foundationdb/fdbclient/BackupContainerAzureBlobSto...

300 lines
12 KiB
C++

/*
* BackupContainerAzureBlobStore.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/BackupContainerAzureBlobStore.h"
#include "flow/actorcompiler.h" // This must be the last #include.
class BackupContainerAzureBlobStoreImpl {
public:
using AzureClient = azure::storage_lite::blob_client;
class ReadFile final : public IAsyncFile, ReferenceCounted<ReadFile> {
AsyncTaskThread& asyncTaskThread;
std::string containerName;
std::string blobName;
AzureClient* client;
public:
ReadFile(AsyncTaskThread& asyncTaskThread,
const std::string& containerName,
const std::string& blobName,
AzureClient* client)
: asyncTaskThread(asyncTaskThread), containerName(containerName), blobName(blobName), client(client) {}
void addref() override { ReferenceCounted<ReadFile>::addref(); }
void delref() override { ReferenceCounted<ReadFile>::delref(); }
Future<int> read(void* data, int length, int64_t offset) {
return asyncTaskThread.execAsync([client = this->client,
containerName = this->containerName,
blobName = this->blobName,
data,
length,
offset] {
std::ostringstream oss(std::ios::out | std::ios::binary);
client->download_blob_to_stream(containerName, blobName, offset, length, oss);
auto str = std::move(oss).str();
memcpy(data, str.c_str(), str.size());
return static_cast<int>(str.size());
});
}
Future<Void> zeroRange(int64_t offset, int64_t length) override { throw file_not_writable(); }
Future<Void> write(void const* data, int length, int64_t offset) override { throw file_not_writable(); }
Future<Void> truncate(int64_t size) override { throw file_not_writable(); }
Future<Void> sync() override { throw file_not_writable(); }
Future<int64_t> size() const override {
return asyncTaskThread.execAsync([client = this->client,
containerName = this->containerName,
blobName = this->blobName] {
return static_cast<int64_t>(client->get_blob_properties(containerName, blobName).get().response().size);
});
}
std::string getFilename() const override { return blobName; }
int64_t debugFD() const override { return 0; }
};
class WriteFile final : public IAsyncFile, ReferenceCounted<WriteFile> {
AsyncTaskThread& asyncTaskThread;
AzureClient* client;
std::string containerName;
std::string blobName;
int64_t m_cursor{ 0 };
// Ideally this buffer should not be a string, but
// the Azure SDK only supports/tests uploading to append
// blobs from a stringstream.
std::string buffer;
static constexpr size_t bufferLimit = 1 << 20;
public:
WriteFile(AsyncTaskThread& asyncTaskThread,
const std::string& containerName,
const std::string& blobName,
AzureClient* client)
: asyncTaskThread(asyncTaskThread), containerName(containerName), blobName(blobName), client(client) {}
void addref() override { ReferenceCounted<WriteFile>::addref(); }
void delref() override { ReferenceCounted<WriteFile>::delref(); }
Future<int> read(void* data, int length, int64_t offset) override { throw file_not_readable(); }
Future<Void> write(void const* data, int length, int64_t offset) override {
if (offset != m_cursor) {
throw non_sequential_op();
}
m_cursor += length;
auto p = static_cast<char const*>(data);
buffer.append(p, length);
if (buffer.size() > bufferLimit) {
return sync();
} else {
return Void();
}
}
Future<Void> truncate(int64_t size) override {
if (size != m_cursor) {
throw non_sequential_op();
}
return Void();
}
Future<Void> sync() override {
auto movedBuffer = std::move(buffer);
buffer.clear();
return asyncTaskThread.execAsync([client = this->client,
containerName = this->containerName,
blobName = this->blobName,
buffer = std::move(movedBuffer)] {
std::istringstream iss(std::move(buffer));
auto resp = client->append_block_from_stream(containerName, blobName, iss).get();
return Void();
});
}
Future<int64_t> size() const override {
return asyncTaskThread.execAsync(
[client = this->client, containerName = this->containerName, blobName = this->blobName] {
auto resp = client->get_blob_properties(containerName, blobName).get().response();
ASSERT(resp.valid()); // TODO: Should instead throw here
return static_cast<int64_t>(resp.size);
});
}
std::string getFilename() const override { return blobName; }
int64_t debugFD() const override { return -1; }
};
class BackupFile final : public IBackupFile, ReferenceCounted<BackupFile> {
Reference<IAsyncFile> m_file;
int64_t m_offset;
public:
BackupFile(const std::string& fileName, Reference<IAsyncFile> file)
: IBackupFile(fileName), m_file(file), m_offset(0) {}
Future<Void> append(const void* data, int len) override {
Future<Void> r = m_file->write(data, len, m_offset);
m_offset += len;
return r;
}
Future<Void> finish() override {
Reference<BackupFile> self = Reference<BackupFile>::addRef(this);
return map(m_file->sync(), [=](Void _) {
self->m_file.clear();
return Void();
});
}
int64_t size() const override { return m_offset; }
void addref() override { ReferenceCounted<BackupFile>::addref(); }
void delref() override { ReferenceCounted<BackupFile>::delref(); }
};
static bool isDirectory(const std::string& blobName) { return blobName.size() && blobName.back() == '/'; }
