Norimasa Okamoto / Mbed 2 deprecated F401RE-BTstack_example

BTstack for Nucleo F401RE/FRDM-KL46Z example program

Dependencies:   F401RE-USBHost mbed

The usage is the same as KL46Z-BTstack_example.
使い方はKL46Z-BTstack_exampleと同じです。
/media/uploads/va009039/f401re-btstack.jpg

BTstack/rfcomm.h@0:a05a07cd6fdf, 2014-06-09 (annotated)

Committer:
va009039
Date:
Mon Jun 09 09:03:25 2014 +0000
Revision:
0:a05a07cd6fdf
first commit

Who changed what in which revision?

UserRevisionLine numberNew contents of line
va009039 0:a05a07cd6fdf 1 /*
va009039 0:a05a07cd6fdf 2 * Copyright (C) 2009-2012 by Matthias Ringwald
va009039 0:a05a07cd6fdf 3 *
va009039 0:a05a07cd6fdf 4 * Redistribution and use in source and binary forms, with or without
va009039 0:a05a07cd6fdf 5 * modification, are permitted provided that the following conditions
va009039 0:a05a07cd6fdf 6 * are met:
va009039 0:a05a07cd6fdf 7 *
va009039 0:a05a07cd6fdf 8 * 1. Redistributions of source code must retain the above copyright
va009039 0:a05a07cd6fdf 9 * notice, this list of conditions and the following disclaimer.
va009039 0:a05a07cd6fdf 10 * 2. Redistributions in binary form must reproduce the above copyright
va009039 0:a05a07cd6fdf 11 * notice, this list of conditions and the following disclaimer in the
va009039 0:a05a07cd6fdf 12 * documentation and/or other materials provided with the distribution.
va009039 0:a05a07cd6fdf 13 * 3. Neither the name of the copyright holders nor the names of
va009039 0:a05a07cd6fdf 14 * contributors may be used to endorse or promote products derived
va009039 0:a05a07cd6fdf 15 * from this software without specific prior written permission.
va009039 0:a05a07cd6fdf 16 * 4. Any redistribution, use, or modification is done solely for
va009039 0:a05a07cd6fdf 17 * personal benefit and not for any commercial purpose or for
va009039 0:a05a07cd6fdf 18 * monetary gain.
va009039 0:a05a07cd6fdf 19 *
va009039 0:a05a07cd6fdf 20 * THIS SOFTWARE IS PROVIDED BY MATTHIAS RINGWALD AND CONTRIBUTORS
va009039 0:a05a07cd6fdf 21 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
va009039 0:a05a07cd6fdf 22 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
va009039 0:a05a07cd6fdf 23 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS
va009039 0:a05a07cd6fdf 24 * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
va009039 0:a05a07cd6fdf 25 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
va009039 0:a05a07cd6fdf 26 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
va009039 0:a05a07cd6fdf 27 * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
va009039 0:a05a07cd6fdf 28 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
va009039 0:a05a07cd6fdf 29 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
va009039 0:a05a07cd6fdf 30 * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
va009039 0:a05a07cd6fdf 31 * SUCH DAMAGE.
