1 /* 2 * Copyright (C) 2011 by Matthias Ringwald 3 * 4 * Redistribution and use in source and binary forms, with or without 5 * modification, are permitted provided that the following conditions 6 * are met: 7 * 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 3. Neither the name of the copyright holders nor the names of 14 * contributors may be used to endorse or promote products derived 15 * from this software without specific prior written permission. 16 * 17 * THIS SOFTWARE IS PROVIDED BY MATTHIAS RINGWALD AND CONTRIBUTORS 18 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 19 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 20 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS 21 * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 22 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 23 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 24 * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 25 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 26 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 27 * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 * SUCH DAMAGE. 29 * 30 */ 31 32 /* 33 * btstsack_memory.h 34 * 35 * @brief BTstack memory management via configurable memory pools 36 * 37 * @note code semi-atuomatically generated by btstack_memory_generator.py 38 * 39 */ 40 41 #include "btstack_memory.h" 42 #include <btstack/memory_pool.h> 43 44 #include <stdlib.h> 45 46 #include "config.h" 47 #include "hci.h" 48 #include "l2cap.h" 49 #include "rfcomm.h" 50 51 // MARK: hci_connection_t 52 #ifdef MAX_NO_HCI_CONNECTIONS 53 static hci_connection_t hci_connection_storage[MAX_NO_HCI_CONNECTIONS]; 54 static memory_pool_t hci_connection_pool; 55 void * btstack_memory_hci_connection_get(void){ 56 return memory_pool_get(&hci_connection_pool); 57 } 58 void btstack_memory_hci_connection_free(void *hci_connection){ 59 memory_pool_free(&hci_connection_pool, hci_connection); 60 } 61 #elif defined(HAVE_MALLOC) 62 void * btstack_memory_hci_connection_get(void){ 63 return malloc(sizeof(hci_connection_t)); 64 } 65 void btstack_memory_hci_connection_free(void *hci_connection){ 66 free(hci_connection); 67 } 68 #endif 69 70 71 // MARK: l2cap_service_t 72 #ifdef MAX_NO_L2CAP_SERVICES 73 static l2cap_service_t l2cap_service_storage[MAX_NO_L2CAP_SERVICES]; 74 static memory_pool_t l2cap_service_pool; 75 void * btstack_memory_l2cap_service_get(void){ 76 return memory_pool_get(&l2cap_service_pool); 77 } 78 void btstack_memory_l2cap_service_free(void *l2cap_service){ 79 memory_pool_free(&l2cap_service_pool, l2cap_service); 80 } 81 #elif defined(HAVE_MALLOC) 82 void * btstack_memory_l2cap_service_get(void){ 83 return malloc(sizeof(l2cap_service_t)); 84 } 85 void btstack_memory_l2cap_service_free(void *l2cap_service){ 86 free(l2cap_service); 87 } 88 #endif 89 90 91 // MARK: l2cap_channel_t 92 #ifdef MAX_NO_L2CAP_CHANNELS 93 static l2cap_channel_t l2cap_channel_storage[MAX_NO_L2CAP_CHANNELS]; 94 static memory_pool_t l2cap_channel_pool; 95 void * btstack_memory_l2cap_channel_get(void){ 96 return memory_pool_get(&l2cap_channel_pool); 97 } 98 void btstack_memory_l2cap_channel_free(void *l2cap_channel){ 99 memory_pool_free(&l2cap_channel_pool, l2cap_channel); 100 } 101 #elif defined(HAVE_MALLOC) 102 void * btstack_memory_l2cap_channel_get(void){ 103 return malloc(sizeof(l2cap_channel_t)); 104 } 105 void btstack_memory_l2cap_channel_free(void *l2cap_channel){ 106 free(l2cap_channel); 107 } 108 #endif 109 110 111 // MARK: rfcomm_multiplexer_t 112 #ifdef MAX_NO_RFCOMM_MULTIPLEXERS 113 static rfcomm_multiplexer_t rfcomm_multiplexer_storage[MAX_NO_RFCOMM_MULTIPLEXERS]; 114 static memory_pool_t rfcomm_multiplexer_pool; 115 void * btstack_memory_rfcomm_multiplexer_get(void){ 116 return memory_pool_get(&rfcomm_multiplexer_pool); 117 } 118 void btstack_memory_rfcomm_multiplexer_free(void *rfcomm_multiplexer){ 119 memory_pool_free(&rfcomm_multiplexer_pool, rfcomm_multiplexer); 120 } 121 #elif defined(HAVE_MALLOC) 122 void * btstack_memory_rfcomm_multiplexer_get(void){ 123 return malloc(sizeof(rfcomm_multiplexer_t)); 124 } 125 void btstack_memory_rfcomm_multiplexer_free(void *rfcomm_multiplexer){ 126 free(rfcomm_multiplexer); 127 } 128 #endif 129 130 131 // MARK: rfcomm_service_t 132 #ifdef MAX_NO_RFCOMM_SERVICES 133 static rfcomm_service_t rfcomm_service_storage[MAX_NO_RFCOMM_SERVICES]; 134 static memory_pool_t rfcomm_service_pool; 135 void * btstack_memory_rfcomm_service_get(void){ 136 return memory_pool_get(&rfcomm_service_pool); 137 } 138 void btstack_memory_rfcomm_service_free(void *rfcomm_service){ 139 memory_pool_free(&rfcomm_service_pool, rfcomm_service); 140 } 141 #elif defined(HAVE_MALLOC) 142 void * btstack_memory_rfcomm_service_get(void){ 143 return malloc(sizeof(rfcomm_service_t)); 144 } 145 void btstack_memory_rfcomm_service_free(void *rfcomm_service){ 146 free(rfcomm_service); 147 } 148 #endif 149 150 151 // MARK: rfcomm_channel_t 152 #ifdef MAX_NO_RFCOMM_CHANNELS 153 static rfcomm_channel_t rfcomm_channel_storage[MAX_NO_RFCOMM_CHANNELS]; 154 static memory_pool_t rfcomm_channel_pool; 155 void * btstack_memory_rfcomm_channel_get(void){ 156 return memory_pool_get(&rfcomm_channel_pool); 157 } 158 void btstack_memory_rfcomm_channel_free(void *rfcomm_channel){ 159 memory_pool_free(&rfcomm_channel_pool, rfcomm_channel); 160 } 161 #elif defined(HAVE_MALLOC) 162 void * btstack_memory_rfcomm_channel_get(void){ 163 return malloc(sizeof(rfcomm_channel_t)); 164 } 165 void btstack_memory_rfcomm_channel_free(void *rfcomm_channel){ 166 free(rfcomm_channel); 167 } 168 #endif 169 170 171 // MARK: db_mem_device_name_t 172 #ifdef MAX_NO_DB_MEM_DEVICE_NAMES 173 static db_mem_device_name_t db_mem_device_name_storage[MAX_NO_DB_MEM_DEVICE_NAMES]; 174 static memory_pool_t db_mem_device_name_pool; 175 void * btstack_memory_db_mem_device_name_get(void){ 176 return memory_pool_get(&db_mem_device_name_pool); 177 } 178 void btstack_memory_db_mem_device_name_free(void *db_mem_device_name){ 179 memory_pool_free(&db_mem_device_name_pool, db_mem_device_name); 180 } 181 #elif defined(HAVE_MALLOC) 182 void * btstack_memory_db_mem_device_name_get(void){ 183 return malloc(sizeof(db_mem_device_name_t)); 184 } 185 void btstack_memory_db_mem_device_name_free(void *db_mem_device_name){ 186 