_file_mgr_8cpp_source.html

 /*

  * Copyright 2022 HEAVY.AI, 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 "DataMgr/FileMgr/FileMgr.h"


 #include <fcntl.h>

 #include <algorithm>

 #include <fstream>

 #include <future>

 #include <string>

 #include <thread>

 #include <utility>

 #include <vector>


 #include <boost/filesystem.hpp>

 #include <boost/lexical_cast.hpp>

 #include <boost/system/error_code.hpp>


 #include "DataMgr/FileMgr/GlobalFileMgr.h"

 #include "Shared/File.h"

 #include "Shared/checked_alloc.h"

 #include "Shared/measure.h"

 #include "Shared/scope.h"


 using namespace std;


 extern bool g_read_only;

 extern bool g_multi_instance;


 namespace File_Namespace {


 FileMgr::FileMgr(const int32_t device_id,

                  GlobalFileMgr* gfm,

                  const TablePair file_mgr_key,

                  const int32_t max_rollback_epochs,

                  const size_t num_reader_threads,

                  const int32_t epoch)

     : AbstractBufferMgr(device_id)

     , maxRollbackEpochs_(max_rollback_epochs)

     , nextFileId_(0)

     , gfm_(gfm)

     , fileMgrKey_(file_mgr_key)

     , page_size_(gfm->getPageSize())

     , metadata_page_size_(gfm->getMetadataPageSize()) {

   init(num_reader_threads, epoch);

 }


 // used only to initialize enough to drop

 FileMgr::FileMgr(const int32_t device_id,

                  GlobalFileMgr* gfm,

                  const TablePair file_mgr_key,

                  const bool run_core_init)

     : AbstractBufferMgr(device_id)

     , maxRollbackEpochs_(-1)

     , nextFileId_(0)

     , gfm_(gfm)

     , fileMgrKey_(file_mgr_key)

     , page_size_(gfm->getPageSize())

     , metadata_page_size_(gfm->getMetadataPageSize()) {

   // TODO(Misiu): Standardize prefix and delim.

   const std::string fileMgrDirPrefix("table");

   const std::string fileMgrDirDelim("_");

   fileMgrBasePath_ = (gfm_->getBasePath() + fileMgrDirPrefix + fileMgrDirDelim +

                       std::to_string(fileMgrKey_.first) +                     // db_id

                       fileMgrDirDelim + std::to_string(fileMgrKey_.second));  // tb_id

   epochFile_ = nullptr;

   files_.clear();

   if (run_core_init) {

     coreInit();

   }

 }


 FileMgr::FileMgr(GlobalFileMgr* gfm, std::string base_path)

     : AbstractBufferMgr(0)

     , maxRollbackEpochs_(-1)

     , fileMgrBasePath_(base_path)

     , nextFileId_(0)

     , gfm_(gfm)

     , fileMgrKey_(0, 0)

     , page_size_(gfm->getPageSize())

     , metadata_page_size_(gfm->getMetadataPageSize()) {

   init(base_path, -1);

 }


 // For testing purposes only

 FileMgr::FileMgr(const int epoch)

     : AbstractBufferMgr(-1)

     , page_size_(DEFAULT_PAGE_SIZE)

     , metadata_page_size_(DEFAULT_METADATA_PAGE_SIZE) {

   epoch_.ceiling(epoch);

 }


 // Used to initialize CachingFileMgr.

 FileMgr::FileMgr(const size_t page_size, const size_t metadata_page_size)

     : AbstractBufferMgr(0)

     , page_size_(page_size)

     , metadata_page_size_(metadata_page_size) {}


 FileMgr::~FileMgr() {

   // free memory used by FileInfo objects

   for (auto chunkIt = chunkIndex_.begin(); chunkIt != chunkIndex_.end(); ++chunkIt) {

     delete chunkIt->second;

   }


   files_.clear();


   if (epochFile_) {

     close(epochFile_);

     epochFile_ = nullptr;

   }


   if (DBMetaFile_) {

     close(DBMetaFile_);

     DBMetaFile_ = nullptr;

   }

 }


 bool FileMgr::coreInit() {

   heavyai::unique_lock<heavyai::shared_mutex> write_lock(files_rw_mutex_);

   const std::string fileMgrDirPrefix("table");

   const std::string FileMgrDirDelim("_");

   fileMgrBasePath_ = (gfm_->getBasePath() + fileMgrDirPrefix + FileMgrDirDelim +

                       std::to_string(fileMgrKey_.first) +                     // db_id

                       FileMgrDirDelim + std::to_string(fileMgrKey_.second));  // tb_id

   boost::filesystem::path path(fileMgrBasePath_);

   if (boost::filesystem::exists(path)) {

     if (!boost::filesystem::is_directory(path)) {

       LOG(FATAL) << "Specified path '" << fileMgrBasePath_

                  << "' for table data is not a directory.";

     }

     migrateToLatestFileMgrVersion();

     openAndReadEpochFile(EPOCH_FILENAME);

     return true;

   }

   return false;

 }


 FileMetadata FileMgr::getMetadataForFile(

     const boost::filesystem::directory_iterator& fileIterator) const {

   FileMetadata fileMetadata;

   fileMetadata.is_data_file = false;

   fileMetadata.file_path = fileIterator->path().string();

   if (!boost::filesystem::is_regular_file(fileIterator->status())) {

     return fileMetadata;

   }

   // note that boost::filesystem leaves preceding dot on

   // extension - hence DATA_FILE_EXT is ".data"

   std::string extension(fileIterator->path().extension().string());

   if (extension == DATA_FILE_EXT) {

     std::string fileStem(fileIterator->path().stem().string());

     // remove trailing dot if any

     if (fileStem.size() > 0 && fileStem.back() == '.') {

       fileStem = fileStem.substr(0, fileStem.size() - 1);

     }

     size_t dotPos = fileStem.find_last_of(".");  // should only be one

     if (dotPos == std::string::npos) {

       LOG(FATAL) << "File `" << fileIterator->path()

                  << "` does not carry page size information in the filename.";

     }

     fileMetadata.is_data_file = true;

     fileMetadata.file_id = boost::lexical_cast<int>(fileStem.substr(0, dotPos));

     fileMetadata.page_size =

         boost::lexical_cast<size_t>(fileStem.substr(dotPos + 1, fileStem.size()));


     fileMetadata.file_size = boost::filesystem::file_size(fileMetadata.file_path);

     CHECK_EQ(fileMetadata.file_size % fileMetadata.page_size,

              size_t(0));  // should be no partial pages

     fileMetadata.num_pages = fileMetadata.file_size / fileMetadata.page_size;

   }

   return fileMetadata;

 }


 namespace {

 bool is_compaction_status_file(const std::string& file_name) {

   return (file_name == FileMgr::COPY_PAGES_STATUS ||

           file_name == FileMgr::UPDATE_PAGE_VISIBILITY_STATUS ||

           file_name == FileMgr::DELETE_EMPTY_FILES_STATUS);

 }

 }  // namespace


 OpenFilesResult FileMgr::openFiles() {

   auto clock_begin = timer_start();

   boost::filesystem::directory_iterator

       end_itr;  // default construction yields past-the-end

   OpenFilesResult result;

   result.max_file_id = -1;

   int32_t file_count = 0;

   int32_t thread_count = std::thread::hardware_concurrency();

   std::vector<std::future<std::vector<HeaderInfo>>> file_futures;

   boost::filesystem::path path(fileMgrBasePath_);

   for (boost::filesystem::directory_iterator file_it(path); file_it != end_itr;

        ++file_it) {

     FileMetadata file_metadata = getMetadataForFile(file_it);

     if (file_metadata.is_data_file) {

       result.max_file_id = std::max(result.max_file_id, file_metadata.file_id);

       file_futures.emplace_back(std::async(std::launch::async, [file_metadata, this] {

         std::vector<HeaderInfo> temp_header_vec;

         openExistingFile(file_metadata.file_path,

                          file_metadata.file_id,

                          file_metadata.page_size,

                          file_metadata.num_pages,

                          temp_header_vec);

         return temp_header_vec;

       }));

       file_count++;

       if (file_count % thread_count == 0) {

         processFileFutures(file_futures, result.header_infos);

       }

     }


     if (is_compaction_status_file(file_it->path().filename().string())) {

       CHECK(result.compaction_status_file_name.empty());

       result.compaction_status_file_name = file_it->path().filename().string();

     }

   }


   if (file_futures.size() > 0) {

     processFileFutures(file_futures, result.header_infos);

   }


   int64_t queue_time_ms = timer_stop(clock_begin);

   LOG(INFO) << "Completed Reading table's file metadata, Elapsed time : " << queue_time_ms

             << "ms Epoch: " << epoch_.ceiling() << " files read: " << file_count

             << " table location: '" << fileMgrBasePath_ << "'";

   return result;

 }


 void FileMgr::clearFileInfos() {

   files_.clear();

   fileIndex_.clear();

 }


 void FileMgr::init(const size_t num_reader_threads, const int32_t epochOverride) {

   // if epochCeiling = -1 this means open from epoch file


   const bool dataExists = coreInit();

   if (dataExists) {

     if (epochOverride != -1) {  // if opening at specified epoch

       setEpoch(epochOverride);

     }


     auto open_files_result = openFiles();

     if (!open_files_result.compaction_status_file_name.empty()) {

       resumeFileCompaction(open_files_result.compaction_status_file_name);

       clearFileInfos();

       open_files_result = openFiles();

       CHECK(open_files_result.compaction_status_file_name.empty());

     }


     /* Sort headerVec so that all HeaderInfos

      * from a chunk will be grouped together

      * and in order of increasing PageId

      * - Version Epoch */

     auto& header_vec = open_files_result.header_infos;

     std::sort(header_vec.begin(), header_vec.end());


     /* Goal of next section is to find sequences in the

      * sorted headerVec of the same ChunkId, which we

      * can then initiate a FileBuffer with */


     VLOG(3) << "Number of Headers in Vector: " << header_vec.size();

     if (header_vec.size() > 0) {

       ChunkKey lastChunkKey = header_vec.begin()->chunkKey;

       auto startIt = header_vec.begin();


       for (auto headerIt = header_vec.begin() + 1; headerIt != header_vec.end();