va009039 0:a05a07cd6fdf 32 *
va009039 0:a05a07cd6fdf 33 * Please inquire about commercial licensing options at btstack@ringwald.ch
va009039 0:a05a07cd6fdf 34 *
va009039 0:a05a07cd6fdf 35 */
va009039 0:a05a07cd6fdf 36
va009039 0:a05a07cd6fdf 37 /*
va009039 0:a05a07cd6fdf 38 * RFCOMM.h
va009039 0:a05a07cd6fdf 39 */
va009039 0:a05a07cd6fdf 40
va009039 0:a05a07cd6fdf 41 #include <btstack/btstack.h>
va009039 0:a05a07cd6fdf 42 #include <btstack/utils.h>
va009039 0:a05a07cd6fdf 43
va009039 0:a05a07cd6fdf 44 #include <stdint.h>
va009039 0:a05a07cd6fdf 45
va009039 0:a05a07cd6fdf 46 #if defined __cplusplus
va009039 0:a05a07cd6fdf 47 extern "C" {
va009039 0:a05a07cd6fdf 48 #endif
va009039 0:a05a07cd6fdf 49
va009039 0:a05a07cd6fdf 50 void rfcomm_init(void);
va009039 0:a05a07cd6fdf 51
va009039 0:a05a07cd6fdf 52 // register packet handler
va009039 0:a05a07cd6fdf 53 void rfcomm_packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size);
va009039 0:a05a07cd6fdf 54 void rfcomm_register_packet_handler(void (*handler)(void * connection, uint8_t packet_type,
va009039 0:a05a07cd6fdf 55 uint16_t channel, uint8_t *packet, uint16_t size));
va009039 0:a05a07cd6fdf 56
va009039 0:a05a07cd6fdf 57 // BTstack Internal RFCOMM API
va009039 0:a05a07cd6fdf 58 void rfcomm_create_channel_internal(void * connection, bd_addr_t *addr, uint8_t channel);
va009039 0:a05a07cd6fdf 59 void rfcomm_create_channel_with_initial_credits_internal(void * connection, bd_addr_t *addr, uint8_t server_channel, uint8_t initial_credits);
va009039 0:a05a07cd6fdf 60 void rfcomm_disconnect_internal(uint16_t rfcomm_cid);
va009039 0:a05a07cd6fdf 61 void rfcomm_register_service_internal(void * connection, uint8_t channel, uint16_t max_frame_size);
va009039 0:a05a07cd6fdf 62 void rfcomm_register_service_with_initial_credits_internal(void * connection, uint8_t channel, uint16_t max_frame_size, uint8_t initial_credits);
va009039 0:a05a07cd6fdf 63 void rfcomm_unregister_service_internal(uint8_t service_channel);
va009039 0:a05a07cd6fdf 64 void rfcomm_accept_connection_internal(uint16_t rfcomm_cid);
va009039 0:a05a07cd6fdf 65 void rfcomm_decline_connection_internal(uint16_t rfcomm_cid);
va009039 0:a05a07cd6fdf 66 void rfcomm_grant_credits(uint16_t rfcomm_cid, uint8_t credits);
va009039 0:a05a07cd6fdf 67 int rfcomm_send_internal(uint16_t rfcomm_cid, uint8_t *data, uint16_t len);
va009039 0:a05a07cd6fdf 68 void rfcomm_close_connection(void *connection);
va009039 0:a05a07cd6fdf 69
va009039 0:a05a07cd6fdf 70 #define UNLIMITED_INCOMING_CREDITS 0xff
va009039 0:a05a07cd6fdf 71
va009039 0:a05a07cd6fdf 72 // private structs
va009039 0:a05a07cd6fdf 73 typedef enum {
va009039 0:a05a07cd6fdf 74 RFCOMM_MULTIPLEXER_CLOSED = 1,
va009039 0:a05a07cd6fdf 75 RFCOMM_MULTIPLEXER_W4_CONNECT, // outgoing
va009039 0:a05a07cd6fdf 76 RFCOMM_MULTIPLEXER_SEND_SABM_0, // "
va009039 0:a05a07cd6fdf 77 RFCOMM_MULTIPLEXER_W4_UA_0, // "
va009039 0:a05a07cd6fdf 78 RFCOMM_MULTIPLEXER_W4_SABM_0, // incoming
