ClickHouse/src/Storages/StorageAzure.cpp

#include <Storages/StorageAzure.h>


#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/ParallelReadBuffer.h>
#include <IO/SharedThreadPools.h>

#include <Parsers/ASTCreateQuery.h>
#include <Formats/FormatFactory.h>
#include <Formats/ReadSchemaUtils.h>
#include <DataTypes/DataTypeString.h>
#include <DataTypes/DataTypesNumber.h>
#include <re2/re2.h>

#include <azure/identity/managed_identity_credential.hpp>
#include <azure/storage/common/storage_credential.hpp>
#include <Processors/Transforms/AddingDefaultsTransform.h>
#include <Processors/Formats/IOutputFormat.h>
#include <Processors/Formats/IInputFormat.h>

#include <Storages/StorageFactory.h>
#include <Storages/StorageSnapshot.h>
#include <Storages/PartitionedSink.h>
#include <Storages/VirtualColumnUtils.h>
#include <Storages/getVirtualsForStorage.h>
#include <Storages/checkAndGetLiteralArgument.h>
#include <Storages/StorageURL.h>
#include <Storages/NamedCollectionsHelpers.h>
#include <Storages/ReadFromStorageProgress.h>
#include <Common/parseGlobs.h>
#include <Disks/ObjectStorages/ObjectStorageIterator.h>
#include <Disks/IO/AsynchronousBoundedReadBuffer.h>

#include <QueryPipeline/QueryPipelineBuilder.h>
#include <QueryPipeline/Pipe.h>


using namespace Azure::Storage::Blobs;

namespace CurrentMetrics
{
    extern const Metric ObjectStorageAzureThreads;
    extern const Metric ObjectStorageAzureThreadsActive;
}

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;
}

namespace
{

static const std::unordered_set<std::string_view> required_configuration_keys = {
    "blob_path",
    "container",
};

static const std::unordered_set<std::string_view> optional_configuration_keys = {
    "format",
    "compression",
    "compression_method",
    "account_name",
    "account_key",
    "connection_string",
    "storage_account_url",
};

bool isConnectionString(const std::string & candidate)
{
    return candidate.starts_with("DefaultEndpointsProtocol");
}


void processNamedCollectionResult(StorageAzure::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");

    configuration.format = collection.getOrDefault<String>("format", configuration.format);
    configuration.compression_method = collection.getOrDefault<String>("compression_method", collection.getOrDefault<String>("compression", "auto"));
}

}

StorageAzure::Configuration StorageAzure::getConfiguration(ASTs & engine_args, ContextPtr local_context, bool get_format_from_file)
{
    LOG_INFO(&Poco::Logger::get("StorageAzure"), "get_format_from_file  = {}", get_format_from_file);

    StorageAzure::Configuration configuration;

    /// Supported signatures:
    ///
    /// Azure(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};

        if (configuration.format == "auto" && get_format_from_file)
            configuration.format = FormatFactory::instance().getFormatFromFileName(configuration.blob_path, true);

        return configuration;
    }

    if (engine_args.size() < 3 || engine_args.size() > 7)
        throw Exception(ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH,
                        "Storage Azure requires 3 to 7 arguments: "
                        "Azure(connection_string|storage_account_url, container_name, blobpath, [account_name, account_key, format, compression])");

    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");

    LOG_INFO(&Poco::Logger::get("StorageAzure"), "connection_url  = {}", configuration.connection_url);
    LOG_INFO(&Poco::Logger::get("StorageAzure"), "container  = {}", configuration.container);
    LOG_INFO(&Poco::Logger::get("StorageAzure"), "blobpath  = {}", configuration.blob_path);


    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
        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;

            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};