            ++headerIt) {

         if (headerIt->chunkKey != lastChunkKey) {

           createBufferFromHeaders(lastChunkKey, startIt, headerIt);

           lastChunkKey = headerIt->chunkKey;

           startIt = headerIt;

         }

       }

       // now need to insert last Chunk

       createBufferFromHeaders(lastChunkKey, startIt, header_vec.end());

     }

     nextFileId_ = open_files_result.max_file_id + 1;

     rollOffOldData(epoch(), true /* only checkpoint if data is rolled off */);

     incrementEpoch();

     freePages();

   } else {

     boost::filesystem::path path(fileMgrBasePath_);

     readOnlyCheck("create file", path.string());

     if (!boost::filesystem::create_directory(path)) {

       LOG(FATAL) << "Could not create data directory: " << path;

     }

     fileMgrVersion_ = LATEST_FILE_MGR_VERSION;

     if (epochOverride != -1) {

       epoch_.floor(epochOverride);

       epoch_.ceiling(epochOverride);

     } else {

       // These are default constructor values for epoch_, but resetting here for clarity

       epoch_.floor(0);

       epoch_.ceiling(0);

     }

     createEpochFile(EPOCH_FILENAME);

     writeAndSyncVersionToDisk(FILE_MGR_VERSION_FILENAME, fileMgrVersion_);

     incrementEpoch();

   }


   initializeNumThreads(num_reader_threads);

   isFullyInitted_ = true;

 }


 namespace {

 bool is_metadata_file(size_t file_size,

                       size_t page_size,

                       size_t metadata_page_size,

                       size_t num_pages_per_metadata_file) {

   return (file_size == (metadata_page_size * num_pages_per_metadata_file) &&

           page_size == metadata_page_size);

 }

 }  // namespace


 StorageStats FileMgr::getStorageStats() const {

   StorageStats storage_stats;

   setDataAndMetadataFileStats(storage_stats);

   if (isFullyInitted_) {

     storage_stats.fragment_count = getFragmentCount();

   }

   return storage_stats;

 }


 void FileMgr::setDataAndMetadataFileStats(StorageStats& storage_stats) const {

   heavyai::shared_lock<heavyai::shared_mutex> read_lock(files_rw_mutex_);

   if (!isFullyInitted_) {

     CHECK(!fileMgrBasePath_.empty());

     boost::filesystem::path path(fileMgrBasePath_);

     if (boost::filesystem::exists(path)) {

       if (!boost::filesystem::is_directory(path)) {

         LOG(FATAL) << "getStorageStats: Specified path '" << fileMgrBasePath_

                    << "' for table data is not a directory.";

       }


       storage_stats.epoch = lastCheckpointedEpoch();

       storage_stats.epoch_floor = epochFloor();

       boost::filesystem::directory_iterator

           endItr;  // default construction yields past-the-end

       for (boost::filesystem::directory_iterator fileIt(path); fileIt != endItr;

            ++fileIt) {

         FileMetadata file_metadata = getMetadataForFile(fileIt);

         if (file_metadata.is_data_file) {

           if (is_metadata_file(file_metadata.file_size,

                                file_metadata.page_size,

                                metadata_page_size_,

                                num_pages_per_metadata_file_)) {

             storage_stats.metadata_file_count++;

             storage_stats.total_metadata_file_size += file_metadata.file_size;

             storage_stats.total_metadata_page_count += file_metadata.num_pages;

           } else {

             storage_stats.data_file_count++;

             storage_stats.total_data_file_size += file_metadata.file_size;

             storage_stats.total_data_page_count += file_metadata.num_pages;

           }

         }

       }

     }

   } else {

     storage_stats.epoch = lastCheckpointedEpoch();

     storage_stats.epoch_floor = epochFloor();

     storage_stats.total_free_metadata_page_count = 0;

     storage_stats.total_free_data_page_count = 0;


     // We already initialized this table so take the faster path of walking through the

     // FileInfo objects and getting metadata from there

     for (const auto& file_info_entry : files_) {

       const auto file_info = file_info_entry.second.get();

       if (is_metadata_file(file_info->size(),

                            file_info->pageSize,

                            metadata_page_size_,

                            num_pages_per_metadata_file_)) {

         storage_stats.metadata_file_count++;

         storage_stats.total_metadata_file_size +=

             file_info->pageSize * file_info->numPages;

         storage_stats.total_metadata_page_count += file_info->numPages;

         storage_stats.total_free_metadata_page_count.value() +=

             file_info->freePages.size();

       } else {

         storage_stats.data_file_count++;

         storage_stats.total_data_file_size += file_info->pageSize * file_info->numPages;

         storage_stats.total_data_page_count += file_info->numPages;

         storage_stats.total_free_data_page_count.value() += file_info->freePages.size();

       }

     }

   }

 }


 uint32_t FileMgr::getFragmentCount() const {

   heavyai::shared_lock<heavyai::shared_mutex> chunk_index_read_lock(chunkIndexMutex_);

   std::set<int32_t> fragment_ids;

   for (const auto& [chunk_key, file_buffer] : chunkIndex_) {

     fragment_ids.emplace(chunk_key[CHUNK_KEY_FRAGMENT_IDX]);

   }

   return static_cast<uint32_t>(fragment_ids.size());

 }


 void FileMgr::processFileFutures(

     std::vector<std::future<std::vector<HeaderInfo>>>& file_futures,

     std::vector<HeaderInfo>& headerVec) {

   for (auto& file_future : file_futures) {

     file_future.wait();

   }

   // concatenate the vectors after thread completes

   for (auto& file_future : file_futures) {

     auto tempHeaderVec = file_future.get();

     headerVec.insert(headerVec.end(), tempHeaderVec.begin(), tempHeaderVec.end());

   }

   file_futures.clear();

 }


 void FileMgr::init(const std::string& dataPathToConvertFrom,

                    const int32_t epochOverride) {

   int32_t converted_data_epoch = 0;

   boost::filesystem::path path(dataPathToConvertFrom);

   if (boost::filesystem::exists(path)) {

     if (!boost::filesystem::is_directory(path)) {

       LOG(FATAL) << "Specified path `" << path << "` is not a directory.";

     }

     openAndReadEpochFile(EPOCH_FILENAME);


     if (epochOverride != -1) {  // if opening at previous epoch

       setEpoch(epochOverride);

     }


     boost::filesystem::directory_iterator

         endItr;  // default construction yields past-the-end

     int32_t maxFileId = -1;

     int32_t fileCount = 0;

     int32_t threadCount = std::thread::hardware_concurrency();

     std::vector<HeaderInfo> headerVec;

     std::vector<std::future<std::vector<HeaderInfo>>> file_futures;

     for (boost::filesystem::directory_iterator fileIt(path); fileIt != endItr; ++fileIt) {

       FileMetadata fileMetadata = getMetadataForFile(fileIt);

       if (fileMetadata.is_data_file) {

         maxFileId = std::max(maxFileId, fileMetadata.file_id);

         file_futures.emplace_back(std::async(std::launch::async, [fileMetadata, this] {

           std::vector<HeaderInfo> tempHeaderVec;

           openExistingFile(fileMetadata.file_path,

                            fileMetadata.file_id,

                            fileMetadata.page_size,

                            fileMetadata.num_pages,

                            tempHeaderVec);

           return tempHeaderVec;

         }));

         fileCount++;

         if (fileCount % threadCount) {

           processFileFutures(file_futures, headerVec);

         }

       }

     }


     if (file_futures.size() > 0) {

       processFileFutures(file_futures, headerVec);

     }


     /* Sort headerVec so that all HeaderInfos

      * from a chunk will be grouped together

      * and in order of increasing PageId

      * - Version Epoch */


     std::sort(headerVec.begin(), headerVec.end());


     /* Goal of next section is to find sequences in the

      * sorted headerVec of the same ChunkId, which we

      * can then initiate a FileBuffer with */


     if (headerVec.size() > 0) {

       ChunkKey lastChunkKey = headerVec.begin()->chunkKey;

       auto startIt = headerVec.begin();


       for (auto headerIt = headerVec.begin() + 1; headerIt != headerVec.end();

            ++headerIt) {

         if (headerIt->chunkKey != lastChunkKey) {

           FileMgr* c_fm_ =

               dynamic_cast<File_Namespace::FileMgr*>(gfm_->getFileMgr(lastChunkKey));

           CHECK(c_fm_);

           auto srcBuf = createBufferFromHeaders(lastChunkKey, startIt, headerIt);

           auto destBuf = c_fm_->createBuffer(lastChunkKey, srcBuf->pageSize());

           destBuf->syncEncoder(srcBuf);

           destBuf->setSize(srcBuf->size());

           destBuf->setDirty();  // this needs to be set to force writing out metadata

                                 // files from "checkpoint()" call


           size_t totalNumPages = srcBuf->getMultiPage().size();

           for (size_t pageNum = 0; pageNum < totalNumPages; pageNum++) {

             Page srcPage = srcBuf->getMultiPage()[pageNum].current().page;

             Page destPage = c_fm_->requestFreePage(

                 srcBuf->pageSize(),

                 false);  // may modify and use api "FileBuffer::addNewMultiPage" instead

             MultiPage multiPage(srcBuf->pageSize());

             multiPage.push(destPage, converted_data_epoch);

             destBuf->multiPages_.push_back(multiPage);

             size_t reservedHeaderSize = srcBuf->reservedHeaderSize();

             copyPage(

                 srcPage, c_fm_, destPage, reservedHeaderSize, srcBuf->pageDataSize(), 0);

             destBuf->writeHeader(destPage, pageNum, converted_data_epoch, false);

           }

           lastChunkKey = headerIt->chunkKey;

           startIt = headerIt;

