ClickHouse/src/Storages/StorageAzureBlob.cpp

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#include <Storages/StorageAzureBlob.h>
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#if USE_AZURE_BLOB_STORAGE
#include <Formats/FormatFactory.h>
#include <Interpreters/evaluateConstantExpression.h>
#include <Storages/checkAndGetLiteralArgument.h>
#include <Parsers/ASTFunction.h>
#include <Parsers/ASTInsertQuery.h>
#include <IO/SharedThreadPools.h>
#include <Parsers/ASTCreateQuery.h>
#include <Formats/ReadSchemaUtils.h>
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#include <DataTypes/DataTypeLowCardinality.h>
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#include <DataTypes/DataTypeString.h>
#include <DataTypes/DataTypesNumber.h>
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#include <azure/storage/common/storage_credential.hpp>
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#include <Processors/Transforms/AddingDefaultsTransform.h>
#include <Processors/Transforms/ExtractColumnsTransform.h>
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#include <Processors/Formats/IOutputFormat.h>
#include <Processors/Sources/ConstChunkGenerator.h>
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#include <Storages/StorageFactory.h>
#include <Storages/StorageSnapshot.h>
#include <Storages/PartitionedSink.h>
#include <Storages/VirtualColumnUtils.h>
#include <Storages/StorageURL.h>
#include <Storages/NamedCollectionsHelpers.h>
#include <Common/parseGlobs.h>
#include <Disks/ObjectStorages/ObjectStorageIterator.h>
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#include <Disks/IO/AsynchronousBoundedReadBuffer.h>
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#include <QueryPipeline/QueryPipelineBuilder.h>
#include <QueryPipeline/Pipe.h>
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#include <Disks/IO/ReadBufferFromAzureBlobStorage.h>
#include <Disks/IO/WriteBufferFromAzureBlobStorage.h>
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#ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wzero-as-null-pointer-constant"
#endif
#include <re2/re2.h>
#ifdef __clang__
# pragma clang diagnostic pop
#endif
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using namespace Azure::Storage::Blobs;
namespace CurrentMetrics
{
extern const Metric ObjectStorageAzureThreads;
extern const Metric ObjectStorageAzureThreadsActive;
}
namespace ProfileEvents
{
extern const Event EngineFileLikeReadFiles;
}
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namespace DB
{
namespace ErrorCodes
{
extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH;
extern const int BAD_ARGUMENTS;
extern const int DATABASE_ACCESS_DENIED;
extern const int CANNOT_COMPILE_REGEXP;
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extern const int CANNOT_EXTRACT_TABLE_STRUCTURE;
extern const int LOGICAL_ERROR;
extern const int NOT_IMPLEMENTED;
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}
namespace
{
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const std::unordered_set<std::string_view> required_configuration_keys = {
"blob_path",
"container",
};
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const std::unordered_set<std::string_view> optional_configuration_keys = {
"format",
"compression",
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"structure",
"compression_method",
"account_name",
"account_key",
"connection_string",
"storage_account_url",
};
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bool isConnectionString(const std::string & candidate)
{
return !candidate.starts_with("http");
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}
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}
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void StorageAzureBlob::processNamedCollectionResult(StorageAzureBlob::Configuration & configuration, const NamedCollection & collection)
{
validateNamedCollection(collection, required_configuration_keys, optional_configuration_keys);
if (collection.has("connection_string"))
{
configuration.connection_url = collection.get<String>("connection_string");
configuration.is_connection_string = true;
}
if (collection.has("storage_account_url"))
{
configuration.connection_url = collection.get<String>("storage_account_url");
configuration.is_connection_string = false;
}
configuration.container = collection.get<String>("container");
configuration.blob_path = collection.get<String>("blob_path");
if (collection.has("account_name"))
configuration.account_name = collection.get<String>("account_name");
if (collection.has("account_key"))
configuration.account_key = collection.get<String>("account_key");
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configuration.structure = collection.getOrDefault<String>("structure", "auto");
configuration.format = collection.getOrDefault<String>("format", configuration.format);
configuration.compression_method = collection.getOrDefault<String>("compression_method", collection.getOrDefault<String>("compression", "auto"));
}
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StorageAzureBlob::Configuration StorageAzureBlob::getConfiguration(ASTs & engine_args, ContextPtr local_context)
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{
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StorageAzureBlob::Configuration configuration;
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/// Supported signatures:
///
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/// AzureBlobStorage(connection_string|storage_account_url, container_name, blobpath, [account_name, account_key, format, compression])
///
if (auto named_collection = tryGetNamedCollectionWithOverrides(engine_args, local_context))
{
processNamedCollectionResult(configuration, *named_collection);
configuration.blobs_paths = {configuration.blob_path};
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if (configuration.format == "auto")
configuration.format = FormatFactory::instance().getFormatFromFileName(configuration.blob_path, true);
return configuration;
}
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if (engine_args.size() < 3 || engine_args.size() > 7)
throw Exception(ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH,
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"Storage AzureBlobStorage requires 3 to 7 arguments: "
"AzureBlobStorage(connection_string|storage_account_url, container_name, blobpath, [account_name, account_key, format, compression])");
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for (auto & engine_arg : engine_args)
engine_arg = evaluateConstantExpressionOrIdentifierAsLiteral(engine_arg, local_context);
std::unordered_map<std::string_view, size_t> engine_args_to_idx;
configuration.connection_url = checkAndGetLiteralArgument<String>(engine_args[0], "connection_string/storage_account_url");
configuration.is_connection_string = isConnectionString(configuration.connection_url);
configuration.container = checkAndGetLiteralArgument<String>(engine_args[1], "container");
configuration.blob_path = checkAndGetLiteralArgument<String>(engine_args[2], "blobpath");
auto is_format_arg = [] (const std::string & s) -> bool
{
return s == "auto" || FormatFactory::instance().getAllFormats().contains(s);
};
if (engine_args.size() == 4)
{
//'c1 UInt64, c2 UInt64
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auto fourth_arg = checkAndGetLiteralArgument<String>(engine_args[3], "format/account_name");
if (is_format_arg(fourth_arg))
{
configuration.format = fourth_arg;
}
else
{