ACTOR static Future<Reference<IAsyncFile>> readFile(BackupContainerAzureBlobStore* self, std::string fileName) {
bool exists = wait(self->blobExists(fileName));
if (!exists) {
throw file_not_found();
}
return Reference<IAsyncFile>(
new ReadFile(self->asyncTaskThread, self->containerName, fileName, self->client.get()));
}
ACTOR static Future<Reference<IBackupFile>> writeFile(BackupContainerAzureBlobStore* self, std::string fileName) {
wait(self->asyncTaskThread.execAsync(
[client = self->client.get(), containerName = self->containerName, fileName = fileName] {
auto outcome = client->create_append_blob(containerName, fileName).get();
return Void();
}));
return Reference<IBackupFile>(
new BackupFile(fileName,
Reference<IAsyncFile>(new WriteFile(
self->asyncTaskThread, self->containerName, fileName, self->client.get()))));
}
static void listFiles(AzureClient* client,
const std::string& containerName,
const std::string& path,
std::function<bool(std::string const&)> folderPathFilter,
BackupContainerFileSystem::FilesAndSizesT& result) {
auto resp = client->list_blobs_segmented(containerName, "/", "", path).get().response();
for (const auto& blob : resp.blobs) {
if (isDirectory(blob.name) && folderPathFilter(blob.name)) {
listFiles(client, containerName, blob.name, folderPathFilter, result);
} else {
result.emplace_back(blob.name, blob.content_length);
}
}
}
ACTOR static Future<Void> deleteContainer(BackupContainerAzureBlobStore* self, int* pNumDeleted) {
state int filesToDelete = 0;
if (pNumDeleted) {
BackupContainerFileSystem::FilesAndSizesT files = wait(self->listFiles());
filesToDelete = files.size();
}
wait(self->asyncTaskThread.execAsync([containerName = self->containerName, client = self->client.get()] {
client->delete_container(containerName).wait();
return Void();
}));
if (pNumDeleted) {
*pNumDeleted += filesToDelete;
}
return Void();
}
};
Future<bool> BackupContainerAzureBlobStore::blobExists(const std::string& fileName) {
return asyncTaskThread.execAsync(
[client = this->client.get(), containerName = this->containerName, fileName = fileName] {
auto resp = client->get_blob_properties(containerName, fileName).get().response();
return resp.valid();
});
}
BackupContainerAzureBlobStore::BackupContainerAzureBlobStore(const NetworkAddress& address,
const std::string& accountName,
const std::string& containerName)
: containerName(containerName) {
std::string accountKey = std::getenv("AZURE_KEY");
auto credential = std::make_shared<azure::storage_lite::shared_key_credential>(accountName, accountKey);
auto storageAccount = std::make_shared<azure::storage_lite::storage_account>(
accountName, credential, false, format("http://%s/%s", address.toString().c_str(), accountName.c_str()));
client = std::make_unique<AzureClient>(storageAccount, 1);
}
void BackupContainerAzureBlobStore::addref() {
return ReferenceCounted<BackupContainerAzureBlobStore>::addref();
}
void BackupContainerAzureBlobStore::delref() {
return ReferenceCounted<BackupContainerAzureBlobStore>::delref();
}
Future<Void> BackupContainerAzureBlobStore::create() {
return asyncTaskThread.execAsync([containerName = this->containerName, client = this->client.get()] {
client->create_container(containerName).wait();
return Void();
});
}
Future<bool> BackupContainerAzureBlobStore::exists() {
return asyncTaskThread.execAsync([containerName = this->containerName, client = this->client.get()] {
auto resp = client->get_container_properties(containerName).get().response();
return resp.valid();
});
}
Future<Reference<IAsyncFile>> BackupContainerAzureBlobStore::readFile(const std::string& fileName) {
return BackupContainerAzureBlobStoreImpl::readFile(this, fileName);
}
Future<Reference<IBackupFile>> BackupContainerAzureBlobStore::writeFile(const std::string& fileName) {
return BackupContainerAzureBlobStoreImpl::writeFile(this, fileName);
}
Future<BackupContainerFileSystem::FilesAndSizesT> BackupContainerAzureBlobStore::listFiles(
const std::string& path,
std::function<bool(std::string const&)> folderPathFilter) {
return asyncTaskThread.execAsync([client = this->client.get(),
containerName = this->containerName,
path = path,
folderPathFilter = folderPathFilter] {
FilesAndSizesT result;
BackupContainerAzureBlobStoreImpl::listFiles(client, containerName, path, folderPathFilter, result);
return result;
});
}
Future<Void> BackupContainerAzureBlobStore::deleteFile(const std::string& fileName) {
return asyncTaskThread.execAsync(
[containerName = this->containerName, fileName = fileName, client = client.get()]() {
client->delete_blob(containerName, fileName).wait();
return Void();
});
}
Future<Void> BackupContainerAzureBlobStore::deleteContainer(int* pNumDeleted) {
return BackupContainerAzureBlobStoreImpl::deleteContainer(this, pNumDeleted);
}
Future<std::vector<std::string>> BackupContainerAzureBlobStore::listURLs(const std::string& baseURL) {
// TODO: Implement this
return std::vector<std::string>{};
}
std::string BackupContainerAzureBlobStore::getURLFormat() {
return "azure://<ip>:<port>/<accountname>/<container>/<path_to_file>";
}