthias Ringwald case BT_RFCOMM_RLS_RSP: 16893deb3ec6SMatthias Ringwald log_info("Received RLS response"); 16903deb3ec6SMatthias Ringwald break; 16913deb3ec6SMatthias Ringwald 16923deb3ec6SMatthias Ringwald // Following commands are handled by rfcomm_multiplexer_l2cap_packet_handler 16933deb3ec6SMatthias Ringwald // case BT_RFCOMM_TEST_CMD: 16943deb3ec6SMatthias Ringwald // case BT_RFCOMM_FCOFF_CMD: 16953deb3ec6SMatthias Ringwald // case BT_RFCOMM_FCON_CMD: 16963deb3ec6SMatthias Ringwald // everything else is an not supported command 16973deb3ec6SMatthias Ringwald default: { 16983deb3ec6SMatthias Ringwald log_error("Received unknown UIH command packet - 0x%02x", packet[payload_offset]); 16993deb3ec6SMatthias Ringwald multiplexer->nsc_command = packet[payload_offset]; 17003deb3ec6SMatthias Ringwald break; 17013deb3ec6SMatthias Ringwald } 17023deb3ec6SMatthias Ringwald } 17033deb3ec6SMatthias Ringwald break; 17043deb3ec6SMatthias Ringwald 17053deb3ec6SMatthias Ringwald default: 17063deb3ec6SMatthias Ringwald log_error("Received unknown RFCOMM message type %x", packet[1]); 17073deb3ec6SMatthias Ringwald break; 17083deb3ec6SMatthias Ringwald } 17093deb3ec6SMatthias Ringwald 17103deb3ec6SMatthias Ringwald // trigger next action - example W4_PN_RSP: transition to SEND_SABM which only depends on "can send" 171162b5b741SMatthias Ringwald if (rfcomm_multiplexer_ready_to_send(multiplexer)){ 171262b5b741SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 171362b5b741SMatthias Ringwald } 17143deb3ec6SMatthias Ringwald } 17153deb3ec6SMatthias Ringwald 1716457b5cb1SMatthias Ringwald static void rfcomm_packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size){ 17173deb3ec6SMatthias Ringwald 17180d78ab98SMatthias Ringwald if (packet_type == HCI_EVENT_PACKET){ 17190d78ab98SMatthias Ringwald rfcomm_hci_event_handler(packet, size); 17200d78ab98SMatthias Ringwald return; 17213deb3ec6SMatthias Ringwald } 17223deb3ec6SMatthias Ringwald 17230d78ab98SMatthias Ringwald // we only handle l2cap packets for: 17240d78ab98SMatthias Ringwald if (packet_type != L2CAP_DATA_PACKET) return; 17250d78ab98SMatthias Ringwald 17260d78ab98SMatthias Ringwald // - multiplexer itself 17270d78ab98SMatthias Ringwald int handled = rfcomm_multiplexer_l2cap_packet_handler(channel, packet, size); 17280d78ab98SMatthias Ringwald 1729b35818ceSMatthias Ringwald if (handled) return; 17303deb3ec6SMatthias Ringwald 173111d526b3SMatthias Ringwald // - channel over open multiplexer 17323deb3ec6SMatthias Ringwald rfcomm_multiplexer_t * multiplexer = rfcomm_multiplexer_for_l2cap_cid(channel); 1733505f1c30SMatthias Ringwald if ( (multiplexer == NULL) || (multiplexer->state != RFCOMM_MULTIPLEXER_OPEN)) return; 17343deb3ec6SMatthias Ringwald 17353deb3ec6SMatthias Ringwald // channel data ? 17363deb3ec6SMatthias Ringwald // rfcomm: (0) addr [76543 server channel] [2 direction: initiator uses 1] [1 C/R: CMD by initiator = 1] [0 EA=1] 17373deb3ec6SMatthias Ringwald const uint8_t frame_dlci = packet[0] >> 2; 17383deb3ec6SMatthias Ringwald 1739c1ab6cc1SMatthias Ringwald if (frame_dlci && ((packet[1] == BT_RFCOMM_UIH) || (packet[1] == BT_RFCOMM_UIH_PF))) { 17403deb3ec6SMatthias Ringwald rfcomm_channel_packet_handler_uih(multiplexer, packet, size); 17413deb3ec6SMatthias Ringwald return; 17423deb3ec6SMatthias Ringwald } 17433deb3ec6SMatthias Ringwald 17443deb3ec6SMatthias Ringwald rfcomm_channel_packet_handler(multiplexer, packet, size); 17453deb3ec6SMatthias Ringwald } 17463deb3ec6SMatthias Ringwald 17473deb3ec6SMatthias Ringwald static int rfcomm_channel_ready_for_open(rfcomm_channel_t *channel){ 17483deb3ec6SMatthias Ringwald // note: exchanging MSC isn't neccessary to consider channel open 17493deb3ec6SMatthias Ringwald // note: having outgoing credits is also not necessary to consider channel open 17503deb3ec6SMatthias Ringwald // log_info("rfcomm_channel_ready_for_open state %u, flags needed %04x, current %04x, rf credits %u, l2cap credits %u ", channel->state, RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_RSP|RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_RSP|RFCOMM_CHANNEL_STATE_VAR_SENT_CREDITS, channel->state_var, channel->credits_outgoing, channel->multiplexer->l2cap_credits); 17513deb3ec6SMatthias Ringwald // if ((channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_RSP) == 0) return 0; 17523deb3ec6SMatthias Ringwald // if (channel->credits_outgoing == 0) return 0; 17531e35c04dSMatthias Ringwald log_info("rfcomm_channel_ready_for_open state %u, flags needed %04x, current %04x, rf credits %u", 17541e35c04dSMatthias Ringwald channel->state, RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_RSP, channel->state_var, channel->credits_outgoing); 17553deb3ec6SMatthias Ringwald if ((channel->state_var & RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_RSP) == 0) return 0; 17563deb3ec6SMatthias Ringwald if ((channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SENT_CREDITS) == 0) return 0; 17573deb3ec6SMatthias Ringwald 17583deb3ec6SMatthias Ringwald return 1; 17593deb3ec6SMatthias Ringwald } 17603deb3ec6SMatthias Ringwald 17613deb3ec6SMatthias Ringwald static int rfcomm_channel_ready_for_incoming_dlc_setup(rfcomm_channel_t * channel){ 17623deb3ec6SMatthias Ringwald log_info("rfcomm_channel_ready_for_incoming_dlc_setup state var %04x", channel->state_var); 17633deb3ec6SMatthias Ringwald // Client accept and SABM/UA is required, PN RSP is needed if PN was received 17643deb3ec6SMatthias Ringwald if ((channel->state_var & RFCOMM_CHANNEL_STATE_VAR_CLIENT_ACCEPTED) == 0) return 0; 17653deb3ec6SMatthias Ringwald if ((channel->state_var & RFCOMM_CHANNEL_STATE_VAR_RCVD_SABM ) == 0) return 0; 17663deb3ec6SMatthias Ringwald if ((channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SEND_UA ) != 0) return 0; 17673deb3ec6SMatthias Ringwald if ((channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP ) != 0) return 0; 17683deb3ec6SMatthias Ringwald return 1; 17693deb3ec6SMatthias Ringwald } 17703deb3ec6SMatthias Ringwald 17713deb3ec6SMatthias Ringwald inline static void rfcomm_channel_state_add(rfcomm_channel_t *channel, RFCOMM_CHANNEL_STATE_VAR event){ 17723deb3ec6SMatthias Ringwald channel->state_var = (RFCOMM_CHANNEL_STATE_VAR) (channel->state_var | event); 17733deb3ec6SMatthias Ringwald } 17743deb3ec6SMatthias Ringwald inline static void rfcomm_channel_state_remove(rfcomm_channel_t *channel, RFCOMM_CHANNEL_STATE_VAR event){ 17753deb3ec6SMatthias Ringwald channel->state_var = (RFCOMM_CHANNEL_STATE_VAR) (channel->state_var & ~event); 17763deb3ec6SMatthias Ringwald } 17773deb3ec6SMatthias Ringwald 177862b5b741SMatthias Ringwald static int rfcomm_channel_ready_to_send(rfcomm_channel_t * channel){ 177962b5b741SMatthias Ringwald switch (channel->state){ 178062b5b741SMatthias Ringwald case RFCOMM_CHANNEL_SEND_UIH_PN: 178162b5b741SMatthias Ringwald log_debug("ch-ready: state %u", channel->state); 178262b5b741SMatthias Ringwald return 1; 178362b5b741SMatthias Ringwald case RFCOMM_CHANNEL_SEND_SABM_W4_UA: 178462b5b741SMatthias Ringwald log_debug("ch-ready: state %u", channel->state); 178562b5b741SMatthias Ringwald return 1; 178662b5b741SMatthias Ringwald case RFCOMM_CHANNEL_SEND_UA_AFTER_DISC: 178762b5b741SMatthias Ringwald log_debug("ch-ready: state %u", channel->state); 178862b5b741SMatthias Ringwald return 1; 178962b5b741SMatthias Ringwald case RFCOMM_CHANNEL_SEND_DISC: 179062b5b741SMatthias Ringwald log_debug("ch-ready: state %u", channel->state); 179162b5b741SMatthias Ringwald return 1; 179262b5b741SMatthias Ringwald case RFCOMM_CHANNEL_SEND_DM: 179362b5b741SMatthias Ringwald log_debug("ch-ready: state %u", channel->state); 179462b5b741SMatthias Ringwald return 1; 179562b5b741SMatthias Ringwald case RFCOMM_CHANNEL_OPEN: 179662b5b741SMatthias Ringwald if (channel->new_credits_incoming) { 179762b5b741SMatthias Ringwald log_debug("ch-ready: channel open & new_credits_incoming") ; 179862b5b741SMatthias Ringwald return 1; 179962b5b741SMatthias Ringwald } 180062b5b741SMatthias Ringwald break; 18018ed5c2eaSMatthias Ringwald case RFCOMM_CHANNEL_DLC_SETUP: 18028ed5c2eaSMatthias Ringwald if (channel->state_var & ( 18038ed5c2eaSMatthias Ringwald RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_CMD | 18048ed5c2eaSMatthias Ringwald RFCOMM_CHANNEL_STATE_VAR_SEND_CREDITS 18058ed5c2eaSMatthias Ringwald )) { 18068ed5c2eaSMatthias Ringwald log_debug("ch-ready: channel dlc setup & send msc cmd or send credits") ; 18078ed5c2eaSMatthias Ringwald return 1; 18088ed5c2eaSMatthias Ringwald } 18098ed5c2eaSMatthias Ringwald break; 18108ed5c2eaSMatthias Ringwald 181162b5b741SMatthias Ringwald default: 181262b5b741SMatthias Ringwald break; 181362b5b741SMatthias Ringwald } 181462b5b741SMatthias Ringwald 181562b5b741SMatthias Ringwald if (channel->state_var & ( 181662b5b741SMatthias Ringwald RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP | 181762b5b741SMatthias Ringwald RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_INFO | 181862b5b741SMatthias Ringwald RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_RSP | 181962b5b741SMatthias Ringwald RFCOMM_CHANNEL_STATE_VAR_SEND_UA | 18208ed5c2eaSMatthias Ringwald RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_RSP 182162b5b741SMatthias Ringwald )){ 182262b5b741SMatthias Ringwald log_debug("ch-ready: state %x, state var %x", channel->state, channel->state_var); 182362b5b741SMatthias Ringwald return 1; 182462b5b741SMatthias Ringwald } 182562b5b741SMatthias Ringwald 182662b5b741SMatthias Ringwald if (channel->rls_line_status != RFCOMM_RLS_STATUS_INVALID) { 182762b5b741SMatthias Ringwald log_debug("ch-ready: rls_line_status"); 182862b5b741SMatthias Ringwald return 1; 182962b5b741SMatthias Ringwald } 183062b5b741SMatthias Ringwald 183162b5b741SMatthias Ringwald return 0; 183262b5b741SMatthias Ringwald } 183362b5b741SMatthias Ringwald 183462b5b741SMatthias Ringwald 18358f904593SMatthias Ringwald static void rfcomm_channel_state_machine_with_channel(rfcomm_channel_t *channel, const rfcomm_channel_event_t *event, int * out_channel_valid){ 18363deb3ec6SMatthias Ringwald 18373232fa30SMatthias Ringwald // log_info("rfcomm_channel_state_machine_with_channel: state %u, state_var %04x, event %u", channel->state, channel->state_var ,event->type); 18383deb3ec6SMatthias Ringwald 18398f904593SMatthias Ringwald // channel != NULL -> channel valid 18408f904593SMatthias Ringwald *out_channel_valid = 1; 18418f904593SMatthias Ringwald 18423deb3ec6SMatthias Ringwald rfcomm_multiplexer_t *multiplexer = channel->multiplexer; 18433deb3ec6SMatthias Ringwald 18443deb3ec6SMatthias Ringwald // TODO: integrate in common switch 18453deb3ec6SMatthias Ringwald if (event->type == CH_EVT_RCVD_DISC){ 18463deb3ec6SMatthias Ringwald rfcomm_emit_channel_closed(channel); 18473deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_SEND_UA_AFTER_DISC; 18483deb3ec6SMatthias Ringwald return; 18493deb3ec6SMatthias Ringwald } 18503deb3ec6SMatthias Ringwald 18513deb3ec6SMatthias Ringwald // TODO: integrate in common switch 18523deb3ec6SMatthias Ringwald if (event->type == CH_EVT_RCVD_DM){ 18533deb3ec6SMatthias Ringwald log_info("Received DM message for #%u", channel->dlci); 18543deb3ec6SMatthias Ringwald log_info("-> Closing channel locally for #%u", channel->dlci); 185553a6aff0SMatthias Ringwald rfcomm_channel_emit_final_event(channel, ERROR_CODE_CONNECTION_REJECTED_DUE_TO_LIMITED_RESOURCES); 18563deb3ec6SMatthias Ringwald rfcomm_channel_finalize(channel); 18578f904593SMatthias Ringwald *out_channel_valid = 0; 18583deb3ec6SMatthias Ringwald return; 18593deb3ec6SMatthias Ringwald } 18603deb3ec6SMatthias Ringwald 18613deb3ec6SMatthias Ringwald // remote port negotiation command - just accept everything for now 18623deb3ec6SMatthias Ringwald // 18633deb3ec6SMatthias Ringwald // "The RPN command can be used before a new DLC is opened and should be used whenever the port settings change." 18643deb3ec6SMatthias Ringwald // "The RPN command is specified as optional in TS 07.10, but it is mandatory to recognize and respond to it in RFCOMM. 18653deb3ec6SMatthias Ringwald // (Although the handling of individual settings are implementation-dependent.)" 18663deb3ec6SMatthias Ringwald // 18673deb3ec6SMatthias Ringwald 18683deb3ec6SMatthias Ringwald // TODO: integrate in common switch 18693deb3ec6SMatthias Ringwald if (event->type == CH_EVT_RCVD_RPN_CMD){ 18703deb3ec6SMatthias Ringwald // control port parameters 18713deb3ec6SMatthias Ringwald rfcomm_channel_event_rpn_t *event_rpn = (rfcomm_channel_event_rpn_t*) event; 18723deb3ec6SMatthias Ringwald rfcomm_rpn_data_update(&channel->rpn_data, &event_rpn->data); 18733deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_RSP); 18743deb3ec6SMatthias Ringwald // notify client about new settings 18753deb3ec6SMatthias Ringwald rfcomm_emit_port_configuration(channel); 18763deb3ec6SMatthias Ringwald return; 18773deb3ec6SMatthias Ringwald } 18783deb3ec6SMatthias Ringwald 18793deb3ec6SMatthias Ringwald // TODO: integrate in common switch 18803deb3ec6SMatthias Ringwald if (event->type == CH_EVT_RCVD_RPN_REQ){ 18813deb3ec6SMatthias Ringwald // no values got accepted (no values have beens sent) 18823deb3ec6SMatthias Ringwald channel->rpn_data.parameter_mask_0 = 0x00; 18833deb3ec6SMatthias Ringwald channel->rpn_data.parameter_mask_1 = 0x00; 18843deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_RSP); 18853deb3ec6SMatthias Ringwald return; 18863deb3ec6SMatthias Ringwald } 18873deb3ec6SMatthias Ringwald 18883deb3ec6SMatthias Ringwald if (event->type == CH_EVT_RCVD_RLS_CMD){ 18893deb3ec6SMatthias Ringwald rfcomm_channel_event_rls_t * event_rls = (rfcomm_channel_event_rls_t*) event; 18903deb3ec6SMatthias Ringwald channel->rls_line_status = event_rls->line_status & 0x0f; 18913deb3ec6SMatthias Ringwald log_info("CH_EVT_RCVD_RLS_CMD setting line status to 0x%0x", channel->rls_line_status); 18923deb3ec6SMatthias Ringwald rfcomm_emit_remote_line_status(channel, event_rls->line_status); 18933deb3ec6SMatthias Ringwald return; 18943deb3ec6SMatthias Ringwald } 18953deb3ec6SMatthias Ringwald 189662b5b741SMatthias Ringwald // TODO: integrate in common switch 18973deb3ec6SMatthias Ringwald if (event->type == CH_EVT_READY_TO_SEND){ 18983deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_RSP){ 18993deb3ec6SMatthias Ringwald log_info("Sending Remote Port Negotiation RSP for #%u", channel->dlci); 19003deb3ec6SMatthias Ringwald rfcomm_channel_state_remove(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_RSP); 19013deb3ec6SMatthias