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Unknown format or account name specified without account key");
}
}
else if (engine_args.size() == 5)
{
auto fourth_arg = checkAndGetLiteralArgument<String>(engine_args[3], "format/account_name");
if (is_format_arg(fourth_arg))
{
configuration.format = fourth_arg;
configuration.compression_method = checkAndGetLiteralArgument<String>(engine_args[4], "compression");
}
else
{
configuration.account_name = fourth_arg;
configuration.account_key = checkAndGetLiteralArgument<String>(engine_args[4], "account_key");
}
}
else if (engine_args.size() == 6)
{
auto fourth_arg = checkAndGetLiteralArgument<String>(engine_args[3], "format/account_name");
if (fourth_arg == "auto" || FormatFactory::instance().getAllFormats().contains(fourth_arg))
{
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Format and compression must be last arguments");
}
else
{
configuration.account_name = fourth_arg;
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configuration.account_key = checkAndGetLiteralArgument<String>(engine_args[4], "account_key");
auto sixth_arg = checkAndGetLiteralArgument<String>(engine_args[5], "format/account_name");
if (!is_format_arg(sixth_arg))
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Unknown format {}", sixth_arg);
configuration.format = sixth_arg;
}
}
else if (engine_args.size() == 7)
{
auto fourth_arg = checkAndGetLiteralArgument<String>(engine_args[3], "format/account_name");
if (fourth_arg == "auto" || FormatFactory::instance().getAllFormats().contains(fourth_arg))
{
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Format and compression must be last arguments");
}
else
{
configuration.account_name = fourth_arg;
configuration.account_key = checkAndGetLiteralArgument<String>(engine_args[4], "account_key");
auto sixth_arg = checkAndGetLiteralArgument<String>(engine_args[5], "format/account_name");
if (!is_format_arg(sixth_arg))
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Unknown format {}", sixth_arg);
configuration.format = sixth_arg;
configuration.compression_method = checkAndGetLiteralArgument<String>(engine_args[6], "compression");
}
}
configuration.blobs_paths = {configuration.blob_path};
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if (configuration.format == "auto")
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configuration.format = FormatFactory::instance().getFormatFromFileName(configuration.blob_path, true);
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return configuration;
}
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AzureObjectStorage::SettingsPtr StorageAzureBlob::createSettings(ContextPtr local_context)
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{
const auto & context_settings = local_context->getSettingsRef();
auto settings_ptr = std::make_unique<AzureObjectStorageSettings>();
settings_ptr->max_single_part_upload_size = context_settings.azure_max_single_part_upload_size;
settings_ptr->max_single_read_retries = context_settings.azure_max_single_read_retries;
settings_ptr->list_object_keys_size = static_cast<int32_t>(context_settings.azure_list_object_keys_size);
return settings_ptr;
}
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void registerStorageAzureBlob(StorageFactory & factory)
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{
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factory.registerStorage("AzureBlobStorage", [](const StorageFactory::Arguments & args)
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{
auto & engine_args = args.engine_args;
if (engine_args.empty())
throw Exception(ErrorCodes::BAD_ARGUMENTS, "External data source must have arguments");
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auto configuration = StorageAzureBlob::getConfiguration(engine_args, args.getLocalContext());
auto client = StorageAzureBlob::createClient(configuration, /* is_read_only */ false);
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// Use format settings from global server context + settings from
// the SETTINGS clause of the create query. Settings from current
// session and user are ignored.
std::optional<FormatSettings> format_settings;
if (args.storage_def->settings)
{
FormatFactorySettings user_format_settings;
// Apply changed settings from global context, but ignore the
// unknown ones, because we only have the format settings here.
const auto & changes = args.getContext()->getSettingsRef().changes();
for (const auto & change : changes)
{
if (user_format_settings.has(change.name))
user_format_settings.set(change.name, change.value);
}
// Apply changes from SETTINGS clause, with validation.
user_format_settings.applyChanges(args.storage_def->settings->changes);
format_settings = getFormatSettings(args.getContext(), user_format_settings);
}
else
{
format_settings = getFormatSettings(args.getContext());
}
ASTPtr partition_by;
if (args.storage_def->partition_by)
partition_by = args.storage_def->partition_by->clone();
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auto settings = StorageAzureBlob::createSettings(args.getContext());
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return std::make_shared<StorageAzureBlob>(
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std::move(configuration),
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std::make_unique<AzureObjectStorage>("AzureBlobStorage", std::move(client), std::move(settings)),
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args.getContext(),
args.table_id,
args.columns,
args.constraints,
args.comment,
format_settings,
/* distributed_processing */ false,
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partition_by);
},
{
.supports_settings = true,
.supports_sort_order = true, // for partition by
.supports_schema_inference = true,
.source_access_type = AccessType::AZURE,
});
}
static bool containerExists(std::unique_ptr<BlobServiceClient> &blob_service_client, std::string container_name)
{
Azure::Storage::Blobs::ListBlobContainersOptions options;
options.Prefix = container_name;
options.PageSizeHint = 1;
auto containers_list_response = blob_service_client->ListBlobContainers(options);
auto containers_list = containers_list_response.BlobContainers;
for (const auto & container : containers_list)
{
if (container_name == container.Name)
return true;
}
return false;
}
AzureClientPtr StorageAzureBlob::createClient(StorageAzureBlob::Configuration configuration, bool is_read_only)
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{
AzureClientPtr result;
if (configuration.is_connection_string)
{
std::unique_ptr<BlobServiceClient> blob_service_client = std::make_unique<BlobServiceClient>(BlobServiceClient::CreateFromConnectionString(configuration.connection_url));
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result = std::make_unique<BlobContainerClient>(BlobContainerClient::CreateFromConnectionString(configuration.connection_url, configuration.container));
bool container_exists = containerExists(blob_service_client,configuration.container);
if (!container_exists)
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{
if (is_read_only)
throw Exception(
ErrorCodes::DATABASE_ACCESS_DENIED,
"AzureBlobStorage container does not exist '{}'",
configuration.container);
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try
{
result->CreateIfNotExists();
} catch (const Azure::Storage::StorageException & e)
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{
if (!(e.StatusCode == Azure::Core::Http::HttpStatusCode::Conflict
&& e.ReasonPhrase == "The specified container already exists."))
