/****************************************************************************** * * Copyright 2018 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 "database.h" #include "bt_trace.h" #include "stack/include/gattdefs.h" #include <base/logging.h> #include <list> #include <memory> #include <sstream> using bluetooth::Uuid; namespace gatt { namespace { const Uuid PRIMARY_SERVICE = Uuid::From16Bit(GATT_UUID_PRI_SERVICE); const Uuid SECONDARY_SERVICE = Uuid::From16Bit(GATT_UUID_SEC_SERVICE); const Uuid INCLUDE = Uuid::From16Bit(GATT_UUID_INCLUDE_SERVICE); const Uuid CHARACTERISTIC = Uuid::From16Bit(GATT_UUID_CHAR_DECLARE); bool HandleInRange(const Service& svc, uint16_t handle) { return handle >= svc.handle && handle <= svc.end_handle; } } // namespace Service* FindService(std::list<Service>& services, uint16_t handle) { for (Service& service : services) { if (handle >= service.handle && handle <= service.end_handle) return &service; } return nullptr; } std::string Database::ToString() const { std::stringstream tmp; for (const Service& service : services) { tmp << "Service: handle=" << loghex(service.handle) << ", end_handle=" << loghex(service.end_handle) << ", uuid=" << service.uuid << "\n"; for (const auto& is : service.included_services) { tmp << "\t Included service: handle=" << loghex(is.handle) << ", start_handle=" << loghex(is.start_handle) << ", end_handle=" << loghex(is.end_handle) << ", uuid=" << is.uuid << "\n"; } for (const Characteristic& c : service.characteristics) { tmp << "\t Characteristic: declaration_handle=" << loghex(c.declaration_handle) << ", value_handle=" << loghex(c.value_handle) << ", uuid=" << c.uuid << ", prop=" << loghex(c.properties) << "\n"; for (const Descriptor& d : c.descriptors) { tmp << "\t\t Descriptor: handle=" << loghex(d.handle) << ", uuid=" << d.uuid << "\n"; } } } return tmp.str(); } std::vector<StoredAttribute> Database::Serialize() const { std::vector<StoredAttribute> nv_attr; if (services.empty()) return std::vector<StoredAttribute>(); for (const Service& service : services) { // TODO: add constructor to NV_ATTR, use emplace_back nv_attr.push_back({service.handle, service.is_primary ? PRIMARY_SERVICE : SECONDARY_SERVICE, {.service = {.uuid = service.uuid, .end_handle = service.end_handle}}}); } for (const Service& service : services) { for (const IncludedService& p_isvc : service.included_services) { nv_attr.push_back({p_isvc.handle, INCLUDE, {.included_service = {.handle = p_isvc.start_handle, .end_handle = p_isvc.end_handle, .uuid = p_isvc.uuid}}}); } for (const Characteristic& charac : service.characteristics) { nv_attr.push_back( {charac.declaration_handle, CHARACTERISTIC, {.characteristic = {.properties = charac.properties, .value_handle = charac.value_handle, .uuid = charac.uuid}}}); for (const Descriptor& desc : charac.descriptors) { nv_attr.push_back({desc.handle, desc.uuid, {}}); } } } return nv_attr; } Database Database::Deserialize(const std::vector<StoredAttribute>& nv_attr, bool* success) { // clear reallocating Database result; auto it = nv_attr.cbegin(); for (; it != nv_attr.cend(); ++it) { const auto& attr = *it; if (attr.type != PRIMARY_SERVICE && attr.type != SECONDARY_SERVICE) break; result.services.emplace_back( Service{.handle = attr.handle, .end_handle = attr.value.service.end_handle, .is_primary = (attr.type == PRIMARY_SERVICE), .uuid = attr.value.service.uuid}); } auto current_service_it = result.services.begin(); for (; it != nv_attr.cend(); it++) { const auto& attr = *it; // go to the service this attribute belongs to; attributes are stored in // order, so iterating just forward is enough while (current_service_it != result.services.end() && current_service_it->end_handle < attr.handle) { current_service_it++; } if (current_service_it == result.services.end() || !HandleInRange(*current_service_it, attr.handle)) { LOG(ERROR) << "Can't find service for attribute with handle: " << loghex(attr.handle); *success = false; return result; } if (attr.type == INCLUDE) { Service* included_service = FindService(result.services, attr.value.included_service.handle); if (!included_service) { LOG(ERROR) << __func__ << ": Non-existing included service!"; *success = false; return result; } current_service_it->included_services.push_back(IncludedService{ .handle = attr.handle, .uuid = attr.value.included_service.uuid, .start_handle = attr.value.included_service.handle, .end_handle = attr.value.included_service.end_handle, }); } else if (attr.type == CHARACTERISTIC) { current_service_it->characteristics.emplace_back( Characteristic{.declaration_handle = attr.handle, .value_handle = attr.value.characteristic.value_handle, .properties = attr.value.characteristic.properties, .uuid = attr.value.characteristic.uuid}); } else { current_service_it->characteristics.back().descriptors.emplace_back( Descriptor{.handle = attr.handle, .uuid = attr.type}); } } *success = true; return result; } } // namespace gatt