         }

       }


       // now need to insert last Chunk

       FileMgr* c_fm_ =

           dynamic_cast<File_Namespace::FileMgr*>(gfm_->getFileMgr(lastChunkKey));

       auto srcBuf = createBufferFromHeaders(lastChunkKey, startIt, headerVec.end());

       auto destBuf = c_fm_->createBuffer(lastChunkKey, srcBuf->pageSize());

       destBuf->syncEncoder(srcBuf);

       destBuf->setSize(srcBuf->size());

       destBuf->setDirty();  // this needs to be set to write out metadata file from the

                             // "checkpoint()" call


       size_t totalNumPages = srcBuf->getMultiPage().size();

       for (size_t pageNum = 0; pageNum < totalNumPages; pageNum++) {

         Page srcPage = srcBuf->getMultiPage()[pageNum].current().page;

         Page destPage = c_fm_->requestFreePage(

             srcBuf->pageSize(),

             false);  // may modify and use api "FileBuffer::addNewMultiPage" instead

         MultiPage multiPage(srcBuf->pageSize());

         multiPage.push(destPage, converted_data_epoch);

         destBuf->multiPages_.push_back(multiPage);

         size_t reservedHeaderSize = srcBuf->reservedHeaderSize();

         copyPage(srcPage, c_fm_, destPage, reservedHeaderSize, srcBuf->pageDataSize(), 0);

         destBuf->writeHeader(destPage, pageNum, converted_data_epoch, false);

       }

     }

     nextFileId_ = maxFileId + 1;

   } else {

     readOnlyCheck("create file", path.string());

     if (!boost::filesystem::create_directory(path)) {

       LOG(FATAL) << "Specified path does not exist: " << path;

     }

   }

   isFullyInitted_ = true;

 }


 void FileMgr::closePhysicalUnlocked() {

   for (const auto& [idx, file_info] : files_) {

     if (file_info->f) {

       close(file_info->f);

       file_info->f = nullptr;

     }

   }


   if (DBMetaFile_) {

     close(DBMetaFile_);

     DBMetaFile_ = nullptr;

   }


   if (epochFile_) {

     close(epochFile_);

     epochFile_ = nullptr;

   }

 }


 void FileMgr::closeRemovePhysical() {

   heavyai::unique_lock<heavyai::shared_mutex> write_lock(files_rw_mutex_);

   auto path = getFileMgrBasePath();

   readOnlyCheck("rename file", path);


   closePhysicalUnlocked();

   /* rename for later deletion the directory containing table related data */

   File_Namespace::renameForDelete(path);

 }


 // TODO(Misiu): This function is almost identical to FileInfo::copyPage.  Deduplicate.

 void FileMgr::copyPage(Page& srcPage,

                        FileMgr* destFileMgr,

                        Page& destPage,

                        const size_t reservedHeaderSize,

                        const size_t numBytes,

                        const size_t offset) {

   CHECK(offset + numBytes <= page_size_);

   FileInfo* srcFileInfo = getFileInfoForFileId(srcPage.fileId);

   FileInfo* destFileInfo = destFileMgr->getFileInfoForFileId(destPage.fileId);

   int8_t* buffer = reinterpret_cast<int8_t*>(checked_malloc(numBytes));

   ScopeGuard guard = [&buffer] { ::free(buffer); };


   size_t bytesRead = srcFileInfo->read(

       srcPage.pageNum * page_size_ + offset + reservedHeaderSize, numBytes, buffer);

   CHECK(bytesRead == numBytes);

   size_t bytesWritten = destFileInfo->write(

       destPage.pageNum * page_size_ + offset + reservedHeaderSize, numBytes, buffer);

   CHECK(bytesWritten == numBytes);

 }


 void FileMgr::createEpochFile(const std::string& epochFileName) {

   std::string epochFilePath(fileMgrBasePath_ + "/" + epochFileName);

   readOnlyCheck("create file", epochFilePath);

   if (boost::filesystem::exists(epochFilePath)) {

     LOG(FATAL) << "Epoch file '" << epochFilePath << "' already exists";

   }

   epochFile_ = create(epochFilePath, sizeof(Epoch::byte_size()));

   // Write out current epoch to file - which if this

   // function is being called should be 0

   writeAndSyncEpochToDisk();

 }


 int32_t FileMgr::openAndReadLegacyEpochFile(const std::string& epochFileName) {

   std::string epochFilePath(fileMgrBasePath_ + "/" + epochFileName);

   if (!boost::filesystem::exists(epochFilePath)) {

     return 0;

   }


   if (!boost::filesystem::is_regular_file(epochFilePath)) {

     LOG(FATAL) << "Epoch file `" << epochFilePath << "` is not a regular file";

   }

   if (boost::filesystem::file_size(epochFilePath) < 4) {

     LOG(FATAL) << "Epoch file `" << epochFilePath

                << "` is not sized properly (current size: "

                << boost::filesystem::file_size(epochFilePath) << ", expected size: 4)";

   }

   FILE* legacyEpochFile = open(epochFilePath);

   int32_t epoch;

   read(legacyEpochFile, 0, sizeof(int32_t), (int8_t*)&epoch, epochFilePath);

   close(legacyEpochFile);

   return epoch;

 }


 void FileMgr::openAndReadEpochFile(const std::string& epochFileName) {

   if (!epochFile_) {  // Check to see if already open

     std::string epochFilePath(fileMgrBasePath_ + "/" + epochFileName);

     if (!boost::filesystem::exists(epochFilePath)) {

       LOG(FATAL) << "Epoch file `" << epochFilePath << "` does not exist";

     }

     if (!boost::filesystem::is_regular_file(epochFilePath)) {

       LOG(FATAL) << "Epoch file `" << epochFilePath << "` is not a regular file";

     }

     if (boost::filesystem::file_size(epochFilePath) != Epoch::byte_size()) {

       LOG(FATAL) << "Epoch file `" << epochFilePath

                  << "` is not sized properly (current size: "

                  << boost::filesystem::file_size(epochFilePath)

                  << ", expected size: " << Epoch::byte_size() << ")";

     }

     epochFile_ = open(epochFilePath);

   }

   read(epochFile_, 0, Epoch::byte_size(), epoch_.storage_ptr(), epochFileName);

 }


 void FileMgr::writeAndSyncEpochToDisk() {

   CHECK(epochFile_);

   writeFile(epochFile_, 0, Epoch::byte_size(), epoch_.storage_ptr());

   int32_t status = fflush(epochFile_);

   CHECK(status == 0) << "Could not flush epoch file to disk";

 #ifdef __APPLE__

   status = fcntl(fileno(epochFile_), 51);

 #else

   status = heavyai::fsync(fileno(epochFile_));

 #endif

   CHECK(status == 0) << "Could not sync epoch file to disk";

   epochIsCheckpointed_ = true;

 }


 void FileMgr::freePagesBeforeEpoch(const int32_t min_epoch) {

   heavyai::shared_lock<heavyai::shared_mutex> chunk_index_read_lock(chunkIndexMutex_);

   freePagesBeforeEpochUnlocked(min_epoch, chunkIndex_.begin(), chunkIndex_.end());

 }


 void FileMgr::freePagesBeforeEpochUnlocked(

     const int32_t min_epoch,

     const ChunkKeyToChunkMap::iterator lower_bound,

     const ChunkKeyToChunkMap::iterator upper_bound) {

   for (auto chunkIt = lower_bound; chunkIt != upper_bound; ++chunkIt) {

     chunkIt->second->freePagesBeforeEpoch(min_epoch);

   }

 }


 void FileMgr::rollOffOldData(const int32_t epoch_ceiling, const bool should_checkpoint) {

   if (maxRollbackEpochs_ >= 0) {

     auto min_epoch = std::max(epoch_ceiling - maxRollbackEpochs_, epoch_.floor());

     if (min_epoch > epoch_.floor()) {

       freePagesBeforeEpoch(min_epoch);

       epoch_.floor(min_epoch);

       if (should_checkpoint) {

         checkpoint();

       }

     }

   }

 }


 std::string FileMgr::describeSelf() const {

   stringstream ss;

   ss << "table (" << fileMgrKey_.first << ", " << fileMgrKey_.second << ")";

   return ss.str();

 }


 void FileMgr::checkpoint() {

   VLOG(2) << "Checkpointing " << describeSelf() << " epoch: " << epoch();

   writeDirtyBuffers();

   rollOffOldData(epoch(), false /* shouldCheckpoint */);

   syncFilesToDisk();

   writeAndSyncEpochToDisk();

   incrementEpoch();

   freePages();

 }


 FileBuffer* FileMgr::createBuffer(const ChunkKey& key,

                                   const size_t page_size,

                                   const size_t num_bytes) {

   heavyai::unique_lock<heavyai::shared_mutex> chunkIndexWriteLock(chunkIndexMutex_);

   CHECK(chunkIndex_.find(key) == chunkIndex_.end())

       << "Chunk already exists: " + show_chunk(key);

   return createBufferUnlocked(key, page_size, num_bytes);

 }


 // Assumes checks for pre-existing key have already occured.