    LOG_INFO(&Poco::Logger::get("StorageAzure"), "get_format_from_file  = {}", get_format_from_file);

    if (configuration.format == "auto" && get_format_from_file)
        configuration.format = FormatFactory::instance().getFormatFromFileName(configuration.blob_path, true);

    return configuration;
}


void registerStorageAzure(StorageFactory & factory)
{
    factory.registerStorage("Azure", [](const StorageFactory::Arguments & args)
    {
        auto & engine_args = args.engine_args;
        if (engine_args.empty())
            throw Exception(ErrorCodes::BAD_ARGUMENTS, "External data source must have arguments");

        auto configuration = StorageAzure::getConfiguration(engine_args, args.getLocalContext());
        auto client = StorageAzure::createClient(configuration);
        // 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();

        const auto & context_settings = args.getContext()->getSettingsRef();
        auto settings = std::make_unique<AzureObjectStorageSettings>();
        settings->max_single_part_upload_size = context_settings.azure_max_single_part_upload_size;
        settings->max_single_read_retries = context_settings.azure_max_single_read_retries;
        settings->list_object_keys_size = static_cast<int32_t>(context_settings.azure_list_object_keys_size);

        return std::make_shared<StorageAzure>(
            std::move(configuration),
            std::make_unique<AzureObjectStorage>("AzureStorage", std::move(client), std::move(settings)),
            args.getContext(),
            args.table_id,
            args.columns,
            args.constraints,
            args.comment,
            format_settings,
            partition_by);
    },
    {
        .supports_settings = true,
        .supports_sort_order = true, // for partition by
        .supports_schema_inference = true,
        .source_access_type = AccessType::AZURE,
    });
}

AzureClientPtr StorageAzure::createClient(StorageAzure::Configuration configuration)
{
    AzureClientPtr result;

    if (configuration.is_connection_string)
    {
        LOG_INFO(&Poco::Logger::get("StorageAzure"), "createClient is_connection_string ");
        result = std::make_unique<BlobContainerClient>(BlobContainerClient::CreateFromConnectionString(configuration.connection_url, configuration.container));
        result->CreateIfNotExists();
    }
    else
    {
        if (configuration.account_name.has_value() && configuration.account_key.has_value())
        {
            auto storage_shared_key_credential = std::make_shared<Azure::Storage::StorageSharedKeyCredential>(*configuration.account_name, *configuration.account_key);
            auto blob_service_client = std::make_unique<BlobServiceClient>(configuration.connection_url, storage_shared_key_credential);
            try
            {
                result = std::make_unique<BlobContainerClient>(blob_service_client->CreateBlobContainer(configuration.container).Value);
            }
            catch (const Azure::Storage::StorageException & e)
            {
                if (e.StatusCode == Azure::Core::Http::HttpStatusCode::Conflict)
                {
                    auto final_url = configuration.connection_url
                        + (configuration.connection_url.back() == '/' ? "" : "/")
                        + configuration.container;

                    result = std::make_unique<BlobContainerClient>(final_url, storage_shared_key_credential);
                }
                else
                {
                    throw;
                }
            }
        }
        else
        {
            auto managed_identity_credential = std::make_shared<Azure::Identity::ManagedIdentityCredential>();
            auto blob_service_client = std::make_unique<BlobServiceClient>(configuration.connection_url, managed_identity_credential);
            try
            {
                result = std::make_unique<BlobContainerClient>(blob_service_client->CreateBlobContainer(configuration.container).Value);
            }
            catch (const Azure::Storage::StorageException & e)
            {
                if (e.StatusCode == Azure::Core::Http::HttpStatusCode::Conflict)
                {
                    auto final_url = configuration.connection_url
                        + (configuration.connection_url.back() == '/' ? "" : "/")
                        + configuration.container;

                    result = std::make_unique<BlobContainerClient>(final_url, managed_identity_credential);
                }
                else
                {
                    throw;
                }
            }
        }
    }

    return result;
}

Poco::URI StorageAzure::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());
}


StorageAzure::StorageAzure(
    const Configuration & configuration_,
    std::unique_ptr<AzureObjectStorage> && object_storage_,
    ContextPtr context,
    const StorageID & table_id_,
    const ColumnsDescription & columns_,
    const ConstraintsDescription & constraints_,
    const String & comment,
    std::optional<FormatSettings> format_settings_,
    ASTPtr partition_by_)
    : IStorage(table_id_)
    , name("AzureBlobStorage")
    , configuration(configuration_)
    , object_storage(std::move(object_storage_))
    , distributed_processing(false)
    , format_settings(format_settings_)
    , partition_by(partition_by_)
{
    FormatFactory::instance().checkFormatName(configuration.format);
    context->getGlobalContext()->getRemoteHostFilter().checkURL(configuration.getConnectionURL());

