1faa6c1f6SMatthias Ringwald /* 2faa6c1f6SMatthias Ringwald * Copyright (C) 2009-2012 by Matthias Ringwald 3faa6c1f6SMatthias Ringwald * 4faa6c1f6SMatthias Ringwald * Redistribution and use in source and binary forms, with or without 5faa6c1f6SMatthias Ringwald * modification, are permitted provided that the following conditions 6faa6c1f6SMatthias Ringwald * are met: 7faa6c1f6SMatthias Ringwald * 8faa6c1f6SMatthias Ringwald * 1. Redistributions of source code must retain the above copyright 9faa6c1f6SMatthias Ringwald * notice, this list of conditions and the following disclaimer. 10faa6c1f6SMatthias Ringwald * 2. Redistributions in binary form must reproduce the above copyright 11faa6c1f6SMatthias Ringwald * notice, this list of conditions and the following disclaimer in the 12faa6c1f6SMatthias Ringwald * documentation and/or other materials provided with the distribution. 13faa6c1f6SMatthias Ringwald * 3. Neither the name of the copyright holders nor the names of 14faa6c1f6SMatthias Ringwald * contributors may be used to endorse or promote products derived 15faa6c1f6SMatthias Ringwald * from this software without specific prior written permission. 16faa6c1f6SMatthias Ringwald * 4. Any redistribution, use, or modification is done solely for 17faa6c1f6SMatthias Ringwald * personal benefit and not for any commercial purpose or for 18faa6c1f6SMatthias Ringwald * monetary gain. 19faa6c1f6SMatthias Ringwald * 20faa6c1f6SMatthias Ringwald * THIS SOFTWARE IS PROVIDED BY MATTHIAS RINGWALD AND CONTRIBUTORS 21faa6c1f6SMatthias Ringwald * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 22faa6c1f6SMatthias Ringwald * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 23faa6c1f6SMatthias Ringwald * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS 24faa6c1f6SMatthias Ringwald * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 25faa6c1f6SMatthias Ringwald * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 26faa6c1f6SMatthias Ringwald * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 27faa6c1f6SMatthias Ringwald * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 28faa6c1f6SMatthias Ringwald * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 29faa6c1f6SMatthias Ringwald * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 30faa6c1f6SMatthias Ringwald * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31faa6c1f6SMatthias Ringwald * SUCH DAMAGE. 32faa6c1f6SMatthias Ringwald * 3351acb414SMatthias Ringwald * Please inquire about commercial licensing options at [email protected] 34faa6c1f6SMatthias Ringwald * 35faa6c1f6SMatthias Ringwald */ 36faa6c1f6SMatthias Ringwald 37*ab2c6ae4SMatthias Ringwald #define __BTSTACK_FILE__ "btstack_chipset_cc256x.c" 38*ab2c6ae4SMatthias Ringwald 39faa6c1f6SMatthias Ringwald /* 40fb55bd0aSMatthias Ringwald * btstack_chipset_cc256x.c 41faa6c1f6SMatthias Ringwald * 42faa6c1f6SMatthias Ringwald * Adapter to use cc256x-based chipsets with BTstack 43faa6c1f6SMatthias Ringwald * 44faa6c1f6SMatthias Ringwald * Handles init script (a.k.a. Service Patch) 45faa6c1f6SMatthias Ringwald * Allows for non-standard UART baud rate 46faa6c1f6SMatthias Ringwald * Allows to configure transmit power 47faa6c1f6SMatthias Ringwald * Allows to activate eHCILL deep sleep mode 48faa6c1f6SMatthias Ringwald * 