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{
throw;
}
}
}
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}
else
{
std::shared_ptr<Azure::Storage::StorageSharedKeyCredential> storage_shared_key_credential;
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if (configuration.account_name.has_value() && configuration.account_key.has_value())
{
storage_shared_key_credential
= std::make_shared<Azure::Storage::StorageSharedKeyCredential>(*configuration.account_name, *configuration.account_key);
}
std::unique_ptr<BlobServiceClient> blob_service_client;
if (storage_shared_key_credential)
{
blob_service_client = std::make_unique<BlobServiceClient>(configuration.connection_url, storage_shared_key_credential);
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}
else
{
blob_service_client = std::make_unique<BlobServiceClient>(configuration.connection_url);
}
bool container_exists = containerExists(blob_service_client,configuration.container);
std::string final_url;
size_t pos = configuration.connection_url.find('?');
if (pos != std::string::npos)
{
auto url_without_sas = configuration.connection_url.substr(0, pos);
final_url = url_without_sas + (url_without_sas.back() == '/' ? "" : "/") + configuration.container
+ configuration.connection_url.substr(pos);
}
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else
final_url
= configuration.connection_url + (configuration.connection_url.back() == '/' ? "" : "/") + configuration.container;
if (container_exists)
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{
if (storage_shared_key_credential)
result = std::make_unique<BlobContainerClient>(final_url, storage_shared_key_credential);
else
result = std::make_unique<BlobContainerClient>(final_url);
}
else
{
if (is_read_only)
throw Exception(
ErrorCodes::DATABASE_ACCESS_DENIED,
"AzureBlobStorage container does not exist '{}'",
configuration.container);
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try
{
result = std::make_unique<BlobContainerClient>(blob_service_client->CreateBlobContainer(configuration.container).Value);
} catch (const Azure::Storage::StorageException & e)
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{
if (e.StatusCode == Azure::Core::Http::HttpStatusCode::Conflict
&& e.ReasonPhrase == "The specified container already exists.")
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{
if (storage_shared_key_credential)
result = std::make_unique<BlobContainerClient>(final_url, storage_shared_key_credential);
else
result = std::make_unique<BlobContainerClient>(final_url);
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}
else
{
throw;
}
}
}
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}
return result;
}
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Poco::URI StorageAzureBlob::Configuration::getConnectionURL() const
{
if (!is_connection_string)
return Poco::URI(connection_url);
auto parsed_connection_string = Azure::Storage::_internal::ParseConnectionString(connection_url);
return Poco::URI(parsed_connection_string.BlobServiceUrl.GetAbsoluteUrl());
}
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StorageAzureBlob::StorageAzureBlob(
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const Configuration & configuration_,
std::unique_ptr<AzureObjectStorage> && object_storage_,
ContextPtr context,
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const StorageID & table_id_,
const ColumnsDescription & columns_,
const ConstraintsDescription & constraints_,
const String & comment,
std::optional<FormatSettings> format_settings_,
bool distributed_processing_,
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ASTPtr partition_by_)
: IStorage(table_id_)
, name("AzureBlobStorage")
, configuration(configuration_)
, object_storage(std::move(object_storage_))
, distributed_processing(distributed_processing_)
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, format_settings(format_settings_)
, partition_by(partition_by_)
{
FormatFactory::instance().checkFormatName(configuration.format);
context->getGlobalContext()->getRemoteHostFilter().checkURL(configuration.getConnectionURL());
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StorageInMemoryMetadata storage_metadata;
if (columns_.empty())
{
auto columns = getTableStructureFromData(object_storage.get(), configuration, format_settings, context, distributed_processing);
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storage_metadata.setColumns(columns);
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}
else
storage_metadata.setColumns(columns_);
storage_metadata.setConstraints(constraints_);
storage_metadata.setComment(comment);
setInMemoryMetadata(storage_metadata);
StoredObjects objects;
for (const auto & key : configuration.blobs_paths)
objects.emplace_back(key);
virtual_columns = VirtualColumnUtils::getPathAndFileVirtualsForStorage(storage_metadata.getSampleBlock().getNamesAndTypesList());
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}
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void StorageAzureBlob::truncate(const ASTPtr &, const StorageMetadataPtr &, ContextPtr, TableExclusiveLockHolder &)
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{
if (configuration.withGlobs())
{
throw Exception(
ErrorCodes::DATABASE_ACCESS_DENIED,
"AzureBlobStorage key '{}' contains globs, so the table is in readonly mode",
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configuration.blob_path);
}
StoredObjects objects;
for (const auto & key : configuration.blobs_paths)
objects.emplace_back(key);
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object_storage->removeObjectsIfExist(objects);
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}
namespace
{
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class StorageAzureBlobSink : public SinkToStorage
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{
public:
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StorageAzureBlobSink(
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const String & format,
const Block & sample_block_,
ContextPtr context,
std::optional<FormatSettings> format_settings_,
const CompressionMethod compression_method,
AzureObjectStorage * object_storage,
const String & blob_path)
: SinkToStorage(sample_block_)
, sample_block(sample_block_)
, format_settings(format_settings_)
{
StoredObject object(blob_path);
write_buf = wrapWriteBufferWithCompressionMethod(object_storage->writeObject(object, WriteMode::Rewrite), compression_method, 3);
writer = FormatFactory::instance().getOutputFormatParallelIfPossible(format, *write_buf, sample_block, context, format_settings);
}
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String getName() const override { return "StorageAzureBlobSink"; }
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void consume(Chunk chunk) override
{
std::lock_guard lock(cancel_mutex);
if (cancelled)
return;
writer->write(getHeader().cloneWithColumns(chunk.detachColumns()));
}
void onCancel() override
{
std::lock_guard lock(cancel_mutex);
finalize();
cancelled = true;
}
void onException(std::exception_ptr exception) override
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{
std::lock_guard lock(cancel_mutex);
try
{
std::rethrow_exception(exception);
}
catch (...)