    StorageInMemoryMetadata storage_metadata;
    if (columns_.empty())
    {
        throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Schema inference is not supported yet");
    }
    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);

    for (auto obj : objects)
    {
        LOG_INFO(&Poco::Logger::get("StorageAzure"), "constructor obj.remote_paths  = {}", obj.remote_path);
        if (object_storage->exists(obj))
        {
            LOG_INFO(&Poco::Logger::get("StorageAzure"), "constructor exists  obj.remote_paths  = {}", obj.remote_path);
//            auto read_buffer = object_storage->readObject(obj);
//            LOG_INFO(&Poco::Logger::get("StorageAzure"), "constructor read size  obj.remote_paths  = {} , size = {}", obj.remote_path, read_buffer->getFileSize());
        }
    }


    auto default_virtuals = NamesAndTypesList{
        {"_path", std::make_shared<DataTypeLowCardinality>(std::make_shared<DataTypeString>())},
        {"_file", std::make_shared<DataTypeLowCardinality>(std::make_shared<DataTypeString>())}};

    auto columns = storage_metadata.getSampleBlock().getNamesAndTypesList();

    virtual_columns = getVirtualsForStorage(columns, default_virtuals);
    for (const auto & column : virtual_columns)
        virtual_block.insert({column.type->createColumn(), column.type, column.name});
}

void StorageAzure::truncate(const ASTPtr &, const StorageMetadataPtr &, ContextPtr, TableExclusiveLockHolder &)
{
    if (configuration.withGlobs())
    {
        throw Exception(
            ErrorCodes::DATABASE_ACCESS_DENIED,
            "S3 key '{}' contains globs, so the table is in readonly mode",
            configuration.blob_path);
    }

    StoredObjects objects;
    for (const auto & key : configuration.blobs_paths)
        objects.emplace_back(key);

    object_storage->removeObjects(objects);
}

namespace
{

class StorageAzureSink : public SinkToStorage
{
public:
    StorageAzureSink(
        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);
    }

    String getName() const override { return "StorageS3Sink"; }

    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() override
    {
        std::lock_guard lock(cancel_mutex);
        finalize();
    }

    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.
            writer.reset();
            write_buf->finalize();
            throw;
        }
    }

    Block sample_block;
    std::optional<FormatSettings> format_settings;
    std::unique_ptr<WriteBuffer> write_buf;
    OutputFormatPtr writer;
    bool cancelled = false;
    std::mutex cancel_mutex;
};

class PartitionedStorageAzureSink : public PartitionedSink
{
public:
    PartitionedStorageAzureSink(
        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);

        return std::make_shared<StorageAzureSink>(
            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);
    }
};

}

Pipe StorageAzure::read(
    const Names & column_names,
    const StorageSnapshotPtr &  storage_snapshot,
    SelectQueryInfo & query_info,
    ContextPtr local_context,
    QueryProcessingStage::Enum /*processed_stage*/,
    size_t max_block_size,
    size_t num_streams)
{
    if (partition_by && configuration.withWildcard())
        throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Reading from a partitioned Azure storage is not implemented yet");

    Pipes pipes;

    std::unordered_set<String> column_names_set(column_names.begin(), column_names.end());
    std::vector<NameAndTypePair> requested_virtual_columns;

    for (const auto & virtual_column : getVirtuals())
    {
        if (column_names_set.contains(virtual_column.name))
            requested_virtual_columns.push_back(virtual_column);
    }

    std::shared_ptr<StorageAzureSource::Iterator> iterator_wrapper;
    if (configuration.withGlobs())
    {
        /// Iterate through disclosed globs and make a source for each file
        iterator_wrapper = std::make_shared<StorageAzureSource::Iterator>(
            object_storage.get(), configuration.container, std::nullopt,
            configuration.blob_path, query_info.query, virtual_block, local_context);
    }
    else
    {
        iterator_wrapper = std::make_shared<StorageAzureSource::Iterator>(
            object_storage.get(), configuration.container, configuration.blobs_paths,
            std::nullopt, query_info.query, virtual_block, local_context);
    }