49faa6c1f6SMatthias Ringwald * Issues with mspgcc LTS: 50faa6c1f6SMatthias Ringwald * - 20 bit support is not there yet -> .text cannot get bigger than 48 kb 51faa6c1f6SMatthias Ringwald * - arrays cannot have more than 32k entries 52faa6c1f6SMatthias Ringwald * 53faa6c1f6SMatthias Ringwald * workarounds: 54faa6c1f6SMatthias Ringwald * - store init script in .fartext and use assembly code to read from there 55faa6c1f6SMatthias Ringwald * - split into two arrays 56faa6c1f6SMatthias Ringwald * 57faa6c1f6SMatthias Ringwald * Issues with AVR 58faa6c1f6SMatthias Ringwald * - Harvard architecture doesn't allow to store init script directly -> use avr-libc helpers 59faa6c1f6SMatthias Ringwald * 60faa6c1f6SMatthias Ringwald * Documentation for TI VS CC256x commands: http://processors.wiki.ti.com/index.php/CC256x_VS_HCI_Commands 61faa6c1f6SMatthias Ringwald * 62faa6c1f6SMatthias Ringwald */ 63faa6c1f6SMatthias Ringwald 64faa6c1f6SMatthias Ringwald #include "btstack_config.h" 65fb55bd0aSMatthias Ringwald #include "btstack_chipset_cc256x.h" 66faa6c1f6SMatthias Ringwald 67faa6c1f6SMatthias Ringwald #include <stddef.h> /* NULL */ 68faa6c1f6SMatthias Ringwald #include <stdio.h> 69faa6c1f6SMatthias Ringwald #include <string.h> /* memcpy */ 70faa6c1f6SMatthias Ringwald 71faa6c1f6SMatthias Ringwald #if defined(__GNUC__) && defined(__MSP430X__) && (__MSP430X__ > 0) 72faa6c1f6SMatthias Ringwald #include "hal_compat.h" 73faa6c1f6SMatthias Ringwald #endif 74faa6c1f6SMatthias Ringwald 75faa6c1f6SMatthias Ringwald #ifdef __AVR__ 76faa6c1f6SMatthias Ringwald #include <avr/pgmspace.h> 77faa6c1f6SMatthias Ringwald #endif 78faa6c1f6SMatthias Ringwald 79faa6c1f6SMatthias Ringwald #include "btstack_control.h" 80faa6c1f6SMatthias Ringwald 81faa6c1f6SMatthias Ringwald 82faa6c1f6SMatthias Ringwald // actual init script provided by seperate .c file 83faa6c1f6SMatthias Ringwald extern const uint8_t cc256x_init_script[]; 84faa6c1f6SMatthias Ringwald extern const uint32_t cc256x_init_script_size; 85faa6c1f6SMatthias Ringwald 86faa6c1f6SMatthias Ringwald // init script 87faa6c1f6SMatthias Ringwald static uint32_t init_script_offset = 0; 88faa6c1f6SMatthias Ringwald static int16_t init_power_in_dB = 13; // 13 dBm 89faa6c1f6SMatthias Ringwald 90faa6c1f6SMatthias Ringwald // support for SCO over HCI 9171c4de7aSMatthias Ringwald #ifdef ENABLE_SCO_OVER_HCI 92faa6c1f6SMatthias Ringwald static int init_send_route_sco_over_hci = 0; 93638e16f3SMatthias Ringwald static const uint8_t hci_route_sco_over_hci[] = { 94638e16f3SMatthias Ringwald #if 1 955415113fSMatthias Ringwald // Follow recommendation from https://e2e.ti.com/support/wireless_connectivity/bluetooth_cc256x/f/660/t/397004 965415113fSMatthias Ringwald // route SCO over HCI (connection type=1, tx buffer size = 120, tx buffer max latency= 720, accept packets with CRC Error 975415113fSMatthias Ringwald 0x10, 0xfe, 0x05, 0x01, 0x78, 0xd0, 0x02, 0x01, 98638e16f3SMatthias Ringwald #else 99638e16f3SMatthias Ringwald // Configure SCO via I2S interface - 256 kbps 100638e16f3SMatthias Ringwald // Send_HCI_VS_Write_CODEC_Config 0xFD06, 101638e16f3SMatthias Ringwald 0x06, 0xfd, 102638e16f3SMatthias Ringwald // len 103638e16f3SMatthias Ringwald 34, 104638e16f3SMatthias Ringwald //3072, - clock rate 3072000 hz 105638e16f3SMatthias Ringwald 