foundationdb/fdbclient/BackupContainer.actor.cpp

/*
 * BackupContainer.actor.cpp
 *
 * This source file is part of the FoundationDB open source project
 *
 * Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
 *
 * 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 "fdbclient/BackupContainer.h"
#include "flow/Trace.h"
#include "flow/UnitTest.h"
#include "flow/Hash3.h"
#include "fdbrpc/AsyncFileReadAhead.actor.h"
#include "fdbrpc/Platform.h"
#include "fdbclient/AsyncFileBlobStore.actor.h"
#include "fdbclient/Status.h"
#include "fdbclient/SystemData.h"
#include "fdbclient/ReadYourWrites.h"
#include "fdbclient/KeyBackedTypes.h"
#include "fdbclient/RunTransaction.actor.h"
#include <algorithm>
#include <time.h>

namespace IBackupFile_impl {

	ACTOR Future<Void> appendStringRefWithLen(Reference<IBackupFile> file, Standalone<StringRef> s) {
		state uint32_t lenBuf = bigEndian32((uint32_t)s.size());
		wait(file->append(&lenBuf, sizeof(lenBuf)));
		wait(file->append(s.begin(), s.size()));
		return Void();
	}
}

Future<Void> IBackupFile::appendStringRefWithLen(Standalone<StringRef> s) {
	return IBackupFile_impl::appendStringRefWithLen(Reference<IBackupFile>::addRef(this), s);
}

std::string IBackupContainer::ExpireProgress::toString() const {
	std::string s = step + "...";
	if(total > 0) {
		s += format("%d/%d (%.2f%%)", done, total, double(done) / total * 100);
	}
	return s;
}

void BackupFileList::toStream(FILE *fout) const {
	for(const RangeFile &f : ranges) {
		fprintf(fout, "range %lld %s\n", f.fileSize, f.fileName.c_str());
	}
	for(const LogFile &f : logs) {
		fprintf(fout, "log %lld %s\n", f.fileSize, f.fileName.c_str());
	}
	for(const KeyspaceSnapshotFile &f : snapshots) {
		fprintf(fout, "snapshotManifest %lld %s\n", f.totalSize, f.fileName.c_str());
	}
}

std::string formatTime(int64_t t) {
	time_t curTime = (time_t)t;
	char buffer[128];
	struct tm timeinfo;
	getLocalTime(&curTime, &timeinfo);
	strftime(buffer, 128, "%Y-%m-%d %H:%M:%S", &timeinfo);
	return buffer;
}

Future<Void> fetchTimes(Reference<ReadYourWritesTransaction> tr,  std::map<Version, int64_t> *pVersionTimeMap) {
	std::vector<Future<Void>> futures;

	// Resolve each version in the map,
	for(auto &p : *pVersionTimeMap) {
		futures.push_back(map(timeKeeperEpochsFromVersion(p.first, tr), [=](Optional<int64_t> t) {
			if(t.present())
				pVersionTimeMap->at(p.first) = t.get();
			else
				pVersionTimeMap->erase(p.first);
			return Void();
		}));
	}

	return waitForAll(futures);
}

Future<Void> BackupDescription::resolveVersionTimes(Database cx) {
	// Populate map with versions needed
	versionTimeMap.clear();

	for(const KeyspaceSnapshotFile &m : snapshots) {
		versionTimeMap[m.beginVersion];
		versionTimeMap[m.endVersion];
	}
	if(minLogBegin.present())
		versionTimeMap[minLogBegin.get()];
	if(maxLogEnd.present())
		versionTimeMap[maxLogEnd.get()];
	if(contiguousLogEnd.present())
		versionTimeMap[contiguousLogEnd.get()];
	if(minRestorableVersion.present())
		versionTimeMap[minRestorableVersion.get()];
	if(maxRestorableVersion.present())
		versionTimeMap[maxRestorableVersion.get()];

	return runRYWTransaction(cx, [=](Reference<ReadYourWritesTransaction> tr) { return fetchTimes(tr, &versionTimeMap); });
};

std::string BackupDescription::toString() const {
	std::string info;

	info.append(format("URL: %s\n", url.c_str()));
	info.append(format("Restorable: %s\n", maxRestorableVersion.present() ? "true" : "false"));

	auto formatVersion = [&](Version v) {
		std::string s;
		if(!versionTimeMap.empty()) {
			auto i = versionTimeMap.find(v);
			if(i != versionTimeMap.end())
				s = format("%lld (%s)", v, formatTime(i->second).c_str());
			else
				s = format("%lld (unknown)", v);
		}
		else if(maxLogEnd.present()) {
			double days = double(maxLogEnd.get() - v) / (CLIENT_KNOBS->CORE_VERSIONSPERSECOND * 24 * 60 * 60);
			s = format("%lld (maxLogEnd %s%.2f days)", v, days < 0 ? "+" : "-", days);
		}
		else {
			s = format("%lld", v);
		}
		return s;
	};

	for(const KeyspaceSnapshotFile &m : snapshots) {
		info.append(format("Snapshot:  startVersion=%s  endVersion=%s  totalBytes=%lld  restorable=%s\n",
			formatVersion(m.beginVersion).c_str(), formatVersion(m.endVersion).c_str(), m.totalSize, m.restorable.orDefault(false) ? "true" : "false"));
	}

	info.append(format("SnapshotBytes: %lld\n", snapshotBytes));

	if(expiredEndVersion.present())
		info.append(format("ExpiredEndVersion:       %s\n", formatVersion(expiredEndVersion.get()).c_str()));
	if(unreliableEndVersion.present())
		info.append(format("UnreliableEndVersion:    %s\n", formatVersion(unreliableEndVersion.get()).c_str()));
	if(minLogBegin.present())
		info.append(format("MinLogBeginVersion:      %s\n", formatVersion(minLogBegin.get()).c_str()));
	if(contiguousLogEnd.present())
		info.append(format("ContiguousLogEndVersion: %s\n", formatVersion(contiguousLogEnd.get()).c_str()));
	if(maxLogEnd.present())
		info.append(format("MaxLogEndVersion:        %s\n", formatVersion(maxLogEnd.get()).c_str()));
	if(minRestorableVersion.present())
		info.append(format("MinRestorableVersion:    %s\n", formatVersion(minRestorableVersion.get()).c_str()));
	if(maxRestorableVersion.present())
		info.append(format("MaxRestorableVersion:    %s\n", formatVersion(maxRestorableVersion.get()).c_str()));

	if(!extendedDetail.empty())
		info.append("ExtendedDetail: ").append(extendedDetail);

	return info;
}

/* BackupContainerFileSystem implements a backup container which stores files in a nested folder structure.
 * Inheritors must only defined methods for writing, reading, deleting, sizing, and listing files.
 *
 *   Snapshot manifests (a complete set of files constituting a database snapshot for the backup's target ranges)
 *   are stored as JSON files at paths like
 *       /snapshots/snapshot,minVersion,maxVersion,totalBytes
 * 
 *   Key range files for snapshots are stored at paths like
 *       /kvranges/snapshot,startVersion/N/range,version,uid,blockSize
 *     where startVersion is the version at which the backup snapshot execution began and N is a number
 *     that is increased as key range files are generated over time (at varying rates) such that there 
 *     are around 5,000 key range files in each folder.
 *
 *     Note that startVersion will NOT correspond to the minVersion of a snapshot manifest because 
 *     snapshot manifest min/max versions are based on the actual contained data and the first data
 *     file written will be after the start version of the snapshot's execution.
 * 
 *   Log files are at file paths like
 *       /logs/.../log,startVersion,endVersion,blockSize
 *     where ... is a multi level path which sorts lexically into version order and results in approximately 1
 *     unique folder per day containing about 5,000 files.
 *
 *   BACKWARD COMPATIBILITY
 *
 *   Prior to FDB version 6.0.16, key range files were stored using a different folder scheme.  Newer versions
 *   still support this scheme for all restore and backup management operations but key range files generated
 *   by backup using version 6.0.16 or later use the scheme describe above.  
 * 
 *   The old format stored key range files at paths like
 *       /ranges/.../range,version,uid,blockSize
 *     where ... is a multi level path with sorts lexically into version order and results in up to approximately
 *     900 unique folders per day.  The number of files per folder depends on the configured snapshot rate and
 *     database size and will vary from 1 to around 5,000.
 */
class BackupContainerFileSystem : public IBackupContainer {
public:
	virtual void addref() = 0;
	virtual void delref() = 0;

	BackupContainerFileSystem() {}
	virtual ~BackupContainerFileSystem() {}

	// Create the container
	virtual Future<Void> create() = 0;
	virtual Future<bool> exists() = 0;

	// Get a list of fileNames and their sizes in the container under the given path
	// Although not required, an implementation can avoid traversing unwanted subfolders
	// by calling folderPathFilter(absoluteFolderPath) and checking for a false return value.
	typedef std::vector<std::pair<std::string, int64_t>> FilesAndSizesT;
	virtual Future<FilesAndSizesT> listFiles(std::string path = "", std::function<bool(std::string const &)> folderPathFilter = nullptr) = 0;

	// Open a file for read by fileName
	virtual Future<Reference<IAsyncFile>> readFile(std::string fileName) = 0;

	// Open a file for write by fileName
	virtual Future<Reference<IBackupFile>> writeFile(std::string fileName) = 0;

	// Delete a file
	virtual Future<Void> deleteFile(std::string fileName) = 0;

	// Delete entire container.  During the process, if pNumDeleted is not null it will be
	// updated with the count of deleted files so that progress can be seen.
	virtual Future<Void> deleteContainer(int *pNumDeleted) = 0;

