/* * Copyright (C) 2014 BlueKitchen GmbH * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the copyright holders nor the names of * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * 4. Any redistribution, use, or modification is done solely for * personal benefit and not for any commercial purpose or for * monetary gain. * * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * Please inquire about commercial licensing options at * contact@bluekitchen-gmbh.com * */ #define __BTSTACK_FILE__ "hci_cmd.c" /* * hci_cmd.c * * Created by Matthias Ringwald on 7/23/09. */ #include "btstack_config.h" #include "classic/sdp_util.h" #include "hci.h" #include "hci_cmd.h" #include "btstack_debug.h" #include // calculate combined ogf/ocf value #define OPCODE(ogf, ocf) (ocf | ogf << 10) /** * construct HCI Command based on template * * Format: * 1,2,3,4: one to four byte value * H: HCI connection handle * B: Bluetooth Baseband Address (BD_ADDR) * D: 8 byte data block * E: Extended Inquiry Result * N: Name up to 248 chars, \0 terminated * P: 16 byte data block. Pairing code, Simple Pairing Hash and Randomizer * A: 31 bytes advertising data * S: Service Record (Data Element Sequence) * Q: 32 byte data block, e.g. for X and Y coordinates of P-256 public key */ uint16_t hci_cmd_create_from_template(uint8_t *hci_cmd_buffer, const hci_cmd_t *cmd, va_list argptr){ hci_cmd_buffer[0] = cmd->opcode & 0xff; hci_cmd_buffer[1] = cmd->opcode >> 8; int pos = 3; const char *format = cmd->format; uint16_t word; uint32_t longword; uint8_t * ptr; while (*format) { switch(*format) { case '1': // 8 bit value case '2': // 16 bit value case 'H': // hci_handle word = va_arg(argptr, int); // minimal va_arg is int: 2 bytes on 8+16 bit CPUs hci_cmd_buffer[pos++] = word & 0xff; if (*format == '2') { hci_cmd_buffer[pos++] = word >> 8; } else if (*format == 'H') { // TODO implement opaque client connection handles // pass module handle for now hci_cmd_buffer[pos++] = word >> 8; } break; case '3': case '4': longword = va_arg(argptr, uint32_t); // longword = va_arg(argptr, int); hci_cmd_buffer[pos++] = longword; hci_cmd_buffer[pos++] = longword >> 8; hci_cmd_buffer[pos++] = longword >> 16; if (*format == '4'){ hci_cmd_buffer[pos++] = longword >> 24; } break; case 'B': // bt-addr ptr = va_arg(argptr, uint8_t *); hci_cmd_buffer[pos++] = ptr[5]; hci_cmd_buffer[pos++] = ptr[4]; hci_cmd_buffer[pos++] = ptr[3]; hci_cmd_buffer[pos++] = ptr[2]; hci_cmd_buffer[pos++] = ptr[1]; hci_cmd_buffer[pos++] = ptr[0]; break; case 'D': // 8 byte data block ptr = va_arg(argptr, uint8_t *); memcpy(&hci_cmd_buffer[pos], ptr, 8); pos += 8; break; case 'E': // Extended Inquiry Information 240 octets ptr = va_arg(argptr, uint8_t *); memcpy(&hci_cmd_buffer[pos], ptr, 240); pos += 240; break; case 'N': { // UTF-8 string, null terminated ptr = va_arg(argptr, uint8_t *); uint16_t len = strlen((const char*) ptr); if (len > 248) { len = 248; } memcpy(&hci_cmd_buffer[pos], ptr, len); if (len < 248) { // fill remaining space with zeroes memset(&hci_cmd_buffer[pos+len], 0, 248-len); } pos += 248; break; } case 'P': // 16 byte PIN code or link key ptr = va_arg(argptr, uint8_t *); memcpy(&hci_cmd_buffer[pos], ptr, 16); pos += 16; break; #ifdef ENABLE_BLE case 'A': // 31 bytes advertising data ptr = va_arg(argptr, uint8_t *); memcpy(&hci_cmd_buffer[pos], ptr, 31); pos += 31; break; #endif #ifdef ENABLE_SDP case 'S': { // Service Record (Data Element Sequence) ptr = va_arg(argptr, uint8_t *); uint16_t len = de_get_len(ptr); memcpy(&hci_cmd_buffer[pos], ptr, len); pos += len; break; } #endif #ifdef ENABLE_LE_SECURE_CONNECTIONS case 'Q': ptr = va_arg(argptr, uint8_t *); reverse_bytes(ptr, &hci_cmd_buffer[pos], 32); pos += 32; break; #endif default: break; } format++; }; hci_cmd_buffer[2] = pos - 3; return pos; } /** * Link Control Commands */ /** * @param lap * @param inquiry_length * @param num_responses */ const hci_cmd_t hci_inquiry = { OPCODE(OGF_LINK_CONTROL, 0x01), "311" }; /** */ const hci_cmd_t hci_inquiry_cancel = { OPCODE(OGF_LINK_CONTROL, 0x02), "" }; /** * @param bd_addr * @param packet_type * @param page_scan_repetition_mode * @param reserved * @param clock_offset * @param allow_role_switch */ const hci_cmd_t hci_create_connection = { OPCODE(OGF_LINK_CONTROL, 0x05), "B21121" }; /** * @param handle * @param reason (0x05, 0x13-0x15, 0x1a, 0x29, see Errors Codes in BT Spec Part D) */ const hci_cmd_t hci_disconnect = { OPCODE(OGF_LINK_CONTROL, 0x06), "H1" }; /** * @param bd_addr */ const hci_cmd_t hci_create_connection_cancel = { OPCODE(OGF_LINK_CONTROL, 0x08), "B" }; /** * @param bd_addr * @param role (become master, stay slave) */ const hci_cmd_t hci_accept_connection_request = { OPCODE(OGF_LINK_CONTROL, 0x09), "B1" }; /** * @param bd_addr * @param reason (e.g. CONNECTION REJECTED DUE TO LIMITED RESOURCES (0x0d)) */ const hci_cmd_t hci_reject_connection_request = { OPCODE(OGF_LINK_CONTROL, 0x0a), "B1" }; /** * @param bd_addr * @param link_key */ const hci_cmd_t hci_link_key_request_reply = { OPCODE(OGF_LINK_CONTROL, 0x0b), "BP" }; /** * @param bd_addr */ const hci_cmd_t hci_link_key_request_negative_reply = { OPCODE(OGF_LINK_CONTROL, 0x0c), "B" }; /** * @param bd_addr * @param pin_length * @param pin (c-string) */ const hci_cmd_t hci_pin_code_request_reply = { OPCODE(OGF_LINK_CONTROL, 0x0d), "B1P" }; /** * @param bd_addr */ const hci_cmd_t hci_pin_code_request_negative_reply = { OPCODE(OGF_LINK_CONTROL, 0x0e), "B" }; /** * @param handle * @param packet_type */ const hci_cmd_t hci_change_connection_packet_type = { OPCODE(OGF_LINK_CONTROL, 0x0f), "H2" }; /** * @param handle */ const hci_cmd_t hci_authentication_requested = { OPCODE(OGF_LINK_CONTROL, 0x11), "H" }; /** * @param handle * @param encryption_enable */ const hci_cmd_t hci_set_connection_encryption = { OPCODE(OGF_LINK_CONTROL, 0x13), "H1" }; /** * @param handle */ const hci_cmd_t hci_change_connection_link_key = { OPCODE(OGF_LINK_CONTROL, 0x15), "H" }; /** * @param bd_addr * @param page_scan_repetition_mode * @param reserved * @param clock_offset */ const hci_cmd_t hci_remote_name_request = { OPCODE(OGF_LINK_CONTROL, 0x19), "B112" }; /** * @param bd_addr */ const hci_cmd_t hci_remote_name_request_cancel = { OPCODE(OGF_LINK_CONTROL, 0x1A), "B" }; /** * @param handle */ const hci_cmd_t hci_read_remote_supported_features_command = { OPCODE(OGF_LINK_CONTROL, 0x1B), "H" }; /** * @param handle * @param transmit_bandwidth 8000(64kbps) * @param receive_bandwidth 8000(64kbps) * @param max_latency >= 7ms for eSCO, 0xFFFF do not care * @param voice_settings e.g. CVSD, Input Coding: Linear, Input Data Format: 2’s complement, data 16bit: 00011000000 == 0x60 * @param retransmission_effort e.g. 0xFF do not care * @param packet_type at least EV3 for eSCO */ const hci_cmd_t hci_setup_synchronous_connection = { OPCODE(OGF_LINK_CONTROL, 0x0028), "H442212" }; /** * @param bd_addr * @param transmit_bandwidth * @param receive_bandwidth * @param max_latency * @param voice_settings * @param retransmission_effort * @param packet_type */ const hci_cmd_t hci_accept_synchronous_connection = { OPCODE(OGF_LINK_CONTROL, 0x0029), "B442212" }; /** * @param bd_addr * @param IO_capability * @param OOB_data_present * @param authentication_requirements */ const hci_cmd_t hci_io_capability_request_reply = { OPCODE(OGF_LINK_CONTROL, 0x2b), "B111" }; /** * @param bd_addr */ const hci_cmd_t hci_user_confirmation_request_reply = { OPCODE(OGF_LINK_CONTROL, 0x2c), "B" }; /** * @param bd_addr */ const hci_cmd_t hci_user_confirmation_request_negative_reply = { OPCODE(OGF_LINK_CONTROL, 0x2d), "B" }; /** * @param bd_addr * @param numeric_value */ const hci_cmd_t hci_user_passkey_request_reply = { OPCODE(OGF_LINK_CONTROL, 0x2e), "B4" }; /** * @param bd_addr */ const hci_cmd_t hci_user_passkey_request_negative_reply = { OPCODE(OGF_LINK_CONTROL, 0x2f), "B" }; /** * @param bd_addr * @param c Simple Pairing Hash C * @param r Simple Pairing Randomizer R */ const hci_cmd_t hci_remote_oob_data_request_reply = { OPCODE(OGF_LINK_CONTROL, 0x30), "BPP" }; /** * @param bd_addr */ const hci_cmd_t hci_remote_oob_data_request_negative_reply = { OPCODE(OGF_LINK_CONTROL, 0x33), "B" }; /** * @param bd_addr * @param reason (Part D, Error codes) */ const hci_cmd_t hci_io_capability_request_negative_reply = { OPCODE(OGF_LINK_CONTROL, 0x34), "B1" }; /** * @param handle * @param transmit_bandwidth * @param receive_bandwidth * @param transmit_coding_format_type * @param transmit_coding_format_company * @param transmit_coding_format_codec * @param receive_coding_format_type * @param receive_coding_format_company * @param receive_coding_format_codec * @param transmit_coding_frame_size * @param receive_coding_frame_size * @param input_bandwidth * @param output_bandwidth * @param input_coding_format_type * @param input_coding_format_company * @param input_coding_format_codec * @param output_coding_format_type * @param output_coding_format_company * @param output_coding_format_codec * @param input_coded_data_size * @param outupt_coded_data_size * @param input_pcm_data_format * @param output_pcm_data_format * @param input_pcm_sample_payload_msb_position * @param output_pcm_sample_payload_msb_position * @param input_data_path * @param output_data_path * @param input_transport_unit_size * @param output_transport_unit_size * @param max_latency * @param packet_type * @param retransmission_effort */ const hci_cmd_t hci_enhanced_setup_synchronous_connection = { OPCODE(OGF_LINK_CONTROL, 0x3d), "H4412212222441221222211111111221" }; /** * @param bd_addr * @param transmit_bandwidth * @param receive_bandwidth * @param transmit_coding_format_type * @param transmit_coding_format_company * @param transmit_coding_format_codec * @param receive_coding_format_type * @param receive_coding_format_company * @param receive_coding_format_codec * @param transmit_coding_frame_size * @param receive_coding_frame_size * @param input_bandwidth * @param output_bandwidth * @param input_coding_format_type * @param input_coding_format_company * @param input_coding_format_codec * @param output_coding_format_type * @param output_coding_format_company * @param output_coding_format_codec * @param input_coded_data_size * @param outupt_coded_data_size * @param input_pcm_data_format * @param output_pcm_data_format * @param input_pcm_sample_payload_msb_position * @param