0x00, 0x01, 106638e16f3SMatthias Ringwald // 0x00 - clock direction: output = master 107638e16f3SMatthias Ringwald 0x00, 108638e16f3SMatthias Ringwald // 8000, framesync frequency in hz 109638e16f3SMatthias Ringwald 0x40, 0x1f, 0x00, 0x00, 110638e16f3SMatthias Ringwald // 0x0001, framesync duty cycle 111638e16f3SMatthias Ringwald 0x01, 0x00, 112638e16f3SMatthias Ringwald // 1, framesync edge 113638e16f3SMatthias Ringwald 1, 114638e16f3SMatthias Ringwald // 0x00, framesync polarity 115638e16f3SMatthias Ringwald 0x00, 116638e16f3SMatthias Ringwald // 0x00, RESERVED 117638e16f3SMatthias Ringwald 0x00, 118638e16f3SMatthias Ringwald // 16, channel 1 out size 119638e16f3SMatthias Ringwald 8, 0, 120638e16f3SMatthias Ringwald // 0x0001, channel 1 out offset 121638e16f3SMatthias Ringwald 0x01, 0x00, 122638e16f3SMatthias Ringwald // 1, channel 1 out edge 123638e16f3SMatthias Ringwald 1, 124638e16f3SMatthias Ringwald // 16, channel 1 in size 125638e16f3SMatthias Ringwald 8, 0, 126638e16f3SMatthias Ringwald // 0x0001, channel 1 in offset 127638e16f3SMatthias Ringwald 0x01, 0x00, 128638e16f3SMatthias Ringwald // 0, channel 1 in edge 129638e16f3SMatthias Ringwald 0, 130638e16f3SMatthias Ringwald // 0x00, RESERVED 131638e16f3SMatthias Ringwald 0x00, 132638e16f3SMatthias Ringwald // 16, channel 2 out size 133638e16f3SMatthias Ringwald 8, 0, 134638e16f3SMatthias Ringwald // 17, channel 2 out offset 135638e16f3SMatthias Ringwald 9, 0, 136638e16f3SMatthias Ringwald // 0x01, channel 2 out edge 137638e16f3SMatthias Ringwald 0x01, 138638e16f3SMatthias Ringwald // 16, channel 2 in size 139638e16f3SMatthias Ringwald 8, 0, 140638e16f3SMatthias Ringwald // 17, channel 2 in offset 141638e16f3SMatthias Ringwald 9, 0, 142638e16f3SMatthias Ringwald // 0x00, channel 2 in edge 143638e16f3SMatthias Ringwald 0x00, 144638e16f3SMatthias Ringwald // 0x0001, RESERVED 145638e16f3SMatthias Ringwald 0x00 146638e16f3SMatthias Ringwald #endif 147faa6c1f6SMatthias Ringwald }; 148faa6c1f6SMatthias Ringwald #endif 149faa6c1f6SMatthias Ringwald 150fb55bd0aSMatthias Ringwald static void chipset_init(const void * config){ 151faa6c1f6SMatthias Ringwald init_script_offset = 0; 15271c4de7aSMatthias Ringwald #ifdef ENABLE_SCO_OVER_HCI 153faa6c1f6SMatthias Ringwald init_send_route_sco_over_hci = 1; 154faa6c1f6SMatthias Ringwald #endif 155faa6c1f6SMatthias Ringwald } 156faa6c1f6SMatthias Ringwald 157faa6c1f6SMatthias Ringwald static void chipset_set_baudrate_command(uint32_t baudrate, uint8_t *hci_cmd_buffer){ 158faa6c1f6SMatthias Ringwald hci_cmd_buffer[0] = 0x36; 159faa6c1f6SMatthias Ringwald hci_cmd_buffer[1] = 0xFF; 160faa6c1f6SMatthias Ringwald hci_cmd_buffer[2] = 0x04; 161faa6c1f6SMatthias Ringwald hci_cmd_buffer[3] = baudrate & 0xff; 162faa6c1f6SMatthias Ringwald hci_cmd_buffer[4] = (baudrate >> 8) & 0xff; 163faa6c1f6SMatthias Ringwald hci_cmd_buffer[5] = (baudrate >> 16) & 0xff; 164faa6c1f6SMatthias Ringwald hci_cmd_buffer[6] = 0; 165faa6c1f6SMatthias Ringwald } 166faa6c1f6SMatthias Ringwald 167faa6c1f6SMatthias Ringwald static void chipset_set_bd_addr_command(bd_addr_t addr, uint8_t *hci_cmd_buffer){ 168e63eef5dSMatthias Ringwald hci_cmd_buffer[0] = 0x06; 169e63eef5dSMatthias Ringwald hci_cmd_buffer[1] = 0xFC; 170e63eef5dSMatthias Ringwald hci_cmd_buffer[2] = 0x06; 171e63eef5dSMatthias