/* * Copyright 2020 The Android Open Source Project * * 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. */ #include "storage/device.h" #include #include #include "os/log.h" #include "storage/classic_device.h" #include "storage/config_cache_helper.h" #include "storage/le_device.h" namespace bluetooth { namespace storage { using hci::DeviceType; namespace { // TODO(siyuanh): also defined in storage/le_device.cc const std::string kLeIdentityAddressKey = "LeIdentityAddr"; const std::string kLeLegacyPseudoAddr = "LeLegacyPseudoAddr"; std::string GetConfigSection( ConfigCache* config, const hci::Address& key_address, Device::ConfigKeyAddressType key_address_type) { ASSERT_LOG(config != nullptr, "config cannot be null"); ASSERT_LOG(!key_address.IsEmpty(), "key_address cannot be empty"); // assume lower case auto key_address_string = key_address.ToString(); switch (key_address_type) { case Device::ConfigKeyAddressType::LEGACY_KEY_ADDRESS: case Device::ConfigKeyAddressType::CLASSIC_ADDRESS: return key_address_string; case Device::ConfigKeyAddressType::LE_IDENTITY_ADDRESS: for (const auto& section_and_property : config->GetSectionNamesWithProperty(kLeIdentityAddressKey)) { if (section_and_property.property == key_address_string) { return section_and_property.section; } } return key_address_string; case Device::ConfigKeyAddressType::LE_LEGACY_PSEUDO_ADDRESS: for (const auto& section_and_property : config->GetSectionNamesWithProperty(kLeLegacyPseudoAddr)) { if (section_and_property.property == key_address_string) { return section_and_property.section; } } // One cannot create a new device just using LE legacy pseudo address [[fallthrough]]; default: LOG_ALWAYS_FATAL("Unknown key_address_type %d", static_cast(key_address_type)); return ""; } } } // namespace const std::unordered_set Device::kLinkKeyProperties = { "LinkKey", "LE_KEY_PENC", "LE_KEY_PID", "LE_KEY_PCSRK", "LE_KEY_LENC", "LE_KEY_LCSRK"}; Device::Device( ConfigCache* config, ConfigCache* memory_only_config, const hci::Address& key_address, ConfigKeyAddressType key_address_type) : Device(config, memory_only_config, GetConfigSection(config, key_address, key_address_type)) {} Device::Device(ConfigCache* config, ConfigCache* memory_only_config, std::string section) : config_(config), memory_only_config_(memory_only_config), section_(std::move(section)) {} bool Device::Exists() { return config_->HasSection(section_); } MutationEntry Device::RemoveFromConfig() { return MutationEntry::Remove(MutationEntry::PropertyType::NORMAL, section_); } MutationEntry Device::RemoveFromTempConfig() { return MutationEntry::Remove(MutationEntry::PropertyType::MEMORY_ONLY, section_); } LeDevice Device::Le() { auto device_type = GetDeviceType(); ASSERT(device_type); ASSERT(device_type == DeviceType::LE || device_type == DeviceType::DUAL); return LeDevice(config_, memory_only_config_, section_); } ClassicDevice Device::Classic() { auto device_type = GetDeviceType(); ASSERT(device_type); ASSERT(device_type == DeviceType::BR_EDR || device_type == DeviceType::DUAL); return ClassicDevice(config_, memory_only_config_, section_); } std::string Device::ToLogString() const { return section_; } } // namespace storage } // namespace bluetooth