va009039 0:a05a07cd6fdf 79 RFCOMM_MULTIPLEXER_SEND_UA_0,
va009039 0:a05a07cd6fdf 80 RFCOMM_MULTIPLEXER_OPEN,
va009039 0:a05a07cd6fdf 81 RFCOMM_MULTIPLEXER_SEND_UA_0_AND_DISC
va009039 0:a05a07cd6fdf 82 } RFCOMM_MULTIPLEXER_STATE;
va009039 0:a05a07cd6fdf 83
va009039 0:a05a07cd6fdf 84 typedef enum {
va009039 0:a05a07cd6fdf 85 MULT_EV_READY_TO_SEND = 1,
va009039 0:a05a07cd6fdf 86
va009039 0:a05a07cd6fdf 87 } RFCOMM_MULTIPLEXER_EVENT;
va009039 0:a05a07cd6fdf 88
va009039 0:a05a07cd6fdf 89 typedef enum {
va009039 0:a05a07cd6fdf 90 RFCOMM_CHANNEL_CLOSED = 1,
va009039 0:a05a07cd6fdf 91 RFCOMM_CHANNEL_W4_MULTIPLEXER,
va009039 0:a05a07cd6fdf 92 RFCOMM_CHANNEL_SEND_UIH_PN,
va009039 0:a05a07cd6fdf 93 RFCOMM_CHANNEL_W4_PN_RSP,
va009039 0:a05a07cd6fdf 94 RFCOMM_CHANNEL_SEND_SABM_W4_UA,
va009039 0:a05a07cd6fdf 95 RFCOMM_CHANNEL_W4_UA,
va009039 0:a05a07cd6fdf 96 RFCOMM_CHANNEL_INCOMING_SETUP,
va009039 0:a05a07cd6fdf 97 RFCOMM_CHANNEL_DLC_SETUP,
va009039 0:a05a07cd6fdf 98 RFCOMM_CHANNEL_OPEN,
va009039 0:a05a07cd6fdf 99 RFCOMM_CHANNEL_SEND_UA_AFTER_DISC,
va009039 0:a05a07cd6fdf 100 RFCOMM_CHANNEL_SEND_DISC,
va009039 0:a05a07cd6fdf 101 RFCOMM_CHANNEL_SEND_DM,
va009039 0:a05a07cd6fdf 102
va009039 0:a05a07cd6fdf 103 } RFCOMM_CHANNEL_STATE;
va009039 0:a05a07cd6fdf 104
va009039 0:a05a07cd6fdf 105 /*
va009039 0:a05a07cd6fdf 106 typedef enum {
va009039 0:a05a07cd6fdf 107 RFCOMM_CHANNEL_STATE_VAR_NONE = 0,
va009039 0:a05a07cd6fdf 108 RFCOMM_CHANNEL_STATE_VAR_CLIENT_ACCEPTED = 1 << 0,
va009039 0:a05a07cd6fdf 109 RFCOMM_CHANNEL_STATE_VAR_RCVD_PN = 1 << 1,
va009039 0:a05a07cd6fdf 110 RFCOMM_CHANNEL_STATE_VAR_RCVD_RPN = 1 << 2,
va009039 0:a05a07cd6fdf 111 RFCOMM_CHANNEL_STATE_VAR_RCVD_SABM = 1 << 3,
va009039 0:a05a07cd6fdf 112
va009039 0:a05a07cd6fdf 113 RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_CMD = 1 << 4,
va009039 0:a05a07cd6fdf 114 RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_RSP = 1 << 5,
va009039 0:a05a07cd6fdf 115 RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP = 1 << 6,
va009039 0:a05a07cd6fdf 116 RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_INFO = 1 << 7,
va009039 0:a05a07cd6fdf 117
va009039 0:a05a07cd6fdf 118 RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_RSP = 1 << 8,
va009039 0:a05a07cd6fdf 119 RFCOMM_CHANNEL_STATE_VAR_SEND_UA = 1 << 9,
va009039 0:a05a07cd6fdf 120 RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_CMD = 1 << 10,
va009039 0:a05a07cd6fdf 121 RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_RSP = 1 << 11,
va009039 0:a05a07cd6fdf 122
va009039 0:a05a07cd6fdf 123 RFCOMM_CHANNEL_STATE_VAR_SEND_CREDITS = 1 << 12,
va009039 0:a05a07cd6fdf 124 RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_CMD = 1 << 13,
va009039 0:a05a07cd6fdf 125 RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_RSP = 1 << 14,
va009039 0:a05a07cd6fdf 126 RFCOMM_CHANNEL_STATE_VAR_SENT_CREDITS = 1 << 15,
va009039 0:a05a07cd6fdf 127 } RFCOMM_CHANNEL_STATE_VAR;