 FileBuffer* FileMgr::createBufferUnlocked(const ChunkKey& key,

                                           const size_t page_size,

                                           const size_t num_bytes) {

   size_t actual_page_size = page_size;

   if (actual_page_size == 0) {

     actual_page_size = page_size_;

   }

   chunkIndex_[key] = allocateBuffer(actual_page_size, key, num_bytes);

   return (chunkIndex_[key]);

 }


 FileBuffer* FileMgr::createBufferFromHeaders(

     const ChunkKey& key,

     const std::vector<HeaderInfo>::const_iterator& headerStartIt,

     const std::vector<HeaderInfo>::const_iterator& headerEndIt) {

   heavyai::unique_lock<heavyai::shared_mutex> chunkIndexWriteLock(chunkIndexMutex_);

   CHECK(chunkIndex_.find(key) == chunkIndex_.end())

       << "Chunk already exists for key: " << show_chunk(key);

   chunkIndex_[key] = allocateBuffer(key, headerStartIt, headerEndIt);

   return (chunkIndex_[key]);

 }


 bool FileMgr::isBufferOnDevice(const ChunkKey& key) {

   heavyai::shared_lock<heavyai::shared_mutex> chunkIndexReadLock(chunkIndexMutex_);

   return chunkIndex_.find(key) != chunkIndex_.end();

 }


 void FileMgr::deleteBuffer(const ChunkKey& key, const bool purge) {

   heavyai::unique_lock<heavyai::shared_mutex> chunkIndexWriteLock(chunkIndexMutex_);

   auto chunk_it = chunkIndex_.find(key);

   CHECK(chunk_it != chunkIndex_.end()) << "Chunk does not exist: " << show_chunk(key);

   deleteBufferUnlocked(chunk_it, purge);

 }


 ChunkKeyToChunkMap::iterator FileMgr::deleteBufferUnlocked(

     const ChunkKeyToChunkMap::iterator chunk_it,

     const bool purge) {

   if (purge) {

     chunk_it->second->freePages();

   }

   delete chunk_it->second;

   return chunkIndex_.erase(chunk_it);

 }


 void FileMgr::deleteBuffersWithPrefix(const ChunkKey& keyPrefix, const bool purge) {

   heavyai::unique_lock<heavyai::shared_mutex> chunkIndexWriteLock(chunkIndexMutex_);

   auto chunkIt = chunkIndex_.lower_bound(keyPrefix);

   if (chunkIt == chunkIndex_.end()) {

     return;  // should we throw?

   }

   while (chunkIt != chunkIndex_.end() &&

          std::search(chunkIt->first.begin(),

                      chunkIt->first.begin() + keyPrefix.size(),

                      keyPrefix.begin(),

                      keyPrefix.end()) != chunkIt->first.begin() + keyPrefix.size()) {

     deleteBufferUnlocked(chunkIt++, purge);

   }

 }


 FileBuffer* FileMgr::getBuffer(const ChunkKey& key, const size_t num_bytes) {

   heavyai::shared_lock<heavyai::shared_mutex> chunk_index_read_lock(chunkIndexMutex_);

   return getBufferUnlocked(key, num_bytes);

 }


 FileBuffer* FileMgr::getBufferUnlocked(const ChunkKey& key,

                                        const size_t num_bytes) const {

   auto chunk_it = chunkIndex_.find(key);

   CHECK(chunk_it != chunkIndex_.end()) << "Chunk does not exist: " << show_chunk(key);

   return chunk_it->second;

 }


 void FileMgr::fetchBuffer(const ChunkKey& key,

                           AbstractBuffer* destBuffer,

                           const size_t numBytes) {

   // reads chunk specified by ChunkKey into AbstractBuffer provided by

   // destBuffer

   CHECK(!destBuffer->isDirty())

       << "Aborting attempt to fetch a chunk marked dirty. Chunk inconsistency for key: "

       << show_chunk(key);

   AbstractBuffer* chunk = getBuffer(key);

   // chunk's size is either specified in function call with numBytes or we

   // just look at pageSize * numPages in FileBuffer

   if (numBytes > 0 && numBytes > chunk->size()) {

     LOG(FATAL) << "Chunk retrieved for key `" << show_chunk(key) << "` is smaller ("

                << chunk->size() << ") than number of bytes requested (" << numBytes

                << ")";

   }

   chunk->copyTo(destBuffer, numBytes);

 }


 FileBuffer* FileMgr::putBuffer(const ChunkKey& key,

                                AbstractBuffer* srcBuffer,

                                const size_t numBytes) {

   auto chunk = getOrCreateBuffer(key);

   size_t oldChunkSize = chunk->size();

   // write the buffer's data to the Chunk

   size_t newChunkSize = (numBytes == 0) ? srcBuffer->size() : numBytes;

   if (chunk->isDirty()) {

     // multiple appends are allowed,

     // but only single update is allowed

     if (srcBuffer->isUpdated() && chunk->isUpdated()) {

       LOG(FATAL) << "Aborting attempt to write a chunk marked dirty. Chunk inconsistency "

                     "for key: "

                  << show_chunk(key);

     }

   }

   CHECK(srcBuffer->isDirty()) << "putBuffer expects a dirty buffer";

   if (srcBuffer->isUpdated()) {

     // chunk size is not changed when fixed rows are updated or are marked as deleted.

     // but when rows are vacuumed or varlen rows are updated (new rows are appended),

     // chunk size will change. For vacuum, checkpoint should sync size from cpu to disk.

     // For varlen update, it takes another route via fragmenter using disk-level buffer.

     if (0 == numBytes && !chunk->isDirty()) {

       chunk->setSize(newChunkSize);

     }

     //@todo use dirty flags to only flush pages of chunk that need to

     // be flushed

     chunk->write((int8_t*)srcBuffer->getMemoryPtr(),

                  newChunkSize,

                  0,

                  srcBuffer->getType(),

                  srcBuffer->getDeviceId());

   } else if (srcBuffer->isAppended()) {

     CHECK_LT(oldChunkSize, newChunkSize);

     chunk->append((int8_t*)srcBuffer->getMemoryPtr() + oldChunkSize,

                   newChunkSize - oldChunkSize,

                   srcBuffer->getType(),

                   srcBuffer->getDeviceId());

   } else {

     // If dirty buffer comes in unmarked, it must be empty.

     // Encoder sync is still required to flush the metadata.

     CHECK(numBytes == 0)

         << "Dirty buffer with size > 0 must be marked as isAppended() or isUpdated()";

   }

   // chunk->clearDirtyBits(); // Hack: because write and append will set dirty bits

   //@todo commenting out line above will make sure this metadata is set

   // but will trigger error on fetch chunk

   srcBuffer->clearDirtyBits();

   chunk->syncEncoder(srcBuffer);

   return chunk;

 }


 AbstractBuffer* FileMgr::alloc(const size_t numBytes = 0) {

   LOG(FATAL) << "Operation not supported";

   return nullptr;  // satisfy return-type warning

 }


 void FileMgr::free(AbstractBuffer* buffer) {

   LOG(FATAL) << "Operation not supported";

 }


 Page FileMgr::requestFreePage(size_t pageSize, const bool isMetadata) {

   std::lock_guard<std::mutex> lock(getPageMutex_);


   auto candidateFiles = fileIndex_.equal_range(pageSize);

   int32_t pageNum = -1;

   for (auto fileIt = candidateFiles.first; fileIt != candidateFiles.second; ++fileIt) {

     FileInfo* fileInfo = getFileInfoForFileId(fileIt->second);

     pageNum = fileInfo->getFreePage();

     if (pageNum != -1) {

       return (Page(fileInfo->fileId, pageNum));

     }

   }

   // if here then we need to add a file

   FileInfo* fileInfo;

   if (isMetadata) {

     fileInfo = createFileInfo(pageSize, num_pages_per_metadata_file_);

   } else {

     fileInfo = createFileInfo(pageSize, num_pages_per_data_file_);

   }

   pageNum = fileInfo->getFreePage();

   CHECK(pageNum != -1);

   return (Page(fileInfo->fileId, pageNum));

 }


 void FileMgr::requestFreePages(size_t numPagesRequested,

                                size_t pageSize,

                                std::vector<Page>& pages,

                                const bool isMetadata) {

   // not used currently

   // @todo add method to FileInfo to get more than one page

   std::lock_guard<std::mutex> lock(getPageMutex_);

   auto candidateFiles = fileIndex_.equal_range(pageSize);

   size_t numPagesNeeded = numPagesRequested;

   for (auto fileIt = candidateFiles.first; fileIt != candidateFiles.second; ++fileIt) {

     FileInfo* fileInfo = getFileInfoForFileId(fileIt->second);

     int32_t pageNum;

     do {

       pageNum = fileInfo->getFreePage();

       if (pageNum != -1) {

         pages.emplace_back(fileInfo->fileId, pageNum);

         numPagesNeeded--;

       }

     } while (pageNum != -1 && numPagesNeeded > 0);

     if (numPagesNeeded == 0) {

       break;

     }

   }

   while (numPagesNeeded > 0) {

     FileInfo* fileInfo;

     if (isMetadata) {

       fileInfo = createFileInfo(pageSize, num_pages_per_metadata_file_);

     } else {

       fileInfo = createFileInfo(pageSize, num_pages_per_data_file_);

     }

     int32_t pageNum;

     do {

       pageNum = fileInfo->getFreePage();

       if (pageNum != -1) {

         pages.emplace_back(fileInfo->fileId, pageNum);

         numPagesNeeded--;

       }

     } while (pageNum != -1 && numPagesNeeded > 0);

     if (numPagesNeeded == 0) {

       break;

     }

   }

   CHECK(pages.size() == numPagesRequested);

 }


 FileInfo* FileMgr::openExistingFile(const std::string& path,

                                     const int fileId,

                                     const size_t pageSize,

                                     const size_t numPages,

                                     std::vector<HeaderInfo>& headerVec) {

   FILE* f = open(path);

   auto file_info = std::make_unique<FileInfo>(this,

                                               fileId,

                                               f,

                                               pageSize,

                                               numPages,

                                               path,

                                               false);  // false means don't init file


   file_info->openExistingFile(headerVec);

   heavyai::unique_lock<heavyai::shared_mutex> write_lock(files_rw_mutex_);

   CHECK(files_.find(fileId) == files_.end()) << "Attempting to re-open file";

   files_.emplace(fileId, std::move(file_info));

   fileIndex_.insert(std::pair<size_t, int32_t>(pageSize, fileId));

   return getFileInfoForFileId(fileId);

 }


 FileInfo* FileMgr::createFileInfo(const size_t pageSize, const size_t numPages) {

   readOnlyCheck("create file",

                 get_data_file_path(fileMgrBasePath_, nextFileId_, pageSize));

   // check arguments

   if (pageSize == 0 || numPages == 0) {

     LOG(FATAL) << "File creation failed: pageSize and numPages must be greater than 0.";

   }


   // create the new file

   auto [f, file_path] = create(fileMgrBasePath_,

                                nextFileId_,

                                pageSize,

                                numPages);  // TM: not sure if I like naming scheme here -

                                            // should be in separate namespace?