Ringwald reverse_bd_addr(addr, &hci_cmd_buffer[3]); 172faa6c1f6SMatthias Ringwald } 173faa6c1f6SMatthias Ringwald 174faa6c1f6SMatthias Ringwald // Output Power control from: http://e2e.ti.com/support/low_power_rf/f/660/p/134853/484767.aspx 175faa6c1f6SMatthias Ringwald #define NUM_POWER_LEVELS 16 176faa6c1f6SMatthias Ringwald #define DB_MIN_LEVEL -35 177faa6c1f6SMatthias Ringwald #define DB_PER_LEVEL 5 178faa6c1f6SMatthias Ringwald #define DB_DYNAMIC_RANGE 30 179faa6c1f6SMatthias Ringwald 180faa6c1f6SMatthias Ringwald static int get_max_power_for_modulation_type(int type){ 181faa6c1f6SMatthias Ringwald // a) limit max output power 182faa6c1f6SMatthias Ringwald int power_db; 183faa6c1f6SMatthias Ringwald switch (type){ 184faa6c1f6SMatthias Ringwald case 0: // GFSK 185faa6c1f6SMatthias Ringwald power_db = 12; 186faa6c1f6SMatthias Ringwald break; 187faa6c1f6SMatthias Ringwald default: // EDRx 188faa6c1f6SMatthias Ringwald power_db = 10; 189faa6c1f6SMatthias Ringwald break; 190faa6c1f6SMatthias Ringwald } 191faa6c1f6SMatthias Ringwald if (power_db > init_power_in_dB) { 192faa6c1f6SMatthias Ringwald power_db = init_power_in_dB; 193faa6c1f6SMatthias Ringwald } 194faa6c1f6SMatthias Ringwald return power_db; 195faa6c1f6SMatthias Ringwald } 196faa6c1f6SMatthias Ringwald 197faa6c1f6SMatthias Ringwald static int get_highest_level_for_given_power(int power_db, int recommended_db){ 198faa6c1f6SMatthias Ringwald int i = NUM_POWER_LEVELS-1; 199faa6c1f6SMatthias Ringwald while (i) { 200faa6c1f6SMatthias Ringwald if (power_db <= recommended_db) { 201faa6c1f6SMatthias Ringwald return i; 202faa6c1f6SMatthias Ringwald } 203faa6c1f6SMatthias Ringwald power_db -= DB_PER_LEVEL; 204faa6c1f6SMatthias Ringwald i--; 205faa6c1f6SMatthias Ringwald } 206faa6c1f6SMatthias Ringwald return 0; 207faa6c1f6SMatthias Ringwald } 208faa6c1f6SMatthias Ringwald 209faa6c1f6SMatthias Ringwald static void update_set_power_vector(uint8_t *hci_cmd_buffer){ 210faa6c1f6SMatthias Ringwald int i; 211faa6c1f6SMatthias Ringwald int modulation_type = hci_cmd_buffer[3]; 212faa6c1f6SMatthias Ringwald int power_db = get_max_power_for_modulation_type(modulation_type); 213faa6c1f6SMatthias Ringwald int dynamic_range = 0; 214faa6c1f6SMatthias Ringwald 215faa6c1f6SMatthias Ringwald // f) don't touch level 0 216faa6c1f6SMatthias Ringwald for ( i = (NUM_POWER_LEVELS-1) ; i >= 1 ; i--){ 217faa6c1f6SMatthias Ringwald 218faa6c1f6SMatthias Ringwald #ifdef ENABLE_BLE 219faa6c1f6SMatthias Ringwald // level 1 is BLE transmit power for GFSK 220faa6c1f6SMatthias Ringwald if (i == 1 && modulation_type == 0) { 221faa6c1f6SMatthias Ringwald hci_cmd_buffer[4+1] = 2 * get_max_power_for_modulation_type(modulation_type); 222faa6c1f6SMatthias Ringwald // as level 0 isn't set, we're done 223faa6c1f6SMatthias Ringwald continue; 224faa6c1f6SMatthias Ringwald } 225faa6c1f6SMatthias Ringwald #endif 226faa6c1f6SMatthias Ringwald hci_cmd_buffer[4+i] = 2 * power_db; 227faa6c1f6SMatthias Ringwald 228faa6c1f6SMatthias Ringwald if (dynamic_range + DB_PER_LEVEL > DB_DYNAMIC_RANGE) continue; // e) 229faa6c1f6SMatthias Ringwald 230faa6c1f6SMatthias Ringwald power_db -= DB_PER_LEVEL; // d) 231faa6c1f6SMatthias Ringwald dynamic_range += DB_PER_LEVEL; 232faa6c1f6SMatthias Ringwald 233faa6c1f6SMatthias Ringwald if (power_db > DB_MIN_LEVEL) continue; 234faa6c1f6SMatthias Ringwald 235faa6c1f6SMatthias Ringwald power_db = DB_MIN_LEVEL; // b) 236faa6c1f6SMatthias Ringwald } 237faa6c1f6SMatthias Ringwald } 238faa6c1f6SMatthias Ringwald 239faa6c1f6SMatthias Ringwald // max permitted power for class 2 devices: 4 dBm 240faa6c1f6SMatthias Ringwald static void update_set_class2_single_power(uint8_t * hci_cmd_buffer){ 241faa6c1f6SMatthias Ringwald const int max_power_class_2 = 4; 242faa6c1f6SMatthias Ringwald int i = 0; 243faa6c1f6SMatthias Ringwald for (i=0;i<3;i++){ 244faa6c1f6SMatthias Ringwald hci_cmd_buffer[3+i] = get_highest_level_for_given_power(get_max_power_for_modulation_type(i), max_power_class_2); 245faa6c1f6SMatthias Ringwald } 246faa6c1f6SMatthias Ringwald } 247faa6c1f6SMatthias Ringwald 248faa6c1f6SMatthias Ringwald // eHCILL activate from http://e2e.ti.com/support/low_power_rf/f/660/p/134855/484776.aspx 249faa6c1f6SMatthias Ringwald static void update_sleep_mode_configurations(uint8_t * hci_cmd_buffer){ 250f6a20ec9SMatthias Ringwald #ifdef ENABLE_EHCILL 251faa6c1f6SMatthias Ringwald hci_cmd_buffer[4] = 1; 252f6a20ec9SMatthias Ringwald #else 253faa6c1f6SMatthias Ringwald hci_cmd_buffer[4] = 0; 254f6a20ec9SMatthias Ringwald #endif 255faa6c1f6SMatthias Ringwald } 256faa6c1f6SMatthias Ringwald 257faa6c1f6SMatthias Ringwald static void update_init_script_command(uint8_t *hci_cmd_buffer){ 258faa6c1f6SMatthias Ringwald 259faa6c1f6SMatthias Ringwald uint16_t opcode = hci_cmd_buffer[0] | (hci_cmd_buffer[1] << 8); 260faa6c1f6SMatthias Ringwald 261faa6c1f6SMatthias Ringwald switch (opcode){ 262faa6c1f6SMatthias Ringwald case 0xFD87: 263faa6c1f6SMatthias Ringwald update_set_class2_single_power(hci_cmd_buffer); 264faa6c1f6SMatthias Ringwald break; 265faa6c1f6SMatthias Ringwald case 0xFD82: 266faa6c1f6SMatthias Ringwald update_set_power_vector(hci_cmd_buffer); 267faa6c1f6SMatthias Ringwald break; 268faa6c1f6SMatthias Ringwald case 0xFD0C: 269faa6c1f6SMatthias Ringwald update_sleep_mode_configurations(hci_cmd_buffer); 270faa6c1f6SMatthias Ringwald break; 271faa6c1f6SMatthias Ringwald default: 272faa6c1f6SMatthias Ringwald break; 273faa6c1f6SMatthias Ringwald } 274faa6c1f6SMatthias Ringwald } 275faa6c1f6SMatthias Ringwald 276faa6c1f6SMatthias Ringwald static btstack_chipset_result_t chipset_next_command(uint8_t * hci_cmd_buffer){ 277faa6c1f6SMatthias Ringwald if (init_script_offset >= cc256x_init_script_size) { 278faa6c1f6SMatthias Ringwald 27971c4de7aSMatthias Ringwald #ifdef ENABLE_SCO_OVER_HCI 280faa6c1f6SMatthias Ringwald // append send route SCO over HCI if requested 281faa6c1f6SMatthias Ringwald if (init_send_route_sco_over_hci){ 282faa6c1f6SMatthias Ringwald init_send_route_sco_over_hci = 0; 283faa6c1f6SMatthias Ringwald memcpy(hci_cmd_buffer, hci_route_sco_over_hci, sizeof(hci_route_sco_over_hci)); 284faa6c1f6SMatthias Ringwald return BTSTACK_CHIPSET_VALID_COMMAND; 285faa6c1f6SMatthias Ringwald } 286faa6c1f6SMatthias Ringwald #endif 287faa6c1f6SMatthias Ringwald 288faa6c1f6SMatthias Ringwald return BTSTACK_CHIPSET_DONE; 289faa6c1f6SMatthias Ringwald } 290faa6c1f6SMatthias Ringwald 291faa6c1f6SMatthias Ringwald // extracted init script has 0x01 cmd packet type, but BTstack expects them without 292faa6c1f6SMatthias Ringwald init_script_offset++; 