Ringwald rfcomm_send_uih_rpn_rsp(multiplexer, channel->dlci, &channel->rpn_data); 19023deb3ec6SMatthias Ringwald return; 19033deb3ec6SMatthias Ringwald } 19043deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_RSP){ 19053deb3ec6SMatthias Ringwald log_info("Sending MSC RSP for #%u", channel->dlci); 19063deb3ec6SMatthias Ringwald rfcomm_channel_state_remove(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_RSP); 19073deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_RSP); 19083deb3ec6SMatthias Ringwald rfcomm_send_uih_msc_rsp(multiplexer, channel->dlci, 0x8d); // ea=1,fc=0,rtc=1,rtr=1,ic=0,dv=1 19093deb3ec6SMatthias Ringwald return; 19103deb3ec6SMatthias Ringwald } 19113deb3ec6SMatthias Ringwald if (channel->rls_line_status != RFCOMM_RLS_STATUS_INVALID){ 19123deb3ec6SMatthias Ringwald log_info("Sending RLS RSP 0x%0x", channel->rls_line_status); 19133deb3ec6SMatthias Ringwald uint8_t line_status = channel->rls_line_status; 19143deb3ec6SMatthias Ringwald channel->rls_line_status = RFCOMM_RLS_STATUS_INVALID; 19153deb3ec6SMatthias Ringwald rfcomm_send_uih_rls_rsp(multiplexer, channel->dlci, line_status); 19163deb3ec6SMatthias Ringwald return; 19173deb3ec6SMatthias Ringwald } 19183deb3ec6SMatthias Ringwald } 19193deb3ec6SMatthias Ringwald 19203deb3ec6SMatthias Ringwald // emit MSC status to app 19213deb3ec6SMatthias Ringwald if (event->type == CH_EVT_RCVD_MSC_CMD){ 19223deb3ec6SMatthias Ringwald // notify client about new settings 19233deb3ec6SMatthias Ringwald rfcomm_channel_event_msc_t *event_msc = (rfcomm_channel_event_msc_t*) event; 1924ee5d3a37SMatthias Ringwald uint8_t modem_status_event[5]; 19253deb3ec6SMatthias Ringwald modem_status_event[0] = RFCOMM_EVENT_REMOTE_MODEM_STATUS; 1926ee5d3a37SMatthias Ringwald modem_status_event[1] = sizeof(event) - 2; 1927ee5d3a37SMatthias Ringwald little_endian_store_16(modem_status_event, 2, channel->rfcomm_cid); 1928ee5d3a37SMatthias Ringwald modem_status_event[4] = event_msc->modem_status; 1929fc376368SMatthias Ringwald (channel->packet_handler)(HCI_EVENT_PACKET, channel->rfcomm_cid, (uint8_t*)&modem_status_event, sizeof(modem_status_event)); 19303deb3ec6SMatthias Ringwald // no return, MSC_CMD will be handled by state machine below 19313deb3ec6SMatthias Ringwald } 19323deb3ec6SMatthias Ringwald 19333deb3ec6SMatthias Ringwald rfcomm_channel_event_pn_t * event_pn = (rfcomm_channel_event_pn_t*) event; 19343deb3ec6SMatthias Ringwald 19353deb3ec6SMatthias Ringwald switch (channel->state) { 19363deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_CLOSED: 19373deb3ec6SMatthias Ringwald switch (event->type){ 19383deb3ec6SMatthias Ringwald case CH_EVT_RCVD_SABM: 19393deb3ec6SMatthias Ringwald log_info("-> Inform app"); 19403deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_RCVD_SABM); 19413deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_INCOMING_SETUP; 19423deb3ec6SMatthias Ringwald rfcomm_emit_connection_request(channel); 19433deb3ec6SMatthias Ringwald break; 19443deb3ec6SMatthias Ringwald case CH_EVT_RCVD_PN: 19453deb3ec6SMatthias Ringwald rfcomm_channel_accept_pn(channel, event_pn); 19463deb3ec6SMatthias Ringwald log_info("-> Inform app"); 19473deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_RCVD_PN); 19483deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_INCOMING_SETUP; 19493deb3ec6SMatthias Ringwald rfcomm_emit_connection_request(channel); 19503deb3ec6SMatthias Ringwald break; 19513deb3ec6SMatthias Ringwald default: 19523deb3ec6SMatthias Ringwald break; 19533deb3ec6SMatthias Ringwald } 19543deb3ec6SMatthias Ringwald break; 19553deb3ec6SMatthias Ringwald 19563deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_INCOMING_SETUP: 19573deb3ec6SMatthias Ringwald switch (event->type){ 19583deb3ec6SMatthias Ringwald case CH_EVT_RCVD_SABM: 19593deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_RCVD_SABM); 19603deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_CLIENT_ACCEPTED) { 19613deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_UA); 19623deb3ec6SMatthias Ringwald } 19633deb3ec6SMatthias Ringwald break; 19643deb3ec6SMatthias Ringwald case CH_EVT_RCVD_PN: 19653deb3ec6SMatthias Ringwald rfcomm_channel_accept_pn(channel, event_pn); 19663deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_RCVD_PN); 19673deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_CLIENT_ACCEPTED) { 19683deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP); 19693deb3ec6SMatthias Ringwald } 19703deb3ec6SMatthias Ringwald break; 19713deb3ec6SMatthias Ringwald case CH_EVT_READY_TO_SEND: 19723deb3ec6SMatthias Ringwald // if / else if is used to check for state transition after sending 19733deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP){ 19743deb3ec6SMatthias Ringwald log_info("Sending UIH Parameter Negotiation Respond for #%u", channel->dlci); 19753deb3ec6SMatthias Ringwald rfcomm_channel_state_remove(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP); 19763deb3ec6SMatthias Ringwald rfcomm_send_uih_pn_response(multiplexer, channel->dlci, channel->pn_priority, channel->max_frame_size); 19773deb3ec6SMatthias Ringwald } else if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SEND_UA){ 19783deb3ec6SMatthias Ringwald log_info("Sending UA #%u", channel->dlci); 19793deb3ec6SMatthias Ringwald rfcomm_channel_state_remove(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_UA); 19803deb3ec6SMatthias Ringwald rfcomm_send_ua(multiplexer, channel->dlci); 19813deb3ec6SMatthias Ringwald } 19823deb3ec6SMatthias Ringwald if (rfcomm_channel_ready_for_incoming_dlc_setup(channel)){ 19833deb3ec6SMatthias Ringwald log_info("Incomping setup done, requesting send MSC CMD and send Credits"); 19843deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_CMD); 19853deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_CREDITS); 1986daf17d1fSMatthias Ringwald channel->state = RFCOMM_CHANNEL_DLC_SETUP; 19873deb3ec6SMatthias Ringwald } 19883deb3ec6SMatthias Ringwald break; 19893deb3ec6SMatthias Ringwald default: 19903deb3ec6SMatthias Ringwald break; 19913deb3ec6SMatthias Ringwald } 19923deb3ec6SMatthias Ringwald break; 19933deb3ec6SMatthias Ringwald 19943deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_W4_MULTIPLEXER: 19953deb3ec6SMatthias Ringwald switch (event->type) { 19963deb3ec6SMatthias Ringwald case CH_EVT_MULTIPLEXER_READY: 19973deb3ec6SMatthias Ringwald log_info("Muliplexer opened, sending UIH PN next"); 19983deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_SEND_UIH_PN; 19993deb3ec6SMatthias Ringwald break; 20003deb3ec6SMatthias Ringwald default: 20013deb3ec6SMatthias Ringwald break; 20023deb3ec6SMatthias Ringwald } 20033deb3ec6SMatthias Ringwald break; 20043deb3ec6SMatthias Ringwald 20053deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_SEND_UIH_PN: 20063deb3ec6SMatthias Ringwald switch (event->type) { 20073deb3ec6SMatthias Ringwald case CH_EVT_READY_TO_SEND: 2008d9d3c2ecSMatthias Ringwald // update mtu 2009d9d3c2ecSMatthias Ringwald channel->max_frame_size = btstack_min(multiplexer->max_frame_size, channel->max_frame_size); 2010d9d3c2ecSMatthias Ringwald log_info("Sending UIH Parameter Negotiation Command for #%u (channel 0x%p) mtu %u", channel->dlci, channel, channel->max_frame_size ); 