	// Creates a 2-level path (x/y) where v should go such that x/y/* contains (10^smallestBucket) possible versions
	static std::string versionFolderString(Version v, int smallestBucket) {
		ASSERT(smallestBucket < 14);
		// Get a 0-padded fixed size representation of v
		std::string vFixedPrecision = format("%019lld", v);
		ASSERT(vFixedPrecision.size() == 19);
		// Truncate smallestBucket from the fixed length representation
		vFixedPrecision.resize(vFixedPrecision.size() - smallestBucket);

		// Split the remaining digits with a '/' 4 places from the right
		vFixedPrecision.insert(vFixedPrecision.size() - 4, 1, '/');

		return vFixedPrecision;
	}

	// This useful for comparing version folder strings regardless of where their "/" dividers are, as it is possible
	// that division points would change in the future.
	static std::string cleanFolderString(std::string f) {
		f.erase(std::remove(f.begin(), f.end(), '/'), f.end());
		return f;
	}

	// The innermost folder covers 100 seconds (1e8 versions) During a full speed backup it is possible though very unlikely write about 10,000 snapshot range files during that time.
	static std::string old_rangeVersionFolderString(Version v) {
		return format("ranges/%s/", versionFolderString(v, 8).c_str());
	}

	// Get the root folder for a snapshot's data based on its begin version
	static std::string snapshotFolderString(Version snapshotBeginVersion) {
		return format("kvranges/snapshot.%018lld", snapshotBeginVersion);
	}

	// Extract the snapshot begin version from a path
	static Version extractSnapshotBeginVersion(std::string path) {
		Version snapshotBeginVersion;
		if(sscanf(path.c_str(), "kvranges/snapshot.%018lld", &snapshotBeginVersion) == 1) {
			return snapshotBeginVersion;
		}
		return invalidVersion;
	}

	// The innermost folder covers 100,000 seconds (1e11 versions) which is 5,000 mutation log files at current settings.
	static std::string logVersionFolderString(Version v) {
		return format("logs/%s/", versionFolderString(v, 11).c_str());
	}

	Future<Reference<IBackupFile>> writeLogFile(Version beginVersion, Version endVersion, int blockSize) {
		return writeFile(logVersionFolderString(beginVersion) + format("log,%lld,%lld,%s,%d", beginVersion, endVersion, g_random->randomUniqueID().toString().c_str(), blockSize));
	}

	Future<Reference<IBackupFile>> writeRangeFile(Version snapshotBeginVersion, int snapshotFileCount, Version fileVersion, int blockSize) {
		std::string fileName = format("range,%lld,%s,%d", fileVersion, g_random->randomUniqueID().toString().c_str(), blockSize);

		// In order to test backward compatibility in simulation, sometimes write to the old path format
		if(g_network->isSimulated() && g_random->coinflip()) {
			return writeFile(old_rangeVersionFolderString(fileVersion) + fileName);
		}

		return writeFile(snapshotFolderString(snapshotBeginVersion) + format("/%d/", snapshotFileCount / (BUGGIFY ? 1 : 5000)) + fileName);
	}

	static bool pathToRangeFile(RangeFile &out, std::string path, int64_t size) {
		std::string name = basename(path);
		RangeFile f;
		f.fileName = path;
		f.fileSize = size;
		int len;
		if(sscanf(name.c_str(), "range,%lld,%*[^,],%u%n", &f.version, &f.blockSize, &len) == 2 && len == name.size()) {
			out = f;
			return true;
		}
		return false;
	}

	static bool pathToLogFile(LogFile &out, std::string path, int64_t size) {
		std::string name = basename(path);
		LogFile f;
		f.fileName = path;
		f.fileSize = size;
		int len;
		if(sscanf(name.c_str(), "log,%lld,%lld,%*[^,],%u%n", &f.beginVersion, &f.endVersion, &f.blockSize, &len) == 3 && len == name.size()) {
			out = f;
			return true;
		}
		return false;
	}

	static bool pathToKeyspaceSnapshotFile(KeyspaceSnapshotFile &out, std::string path) {
		std::string name = basename(path);
		KeyspaceSnapshotFile f;
		f.fileName = path;
		int len;
		if(sscanf(name.c_str(), "snapshot,%lld,%lld,%lld%n", &f.beginVersion, &f.endVersion, &f.totalSize, &len) == 3 && len == name.size()) {
			out = f;
			return true;
		}
		return false;
	}

	// TODO:  Do this more efficiently, as the range file list for a snapshot could potentially be hundreds of megabytes.
	ACTOR static Future<std::vector<RangeFile>> readKeyspaceSnapshot_impl(Reference<BackupContainerFileSystem> bc, KeyspaceSnapshotFile snapshot) {
		// Read the range file list for the specified version range, and then index them by fileName.
		// This is so we can verify that each of the files listed in the manifest file are also in the container at this time.
		std::vector<RangeFile> files = wait(bc->listRangeFiles(snapshot.beginVersion, snapshot.endVersion));
		state std::map<std::string, RangeFile> rangeIndex;
		for(auto &f : files)
			rangeIndex[f.fileName] = std::move(f);

		// Read the snapshot file, verify the version range, then find each of the range files by name in the index and return them.
		state Reference<IAsyncFile> f = wait(bc->readFile(snapshot.fileName));
		int64_t size = wait(f->size());
		state Standalone<StringRef> buf = makeString(size);
		int _ = wait(f->read(mutateString(buf), buf.size(), 0));
		json_spirit::mValue json;
		json_spirit::read_string(buf.toString(), json);
		JSONDoc doc(json);

		Version v;
		if(!doc.tryGet("beginVersion", v) || v != snapshot.beginVersion)
			throw restore_corrupted_data();
		if(!doc.tryGet("endVersion", v) || v != snapshot.endVersion)
			throw restore_corrupted_data();

		json_spirit::mValue &filesArray = doc.create("files");
		if(filesArray.type() != json_spirit::array_type)
			throw restore_corrupted_data();

		std::vector<RangeFile> results;
		int missing = 0;

		for(auto const &fileValue : filesArray.get_array()) {
			if(fileValue.type() != json_spirit::str_type)
				throw restore_corrupted_data();

			// If the file is not in the index then log the error but don't throw yet, keep checking the whole list.
			auto i = rangeIndex.find(fileValue.get_str());
			if(i == rangeIndex.end()) {
				TraceEvent(SevError, "FileRestoreMissingRangeFile")
					.detail("URL", bc->getURL())
					.detail("File", fileValue.get_str());

				++missing;
			}

			// No point in using more memory once data is missing since an error will be thrown instead.
			if(missing == 0) {
				results.push_back(i->second);
			}
		}

		if(missing > 0) {
			TraceEvent(SevError, "FileRestoreMissingRangeFileSummary")
				.detail("URL", bc->getURL())
				.detail("Count", missing);

			throw restore_missing_data();
		}

		return results;
	}

	Future<std::vector<RangeFile>> readKeyspaceSnapshot(KeyspaceSnapshotFile snapshot) {
		return readKeyspaceSnapshot_impl(Reference<BackupContainerFileSystem>::addRef(this), snapshot);
	}

	ACTOR static Future<Void> writeKeyspaceSnapshotFile_impl(Reference<BackupContainerFileSystem> bc, std::vector<std::string> fileNames, int64_t totalBytes) {
		ASSERT(!fileNames.empty());


		state Version minVer = std::numeric_limits<Version>::max();
		state Version maxVer = 0;
		state RangeFile rf;
		state json_spirit::mArray fileArray;
		state int i;

		// Validate each filename, update version range
		for(i = 0; i < fileNames.size(); ++i) {
			auto const &f = fileNames[i];
			if(pathToRangeFile(rf, f, 0)) {
				fileArray.push_back(f);
				if(rf.version < minVer)
					minVer = rf.version;
				if(rf.version > maxVer)
					maxVer = rf.version;
			}
			else
				throw restore_unknown_file_type();
			wait(yield());
		}

		state json_spirit::mValue json;
		state JSONDoc doc(json);

		doc.create("files") = std::move(fileArray);
		doc.create("totalBytes") = totalBytes;
		doc.create("beginVersion") = minVer;
		doc.create("endVersion") = maxVer;

		wait(yield());
		state std::string docString = json_spirit::write_string(json);

		state Reference<IBackupFile> f = wait(bc->writeFile(format("snapshots/snapshot,%lld,%lld,%lld", minVer, maxVer, totalBytes)));
		wait(f->append(docString.data(), docString.size()));
		wait(f->finish());

		return Void();
	}

	Future<Void> writeKeyspaceSnapshotFile(std::vector<std::string> fileNames, int64_t totalBytes) {
		return writeKeyspaceSnapshotFile_impl(Reference<BackupContainerFileSystem>::addRef(this), fileNames, totalBytes);
	};

