//////////////////////////////////////////////////////////////////////////// // // Copyright 2015 Realm 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. // //////////////////////////////////////////////////////////////////////////// #include "shared_realm.hpp" #include "external_commit_helper.hpp" #include "realm_delegate.hpp" #include "transact_log_handler.hpp" #include #include #include using namespace realm; RealmCache Realm::s_global_cache; Realm::Config::Config(const Config& c) : path(c.path) , read_only(c.read_only) , in_memory(c.in_memory) , cache(c.cache) , encryption_key(c.encryption_key) , schema_version(c.schema_version) , migration_function(c.migration_function) { if (c.schema) { schema = std::make_unique(*c.schema); } } Realm::Config& Realm::Config::operator=(realm::Realm::Config const& c) { if (&c != this) { *this = Config(c); } return *this; } Realm::Realm(Config config) : m_config(std::move(config)) { try { if (m_config.read_only) { m_read_only_group = std::make_unique(m_config.path, m_config.encryption_key.data(), Group::mode_ReadOnly); m_group = m_read_only_group.get(); } else { m_history = realm::make_client_history(m_config.path, m_config.encryption_key.data()); SharedGroup::DurabilityLevel durability = m_config.in_memory ? SharedGroup::durability_MemOnly : SharedGroup::durability_Full; m_shared_group = std::make_unique(*m_history, durability, m_config.encryption_key.data()); } } catch (util::File::PermissionDenied const& ex) { throw RealmFileException(RealmFileException::Kind::PermissionDenied, "Unable to open a realm at path '" + m_config.path + "'. Please use a path where your app has " + (m_config.read_only ? "read" : "read-write") + " permissions."); } catch (util::File::Exists const& ex) { throw RealmFileException(RealmFileException::Kind::Exists, "Unable to open a realm at path '" + m_config.path + "'"); } catch (util::File::AccessError const& ex) { throw RealmFileException(RealmFileException::Kind::AccessError, "Unable to open a realm at path '" + m_config.path + "'"); } catch (IncompatibleLockFile const&) { throw RealmFileException(RealmFileException::Kind::IncompatibleLockFile, "Realm file is currently open in another process " "which cannot share access with this process. All processes sharing a single file must be the same architecture."); } } Realm::~Realm() { if (m_notifier) { // might not exist yet if an error occurred during init m_notifier->remove_realm(this); } } Group *Realm::read_group() { if (!m_group) { m_group = &const_cast(m_shared_group->begin_read()); } return m_group; } SharedRealm Realm::get_shared_realm(Config config) { if (config.cache) { if (SharedRealm realm = s_global_cache.get_realm(config.path)) { if (realm->config().read_only != config.read_only) { throw MismatchedConfigException("Realm at path already opened with different read permissions."); } if (realm->config().in_memory != config.in_memory) { throw MismatchedConfigException("Realm at path already opened with different inMemory settings."); } if (realm->config().encryption_key != config.encryption_key) { throw MismatchedConfigException("Realm at path already opened with a different encryption key."); } if (realm->config().schema_version != config.schema_version && config.schema_version != ObjectStore::NotVersioned) { throw MismatchedConfigException("Realm at path already opened with different schema version."); } // FIXME - enable schma comparison /*if (realm->config().schema != config.schema) { throw MismatchedConfigException("Realm at path already opened with different schema"); }*/ realm->m_config.migration_function = config.migration_function; return realm; } } SharedRealm realm(new Realm(std::move(config))); auto target_schema = std::move(realm->m_config.schema); auto target_schema_version = realm->m_config.schema_version; realm->m_config.schema_version = ObjectStore::get_schema_version(realm->read_group()); // we want to ensure we are only initializing a single realm at a time static std::mutex s_init_mutex; std::lock_guard lock(s_init_mutex); if (auto existing = s_global_cache.get_any_realm(realm->config().path)) { // if there is an existing realm at the current path steal its schema/column mapping // FIXME - need to validate that schemas match realm->m_config.schema = std::make_unique(*existing->m_config.schema); realm->m_notifier = existing->m_notifier; realm->m_notifier->add_realm(realm.get()); } else { realm->m_notifier = std::make_shared(realm.get()); // otherwise get the schema from the group realm->m_config.schema = std::make_unique(ObjectStore::schema_from_group(realm->read_group())); // if a target schema is supplied, verify that it matches or migrate to // it, as neeeded if (target_schema) { if (realm->m_config.read_only) { if (realm->m_config.schema_version == ObjectStore::NotVersioned) { throw UnitializedRealmException("Can't open an un-initialized Realm without a Schema"); } ObjectStore::verify_schema(*realm->m_config.schema, *target_schema, true); realm->m_config.schema = std::move(target_schema); } else { realm->update_schema(std::move(target_schema), target_schema_version); } } } if (config.cache) { s_global_cache.cache_realm(realm, realm->m_thread_id); } return realm; } bool Realm::update_schema(std::unique_ptr schema, uint64_t version) { bool needs_update = !m_config.read_only && (m_config.schema_version != version || ObjectStore::needs_update(*m_config.schema, *schema)); if (!needs_update) { ObjectStore::verify_schema(*m_config.schema, *schema, m_config.read_only); m_config.schema = std::move(schema); m_config.schema_version = version; return false; } // Store the old config/schema for the migration function, and update // our schema to the new one auto old_schema = std::move(m_config.schema); Config old_config(m_config); old_config.read_only = true; old_config.schema = std::move(old_schema); m_config.schema = std::move(schema); m_config.schema_version = version; auto migration_function = [&](Group*, Schema&) { SharedRealm old_realm(new Realm(old_config)); auto updated_realm = shared_from_this(); m_config.migration_function(old_realm, updated_realm); }; try { // update and migrate begin_transaction(); bool changed = ObjectStore::update_realm_with_schema(read_group(), *old_config.schema, version, *m_config.schema, migration_function); commit_transaction(); return changed; } catch (...) { if (is_in_transaction()) { cancel_transaction(); } m_config.schema_version = old_config.schema_version; m_config.schema = std::move(m_config.schema); throw; } } static void check_read_write(Realm *realm) { if (realm->config().read_only) { throw InvalidTransactionException("Can't perform transactions on read-only Realms."); } } void Realm::verify_thread() { if (m_thread_id != std::this_thread::get_id()) { throw IncorrectThreadException("Realm accessed from incorrect thread."); } } void Realm::begin_transaction() { check_read_write(this); verify_thread(); if (m_in_transaction) { throw InvalidTransactionException("The Realm is already in a write transaction"); } // make sure we have a read transaction read_group(); transaction::begin(*m_shared_group, *m_history, m_delegate.get()); m_in_transaction = true; } void Realm::commit_transaction() { check_read_write(this); verify_thread(); if (!m_in_transaction) { throw InvalidTransactionException("Can't commit a non-existing write transaction"); } m_in_transaction = false; transaction::commit(*m_shared_group, *m_history, m_delegate.get()); m_notifier->notify_others(); } void Realm::cancel_transaction() { check_read_write(this); verify_thread(); if (!m_in_transaction) { throw InvalidTransactionException("Can't cancel a non-existing write transaction"); } m_in_transaction = false; transaction::cancel(*m_shared_group, *m_history, m_delegate.get()); } void Realm::invalidate() { verify_thread(); check_read_write(this); if (m_in_transaction) { cancel_transaction(); } if (!m_group) { return; } m_shared_group->end_read(); m_group = nullptr; } bool Realm::compact() { verify_thread(); bool success = false; if (m_in_transaction) { throw InvalidTransactionException("Can't compact a Realm within a write transaction"); } for (auto &object_schema : *m_config.schema) { ObjectStore::table_for_object_type(read_group(), object_schema.name)->optimize(); } m_shared_group->end_read(); success = m_shared_group->compact(); m_shared_group->begin_read(); return success; } void Realm::notify() { verify_thread(); if (m_shared_group->has_changed()) { // Throws if (m_auto_refresh) { if (m_group) { transaction::advance(*m_shared_group, *m_history, m_delegate.get()); } else if (m_delegate) { m_delegate->did_change({}, {}); } } else if (m_delegate) { m_delegate->changes_available(); } } } bool Realm::refresh() { verify_thread(); check_read_write(this); // can't be any new changes if we're in a write transaction if (m_in_transaction) { return false; } // advance transaction if database has changed if (!m_shared_group->has_changed()) { // Throws return false; } if (m_group) { transaction::advance(*m_shared_group, *m_history, m_delegate.get()); } else { // Create the read transaction read_group(); } return true; } uint64_t Realm::get_schema_version(const realm::Realm::Config &config) { auto existing_realm = s_global_cache.get_any_realm(config.path); if (existing_realm) { return existing_realm->config().schema_version; } return ObjectStore::get_schema_version(Realm(config).read_group()); } SharedRealm RealmCache::get_realm(const std::string &path, std::thread::id thread_id) { std::lock_guard lock(m_mutex); auto path_iter = m_cache.find(path); if (path_iter == m_cache.end()) { return SharedRealm(); } auto thread_iter = path_iter->second.find(thread_id); if (thread_iter == path_iter->second.end()) { return SharedRealm(); } return thread_iter->second.lock(); } SharedRealm RealmCache::get_any_realm(const std::string &path) { std::lock_guard lock(m_mutex); auto path_iter = m_cache.find(path); if (path_iter == m_cache.end()) { return SharedRealm(); } auto thread_iter = path_iter->second.begin(); while (thread_iter != path_iter->second.end()) { if (auto realm = thread_iter->second.lock()) { return realm; } path_iter->second.erase(thread_iter++); } return SharedRealm(); } void RealmCache::remove(const std::string &path, std::thread::id thread_id) { std::lock_guard lock(m_mutex); auto path_iter = m_cache.find(path); if (path_iter == m_cache.end()) { return; } auto thread_iter = path_iter->second.find(thread_id); if (thread_iter != path_iter->second.end()) { path_iter->second.erase(thread_iter); } if (path_iter->second.size() == 0) { m_cache.erase(path_iter); } } void RealmCache::cache_realm(SharedRealm &realm, std::thread::id thread_id) { std::lock_guard lock(m_mutex); auto path_iter = m_cache.find(realm->config().path); if (path_iter == m_cache.end()) { m_cache.emplace(realm->config().path, std::map{{thread_id, realm}}); } else { path_iter->second.emplace(thread_id, realm); } } void RealmCache::clear() { std::lock_guard lock(m_mutex); m_cache.clear(); }