output_pcm_sample_payload_msb_position * @param input_data_path * @param output_data_path * @param input_transport_unit_size * @param output_transport_unit_size * @param max_latency * @param packet_type * @param retransmission_effort */ const hci_cmd_t hci_enhanced_accept_synchronous_connection = { OPCODE(OGF_LINK_CONTROL, 0x3e), "B4412212222441221222211111111221" }; /** * Link Policy Commands */ /** * @param handle * @param sniff_max_interval * @param sniff_min_interval * @param sniff_attempt * @param sniff_timeout */ const hci_cmd_t hci_sniff_mode = { OPCODE(OGF_LINK_POLICY, 0x03), "H2222" }; /** * @param handle * @param flags * @param service_type * @param token_rate (bytes/s) * @param peak_bandwith (bytes/s) * @param latency (us) * @param delay_variation (us) */ const hci_cmd_t hci_qos_setup = { OPCODE(OGF_LINK_POLICY, 0x07), "H114444" }; /** * @param handle */ const hci_cmd_t hci_role_discovery = { OPCODE(OGF_LINK_POLICY, 0x09), "H" }; /** * @param bd_addr * @param role (0=master,1=slave) */ const hci_cmd_t hci_switch_role_command= { OPCODE(OGF_LINK_POLICY, 0x0b), "B1" }; /** * @param handle */ const hci_cmd_t hci_read_link_policy_settings = { OPCODE(OGF_LINK_POLICY, 0x0c), "H" }; /** * @param handle * @param settings */ const hci_cmd_t hci_write_link_policy_settings = { OPCODE(OGF_LINK_POLICY, 0x0d), "H2" }; /** * @param policy */ const hci_cmd_t hci_write_default_link_policy_setup = { OPCODE(OGF_LINK_POLICY, 0x0F), "2" }; /** * Controller & Baseband Commands */ /** * @param event_mask_lover_octets * @param event_mask_higher_octets */ const hci_cmd_t hci_set_event_mask = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x01), "44" }; /** */ const hci_cmd_t hci_reset = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x03), "" }; /** * @param handle */ const hci_cmd_t hci_flush = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x09), "H" }; /** * @param bd_addr * @param delete_all_flags */ const hci_cmd_t hci_delete_stored_link_key = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x12), "B1" }; #ifdef ENABLE_CLASSIC /** * @param local_name (UTF-8, Null Terminated, max 248 octets) */ const hci_cmd_t hci_write_local_name = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x13), "N" }; #endif /** */ const hci_cmd_t hci_read_local_name = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x14), "" }; /** * @param page_timeout (* 0.625 ms) */ const hci_cmd_t hci_write_page_timeout = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x18), "2" }; /** * @param scan_enable (no, inq, page, inq+page) */ const hci_cmd_t hci_write_scan_enable = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x1A), "1" }; /** * @param authentication_enable */ const hci_cmd_t hci_write_authentication_enable = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x20), "1" }; /** * @param class_of_device */ const hci_cmd_t hci_write_class_of_device = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x24), "3" }; /** */ const hci_cmd_t hci_read_num_broadcast_retransmissions = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x29), "" }; /** * @param num_broadcast_retransmissions (e.g. 0 for a single broadcast) */ const hci_cmd_t hci_write_num_broadcast_retransmissions = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x2a), "1" }; /** * @param synchronous_flow_control_enable - if yes, num completed packet everts are sent for SCO packets */ const hci_cmd_t hci_write_synchronous_flow_control_enable = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x2f), "1" }; #ifdef ENABLE_HCI_CONTROLLER_TO_HOST_FLOW_CONTROL /** * @param flow_control_enable - 0: off, 1: ACL only, 2: SCO only, 3: ACL + SCO */ const hci_cmd_t hci_set_controller_to_host_flow_control = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x31), "1" }; /** * @param host_acl_data_packet_length * @param host_synchronous_data_packet_length * @param host_total_num_acl_data_packets * @param host_total_num_synchronous_data_packets */ const hci_cmd_t hci_host_buffer_size = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x33), "2122" }; #if 0 // // command sent manually sent by hci_host_num_completed_packets // /** * @note only single handle supported by BTstack command generator * @param number_of_handles must be 1 * @param connection_handle * @param host_num_of_completed_packets for the given connection handle */ const hci_cmd_t hci_host_number_of_completed_packets = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x35), "1H2" }; #endif #endif /** * @param handle */ const hci_cmd_t hci_read_link_supervision_timeout = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x36), "H" }; /** * @param handle * @param timeout (0x0001 - 0xFFFF Time -> Range: 0.625ms - 40.9 sec) */ const hci_cmd_t hci_write_link_supervision_timeout = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x37), "H2" }; /** * @param inquiry_mode (0x00 = standard, 0x01 = with RSSI, 0x02 = extended) */ const hci_cmd_t hci_write_inquiry_mode = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x45), "1" }; /** * @param fec_required * @param exstended_inquiry_response */ const hci_cmd_t hci_write_extended_inquiry_response = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x52), "1E" }; /** * @param mode (0 = off, 1 = on) */ const hci_cmd_t hci_write_simple_pairing_mode = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x56), "1" }; /** */ const hci_cmd_t hci_read_local_oob_data = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x57), "" // return status, C, R }; /** * @param mode (0 = off, 1 = on) */ const hci_cmd_t hci_write_default_erroneous_data_reporting = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x5B), "1" }; /** */ const hci_cmd_t hci_read_le_host_supported = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x6c), "" // return: status, le supported host, simultaneous le host }; /** * @param le_supported_host * @param simultaneous_le_host */ const hci_cmd_t hci_write_le_host_supported = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x6d), "11" // return: status }; /** */ const hci_cmd_t hci_read_local_extended_ob_data = { OPCODE(OGF_CONTROLLER_BASEBAND, 0x7d), "" // return status, C_192, R_192, R_256, C_256 }; /** * Testing Commands */ /** */ const hci_cmd_t hci_read_loopback_mode = { OPCODE(OGF_TESTING, 0x01), "" // return: status, loopback mode (0 = off, 1 = local loopback, 2 = remote loopback) }; /** * @param loopback_mode */ const hci_cmd_t hci_write_loopback_mode = { OPCODE(OGF_TESTING, 0x02), "1" // return: status }; /** */ const hci_cmd_t hci_enable_device_under_test_mode = { OPCODE(OGF_TESTING, 0x03), "" // return: status }; /** * @param simple_pairing_debug_mode */ const hci_cmd_t hci_write_simple_pairing_debug_mode = { OPCODE(OGF_TESTING, 0x04), "1" // return: status }; /** * @param handle * @param dm1_acl_u_mode * @param esco_loopback_mode */ const hci_cmd_t hci_write_secure_connections_test_mode = { OPCODE(OGF_TESTING, 