ClickHouse/dbms/src/Dictionaries/getDictionaryConfigurationFromAST.cpp

#include <Dictionaries/getDictionaryConfigurationFromAST.h>

#include <Poco/DOM/AutoPtr.h>
#include <Poco/DOM/Document.h>
#include <Poco/DOM/Element.h>
#include <Poco/DOM/Text.h>
#include <Poco/Util/AbstractConfiguration.h>
#include <Poco/Util/XMLConfiguration.h>
#include <IO/WriteHelpers.h>
#include <Parsers/queryToString.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/ASTFunction.h>
#include <Core/Names.h>
#include <Parsers/ASTFunctionWithKeyValueArguments.h>
#include <Parsers/ASTDictionaryAttributeDeclaration.h>
#include <Dictionaries/DictionaryFactory.h>

namespace DB
{

namespace ErrorCodes
{
    extern const int INCORRECT_DICTIONARY_DEFINITION;
}

/// There are a lot of code, but it's very simple and straightforward
/// We just convert
namespace
{

String unescapeString(const String & string)
{
    if (!string.empty() && string.front() == '\'' && string.back() == '\'')
        return string.substr(1, string.size() - 2);
    return string;
}


using namespace Poco;
using namespace Poco::XML;
/*
 * Transforms next definition
 *  LIFETIME(MIN 10, MAX 100)
 * to the next configuration
 *  <lifetime>
 *    <min>10</min>
 *    <max>100</max>
 *  </lifetime>
 */
void buildLifetimeConfiguration(
    AutoPtr<Document> doc,
    AutoPtr<Element> root,
    const ASTDictionaryLifetime * lifetime)
{

    AutoPtr<Element> lifetime_element(doc->createElement("lifetime"));
    AutoPtr<Element> min_element(doc->createElement("min"));
    AutoPtr<Element> max_element(doc->createElement("max"));
    AutoPtr<Text> min_sec(doc->createTextNode(toString(lifetime->min_sec)));
    min_element->appendChild(min_sec);
    AutoPtr<Text> max_sec(doc->createTextNode(toString(lifetime->max_sec)));
    max_element->appendChild(max_sec);
    lifetime_element->appendChild(min_element);
    lifetime_element->appendChild(max_element);
    root->appendChild(lifetime_element);
}

/*
 * Transforms next definition
 *  LAYOUT(FLAT())
 * to the next configuration
 *  <layout>
 *    <flat/>
 *  </layout>
 *
 * And next definition
 *  LAYOUT(CACHE(SIZE_IN_CELLS 1000))
 * to the next one
 *  <layout>
 *    <cache>
 *      <size_in_cells>1000</size_in_cells>
 *    </cache>
 *  </layout>
 */
void buildLayoutConfiguration(
    AutoPtr<Document> doc,
    AutoPtr<Element> root,
    const ASTDictionaryLayout * layout)
{
    AutoPtr<Element> layout_element(doc->createElement("layout"));
    root->appendChild(layout_element);
    AutoPtr<Element> layout_type_element(doc->createElement(layout->layout_type));
    layout_element->appendChild(layout_type_element);
    if (layout->parameter.has_value())
    {
        const auto & param = layout->parameter;
        AutoPtr<Element> layout_type_parameter_element(doc->createElement(param->first));
        const ASTLiteral & literal = param->second->as<const ASTLiteral &>();
        AutoPtr<Text> value(doc->createTextNode(toString(literal.value.get<UInt64>())));
        layout_type_parameter_element->appendChild(value);
        layout_type_element->appendChild(layout_type_parameter_element);
    }
}

/*
 * Transforms next definition
 *  RANGE(MIN StartDate, MAX EndDate)
 * to the next configuration
 *  <range_min><name>StartDate</name></range_min>
 *  <range_max><name>EndDate</name></range_max>
 */
void buildRangeConfiguration(AutoPtr<Document> doc, AutoPtr<Element> root, const ASTDictionaryRange * range)
{
    // appends <key><name>value</name></key> to root
    auto appendElem = [&doc, &root](const std::string & key, const std::string & value)
    {
        AutoPtr<Element> element(doc->createElement(key));
        AutoPtr<Element> name(doc->createElement("name"));
        AutoPtr<Text> text(doc->createTextNode(value));
        name->appendChild(text);
        element->appendChild(name);
        root->appendChild(element);
    };

    appendElem("range_min", range->min_attr_name);
    appendElem("range_max", range->max_attr_name);
}