20113deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_W4_PN_RSP; 20123deb3ec6SMatthias Ringwald rfcomm_send_uih_pn_command(multiplexer, channel->dlci, channel->max_frame_size); 20133deb3ec6SMatthias Ringwald break; 20143deb3ec6SMatthias Ringwald default: 20153deb3ec6SMatthias Ringwald break; 20163deb3ec6SMatthias Ringwald } 20173deb3ec6SMatthias Ringwald break; 20183deb3ec6SMatthias Ringwald 20193deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_W4_PN_RSP: 20203deb3ec6SMatthias Ringwald switch (event->type){ 20213deb3ec6SMatthias Ringwald case CH_EVT_RCVD_PN_RSP: 20223deb3ec6SMatthias Ringwald // update max frame size 20233deb3ec6SMatthias Ringwald if (channel->max_frame_size > event_pn->max_frame_size) { 20243deb3ec6SMatthias Ringwald channel->max_frame_size = event_pn->max_frame_size; 20253deb3ec6SMatthias Ringwald } 20263deb3ec6SMatthias Ringwald // new credits 20273deb3ec6SMatthias Ringwald channel->credits_outgoing = event_pn->credits_outgoing; 20283deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_SEND_SABM_W4_UA; 20293deb3ec6SMatthias Ringwald break; 20303deb3ec6SMatthias Ringwald default: 20313deb3ec6SMatthias Ringwald break; 20323deb3ec6SMatthias Ringwald } 20333deb3ec6SMatthias Ringwald break; 20343deb3ec6SMatthias Ringwald 20353deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_SEND_SABM_W4_UA: 20363deb3ec6SMatthias Ringwald switch (event->type) { 20373deb3ec6SMatthias Ringwald case CH_EVT_READY_TO_SEND: 20383deb3ec6SMatthias Ringwald log_info("Sending SABM #%u", channel->dlci); 20393deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_W4_UA; 20403deb3ec6SMatthias Ringwald rfcomm_send_sabm(multiplexer, channel->dlci); 20413deb3ec6SMatthias Ringwald break; 20423deb3ec6SMatthias Ringwald default: 20433deb3ec6SMatthias Ringwald break; 20443deb3ec6SMatthias Ringwald } 20453deb3ec6SMatthias Ringwald break; 20463deb3ec6SMatthias Ringwald 20473deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_W4_UA: 20483deb3ec6SMatthias Ringwald switch (event->type){ 20493deb3ec6SMatthias Ringwald case CH_EVT_RCVD_UA: 20503deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_DLC_SETUP; 20513deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_CMD); 20523deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_CREDITS); 20533deb3ec6SMatthias Ringwald break; 20543deb3ec6SMatthias Ringwald default: 20553deb3ec6SMatthias Ringwald break; 20563deb3ec6SMatthias Ringwald } 20573deb3ec6SMatthias Ringwald break; 20583deb3ec6SMatthias Ringwald 20593deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_DLC_SETUP: 20603deb3ec6SMatthias Ringwald switch (event->type){ 20613deb3ec6SMatthias Ringwald case CH_EVT_RCVD_MSC_CMD: 20623deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_CMD); 20633deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_RSP); 20643deb3ec6SMatthias Ringwald break; 20653deb3ec6SMatthias Ringwald case CH_EVT_RCVD_MSC_RSP: 20663deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_RSP); 20673deb3ec6SMatthias Ringwald break; 20683deb3ec6SMatthias Ringwald 20693deb3ec6SMatthias Ringwald case CH_EVT_READY_TO_SEND: 20703deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_CMD){ 20713deb3ec6SMatthias Ringwald log_info("Sending MSC CMD for #%u", channel->dlci); 20723deb3ec6SMatthias Ringwald rfcomm_channel_state_remove(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_CMD); 20733deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_CMD); 20743deb3ec6SMatthias Ringwald rfcomm_send_uih_msc_cmd(multiplexer, channel->dlci , 0x8d); // ea=1,fc=0,rtc=1,rtr=1,ic=0,dv=1 20753deb3ec6SMatthias Ringwald break; 20763deb3ec6SMatthias Ringwald } 20773deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_SEND_CREDITS){ 20783deb3ec6SMatthias Ringwald log_info("Providing credits for #%u", channel->dlci); 20793deb3ec6SMatthias Ringwald rfcomm_channel_state_remove(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_CREDITS); 20803deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SENT_CREDITS); 20813deb3ec6SMatthias Ringwald 20823deb3ec6SMatthias Ringwald if (channel->new_credits_incoming) { 20833deb3ec6SMatthias Ringwald uint8_t new_credits = channel->new_credits_incoming; 20843deb3ec6SMatthias Ringwald channel->new_credits_incoming = 0; 20853deb3ec6SMatthias Ringwald rfcomm_channel_send_credits(channel, new_credits); 20863deb3ec6SMatthias Ringwald } 20873deb3ec6SMatthias Ringwald break; 20883deb3ec6SMatthias Ringwald 20893deb3ec6SMatthias Ringwald } 20903deb3ec6SMatthias Ringwald break; 20913deb3ec6SMatthias Ringwald default: 20923deb3ec6SMatthias Ringwald break; 20933deb3ec6SMatthias Ringwald } 20943deb3ec6SMatthias Ringwald // finally done? 20953deb3ec6SMatthias Ringwald if (rfcomm_channel_ready_for_open(channel)){ 20963deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_OPEN; 20973deb3ec6SMatthias Ringwald rfcomm_channel_opened(channel); 20983deb3ec6SMatthias Ringwald } 20993deb3ec6SMatthias Ringwald break; 21003deb3ec6SMatthias Ringwald 21013deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_OPEN: 21023deb3ec6SMatthias Ringwald switch (event->type){ 21033deb3ec6SMatthias Ringwald case CH_EVT_RCVD_MSC_CMD: 21043deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_RSP); 21053deb3ec6SMatthias Ringwald break; 21063deb3ec6SMatthias Ringwald case CH_EVT_READY_TO_SEND: 21073deb3ec6SMatthias Ringwald if (channel->new_credits_incoming) { 21083deb3ec6SMatthias Ringwald uint8_t new_credits = channel->new_credits_incoming; 21093deb3ec6SMatthias Ringwald channel->new_credits_incoming = 0; 21103deb3ec6SMatthias Ringwald rfcomm_channel_send_credits(channel, new_credits); 21113deb3ec6SMatthias Ringwald break; 21123deb3ec6SMatthias Ringwald } 21133deb3ec6SMatthias Ringwald break; 2114b31d33b2SMatthias Ringwald case CH_EVT_RCVD_CREDITS: 2115b31d33b2SMatthias Ringwald rfcomm_notify_channel_can_send(); 21163deb3ec6SMatthias Ringwald break; 21173deb3ec6SMatthias Ringwald default: 21183deb3ec6SMatthias Ringwald break; 21193deb3ec6SMatthias Ringwald } 21203deb3ec6SMatthias Ringwald break; 21213deb3ec6SMatthias Ringwald 21223deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_SEND_DM: 21233deb3ec6SMatthias Ringwald switch (event->type) { 21243deb3ec6SMatthias Ringwald case CH_EVT_READY_TO_SEND: 21253deb3ec6SMatthias Ringwald log_info("Sending DM_PF for #%u", channel->dlci); 21263deb3ec6SMatthias Ringwald // don't emit channel closed - channel was never open 21273deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_CLOSED; 21283deb3ec6SMatthias Ringwald rfcomm_send_dm_pf(multiplexer, channel->dlci); 21293deb3ec6SMatthias Ringwald rfcomm_channel_finalize(channel); 21308f904593SMatthias Ringwald *out_channel_valid = 0; 21313deb3ec6SMatthias Ringwald break; 21323deb3ec6SMatthias Ringwald default: 21333deb3ec6SMatthias Ringwald break; 21343deb3ec6SMatthias Ringwald } 21353deb3ec6SMatthias Ringwald break; 21363deb3ec6SMatthias Ringwald 21373deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_SEND_DISC: 21383deb3ec6SMatthias Ringwald switch (event->type) { 21393deb3ec6SMatthias Ringwald case CH_EVT_READY_TO_SEND: 214031a59258SMatthias Ringwald channel->state = RFCOMM_CHANNEL_W4_UA_AFTER_DISC; 21413deb3ec6SMatthias Ringwald rfcomm_send_disc(multiplexer, channel->dlci); 21423deb3ec6SMatthias Ringwald