0x0a), "H11" // return: status }; /** * Informational Parameters */ const hci_cmd_t hci_read_local_version_information = { OPCODE(OGF_INFORMATIONAL_PARAMETERS, 0x01), "" }; const hci_cmd_t hci_read_local_supported_commands = { OPCODE(OGF_INFORMATIONAL_PARAMETERS, 0x02), "" }; const hci_cmd_t hci_read_local_supported_features = { OPCODE(OGF_INFORMATIONAL_PARAMETERS, 0x03), "" }; const hci_cmd_t hci_read_buffer_size = { OPCODE(OGF_INFORMATIONAL_PARAMETERS, 0x05), "" }; const hci_cmd_t hci_read_bd_addr = { OPCODE(OGF_INFORMATIONAL_PARAMETERS, 0x09), "" }; /** * Status Paramters */ /** * @param handle */ const hci_cmd_t hci_read_rssi = { OPCODE(OGF_STATUS_PARAMETERS, 0x05), "H" // no params }; #ifdef ENABLE_BLE /** * Low Energy Commands */ /** * @param event_mask_lower_octets * @param event_mask_higher_octets */ const hci_cmd_t hci_le_set_event_mask = { OPCODE(OGF_LE_CONTROLLER, 0x01), "44" // return: status }; const hci_cmd_t hci_le_read_buffer_size = { OPCODE(OGF_LE_CONTROLLER, 0x02), "" // return: status, le acl data packet len (16), total num le acl data packets(8) }; const hci_cmd_t hci_le_read_supported_features = { OPCODE(OGF_LE_CONTROLLER, 0x03), "" // return: LE_Features See [Vol 6] Part B, Section 4.6 }; /** * @param random_bd_addr */ const hci_cmd_t hci_le_set_random_address = { OPCODE(OGF_LE_CONTROLLER, 0x05), "B" // return: status }; /** * @param advertising_interval_min ([0x0020,0x4000], default: 0x0800, unit: 0.625 msec) * @param advertising_interval_max ([0x0020,0x4000], default: 0x0800, unit: 0.625 msec) * @param advertising_type (enum from 0: ADV_IND, ADC_DIRECT_IND, ADV_SCAN_IND, ADV_NONCONN_IND) * @param own_address_type (enum from 0: public device address, random device address) * @param direct_address_type () * @param direct_address (public or random address of device to be connecteed) * @param advertising_channel_map (flags: chan_37(1), chan_38(2), chan_39(4)) * @param advertising_filter_policy (enum from 0: scan any conn any, scan whitelist, con any, scan any conn whitelist, scan whitelist, con whitelist) */ const hci_cmd_t hci_le_set_advertising_parameters = { OPCODE(OGF_LE_CONTROLLER, 0x06), "22111B11" // return: status }; const hci_cmd_t hci_le_read_advertising_channel_tx_power = { OPCODE(OGF_LE_CONTROLLER, 0x07), "" // return: status, level [-20,10] signed int (8), units dBm }; /** * @param advertising_data_length * @param advertising_data (31 bytes) */ const hci_cmd_t hci_le_set_advertising_data= { OPCODE(OGF_LE_CONTROLLER, 0x08), "1A" // return: status }; /** * @param scan_response_data_length * @param scan_response_data (31 bytes) */ const hci_cmd_t hci_le_set_scan_response_data= { OPCODE(OGF_LE_CONTROLLER, 0x09), "1A" // return: status }; /** * @param advertise_enable (off: 0, on: 1) */ const hci_cmd_t hci_le_set_advertise_enable = { OPCODE(OGF_LE_CONTROLLER, 0x0a), "1" // return: status }; /** * @param le_scan_type (passive (0), active (1)) * @param le_scan_interval ([0x0004,0x4000], unit: 0.625 msec) * @param le_scan_window ([0x0004,0x4000], unit: 0.625 msec) * @param own_address_type (public (0), random (1)) * @param scanning_filter_policy (any (0), only whitelist (1)) */ const hci_cmd_t hci_le_set_scan_parameters = { OPCODE(OGF_LE_CONTROLLER, 0x0b), "12211" // return: status }; /** * @param le_scan_enable (disabled (0), enabled (1)) * @param filter_duplices (disabled (0), enabled (1)) */ const hci_cmd_t hci_le_set_scan_enable = { OPCODE(OGF_LE_CONTROLLER, 