Mercurial > hg > orthanc-webviewer
view Plugin/Cache/CacheManager.cpp @ 27:c05ce507d8ae
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author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Tue, 02 Jun 2015 12:27:59 +0200 |
parents | a6492d20b2a8 |
children | c8ca47a67bf3 |
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/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2015 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU Affero General Public License * as published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ #include "CacheManager.h" #include "../../Orthanc/Core/Uuid.h" #include "../../Orthanc/Core/SQLite/Transaction.h" #include <boost/lexical_cast.hpp> namespace OrthancPlugins { class CacheManager::Bundle { private: uint32_t count_; uint64_t space_; public: Bundle() : count_(0), space_(0) { } Bundle(uint32_t count, uint64_t space) : count_(count), space_(space) { } uint32_t GetCount() const { return count_; } uint64_t GetSpace() const { return space_; } void Remove(uint64_t fileSize) { if (count_ == 0 || space_ < fileSize) { throw std::runtime_error("Internal error"); } count_ -= 1; space_ -= fileSize; } void Add(uint64_t fileSize) { count_ += 1; space_ += fileSize; } }; class CacheManager::BundleQuota { private: uint32_t maxCount_; uint64_t maxSpace_; public: BundleQuota(uint32_t maxCount, uint64_t maxSpace) : maxCount_(maxCount), maxSpace_(maxSpace) { } BundleQuota() { // Default quota maxCount_ = 0; // No limit on the number of files maxSpace_ = 100 * 1024 * 1024; // Max 100MB per bundle } uint32_t GetMaxCount() const { return maxCount_; } uint64_t GetMaxSpace() const { return maxSpace_; } bool IsSatisfied(const Bundle& bundle) const { if (maxCount_ != 0 && bundle.GetCount() > maxCount_) { return false; } if (maxSpace_ != 0 && bundle.GetSpace() > maxSpace_) { return false; } return true; } }; struct CacheManager::PImpl { Orthanc::SQLite::Connection& db_; Orthanc::FilesystemStorage& storage_; bool sanityCheck_; Bundles bundles_; BundleQuota defaultQuota_; BundleQuotas quotas_; PImpl(Orthanc::SQLite::Connection& db, Orthanc::FilesystemStorage& storage) : db_(db), storage_(storage), sanityCheck_(false) { } }; const CacheManager::BundleQuota& CacheManager::GetBundleQuota(int bundleIndex) const { BundleQuotas::const_iterator found = pimpl_->quotas_.find(bundleIndex); if (found == pimpl_->quotas_.end()) { return pimpl_->defaultQuota_; } else { return found->second; } } CacheManager::Bundle CacheManager::GetBundle(int bundleIndex) const { Bundles::const_iterator it = pimpl_->bundles_.find(bundleIndex); if (it == pimpl_->bundles_.end()) { return Bundle(); } else { return it->second; } } void CacheManager::MakeRoom(Bundle& bundle, std::list<std::string>& toRemove, int bundleIndex, const BundleQuota& quota) { using namespace Orthanc; toRemove.clear(); // Make room in the bundle while (!quota.IsSatisfied(bundle)) { SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT seq, fileUuid, fileSize FROM Cache WHERE bundle=? ORDER BY seq"); s.BindInt(0, bundleIndex); if (s.Step()) { SQLite::Statement t(pimpl_->db_, SQLITE_FROM_HERE, "DELETE FROM Cache WHERE seq=?"); t.BindInt64(0, s.ColumnInt64(0)); t.Run(); toRemove.push_back(s.ColumnString(1)); bundle.Remove(s.ColumnInt64(2)); } else { // Should never happen throw std::runtime_error("Internal error"); } } } void CacheManager::EnsureQuota(int bundleIndex, const BundleQuota& quota) { using namespace Orthanc; // Remove the cached files that exceed the quota std::auto_ptr<SQLite::Transaction> transaction(new SQLite::Transaction(pimpl_->db_)); transaction->Begin(); Bundle bundle = GetBundle(bundleIndex); std::list<std::string> toRemove; MakeRoom(bundle, toRemove, bundleIndex, quota); transaction->Commit(); for (std::list<std::string>::const_iterator it = toRemove.begin(); it != toRemove.end(); it++) { pimpl_->storage_.Remove(*it, Orthanc::FileContentType_Unknown); } pimpl_->bundles_[bundleIndex] = bundle; } void