break; 21433deb3ec6SMatthias Ringwald default: 21443deb3ec6SMatthias Ringwald break; 21453deb3ec6SMatthias Ringwald } 21463deb3ec6SMatthias Ringwald break; 21473deb3ec6SMatthias Ringwald 214831a59258SMatthias Ringwald case RFCOMM_CHANNEL_W4_UA_AFTER_DISC: 21493deb3ec6SMatthias Ringwald switch (event->type){ 21503deb3ec6SMatthias Ringwald case CH_EVT_RCVD_UA: 21513deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_CLOSED; 21523deb3ec6SMatthias Ringwald rfcomm_emit_channel_closed(channel); 21533deb3ec6SMatthias Ringwald rfcomm_channel_finalize(channel); 21548f904593SMatthias Ringwald *out_channel_valid = 0; 21553deb3ec6SMatthias Ringwald break; 21563deb3ec6SMatthias Ringwald default: 21573deb3ec6SMatthias Ringwald break; 21583deb3ec6SMatthias Ringwald } 21593deb3ec6SMatthias Ringwald break; 21603deb3ec6SMatthias Ringwald 21613deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_SEND_UA_AFTER_DISC: 21623deb3ec6SMatthias Ringwald switch (event->type) { 21633deb3ec6SMatthias Ringwald case CH_EVT_READY_TO_SEND: 21643deb3ec6SMatthias Ringwald log_info("Sending UA after DISC for #%u", channel->dlci); 21653deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_CLOSED; 21663deb3ec6SMatthias Ringwald rfcomm_send_ua(multiplexer, channel->dlci); 21673deb3ec6SMatthias Ringwald rfcomm_channel_finalize(channel); 21688f904593SMatthias Ringwald *out_channel_valid = 0; 21693deb3ec6SMatthias Ringwald break; 21703deb3ec6SMatthias Ringwald default: 21713deb3ec6SMatthias Ringwald break; 21723deb3ec6SMatthias Ringwald } 21733deb3ec6SMatthias Ringwald break; 21743deb3ec6SMatthias Ringwald 21753deb3ec6SMatthias Ringwald default: 21763deb3ec6SMatthias Ringwald break; 21773deb3ec6SMatthias Ringwald } 21783deb3ec6SMatthias Ringwald } 21793deb3ec6SMatthias Ringwald 21803deb3ec6SMatthias Ringwald // MARK: RFCOMM BTstack API 21813deb3ec6SMatthias Ringwald 21823deb3ec6SMatthias Ringwald void rfcomm_init(void){ 218378315a58SMatthias Ringwald rfcomm_security_level = gap_get_security_level(); 21841ac69172SMatthias Ringwald #ifdef RFCOMM_USE_ERTM 21851ac69172SMatthias Ringwald rfcomm_ertm_id = 0; 21861ac69172SMatthias Ringwald #endif 21871ac69172SMatthias Ringwald } 21881ac69172SMatthias Ringwald 21891ac69172SMatthias Ringwald void rfcomm_deinit(void){ 219041fcd84fSMatthias Ringwald rfcomm_client_cid_generator = 0; 219141fcd84fSMatthias Ringwald rfcomm_multiplexers = NULL; 219241fcd84fSMatthias Ringwald rfcomm_services = NULL; 219341fcd84fSMatthias Ringwald rfcomm_channels = NULL; 21941ac69172SMatthias Ringwald #ifdef RFCOMM_USE_ERTM 21951ac69172SMatthias Ringwald rfcomm_ertm_request_callback = NULL; 21961ac69172SMatthias Ringwald rfcomm_ertm_released_callback = NULL; 21971ac69172SMatthias Ringwald #endif 21983deb3ec6SMatthias Ringwald } 21993deb3ec6SMatthias Ringwald 22003deb3ec6SMatthias Ringwald void rfcomm_set_required_security_level(gap_security_level_t security_level){ 22013deb3ec6SMatthias Ringwald rfcomm_security_level = security_level; 22023deb3ec6SMatthias Ringwald } 22033deb3ec6SMatthias Ringwald 22043deb3ec6SMatthias Ringwald int rfcomm_can_send_packet_now(uint16_t rfcomm_cid){ 22053deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 22063deb3ec6SMatthias Ringwald if (!channel){ 2207374709acSMilanka Ringwald log_error("send cid 0x%02x doesn't exist!", rfcomm_cid); 2208b31d33b2SMatthias Ringwald return 0; 22093deb3ec6SMatthias Ringwald } 22100b9d7e78SMatthias Ringwald return rfcomm_channel_can_send(channel); 22113deb3ec6SMatthias Ringwald } 22123deb3ec6SMatthias Ringwald 2213225a2744SMatthias Ringwald void rfcomm_request_can_send_now_event(uint16_t rfcomm_cid){ 2214225a2744SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 2215225a2744SMatthias Ringwald if (!channel){ 2216374709acSMilanka Ringwald log_error("send cid 0x%02x doesn't exist!", rfcomm_cid); 2217225a2744SMatthias Ringwald return; 2218225a2744SMatthias Ringwald } 2219225a2744SMatthias Ringwald channel->waiting_for_can_send_now = 1; 22204fea3822SMatthias Ringwald l2cap_request_can_send_now_event(channel->multiplexer->l2cap_cid); 2221225a2744SMatthias Ringwald } 2222225a2744SMatthias Ringwald 22233deb3ec6SMatthias Ringwald static int rfcomm_assert_send_valid(rfcomm_channel_t * channel , uint16_t len){ 22243deb3ec6SMatthias Ringwald if (len > channel->max_frame_size){ 2225374709acSMilanka Ringwald log_error("send cid 0x%02x, rfcomm data lenght exceeds MTU!", channel->rfcomm_cid); 22263deb3ec6SMatthias Ringwald return RFCOMM_DATA_LEN_EXCEEDS_MTU; 22273deb3ec6SMatthias Ringwald } 22283deb3ec6SMatthias Ringwald 22292e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 22302e98e947SMatthias Ringwald if (len > rfcomm_max_frame_size_for_l2cap_mtu(sizeof(outgoing_buffer))){ 2231374709acSMilanka Ringwald log_error("send cid 0x%02x, length exceeds outgoing rfcomm_out_buffer", channel->rfcomm_cid); 22322e98e947SMatthias Ringwald return RFCOMM_DATA_LEN_EXCEEDS_MTU; 22332e98e947SMatthias Ringwald } 22342e98e947SMatthias Ringwald #endif 22352e98e947SMatthias Ringwald 22363deb3ec6SMatthias Ringwald if (!channel->credits_outgoing){ 2237374709acSMilanka Ringwald log_info("send cid 0x%02x, no rfcomm outgoing credits!", channel->rfcomm_cid); 22383deb3ec6SMatthias Ringwald return RFCOMM_NO_OUTGOING_CREDITS; 22393deb3ec6SMatthias Ringwald } 22403deb3ec6SMatthias Ringwald 22413deb3ec6SMatthias Ringwald if ((channel->multiplexer->fcon & 1) == 0){ 2242374709acSMilanka Ringwald log_info("send cid 0x%02x, aggregate flow off!", channel->rfcomm_cid); 22433deb3ec6SMatthias Ringwald return RFCOMM_AGGREGATE_FLOW_OFF; 22443deb3ec6SMatthias Ringwald } 22453deb3ec6SMatthias Ringwald return 0; 22463deb3ec6SMatthias Ringwald } 22473deb3ec6SMatthias Ringwald 22483deb3ec6SMatthias Ringwald uint16_t rfcomm_get_max_frame_size(uint16_t rfcomm_cid){ 22493deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 22503deb3ec6SMatthias Ringwald if (!channel){ 22513deb3ec6SMatthias Ringwald return 0; 22523deb3ec6SMatthias Ringwald } 22533deb3ec6SMatthias Ringwald return channel->max_frame_size; 22543deb3ec6SMatthias Ringwald } 2255069d1753SMatthias Ringwald 22562e98e947SMatthias Ringwald // pre: rfcomm_can_send_packet_now(rfcomm_cid) == true 22572e98e947SMatthias Ringwald int rfcomm_reserve_packet_buffer(void){ 22582e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 22592e98e947SMatthias Ringwald log_error("rfcomm_reserve_packet_buffer should not get called with ERTM"); 22602e98e947SMatthias Ringwald return 0; 22612e98e947SMatthias Ringwald #else 22622e98e947SMatthias Ringwald return l2cap_reserve_packet_buffer(); 22632e98e947SMatthias Ringwald #endif 22642e98e947SMatthias Ringwald } 22652e98e947SMatthias Ringwald 22662e98e947SMatthias Ringwald void rfcomm_release_packet_buffer(void){ 22672e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 22682e98e947SMatthias Ringwald log_error("rfcomm_release_packet_buffer should not get called with ERTM"); 22692e98e947SMatthias Ringwald #else 22702e98e947SMatthias Ringwald l2cap_release_packet_buffer(); 22712e98e947SMatthias Ringwald #endif 22722e98e947SMatthias Ringwald } 22732e98e947SMatthias Ringwald 22742e98e947SMatthias Ringwald uint8_t * rfcomm_get_outgoing_buffer(void){ 22752e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 22762e98e947SMatthias