/// Get primary key columns names from AST
Names getPrimaryKeyColumns(const ASTExpressionList * primary_key)
{
    Names result;
    const auto & children = primary_key->children;

    for (size_t index = 0; index != children.size(); ++index)
    {
        const ASTIdentifier * key_part = children[index]->as<const ASTIdentifier>();
        result.push_back(key_part->name);
    }
    return result;
}

/**
  * Transofrms single dictionary attribute to configuration
  *  third_column UInt8 DEFAULT 2 EXPRESSION rand() % 100 * 77
  * to
  *  <attribute>
  *      <name>third_column</name>
  *      <type>UInt8</type>
  *      <null_value>2</null_value>
  *      <expression>(rand() % 100) * 77</expression>
  *  </attribute>
  */
void buildSingleAttribute(
    AutoPtr<Document> doc,
    AutoPtr<Element> root,
    const ASTDictionaryAttributeDeclaration * dict_attr)
{
    AutoPtr<Element> attribute_element(doc->createElement("attribute"));
    root->appendChild(attribute_element);

    AutoPtr<Element> name_element(doc->createElement("name"));
    AutoPtr<Text> name(doc->createTextNode(dict_attr->name));
    name_element->appendChild(name);
    attribute_element->appendChild(name_element);

    AutoPtr<Element> type_element(doc->createElement("type"));
    AutoPtr<Text> type(doc->createTextNode(queryToString(dict_attr->type)));
    type_element->appendChild(type);
    attribute_element->appendChild(type_element);

     AutoPtr<Element> null_value_element(doc->createElement("null_value"));
     String null_value_str;
     if (dict_attr->default_value)
         null_value_str = queryToString(dict_attr->default_value);
     AutoPtr<Text> null_value(doc->createTextNode(null_value_str));
     null_value_element->appendChild(null_value);
     attribute_element->appendChild(null_value_element);

    if (dict_attr->expression != nullptr)
    {
        AutoPtr<Element> expression_element(doc->createElement("expression"));
        AutoPtr<Text> expression(doc->createTextNode(queryToString(dict_attr->expression)));
        expression_element->appendChild(expression);
        attribute_element->appendChild(expression_element);
    }

    if (dict_attr->hierarchical)
    {
        AutoPtr<Element> hierarchical_element(doc->createElement("hierarchical"));
        AutoPtr<Text> hierarchical(doc->createTextNode("true"));
        hierarchical_element->appendChild(hierarchical);
        attribute_element->appendChild(hierarchical_element);
    }

    if (dict_attr->injective)
    {
        AutoPtr<Element> injective_element(doc->createElement("injective"));
        AutoPtr<Text> injective(doc->createTextNode("true"));
        injective_element->appendChild(injective);
        attribute_element->appendChild(injective_element);
    }

    if (dict_attr->is_object_id)
    {
        AutoPtr<Element> is_object_id_element(doc->createElement("is_object_id"));
        AutoPtr<Text> is_object_id(doc->createTextNode("true"));
        is_object_id_element->appendChild(is_object_id);
        attribute_element->appendChild(is_object_id_element);
    }
}


/**
  * Transforms
  *   PRIMARY KEY Attr1 ,..., AttrN
  * to the next configuration
  *  <id><name>Attr1</name></id>
  * or
  *  <key>
  *    <attribute>
  *        <name>Attr1</name>
  *        <type>UInt8</type>
  *    </attribute>
  *    ...
  *    <attribute> fe
  *  </key>
  *
  */
void buildPrimaryKeyConfiguration(
    AutoPtr<Document> doc,
    AutoPtr<Element> root,
    bool complex,
    const Names & key_names,
    const ASTExpressionList * dictionary_attributes)
{
    if (!complex)
    {
        if (key_names.size() != 1)
            throw Exception("Primary key for simple dictionary must contain exactly one element",
                ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