	// List log files, unsorted, which contain data at any version >= beginVersion and <= targetVersion
	Future<std::vector<LogFile>> listLogFiles(Version beginVersion = 0, Version targetVersion = std::numeric_limits<Version>::max()) {
		// The first relevant log file could have a begin version less than beginVersion based on the knobs which determine log file range size,
		// so start at an earlier version adjusted by how many versions a file could contain.
		//
		// Get the cleaned (without slashes) first and last folders that could contain relevant results.
		std::string firstPath = cleanFolderString(logVersionFolderString(
			std::max<Version>(0, beginVersion - CLIENT_KNOBS->BACKUP_MAX_LOG_RANGES * CLIENT_KNOBS->LOG_RANGE_BLOCK_SIZE)
		));
		std::string lastPath =  cleanFolderString(logVersionFolderString(targetVersion));

		std::function<bool(std::string const &)> pathFilter = [=](const std::string &folderPath) {
			// Remove slashes in the given folder path so that the '/' positions in the version folder string do not matter

			std::string cleaned = cleanFolderString(folderPath);
			return StringRef(firstPath).startsWith(cleaned) || StringRef(lastPath).startsWith(cleaned)
				|| (cleaned > firstPath && cleaned < lastPath);
		};

		return map(listFiles("logs/", pathFilter), [=](const FilesAndSizesT &files) {
			std::vector<LogFile> results;
			LogFile lf;
			for(auto &f : files) {
				if(pathToLogFile(lf, f.first, f.second) && lf.endVersion > beginVersion && lf.beginVersion <= targetVersion)
					results.push_back(lf);
			}
			return results;
		});
	}

	// List range files, unsorted, which contain data at or between beginVersion and endVersion
	// NOTE: This reads the range file folder schema from FDB 6.0.15 and earlier and is provided for backward compatibility
	Future<std::vector<RangeFile>> old_listRangeFiles(Version beginVersion, Version endVersion) {
		// Get the cleaned (without slashes) first and last folders that could contain relevant results.
		std::string firstPath = cleanFolderString(old_rangeVersionFolderString(beginVersion));
		std::string lastPath =  cleanFolderString(old_rangeVersionFolderString(endVersion));

		std::function<bool(std::string const &)> pathFilter = [=](const std::string &folderPath) {
			// Remove slashes in the given folder path so that the '/' positions in the version folder string do not matter
			std::string cleaned = cleanFolderString(folderPath);

			return StringRef(firstPath).startsWith(cleaned) || StringRef(lastPath).startsWith(cleaned)
				|| (cleaned > firstPath && cleaned < lastPath);
		};

		return map(listFiles("ranges/", pathFilter), [=](const FilesAndSizesT &files) {
			std::vector<RangeFile> results;
			RangeFile rf;
			for(auto &f : files) {
				if(pathToRangeFile(rf, f.first, f.second) && rf.version >= beginVersion && rf.version <= endVersion)
					results.push_back(rf);
			}
			return results;
		});
	}

	// List range files, unsorted, which contain data at or between beginVersion and endVersion
	// Note: The contents of each top level snapshot.N folder do not necessarily constitute a valid snapshot
	// and therefore listing files is not how RestoreSets are obtained.
	// Note: Snapshots partially written using FDB versions prior to 6.0.16 will have some range files stored
	// using the old folder scheme read by old_listRangeFiles
	Future<std::vector<RangeFile>> listRangeFiles(Version beginVersion, Version endVersion) {
		// Until the old folder scheme is no longer supported, read files stored using old folder scheme
		Future<std::vector<RangeFile>> oldFiles = old_listRangeFiles(beginVersion, endVersion);

		// Define filter function (for listFiles() implementations that use it) to reject any folder
		// starting after endVersion
		std::function<bool(std::string const &)> pathFilter = [=](std::string const &path) {
			return extractSnapshotBeginVersion(path) <= endVersion;
		};

		Future<std::vector<RangeFile>> newFiles = map(listFiles("kvranges/", pathFilter), [=](const FilesAndSizesT &files) {
			std::vector<RangeFile> results;
			RangeFile rf;
			for(auto &f : files) {
				if(pathToRangeFile(rf, f.first, f.second) && rf.version >= beginVersion && rf.version <= endVersion)
					results.push_back(rf);
			}
			return results;
		});

		return map(success(oldFiles) && success(newFiles), [=](Void _) {
			std::vector<RangeFile> results = std::move(newFiles.get());
			std::vector<RangeFile> oldResults = std::move(oldFiles.get());
			results.insert(results.end(), std::make_move_iterator(oldResults.begin()), std::make_move_iterator(oldResults.end()));
			return results;
		});
	}

	// List snapshots which have been fully written, in sorted beginVersion order, which start before end and finish on or after begin
	Future<std::vector<KeyspaceSnapshotFile>> listKeyspaceSnapshots(Version begin = 0, Version end = std::numeric_limits<Version>::max()) {
		return map(listFiles("snapshots/"), [=](const FilesAndSizesT &files) {
			std::vector<KeyspaceSnapshotFile> results;
			KeyspaceSnapshotFile sf;
			for(auto &f : files) {
				if(pathToKeyspaceSnapshotFile(sf, f.first) && sf.beginVersion < end && sf.endVersion >= begin)
					results.push_back(sf);
			}
			std::sort(results.begin(), results.end());
			return results;
		});
	}

	ACTOR static Future<BackupFileList> dumpFileList_impl(Reference<BackupContainerFileSystem> bc, Version begin, Version end) {
		state Future<std::vector<RangeFile>> fRanges = bc->listRangeFiles(begin, end);
		state Future<std::vector<KeyspaceSnapshotFile>> fSnapshots = bc->listKeyspaceSnapshots(begin, end);
		state Future<std::vector<LogFile>> fLogs = bc->listLogFiles(begin, end);

		wait(success(fRanges) && success(fSnapshots) && success(fLogs));

		return BackupFileList({fRanges.get(), fLogs.get(), fSnapshots.get()});
	}

	Future<BackupFileList> dumpFileList(Version begin, Version end) {
		return dumpFileList_impl(Reference<BackupContainerFileSystem>::addRef(this), begin, end);
	}

	static Version resolveRelativeVersion(Optional<Version> max, Version v, const char *name, Error e) {
		if(v == invalidVersion) {
			TraceEvent(SevError, "BackupExpireInvalidVersion").detail(name, v);
			throw e;
		}
		if(v < 0) {
			if(!max.present()) {
				TraceEvent(SevError, "BackupExpireCannotResolveRelativeVersion").detail(name, v);
				throw e;
			}
			v += max.get();
		}
		return v;
	}

	ACTOR static Future<BackupDescription> describeBackup_impl(Reference<BackupContainerFileSystem> bc, bool deepScan, Version logStartVersionOverride) {
		state BackupDescription desc;
		desc.url = bc->getURL();

		TraceEvent("BackupContainerDescribe1")
			.detail("URL", bc->getURL())
			.detail("LogStartVersionOverride", logStartVersionOverride);

		bool e = wait(bc->exists());
		if(!e) {
			TraceEvent(SevWarnAlways, "BackupContainerDoesNotExist").detail("URL", bc->getURL());
			throw backup_does_not_exist();
		}

		// If logStartVersion is relative, then first do a recursive call without it to find the max log version
		// from which to resolve the relative version.
		// This could be handled more efficiently without recursion but it's tricky, this will do for now.
		if(logStartVersionOverride != invalidVersion && logStartVersionOverride < 0) {
			BackupDescription tmp = wait(bc->describeBackup(false, invalidVersion));
			logStartVersionOverride = resolveRelativeVersion(tmp.maxLogEnd, logStartVersionOverride, "LogStartVersionOverride", invalid_option_value());
		}

		// Get metadata versions
		state Optional<Version> metaLogBegin;
		state Optional<Version> metaLogEnd;
		state Optional<Version> metaExpiredEnd;
		state Optional<Version> metaUnreliableEnd;

		std::vector<Future<Void>> metaReads;
		metaReads.push_back(store(metaExpiredEnd, bc->expiredEndVersion().get()));
		metaReads.push_back(store(metaUnreliableEnd, bc->unreliableEndVersion().get()));

		// Only read log begin/end versions if not doing a deep scan, otherwise scan files and recalculate them.
		if(!deepScan) {
			metaReads.push_back(store(metaLogBegin, bc->logBeginVersion().get()));
			metaReads.push_back(store(metaLogEnd, bc->logEndVersion().get()));
		}

		wait(waitForAll(metaReads));

		TraceEvent("BackupContainerDescribe2")
			.detail("URL", bc->getURL())
			.detail("LogStartVersionOverride", logStartVersionOverride)
			.detail("ExpiredEndVersion", metaExpiredEnd.orDefault(invalidVersion))
			.detail("UnreliableEndVersion", metaUnreliableEnd.orDefault(invalidVersion))
			.detail("LogBeginVersion", metaLogBegin.orDefault(invalidVersion))
			.detail("LogEndVersion", metaLogEnd.orDefault(invalidVersion));

		// If the logStartVersionOverride is positive (not relative) then ensure that unreliableEndVersion is equal or greater
		if(logStartVersionOverride != invalidVersion && metaUnreliableEnd.orDefault(invalidVersion) < logStartVersionOverride) {
			metaUnreliableEnd = logStartVersionOverride;
		}

		// Don't use metaLogBegin or metaLogEnd if any of the following are true, the safest
		// thing to do is rescan to verify log continuity and get exact begin/end versions
		//   - either are missing
		//   - metaLogEnd <= metaLogBegin       (invalid range)
		//   - metaLogEnd < metaExpiredEnd      (log continuity exists in missing data range) 
		//   - metaLogEnd < metaUnreliableEnd   (log continuity exists in incomplete data range)
		if(!metaLogBegin.present() || !metaLogEnd.present()
			 || metaLogEnd.get() <= metaLogBegin.get()
			 || metaLogEnd.get() < metaExpiredEnd.orDefault(invalidVersion)
			 || metaLogEnd.get() < metaUnreliableEnd.orDefault(invalidVersion)
		) {
			TraceEvent(SevWarnAlways, "BackupContainerMetadataInvalid")
				.detail("URL", bc->getURL())
				.detail("ExpiredEndVersion", metaExpiredEnd.orDefault(invalidVersion))
				.detail("UnreliableEndVersion", metaUnreliableEnd.orDefault(invalidVersion))
				.detail("LogBeginVersion", metaLogBegin.orDefault(invalidVersion))
				.detail("LogEndVersion", metaLogEnd.orDefault(invalidVersion));

			metaLogBegin = Optional<Version>();
			metaLogEnd = Optional<Version>();
		}

		// If the unreliable end version is not set or is < expiredEndVersion then increase it to expiredEndVersion.
		// Describe does not update unreliableEnd in the backup metadata for safety reasons as there is no 
		// compare-and-set operation to atomically change it and an expire process could be advancing it simultaneously.
		if(!metaUnreliableEnd.present() || metaUnreliableEnd.get() < metaExpiredEnd.orDefault(0))
			metaUnreliableEnd = metaExpiredEnd;

		desc.unreliableEndVersion = metaUnreliableEnd;
		desc.expiredEndVersion = metaExpiredEnd;