    ColumnsDescription columns_description;
    Block block_for_format;
    if (supportsSubsetOfColumns())
    {
        auto fetch_columns = column_names;
        const auto & virtuals = getVirtuals();
        std::erase_if(
            fetch_columns,
            [&](const String & col)
            { return std::any_of(virtuals.begin(), virtuals.end(), [&](const NameAndTypePair & virtual_col){ return col == virtual_col.name; }); });

        if (fetch_columns.empty())
            fetch_columns.push_back(ExpressionActions::getSmallestColumn(storage_snapshot->metadata->getColumns().getAllPhysical()).name);

        columns_description = storage_snapshot->getDescriptionForColumns(fetch_columns);
        block_for_format = storage_snapshot->getSampleBlockForColumns(columns_description.getNamesOfPhysical());
    }
    else
    {
        columns_description = storage_snapshot->metadata->getColumns();
        block_for_format = storage_snapshot->metadata->getSampleBlock();
    }

    for (size_t i = 0; i < num_streams; ++i)
    {
        pipes.emplace_back(std::make_shared<StorageAzureSource>(
            requested_virtual_columns,
            configuration.format,
            getName(),
            block_for_format,
            local_context,
            format_settings,
            columns_description,
            max_block_size,
            configuration.compression_method,
            object_storage.get(),
            configuration.container,
            iterator_wrapper));
    }

    return Pipe::unitePipes(std::move(pipes));
}

SinkToStoragePtr StorageAzure::write(const ASTPtr & query, const StorageMetadataPtr & metadata_snapshot, ContextPtr local_context)
{
    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)
    {
        return std::make_shared<PartitionedStorageAzureSink>(
            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,
                            "Azure key '{}' contains globs, so the table is in readonly mode", configuration.blob_path);

        bool truncate_in_insert = local_context->getSettingsRef().azure_truncate_on_insert;

        if (!truncate_in_insert && object_storage->exists(StoredObject(configuration.blob_path)))
        {

            if (local_context->getSettingsRef().azure_create_new_file_on_insert)
            {
                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;

                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. "
                    "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",
                    configuration.container, configuration.blobs_paths.back());
            }
        }

        return std::make_shared<StorageAzureSink>(
            configuration.format,
            sample_block,
            local_context,
            format_settings,
            chosen_compression_method,
            object_storage.get(),
            configuration.blobs_paths.back());
    }
}

NamesAndTypesList StorageAzure::getVirtuals() const
{
    return virtual_columns;
}

bool StorageAzure::supportsPartitionBy() const
{
    return true;
}

bool StorageAzure::supportsSubcolumns() const
{
    return FormatFactory::instance().checkIfFormatSupportsSubcolumns(configuration.format);
}

bool StorageAzure::supportsSubsetOfColumns() const
{
    return FormatFactory::instance().checkIfFormatSupportsSubsetOfColumns(configuration.format);
}

bool StorageAzure::prefersLargeBlocks() const
{
    return FormatFactory::instance().checkIfOutputFormatPrefersLargeBlocks(configuration.format);
}

bool StorageAzure::parallelizeOutputAfterReading(ContextPtr context) const
{
    return FormatFactory::instance().checkParallelizeOutputAfterReading(configuration.format, context);
}

static void addPathToVirtualColumns(Block & block, const String & path, size_t idx)
{
    if (block.has("_path"))
        block.getByName("_path").column->assumeMutableRef().insert(path);

    if (block.has("_file"))
    {
        auto pos = path.find_last_of('/');
        assert(pos != std::string::npos);

        auto file = path.substr(pos + 1);
        block.getByName("_file").column->assumeMutableRef().insert(file);
    }