0x0c), "11" // return: status }; /** * @param le_scan_interval ([0x0004, 0x4000], unit: 0.625 msec) * @param le_scan_window ([0x0004, 0x4000], unit: 0.625 msec) * @param initiator_filter_policy (peer address type + peer address (0), whitelist (1)) * @param peer_address_type (public (0), random (1)) * @param peer_address * @param own_address_type (public (0), random (1)) * @param conn_interval_min ([0x0006, 0x0c80], unit: 1.25 msec) * @param conn_interval_max ([0x0006, 0x0c80], unit: 1.25 msec) * @param conn_latency (number of connection events [0x0000, 0x01f4]) * @param supervision_timeout ([0x000a, 0x0c80], unit: 10 msec) * @param minimum_CE_length ([0x0000, 0xffff], unit: 0.625 msec) * @param maximum_CE_length ([0x0000, 0xffff], unit: 0.625 msec) */ const hci_cmd_t hci_le_create_connection= { OPCODE(OGF_LE_CONTROLLER, 0x0d), "2211B1222222" // return: none -> le create connection complete event }; const hci_cmd_t hci_le_create_connection_cancel = { OPCODE(OGF_LE_CONTROLLER, 0x0e), "" // return: status }; const hci_cmd_t hci_le_read_white_list_size = { OPCODE(OGF_LE_CONTROLLER, 0x0f), "" // return: status, number of entries in controller whitelist }; const hci_cmd_t hci_le_clear_white_list = { OPCODE(OGF_LE_CONTROLLER, 0x10), "" // return: status }; /** * @param address_type (public (0), random (1)) * @param bd_addr */ const hci_cmd_t hci_le_add_device_to_white_list = { OPCODE(OGF_LE_CONTROLLER, 0x11), "1B" // return: status }; /** * @param address_type (public (0), random (1)) * @param bd_addr */ const hci_cmd_t hci_le_remove_device_from_white_list = { OPCODE(OGF_LE_CONTROLLER, 0x12), "1B" // return: status }; /** * @param conn_handle * @param conn_interval_min ([0x0006,0x0c80], unit: 1.25 msec) * @param conn_interval_max ([0x0006,0x0c80], unit: 1.25 msec) * @param conn_latency ([0x0000,0x03e8], number of connection events) * @param supervision_timeout ([0x000a,0x0c80], unit: 10 msec) * @param minimum_CE_length ([0x0000,0xffff], unit: 0.625 msec) * @param maximum_CE_length ([0x0000,0xffff], unit: 0.625 msec) */ const hci_cmd_t hci_le_connection_update = { OPCODE(OGF_LE_CONTROLLER, 0x13), "H222222" // return: none -> le connection update complete event }; /** * @param channel_map_lower_32bits * @param channel_map_higher_5bits */ const hci_cmd_t hci_le_set_host_channel_classification = { OPCODE(OGF_LE_CONTROLLER, 0x14), "41" // return: status }; /** * @param conn_handle */ const hci_cmd_t hci_le_read_channel_map = { OPCODE(OGF_LE_CONTROLLER, 0x15), "H" // return: status, connection handle, channel map (5 bytes, 37 used) }; /** * @param conn_handle */ const hci_cmd_t hci_le_read_remote_used_features = { OPCODE(OGF_LE_CONTROLLER, 0x16), "H" // return: none -> le read remote used features complete event }; /** * @param key ((128) for AES-128) * @param plain_text (128) */ const hci_cmd_t hci_le_encrypt = { OPCODE(OGF_LE_CONTROLLER, 0x17), "PP" // return: status, encrypted data (128) }; const hci_cmd_t hci_le_rand = { OPCODE(OGF_LE_CONTROLLER, 0x18), "" // return: status, random number (64) }; /** * @param conn_handle * @param random_number_lower_32bits * @param random_number_higher_32bits * @param encryption_diversifier (16) * @param long_term_key (128) */ const hci_cmd_t hci_le_start_encryption = { OPCODE(OGF_LE_CONTROLLER, 0x19), "H442P" // return: none -> encryption changed or encryption key refresh complete event }; /** * @param connection_handle * @param long_term_key (128) */ const hci_cmd_t hci_le_long_term_key_request_reply = { OPCODE(OGF_LE_CONTROLLER, 0x1a), "HP" // return: status, connection handle }; /** * @param conn_handle */ const hci_cmd_t hci_le_long_term_key_negative_reply = { OPCODE(OGF_LE_CONTROLLER, 0x1b), "H" // return: status, connection handle }; /** * @param conn_handle */ const hci_cmd_t hci_le_read_supported_states = { OPCODE(OGF_LE_CONTROLLER, 0x1c), "H" // return: status, LE states (64) }; /** * @param rx_frequency ([0x00 0x27], frequency (MHz): 2420 + N*2) */ const hci_cmd_t hci_le_receiver_test = { OPCODE(OGF_LE_CONTROLLER, 0x1d), "1" // return: status }; /** * @param tx_frequency ([0x00 0x27], frequency (MHz): 2420 + N*2) * @param test_payload_lengh ([0x00,0x25]) * @param packet_payload ([0,7] different patterns) */ const hci_cmd_t hci_le_transmitter_test = { OPCODE(OGF_LE_CONTROLLER, 0x1e), "111" // return: status }; /** * @param end_test_cmd */ const hci_cmd_t hci_le_test_end = { OPCODE(OGF_LE_CONTROLLER, 0x1f), "1" // return: status, number of packets (8) }; /** * @param conn_handle * @param conn_interval_min ([0x0006,0x0c80], unit: 1.25 msec) * @param conn_interval_max ([0x0006,0x0c80], unit: 1.25 msec) * @param conn_latency ([0x0000,0x03e8], number of connection events) * @param supervision_timeout ([0x000a,0x0c80], unit: 10 msec) * @param minimum_CE_length ([0x0000,0xffff], unit: 0.625 msec) * @param maximum_CE_length ([0x0000,0xffff], unit: 0.625 msec) */ const hci_cmd_t hci_le_remote_connection_parameter_request_reply = { OPCODE(OGF_LE_CONTROLLER, 0x20), "H222222" // return: status, connection handle }; /** * @param con_handle * @param reason */ const hci_cmd_t hci_le_remote_connection_parameter_request_negative_reply = { OPCODE(OGF_LE_CONTROLLER, 0x21), "H1" // return: status, connection handle }; /** * @param con_handle * @param tx_octets * @param tx_time */ const hci_cmd_t hci_le_set_data_length = { OPCODE(OGF_LE_CONTROLLER, 0x22), "H22" // return: status, connection handle }; /** */ const hci_cmd_t hci_le_read_suggested_default_data_length = { OPCODE(OGF_LE_CONTROLLER, 0x23), "" // return: status, suggested max tx octets, suggested max tx time }; /** * @param suggested_max_tx_octets * @param suggested_max_tx_time */ const hci_cmd_t hci_le_write_suggested_default_data_length = { OPCODE(OGF_LE_CONTROLLER, 0x24), "22" // return: status }; /** */ const hci_cmd_t hci_le_read_local_p256_public_key = { OPCODE(OGF_LE_CONTROLLER, 0x25), "" // LE Read Local P-256 Public Key Complete is generated on completion }; /** * @param public key * @param private key */ const hci_cmd_t hci_le_generate_dhkey = { OPCODE(OGF_LE_CONTROLLER, 0x26), "QQ" // LE Generate DHKey Complete is generated on completion }; /** */ const hci_cmd_t hci_le_read_maximum_data_length = { OPCODE(OGF_LE_CONTROLLER, 0x2F), "" // return: status, supported max tx octets, supported max tx time, supported max rx octets, supported max rx time }; #endif // Broadcom / Cypress specific HCI commands /** * @brief Configure SCO Routing (BCM) * @param sco_routing is 0 for PCM, 1 for Transport, 2 for Codec and 3 for I2S * @param pcm_interface_rate is 0 for 128KBps, 1 for 256 KBps, 2 for 512KBps, 3 for 1024KBps, and 4 for 2048Kbps * @param frame_type is 0 for short and 1 for long * @param sync_mode is 0 for slave and 1 for master * @param clock_mode is 0 for slabe and 1 for master */ const hci_cmd_t hci_bcm_write_sco_pcm_int = { OPCODE(0x3f, 0x1c), "11111" // return: status };