		// Start scanning at the end of the unreliable version range, which is the version before which data is likely
		// missing because an expire process has operated on that range.
		state Version scanBegin = desc.unreliableEndVersion.orDefault(0);
		state Version scanEnd = std::numeric_limits<Version>::max();

		// Use the known log range if present
		// Logs are assumed to be contiguious between metaLogBegin and metaLogEnd, so initalize desc accordingly
		if(metaLogBegin.present() && metaLogEnd.present()) {
			// minLogBegin is the greater of the log begin metadata OR the unreliable end version since we can't count
			// on log file presence before that version.
			desc.minLogBegin = std::max(metaLogBegin.get(), desc.unreliableEndVersion.orDefault(0));

			// Set the maximum known end version of a log file, so far, which is also the assumed contiguous log file end version
			desc.maxLogEnd = metaLogEnd.get();
			desc.contiguousLogEnd = desc.maxLogEnd;

			// Advance scanBegin to the contiguous log end version
			scanBegin = desc.contiguousLogEnd.get();
		}

		state std::vector<LogFile> logs;
		wait(store(logs, bc->listLogFiles(scanBegin, scanEnd)) && store(desc.snapshots, bc->listKeyspaceSnapshots()));

		// List logs in version order so log continuity can be analyzed
		std::sort(logs.begin(), logs.end());

		if(!logs.empty()) {
			desc.maxLogEnd = logs.rbegin()->endVersion;

			auto i = logs.begin();
			// If we didn't get log versions above then seed them using the first log file
			if(!desc.contiguousLogEnd.present()) {
				desc.minLogBegin = i->beginVersion;
				desc.contiguousLogEnd = i->endVersion;
				++i;
			}
			auto &end = desc.contiguousLogEnd.get();  // For convenience to make loop cleaner

			// Advance until continuity is broken
			while(i != logs.end()) {
				if(i->beginVersion > end)
					break;
				// If the next link in the log chain is found, update the end
				if(i->beginVersion == end)
					end = i->endVersion;
				++i;
			}
		}

		// Only update stored contiguous log begin and end versions if we did NOT use a log start override.
		// Otherwise, a series of describe operations can result in a version range which is actually missing data.
		if(logStartVersionOverride == invalidVersion) {
			// If the log metadata begin/end versions are missing (or treated as missing due to invalidity) or
			// differ from the newly calculated values for minLogBegin and contiguousLogEnd, respectively,
			// then attempt to update the metadata in the backup container but ignore errors in case the 
			// container is not writeable.
			try {
				state Future<Void> updates = Void();

				if(desc.minLogBegin.present() && metaLogBegin != desc.minLogBegin) {
					updates = updates && bc->logBeginVersion().set(desc.minLogBegin.get());
				}

				if(desc.contiguousLogEnd.present() && metaLogEnd != desc.contiguousLogEnd) {
					updates = updates && bc->logEndVersion().set(desc.contiguousLogEnd.get());
				}

				wait(updates);
			} catch(Error &e) {
				if(e.code() == error_code_actor_cancelled)
					throw;
				TraceEvent(SevWarn, "BackupContainerMetadataUpdateFailure")
					.error(e)
					.detail("URL", bc->getURL());
			}
		}

		for(auto &s : desc.snapshots) {
			// Calculate restorability of each snapshot.  Assume true, then try to prove false
			s.restorable = true;
			// If this is not a single-version snapshot then see if the available contiguous logs cover its range
			if(s.beginVersion != s.endVersion) {
				if(!desc.minLogBegin.present() || desc.minLogBegin.get() > s.beginVersion)
					s.restorable = false;
				if(!desc.contiguousLogEnd.present() || desc.contiguousLogEnd.get() <= s.endVersion)
					s.restorable = false;
			}

			desc.snapshotBytes += s.totalSize;

			// If the snapshot is at a single version then it requires no logs.  Update min and max restorable.
			// TODO:  Somehow check / report if the restorable range is not or may not be contiguous.
			if(s.beginVersion == s.endVersion) {
				if(!desc.minRestorableVersion.present() || s.endVersion < desc.minRestorableVersion.get())
					desc.minRestorableVersion = s.endVersion;

				if(!desc.maxRestorableVersion.present() || s.endVersion > desc.maxRestorableVersion.get())
					desc.maxRestorableVersion = s.endVersion;
			}

			// If the snapshot is covered by the contiguous log chain then update min/max restorable.
			if(desc.minLogBegin.present() && s.beginVersion >= desc.minLogBegin.get() && s.endVersion < desc.contiguousLogEnd.get()) {
				if(!desc.minRestorableVersion.present() || s.endVersion < desc.minRestorableVersion.get())
					desc.minRestorableVersion = s.endVersion;

				if(!desc.maxRestorableVersion.present() || (desc.contiguousLogEnd.get() - 1) > desc.maxRestorableVersion.get())
					desc.maxRestorableVersion = desc.contiguousLogEnd.get() - 1;
			}
		}

		return desc;
	}

	// Uses the virtual methods to describe the backup contents
	Future<BackupDescription> describeBackup(bool deepScan, Version logStartVersionOverride) {
		return describeBackup_impl(Reference<BackupContainerFileSystem>::addRef(this), deepScan, logStartVersionOverride);
	}

	ACTOR static Future<Void> expireData_impl(Reference<BackupContainerFileSystem> bc, Version expireEndVersion, bool force, ExpireProgress *progress, Version restorableBeginVersion) {
		if(progress != nullptr) {
			progress->step = "Describing backup";
			progress->total = 0;
		}

		TraceEvent("BackupContainerFileSystemExpire1")
			.detail("URL", bc->getURL())
			.detail("ExpireEndVersion", expireEndVersion)
			.detail("RestorableBeginVersion", restorableBeginVersion);

		// Get the backup description.
		state BackupDescription desc = wait(bc->describeBackup(false, expireEndVersion));

		// Resolve relative versions using max log version
		expireEndVersion =       resolveRelativeVersion(desc.maxLogEnd, expireEndVersion,       "ExpireEndVersion",       invalid_option_value());
		restorableBeginVersion = resolveRelativeVersion(desc.maxLogEnd, restorableBeginVersion, "RestorableBeginVersion", invalid_option_value());

		// It would be impossible to have restorability to any version < expireEndVersion after expiring to that version
		if(restorableBeginVersion < expireEndVersion)
			throw backup_cannot_expire();

		// If the expire request is to a version at or before the previous version to which data was already deleted
		// then do nothing and just return
		if(expireEndVersion <= desc.expiredEndVersion.orDefault(invalidVersion)) {
			return Void();
		}

		// Assume force is needed, then try to prove otherwise.
		// Force is required if there is not a restorable snapshot which both
		//   - begins at or after expireEndVersion
		//   - ends at or before restorableBeginVersion
		state bool forceNeeded = true;
		for(KeyspaceSnapshotFile &s : desc.snapshots) {
			if(s.restorable.orDefault(false) && s.beginVersion >= expireEndVersion && s.endVersion <= restorableBeginVersion) {
				forceNeeded = false;
				break;
			}
		}

		// If force is needed but not passed then refuse to expire anything.
		// Note that it is possible for there to be no actual files in the backup prior to expireEndVersion,
		// if they were externally deleted or an expire operation deleted them but was terminated before
		// updating expireEndVersion
		if(forceNeeded && !force)
			throw backup_cannot_expire();

		// Start scan for files to delete at the last completed expire operation's end or 0.
		state Version scanBegin = desc.expiredEndVersion.orDefault(0);

		TraceEvent("BackupContainerFileSystemExpire2")
			.detail("URL", bc->getURL())
			.detail("ExpireEndVersion", expireEndVersion)
			.detail("RestorableBeginVersion", restorableBeginVersion)
			.detail("ScanBeginVersion", scanBegin);

		state std::vector<LogFile> logs;
		state std::vector<RangeFile> ranges;

		if(progress != nullptr) {
			progress->step = "Listing files";
		}
		// Get log files or range files that contain any data at or before expireEndVersion
		wait(store(logs, bc->listLogFiles(scanBegin, expireEndVersion - 1)) && store(ranges, bc->listRangeFiles(scanBegin, expireEndVersion - 1)));

		// The new logBeginVersion will be taken from the last log file, if there is one
		state Optional<Version> newLogBeginVersion;
		if(!logs.empty()) {
			// Linear scan the unsorted logs to find the latest one in sorted order
			LogFile &last = *std::max_element(logs.begin(), logs.end());

			// If the last log ends at expireEndVersion then that will be the next log begin
			if(last.endVersion == expireEndVersion) {
				newLogBeginVersion = expireEndVersion;
			}
			else {
				// If the last log overlaps the expiredEnd then use the log's begin version and move the expiredEnd
				// back to match it and keep the last log file
				if(last.endVersion > expireEndVersion) {
					newLogBeginVersion = last.beginVersion;