va009039 0:a05a07cd6fdf 128 */
va009039 0:a05a07cd6fdf 129
va009039 0:a05a07cd6fdf 130 enum {
va009039 0:a05a07cd6fdf 131 RFCOMM_CHANNEL_STATE_VAR_NONE = 0,
va009039 0:a05a07cd6fdf 132 RFCOMM_CHANNEL_STATE_VAR_CLIENT_ACCEPTED = 1 << 0,
va009039 0:a05a07cd6fdf 133 RFCOMM_CHANNEL_STATE_VAR_RCVD_PN = 1 << 1,
va009039 0:a05a07cd6fdf 134 RFCOMM_CHANNEL_STATE_VAR_RCVD_RPN = 1 << 2,
va009039 0:a05a07cd6fdf 135 RFCOMM_CHANNEL_STATE_VAR_RCVD_SABM = 1 << 3,
va009039 0:a05a07cd6fdf 136
va009039 0:a05a07cd6fdf 137 RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_CMD = 1 << 4,
va009039 0:a05a07cd6fdf 138 RFCOMM_CHANNEL_STATE_VAR_RCVD_MSC_RSP = 1 << 5,
va009039 0:a05a07cd6fdf 139 RFCOMM_CHANNEL_STATE_VAR_SEND_PN_RSP = 1 << 6,
va009039 0:a05a07cd6fdf 140 RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_INFO = 1 << 7,
va009039 0:a05a07cd6fdf 141
va009039 0:a05a07cd6fdf 142 RFCOMM_CHANNEL_STATE_VAR_SEND_RPN_RSP = 1 << 8,
va009039 0:a05a07cd6fdf 143 RFCOMM_CHANNEL_STATE_VAR_SEND_UA = 1 << 9,
va009039 0:a05a07cd6fdf 144 RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_CMD = 1 << 10,
va009039 0:a05a07cd6fdf 145 RFCOMM_CHANNEL_STATE_VAR_SEND_MSC_RSP = 1 << 11,
va009039 0:a05a07cd6fdf 146
va009039 0:a05a07cd6fdf 147 RFCOMM_CHANNEL_STATE_VAR_SEND_CREDITS = 1 << 12,
va009039 0:a05a07cd6fdf 148 RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_CMD = 1 << 13,
va009039 0:a05a07cd6fdf 149 RFCOMM_CHANNEL_STATE_VAR_SENT_MSC_RSP = 1 << 14,
va009039 0:a05a07cd6fdf 150 RFCOMM_CHANNEL_STATE_VAR_SENT_CREDITS = 1 << 15,
va009039 0:a05a07cd6fdf 151 };
va009039 0:a05a07cd6fdf 152 typedef uint16_t RFCOMM_CHANNEL_STATE_VAR;
va009039 0:a05a07cd6fdf 153
va009039 0:a05a07cd6fdf 154 typedef enum {
va009039 0:a05a07cd6fdf 155 CH_EVT_RCVD_SABM = 1,
va009039 0:a05a07cd6fdf 156 CH_EVT_RCVD_UA,
va009039 0:a05a07cd6fdf 157 CH_EVT_RCVD_PN,
va009039 0:a05a07cd6fdf 158 CH_EVT_RCVD_PN_RSP,
va009039 0:a05a07cd6fdf 159 CH_EVT_RCVD_DISC,
va009039 0:a05a07cd6fdf 160 CH_EVT_RCVD_DM,
va009039 0:a05a07cd6fdf 161 CH_EVT_RCVD_MSC_CMD,
va009039 0:a05a07cd6fdf 162 CH_EVT_RCVD_MSC_RSP,
va009039 0:a05a07cd6fdf 163 CH_EVT_RCVD_RPN_CMD,
va009039 0:a05a07cd6fdf 164 CH_EVT_RCVD_RPN_REQ,
va009039 0:a05a07cd6fdf 165 CH_EVT_RCVD_CREDITS,
va009039 0:a05a07cd6fdf 166 CH_EVT_MULTIPLEXER_READY,
va009039 0:a05a07cd6fdf 167 CH_EVT_READY_TO_SEND,
va009039 0:a05a07cd6fdf 168 } RFCOMM_CHANNEL_EVENT;
va009039 0:a05a07cd6fdf 169
va009039 0:a05a07cd6fdf 170 typedef struct rfcomm_channel_event {
va009039 0:a05a07cd6fdf 171 RFCOMM_CHANNEL_EVENT type;
va009039 0:a05a07cd6fdf 172 } rfcomm_channel_event_t;
va009039 0:a05a07cd6fdf 173
va009039 0:a05a07cd6fdf 174 typedef struct rfcomm_channel_event_pn {
va009039 0:a05a07cd6fdf 175 rfcomm_channel_event_t super;
va009039 0:a05a07cd6fdf 176 uint16_t max_frame_size;
va009039 0:a05a07cd6fdf 177 uint8_t priority;
va009039 0:a05a07cd6fdf 178 uint8_t credits_outgoing;
va009039 0:a05a07cd6fdf 179 } rfcomm_channel_event_pn_t;
