foundationdb/fdbclient/BackupContainerLocalDirecto...

309 lines
11 KiB
C++

/*
* BackupContainerLocalDirectory.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/BackupContainerLocalDirectory.h"
#include "fdbrpc/AsyncFileReadAhead.actor.h"
#include "fdbrpc/IAsyncFile.h"
#include "flow/Platform.actor.h"
#include "flow/Platform.h"
#include "fdbrpc/simulator.h"
#include "flow/actorcompiler.h" // This must be the last #include.
namespace {
class BackupFile : public IBackupFile, ReferenceCounted<BackupFile> {
public:
BackupFile(const std::string& fileName, Reference<IAsyncFile> file, const std::string& finalFullPath)
: IBackupFile(fileName), m_file(file), m_writeOffset(0), m_finalFullPath(finalFullPath),
m_blockSize(CLIENT_KNOBS->BACKUP_LOCAL_FILE_WRITE_BLOCK) {
if (BUGGIFY) {
m_blockSize = deterministicRandom()->randomInt(100, 20000);
}
m_buffer.reserve(m_buffer.arena(), m_blockSize);
}
Future<Void> append(const void* data, int len) override {
m_buffer.append(m_buffer.arena(), (const uint8_t*)data, len);
if (m_buffer.size() >= m_blockSize) {
return flush(m_blockSize);
}
return Void();
}
Future<Void> flush(int size) {
// Avoid empty write
if (size == 0) {
return Void();
}
ASSERT(size <= m_buffer.size());
// Keep a reference to the old buffer
Standalone<VectorRef<uint8_t>> old = m_buffer;
// Make a new buffer, initialized with the excess bytes over the block size from the old buffer
m_buffer = Standalone<VectorRef<uint8_t>>(old.slice(size, old.size()));
// Write the old buffer to the underlying file and update the write offset
Future<Void> r = holdWhile(old, m_file->write(old.begin(), size, m_writeOffset));
m_writeOffset += size;
return r;
}
ACTOR static Future<Void> finish_impl(Reference<BackupFile> f) {
wait(f->flush(f->m_buffer.size()));
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();
wait(IAsyncFileSystem::filesystem()->renameFile(name, f->m_finalFullPath));
return Void();
}
int64_t size() const override { return m_buffer.size() + m_writeOffset; }
Future<Void> finish() override { return finish_impl(Reference<BackupFile>::addRef(this)); }
void addref() override { return ReferenceCounted<BackupFile>::addref(); }
void delref() override { return ReferenceCounted<BackupFile>::delref(); }
private:
Reference<IAsyncFile> m_file;
Standalone<VectorRef<uint8_t>> m_buffer;
int64_t m_writeOffset;
std::string m_finalFullPath;
int m_blockSize;
};
ACTOR static Future<BackupContainerFileSystem::FilesAndSizesT> listFiles_impl(std::string path, std::string m_path) {
state std::vector<std::string> files;
wait(platform::findFilesRecursivelyAsync(joinPath(m_path, path), &files));
BackupContainerFileSystem::FilesAndSizesT results;
// 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 (const 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;
}
} // namespace
void BackupContainerLocalDirectory::addref() {
return ReferenceCounted<BackupContainerLocalDirectory>::addref();
}
void BackupContainerLocalDirectory::delref() {
return ReferenceCounted<BackupContainerLocalDirectory>::delref();
}
std::string BackupContainerLocalDirectory::getURLFormat() {
return "file://</path/to/base/dir/>";
}
BackupContainerLocalDirectory::BackupContainerLocalDirectory(const std::string& url,
const Optional<std::string>& encryptionKeyFileName) {
setEncryptionKey(encryptionKeyFileName);
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);
std::string absolutePath = abspath(path);
if (!g_network->isSimulated() && path != absolutePath) {
TraceEvent(SevWarn, "BackupContainerLocalDirectory")
.detail("Description", "Backup path must be absolute (e.g. file:///some/path)")
.detail("URL", url)
.detail("Path", path)
.detail("AbsolutePath", absolutePath);
// throw io_error();
IBackupContainer::lastOpenError =
format("Backup path '%s' must be the absolute path '%s'", path.c_str(), absolutePath.c_str());
throw backup_invalid_url();
}
// Finalized path written to will be will be <path>/backup-<uid>
m_path = path;
}
Future<std::vector<std::string>> BackupContainerLocalDirectory::listURLs(const 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 (const auto& r : dirs) {
if (r == "." || r == "..")