293faa6c1f6SMatthias Ringwald 294faa6c1f6SMatthias Ringwald #if defined(__GNUC__) && defined(__MSP430X__) && (__MSP430X__ > 0) 295faa6c1f6SMatthias Ringwald 296faa6c1f6SMatthias Ringwald // workaround: use FlashReadBlock with 32-bit integer and assume init script starts at 0x10000 297faa6c1f6SMatthias Ringwald uint32_t init_script_addr = 0x10000; 298faa6c1f6SMatthias Ringwald FlashReadBlock(&hci_cmd_buffer[0], init_script_addr + init_script_offset, 3); // cmd header 299faa6c1f6SMatthias Ringwald init_script_offset += 3; 300faa6c1f6SMatthias Ringwald int payload_len = hci_cmd_buffer[2]; 301faa6c1f6SMatthias Ringwald FlashReadBlock(&hci_cmd_buffer[3], init_script_addr + init_script_offset, payload_len); // cmd payload 302faa6c1f6SMatthias Ringwald 303faa6c1f6SMatthias Ringwald #elif defined (__AVR__) 304faa6c1f6SMatthias Ringwald 305faa6c1f6SMatthias Ringwald // workaround: use memcpy_P to access init script in lower 64 kB of flash 306faa6c1f6SMatthias Ringwald memcpy_P(&hci_cmd_buffer[0], &cc256x_init_script[init_script_offset], 3); 307faa6c1f6SMatthias Ringwald init_script_offset += 3; 308faa6c1f6SMatthias Ringwald int payload_len = hci_cmd_buffer[2]; 309faa6c1f6SMatthias Ringwald memcpy_P(&hci_cmd_buffer[3], &cc256x_init_script[init_script_offset], payload_len); 310faa6c1f6SMatthias Ringwald 311faa6c1f6SMatthias Ringwald #else 312faa6c1f6SMatthias Ringwald 313faa6c1f6SMatthias Ringwald // use memcpy with pointer 314faa6c1f6SMatthias Ringwald uint8_t * init_script_ptr = (uint8_t*) &cc256x_init_script[0]; 315faa6c1f6SMatthias Ringwald memcpy(&hci_cmd_buffer[0], init_script_ptr + init_script_offset, 3); // cmd header 316faa6c1f6SMatthias Ringwald init_script_offset += 3; 317faa6c1f6SMatthias Ringwald int payload_len = hci_cmd_buffer[2]; 318faa6c1f6SMatthias Ringwald memcpy(&hci_cmd_buffer[3], init_script_ptr + init_script_offset, payload_len); // cmd payload 319faa6c1f6SMatthias Ringwald 320faa6c1f6SMatthias Ringwald #endif 321faa6c1f6SMatthias Ringwald 322faa6c1f6SMatthias Ringwald init_script_offset += payload_len; 323faa6c1f6SMatthias Ringwald 324faa6c1f6SMatthias Ringwald // control power commands and ehcill 325faa6c1f6SMatthias Ringwald update_init_script_command(hci_cmd_buffer); 326faa6c1f6SMatthias Ringwald 327faa6c1f6SMatthias Ringwald return BTSTACK_CHIPSET_VALID_COMMAND; 328faa6c1f6SMatthias Ringwald } 329faa6c1f6SMatthias Ringwald 330faa6c1f6SMatthias Ringwald 331faa6c1f6SMatthias Ringwald // MARK: public API 332faa6c1f6SMatthias Ringwald void btstack_chipset_cc256x_set_power(int16_t power_in_dB){ 333faa6c1f6SMatthias Ringwald init_power_in_dB = power_in_dB; 334faa6c1f6SMatthias Ringwald } 335faa6c1f6SMatthias Ringwald 336faa6c1f6SMatthias Ringwald static const btstack_chipset_t btstack_chipset_cc256x = { 337faa6c1f6SMatthias Ringwald "CC256x", 338faa6c1f6SMatthias Ringwald chipset_init, 339faa6c1f6SMatthias Ringwald chipset_next_command, 340faa6c1f6SMatthias Ringwald chipset_set_baudrate_command, 341e63eef5dSMatthias Ringwald chipset_set_bd_addr_command, 342faa6c1f6SMatthias Ringwald }; 343faa6c1f6SMatthias Ringwald 344faa6c1f6SMatthias Ringwald const btstack_chipset_t * btstack_chipset_cc256x_instance(void){ 345faa6c1f6SMatthias Ringwald return &btstack_chipset_cc256x; 346faa6c1f6SMatthias Ringwald } 347faa6c1f6SMatthias Ringwald 348