/****************************************************************************** * * Copyright (C) 2014 Google, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ #define LOG_TAG "bt_hci" #include #include "buffer_allocator.h" #include "bt_types.h" #include "hcimsgs.h" #include "hci_layer.h" #include "hci_packet_parser.h" #include "osi/include/log.h" static const command_opcode_t NO_OPCODE_CHECKING = 0; static const allocator_t *buffer_allocator; static uint8_t *read_command_complete_header( BT_HDR *response, command_opcode_t expected_opcode, size_t minimum_bytes_after); static void parse_generic_command_complete(BT_HDR *response) { read_command_complete_header(response, NO_OPCODE_CHECKING, 0 /* bytes after */); buffer_allocator->free(response); } static void parse_read_buffer_size_response( BT_HDR *response, uint16_t *data_size_ptr, uint16_t *acl_buffer_count_ptr) { uint8_t *stream = read_command_complete_header(response, HCI_READ_BUFFER_SIZE, 5 /* bytes after */); assert(stream != NULL); STREAM_TO_UINT16(*data_size_ptr, stream); STREAM_SKIP_UINT8(stream); // skip the sco packet length STREAM_TO_UINT16(*acl_buffer_count_ptr, stream); buffer_allocator->free(response); } static void parse_read_local_version_info_response( BT_HDR *response, bt_version_t *bt_version) { uint8_t *stream = read_command_complete_header(response, HCI_READ_LOCAL_VERSION_INFO, 8 /* bytes after */); assert(stream != NULL); STREAM_TO_UINT8(bt_version->hci_version, stream); STREAM_TO_UINT16(bt_version->hci_revision, stream); STREAM_TO_UINT8(bt_version->lmp_version, stream); STREAM_TO_UINT16(bt_version->manufacturer, stream); STREAM_TO_UINT16(bt_version->lmp_subversion, stream); buffer_allocator->free(response); } static void parse_read_bd_addr_response( BT_HDR *response, bt_bdaddr_t *address_ptr) { uint8_t *stream = read_command_complete_header(response, HCI_READ_BD_ADDR, sizeof(bt_bdaddr_t) /* bytes after */); assert(stream != NULL); STREAM_TO_BDADDR(address_ptr->address, stream); buffer_allocator->free(response); } static void parse_read_local_supported_commands_response( BT_HDR *response, uint8_t *supported_commands_ptr, size_t supported_commands_length) { uint8_t *stream = read_command_complete_header(response, HCI_READ_LOCAL_SUPPORTED_CMDS, supported_commands_length /* bytes after */); assert(stream != NULL); STREAM_TO_ARRAY(supported_commands_ptr, stream, (int)supported_commands_length); buffer_allocator->free(response); } static void parse_read_local_extended_features_response( BT_HDR *response, uint8_t *page_number_ptr, uint8_t *max_page_number_ptr, bt_device_features_t *feature_pages, size_t feature_pages_count) { uint8_t *stream = read_command_complete_header(response, HCI_READ_LOCAL_EXT_FEATURES, 2 + sizeof(bt_device_features_t) /* bytes after */); if (stream != NULL) { STREAM_TO_UINT8(*page_number_ptr, stream); STREAM_TO_UINT8(*max_page_number_ptr, stream); assert(*page_number_ptr < feature_pages_count); STREAM_TO_ARRAY(feature_pages[*page_number_ptr].as_array, stream, (int)sizeof(bt_device_features_t)); } else { LOG_ERROR("%s() - WARNING: READING EXTENDED FEATURES FAILED. " "THIS MAY INDICATE A FIRMWARE/CONTROLLER ISSUE.", __func__); } buffer_allocator->free(response); } static void parse_ble_read_white_list_size_response( BT_HDR *response, uint8_t *white_list_size_ptr) { uint8_t *stream = read_command_complete_header(response, HCI_BLE_READ_WHITE_LIST_SIZE, 1 /* byte after */); assert(stream != NULL); STREAM_TO_UINT8(*white_list_size_ptr, stream); buffer_allocator->free(response); } static void parse_ble_read_buffer_size_response( BT_HDR *response, uint16_t *data_size_ptr, uint8_t *acl_buffer_count_ptr) { uint8_t *stream = read_command_complete_header(response, HCI_BLE_READ_BUFFER_SIZE, 3 /* bytes after */); assert(stream != NULL); STREAM_TO_UINT16(*data_size_ptr, stream); STREAM_TO_UINT8(*acl_buffer_count_ptr, stream); buffer_allocator->free(response); } static void parse_ble_read_supported_states_response( BT_HDR *response, uint8_t *supported_states, size_t supported_states_size) { uint8_t *stream = read_command_complete_header(response, HCI_BLE_READ_SUPPORTED_STATES, supported_states_size /* bytes after */); assert(stream != NULL); STREAM_TO_ARRAY(supported_states, stream, (int)supported_states_size); buffer_allocator->free(response); } static void parse_ble_read_local_supported_features_response( BT_HDR *response, bt_device_features_t *supported_features) { uint8_t *stream = read_command_complete_header(response, HCI_BLE_READ_LOCAL_SPT_FEAT, sizeof(bt_device_features_t) /* bytes after */); assert(stream != NULL); STREAM_TO_ARRAY(supported_features->as_array, stream, (int)sizeof(bt_device_features_t)); buffer_allocator->free(response); } static void parse_ble_read_resolving_list_size_response( BT_HDR *response, uint8_t *resolving_list_size_ptr) { uint8_t *stream = read_command_complete_header(response, HCI_BLE_READ_RESOLVING_LIST_SIZE, 1 /* bytes after */); STREAM_TO_UINT8(*resolving_list_size_ptr, stream); buffer_allocator->free(response); } static void parse_ble_read_suggested_default_data_length_response( BT_HDR *response, uint16_t *ble_default_packet_length_ptr) { uint8_t *stream = read_command_complete_header(response, HCI_BLE_READ_DEFAULT_DATA_LENGTH, 2 /* bytes after */); STREAM_TO_UINT8(*ble_default_packet_length_ptr, stream); buffer_allocator->free(response); } // Internal functions static uint8_t *read_command_complete_header( BT_HDR *response, command_opcode_t expected_opcode, size_t minimum_bytes_after) { uint8_t *stream = response->data + response->offset; // Read the event header uint8_t event_code; uint8_t parameter_length; STREAM_TO_UINT8(event_code, stream); STREAM_TO_UINT8(parameter_length, stream); const size_t parameter_bytes_we_read_here = 4; // Check the event header values against what we expect assert(event_code == HCI_COMMAND_COMPLETE_EVT); assert(parameter_length >= (parameter_bytes_we_read_here + minimum_bytes_after)); // Read the command complete header command_opcode_t opcode; uint8_t status; STREAM_SKIP_UINT8(stream); // skip the number of hci command packets field STREAM_TO_UINT16(opcode, stream); // Check the command complete header values against what we expect if (expected_opcode != NO_OPCODE_CHECKING) { assert(opcode == expected_opcode); } // Assume the next field is the status field STREAM_TO_UINT8(status, stream); if (status != HCI_SUCCESS) return NULL; return stream; } static const hci_packet_parser_t interface = { parse_generic_command_complete, parse_read_buffer_size_response, parse_read_local_version_info_response, parse_read_bd_addr_response, parse_read_local_supported_commands_response, parse_read_local_extended_features_response, parse_ble_read_white_list_size_response, parse_ble_read_buffer_size_response, parse_ble_read_supported_states_response, parse_ble_read_local_supported_features_response, parse_ble_read_resolving_list_size_response, parse_ble_read_suggested_default_data_length_response }; const hci_packet_parser_t *hci_packet_parser_get_interface() { buffer_allocator = buffer_allocator_get_interface(); return &interface; } const hci_packet_parser_t *hci_packet_parser_get_test_interface( allocator_t *buffer_allocator_interface) { buffer_allocator = buffer_allocator_interface; return &interface; }