Ringwald uint8_t * rfcomm_out_buffer = outgoing_buffer; 22772e98e947SMatthias Ringwald #else 22782e98e947SMatthias Ringwald uint8_t * rfcomm_out_buffer = l2cap_get_outgoing_buffer(); 22792e98e947SMatthias Ringwald #endif 22802e98e947SMatthias Ringwald // address + control + length (16) + no credit field 22812e98e947SMatthias Ringwald return &rfcomm_out_buffer[4]; 22822e98e947SMatthias Ringwald } 22832e98e947SMatthias Ringwald 22843deb3ec6SMatthias Ringwald int rfcomm_send_prepared(uint16_t rfcomm_cid, uint16_t len){ 22853deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 22863deb3ec6SMatthias Ringwald if (!channel){ 2287374709acSMilanka Ringwald log_error("cid 0x%02x doesn't exist!", rfcomm_cid); 22883deb3ec6SMatthias Ringwald return 0; 22893deb3ec6SMatthias Ringwald } 22903deb3ec6SMatthias Ringwald 22913deb3ec6SMatthias Ringwald int err = rfcomm_assert_send_valid(channel, len); 22923deb3ec6SMatthias Ringwald if (err) return err; 22932e98e947SMatthias Ringwald 22942e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 22952e98e947SMatthias Ringwald if (!l2cap_can_send_packet_now(channel->multiplexer->l2cap_cid)){ 2296374709acSMilanka Ringwald log_error("l2cap cannot send now"); 22972e98e947SMatthias Ringwald return BTSTACK_ACL_BUFFERS_FULL; 22982e98e947SMatthias Ringwald } 22992e98e947SMatthias Ringwald #else 230068d15bfcSMatthias Ringwald if (!l2cap_can_send_prepared_packet_now(channel->multiplexer->l2cap_cid)){ 2301374709acSMilanka Ringwald log_error("l2cap cannot send now"); 230278707112SMatthias Ringwald return BTSTACK_ACL_BUFFERS_FULL; 230378707112SMatthias Ringwald } 23042e98e947SMatthias Ringwald #endif 23053deb3ec6SMatthias Ringwald 23063deb3ec6SMatthias Ringwald // send might cause l2cap to emit new credits, update counters first 2307069d1753SMatthias Ringwald if (len){ 23083deb3ec6SMatthias Ringwald channel->credits_outgoing--; 2309069d1753SMatthias Ringwald } else { 2310069d1753SMatthias Ringwald log_info("sending empty RFCOMM packet for cid %02x", rfcomm_cid); 2311069d1753SMatthias Ringwald } 23123deb3ec6SMatthias Ringwald 23133deb3ec6SMatthias Ringwald int result = rfcomm_send_uih_prepared(channel->multiplexer, channel->dlci, len); 23143deb3ec6SMatthias Ringwald 23153deb3ec6SMatthias Ringwald if (result != 0) { 2316069d1753SMatthias Ringwald if (len) { 23173deb3ec6SMatthias Ringwald channel->credits_outgoing++; 2318069d1753SMatthias Ringwald } 2319374709acSMilanka Ringwald log_error("error %d", result); 23203deb3ec6SMatthias Ringwald return result; 23213deb3ec6SMatthias Ringwald } 23223deb3ec6SMatthias Ringwald 23233deb3ec6SMatthias Ringwald return result; 23243deb3ec6SMatthias Ringwald } 23253deb3ec6SMatthias Ringwald 232628190c0bSMatthias Ringwald int rfcomm_send(uint16_t rfcomm_cid, uint8_t *data, uint16_t len){ 23273deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 23283deb3ec6SMatthias Ringwald if (!channel){ 2329069d1753SMatthias Ringwald log_error("cid 0x%02x doesn't exist!", rfcomm_cid); 2330069d1753SMatthias Ringwald return ERROR_CODE_UNKNOWN_CONNECTION_IDENTIFIER; 23313deb3ec6SMatthias Ringwald } 23323deb3ec6SMatthias Ringwald 23333deb3ec6SMatthias Ringwald int err = rfcomm_assert_send_valid(channel, len); 23343deb3ec6SMatthias Ringwald if (err) return err; 233568d15bfcSMatthias Ringwald if (!l2cap_can_send_packet_now(channel->multiplexer->l2cap_cid)){ 233678707112SMatthias Ringwald log_error("rfcomm_send_internal: l2cap cannot send now"); 233778707112SMatthias Ringwald return BTSTACK_ACL_BUFFERS_FULL; 233878707112SMatthias Ringwald } 23393deb3ec6SMatthias Ringwald 23402e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 23412e98e947SMatthias Ringwald #else 23423deb3ec6SMatthias Ringwald rfcomm_reserve_packet_buffer(); 23432e98e947SMatthias Ringwald #endif 23443deb3ec6SMatthias Ringwald uint8_t * rfcomm_payload = rfcomm_get_outgoing_buffer(); 23452e98e947SMatthias Ringwald 23466535961aSMatthias Ringwald (void)memcpy(rfcomm_payload, data, len); 234778707112SMatthias Ringwald err = rfcomm_send_prepared(rfcomm_cid, len); 23482e98e947SMatthias Ringwald 23492e98e947SMatthias Ringwald #ifdef RFCOMM_USE_OUTGOING_BUFFER 23502e98e947SMatthias Ringwald #else 235178707112SMatthias Ringwald if (err){ 235278707112SMatthias Ringwald rfcomm_release_packet_buffer(); 235378707112SMatthias Ringwald } 23542e98e947SMatthias Ringwald #endif 23552e98e947SMatthias Ringwald 235678707112SMatthias Ringwald return err; 23573deb3ec6SMatthias Ringwald } 23583deb3ec6SMatthias Ringwald 23593deb3ec6SMatthias Ringwald // Sends Local Lnie Status, see LINE_STATUS_.. 23603deb3ec6SMatthias Ringwald int rfcomm_send_local_line_status(uint16_t rfcomm_cid, uint8_t line_status){ 23613deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 23623deb3ec6SMatthias Ringwald if (!channel){ 23633deb3ec6SMatthias Ringwald return 0; 23643deb3ec6SMatthias Ringwald } 23653deb3ec6SMatthias Ringwald return rfcomm_send_uih_rls_cmd(channel->multiplexer, channel->dlci, line_status); 23663deb3ec6SMatthias Ringwald } 23673deb3ec6SMatthias Ringwald 23683deb3ec6SMatthias Ringwald // Sned local modem status. see MODEM_STAUS_.. 23693deb3ec6SMatthias Ringwald int rfcomm_send_modem_status(uint16_t rfcomm_cid, uint8_t modem_status){ 23703deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 23713deb3ec6SMatthias Ringwald if (!channel){ 23723deb3ec6SMatthias Ringwald return 0; 23733deb3ec6SMatthias Ringwald } 23743deb3ec6SMatthias Ringwald return rfcomm_send_uih_msc_cmd(channel->multiplexer, channel->dlci, modem_status); 23753deb3ec6SMatthias Ringwald } 23763deb3ec6SMatthias Ringwald 23773deb3ec6SMatthias Ringwald // Configure remote port 2378874776bfSMatthias Ringwald int rfcomm_send_port_configuration(uint16_t rfcomm_cid, rpn_baud_t baud_rate, rpn_data_bits_t data_bits, rpn_stop_bits_t stop_bits, rpn_parity_t parity, uint8_t flow_control){ 23793deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 23803deb3ec6SMatthias Ringwald if (!channel){ 23813deb3ec6SMatthias Ringwald return 0; 23823deb3ec6SMatthias Ringwald } 23833deb3ec6SMatthias Ringwald rfcomm_rpn_data_t rpn_data; 23843deb3ec6SMatthias Ringwald rpn_data.baud_rate = baud_rate; 23853deb3ec6SMatthias Ringwald rpn_data.flags = data_bits | (stop_bits << 2) | (parity << 3); 23863deb3ec6SMatthias Ringwald rpn_data.flow_control = flow_control; 23873deb3ec6SMatthias Ringwald rpn_data.xon = 0; 23883deb3ec6SMatthias Ringwald rpn_data.xoff = 0; 23893deb3ec6SMatthias Ringwald rpn_data.parameter_mask_0 = 0x1f; // all but xon/xoff 23903deb3ec6SMatthias Ringwald rpn_data.parameter_mask_1 = 0x3f; // all flow control options 23913deb3ec6SMatthias Ringwald return rfcomm_send_uih_rpn_cmd(channel->multiplexer, channel->dlci, &rpn_data); 23923deb3ec6SMatthias Ringwald } 23933deb3ec6SMatthias Ringwald 23943deb3ec6SMatthias Ringwald // Query remote port 23953deb3ec6SMatthias Ringwald int rfcomm_query_port_configuration(uint16_t rfcomm_cid){ 23963deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 23973deb3ec6SMatthias Ringwald if (!channel){ 23983deb3ec6SMatthias Ringwald return 0; 23993deb3ec6SMatthias Ringwald } 24003deb3ec6SMatthias Ringwald return rfcomm_send_uih_rpn_req(channel->multiplexer, channel->dlci); 24013deb3ec6SMatthias Ringwald } 24023deb3ec6SMatthias Ringwald 2403aa4dd815SMatthias