    block.getByName("_idx").column->assumeMutableRef().insert(idx);
}

StorageAzureSource::Iterator::Iterator(
    AzureObjectStorage * object_storage_,
    const std::string & container_,
    std::optional<Strings> keys_,
    std::optional<String> blob_path_with_globs_,
    ASTPtr query_,
    const Block & virtual_header_,
    ContextPtr context_)
    : WithContext(context_)
    , object_storage(object_storage_)
    , container(container_)
    , keys(keys_)
    , blob_path_with_globs(blob_path_with_globs_)
    , query(query_)
    , virtual_header(virtual_header_)
{
    if (keys.has_value() && blob_path_with_globs.has_value())
        throw Exception(ErrorCodes::LOGICAL_ERROR, "Cannot specify keys and glob simulatenously it's a bug");

    if (!keys.has_value() && !blob_path_with_globs.has_value())
        throw Exception(ErrorCodes::LOGICAL_ERROR, "Both keys and glob mask are not specified");

    if (keys)
    {
        Strings all_keys = *keys;

        blobs_with_metadata.emplace();
        /// Create a virtual block with one row to construct filter
        if (query && virtual_header && !all_keys.empty())
        {
            /// Append "idx" column as the filter result
            virtual_header.insert({ColumnUInt64::create(), std::make_shared<DataTypeUInt64>(), "_idx"});

            auto block = virtual_header.cloneEmpty();
            addPathToVirtualColumns(block, fs::path(container) / all_keys.front(), 0);

            VirtualColumnUtils::prepareFilterBlockWithQuery(query, getContext(), block, filter_ast);

            if (filter_ast)
            {
                block = virtual_header.cloneEmpty();
                for (size_t i = 0; i < all_keys.size(); ++i)
                    addPathToVirtualColumns(block, fs::path(container) / all_keys[i], i);

                VirtualColumnUtils::filterBlockWithQuery(query, block, getContext(), filter_ast);
                const auto & idxs = typeid_cast<const ColumnUInt64 &>(*block.getByName("_idx").column);

                Strings filtered_keys;
                filtered_keys.reserve(block.rows());
                for (UInt64 idx : idxs.getData())
                    filtered_keys.emplace_back(std::move(all_keys[idx]));

                all_keys = std::move(filtered_keys);
            }
        }

        for (auto && key : all_keys)
        {
            ObjectMetadata object_metadata = object_storage->getObjectMetadata(key);
            total_size += object_metadata.size_bytes;
            blobs_with_metadata->emplace_back(RelativePathWithMetadata{key, object_metadata});
        }
    }
    else
    {
        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);
            return;
        }

        object_storage_iterator = object_storage->iterate(key_prefix);
        matcher = std::make_unique<re2::RE2>(makeRegexpPatternFromGlobs(*blob_path_with_globs));

        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 StorageAzureSource::Iterator::next()
{
    if (is_finished)
        return {};

    if (keys)
    {
        size_t current_index = index.fetch_add(1, std::memory_order_relaxed);
        if (current_index >= blobs_with_metadata->size())
        {
            is_finished = true;
            return {};
        }

        return (*blobs_with_metadata)[current_index];
    }
    else
    {
        if (!blobs_with_metadata || index >= blobs_with_metadata->size())
        {
            RelativePathsWithMetadata new_batch;
            while (new_batch.empty())
            {
                if (object_storage_iterator->isValid())
                {
                    new_batch = object_storage_iterator->currentBatch();
                    object_storage_iterator->nextBatch();
                }
                else
                {
                    is_finished = true;
                    return {};
                }

                for (auto it = new_batch.begin(); it != new_batch.end(); ++it)
                {
                    if (!recursive && !re2::RE2::FullMatch(it->relative_path, *matcher))
                        it = new_batch.erase(it);
                }
            }

            index.store(0, std::memory_order_relaxed);
            if (!is_initialized)
            {
                createFilterAST(new_batch.front().relative_path);
                is_initialized = true;
            }

            if (filter_ast)
            {
                auto block = virtual_header.cloneEmpty();
                for (size_t i = 0; i < new_batch.size(); ++i)
                    addPathToVirtualColumns(block, fs::path(container) / new_batch[i].relative_path, i);