					// Instead of modifying this potentially very large vector, just clear LogFile
					last = LogFile();

					expireEndVersion = newLogBeginVersion.get();
				}
			}
		}

		// Make a list of files to delete
		state std::vector<std::string> toDelete;

		// Move filenames out of vector then destroy it to save memory
		for(auto const &f : logs) {
			// We may have cleared the last log file earlier so skip any empty filenames
			if(!f.fileName.empty()) {
				toDelete.push_back(std::move(f.fileName));
			}
		}
		logs.clear();

		// Move filenames out of vector then destroy it to save memory
		for(auto const &f : ranges) {
			// The file version must be checked here again because it is likely that expireEndVersion is in the middle of a log file, in which case
			// after the log and range file listings are done (using the original expireEndVersion) the expireEndVersion will be moved back slightly
			// to the begin version of the last log file found (which is also the first log to not be deleted)
			if(f.version < expireEndVersion) {
				toDelete.push_back(std::move(f.fileName));
			}
		}
		ranges.clear();

		for(auto const &f : desc.snapshots) {
			if(f.endVersion < expireEndVersion)
				toDelete.push_back(std::move(f.fileName));
		}
		desc = BackupDescription();

		// We are about to start deleting files, at which point all data prior to expireEndVersion is considered
		// 'unreliable' as some or all of it will be missing.  So before deleting anything, read unreliableEndVersion
		// (don't use cached value in desc) and update its value if it is missing or < expireEndVersion
		if(progress != nullptr) {
			progress->step = "Initial metadata update";
		}
		Optional<Version> metaUnreliableEnd = wait(bc->unreliableEndVersion().get());
		if(metaUnreliableEnd.orDefault(0) < expireEndVersion) {
			wait(bc->unreliableEndVersion().set(expireEndVersion));
		}

		if(progress != nullptr) {
			progress->step = "Deleting files";
			progress->total = toDelete.size();
			progress->done = 0;
		}

		// Delete files, but limit parallelism because the file list could use a lot of memory and the corresponding
		// delete actor states would use even more if they all existed at the same time.
		state std::list<Future<Void>> deleteFutures;

		while(!toDelete.empty() || !deleteFutures.empty()) {

			// While there are files to delete and budget in the deleteFutures list, start a delete
			while(!toDelete.empty() && deleteFutures.size() < CLIENT_KNOBS->BACKUP_CONCURRENT_DELETES) {
				deleteFutures.push_back(bc->deleteFile(toDelete.back()));
				toDelete.pop_back();
			}

			// Wait for deletes to finish until there are only targetDeletesInFlight remaining.
			// If there are no files left to start then this value is 0, otherwise it is one less
			// than the delete concurrency limit.
			state int targetFuturesSize = toDelete.empty() ? 0 : (CLIENT_KNOBS->BACKUP_CONCURRENT_DELETES - 1);

			while(deleteFutures.size() > targetFuturesSize) {
				wait(deleteFutures.front());
				if(progress != nullptr) {
					++progress->done;
				}
				deleteFutures.pop_front();
			}
		}

		if(progress != nullptr) {
			progress->step = "Final metadata update";
			progress->total = 0;
		}
		// Update the expiredEndVersion metadata to indicate that everything prior to that version has been
		// successfully deleted if the current version is lower or missing
		Optional<Version> metaExpiredEnd = wait(bc->expiredEndVersion().get());
		if(metaExpiredEnd.orDefault(0) < expireEndVersion) {
			wait(bc->expiredEndVersion().set(expireEndVersion));
		}

		return Void();
	}

	// Delete all data up to (but not including endVersion)
	Future<Void> expireData(Version expireEndVersion, bool force, ExpireProgress *progress, Version restorableBeginVersion) {
		return expireData_impl(Reference<BackupContainerFileSystem>::addRef(this), expireEndVersion, force, progress, restorableBeginVersion);
	}

	ACTOR static Future<Optional<RestorableFileSet>> getRestoreSet_impl(Reference<BackupContainerFileSystem> bc, Version targetVersion) {
		// Find the most recent keyrange snapshot to end at or before targetVersion
		state Optional<KeyspaceSnapshotFile> snapshot;
		std::vector<KeyspaceSnapshotFile> snapshots = wait(bc->listKeyspaceSnapshots());
		for(auto const &s : snapshots) {
			if(s.endVersion <= targetVersion)
				snapshot = s;
		}

		if(snapshot.present()) {
			state RestorableFileSet restorable;
			restorable.snapshot = snapshot.get();
			restorable.targetVersion = targetVersion;

			std::vector<RangeFile> ranges = wait(bc->readKeyspaceSnapshot(snapshot.get()));
			restorable.ranges = ranges;

			// No logs needed if there is a complete key space snapshot at the target version.
			if(snapshot.get().beginVersion == snapshot.get().endVersion && snapshot.get().endVersion == targetVersion)
				return Optional<RestorableFileSet>(restorable);

			state std::vector<LogFile> logs = wait(bc->listLogFiles(snapshot.get().beginVersion, targetVersion));

			// List logs in version order so log continuity can be analyzed
			std::sort(logs.begin(), logs.end());

			// If there are logs and the first one starts at or before the snapshot begin version then proceed
			if(!logs.empty() && logs.front().beginVersion <= snapshot.get().beginVersion) {
				auto i = logs.begin();
				Version end = i->endVersion;
				restorable.logs.push_back(*i);

				// Add logs to restorable logs set until continuity is broken OR we reach targetVersion
				while(++i != logs.end()) {
					if(i->beginVersion > end || i->beginVersion > targetVersion)
						break;
					// If the next link in the log chain is found, update the end
					if(i->beginVersion == end) {
						restorable.logs.push_back(*i);
						end = i->endVersion;
					}
				}

				if(end >= targetVersion) {
					return Optional<RestorableFileSet>(restorable);
				}
			}
		}

		return Optional<RestorableFileSet>();
	}

	Future<Optional<RestorableFileSet>> getRestoreSet(Version targetVersion){
		return getRestoreSet_impl(Reference<BackupContainerFileSystem>::addRef(this), targetVersion);
	}

private:
	struct VersionProperty {
		VersionProperty(Reference<BackupContainerFileSystem> bc, std::string name) : bc(bc), path("properties/" + name) {}
		Reference<BackupContainerFileSystem> bc;
		std::string path;
		Future<Optional<Version>> get() {
			return readVersionProperty(bc, path);
		}
		Future<Void> set(Version v) {
			return writeVersionProperty(bc, path, v);
		}
		Future<Void> clear() {
			return bc->deleteFile(path);
		}
	};

public:
	// To avoid the need to scan the underyling filesystem in many cases, some important version boundaries are stored in named files.
	// These versions also indicate what version ranges are known to be deleted or partially deleted.
	//
	// The values below describe version ranges as follows:
	//                   0 - expiredEndVersion      All files in this range have been deleted
	//   expiredEndVersion - unreliableEndVersion   Some files in this range may have been deleted.
	//
	//   logBeginVersion   - logEnd                 Log files are contiguous in this range and have NOT been deleted by fdbbackup
	//   logEnd            - infinity               Files in this range may or may not exist yet
	//
	VersionProperty logBeginVersion() { return {Reference<BackupContainerFileSystem>::addRef(this), "log_begin_version"}; }
	VersionProperty logEndVersion() {   return {Reference<BackupContainerFileSystem>::addRef(this), "log_end_version"}; }
	VersionProperty expiredEndVersion() {   return {Reference<BackupContainerFileSystem>::addRef(this), "expired_end_version"}; }
	VersionProperty unreliableEndVersion() {   return {Reference<BackupContainerFileSystem>::addRef(this), "unreliable_end_version"}; }

	ACTOR static Future<Void> writeVersionProperty(Reference<BackupContainerFileSystem> bc, std::string path, Version v) {
		try {
			state Reference<IBackupFile> f = wait(bc->writeFile(path));
			std::string s = format("%lld", v);
			wait(f->append(s.data(), s.size()));
			wait(f->finish());
			return Void();
		} catch(Error &e) {
			TraceEvent(SevWarn, "BackupContainerWritePropertyFailed")
				.error(e)
				.detail("URL", bc->getURL())
				.detail("Path", path);
			throw;
		}
	}

	ACTOR static Future<Optional<Version>> readVersionProperty(Reference<BackupContainerFileSystem> bc, std::string path) {
		try {
			state Reference<IAsyncFile> f = wait(bc->readFile(path));
			state int64_t size = wait(f->size());
			state std::string s;
			s.resize(size);
			int rs = wait(f->read((uint8_t *)s.data(), size, 0));
			Version v;
			int len;
			if(rs == size && sscanf(s.c_str(), "%lld%n", &v, &len) == 1 && len == size)
				return v;

			TraceEvent(SevWarn, "BackupContainerInvalidProperty")
				.detail("URL", bc->getURL())
				.detail("Path", path);

			throw backup_invalid_info();
		} catch(Error &e) {
			if(e.code() == error_code_file_not_found)
				return Optional<Version>();