Ringwald 2404ccb8ddfbSMatthias Ringwald static uint8_t rfcomm_channel_create_internal(btstack_packet_handler_t packet_handler, bd_addr_t addr, uint8_t server_channel, uint8_t incoming_flow_control, uint8_t initial_credits, uint16_t * out_rfcomm_cid){ 2405374709acSMilanka Ringwald log_info("create addr %s channel #%u init credits %u", bd_addr_to_str(addr), server_channel, initial_credits); 24065d1e858fSMatthias Ringwald 24075d1e858fSMatthias Ringwald // create new multiplexer if necessary 24085d1e858fSMatthias Ringwald uint8_t status = 0; 2409fc966bd3SMatthias Ringwald uint8_t dlci = 0; 24105d1e858fSMatthias Ringwald int new_multiplexer = 0; 24115d1e858fSMatthias Ringwald rfcomm_channel_t * channel = NULL; 24125d1e858fSMatthias Ringwald rfcomm_multiplexer_t * multiplexer = rfcomm_multiplexer_for_addr(addr); 24135d1e858fSMatthias Ringwald if (!multiplexer) { 24145d1e858fSMatthias Ringwald multiplexer = rfcomm_multiplexer_create_for_addr(addr); 2415e46880dcSMatthias Ringwald if (!multiplexer) return BTSTACK_MEMORY_ALLOC_FAILED; 2416e46880dcSMatthias Ringwald 24175d1e858fSMatthias Ringwald multiplexer->outgoing = 1; 24185d1e858fSMatthias Ringwald multiplexer->state = RFCOMM_MULTIPLEXER_W4_CONNECT; 24195d1e858fSMatthias Ringwald new_multiplexer = 1; 24205d1e858fSMatthias Ringwald } 24215d1e858fSMatthias Ringwald 24222a1147c9SMatthias Ringwald // check if channel for this remote service already exists 2423fc966bd3SMatthias Ringwald dlci = (server_channel << 1) | (multiplexer->outgoing ^ 1); 24242a1147c9SMatthias Ringwald channel = rfcomm_channel_for_multiplexer_and_dlci(multiplexer, dlci); 24252a1147c9SMatthias Ringwald if (channel){ 2426e46880dcSMatthias Ringwald if (new_multiplexer) btstack_memory_rfcomm_multiplexer_free(multiplexer); 2427e46880dcSMatthias Ringwald return RFCOMM_CHANNEL_ALREADY_REGISTERED; 24282a1147c9SMatthias Ringwald } 24292a1147c9SMatthias Ringwald 24305d1e858fSMatthias Ringwald // prepare channel 24315d1e858fSMatthias Ringwald channel = rfcomm_channel_create(multiplexer, NULL, server_channel); 24325d1e858fSMatthias Ringwald if (!channel){ 2433e46880dcSMatthias Ringwald if (new_multiplexer) btstack_memory_rfcomm_multiplexer_free(multiplexer); 2434e46880dcSMatthias Ringwald return BTSTACK_MEMORY_ALLOC_FAILED; 24355d1e858fSMatthias Ringwald } 2436ccb8ddfbSMatthias Ringwald 24375d1e858fSMatthias Ringwald // rfcomm_cid is already assigned by rfcomm_channel_create 24385d1e858fSMatthias Ringwald channel->incoming_flow_control = incoming_flow_control; 24395d1e858fSMatthias Ringwald channel->new_credits_incoming = initial_credits; 2440ccb8ddfbSMatthias Ringwald channel->packet_handler = packet_handler; 24415d1e858fSMatthias Ringwald 24425d1e858fSMatthias Ringwald // return rfcomm_cid 2443432fe57eSMatthias Ringwald if (out_rfcomm_cid){ 24445d1e858fSMatthias Ringwald *out_rfcomm_cid = channel->rfcomm_cid; 2445432fe57eSMatthias Ringwald } 24465d1e858fSMatthias Ringwald 24475d1e858fSMatthias Ringwald // start multiplexer setup 24485d1e858fSMatthias Ringwald if (multiplexer->state != RFCOMM_MULTIPLEXER_OPEN) { 24495d1e858fSMatthias Ringwald channel->state = RFCOMM_CHANNEL_W4_MULTIPLEXER; 24505d1e858fSMatthias Ringwald uint16_t l2cap_cid = 0; 2451a7a98a14SMatthias Ringwald #ifdef RFCOMM_USE_ERTM 2452a7a98a14SMatthias Ringwald // request 2453a7a98a14SMatthias Ringwald rfcomm_ertm_request_t request; 2454a7a98a14SMatthias Ringwald memset(&request, 0, sizeof(rfcomm_ertm_request_t)); 24556535961aSMatthias Ringwald (void)memcpy(request.addr, addr, 6); 24561859e0acSMilanka Ringwald request.ertm_id = rfcomm_next_ertm_id(); 2457a7a98a14SMatthias Ringwald if (rfcomm_ertm_request_callback){ 2458a7a98a14SMatthias Ringwald (*rfcomm_ertm_request_callback)(&request); 2459a7a98a14SMatthias Ringwald } 2460a7a98a14SMatthias Ringwald if (request.ertm_config && request.ertm_buffer && request.ertm_buffer_size){ 2461a7a98a14SMatthias Ringwald multiplexer->ertm_id = request.ertm_id; 2462a7a98a14SMatthias Ringwald status = l2cap_create_ertm_channel(rfcomm_packet_handler, addr, BLUETOOTH_PROTOCOL_RFCOMM, 2463a7a98a14SMatthias Ringwald request.ertm_config, request.ertm_buffer, request.ertm_buffer_size, &l2cap_cid); 2464a7a98a14SMatthias Ringwald } 2465a7a98a14SMatthias Ringwald else 2466a7a98a14SMatthias Ringwald #endif 2467a7a98a14SMatthias Ringwald { 2468235946f1SMatthias Ringwald status = l2cap_create_channel(rfcomm_packet_handler, addr, BLUETOOTH_PROTOCOL_RFCOMM, l2cap_max_mtu(), &l2cap_cid); 2469a7a98a14SMatthias Ringwald } 2470e46880dcSMatthias Ringwald if (status) { 2471e46880dcSMatthias Ringwald if (new_multiplexer) btstack_memory_rfcomm_multiplexer_free(multiplexer); 2472e46880dcSMatthias Ringwald btstack_memory_rfcomm_channel_free(channel); 2473e46880dcSMatthias Ringwald return status; 2474e46880dcSMatthias Ringwald } 24755d1e858fSMatthias Ringwald multiplexer->l2cap_cid = l2cap_cid; 2476e46880dcSMatthias Ringwald return ERROR_CODE_SUCCESS; 24775d1e858fSMatthias Ringwald } 24785d1e858fSMatthias Ringwald 24795d1e858fSMatthias Ringwald channel->state = RFCOMM_CHANNEL_SEND_UIH_PN; 24805d1e858fSMatthias Ringwald 24815d1e858fSMatthias Ringwald // start connecting, if multiplexer is already up and running 248262b5b741SMatthias Ringwald l2cap_request_can_send_now_event(multiplexer->l2cap_cid); 2483e46880dcSMatthias Ringwald return ERROR_CODE_SUCCESS; 24845d1e858fSMatthias Ringwald } 24855d1e858fSMatthias Ringwald 2486ccb8ddfbSMatthias Ringwald uint8_t rfcomm_create_channel_with_initial_credits(btstack_packet_handler_t packet_handler, bd_addr_t addr, uint8_t server_channel, uint8_t initial_credits, uint16_t * out_rfcomm_cid){ 2487ccb8ddfbSMatthias Ringwald return rfcomm_channel_create_internal(packet_handler, addr, server_channel, 1, initial_credits, out_rfcomm_cid); 24885d1e858fSMatthias Ringwald } 24895d1e858fSMatthias Ringwald 2490ccb8ddfbSMatthias Ringwald uint8_t rfcomm_create_channel(btstack_packet_handler_t packet_handler, bd_addr_t addr, uint8_t server_channel, uint16_t * out_rfcomm_cid){ 2491ccb8ddfbSMatthias Ringwald return rfcomm_channel_create_internal(packet_handler, addr, server_channel, 0, RFCOMM_CREDITS, out_rfcomm_cid); 24925d1e858fSMatthias Ringwald } 24935d1e858fSMatthias Ringwald 249428190c0bSMatthias Ringwald void rfcomm_disconnect(uint16_t rfcomm_cid){ 2495374709acSMilanka Ringwald log_info("disconnect cid 0x%02x", rfcomm_cid); 24963deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 249770c27508SMatthias Ringwald if (!channel) return; 24983deb3ec6SMatthias Ringwald 249970c27508SMatthias Ringwald channel->state = RFCOMM_CHANNEL_SEND_DISC; 250062b5b741SMatthias Ringwald l2cap_request_can_send_now_event(channel->multiplexer->l2cap_cid); 25013deb3ec6SMatthias Ringwald } 25023deb3ec6SMatthias Ringwald 2503ccb8ddfbSMatthias Ringwald static uint8_t rfcomm_register_service_internal(btstack_packet_handler_t packet_handler, 2504ccb8ddfbSMatthias Ringwald uint8_t channel, uint16_t max_frame_size, uint8_t incoming_flow_control, uint8_t initial_credits){ 2505ccb8ddfbSMatthias Ringwald 2506374709acSMilanka Ringwald log_info("register channel #%u mtu %u flow_control %u credits %u", 25073deb3ec6SMatthias Ringwald channel, max_frame_size, incoming_flow_control, initial_credits); 2508457b5cb1SMatthias Ringwald 