   CHECK(f);


   // instantiate a new FileInfo for the newly created file

   int32_t fileId = nextFileId_++;

   auto fInfo = std::make_unique<FileInfo>(this,

                                           fileId,

                                           f,

                                           pageSize,

                                           numPages,

                                           file_path,

                                           true);  // true means init file

   CHECK(fInfo);


   heavyai::unique_lock<heavyai::shared_mutex> write_lock(files_rw_mutex_);

   // update file manager data structures

   files_[fileId] = std::move(fInfo);

   fileIndex_.insert(std::pair<size_t, int32_t>(pageSize, fileId));


   return getFileInfoForFileId(fileId);

 }


 FILE* FileMgr::getFileForFileId(const int32_t fileId) {

   CHECK(fileId >= 0);

   CHECK(files_.find(fileId) != files_.end()) << "File does not exist for id: " << fileId;

   return files_.at(fileId)->f;

 }


 bool FileMgr::hasChunkMetadataForKeyPrefix(const ChunkKey& key_prefix) {

   heavyai::shared_lock<heavyai::shared_mutex> chunk_index_read_lock(chunkIndexMutex_);

   auto chunk_it = chunkIndex_.lower_bound(key_prefix);

   if (chunk_it == chunkIndex_.end()) {

     return false;

   } else {

     auto it_pair =

         std::mismatch(key_prefix.begin(), key_prefix.end(), chunk_it->first.begin());

     return it_pair.first == key_prefix.end();

   }

 }


 void FileMgr::getChunkMetadataVecForKeyPrefix(ChunkMetadataVector& chunkMetadataVec,

                                               const ChunkKey& keyPrefix) {

   heavyai::unique_lock<heavyai::shared_mutex> chunkIndexWriteLock(chunkIndexMutex_);

   auto chunkIt = chunkIndex_.lower_bound(keyPrefix);

   if (chunkIt == chunkIndex_.end()) {

     return;  // throw?

   }

   while (chunkIt != chunkIndex_.end() &&

          std::search(chunkIt->first.begin(),

                      chunkIt->first.begin() + keyPrefix.size(),

                      keyPrefix.begin(),

                      keyPrefix.end()) != chunkIt->first.begin() + keyPrefix.size()) {

     if (chunkIt->second->hasEncoder()) {

       auto chunk_metadata = std::make_shared<ChunkMetadata>();

       chunkIt->second->encoder_->getMetadata(chunk_metadata);

       chunkMetadataVec.emplace_back(chunkIt->first, chunk_metadata);

     }

     chunkIt++;

   }

 }


 size_t FileMgr::getNumUsedMetadataPagesForChunkKey(const ChunkKey& chunkKey) const {

   heavyai::shared_lock<heavyai::shared_mutex> read_lock(chunkIndexMutex_);

   const auto& chunkIt = chunkIndex_.find(chunkKey);

   if (chunkIt != chunkIndex_.end()) {

     return chunkIt->second->numMetadataPages();

   } else {

     throw std::runtime_error("Chunk was not found.");

   }

 }


 bool FileMgr::getDBConvert() const {

   return gfm_->getDBConvert();

 }


 void FileMgr::createOrMigrateTopLevelMetadata() {

   auto file_version = readVersionFromDisk(DB_META_FILENAME);

   auto gfm_version = gfm_->db_version_;


   if (file_version > gfm_version) {

     LOG(FATAL) << "DB forward compatibility is not supported. Version of HeavyDB "

                   "software used is older than the version of DB being read: "

                << file_version;

   }

   if (file_version == INVALID_VERSION || file_version < gfm_version) {

     // new system, or we are moving forward versions

     // system wide migration would go here if required

     writeAndSyncVersionToDisk(DB_META_FILENAME, gfm_version);

     return;

   }

 }


 int32_t FileMgr::readVersionFromDisk(const std::string& versionFileName) const {

   const std::string versionFilePath(fileMgrBasePath_ + "/" + versionFileName);

   if (!boost::filesystem::exists(versionFilePath) ||

       !boost::filesystem::is_regular_file(versionFilePath) ||

       boost::filesystem::file_size(versionFilePath) < 4) {

     return INVALID_VERSION;

   }

   FILE* versionFile = open(versionFilePath);

   int32_t version;

   read(versionFile, 0, sizeof(int32_t), (int8_t*)&version, versionFilePath);

   close(versionFile);

   return version;

 }


 void FileMgr::writeAndSyncVersionToDisk(const std::string& versionFileName,

                                         const int32_t version) {

   const std::string versionFilePath(fileMgrBasePath_ + "/" + versionFileName);

   readOnlyCheck("write file", versionFilePath);

   FILE* versionFile;

   if (boost::filesystem::exists(versionFilePath)) {

     int32_t oldVersion = readVersionFromDisk(versionFileName);

     LOG(INFO) << "Storage version file `" << versionFilePath

               << "` already exists, its current version is " << oldVersion;

     versionFile = open(versionFilePath);

   } else {

     versionFile = create(versionFilePath, sizeof(int32_t));

   }

   write(versionFile, 0, sizeof(int32_t), (int8_t*)&version);

   int32_t status = fflush(versionFile);

   if (status != 0) {

     LOG(FATAL) << "Could not flush version file " << versionFilePath << " to disk";

   }

 #ifdef __APPLE__

   status = fcntl(fileno(epochFile_), 51);

 #else

   status = heavyai::fsync(fileno(versionFile));

 #endif

   if (status != 0) {

     LOG(FATAL) << "Could not sync version file " << versionFilePath << " to disk";

   }

   close(versionFile);

 }


 void FileMgr::migrateEpochFileV0() {

   const std::string versionFilePath(fileMgrBasePath_ + "/" + FILE_MGR_VERSION_FILENAME);

   LOG(INFO) << "Migrating file format version from 0 to 1 for  `" << versionFilePath;

   readOnlyCheck("migrate epoch file", versionFilePath);

   epoch_.floor(Epoch::min_allowable_epoch());

   epoch_.ceiling(openAndReadLegacyEpochFile(LEGACY_EPOCH_FILENAME));

   createEpochFile(EPOCH_FILENAME);

   writeAndSyncEpochToDisk();

   int32_t migrationCompleteVersion = 1;

   writeAndSyncVersionToDisk(FILE_MGR_VERSION_FILENAME, migrationCompleteVersion);

 }


 void FileMgr::migrateLegacyFilesV1() {

   LOG(INFO) << "Migrating file format version from 1 to 2";

   readOnlyCheck("migrate file format version");

   renameAndSymlinkLegacyFiles(fileMgrBasePath_);

   constexpr int32_t migration_complete_version{2};

   writeAndSyncVersionToDisk(FILE_MGR_VERSION_FILENAME, migration_complete_version);

 }


 void FileMgr::renameAndSymlinkLegacyFiles(const std::string& table_data_dir) {

   std::map<boost::filesystem::path, boost::filesystem::path> old_to_new_paths;

   for (boost::filesystem::directory_iterator it(table_data_dir), end_it; it != end_it;

        it++) {

     const auto old_path = boost::filesystem::canonical(it->path());

     if (boost::filesystem::is_regular_file(it->status()) &&

         old_path.extension().string() == kLegacyDataFileExtension) {

       auto new_path = old_path;

       new_path.replace_extension(DATA_FILE_EXT);

       old_to_new_paths[old_path] = new_path;

     }

   }

   for (const auto& [old_path, new_path] : old_to_new_paths) {

     boost::filesystem::rename(old_path, new_path);

     LOG(INFO) << "Rebrand migration: Renamed " << old_path << " to " << new_path;

     boost::filesystem::create_symlink(new_path.filename(), old_path);

     LOG(INFO) << "Rebrand migration: Added symlink from " << old_path << " to "

               << new_path.filename();

   }

 }


 void FileMgr::migrateToLatestFileMgrVersion() {

   fileMgrVersion_ = readVersionFromDisk(FILE_MGR_VERSION_FILENAME);

   if (fileMgrVersion_ == INVALID_VERSION) {

     fileMgrVersion_ = 0;

     writeAndSyncVersionToDisk(FILE_MGR_VERSION_FILENAME, fileMgrVersion_);

   } else if (fileMgrVersion_ > LATEST_FILE_MGR_VERSION) {

     LOG(FATAL)

         << "Table storage forward compatibility is not supported. Version of HeavyDB "

            "software used is older than the version of table being read: "

         << fileMgrVersion_;

   }


   while (fileMgrVersion_ < LATEST_FILE_MGR_VERSION) {

     switch (fileMgrVersion_) {

       case 0: {

         migrateEpochFileV0();

         break;

       }

       case 1: {

         migrateLegacyFilesV1();

         break;

       }

       default: {

         UNREACHABLE();

       }

     }

     fileMgrVersion_++;

   }

 }


 /*

  * @brief sets the epoch to a user-specified value

  *

  * With the introduction of optional capped history on files, the possibility of

  * multiple successive rollbacks to earlier epochs means that we cannot rely on

  * the maxRollbackEpochs_ variable alone (initialized from a value stored in Catalog) to

  * guarantee that we can set an epoch at any given value. This function checks the

  * user-specified epoch value to ensure it is both not higher than the last checkpointed

  * epoch AND it is >= the epoch floor, which on an uncapped value will be the epoch the

  * table table was created at (default 0), and for capped tables, the lowest epoch for

  * which we have complete data, now materialized in the epoch metadata itself. */


 void FileMgr::setEpoch(const int32_t newEpoch) {

   if (newEpoch < epoch_.floor()) {

     std::stringstream error_message;

     error_message << "Cannot set epoch for " << describeSelf()

                   << " lower than the minimum rollback epoch (" << epoch_.floor() << ").";

     throw std::runtime_error(error_message.str());

   }

   epoch_.ceiling(newEpoch);

   writeAndSyncEpochToDisk();

 }


 void FileMgr::free_page(std::pair<FileInfo*, int32_t>&& page) {

   std::unique_lock<heavyai::shared_mutex> lock(mutex_free_page_);

   free_pages_.push_back(page);

 }


 void FileMgr::removeTableRelatedDS(const int32_t db_id, const int32_t table_id) {

