#include #include #include "visualdl/storage/storage.h" #include "visualdl/utils/concurrency.h" #include "visualdl/utils/filesystem.h" namespace visualdl { const std::string StorageBase::meta_file_name = "storage.meta"; std::string StorageBase::meta_path() const { CHECK(!storage_.dir().empty()) << "storage.dir should be set first"; return storage_.dir() + "/" + meta_file_name; } std::string StorageBase::tablet_path(const std::string &tag) const { CHECK(!storage_.dir().empty()) << "storage.dir should be set first"; return storage_.dir() + "/" + tag; } storage::Tablet *MemoryStorage::NewTablet(const std::string &tag, int num_samples) { auto it = tablets_.find(tag); if (it == tablets_.end()) { // create new tablet tablets_[tag] = storage::Tablet(); tablets_[tag].set_tag(tag); *storage_.add_tags() = tag; } else { return &it->second; } return &tablets_[tag]; } storage::Tablet *MemoryStorage::tablet(const std::string &tag) { auto it = tablets_.find(tag); CHECK(it != tablets_.end()) << "tablet tagged as " << tag << " not exists"; return &it->second; } // TODO add some checksum to avoid unnecessary saving void MemoryStorage::PersistToDisk() const { CHECK(!storage_.dir().empty()) << "storage's dir should be set first"; VLOG(3) << "persist storage to disk path " << storage_.dir(); // make a directory if not exist fs::TryMkdir(storage_.dir()); // write storage out fs::SerializeToFile(storage_, meta_path()); // write all the tablets for (auto tag : storage_.tags()) { auto it = tablets_.find(tag); CHECK(it != tablets_.end()); fs::SerializeToFile(it->second, tablet_path(tag)); } } // TODO add some checksum to avoid unnecessary loading void MemoryStorage::LoadFromDisk(const std::string &dir) { CHECK(!dir.empty()) << "dir is empty"; storage_.set_dir(dir); // load storage CHECK(fs::DeSerializeFromFile(&storage_, meta_path())) << "parse from " << meta_path() << " failed"; // load all the tablets for (int i = 0; i < storage_.tags_size(); i++) { auto tag = storage_.tags(i); CHECK(fs::DeSerializeFromFile(&tablets_[tag], tablet_path(tag))); } } void MemoryStorage::StartReadService() { cc::PeriodExector::task_t task = [this] { VLOG(3) << "loading from " << storage_.dir(); LoadFromDisk(storage_.dir()); return true; }; cc::PeriodExector::Global().Start(); VLOG(3) << "push read task"; cc::PeriodExector::Global()(std::move(task), 2512); } void MemoryStorage::StartWriteSerice() { cc::PeriodExector::Global().Start(); cc::PeriodExector::task_t task = [this] { PersistToDisk(); return true; }; cc::PeriodExector::Global()(std::move(task), 2000); } } // namespace visualdl