{
/// An exception context is needed to proper delete write buffers without finalization
release();
}
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}
void onFinish() override
{
std::lock_guard lock(cancel_mutex);
finalize();
}
private:
void finalize()
{
if (!writer)
return;
try
{
writer->finalize();
writer->flush();
write_buf->finalize();
}
catch (...)
{
/// Stop ParallelFormattingOutputFormat correctly.
release();
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throw;
}
}
void release()
{
writer.reset();
write_buf->finalize();
}
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Block sample_block;
std::optional<FormatSettings> format_settings;
std::unique_ptr<WriteBuffer> write_buf;
OutputFormatPtr writer;
bool cancelled = false;
std::mutex cancel_mutex;
};
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class PartitionedStorageAzureBlobSink : public PartitionedSink
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{
public:
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PartitionedStorageAzureBlobSink(
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const ASTPtr & partition_by,
const String & format_,
const Block & sample_block_,
ContextPtr context_,
std::optional<FormatSettings> format_settings_,
const CompressionMethod compression_method_,
AzureObjectStorage * object_storage_,
const String & blob_)
: PartitionedSink(partition_by, context_, sample_block_)
, format(format_)
, sample_block(sample_block_)
, context(context_)
, compression_method(compression_method_)
, object_storage(object_storage_)
, blob(blob_)
, format_settings(format_settings_)
{
}
SinkPtr createSinkForPartition(const String & partition_id) override
{
auto partition_key = replaceWildcards(blob, partition_id);
validateKey(partition_key);
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return std::make_shared<StorageAzureBlobSink>(
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format,
sample_block,
context,
format_settings,
compression_method,
object_storage,
partition_key
);
}
private:
const String format;
const Block sample_block;
const ContextPtr context;
const CompressionMethod compression_method;
AzureObjectStorage * object_storage;
const String blob;
const std::optional<FormatSettings> format_settings;
ExpressionActionsPtr partition_by_expr;
static void validateKey(const String & str)
{
validatePartitionKey(str, true);
}
};
}
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Pipe StorageAzureBlob::read(
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const Names & column_names,
const StorageSnapshotPtr & storage_snapshot,
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SelectQueryInfo & query_info,
ContextPtr local_context,
QueryProcessingStage::Enum /*processed_stage*/,
size_t max_block_size,
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size_t num_streams)
{
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if (partition_by && configuration.withWildcard())
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throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Reading from a partitioned Azure storage is not implemented yet");
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Pipes pipes;
std::shared_ptr<StorageAzureBlobSource::IIterator> iterator_wrapper;
if (distributed_processing)
{
iterator_wrapper = std::make_shared<StorageAzureBlobSource::ReadIterator>(local_context,
local_context->getReadTaskCallback());
}
else if (configuration.withGlobs())
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{
/// Iterate through disclosed globs and make a source for each file
iterator_wrapper = std::make_shared<StorageAzureBlobSource::GlobIterator>(
object_storage.get(), configuration.container, configuration.blob_path,
query_info.query, virtual_columns, local_context, nullptr, local_context->getFileProgressCallback());
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}
else
{
iterator_wrapper = std::make_shared<StorageAzureBlobSource::KeysIterator>(
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object_storage.get(), configuration.container, configuration.blobs_paths,
query_info.query, virtual_columns, local_context, nullptr, local_context->getFileProgressCallback());
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}
auto read_from_format_info = prepareReadingFromFormat(column_names, storage_snapshot, supportsSubsetOfColumns(local_context), getVirtuals());
bool need_only_count = (query_info.optimize_trivial_count || read_from_format_info.requested_columns.empty())
&& local_context->getSettingsRef().optimize_count_from_files;
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for (size_t i = 0; i < num_streams; ++i)
{
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pipes.emplace_back(std::make_shared<StorageAzureBlobSource>(
read_from_format_info,
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configuration.format,
getName(),
local_context,
format_settings,
max_block_size,
configuration.compression_method,
object_storage.get(),
configuration.container,
configuration.connection_url,
iterator_wrapper,
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need_only_count,
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query_info));
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}
return Pipe::unitePipes(std::move(pipes));
}
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SinkToStoragePtr StorageAzureBlob::write(const ASTPtr & query, const StorageMetadataPtr & metadata_snapshot, ContextPtr local_context, bool /*async_insert*/)
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{
auto sample_block = metadata_snapshot->getSampleBlock();
auto chosen_compression_method = chooseCompressionMethod(configuration.blobs_paths.back(), configuration.compression_method);
auto insert_query = std::dynamic_pointer_cast<ASTInsertQuery>(query);
auto partition_by_ast = insert_query ? (insert_query->partition_by ? insert_query->partition_by : partition_by) : nullptr;
bool is_partitioned_implementation = partition_by_ast && configuration.withWildcard();
if (is_partitioned_implementation)
{
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return std::make_shared<PartitionedStorageAzureBlobSink>(
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partition_by_ast,
configuration.format,
sample_block,
local_context,
format_settings,
chosen_compression_method,
object_storage.get(),
configuration.blobs_paths.back());
}
else
{
if (configuration.withGlobs())
throw Exception(ErrorCodes::DATABASE_ACCESS_DENIED,
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"AzureBlobStorage key '{}' contains globs, so the table is in readonly mode", configuration.blob_path);
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bool truncate_in_insert = local_context->getSettingsRef().azure_truncate_on_insert;