                VirtualColumnUtils::filterBlockWithQuery(query, block, getContext(), filter_ast);
                const auto & idxs = typeid_cast<const ColumnUInt64 &>(*block.getByName("_idx").column);

                blob_path_with_globs.reset();
                blob_path_with_globs.emplace();
                for (UInt64 idx : idxs.getData())
                {
                    total_size.fetch_add(new_batch[idx].metadata.size_bytes, std::memory_order_relaxed);
                    blobs_with_metadata->emplace_back(std::move(new_batch[idx]));
                }
            }
            else
            {
                blobs_with_metadata = std::move(new_batch);
                for (const auto & [_, info] : *blobs_with_metadata)
                    total_size.fetch_add(info.size_bytes, std::memory_order_relaxed);
            }
        }

        size_t current_index = index.fetch_add(1, std::memory_order_relaxed);
        return (*blobs_with_metadata)[current_index];
    }
}

size_t StorageAzureSource::Iterator::getTotalSize() const
{
    return total_size.load(std::memory_order_relaxed);
}


void StorageAzureSource::Iterator::createFilterAST(const String & any_key)
{
    if (!query || !virtual_header)
        return;

    /// Create a virtual block with one row to construct filter
    /// Append "idx" column as the filter result
    virtual_header.insert({ColumnUInt64::create(), std::make_shared<DataTypeUInt64>(), "_idx"});

    auto block = virtual_header.cloneEmpty();
    addPathToVirtualColumns(block, fs::path(container) / any_key, 0);
    VirtualColumnUtils::prepareFilterBlockWithQuery(query, getContext(), block, filter_ast);
}


Chunk StorageAzureSource::generate()
{
    while (true)
    {
        if (isCancelled() || !reader)
        {
            if (reader)
                reader->cancel();
            break;
        }

        Chunk chunk;
        if (reader->pull(chunk))
        {
            UInt64 num_rows = chunk.getNumRows();

            const auto & file_path = reader.getPath();
            size_t total_size = file_iterator->getTotalSize();
            if (num_rows && total_size)
            {
                updateRowsProgressApprox(
                    *this, chunk, total_size, total_rows_approx_accumulated, total_rows_count_times, total_rows_approx_max);
            }

            for (const auto & virtual_column : requested_virtual_columns)
            {
                if (virtual_column.name == "_path")
                {
                    chunk.addColumn(virtual_column.type->createColumnConst(num_rows, file_path)->convertToFullColumnIfConst());
                }
                else if (virtual_column.name == "_file")
                {
                    size_t last_slash_pos = file_path.find_last_of('/');
                    auto column = virtual_column.type->createColumnConst(num_rows, file_path.substr(last_slash_pos + 1));
                    chunk.addColumn(column->convertToFullColumnIfConst());
                }
            }

            return chunk;
        }


        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();
    }

    return {};
}

Block StorageAzureSource::getHeader(Block sample_block, const std::vector<NameAndTypePair> & requested_virtual_columns)
{
    for (const auto & virtual_column : requested_virtual_columns)
        sample_block.insert({virtual_column.type->createColumn(), virtual_column.type, virtual_column.name});

    return sample_block;
}

StorageAzureSource::StorageAzureSource(
    const std::vector<NameAndTypePair> & requested_virtual_columns_,
    const String & format_,
    String name_,
    const Block & sample_block_,
    ContextPtr context_,
    std::optional<FormatSettings> format_settings_,
    const ColumnsDescription & columns_,
    UInt64 max_block_size_,
    String compression_hint_,
    AzureObjectStorage * object_storage_,
    const String & container_,
    std::shared_ptr<Iterator> file_iterator_)
    :ISource(getHeader(sample_block_, requested_virtual_columns_))
    , WithContext(context_)
    , requested_virtual_columns(requested_virtual_columns_)
    , format(format_)
    , name(std::move(name_))
    , sample_block(sample_block_)
    , format_settings(format_settings_)
    , columns_desc(columns_)
    , max_block_size(max_block_size_)
    , compression_hint(compression_hint_)
    , object_storage(std::move(object_storage_))
    , container(container_)
    , file_iterator(file_iterator_)
    , create_reader_pool(CurrentMetrics::ObjectStorageAzureThreads, CurrentMetrics::ObjectStorageAzureThreadsActive, 1)
    , create_reader_scheduler(threadPoolCallbackRunner<ReaderHolder>(create_reader_pool, "AzureReader"))
{
    reader = createReader();
    if (reader)
        reader_future = createReaderAsync();
}