va009039 0:a05a07cd6fdf 180
va009039 0:a05a07cd6fdf 181 typedef struct rfcomm_rpn_data {
va009039 0:a05a07cd6fdf 182 uint8_t baud_rate;
va009039 0:a05a07cd6fdf 183 uint8_t flags;
va009039 0:a05a07cd6fdf 184 uint8_t flow_control;
va009039 0:a05a07cd6fdf 185 uint8_t xon;
va009039 0:a05a07cd6fdf 186 uint8_t xoff;
va009039 0:a05a07cd6fdf 187 uint8_t parameter_mask_0; // first byte
va009039 0:a05a07cd6fdf 188 uint8_t parameter_mask_1; // second byte
va009039 0:a05a07cd6fdf 189 } rfcomm_rpn_data_t;
va009039 0:a05a07cd6fdf 190
va009039 0:a05a07cd6fdf 191 typedef struct rfcomm_channel_event_rpn {
va009039 0:a05a07cd6fdf 192 rfcomm_channel_event_t super;
va009039 0:a05a07cd6fdf 193 rfcomm_rpn_data_t data;
va009039 0:a05a07cd6fdf 194 } rfcomm_channel_event_rpn_t;
va009039 0:a05a07cd6fdf 195
va009039 0:a05a07cd6fdf 196 // info regarding potential connections
va009039 0:a05a07cd6fdf 197 typedef struct {
va009039 0:a05a07cd6fdf 198 // linked list - assert: first field
va009039 0:a05a07cd6fdf 199 linked_item_t item;
va009039 0:a05a07cd6fdf 200
va009039 0:a05a07cd6fdf 201 // server channel
va009039 0:a05a07cd6fdf 202 uint8_t server_channel;
va009039 0:a05a07cd6fdf 203
va009039 0:a05a07cd6fdf 204 // incoming max frame size
va009039 0:a05a07cd6fdf 205 uint16_t max_frame_size;
va009039 0:a05a07cd6fdf 206
va009039 0:a05a07cd6fdf 207 // use incoming flow control
va009039 0:a05a07cd6fdf 208 uint8_t incoming_flow_control;
va009039 0:a05a07cd6fdf 209
va009039 0:a05a07cd6fdf 210 // initial incoming credits
va009039 0:a05a07cd6fdf 211 uint8_t incoming_initial_credits;
va009039 0:a05a07cd6fdf 212
va009039 0:a05a07cd6fdf 213 // client connection
va009039 0:a05a07cd6fdf 214 void *connection;
va009039 0:a05a07cd6fdf 215
va009039 0:a05a07cd6fdf 216 // internal connection
va009039 0:a05a07cd6fdf 217 btstack_packet_handler_t packet_handler;
va009039 0:a05a07cd6fdf 218
va009039 0:a05a07cd6fdf 219 } rfcomm_service_t;
va009039 0:a05a07cd6fdf 220
va009039 0:a05a07cd6fdf 221 // info regarding multiplexer
va009039 0:a05a07cd6fdf 222 // note: spec mandates single multplexer per device combination
va009039 0:a05a07cd6fdf 223 typedef struct {
va009039 0:a05a07cd6fdf 224 // linked list - assert: first field
va009039 0:a05a07cd6fdf 225 linked_item_t item;
va009039 0:a05a07cd6fdf 226
va009039 0:a05a07cd6fdf 227 timer_source_t timer;
va009039 0:a05a07cd6fdf 228 int timer_active;
va009039 0:a05a07cd6fdf 229
va009039 0:a05a07cd6fdf 230 RFCOMM_MULTIPLEXER_STATE state;
va009039 0:a05a07cd6fdf 231
va009039 0:a05a07cd6fdf 232 uint16_t l2cap_cid;
va009039 0:a05a07cd6fdf 233 uint8_t l2cap_credits;
va009039 0:a05a07cd6fdf 234
va009039 0:a05a07cd6fdf 235 bd_addr_t remote_addr;
va009039 0:a05a07cd6fdf 236 hci_con_handle_t con_handle;
va009039 0:a05a07cd6fdf 237
va009039 0:a05a07cd6fdf 238 uint8_t outgoing;
va009039 0:a05a07cd6fdf 239
va009039 0:a05a07cd6fdf 240 // hack to deal with authentication failure only observed by remote side