25093deb3ec6SMatthias Ringwald // check if already registered 25103deb3ec6SMatthias Ringwald rfcomm_service_t * service = rfcomm_service_for_channel(channel); 25113deb3ec6SMatthias Ringwald if (service){ 2512457b5cb1SMatthias Ringwald return RFCOMM_CHANNEL_ALREADY_REGISTERED; 25133deb3ec6SMatthias Ringwald } 25143deb3ec6SMatthias Ringwald 25153deb3ec6SMatthias Ringwald // alloc structure 25163deb3ec6SMatthias Ringwald service = btstack_memory_rfcomm_service_get(); 25173deb3ec6SMatthias Ringwald if (!service) { 2518457b5cb1SMatthias Ringwald return BTSTACK_MEMORY_ALLOC_FAILED; 25193deb3ec6SMatthias Ringwald } 25203deb3ec6SMatthias Ringwald 25213deb3ec6SMatthias Ringwald // register with l2cap if not registered before, max MTU 2522665d90f2SMatthias Ringwald if (btstack_linked_list_empty(&rfcomm_services)){ 2523c3b97dcdSMilanka Ringwald uint8_t status = l2cap_register_service(rfcomm_packet_handler, BLUETOOTH_PROTOCOL_RFCOMM, 0xffff, rfcomm_security_level); 2524c3b97dcdSMilanka Ringwald if (status != ERROR_CODE_SUCCESS){ 2525c3b97dcdSMilanka Ringwald btstack_memory_rfcomm_service_free(service); 2526c3b97dcdSMilanka Ringwald return status; 2527c3b97dcdSMilanka Ringwald } 25283deb3ec6SMatthias Ringwald } 25293deb3ec6SMatthias Ringwald 25303deb3ec6SMatthias Ringwald // fill in 2531ccb8ddfbSMatthias Ringwald service->packet_handler = packet_handler; 25323deb3ec6SMatthias Ringwald service->server_channel = channel; 25333deb3ec6SMatthias Ringwald service->max_frame_size = max_frame_size; 25343deb3ec6SMatthias Ringwald service->incoming_flow_control = incoming_flow_control; 25353deb3ec6SMatthias Ringwald service->incoming_initial_credits = initial_credits; 25363deb3ec6SMatthias Ringwald 25373deb3ec6SMatthias Ringwald // add to services list 2538665d90f2SMatthias Ringwald btstack_linked_list_add(&rfcomm_services, (btstack_linked_item_t *) service); 25393deb3ec6SMatthias Ringwald 2540c3b97dcdSMilanka Ringwald return ERROR_CODE_SUCCESS; 25413deb3ec6SMatthias Ringwald } 25423deb3ec6SMatthias Ringwald 2543ccb8ddfbSMatthias Ringwald uint8_t rfcomm_register_service_with_initial_credits(btstack_packet_handler_t packet_handler, 2544ccb8ddfbSMatthias Ringwald uint8_t channel, uint16_t max_frame_size, uint8_t initial_credits){ 2545ccb8ddfbSMatthias Ringwald 2546ccb8ddfbSMatthias Ringwald return rfcomm_register_service_internal(packet_handler, channel, max_frame_size, 1, initial_credits); 25473deb3ec6SMatthias Ringwald } 25483deb3ec6SMatthias Ringwald 2549ccb8ddfbSMatthias Ringwald uint8_t rfcomm_register_service(btstack_packet_handler_t packet_handler, uint8_t channel, 2550ccb8ddfbSMatthias Ringwald uint16_t max_frame_size){ 2551ccb8ddfbSMatthias Ringwald 2552ccb8ddfbSMatthias Ringwald return rfcomm_register_service_internal(packet_handler, channel, max_frame_size, 0,RFCOMM_CREDITS); 25533deb3ec6SMatthias Ringwald } 25543deb3ec6SMatthias Ringwald 2555457b5cb1SMatthias Ringwald void rfcomm_unregister_service(uint8_t service_channel){ 25563deb3ec6SMatthias Ringwald rfcomm_service_t *service = rfcomm_service_for_channel(service_channel); 25573deb3ec6SMatthias Ringwald if (!service) return; 2558665d90f2SMatthias Ringwald btstack_linked_list_remove(&rfcomm_services, (btstack_linked_item_t *) service); 25593deb3ec6SMatthias Ringwald btstack_memory_rfcomm_service_free(service); 25603deb3ec6SMatthias Ringwald 25613deb3ec6SMatthias Ringwald // unregister if no services active 2562665d90f2SMatthias Ringwald if (btstack_linked_list_empty(&rfcomm_services)){ 2563235946f1SMatthias Ringwald // bt_send_cmd(&l2cap_unregister_service, BLUETOOTH_PROTOCOL_RFCOMM); 2564235946f1SMatthias Ringwald l2cap_unregister_service(BLUETOOTH_PROTOCOL_RFCOMM); 25653deb3ec6SMatthias Ringwald } 25663deb3ec6SMatthias Ringwald } 25673deb3ec6SMatthias Ringwald 256828190c0bSMatthias Ringwald void rfcomm_accept_connection(uint16_t rfcomm_cid){ 2569374709acSMilanka Ringwald log_info("accept cid 0x%02x", rfcomm_cid); 25703deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 25713deb3ec6SMatthias Ringwald if (!channel) return; 25723deb3ec6SMatthias Ringwald switch (channel->state) { 25733deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_INCOMING_SETUP: 25743deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_CLIENT_ACCEPTED); 25753deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_RCVD_PN){ 25763deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP); 257762b5b741SMatthias Ringwald l2cap_request_can_send_now_event(channel->multiplexer->l2cap_cid); 25783deb3ec6SMatthias Ringwald } 25793deb3ec6SMatthias Ringwald if (channel->state_var & RFCOMM_CHANNEL_STATE_VAR_RCVD_SABM){ 25803deb3ec6SMatthias Ringwald rfcomm_channel_state_add(channel, RFCOMM_CHANNEL_STATE_VAR_SEND_UA); 258162b5b741SMatthias Ringwald l2cap_request_can_send_now_event(channel->multiplexer->l2cap_cid); 25823deb3ec6SMatthias Ringwald } 25833deb3ec6SMatthias Ringwald // at least one of { PN RSP, UA } needs to be sent 25843deb3ec6SMatthias Ringwald // state transistion incoming setup -> dlc setup happens in rfcomm_run after these have been sent 25853deb3ec6SMatthias Ringwald break; 25863deb3ec6SMatthias Ringwald default: 25873deb3ec6SMatthias Ringwald break; 25883deb3ec6SMatthias Ringwald } 25893deb3ec6SMatthias Ringwald 25903deb3ec6SMatthias Ringwald } 25913deb3ec6SMatthias Ringwald 259228190c0bSMatthias Ringwald void rfcomm_decline_connection(uint16_t rfcomm_cid){ 2593374709acSMilanka Ringwald log_info("decline cid 0x%02x", rfcomm_cid); 25943deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 25953deb3ec6SMatthias Ringwald if (!channel) return; 25963deb3ec6SMatthias Ringwald switch (channel->state) { 25973deb3ec6SMatthias Ringwald case RFCOMM_CHANNEL_INCOMING_SETUP: 25983deb3ec6SMatthias Ringwald channel->state = RFCOMM_CHANNEL_SEND_DM; 259962b5b741SMatthias Ringwald l2cap_request_can_send_now_event(channel->multiplexer->l2cap_cid); 26003deb3ec6SMatthias Ringwald break; 26013deb3ec6SMatthias Ringwald default: 26023deb3ec6SMatthias Ringwald break; 26033deb3ec6SMatthias Ringwald } 26043deb3ec6SMatthias Ringwald } 26053deb3ec6SMatthias Ringwald 26063deb3ec6SMatthias Ringwald void rfcomm_grant_credits(uint16_t rfcomm_cid, uint8_t credits){ 2607374709acSMilanka Ringwald log_info("grant cid 0x%02x credits %u", rfcomm_cid, credits); 26083deb3ec6SMatthias Ringwald rfcomm_channel_t * channel = rfcomm_channel_for_rfcomm_cid(rfcomm_cid); 26093deb3ec6SMatthias Ringwald if (!channel) return; 26103deb3ec6SMatthias Ringwald if (!channel->incoming_flow_control) return; 26113deb3ec6SMatthias Ringwald channel->new_credits_incoming += credits; 26123deb3ec6SMatthias Ringwald 26133deb3ec6SMatthias Ringwald // process 261462b5b741SMatthias Ringwald l2cap_request_can_send_now_event(channel->multiplexer->l2cap_cid); 26153deb3ec6SMatthias Ringwald } 26163deb3ec6SMatthias Ringwald 2617a7a98a14SMatthias Ringwald #ifdef RFCOMM_USE_ERTM 2618a7a98a14SMatthias Ringwald void rfcomm_enable_l2cap_ertm(void request_callback(rfcomm_ertm_request_t * request), void released_callback(uint16_t ertm_id)){ 2619a7a98a14SMatthias Ringwald rfcomm_ertm_request_callback = request_callback; 2620a7a98a14SMatthias Ringwald rfcomm_ertm_released_callback = released_callback; 2621a7a98a14SMatthias Ringwald } 2622a7a98a14SMatthias Ringwald #endif 2623