			TraceEvent(SevWarn, "BackupContainerReadPropertyFailed")
				.error(e)
				.detail("URL", bc->getURL())
				.detail("Path", path);

			throw;
		}
	}
};

class BackupContainerLocalDirectory : public BackupContainerFileSystem, ReferenceCounted<BackupContainerLocalDirectory> {
public:
	void addref() { return ReferenceCounted<BackupContainerLocalDirectory>::addref(); }
	void delref() { return ReferenceCounted<BackupContainerLocalDirectory>::delref(); }

	static std::string getURLFormat() { return "file://</path/to/base/dir/>"; }

	BackupContainerLocalDirectory(std::string url) {
		std::string path;
		if(url.find("file://") != 0) {
			TraceEvent(SevWarn, "BackupContainerLocalDirectory").detail("Description", "Invalid URL for BackupContainerLocalDirectory").detail("URL", url);
		}

		path = url.substr(7);
		// Remove trailing slashes on path
		path.erase(path.find_last_not_of("\\/") + 1);

		if(!g_network->isSimulated() && path != abspath(path)) {
			TraceEvent(SevWarn, "BackupContainerLocalDirectory").detail("Description", "Backup path must be absolute (e.g. file:///some/path)").detail("URL", url).detail("Path", path);
			throw io_error();
		}

		// Finalized path written to will be will be <path>/backup-<uid>
		m_path = path;
	}

	static Future<std::vector<std::string>> listURLs(std::string url) {
		std::string path;
		if(url.find("file://") != 0) {
			TraceEvent(SevWarn, "BackupContainerLocalDirectory").detail("Description", "Invalid URL for BackupContainerLocalDirectory").detail("URL", url);
		}

		path = url.substr(7);
		// Remove trailing slashes on path
		path.erase(path.find_last_not_of("\\/") + 1);

		if(!g_network->isSimulated() && path != abspath(path)) {
			TraceEvent(SevWarn, "BackupContainerLocalDirectory").detail("Description", "Backup path must be absolute (e.g. file:///some/path)").detail("URL", url).detail("Path", path);
			throw io_error();
		}
		std::vector<std::string> dirs = platform::listDirectories(path);
		std::vector<std::string> results;

		for(auto &r : dirs) {
			if(r == "." || r == "..")
				continue;
			results.push_back(std::string("file://") + joinPath(path, r));
		}

		return results;
	}

	Future<Void> create() {
		// Nothing should be done here because create() can be called by any process working with the container URL, such as fdbbackup.
		// Since "local directory" containers are by definition local to the machine they are accessed from,
		// the container's creation (in this case the creation of a directory) must be ensured prior to every file creation,
		// which is done in openFile().
		// Creating the directory here will result in unnecessary directories being created on machines that run fdbbackup but not agents.
		return Void();
	}

	// The container exists if the folder it resides in exists
	Future<bool> exists() {
		return directoryExists(m_path);
	}

	Future<Reference<IAsyncFile>> readFile(std::string path) {
		int flags = IAsyncFile::OPEN_NO_AIO | IAsyncFile::OPEN_READONLY | IAsyncFile::OPEN_UNCACHED;
		// Simulation does not properly handle opening the same file from multiple machines using a shared filesystem,
		// so create a symbolic link to make each file opening appear to be unique.  This could also work in production
		// but only if the source directory is writeable which shouldn't be required for a restore.
		std::string fullPath = joinPath(m_path, path);
		#ifndef _WIN32
		if(g_network->isSimulated()) {
			if(!fileExists(fullPath))
				throw file_not_found();
			std::string uniquePath = fullPath + "." + g_random->randomUniqueID().toString() + ".lnk";
			unlink(uniquePath.c_str());
			ASSERT(symlink(basename(path).c_str(), uniquePath.c_str()) == 0);
			fullPath = uniquePath = uniquePath;
		}
		// Opening cached mode forces read/write mode at a lower level, overriding the readonly request.  So cached mode
		// can't be used because backup files are read-only.  Cached mode can only help during restore task retries handled
		// by the same process that failed the first task execution anyway, which is a very rare case.
		#endif
		return IAsyncFileSystem::filesystem()->open(fullPath, flags, 0644);
	}

	class BackupFile : public IBackupFile, ReferenceCounted<BackupFile> {
	public:
		BackupFile(std::string fileName, Reference<IAsyncFile> file, std::string finalFullPath) : IBackupFile(fileName), m_file(file), m_finalFullPath(finalFullPath) {}

		Future<Void> append(const void *data, int len) {
			Future<Void> r = m_file->write(data, len, m_offset);
			m_offset += len;
			return r;
		}

		ACTOR static Future<Void> finish_impl(Reference<BackupFile> f) {
			wait(f->m_file->truncate(f->size()));  // Some IAsyncFile implementations extend in whole block sizes.
			wait(f->m_file->sync());
			std::string name = f->m_file->getFilename();
			f->m_file.clear();
			renameFile(name, f->m_finalFullPath);
			return Void();
		}

		Future<Void> finish() {
			return finish_impl(Reference<BackupFile>::addRef(this));
		}

		void addref() { return ReferenceCounted<BackupFile>::addref(); }
		void delref() { return ReferenceCounted<BackupFile>::delref(); }

	private:
		Reference<IAsyncFile> m_file;
		std::string m_finalFullPath;
	};

	Future<Reference<IBackupFile>> writeFile(std::string path) {
		int flags = IAsyncFile::OPEN_NO_AIO | IAsyncFile::OPEN_CREATE | IAsyncFile::OPEN_ATOMIC_WRITE_AND_CREATE | IAsyncFile::OPEN_READWRITE;
		std::string fullPath = joinPath(m_path, path);
		platform::createDirectory(parentDirectory(fullPath));
		std::string temp = fullPath  + "." + g_random->randomUniqueID().toString() + ".temp";
		Future<Reference<IAsyncFile>> f = IAsyncFileSystem::filesystem()->open(temp, flags, 0644);
		return map(f, [=](Reference<IAsyncFile> f) {
			return Reference<IBackupFile>(new BackupFile(path, f, fullPath));
		});
	}

	Future<Void> deleteFile(std::string path) {
		::deleteFile(joinPath(m_path, path));
		return Void();
	}

	Future<FilesAndSizesT> listFiles(std::string path, std::function<bool(std::string const &)>) {
		FilesAndSizesT results;

		std::vector<std::string> files;
		platform::findFilesRecursively(joinPath(m_path, path), files);

		// Remove .lnk files from results, they are a side effect of a backup that was *read* during simulation.  See openFile() above for more info on why they are created.
		if(g_network->isSimulated())
			files.erase(std::remove_if(files.begin(), files.end(), [](std::string const &f) { return StringRef(f).endsWith(LiteralStringRef(".lnk")); }), files.end());

		for(auto &f : files) {
			// Hide .part or .temp files.
			StringRef s(f);
			if(!s.endsWith(LiteralStringRef(".part")) && !s.endsWith(LiteralStringRef(".temp")))
				results.push_back({f.substr(m_path.size() + 1), ::fileSize(f)});
		}

		return results;
	}

	Future<Void> deleteContainer(int *pNumDeleted) {
		// In order to avoid deleting some random directory due to user error, first describe the backup
		// and make sure it has something in it.
		return map(describeBackup(false, invalidVersion), [=](BackupDescription const &desc) {
			// If the backup has no snapshots and no logs then it's probably not a valid backup
			if(desc.snapshots.size() == 0 && !desc.minLogBegin.present())
				throw backup_invalid_url();

			int count = platform::eraseDirectoryRecursive(m_path);
			if(pNumDeleted != nullptr)
				*pNumDeleted = count;

			return Void();
		});
	}

private:
	std::string m_path;
};

class BackupContainerBlobStore : public BackupContainerFileSystem, ReferenceCounted<BackupContainerBlobStore> {
private:
	// Backup files to under a single folder prefix with subfolders for each named backup
	static const std::string DATAFOLDER;

	// Indexfolder contains keys for which user-named backups exist.  Backup names can contain an arbitrary
	// number of slashes so the backup names are kept in a separate folder tree from their actual data.
	static const std::string INDEXFOLDER;

	Reference<BlobStoreEndpoint> m_bstore;
	std::string m_name;

	// All backup data goes into a single bucket
	std::string m_bucket;

	std::string dataPath(const std::string path) {
		return DATAFOLDER + "/" + m_name + "/" + path;
	}

	// Get the path of the backups's index entry
	std::string indexEntry() {
		return INDEXFOLDER + "/" + m_name;
	}

public:
	BackupContainerBlobStore(Reference<BlobStoreEndpoint> bstore, std::string name, const BlobStoreEndpoint::ParametersT &params)
	  : m_bstore(bstore), m_name(name), m_bucket("FDB_BACKUPS_V2") {

		// Currently only one parameter is supported, "bucket"
		for(auto &kv : params) {
			if(kv.first == "bucket") {
				m_bucket = kv.second;
				continue;
			}
			TraceEvent(SevWarn, "BackupContainerBlobStoreInvalidParameter").detail("Name", printable(kv.first)).detail("Value", printable(kv.second));
			throw backup_invalid_url();
		}
	}

	void addref() { return ReferenceCounted<BackupContainerBlobStore>::addref(); }
	void delref() { return ReferenceCounted<BackupContainerBlobStore>::delref(); }

	static std::string getURLFormat() {
		return BlobStoreEndpoint::getURLFormat(true) + " (Note: The 'bucket' parameter is required.)";
	}

	virtual ~BackupContainerBlobStore() {}

	Future<Reference<IAsyncFile>> readFile(std::string path) {
			return Reference<IAsyncFile>(
				new AsyncFileReadAheadCache(
					Reference<IAsyncFile>(new AsyncFileBlobStoreRead(m_bstore, m_bucket, dataPath(path))),
					m_bstore->knobs.read_block_size,
					m_bstore->knobs.read_ahead_blocks,
					m_bstore->knobs.concurrent_reads_per_file,
					m_bstore->knobs.read_cache_blocks_per_file
				)
			);
	}