   UNREACHABLE();

 }


 void FileMgr::resumeFileCompaction(const std::string& status_file_name) {

   readOnlyCheck("resume file compaction", status_file_name);


   if (status_file_name == COPY_PAGES_STATUS) {

     // Delete status file and restart data compaction process

     auto file_path = getFilePath(status_file_name);

     CHECK(boost::filesystem::exists(file_path));

     boost::filesystem::remove(file_path);

     compactFiles();

   } else if (status_file_name == UPDATE_PAGE_VISIBILITY_STATUS) {

     // Execute second and third phases of data compaction

     heavyai::unique_lock<heavyai::shared_mutex> write_lock(files_rw_mutex_);

     auto page_mappings = readPageMappingsFromStatusFile();

     updateMappedPagesVisibility(page_mappings);

     renameCompactionStatusFile(UPDATE_PAGE_VISIBILITY_STATUS, DELETE_EMPTY_FILES_STATUS);

     deleteEmptyFiles();

   } else if (status_file_name == DELETE_EMPTY_FILES_STATUS) {

     // Execute last phase of data compaction

     heavyai::unique_lock<heavyai::shared_mutex> write_lock(files_rw_mutex_);

     deleteEmptyFiles();

   } else {

     UNREACHABLE() << "Unexpected status file name: " << status_file_name;

   }

 }


 void FileMgr::compactFiles() {

   heavyai::unique_lock<heavyai::shared_mutex> write_lock(files_rw_mutex_);


   readOnlyCheck("run file compaction");


   if (files_.empty()) {

     return;

   }


   auto copy_pages_status_file_path = getFilePath(COPY_PAGES_STATUS);

   CHECK(!boost::filesystem::exists(copy_pages_status_file_path));

   std::ofstream status_file(copy_pages_status_file_path.string(),

                             std::ios::out | std::ios::binary);

   status_file.close();


   std::vector<PageMapping> page_mappings;

   std::set<Page> touched_pages;

   std::set<size_t> page_sizes;

   for (const auto& [file_id, file_info] : files_) {

     page_sizes.emplace(file_info->pageSize);

   }

   for (auto page_size : page_sizes) {

     sortAndCopyFilePagesForCompaction(page_size, page_mappings, touched_pages);

   }


   writePageMappingsToStatusFile(page_mappings);

   renameCompactionStatusFile(COPY_PAGES_STATUS, UPDATE_PAGE_VISIBILITY_STATUS);


   updateMappedPagesVisibility(page_mappings);

   renameCompactionStatusFile(UPDATE_PAGE_VISIBILITY_STATUS, DELETE_EMPTY_FILES_STATUS);


   deleteEmptyFiles();

 }


 void FileMgr::sortAndCopyFilePagesForCompaction(size_t page_size,

                                                 std::vector<PageMapping>& page_mappings,

                                                 std::set<Page>& touched_pages) {

   std::vector<FileInfo*> sorted_file_infos;

   auto range = fileIndex_.equal_range(page_size);

   for (auto it = range.first; it != range.second; it++) {

     sorted_file_infos.emplace_back(files_.at(it->second).get());

   }

   if (sorted_file_infos.empty()) {

     return;

   }


   // Sort file infos in ascending order of free pages count i.e. from files with

   // the least number of free pages to those with the highest number of free pages.

   std::sort(sorted_file_infos.begin(),

             sorted_file_infos.end(),

             [](const FileInfo* file_1, const FileInfo* file_2) {

               return file_1->freePages.size() < file_2->freePages.size();

             });


   size_t destination_index = 0, source_index = sorted_file_infos.size() - 1;


   // For page copy destinations, skip files without free pages.

   while (destination_index < source_index &&

          sorted_file_infos[destination_index]->freePages.empty()) {

     destination_index++;

   }


   // For page copy sources, skip files with only free pages.

   while (destination_index < source_index &&

          sorted_file_infos[source_index]->freePages.size() ==

              sorted_file_infos[source_index]->numPages) {

     source_index--;

   }


   std::set<size_t> source_used_pages;

   CHECK(destination_index <= source_index);


   // Get the total number of free pages available for compaction

   int64_t total_free_pages{0};

   for (size_t i = destination_index; i <= source_index; i++) {

     total_free_pages += sorted_file_infos[i]->numFreePages();

   }


   while (destination_index < source_index) {

     if (source_used_pages.empty()) {

       // Populate source_used_pages with only used pages in the source file.

       auto source_file_info = sorted_file_infos[source_index];

       auto& free_pages = source_file_info->freePages;

       for (size_t page_num = 0; page_num < source_file_info->numPages; page_num++) {

         if (free_pages.find(page_num) == free_pages.end()) {

           source_used_pages.emplace(page_num);

         }

       }


       // Free pages of current source file will not be copy destinations

       total_free_pages -= source_file_info->numFreePages();

     }


     // Exit early if there are not enough free pages to empty the next file

     if (total_free_pages - static_cast<int64_t>(source_used_pages.size()) < 0) {

       return;

     }


     // Copy pages from source files to destination files

     auto dest_file_info = sorted_file_infos[destination_index];

     while (!source_used_pages.empty() && !dest_file_info->freePages.empty()) {

       // Get next page to copy

       size_t source_page_num = *source_used_pages.begin();

       source_used_pages.erase(source_page_num);


       Page source_page{sorted_file_infos[source_index]->fileId, source_page_num};

       copySourcePageForCompaction(source_page,

                                   sorted_file_infos[destination_index],

                                   page_mappings,

                                   touched_pages);

       total_free_pages--;

     }


     if (source_used_pages.empty()) {

       source_index--;

     }


     if (dest_file_info->freePages.empty()) {

       destination_index++;

     }

   }

 }


 void FileMgr::copySourcePageForCompaction(const Page& source_page,

                                           FileInfo* destination_file_info,

                                           std::vector<PageMapping>& page_mappings,

                                           std::set<Page>& touched_pages) {

   size_t destination_page_num = destination_file_info->getFreePage();

   CHECK_NE(destination_page_num, static_cast<size_t>(-1));

   Page destination_page{destination_file_info->fileId, destination_page_num};


   // Assert that the same pages are not copied or overridden multiple times

   CHECK(touched_pages.find(source_page) == touched_pages.end());

   touched_pages.emplace(source_page);


   CHECK(touched_pages.find(destination_page) == touched_pages.end());

   touched_pages.emplace(destination_page);


   auto header_size = copyPageWithoutHeaderSize(source_page, destination_page);

   page_mappings.emplace_back(static_cast<size_t>(source_page.fileId),

                              source_page.pageNum,

                              header_size,

                              static_cast<size_t>(destination_page.fileId),

                              destination_page.pageNum);

 }


 int32_t FileMgr::copyPageWithoutHeaderSize(const Page& source_page,

                                            const Page& destination_page) {

   FileInfo* source_file_info = getFileInfoForFileId(source_page.fileId);

   CHECK(source_file_info);

   CHECK_EQ(source_file_info->fileId, source_page.fileId);


   FileInfo* destination_file_info = getFileInfoForFileId(destination_page.fileId);

   CHECK(destination_file_info);

   CHECK_EQ(destination_file_info->fileId, destination_page.fileId);

   CHECK_EQ(source_file_info->pageSize, destination_file_info->pageSize);


   auto page_size = source_file_info->pageSize;

   auto buffer = std::make_unique<int8_t[]>(page_size);

   size_t bytes_read =

       source_file_info->read(source_page.pageNum * page_size, page_size, buffer.get());

   CHECK_EQ(page_size, bytes_read);


   auto header_size_offset = sizeof(int32_t);

   size_t bytes_written = destination_file_info->write(

       (destination_page.pageNum * page_size) + header_size_offset,

       page_size - header_size_offset,

       buffer.get() + header_size_offset);

   CHECK_EQ(page_size - header_size_offset, bytes_written);

   return reinterpret_cast<int32_t*>(buffer.get())[0];

 }


 void FileMgr::updateMappedPagesVisibility(const std::vector<PageMapping>& page_mappings) {

   for (const auto& page_mapping : page_mappings) {

     auto destination_file = getFileInfoForFileId(page_mapping.destination_file_id);


     // Set destination page header size

     auto header_size = page_mapping.source_page_header_size;

     CHECK_GT(header_size, 0);

     destination_file->write(

         page_mapping.destination_page_num * destination_file->pageSize,

         sizeof(PageHeaderSizeType),

         reinterpret_cast<int8_t*>(&header_size));

     auto source_file = getFileInfoForFileId(page_mapping.source_file_id);


     // Free source page

     PageHeaderSizeType free_page_header_size{0};

     source_file->write(page_mapping.source_page_num * source_file->pageSize,

                        sizeof(PageHeaderSizeType),

                        reinterpret_cast<int8_t*>(&free_page_header_size));

     source_file->freePageDeferred(page_mapping.source_page_num);

   }


   for (const auto& file_info_entry : files_) {

     int32_t status = file_info_entry.second->syncToDisk();

     if (status != 0) {

       LOG(FATAL) << "Could not sync file to disk";

     }

   }

 }


 void FileMgr::deleteEmptyFiles() {

   for (const auto& [file_id, file_info] : files_) {

     CHECK_EQ(file_id, file_info->fileId);

     if (file_info->freePages.size() == file_info->numPages) {

       fclose(file_info->f);

       file_info->f = nullptr;

       auto file_path = get_data_file_path(fileMgrBasePath_, file_id, file_info->pageSize);

       readOnlyCheck("delete file", file_path);

       boost::filesystem::remove(get_legacy_data_file_path(file_path));

       boost::filesystem::remove(file_path);

     }

   }


   auto status_file_path = getFilePath(DELETE_EMPTY_FILES_STATUS);

   CHECK(boost::filesystem::exists(status_file_path));

   readOnlyCheck("delete file", status_file_path.string());

   boost::filesystem::remove(status_file_path);

 }


 void FileMgr::writePageMappingsToStatusFile(

     const std::vector<PageMapping>& page_mappings) {

   auto file_path = getFilePath(COPY_PAGES_STATUS);


   readOnlyCheck("write file", file_path.string());