va009039 0:a05a07cd6fdf 241 uint8_t at_least_one_connection;
va009039 0:a05a07cd6fdf 242
va009039 0:a05a07cd6fdf 243 uint16_t max_frame_size;
va009039 0:a05a07cd6fdf 244
va009039 0:a05a07cd6fdf 245 // send DM for DLCI != 0
va009039 0:a05a07cd6fdf 246 uint8_t send_dm_for_dlci;
va009039 0:a05a07cd6fdf 247
va009039 0:a05a07cd6fdf 248 } rfcomm_multiplexer_t;
va009039 0:a05a07cd6fdf 249
va009039 0:a05a07cd6fdf 250 // info regarding an actual coneection
va009039 0:a05a07cd6fdf 251 typedef struct {
va009039 0:a05a07cd6fdf 252 // linked list - assert: first field
va009039 0:a05a07cd6fdf 253 linked_item_t item;
va009039 0:a05a07cd6fdf 254
va009039 0:a05a07cd6fdf 255 rfcomm_multiplexer_t *multiplexer;
va009039 0:a05a07cd6fdf 256 uint16_t rfcomm_cid;
va009039 0:a05a07cd6fdf 257 uint8_t outgoing;
va009039 0:a05a07cd6fdf 258 uint8_t dlci;
va009039 0:a05a07cd6fdf 259
va009039 0:a05a07cd6fdf 260 // number of packets granted to client
va009039 0:a05a07cd6fdf 261 uint8_t packets_granted;
va009039 0:a05a07cd6fdf 262
va009039 0:a05a07cd6fdf 263 // credits for outgoing traffic
va009039 0:a05a07cd6fdf 264 uint8_t credits_outgoing;
va009039 0:a05a07cd6fdf 265
va009039 0:a05a07cd6fdf 266 // number of packets remote will be granted
va009039 0:a05a07cd6fdf 267 uint8_t new_credits_incoming;
va009039 0:a05a07cd6fdf 268
va009039 0:a05a07cd6fdf 269 // credits for incoming traffic
va009039 0:a05a07cd6fdf 270 uint8_t credits_incoming;
va009039 0:a05a07cd6fdf 271
va009039 0:a05a07cd6fdf 272 // use incoming flow control
va009039 0:a05a07cd6fdf 273 uint8_t incoming_flow_control;
va009039 0:a05a07cd6fdf 274
va009039 0:a05a07cd6fdf 275 // channel state
va009039 0:a05a07cd6fdf 276 RFCOMM_CHANNEL_STATE state;
va009039 0:a05a07cd6fdf 277
va009039 0:a05a07cd6fdf 278 // state variables used in RFCOMM_CHANNEL_INCOMING
va009039 0:a05a07cd6fdf 279 RFCOMM_CHANNEL_STATE_VAR state_var;
va009039 0:a05a07cd6fdf 280
va009039 0:a05a07cd6fdf 281 // priority set by incoming side in PN
va009039 0:a05a07cd6fdf 282 uint8_t pn_priority;
va009039 0:a05a07cd6fdf 283
va009039 0:a05a07cd6fdf 284 // negotiated frame size
va009039 0:a05a07cd6fdf 285 uint16_t max_frame_size;
va009039 0:a05a07cd6fdf 286
va009039 0:a05a07cd6fdf 287 // rpn data
va009039 0:a05a07cd6fdf 288 rfcomm_rpn_data_t rpn_data;
va009039 0:a05a07cd6fdf 289
va009039 0:a05a07cd6fdf 290 // server channel (see rfcomm_service_t) - NULL => outgoing channel
va009039 0:a05a07cd6fdf 291 rfcomm_service_t * service;
va009039 0:a05a07cd6fdf 292
va009039 0:a05a07cd6fdf 293 // internal connection
va009039 0:a05a07cd6fdf 294 btstack_packet_handler_t packet_handler;
va009039 0:a05a07cd6fdf 295
va009039 0:a05a07cd6fdf 296 // client connection
va009039 0:a05a07cd6fdf 297 void * connection;
va009039 0:a05a07cd6fdf 298
va009039 0:a05a07cd6fdf 299 } rfcomm_channel_t;
va009039 0:a05a07cd6fdf 300
va009039 0:a05a07cd6fdf 301
va009039 0:a05a07cd6fdf 302 #if defined __cplusplus
va009039 0:a05a07cd6fdf 303 }
va009039 0:a05a07cd6fdf 304 #endif