        AutoPtr<Element> id_element(doc->createElement("id"));
        root->appendChild(id_element);
        AutoPtr<Element> name_element(doc->createElement("name"));
        id_element->appendChild(name_element);
        AutoPtr<Text> name(doc->createTextNode(*key_names.begin()));
        name_element->appendChild(name);
    }
    else
    {
        const auto & children = dictionary_attributes->children;
        if (children.size() < key_names.size())
            throw Exception(
                "Primary key fields count is more, than dictionary attributes count.", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

        AutoPtr<Element> key_element(doc->createElement("key"));
        root->appendChild(key_element);
        for (const auto & key_name : key_names)
        {
            bool found = false;
            for (const auto & attr : children)
            {
                const ASTDictionaryAttributeDeclaration * dict_attr = attr->as<const ASTDictionaryAttributeDeclaration>();
                if (dict_attr->name == key_name)
                {
                    found = true;
                    buildSingleAttribute(doc, key_element, dict_attr);
                    break;
                }
            }
            if (!found)
                throw Exception(
                    "Primary key field '" + key_name + "' not found among attributes.", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);
        }
    }
}


/**
  * Transforms list of ASTDictionaryAttributeDeclarations to list of dictionary attributes
  */
std::unordered_set<std::string> buildDictionaryAttributesConfiguration(
    AutoPtr<Document> doc,
    AutoPtr<Element> root,
    const ASTExpressionList * dictionary_attributes,
    const Names & key_columns)
{
    const auto & children = dictionary_attributes->children;
    std::unordered_set<std::string> dictionary_attributes_names;
    for (size_t i = 0; i < children.size(); ++i)
    {
        const ASTDictionaryAttributeDeclaration * dict_attr = children[i]->as<const ASTDictionaryAttributeDeclaration>();
        if (!dict_attr->type)
            throw Exception("Dictionary attribute must has type", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

        dictionary_attributes_names.insert(dict_attr->name);
        if (std::find(key_columns.begin(), key_columns.end(), dict_attr->name) == key_columns.end())
            buildSingleAttribute(doc, root, dict_attr);
    }
    return dictionary_attributes_names;
}

/** Transform function with key-value arguments to configuration
  * (used for source transformation)
  */
void buildConfigurationFromFunctionWithKeyValueArguments(
    AutoPtr<Document> doc,
    AutoPtr<Element> root,
    const ASTExpressionList * ast_expr_list)
{
    const auto & children = ast_expr_list->children;
    for (size_t i = 0; i != children.size(); ++i)
    {
        const ASTPair * pair = children[i]->as<const ASTPair>();
        AutoPtr<Element> current_xml_element(doc->createElement(pair->first));
        root->appendChild(current_xml_element);

        if (auto identifier = pair->second->as<const ASTIdentifier>(); identifier)
        {
            AutoPtr<Text> value(doc->createTextNode(identifier->name));
            current_xml_element->appendChild(value);
        }
        else if (auto literal = pair->second->as<const ASTLiteral>(); literal)
        {
            String str_literal = applyVisitor(FieldVisitorToString(), literal->value);
            AutoPtr<Text> value(doc->createTextNode(unescapeString(str_literal)));
            current_xml_element->appendChild(value);
        }
        else if (auto list = pair->second->as<const ASTExpressionList>(); list)
        {
            buildConfigurationFromFunctionWithKeyValueArguments(doc, current_xml_element, list);
        }
        else
        {
            throw Exception(
                "Incorrect ASTPair contains wrong value, should be literal, identifier or list",
                ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);
        }
    }
}