   CHECK(boost::filesystem::exists(file_path));

   CHECK(boost::filesystem::is_empty(file_path));

   std::ofstream status_file{file_path.string(), std::ios::out | std::ios::binary};

   int64_t page_mappings_count = page_mappings.size();

   status_file.write(reinterpret_cast<const char*>(&page_mappings_count), sizeof(int64_t));

   status_file.write(reinterpret_cast<const char*>(page_mappings.data()),

                     page_mappings_count * sizeof(PageMapping));

   status_file.close();

 }


 std::vector<PageMapping> FileMgr::readPageMappingsFromStatusFile() {

   auto file_path = getFilePath(UPDATE_PAGE_VISIBILITY_STATUS);

   CHECK(boost::filesystem::exists(file_path));

   std::ifstream status_file{file_path.string(),

                             std::ios::in | std::ios::binary | std::ios::ate};

   CHECK(status_file.is_open());

   size_t file_size = status_file.tellg();

   status_file.seekg(0, std::ios::beg);

   CHECK_GE(file_size, sizeof(int64_t));


   int64_t page_mappings_count;

   status_file.read(reinterpret_cast<char*>(&page_mappings_count), sizeof(int64_t));

   auto page_mappings_byte_size = file_size - sizeof(int64_t);

   CHECK_EQ(page_mappings_byte_size % sizeof(PageMapping), static_cast<size_t>(0));

   CHECK_EQ(static_cast<size_t>(page_mappings_count),

            page_mappings_byte_size / sizeof(PageMapping));


   std::vector<PageMapping> page_mappings(page_mappings_count);

   status_file.read(reinterpret_cast<char*>(page_mappings.data()),

                    page_mappings_byte_size);

   status_file.close();

   return page_mappings;

 }


 void FileMgr::renameCompactionStatusFile(const char* const from_status,

                                          const char* const to_status) {

   auto from_status_file_path = getFilePath(from_status);

   auto to_status_file_path = getFilePath(to_status);


   readOnlyCheck("write file", from_status_file_path.string());


   CHECK(boost::filesystem::exists(from_status_file_path));

   CHECK(!boost::filesystem::exists(to_status_file_path));

   boost::filesystem::rename(from_status_file_path, to_status_file_path);

 }


 // Methods that enable override of number of pages per data/metadata files

 // for use in unit tests.

 void FileMgr::setNumPagesPerDataFile(size_t num_pages) {

   num_pages_per_data_file_ = num_pages;

 }


 void FileMgr::setNumPagesPerMetadataFile(size_t num_pages) {

   num_pages_per_metadata_file_ = num_pages;

 }


 void FileMgr::syncFilesToDisk() {

   heavyai::shared_lock<heavyai::shared_mutex> files_read_lock(files_rw_mutex_);

   for (const auto& file_info_entry : files_) {

     int32_t status = file_info_entry.second->syncToDisk();

     CHECK(status == 0) << "Could not sync file to disk";

   }

 }


 void FileMgr::initializeNumThreads(size_t num_reader_threads) {

   // # of threads is based on # of cores on the host

   size_t num_hardware_based_threads = std::thread::hardware_concurrency();

   if (num_reader_threads == 0 || num_reader_threads > num_hardware_based_threads) {

     // # of threads has not been defined by user

     num_reader_threads_ = num_hardware_based_threads;

   } else {

     num_reader_threads_ = num_reader_threads;

   }

 }


 void FileMgr::freePages() {

   heavyai::unique_lock<heavyai::shared_mutex> free_pages_write_lock(mutex_free_page_);

   for (auto& free_page : free_pages_) {

     free_page.first->freePageDeferred(free_page.second);

   }

   free_pages_.clear();

 }


 FileBuffer* FileMgr::allocateBuffer(const size_t page_size,

                                     const ChunkKey& key,

                                     const size_t num_bytes) {

   return new FileBuffer(this, page_size, key, num_bytes);

 }


 FileBuffer* FileMgr::allocateBuffer(

     const ChunkKey& key,

     const std::vector<HeaderInfo>::const_iterator& headerStartIt,

     const std::vector<HeaderInfo>::const_iterator& headerEndIt) {

   return new FileBuffer(this, key, headerStartIt, headerEndIt);

 }


 // Checks if a page should be deleted or recovered.  Returns true if page was deleted.

 bool FileMgr::updatePageIfDeleted(FileInfo* file_info,

                                   ChunkKey& chunk_key,

                                   int32_t contingent,

                                   int32_t page_epoch,

                                   int32_t page_num) {

   // If the parent FileMgr has a fileMgrKey, then all keys are locked to one table and

   // can be set from the manager.

   auto [db_id, tb_id] = get_fileMgrKey();

   chunk_key[CHUNK_KEY_DB_IDX] = db_id;

   chunk_key[CHUNK_KEY_TABLE_IDX] = tb_id;


   auto table_epoch = epoch(db_id, tb_id);


   if (is_page_deleted_with_checkpoint(table_epoch, page_epoch, contingent)) {

     if (!g_read_only && !g_multi_instance) {

       // Read-only mode can find pages like this if the server was previously run in

       // write-mode but is not allowed to free them.

       // TODO(sy): Confirm that proper locking is held before writing here.

       file_info->freePageImmediate(page_num);

     }

     return true;

   }


   // Recover page if it was deleted but not checkpointed.

   if (is_page_deleted_without_checkpoint(table_epoch, page_epoch, contingent)) {

     if (!g_read_only && !g_multi_instance) {

       // Read-only mode can find pages like this if the server was previously run in

       // write-mode but is not allowed to free them.

       // TODO(sy): Confirm that proper locking is held before writing here.

       file_info->recoverPage(chunk_key, page_num);

     }

   }

   return false;

 }


 FileBuffer* FileMgr::getOrCreateBuffer(const ChunkKey& key) {

   FileBuffer* buf;

   heavyai::unique_lock<heavyai::shared_mutex> chunkIndexWriteLock(chunkIndexMutex_);

   auto chunk_it = chunkIndex_.find(key);

   if (chunk_it == chunkIndex_.end()) {

     buf = createBufferUnlocked(key);

   } else {

     buf = getBufferUnlocked(key);

   }

   return buf;

 }


 void FileMgr::writeDirtyBuffers() {

   heavyai::unique_lock<heavyai::shared_mutex> chunk_index_write_lock(chunkIndexMutex_);

   for (auto [key, buf] : chunkIndex_) {

     if (buf->isDirty()) {

       buf->writeMetadata(epoch());

       buf->clearDirtyBits();

     }

   }

 }


 size_t FileMgr::getNumChunks() {

   heavyai::shared_lock<heavyai::shared_mutex> read_lock(chunkIndexMutex_);

   return chunkIndex_.size();

 }


 boost::filesystem::path FileMgr::getFilePath(const std::string& file_name) const {

   return boost::filesystem::path(fileMgrBasePath_) / file_name;

 }


 FILE* FileMgr::createFile(const std::string& full_path,

                           const size_t requested_file_size) const {

   readOnlyCheck("create file", full_path);

   return create(full_path, requested_file_size);

 }


 std::pair<FILE*, std::string> FileMgr::createFile(const std::string& base_path,

                                                   const int file_id,

                                                   const size_t page_size,

                                                   const size_t num_pages) const {

   readOnlyCheck("create file", get_data_file_path(base_path, file_id, page_size));

   return create(base_path, file_id, page_size, num_pages);

 }


 size_t FileMgr::writeFile(FILE* f,

                           const size_t offset,

                           const size_t size,

                           const int8_t* buf) const {

   readOnlyCheck("write file");

   return write(f, offset, size, buf);

 }


 void FileMgr::readOnlyCheck(const std::string& action,

                             const std::optional<std::string>& file_name) const {

   CHECK(!g_read_only) << "Error trying to " << action

                       << (file_name.has_value() ? (": '" + file_name.value() + "'") : "")

                       << ".  Not allowed in read only mode.";

 }


 size_t FileMgr::num_pages_per_data_file_{DEFAULT_NUM_PAGES_PER_DATA_FILE};

 size_t FileMgr::num_pages_per_metadata_file_{DEFAULT_NUM_PAGES_PER_METADATA_FILE};

 }  // namespace File_Namespace

Data_Namespace::AbstractBuffer::isUpdated
bool isUpdated() const
Definition: AbstractBuffer.h:100

gpu_enabled::upper_bound
DEVICE auto upper_bound(ARGS &&...args)
Definition: gpu_enabled.h:123

File_Namespace::FileMgr::openAndReadLegacyEpochFile
int32_t openAndReadLegacyEpochFile(const std::string &epochFileName)
Definition: FileMgr.cpp:618

File_Namespace::FileMgr::metadata_page_size_
const size_t metadata_page_size_
Definition: FileMgr.h:552

File_Namespace::FileMgr::readPageMappingsFromStatusFile
std::vector< PageMapping > readPageMappingsFromStatusFile()
Definition: FileMgr.cpp:1547

File_Namespace::FileMgr::isFullyInitted_
bool isFullyInitted_
Definition: FileMgr.h:425

File_Namespace::FileMgr::createBufferFromHeaders
virtual FileBuffer * createBufferFromHeaders(const ChunkKey &key, const std::vector< HeaderInfo >::const_iterator &headerStartIt, const std::vector< HeaderInfo >::const_iterator &headerEndIt)
Definition: FileMgr.cpp:737

File_Namespace::FileMetadata::page_size
size_t page_size
Definition: FileMgr.h:103

File_Namespace::FileMgr::readVersionFromDisk
int32_t readVersionFromDisk(const std::string &versionFileName) const
Definition: FileMgr.cpp:1073

CHECK_EQ
#define CHECK_EQ(x, y)
Definition: Logger.h:301

ChunkKey
std::vector< int > ChunkKey
Definition: types.h:36

File_Namespace::FileMgr::openFiles
OpenFilesResult openFiles()
Definition: FileMgr.cpp:200