free(db_mem_device_name); 187 } 188 #endif 189 190 191 // MARK: db_mem_device_link_key_t 192 #ifdef MAX_NO_DB_MEM_DEVICE_LINK_KEYS 193 static db_mem_device_link_key_t db_mem_device_link_key_storage[MAX_NO_DB_MEM_DEVICE_LINK_KEYS]; 194 static memory_pool_t db_mem_device_link_key_pool; 195 void * btstack_memory_db_mem_device_link_key_get(void){ 196 return memory_pool_get(&db_mem_device_link_key_pool); 197 } 198 void btstack_memory_db_mem_device_link_key_free(void *db_mem_device_link_key){ 199 memory_pool_free(&db_mem_device_link_key_pool, db_mem_device_link_key); 200 } 201 #elif defined(HAVE_MALLOC) 202 void * btstack_memory_db_mem_device_link_key_get(void){ 203 return malloc(sizeof(db_mem_device_link_key_t)); 204 } 205 void btstack_memory_db_mem_device_link_key_free(void *db_mem_device_link_key){ 206 free(db_mem_device_link_key); 207 } 208 #endif 209 210 211 // MARK: db_mem_service_t 212 #ifdef MAX_NO_DB_MEM_SERVICES 213 static db_mem_service_t db_mem_service_storage[MAX_NO_DB_MEM_SERVICES]; 214 static memory_pool_t db_mem_service_pool; 215 void * btstack_memory_db_mem_service_get(void){ 216 return memory_pool_get(&db_mem_service_pool); 217 } 218 void btstack_memory_db_mem_service_free(void *db_mem_service){ 219 memory_pool_free(&db_mem_service_pool, db_mem_service); 220 } 221 #elif defined(HAVE_MALLOC) 222 void * btstack_memory_db_mem_service_get(void){ 223 return malloc(sizeof(db_mem_service_t)); 224 } 225 void btstack_memory_db_mem_service_free(void *db_mem_service){ 226 free(db_mem_service); 227 } 228 #endif 229 230 // init 231 void btstack_memory_init(void){ 232 #ifdef MAX_NO_HCI_CONNECTIONS 233 memory_pool_create(&hci_connection_pool, hci_connection_storage, MAX_NO_HCI_CONNECTIONS, sizeof(hci_connection_t)); 234 #endif 235 #ifdef MAX_NO_L2CAP_SERVICES 236 memory_pool_create(&l2cap_service_pool, l2cap_service_storage, MAX_NO_L2CAP_SERVICES, sizeof(l2cap_service_t)); 237 #endif 238 #ifdef MAX_NO_L2CAP_CHANNELS 239 memory_pool_create(&l2cap_channel_pool, l2cap_channel_storage, MAX_NO_L2CAP_CHANNELS, sizeof(l2cap_channel_t)); 240 #endif 241 #ifdef MAX_NO_RFCOMM_MULTIPLEXERS 242 memory_pool_create(&rfcomm_multiplexer_pool, rfcomm_multiplexer_storage, MAX_NO_RFCOMM_MULTIPLEXERS, sizeof(rfcomm_multiplexer_t)); 243 #endif 244 #ifdef MAX_NO_RFCOMM_SERVICES 245 memory_pool_create(&rfcomm_service_pool, rfcomm_service_storage, MAX_NO_RFCOMM_SERVICES, sizeof(rfcomm_service_t)); 246 #endif 247 #ifdef MAX_NO_RFCOMM_CHANNELS 248 memory_pool_create(&rfcomm_channel_pool, rfcomm_channel_storage, MAX_NO_RFCOMM_CHANNELS, sizeof(rfcomm_channel_t)); 249 #endif 250 #ifdef MAX_NO_DB_MEM_DEVICE_NAMES 251 memory_pool_create(&db_mem_device_name_pool, db_mem_device_name_storage, MAX_NO_DB_MEM_DEVICE_NAMES, sizeof(db_mem_device_name_t)); 252 #endif 253 #ifdef MAX_NO_DB_MEM_DEVICE_LINK_KEYS 254 memory_pool_create(&db_mem_device_link_key_pool, db_mem_device_link_key_storage, MAX_NO_DB_MEM_DEVICE_LINK_KEYS, sizeof(db_mem_device_link_key_t)); 255 #endif 256 #ifdef MAX_NO_DB_MEM_SERVICES 257 memory_pool_create(&db_mem_service_pool, db_mem_service_storage, MAX_NO_DB_MEM_SERVICES, sizeof(db_mem_service_t)); 258 #endif 259 }