StorageAzureSource::~StorageAzureSource()
{
    create_reader_pool.wait();
}

String StorageAzureSource::getName() const
{
    return name;
}

StorageAzureSource::ReaderHolder StorageAzureSource::createReader()
{
    auto [current_key, info] = file_iterator->next();
    if (current_key.empty())
        return {};

    size_t object_size = info.size_bytes != 0 ? info.size_bytes : object_storage->getObjectMetadata(current_key).size_bytes;
    auto compression_method = chooseCompressionMethod(current_key, compression_hint);

    auto read_buf = createAzureReadBuffer(current_key, object_size);
    auto input_format = FormatFactory::instance().getInput(
            format, *read_buf, sample_block, getContext(), max_block_size,
            format_settings, std::nullopt, std::nullopt,
            /* is_remote_fs */ true, compression_method);

    QueryPipelineBuilder builder;
    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()); });
    }

    auto pipeline = std::make_unique<QueryPipeline>(QueryPipelineBuilder::getPipeline(std::move(builder)));
    auto current_reader = std::make_unique<PullingPipelineExecutor>(*pipeline);

    return ReaderHolder{fs::path(container) / current_key, std::move(read_buf), std::move(pipeline), std::move(current_reader)};
}

std::future<StorageAzureSource::ReaderHolder> StorageAzureSource::createReaderAsync()
{
    return create_reader_scheduler([this] { return createReader(); }, Priority{});
}

std::unique_ptr<ReadBuffer> StorageAzureSource::createAzureReadBuffer(const String & key, size_t object_size)
{
    auto read_settings = getContext()->getReadSettings().adjustBufferSize(object_size);
    read_settings.enable_filesystem_cache = false;
    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 S3 with initial prefetch", object_size);
        return createAsyncAzureReadBuffer(key, read_settings, object_size);
    }

    return object_storage->readObject(StoredObject(key), read_settings, {}, object_size);
}


std::unique_ptr<ReadBuffer> StorageAzureSource::createAsyncAzureReadBuffer(
    const String & key, const ReadSettings & read_settings, size_t object_size)
{
    auto context = getContext();
    auto read_buffer_creator =
        [this, read_settings, object_size]
        (const std::string & path, size_t read_until_position) -> std::unique_ptr<ReadBufferFromFileBase>
    {
        auto buffer = object_storage->readObject(StoredObject(path), read_settings, {}, object_size);
        buffer->setReadUntilPosition(read_until_position);
        return buffer;
    };

    auto s3_impl = std::make_unique<ReadBufferFromRemoteFSGather>(
        std::move(read_buffer_creator),
        StoredObjects{StoredObject{key, object_size}},
        read_settings,
        /* cache_log */nullptr);

    auto modified_settings{read_settings};
    /// FIXME: Changing this setting to default value breaks something around parquet reading
    modified_settings.remote_read_min_bytes_for_seek = modified_settings.remote_fs_buffer_size;

    auto & pool_reader = context->getThreadPoolReader(FilesystemReaderType::ASYNCHRONOUS_REMOTE_FS_READER);

    auto async_reader = std::make_unique<AsynchronousBoundedReadBuffer>(
        std::move(s3_impl), pool_reader, modified_settings,
        context->getAsyncReadCounters(), context->getFilesystemReadPrefetchesLog());

    async_reader->setReadUntilEnd();
    if (read_settings.remote_fs_prefetch)
        async_reader->prefetch(DEFAULT_PREFETCH_PRIORITY);

    return async_reader;
}


}

#endif