/** Build source definition from ast.
  *   SOURCE(MYSQL(HOST 'localhost' PORT 9000 USER 'default' REPLICA(HOST '127.0.0.1' PRIORITY 1) PASSWORD ''))
  * to
  *   <source>
  *       <mysql>
  *           <host>localhost</host>
  *           ...
  *           <replica>
  *               <host>127.0.0.1</host>
  *               ...
  *           </replica>
  *       </mysql>
  *   </source>
  */
void buildSourceConfiguration(AutoPtr<Document> doc, AutoPtr<Element> root, const ASTFunctionWithKeyValueArguments * source)
{
    AutoPtr<Element> outer_element(doc->createElement("source"));
    root->appendChild(outer_element);
    AutoPtr<Element> source_element(doc->createElement(source->name));
    outer_element->appendChild(source_element);
    buildConfigurationFromFunctionWithKeyValueArguments(doc, source_element, source->elements->as<const ASTExpressionList>());
}

/** Check all AST fields are filled, throws exception
  * in other case
  */
void checkAST(const ASTCreateQuery & query)
{
    if (!query.is_dictionary || query.dictionary == nullptr)
        throw Exception("Cannot convert dictionary to configuration from non-dictionary AST.", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

    if (query.dictionary_attributes_list == nullptr || query.dictionary_attributes_list->children.empty())
        throw Exception("Cannot create dictionary with empty attributes list", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

    if (query.dictionary->layout == nullptr)
        throw Exception("Cannot create dictionary with empty layout", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

    if (query.dictionary->lifetime == nullptr)
        throw Exception("Cannot create dictionary with empty lifetime", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

    if (query.dictionary->primary_key == nullptr)
        throw Exception("Cannot create dictionary without primary key", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

    if (query.dictionary->source == nullptr)
        throw Exception("Cannot create dictionary with empty source", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);

    /// Range can be empty
}

void checkPrimaryKey(const std::unordered_set<std::string> & all_attrs, const Names & key_attrs)
{
    for (const auto & key_attr : key_attrs)
        if (all_attrs.count(key_attr) == 0)
            throw Exception("Unknown key attribute '" + key_attr + "'", ErrorCodes::INCORRECT_DICTIONARY_DEFINITION);
}

}


DictionaryConfigurationPtr getDictionaryConfigurationFromAST(const ASTCreateQuery & query)
{
    checkAST(query);

    AutoPtr<Poco::XML::Document> xml_document(new Poco::XML::Document());
    AutoPtr<Poco::XML::Element> document_root(xml_document->createElement("dictionaries"));
    xml_document->appendChild(document_root);
    AutoPtr<Poco::XML::Element> current_dictionary(xml_document->createElement("dictionary"));
    document_root->appendChild(current_dictionary);
    AutoPtr<Poco::Util::XMLConfiguration> conf(new Poco::Util::XMLConfiguration());

    AutoPtr<Poco::XML::Element> name_element(xml_document->createElement("name"));
    current_dictionary->appendChild(name_element);
    AutoPtr<Text> name(xml_document->createTextNode(query.database + "." + query.table));
    name_element->appendChild(name);

    AutoPtr<Element> structure_element(xml_document->createElement("structure"));
    current_dictionary->appendChild(structure_element);
    Names pk_attrs = getPrimaryKeyColumns(query.dictionary->primary_key);
    auto dictionary_layout = query.dictionary->layout;

    bool complex = DictionaryFactory::instance().isComplex(dictionary_layout->layout_type);

    auto all_attr_names = buildDictionaryAttributesConfiguration(xml_document, structure_element, query.dictionary_attributes_list, pk_attrs);
    checkPrimaryKey(all_attr_names, pk_attrs);

    buildPrimaryKeyConfiguration(xml_document, structure_element, complex, pk_attrs, query.dictionary_attributes_list);

    buildLayoutConfiguration(xml_document, current_dictionary, dictionary_layout);
    buildSourceConfiguration(xml_document, current_dictionary, query.dictionary->source);
    buildLifetimeConfiguration(xml_document, current_dictionary, query.dictionary->lifetime);

    if (query.dictionary->range)
        buildRangeConfiguration(xml_document, structure_element, query.dictionary->range);

    conf->load(xml_document);
    return conf;
}

}