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if (!truncate_in_insert && object_storage->exists(StoredObject(configuration.blob_path)))
{
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if (local_context->getSettingsRef().azure_create_new_file_on_insert)
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{
size_t index = configuration.blobs_paths.size();
const auto & first_key = configuration.blobs_paths[0];
auto pos = first_key.find_first_of('.');
String new_key;
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do
{
new_key = first_key.substr(0, pos) + "." + std::to_string(index) + (pos == std::string::npos ? "" : first_key.substr(pos));
++index;
}
while (object_storage->exists(StoredObject(new_key)));
configuration.blobs_paths.push_back(new_key);
}
else
{
throw Exception(
ErrorCodes::BAD_ARGUMENTS,
"Object in bucket {} with key {} already exists. "
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"If you want to overwrite it, enable setting azure_truncate_on_insert, if you "
"want to create a new file on each insert, enable setting azure_create_new_file_on_insert",
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configuration.container, configuration.blobs_paths.back());
}
}
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return std::make_shared<StorageAzureBlobSink>(
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configuration.format,
sample_block,
local_context,
format_settings,
chosen_compression_method,
object_storage.get(),
configuration.blobs_paths.back());
}
}
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NamesAndTypesList StorageAzureBlob::getVirtuals() const
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{
return virtual_columns;
}
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bool StorageAzureBlob::supportsPartitionBy() const
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{
return true;
}
bool StorageAzureBlob::supportsSubsetOfColumns(const ContextPtr & context) const
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{
return FormatFactory::instance().checkIfFormatSupportsSubsetOfColumns(configuration.format, context, format_settings);
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}
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bool StorageAzureBlob::prefersLargeBlocks() const
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{
return FormatFactory::instance().checkIfOutputFormatPrefersLargeBlocks(configuration.format);
}
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bool StorageAzureBlob::parallelizeOutputAfterReading(ContextPtr context) const
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{
return FormatFactory::instance().checkParallelizeOutputAfterReading(configuration.format, context);
}
StorageAzureBlobSource::GlobIterator::GlobIterator(
AzureObjectStorage * object_storage_,
const std::string & container_,
String blob_path_with_globs_,
ASTPtr query_,
const NamesAndTypesList & virtual_columns_,
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ContextPtr context_,
RelativePathsWithMetadata * outer_blobs_,
std::function<void(FileProgress)> file_progress_callback_)
: IIterator(context_)
, object_storage(object_storage_)
, container(container_)
, blob_path_with_globs(blob_path_with_globs_)
, query(query_)
, virtual_columns(virtual_columns_)
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, outer_blobs(outer_blobs_)
, file_progress_callback(file_progress_callback_)
{
const String key_prefix = blob_path_with_globs.substr(0, blob_path_with_globs.find_first_of("*?{"));
/// We don't have to list bucket, because there is no asterisks.
if (key_prefix.size() == blob_path_with_globs.size())
{
ObjectMetadata object_metadata = object_storage->getObjectMetadata(blob_path_with_globs);
blobs_with_metadata.emplace_back(blob_path_with_globs, object_metadata);
if (outer_blobs)
outer_blobs->emplace_back(blobs_with_metadata.back());
is_finished = true;
return;
}
object_storage_iterator = object_storage->iterate(key_prefix);
matcher = std::make_unique<re2::RE2>(makeRegexpPatternFromGlobs(blob_path_with_globs));
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if (!matcher->ok())
throw Exception(
ErrorCodes::CANNOT_COMPILE_REGEXP, "Cannot compile regex from glob ({}): {}", blob_path_with_globs, matcher->error());
recursive = blob_path_with_globs == "/**" ? true : false;
}
RelativePathWithMetadata StorageAzureBlobSource::GlobIterator::next()
{
std::lock_guard lock(next_mutex);
if (is_finished && index >= blobs_with_metadata.size())
{
return {};
}
bool need_new_batch = blobs_with_metadata.empty() || index >= blobs_with_metadata.size();
if (need_new_batch)
{
RelativePathsWithMetadata new_batch;
while (new_batch.empty())
{
auto result = object_storage_iterator->getCurrrentBatchAndScheduleNext();
if (result.has_value())
{
new_batch = result.value();
}
else
{
is_finished = true;
return {};
}
for (auto it = new_batch.begin(); it != new_batch.end();)
{
if (!recursive && !re2::RE2::FullMatch(it->relative_path, *matcher))
it = new_batch.erase(it);
else
++it;
}
}
index = 0;
if (!is_initialized)
{
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filter_ast = VirtualColumnUtils::createPathAndFileFilterAst(query, virtual_columns, fs::path(container) / new_batch.front().relative_path, getContext());
is_initialized = true;
}
if (filter_ast)
{
std::vector<String> paths;
paths.reserve(new_batch.size());
for (auto & path_with_metadata : new_batch)
paths.push_back(fs::path(container) / path_with_metadata.relative_path);
VirtualColumnUtils::filterByPathOrFile(new_batch, paths, query, virtual_columns, getContext(), filter_ast);
}
if (outer_blobs)
outer_blobs->insert(outer_blobs->end(), new_batch.begin(), new_batch.end());
blobs_with_metadata = std::move(new_batch);
if (file_progress_callback)
{
for (const auto & [_, info] : blobs_with_metadata)
file_progress_callback(FileProgress(0, info.size_bytes));
}
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}
size_t current_index = index++;
if (current_index >= blobs_with_metadata.size())
throw Exception(ErrorCodes::LOGICAL_ERROR, "Index out of bound for blob metadata");
return blobs_with_metadata[current_index];
}
StorageAzureBlobSource::KeysIterator::KeysIterator(
AzureObjectStorage * object_storage_,
const std::string & container_,
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const Strings & keys_,
ASTPtr query_,
const NamesAndTypesList & virtual_columns_,
ContextPtr context_,
RelativePathsWithMetadata * outer_blobs,
std::function<void(FileProgress)> file_progress_callback)
: IIterator(context_)
, object_storage(object_storage_)
, container(container_)
, query(query_)
, virtual_columns(virtual_columns_)
{