continue;
results.push_back(std::string("file://") + joinPath(path, r));
}
return results;
}
Future<Void> BackupContainerLocalDirectory::create() {
if (usesEncryption()) {
return encryptionSetupComplete();
}
// No directory should be created 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();
}
Future<bool> BackupContainerLocalDirectory::exists() {
return directoryExists(m_path);
}
Future<Reference<IAsyncFile>> BackupContainerLocalDirectory::readFile(const std::string& path) {
int flags = IAsyncFile::OPEN_NO_AIO | IAsyncFile::OPEN_READONLY | IAsyncFile::OPEN_UNCACHED;
if (usesEncryption()) {
flags |= IAsyncFile::OPEN_ENCRYPTED;
}
// 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();
}
if (g_simulator.getCurrentProcess()->uid == UID()) {
TraceEvent(SevError, "BackupContainerReadFileOnUnsetProcessID").log();
}
std::string uniquePath = fullPath + "." + g_simulator.getCurrentProcess()->uid.toString() + ".lnk";
unlink(uniquePath.c_str());
ASSERT(symlink(basename(path).c_str(), uniquePath.c_str()) == 0);
fullPath = 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
Future<Reference<IAsyncFile>> f = IAsyncFileSystem::filesystem()->open(fullPath, flags, 0644);
if (g_network->isSimulated()) {
int blockSize = 0;
// Extract block size from the filename, if present
size_t lastComma = path.find_last_of(',');
if (lastComma != path.npos) {
blockSize = atoi(path.substr(lastComma + 1).c_str());
}
if (blockSize <= 0) {
blockSize = deterministicRandom()->randomInt(1e4, 1e6);
}
if (deterministicRandom()->random01() < .01) {
blockSize /= deterministicRandom()->randomInt(1, 3);
}
ASSERT(blockSize > 0);
return map(f, [=](Reference<IAsyncFile> fr) {
int readAhead = deterministicRandom()->randomInt(0, 3);
int reads = deterministicRandom()->randomInt(1, 3);
int cacheSize = deterministicRandom()->randomInt(0, 3);
return Reference<IAsyncFile>(new AsyncFileReadAheadCache(fr, blockSize, readAhead, reads, cacheSize));
});
}
return f;
}
Future<Reference<IBackupFile>> BackupContainerLocalDirectory::writeFile(const std::string& path) {
int flags = IAsyncFile::OPEN_NO_AIO | IAsyncFile::OPEN_UNCACHED | IAsyncFile::OPEN_CREATE |
IAsyncFile::OPEN_ATOMIC_WRITE_AND_CREATE | IAsyncFile::OPEN_READWRITE;
if (usesEncryption()) {
flags |= IAsyncFile::OPEN_ENCRYPTED;
}
std::string fullPath = joinPath(m_path, path);
platform::createDirectory(parentDirectory(fullPath));
std::string temp = fullPath + "." + deterministicRandom()->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> BackupContainerLocalDirectory::deleteFile(const std::string& path) {
::deleteFile(joinPath(m_path, path));
return Void();
}
Future<BackupContainerFileSystem::FilesAndSizesT> BackupContainerLocalDirectory::listFiles(
const std::string& path,
std::function<bool(std::string const&)>) {
return listFiles_impl(path, m_path);
}
Future<Void> BackupContainerLocalDirectory::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();
});
}