	ACTOR static Future<std::vector<std::string>> listURLs(Reference<BlobStoreEndpoint> bstore, std::string bucket) {
		state std::string basePath = INDEXFOLDER + '/';
		BlobStoreEndpoint::ListResult contents = wait(bstore->listBucket(bucket, basePath));
		std::vector<std::string> results;
		for(auto &f : contents.objects) {
			results.push_back(bstore->getResourceURL(f.name.substr(basePath.size())));
		}
		return results;
	}

	class BackupFile : public IBackupFile, ReferenceCounted<BackupFile> {
	public:
		BackupFile(std::string fileName, Reference<IAsyncFile> file) : IBackupFile(fileName), m_file(file) {}

		Future<Void> append(const void *data, int len) {
			Future<Void> r = m_file->write(data, len, m_offset);
			m_offset += len;
			return r;
		}

		Future<Void> finish() {
			Reference<BackupFile> self = Reference<BackupFile>::addRef(this);
			return map(m_file->sync(), [=](Void _) { self->m_file.clear(); return Void(); });
		}

		void addref() { return ReferenceCounted<BackupFile>::addref(); }
		void delref() { return ReferenceCounted<BackupFile>::delref(); }
	private:
		Reference<IAsyncFile> m_file;
	};

	Future<Reference<IBackupFile>> writeFile(std::string path) {
		return Reference<IBackupFile>(new BackupFile(path, Reference<IAsyncFile>(new AsyncFileBlobStoreWrite(m_bstore, m_bucket, dataPath(path)))));
	}

	Future<Void> deleteFile(std::string path) {
		return m_bstore->deleteObject(m_bucket, dataPath(path));
	}

	ACTOR static Future<FilesAndSizesT> listFiles_impl(Reference<BackupContainerBlobStore> bc, std::string path, std::function<bool(std::string const &)> pathFilter) {
		// pathFilter expects container based paths, so create a wrapper which converts a raw path
		// to a container path by removing the known backup name prefix.
		state int prefixTrim = bc->dataPath("").size();
		std::function<bool(std::string const &)> rawPathFilter = [=](const std::string &folderPath) {
			ASSERT(folderPath.size() >= prefixTrim);
			return pathFilter(folderPath.substr(prefixTrim));
		};

		state BlobStoreEndpoint::ListResult result = wait(bc->m_bstore->listBucket(bc->m_bucket, bc->dataPath(path), '/', std::numeric_limits<int>::max(), rawPathFilter));
		FilesAndSizesT files;
		for(auto &o : result.objects) {
			ASSERT(o.name.size() >= prefixTrim);
			files.push_back({o.name.substr(prefixTrim), o.size});
		}
		return files;
	}

	Future<FilesAndSizesT> listFiles(std::string path, std::function<bool(std::string const &)> pathFilter) {
		return listFiles_impl(Reference<BackupContainerBlobStore>::addRef(this), path, pathFilter);
	}

	ACTOR static Future<Void> create_impl(Reference<BackupContainerBlobStore> bc) {
		wait(bc->m_bstore->createBucket(bc->m_bucket));

		// Check/create the index entry
		bool exists = wait(bc->m_bstore->objectExists(bc->m_bucket, bc->indexEntry()));
		if(!exists) {
			wait(bc->m_bstore->writeEntireFile(bc->m_bucket, bc->indexEntry(), ""));
		}

		return Void();
	}

	Future<Void> create() {
		return create_impl(Reference<BackupContainerBlobStore>::addRef(this));
	}

	// The container exists if the index entry in the blob bucket exists
	Future<bool> exists() {
		return m_bstore->objectExists(m_bucket, indexEntry());
	}

	ACTOR static Future<Void> deleteContainer_impl(Reference<BackupContainerBlobStore> bc, int *pNumDeleted) {
		bool e = wait(bc->exists());
		if(!e) {
			TraceEvent(SevWarnAlways, "BackupContainerDoesNotExist").detail("URL", bc->getURL());
			throw backup_does_not_exist();
		}

		// First delete everything under the data prefix in the bucket
		wait(bc->m_bstore->deleteRecursively(bc->m_bucket, bc->dataPath(""), pNumDeleted));

		// Now that all files are deleted, delete the index entry
		wait(bc->m_bstore->deleteObject(bc->m_bucket, bc->indexEntry()));

		return Void();
	}

	Future<Void> deleteContainer(int *pNumDeleted) {
		return deleteContainer_impl(Reference<BackupContainerBlobStore>::addRef(this), pNumDeleted);
	}

	std::string getBucket() const {
		return m_bucket;
	}
};

const std::string BackupContainerBlobStore::DATAFOLDER = "data";
const std::string BackupContainerBlobStore::INDEXFOLDER = "backups";

std::string IBackupContainer::lastOpenError;

std::vector<std::string> IBackupContainer::getURLFormats() {
	std::vector<std::string> formats;
	formats.push_back(BackupContainerLocalDirectory::getURLFormat());
	formats.push_back(BackupContainerBlobStore::getURLFormat());
	return formats;
}

// Get an IBackupContainer based on a container URL string
Reference<IBackupContainer> IBackupContainer::openContainer(std::string url)
{
	static std::map<std::string, Reference<IBackupContainer>> m_cache;

	Reference<IBackupContainer> &r = m_cache[url];
	if(r)
		return r;

	try {
		StringRef u(url);
		if(u.startsWith(LiteralStringRef("file://")))
			r = Reference<IBackupContainer>(new BackupContainerLocalDirectory(url));
		else if(u.startsWith(LiteralStringRef("blobstore://"))) {
			std::string resource;

			// The URL parameters contain blobstore endpoint tunables as well as possible backup-specific options.
			BlobStoreEndpoint::ParametersT backupParams;
			Reference<BlobStoreEndpoint> bstore = BlobStoreEndpoint::fromString(url, &resource, &lastOpenError, &backupParams);

			if(resource.empty())
				throw backup_invalid_url();
			for(auto c : resource)
				if(!isalnum(c) && c != '_' && c != '-' && c != '.' && c != '/')
					throw backup_invalid_url();
			r = Reference<IBackupContainer>(new BackupContainerBlobStore(bstore, resource, backupParams));
		}
		else {
			lastOpenError = "invalid URL prefix";
			throw backup_invalid_url();
		}

		r->URL = url;
		return r;
	} catch(Error &e) {
		if(e.code() == error_code_actor_cancelled)
			throw;

		TraceEvent m(SevWarn, "BackupContainer");
		m.detail("Description", "Invalid container specification.  See help.");
		m.detail("URL", url);
		m.error(e);
		if(e.code() == error_code_backup_invalid_url)
			m.detail("LastOpenError", lastOpenError);

		throw;
	}
}

// Get a list of URLS to backup containers based on some a shorter URL.  This function knows about some set of supported
// URL types which support this sort of backup discovery.
ACTOR Future<std::vector<std::string>> listContainers_impl(std::string baseURL) {
	try {
		StringRef u(baseURL);
		if(u.startsWith(LiteralStringRef("file://"))) {
			std::vector<std::string> results = wait(BackupContainerLocalDirectory::listURLs(baseURL));
			return results;
		}
		else if(u.startsWith(LiteralStringRef("blobstore://"))) {
			std::string resource;

			BlobStoreEndpoint::ParametersT backupParams;
			Reference<BlobStoreEndpoint> bstore = BlobStoreEndpoint::fromString(baseURL, &resource, &IBackupContainer::lastOpenError, &backupParams);

			if(!resource.empty()) {
				TraceEvent(SevWarn, "BackupContainer").detail("Description", "Invalid backup container base URL, resource aka path should be blank.").detail("URL", baseURL);
				throw backup_invalid_url();
			}

			// Create a dummy container to parse the backup-specific parameters from the URL and get a final bucket name
			BackupContainerBlobStore dummy(bstore, "dummy", backupParams);

			std::vector<std::string> results = wait(BackupContainerBlobStore::listURLs(bstore, dummy.getBucket()));
			return results;
		}
		else {
			IBackupContainer::lastOpenError = "invalid URL prefix";
			throw backup_invalid_url();
		}

	} catch(Error &e) {
		if(e.code() == error_code_actor_cancelled)
			throw;

		TraceEvent m(SevWarn, "BackupContainer");
		
		m.detail("Description", "Invalid backup container URL prefix.  See help.");
		m.detail("URL", baseURL);
		m.error(e);
		if(e.code() == error_code_backup_invalid_url)
			m.detail("LastOpenError", IBackupContainer::lastOpenError);

		throw;
	}
}

Future<std::vector<std::string>> IBackupContainer::listContainers(std::string baseURL) {
	return listContainers_impl(baseURL);
}

ACTOR Future<Version> timeKeeperVersionFromDatetime(std::string datetime, Database db) {
	state KeyBackedMap<int64_t, Version> versionMap(timeKeeperPrefixRange.begin);
	state Reference<ReadYourWritesTransaction> tr = Reference<ReadYourWritesTransaction>(new ReadYourWritesTransaction(db));

	int year, month, day, hour, minute, second;
	if (sscanf(datetime.c_str(), "%d-%d-%d.%d:%d:%d", &year, &month, &day, &hour, &minute, &second) != 6) {
		fprintf(stderr, "ERROR: Incorrect date/time format.\n");
		throw backup_error();
	}
	struct tm expDateTime = {0};
	expDateTime.tm_year = year - 1900;
	expDateTime.tm_mon = month - 1;
	expDateTime.tm_mday = day;
	expDateTime.tm_hour = hour;
	expDateTime.tm_min = minute;
	expDateTime.tm_sec = second;
	expDateTime.tm_isdst = -1;
	state int64_t time = (int64_t) mktime(&expDateTime);

	loop {
		try {
			tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
			tr->setOption(FDBTransactionOptions::LOCK_AWARE);
			state std::vector<std::pair<int64_t, Version>> results = wait( versionMap.getRange(tr, 0, time, 1, false, true) );
			if (results.size() != 1) {
				// No key less than time was found in the database
				// Look for a key >= time.
				wait( store( results, versionMap.getRange(tr, time, std::numeric_limits<int64_t>::max(), 1) ) );

				if(results.size() != 1) {
					fprintf(stderr, "ERROR: Unable to calculate a version for given date/time.\n");
					throw backup_error();
				}
			}