Strings all_keys = keys_;
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ASTPtr filter_ast;
if (!all_keys.empty())
filter_ast = VirtualColumnUtils::createPathAndFileFilterAst(query, virtual_columns, fs::path(container) / all_keys[0], getContext());
if (filter_ast)
{
Strings paths;
paths.reserve(all_keys.size());
for (const auto & key : all_keys)
paths.push_back(fs::path(container) / key);
VirtualColumnUtils::filterByPathOrFile(all_keys, paths, query, virtual_columns, getContext(), filter_ast);
}
for (auto && key : all_keys)
{
ObjectMetadata object_metadata = object_storage->getObjectMetadata(key);
if (file_progress_callback)
file_progress_callback(FileProgress(0, object_metadata.size_bytes));
keys.emplace_back(RelativePathWithMetadata{key, object_metadata});
}
if (outer_blobs)
*outer_blobs = keys;
}
RelativePathWithMetadata StorageAzureBlobSource::KeysIterator::next()
{
size_t current_index = index.fetch_add(1, std::memory_order_relaxed);
if (current_index >= keys.size())
return {};
return keys[current_index];
}
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Chunk StorageAzureBlobSource::generate()
{
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while (true)
{
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if (isCancelled() || !reader)
{
if (reader)
reader->cancel();
break;
}
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Chunk chunk;
if (reader->pull(chunk))
{
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UInt64 num_rows = chunk.getNumRows();
total_rows_in_file += num_rows;
size_t chunk_size = 0;
if (const auto * input_format = reader.getInputFormat())
chunk_size = input_format->getApproxBytesReadForChunk();
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progress(num_rows, chunk_size ? chunk_size : chunk.bytes());
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VirtualColumnUtils::addRequestedPathAndFileVirtualsToChunk(chunk, requested_virtual_columns, fs::path(container) / reader.getRelativePath());
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return chunk;
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}
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if (reader.getInputFormat() && getContext()->getSettingsRef().use_cache_for_count_from_files)
addNumRowsToCache(reader.getRelativePath(), total_rows_in_file);
total_rows_in_file = 0;
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assert(reader_future.valid());
reader = reader_future.get();
if (!reader)
break;
/// Even if task is finished the thread may be not freed in pool.
/// So wait until it will be freed before scheduling a new task.
create_reader_pool.wait();
reader_future = createReaderAsync();
}
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return {};
}
void StorageAzureBlobSource::addNumRowsToCache(const DB::String & path, size_t num_rows)
{
String source = fs::path(connection_url) / container / path;
auto cache_key = getKeyForSchemaCache(source, format, format_settings, getContext());
StorageAzureBlob::getSchemaCache(getContext()).addNumRows(cache_key, num_rows);
}
std::optional<size_t> StorageAzureBlobSource::tryGetNumRowsFromCache(const DB::RelativePathWithMetadata & path_with_metadata)
{
String source = fs::path(connection_url) / container / path_with_metadata.relative_path;
auto cache_key = getKeyForSchemaCache(source, format, format_settings, getContext());
auto get_last_mod_time = [&]() -> std::optional<time_t>
{
auto last_mod = path_with_metadata.metadata.last_modified;
if (last_mod)
return last_mod->epochTime();
return std::nullopt;
};
return StorageAzureBlob::getSchemaCache(getContext()).tryGetNumRows(cache_key, get_last_mod_time);
}
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StorageAzureBlobSource::StorageAzureBlobSource(
const ReadFromFormatInfo & info,
const String & format_,
String name_,
ContextPtr context_,
std::optional<FormatSettings> format_settings_,
UInt64 max_block_size_,
String compression_hint_,
AzureObjectStorage * object_storage_,
const String & container_,
const String & connection_url_,
std::shared_ptr<IIterator> file_iterator_,
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bool need_only_count_,
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const SelectQueryInfo & query_info_)
:ISource(info.source_header, false)
, WithContext(context_)
, requested_columns(info.requested_columns)
, requested_virtual_columns(info.requested_virtual_columns)
, format(format_)
, name(std::move(name_))
, sample_block(info.format_header)
, format_settings(format_settings_)
, columns_desc(info.columns_description)
, max_block_size(max_block_size_)
, compression_hint(compression_hint_)
, object_storage(std::move(object_storage_))
, container(container_)
, connection_url(connection_url_)
, file_iterator(file_iterator_)
, need_only_count(need_only_count_)
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, query_info(query_info_)
, create_reader_pool(CurrentMetrics::ObjectStorageAzureThreads, CurrentMetrics::ObjectStorageAzureThreadsActive, 1)
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, create_reader_scheduler(threadPoolCallbackRunner<ReaderHolder>(create_reader_pool, "AzureReader"))
{
reader = createReader();
if (reader)
reader_future = createReaderAsync();
}
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StorageAzureBlobSource::~StorageAzureBlobSource()
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{
create_reader_pool.wait();
}
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String StorageAzureBlobSource::getName() const
{
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return name;
}
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StorageAzureBlobSource::ReaderHolder StorageAzureBlobSource::createReader()
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{
auto path_with_metadata = file_iterator->next();
if (path_with_metadata.relative_path.empty())
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return {};
if (path_with_metadata.metadata.size_bytes == 0)
path_with_metadata.metadata = object_storage->getObjectMetadata(path_with_metadata.relative_path);
QueryPipelineBuilder builder;
std::shared_ptr<ISource> source;
std::unique_ptr<ReadBuffer> read_buf;
std::optional<size_t> num_rows_from_cache = need_only_count && getContext()->getSettingsRef().use_cache_for_count_from_files ? tryGetNumRowsFromCache(path_with_metadata) : std::nullopt;
if (num_rows_from_cache)
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{
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/// We should not return single chunk with all number of rows,
/// because there is a chance that this chunk will be materialized later
/// (it can cause memory problems even with default values in columns or when virtual columns are requested).