File_Namespace::FileMgr::alloc
AbstractBuffer * alloc(const size_t numBytes) override
Definition: FileMgr.cpp:868

File_Namespace::FileInfo::write
size_t write(const size_t offset, const size_t size, const int8_t *buf)
Definition: FileInfo.cpp:69

File_Namespace::FileMgr::fileMgrKey_
TablePair fileMgrKey_
Global FileMgr.
Definition: FileMgr.h:540

File_Namespace::StorageStats::total_data_page_count
uint64_t total_data_page_count
Definition: FileMgr.h:118

File_Namespace::GlobalFileMgr::getBasePath
std::string getBasePath() const
Definition: GlobalFileMgr.h:170

File_Namespace::OpenFilesResult::max_file_id
int32_t max_file_id
Definition: FileMgr.h:129

g_multi_instance
bool g_multi_instance
Definition: heavyai_locks.h:22

Epoch::storage_ptr
int8_t * storage_ptr()
Definition: Epoch.h:61

File_Namespace::FileMetadata::file_size
size_t file_size
Definition: FileMgr.h:104

File_Namespace::FileMgr::FileMgr
FileMgr(const int32_t device_id, GlobalFileMgr *gfm, const TablePair file_mgr_key, const int32_t max_rollback_epochs=-1, const size_t num_reader_threads=0, const int32_t epoch=-1)
Constructor.
Definition: FileMgr.cpp:51

File_Namespace::FileMgr::LATEST_FILE_MGR_VERSION
static constexpr int32_t LATEST_FILE_MGR_VERSION
Definition: FileMgr.h:404

File_Namespace::FileMgr::createEpochFile
void createEpochFile(const std::string &epochFileName)
Definition: FileMgr.cpp:606

File_Namespace::is_page_deleted_without_checkpoint
bool is_page_deleted_without_checkpoint(int32_t table_epoch, int32_t page_epoch, int32_t contingent)
Definition: FileInfo.cpp:283

File_Namespace::FileMgr::requestFreePage
virtual Page requestFreePage(size_t pagesize, const bool isMetadata)
Definition: FileMgr.cpp:877

File_Namespace::FileMgr::getNumUsedMetadataPagesForChunkKey
size_t getNumUsedMetadataPagesForChunkKey(const ChunkKey &chunkKey) const
Definition: FileMgr.cpp:1042

Data_Namespace::AbstractBuffer::syncEncoder
void syncEncoder(const AbstractBuffer *src_buffer)
Definition: AbstractBuffer.cpp:33

File_Namespace::get_legacy_data_file_path
std::string get_legacy_data_file_path(const std::string &new_data_file_path)
Definition: File.cpp:49

File_Namespace::FileMgr::createBuffer
FileBuffer * createBuffer(const ChunkKey &key, size_t pageSize=0, const size_t numBytes=0) override
Creates a chunk with the specified key and page size.
Definition: FileMgr.cpp:716

File_Namespace::FileMgr::page_size_
const size_t page_size_
Definition: FileMgr.h:551

File_Namespace::FileMgr::sortAndCopyFilePagesForCompaction
void sortAndCopyFilePagesForCompaction(size_t page_size, std::vector< PageMapping > &page_mappings, std::set< Page > &touched_pages)
Definition: FileMgr.cpp:1316

File_Namespace::StorageStats::metadata_file_count
uint32_t metadata_file_count
Definition: FileMgr.h:112

GlobalFileMgr.h
This file includes the class specification for the FILE manager (FileMgr), and related data structure...

File_Namespace::StorageStats::epoch
int32_t epoch
Definition: FileMgr.h:110

File_Namespace::OpenFilesResult::header_infos
std::vector< HeaderInfo > header_infos
Definition: FileMgr.h:128

File_Namespace::FileMgr::allocateBuffer
virtual FileBuffer * allocateBuffer(const size_t page_size, const ChunkKey &key, const size_t num_bytes=0)
Definition: FileMgr.cpp:1623

File_Namespace::Page
A logical page (Page) belongs to a file on disk.
Definition: Page.h:46

File_Namespace::FileMgr::createFileInfo
FileInfo * createFileInfo(const size_t pageSize, const size_t numPages)
Adds a file to the file manager repository.
Definition: FileMgr.cpp:968

LOG
#define LOG(tag)
Definition: Logger.h:285

Data_Namespace::AbstractBuffer::getDeviceId
int getDeviceId() const
Definition: AbstractBuffer.h:97

CHUNK_KEY_DB_IDX
#define CHUNK_KEY_DB_IDX
Definition: types.h:38

CHUNK_KEY_FRAGMENT_IDX
#define CHUNK_KEY_FRAGMENT_IDX
Definition: types.h:41

File_Namespace::FileMgr::copySourcePageForCompaction
void copySourcePageForCompaction(const Page &source_page, FileInfo *destination_file_info, std::vector< PageMapping > &page_mappings, std::set< Page > &touched_pages)
Definition: FileMgr.cpp:1411

Data_Namespace::AbstractBuffer::getMemoryPtr
virtual int8_t * getMemoryPtr()=0

File_Namespace::FileMgr::free
void free(AbstractBuffer *buffer) override
Definition: FileMgr.cpp:873

Data_Namespace::AbstractBuffer::getType
virtual MemoryLevel getType() const =0

File_Namespace::FileInfo::freePageImmediate
void freePageImmediate(int32_t page_num)
Definition: FileInfo.cpp:254

File_Namespace::FileMgr::copyPage
void copyPage(Page &srcPage, FileMgr *destFileMgr, Page &destPage, const size_t reservedHeaderSize, const size_t numBytes, const size_t offset)
Definition: FileMgr.cpp:586

File_Namespace::FileMgr::setDataAndMetadataFileStats
void setDataAndMetadataFileStats(StorageStats &storage_stats) const
Definition: FileMgr.cpp:343

File_Namespace::FileMgr::migrateToLatestFileMgrVersion
void migrateToLatestFileMgrVersion()
Definition: FileMgr.cpp:1157

logger::FATAL
Definition: Logger.h:111

File_Namespace::FileMgr::rollOffOldData
void rollOffOldData(const int32_t epochCeiling, const bool shouldCheckpoint)
Definition: FileMgr.cpp:687

UNREACHABLE
#define UNREACHABLE()
Definition: Logger.h:338

FileMgr.h
This file includes the class specification for the FILE manager (FileMgr), and related data structure...

DATA_FILE_EXT
#define DATA_FILE_EXT
Definition: File.h:25

File_Namespace::FileMgr::UPDATE_PAGE_VISIBILITY_STATUS
static constexpr char const * UPDATE_PAGE_VISIBILITY_STATUS
Definition: FileMgr.h:389

gpu_enabled::sort
DEVICE void sort(ARGS &&...args)
Definition: gpu_enabled.h:105

File_Namespace::FileMetadata::file_id
int32_t file_id
Definition: FileMgr.h:101

CHECK_GE
#define CHECK_GE(x, y)
Definition: Logger.h:306

File_Namespace::FileMgr::init
void init(const size_t num_reader_threads, const int32_t epochOverride)
Definition: FileMgr.cpp:252

timer_stop
TypeR::rep timer_stop(Type clock_begin)
Definition: measure.h:48

File_Namespace::FileMgr::deleteBuffer
void deleteBuffer(const ChunkKey &key, const bool purge=true) override
Deletes the chunk with the specified key.
Definition: FileMgr.cpp:753

File_Namespace::GlobalFileMgr::getDBConvert
bool getDBConvert() const
Definition: GlobalFileMgr.h:176

Epoch::min_allowable_epoch
static int64_t min_allowable_epoch()
Definition: Epoch.h:65

File_Namespace::FileMgr::getFileMgrBasePath
std::string getFileMgrBasePath() const
Definition: FileMgr.h:334

File_Namespace::FileMgr::gfm_
GlobalFileMgr * gfm_
Definition: FileMgr.h:539

File_Namespace::anonymous_namespace{FileMgr.cpp}::is_compaction_status_file
bool is_compaction_status_file(const std::string &file_name)
Definition: FileMgr.cpp:193

File_Namespace::FileMgr::getPageMutex_
std::mutex getPageMutex_
pointer to DB level metadata
Definition: FileMgr.h:419

DEFAULT_METADATA_PAGE_SIZE
#define DEFAULT_METADATA_PAGE_SIZE
Definition: FragmentDefaultValues.h:21

Epoch::floor
int32_t floor() const
Definition: Epoch.h:43

Epoch::ceiling
int32_t ceiling() const
Definition: Epoch.h:44

File_Namespace::GlobalFileMgr::db_version_
static constexpr int32_t db_version_
Definition: GlobalFileMgr.h:151

File_Namespace::FileMgr::updatePageIfDeleted
virtual bool updatePageIfDeleted(FileInfo *file_info, ChunkKey &chunk_key, int32_t contingent, int32_t page_epoch, int32_t page_num)
deletes or recovers a page based on last checkpointed epoch.
Definition: FileMgr.cpp:1637

File_Namespace::StorageStats::total_free_data_page_count
std::optional< uint64_t > total_free_data_page_count
Definition: FileMgr.h:119

File_Namespace::FileMgr::writePageMappingsToStatusFile
void writePageMappingsToStatusFile(const std::vector< PageMapping > &page_mappings)
Definition: FileMgr.cpp:1528

File_Namespace::create
std::pair< FILE *, std::string > create(const std::string &basePath, const int fileId, const size_t pageSize, const size_t numPages)
Definition: File.cpp:55

File_Namespace::FileBuffer
Represents/provides access to contiguous data stored in the file system.
Definition: FileBuffer.h:57

File_Namespace::FileMgr::checkpoint
void checkpoint() override
Fsyncs data files, writes out epoch and fsyncs that.
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Index for looking up chunks.
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Definition: FileMgr.cpp:1199

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Determines file path, and if exists, runs file migration and opens and reads epoch file...
Definition: FileMgr.cpp:137

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Definition: FileMgr.cpp:1596

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Definition: FileMgr.h:399

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A selection of helper methods for File I/O.

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Definition: FileMgr.h:542

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