CacheManager::ReadBundleStatistics() { using namespace Orthanc; pimpl_->bundles_.clear(); SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT bundle,COUNT(*),SUM(fileSize) FROM Cache GROUP BY bundle"); while (s.Step()) { int index = s.ColumnInt(0); Bundle bundle(static_cast<uint32_t>(s.ColumnInt(1)), static_cast<uint64_t>(s.ColumnInt64(2))); pimpl_->bundles_[index] = bundle; } } void CacheManager::SanityCheck() { if (!pimpl_->sanityCheck_) { return; } using namespace Orthanc; SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT bundle,COUNT(*),SUM(fileSize) FROM Cache GROUP BY bundle"); while (s.Step()) { const Bundle& bundle = GetBundle(s.ColumnInt(0)); if (bundle.GetCount() != static_cast<uint32_t>(s.ColumnInt(1)) || bundle.GetSpace() != static_cast<uint64_t>(s.ColumnInt64(2))) { throw std::runtime_error("SANITY ERROR in cache: " + boost::lexical_cast<std::string>(bundle.GetCount()) + "/" + boost::lexical_cast<std::string>(bundle.GetSpace()) + " vs " + boost::lexical_cast<std::string>(s.ColumnInt(1)) + "/" + boost::lexical_cast<std::string>(s.ColumnInt64(2))); } } } CacheManager::CacheManager(Orthanc::SQLite::Connection& db, Orthanc::FilesystemStorage& storage) : pimpl_(new PImpl(db, storage)) { Open(); ReadBundleStatistics(); } void CacheManager::SetSanityCheckEnabled(bool enabled) { pimpl_->sanityCheck_ = enabled; } void CacheManager::Open() { if (!pimpl_->db_.DoesTableExist("Cache")) { pimpl_->db_.Execute("CREATE TABLE Cache(seq INTEGER PRIMARY KEY, bundle INTEGER, item TEXT, fileUuid TEXT, fileSize INT);"); pimpl_->db_.Execute("CREATE INDEX CacheBundles ON Cache(bundle);"); pimpl_->db_.Execute("CREATE INDEX CacheIndex ON Cache(bundle, item);"); } // Performance tuning of SQLite with PRAGMAs // http://www.sqlite.org/pragma.html pimpl_->db_.Execute("PRAGMA SYNCHRONOUS=OFF;"); pimpl_->db_.Execute("PRAGMA JOURNAL_MODE=WAL;"); pimpl_->db_.Execute("PRAGMA LOCKING_MODE=EXCLUSIVE;"); } void CacheManager::Store(int bundleIndex, const std::string& item, const std::string& content) { SanityCheck(); const BundleQuota quota = GetBundleQuota(bundleIndex); if (quota.GetMaxSpace() > 0 && content.size() > quota.GetMaxSpace()) { // Cannot store such a large instance into the cache, forget about it return; } using namespace Orthanc; std::auto_ptr<SQLite::Transaction> transaction(new SQLite::Transaction(pimpl_->db_)); transaction->Begin(); Bundle bundle = GetBundle(bundleIndex); std::list<std::string> toRemove; bundle.Add(content.size()); MakeRoom(bundle, toRemove, bundleIndex, quota); // Store the cached content on the disk const char* data = content.size() ? &content[0] : NULL; std::string uuid = Toolbox::GenerateUuid(); pimpl_->storage_.Create(uuid, data, content.size(), Orthanc::FileContentType_Unknown); bool ok = true; // Remove the previous cached value. This might happen if the same // item is accessed very quickly twice: Another factory could have // been cached a value before the check for existence in Access(). { SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT seq, fileUuid, fileSize FROM Cache WHERE bundle=? AND item=?"); s.BindInt(0, bundleIndex); s.BindString(1, item); if (s.Step()) { SQLite::Statement t(pimpl_->db_, SQLITE_FROM_HERE, "DELETE FROM Cache WHERE seq=?"); t.BindInt64(0, s.ColumnInt64(0)); t.Run(); toRemove.push_back(s.ColumnString(1)); bundle.Remove(s.ColumnInt64(2)); } } if (ok) { SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "INSERT INTO Cache VALUES(NULL, ?, ?, ?, ?)"); s.BindInt(0, bundleIndex); s.BindString(1, item); s.BindString(2, uuid); s.BindInt64(3, content.size()); if (!s.Run()) { ok = false; } } if (!ok) { // Error: Remove the stored file pimpl_->storage_.Remove(uuid, Orthanc::FileContentType_Unknown); } else { transaction->Commit(); pimpl_->bundles_[bundleIndex] = bundle; for (std::list<std::string>::const_iterator it = toRemove.begin(); it != toRemove.end(); it++) { pimpl_->storage_.Remove(*it, Orthanc::FileContentType_Unknown); } } SanityCheck(); } bool CacheManager::LocateInCache(std::string& uuid, uint64_t& size, int bundle, const std::string& item) { using namespace Orthanc; SanityCheck(); std::auto_ptr<SQLite::Transaction> transaction(new SQLite::Transaction(pimpl_->db_)); transaction->Begin(); SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT seq, fileUuid, fileSize FROM Cache WHERE bundle=? AND item=?"); s.BindInt(0, bundle); s.BindString(1, item); if (!s.Step()) { return false; } int64_t seq = s.ColumnInt64(0); uuid = s.ColumnString(1); size = s.ColumnInt64(2); // Touch the cache to fulfill the LRU scheme. SQLite::Statement t(pimpl_->db_, SQLITE_FROM_HERE, "DELETE FROM Cache WHERE seq=?"); t.BindInt64(0, seq); if (t.Run()) { SQLite::Statement u(pimpl_->db_, SQLITE_FROM_HERE, "INSERT INTO Cache VALUES(NULL, ?, ?, ?, ?)"); u.BindInt(0, bundle); u.BindString(1, item); u.BindString(2, uuid); u.BindInt64(3, size); if (u.Run()) { // Everything was OK. Commit the changes to the cache. transaction->Commit(); return true; } } return false; } bool CacheManager::IsCached(int bundle, const std::string& item) { std::string uuid; uint64_t size; return LocateInCache(uuid, size, bundle, item); } bool CacheManager::Access(std::string& content, int bundle, const std::string& item) { std::string uuid; uint64_t size; if (!LocateInCache(uuid, size, bundle, item)) { return false; } bool ok; try { pimpl_->storage_.Read(content, uuid, Orthanc::FileContentType_Unknown); ok = (content.size() == size); } catch (std::runtime_error&) { ok = false; } if (ok) { return true; } else { throw std::runtime_error("Error in the filesystem"); } } void CacheManager::Invalidate(int bundleIndex, const std::string& item) { using namespace Orthanc; SanityCheck(); std::auto_ptr<SQLite::Transaction> transaction(new SQLite::Transaction(pimpl_->db_)); transaction->Begin(); Bundle bundle = GetBundle(bundleIndex); SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT seq, fileUuid, fileSize FROM Cache WHERE bundle=? AND item=?"); s.BindInt(0, bundleIndex); s.BindString(1, item); if (s.Step()) { int64_t seq = s.ColumnInt64(0); const std::string uuid = s.ColumnString(1); uint64_t expectedSize = s.ColumnInt64(2); bundle.Remove(expectedSize); SQLite::Statement t(pimpl_->db_, SQLITE_FROM_HERE, "DELETE FROM Cache WHERE seq=?"); t.BindInt64(0, seq); if (t.Run()) { transaction->Commit(); pimpl_->bundles_[bundleIndex] = bundle; pimpl_->storage_.Remove(uuid, Orthanc::FileContentType_Unknown); } } } void CacheManager::SetBundleQuota(int bundle, uint32_t maxCount, uint64_t maxSpace) { SanityCheck(); const BundleQuota quota(maxCount, maxSpace); EnsureQuota(bundle, quota); pimpl_->quotas_[bundle] = quota; SanityCheck(); } void CacheManager::SetDefaultQuota(uint32_t maxCount, uint64_t maxSpace) { using namespace Orthanc; SanityCheck(); pimpl_->defaultQuota_ = BundleQuota(maxCount, maxSpace); SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT DISTINCT bundle FROM Cache"); while (s.Step()) { EnsureQuota(s.ColumnInt(0), pimpl_->defaultQuota_); } SanityCheck(); } void CacheManager::Clear() { using namespace Orthanc; SanityCheck(); SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT fileUuid FROM Cache"); while (s.Step()) { pimpl_->storage_.Remove(s.ColumnString(0), Orthanc::FileContentType_Unknown); } SQLite::Statement t(pimpl_->db_, SQLITE_FROM_HERE, "DELETE FROM Cache"); t.Run(); ReadBundleStatistics(); SanityCheck(); } void CacheManager::Clear(int bundle) { using namespace Orthanc; SanityCheck(); SQLite::Statement s(pimpl_->db_, SQLITE_FROM_HERE, "SELECT fileUuid FROM Cache WHERE bundle=?"); s.BindInt(0, bundle); while (s.Step()) { pimpl_->storage_.Remove(s.ColumnString(0), Orthanc::FileContentType_Unknown); } SQLite::Statement t(pimpl_->db_, SQLITE_FROM_HERE, "DELETE FROM Cache WHERE bundle=?"); t.BindInt(0, bundle); t.Run(); ReadBundleStatistics(); SanityCheck(); } }