/// Instead, we use special ConstChunkGenerator that will generate chunks
/// with max_block_size rows until total number of rows is reached.
source = std::make_shared<ConstChunkGenerator>(sample_block, *num_rows_from_cache, max_block_size);
builder.init(Pipe(source));
}
else
{
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std::optional<size_t> max_parsing_threads;
if (need_only_count)
max_parsing_threads = 1;
auto compression_method = chooseCompressionMethod(path_with_metadata.relative_path, compression_hint);
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read_buf = createAzureReadBuffer(path_with_metadata.relative_path, path_with_metadata.metadata.size_bytes);
auto input_format = FormatFactory::instance().getInput(
format, *read_buf, sample_block, getContext(), max_block_size,
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format_settings, max_parsing_threads, std::nullopt,
/* is_remote_fs */ true, compression_method);
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input_format->setQueryInfo(query_info, getContext());
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if (need_only_count)
input_format->needOnlyCount();
builder.init(Pipe(input_format));
if (columns_desc.hasDefaults())
{
builder.addSimpleTransform(
[&](const Block & header)
{ return std::make_shared<AddingDefaultsTransform>(header, columns_desc, *input_format, getContext()); });
}
source = input_format;
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}
/// Add ExtractColumnsTransform to extract requested columns/subcolumns
/// from chunk read by IInputFormat.
builder.addSimpleTransform([&](const Block & header)
{
return std::make_shared<ExtractColumnsTransform>(header, requested_columns);
});
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auto pipeline = std::make_unique<QueryPipeline>(QueryPipelineBuilder::getPipeline(std::move(builder)));
auto current_reader = std::make_unique<PullingPipelineExecutor>(*pipeline);
ProfileEvents::increment(ProfileEvents::EngineFileLikeReadFiles);
return ReaderHolder{path_with_metadata, std::move(read_buf), std::move(source), std::move(pipeline), std::move(current_reader)};
}
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std::future<StorageAzureBlobSource::ReaderHolder> StorageAzureBlobSource::createReaderAsync()
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{
return create_reader_scheduler([this] { return createReader(); }, Priority{});
}
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std::unique_ptr<ReadBuffer> StorageAzureBlobSource::createAzureReadBuffer(const String & key, size_t object_size)
{
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auto read_settings = getContext()->getReadSettings().adjustBufferSize(object_size);
read_settings.enable_filesystem_cache = false;
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auto download_buffer_size = getContext()->getSettings().max_download_buffer_size;
const bool object_too_small = object_size <= 2 * download_buffer_size;
// Create a read buffer that will prefetch the first ~1 MB of the file.
// When reading lots of tiny files, this prefetching almost doubles the throughput.
// For bigger files, parallel reading is more useful.
if (object_too_small && read_settings.remote_fs_method == RemoteFSReadMethod::threadpool)
{
LOG_TRACE(log, "Downloading object of size {} from Azure with initial prefetch", object_size);
return createAsyncAzureReadBuffer(key, read_settings, object_size);
}
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return object_storage->readObject(StoredObject(key), read_settings, {}, object_size);
}
namespace
{
class ReadBufferIterator : public IReadBufferIterator, WithContext
{
public:
ReadBufferIterator(
const std::shared_ptr<StorageAzureBlobSource::IIterator> & file_iterator_,
AzureObjectStorage * object_storage_,
const StorageAzureBlob::Configuration & configuration_,
const std::optional<FormatSettings> & format_settings_,
const RelativePathsWithMetadata & read_keys_,
const ContextPtr & context_)
: WithContext(context_)
, file_iterator(file_iterator_)
, object_storage(object_storage_)
, configuration(configuration_)
, format_settings(format_settings_)
, read_keys(read_keys_)
, prev_read_keys_size(read_keys_.size())
{
}
std::unique_ptr<ReadBuffer> next() override
{
auto [key, metadata] = file_iterator->next();
if (key.empty())
{
if (first)
throw Exception(
ErrorCodes::CANNOT_EXTRACT_TABLE_STRUCTURE,
"Cannot extract table structure from {} format file, because there are no files with provided path "
"in AzureBlobStorage. You must specify table structure manually", configuration.format);
return nullptr;
}
current_path = key;
///AzureBlobStorage file iterator could get new keys after new iteration, check them in schema cache.