			// Adjust version found by the delta between time and the time found and min with 0.
			auto &result = results[0];
			return std::max<Version>(0, result.second + (time - result.first) * CLIENT_KNOBS->CORE_VERSIONSPERSECOND);

		} catch (Error& e) {
			wait(tr->onError(e));
		}
	}
}

ACTOR Future<Optional<int64_t>> timeKeeperEpochsFromVersion(Version v, Reference<ReadYourWritesTransaction> tr) {
	state KeyBackedMap<int64_t, Version> versionMap(timeKeeperPrefixRange.begin);

	// Binary search to find the closest date with a version <= v
	state int64_t min = 0;
	state int64_t max = (int64_t)now();
	state int64_t mid;
	state std::pair<int64_t, Version> found;

	tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
	tr->setOption(FDBTransactionOptions::LOCK_AWARE);

	loop {
		mid = (min + max + 1) / 2;  // ceiling

		// Find the highest time < mid
		state std::vector<std::pair<int64_t, Version>> results = wait( versionMap.getRange(tr, min, mid, 1, false, true) );

		if (results.size() != 1) {
			if(mid == min) {
				// There aren't any records having a version < v, so just look for any record having a time < now
				// and base a result on it
				wait(store(results, versionMap.getRange(tr, 0, (int64_t)now(), 1)));

				if (results.size() != 1) {
					// There aren't any timekeeper records to base a result on so return nothing
					return Optional<int64_t>();
				}

				found = results[0];
				break;
			}

			min = mid;
			continue;
		}

		found = results[0];

		if(v < found.second) {
			max = found.first;
		}
		else {
			if(found.first == min) {
				break;
			}
			min = found.first;
		}
	}

	return found.first + (v - found.second) / CLIENT_KNOBS->CORE_VERSIONSPERSECOND;
}

int chooseFileSize(std::vector<int> &sizes) {
	int size = 1000;
	if(!sizes.empty()) {
		size = sizes.back();
		sizes.pop_back();
	}
	return size;
}

ACTOR Future<Void> writeAndVerifyFile(Reference<IBackupContainer> c, Reference<IBackupFile> f, int size) {
	state Standalone<StringRef> content;
	if(size > 0) {
		content = makeString(size);
		for(int i = 0; i < content.size(); ++i)
			mutateString(content)[i] = (uint8_t)g_random->randomInt(0, 256);

		wait(f->append(content.begin(), content.size()));
	}
	wait(f->finish());
	state Reference<IAsyncFile> inputFile = wait(c->readFile(f->getFileName()));
	int64_t fileSize = wait(inputFile->size());
	ASSERT(size == fileSize);
	if(size > 0) {
		state Standalone<StringRef> buf = makeString(size);
		int b = wait(inputFile->read(mutateString(buf), buf.size(), 0));
		ASSERT(b == buf.size());
		ASSERT(buf == content);
	}
	return Void();
}

// Randomly advance version by up to 1 second of versions
Version nextVersion(Version v) {
	int64_t increment = g_random->randomInt64(1, CLIENT_KNOBS->CORE_VERSIONSPERSECOND);
	return v + increment;
}

ACTOR Future<Void> testBackupContainer(std::string url) {
	printf("BackupContainerTest URL %s\n", url.c_str());

	state Reference<IBackupContainer> c = IBackupContainer::openContainer(url);

	// Make sure container doesn't exist, then create it.
	try {
		wait(c->deleteContainer());
	} catch(Error &e) {
		if(e.code() != error_code_backup_invalid_url && e.code() != error_code_backup_does_not_exist)
			throw;
	}

	wait(c->create());

	state std::vector<Future<Void>> writes;
	state std::map<Version, std::vector<std::string>> snapshots;
	state std::map<Version, int64_t> snapshotSizes;
	state int nRangeFiles = 0;
	state std::map<Version, std::string> logs;
	state Version v = g_random->randomInt64(0, std::numeric_limits<Version>::max() / 2);

	// List of sizes to use to test edge cases on underlying file implementations
	state std::vector<int> fileSizes = {0, 10000000, 5000005};

	loop {
		state Version logStart = v;
		state int kvfiles = g_random->randomInt(0, 3);

		while(kvfiles > 0) {
			if(snapshots.empty()) {
				snapshots[v] = {};
				snapshotSizes[v] = 0;
				if(g_random->coinflip()) {
					v = nextVersion(v);
				}
			}
			Reference<IBackupFile> range = wait(c->writeRangeFile(snapshots.rbegin()->first, 0, v, 10));
			++nRangeFiles;
			v = nextVersion(v);
			snapshots.rbegin()->second.push_back(range->getFileName());

			int size = chooseFileSize(fileSizes);
			snapshotSizes.rbegin()->second += size;
			writes.push_back(writeAndVerifyFile(c, range, size));

			if(g_random->random01() < .2) {
				writes.push_back(c->writeKeyspaceSnapshotFile(snapshots.rbegin()->second, snapshotSizes.rbegin()->second));
				snapshots[v] = {};
				snapshotSizes[v] = 0;
				break;
			}

			--kvfiles;
		}

		if(logStart == v || g_random->coinflip()) {
			v = nextVersion(v);
		}
		state Reference<IBackupFile> log = wait(c->writeLogFile(logStart, v, 10));
		logs[logStart] = log->getFileName();
		int size = chooseFileSize(fileSizes);
		writes.push_back(writeAndVerifyFile(c, log, size));

		// Randomly stop after a snapshot has finished and all manually seeded file sizes have been used.
		if(fileSizes.empty() && !snapshots.empty() && snapshots.rbegin()->second.empty() && g_random->random01() < .2) {
			snapshots.erase(snapshots.rbegin()->first);
			break;
		}
	}

	wait(waitForAll(writes));

	state BackupFileList listing = wait(c->dumpFileList());
	ASSERT(listing.ranges.size() == nRangeFiles);
	ASSERT(listing.logs.size() == logs.size());
	ASSERT(listing.snapshots.size() == snapshots.size());

	state BackupDescription desc = wait(c->describeBackup());
	printf("\n%s\n", desc.toString().c_str());

	// Do a series of expirations and verify resulting state
	state int i = 0;
	for(; i < listing.snapshots.size(); ++i) {
		// Ensure we can still restore to the latest version
		Optional<RestorableFileSet> rest = wait(c->getRestoreSet(desc.maxRestorableVersion.get()));
		ASSERT(rest.present());

		// Ensure we can restore to the end version of snapshot i
		Optional<RestorableFileSet> rest = wait(c->getRestoreSet(listing.snapshots[i].endVersion));
		ASSERT(rest.present());

		// Test expiring to the end of this snapshot
		state Version expireVersion = listing.snapshots[i].endVersion;

		// Expire everything up to but not including the snapshot end version
		printf("EXPIRE TO %lld\n", expireVersion);
		state Future<Void> f = c->expireData(expireVersion);
		wait(ready(f));

		// If there is an error, it must be backup_cannot_expire and we have to be on the last snapshot
		if(f.isError()) {
			ASSERT(f.getError().code() == error_code_backup_cannot_expire);
			ASSERT(i == listing.snapshots.size() - 1);
			wait(c->expireData(expireVersion, true));
		}

		BackupDescription d = wait(c->describeBackup());
		printf("\n%s\n", d.toString().c_str());
	}

	printf("DELETING\n");
	wait(c->deleteContainer());

	state Future<BackupDescription> d = c->describeBackup();
	wait(ready(d));
	ASSERT(d.isError() && d.getError().code() == error_code_backup_does_not_exist);

	BackupFileList empty = wait(c->dumpFileList());
	ASSERT(empty.ranges.size() == 0);
	ASSERT(empty.logs.size() == 0);
	ASSERT(empty.snapshots.size() == 0);

	printf("BackupContainerTest URL=%s PASSED.\n", url.c_str());

	return Void();
}

TEST_CASE("/backup/containers/localdir") {
	if(g_network->isSimulated())
		wait(testBackupContainer(format("file://simfdb/backups/%llx", timer_int())));
	else
		wait(testBackupContainer(format("file:///private/tmp/fdb_backups/%llx", timer_int())));
	return Void();
};

TEST_CASE("/backup/containers/url") {
	if (!g_network->isSimulated()) {
		const char *url = getenv("FDB_TEST_BACKUP_URL");
		ASSERT(url != nullptr);
		wait(testBackupContainer(url));
	}
	return Void();
};

TEST_CASE("/backup/containers_list") {
	if (!g_network->isSimulated()) {
		state const char *url = getenv("FDB_TEST_BACKUP_URL");
		ASSERT(url != nullptr);
		printf("Listing %s\n", url);
		std::vector<std::string> urls = wait(IBackupContainer::listContainers(url));
		for(auto &u : urls) {
			printf("%s\n", u.c_str());
		}
	}
	return Void();
};