if (getContext()->getSettingsRef().schema_inference_use_cache_for_azure && read_keys.size() > prev_read_keys_size)
{
columns_from_cache = StorageAzureBlob::tryGetColumnsFromCache(read_keys.begin() + prev_read_keys_size, read_keys.end(), configuration, format_settings, getContext());
prev_read_keys_size = read_keys.size();
if (columns_from_cache)
return nullptr;
}
first = false;
int zstd_window_log_max = static_cast<int>(getContext()->getSettingsRef().zstd_window_log_max);
return wrapReadBufferWithCompressionMethod(
object_storage->readObject(StoredObject(key), getContext()->getReadSettings(), {}, metadata.size_bytes),
chooseCompressionMethod(key, configuration.compression_method),
zstd_window_log_max);
}
std::optional<ColumnsDescription> getCachedColumns() override { return columns_from_cache; }
void setNumRowsToLastFile(size_t num_rows) override
{
if (!getContext()->getSettingsRef().schema_inference_use_cache_for_s3)
return;
String source = fs::path(configuration.connection_url) / configuration.container / current_path;
auto key = getKeyForSchemaCache(source, configuration.format, format_settings, getContext());
StorageAzureBlob::getSchemaCache(getContext()).addNumRows(key, num_rows);
}
private:
std::shared_ptr<StorageAzureBlobSource::IIterator> file_iterator;
AzureObjectStorage * object_storage;
const StorageAzureBlob::Configuration & configuration;
const std::optional<FormatSettings> & format_settings;
const RelativePathsWithMetadata & read_keys;
std::optional<ColumnsDescription> columns_from_cache;
size_t prev_read_keys_size;
String current_path;
bool first = true;
};
}
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ColumnsDescription StorageAzureBlob::getTableStructureFromData(
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AzureObjectStorage * object_storage,
const Configuration & configuration,
const std::optional<FormatSettings> & format_settings,
ContextPtr ctx,
bool distributed_processing)
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{
RelativePathsWithMetadata read_keys;
std::shared_ptr<StorageAzureBlobSource::IIterator> file_iterator;
if (distributed_processing)
{
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file_iterator = std::make_shared<StorageAzureBlobSource::ReadIterator>(ctx,
ctx->getReadTaskCallback());
}
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else if (configuration.withGlobs())
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{
file_iterator = std::make_shared<StorageAzureBlobSource::GlobIterator>(
object_storage, configuration.container, configuration.blob_path, nullptr, NamesAndTypesList{}, ctx, &read_keys);
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}
else
{
file_iterator = std::make_shared<StorageAzureBlobSource::KeysIterator>(
object_storage, configuration.container, configuration.blobs_paths, nullptr, NamesAndTypesList{}, ctx, &read_keys);
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}
std::optional<ColumnsDescription> columns_from_cache;
if (ctx->getSettingsRef().schema_inference_use_cache_for_azure)
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columns_from_cache = tryGetColumnsFromCache(read_keys.begin(), read_keys.end(), configuration, format_settings, ctx);
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ColumnsDescription columns;
if (columns_from_cache)
{
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columns = *columns_from_cache;
}
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else
{
ReadBufferIterator read_buffer_iterator(file_iterator, object_storage, configuration, format_settings, read_keys, ctx);
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columns = readSchemaFromFormat(configuration.format, format_settings, read_buffer_iterator, configuration.withGlobs(), ctx);
}
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if (ctx->getSettingsRef().schema_inference_use_cache_for_azure)
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addColumnsToCache(read_keys, columns, configuration, format_settings, configuration.format, ctx);
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return columns;
}
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std::optional<ColumnsDescription> StorageAzureBlob::tryGetColumnsFromCache(
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const RelativePathsWithMetadata::const_iterator & begin,
const RelativePathsWithMetadata::const_iterator & end,
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const StorageAzureBlob::Configuration & configuration,
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const std::optional<FormatSettings> & format_settings,
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const ContextPtr & ctx)
{
auto & schema_cache = getSchemaCache(ctx);
for (auto it = begin; it < end; ++it)
{
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auto get_last_mod_time = [&] -> std::optional<time_t>
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{
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if (it->metadata.last_modified)
return it->metadata.last_modified->epochTime();
return std::nullopt;
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};
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auto host_and_bucket = configuration.connection_url + '/' + configuration.container;
String source = host_and_bucket + '/' + it->relative_path;
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auto cache_key = getKeyForSchemaCache(source, configuration.format, format_settings, ctx);
auto columns = schema_cache.tryGetColumns(cache_key, get_last_mod_time);
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if (columns)
return columns;
}
return std::nullopt;
}
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void StorageAzureBlob::addColumnsToCache(
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const RelativePathsWithMetadata & keys,
const ColumnsDescription & columns,
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const StorageAzureBlob::Configuration & configuration,
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const std::optional<FormatSettings> & format_settings,
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const String & format_name,
const ContextPtr & ctx)
{
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auto host_and_bucket = configuration.connection_url + '/' + configuration.container;
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Strings sources;
sources.reserve(keys.size());
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std::transform(keys.begin(), keys.end(), std::back_inserter(sources), [&](const auto & elem){ return host_and_bucket + '/' + elem.relative_path; });
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auto cache_keys = getKeysForSchemaCache(sources, format_name, format_settings, ctx);
auto & schema_cache = getSchemaCache(ctx);
schema_cache.addManyColumns(cache_keys, columns);
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}
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SchemaCache & StorageAzureBlob::getSchemaCache(const ContextPtr & ctx)
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{
static SchemaCache schema_cache(ctx->getConfigRef().getUInt("schema_inference_cache_max_elements_for_azure", DEFAULT_SCHEMA_CACHE_ELEMENTS));
return schema_cache;
}
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std::unique_ptr<ReadBuffer> StorageAzureBlobSource::createAsyncAzureReadBuffer(
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const String & key, const ReadSettings & read_settings, size_t object_size)
{
auto modified_settings{read_settings};
modified_settings.remote_read_min_bytes_for_seek = modified_settings.remote_fs_buffer_size;
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auto async_reader = object_storage->readObjects(StoredObjects{StoredObject{key, object_size}}, modified_settings);
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async_reader->setReadUntilEnd();
if (read_settings.remote_fs_prefetch)
async_reader->prefetch(DEFAULT_PREFETCH_PRIORITY);
return async_reader;
}
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}
#endif