blob: fd7f52eca2690ef9e4dcedd91dc054b2e81b9e0e [file] [log] [blame]
/*
* Copyright (C) 2018 CESNET, https://photonics.cesnet.cz/
* Copyright (C) 2018 FIT CVUT, https://fit.cvut.cz/
*
* Written by Václav Kubernát <kubervac@fit.cvut.cz>
*
*/
#pragma once
#include <boost/mpl/for_each.hpp>
#include <boost/spirit/home/x3.hpp>
#include <boost/spirit/home/x3/support/utility/error_reporting.hpp>
#include "ast_commands.hpp"
#include "schema.hpp"
#include "utils.hpp"
namespace x3 = boost::spirit::x3;
struct parser_context_tag;
struct keyValue_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const Schema& schema = parserContext.m_schema;
if (parserContext.m_tmpListKeys.find(ast.first) != parserContext.m_tmpListKeys.end()) {
_pass(context) = false;
parserContext.m_errorMsg = "Key \"" + ast.first + "\" was entered more than once.";
} else if (!schema.listHasKey(parserContext.m_curPath, {parserContext.m_curModule, parserContext.m_tmpListName}, ast.first)) {
_pass(context) = false;
parserContext.m_errorMsg = parserContext.m_tmpListName + " is not indexed by \"" + ast.first + "\".";
} else {
parserContext.m_tmpListKeys.insert(ast.first);
}
}
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
parserContext.m_errorMsg = "Error parsing key values here:";
return x3::error_handler_result::rethrow;
}
};
struct node_identifier_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (!parserContext.m_topLevelModulePresent) {
if (parserContext.m_errorMsg.empty())
parserContext.m_errorMsg = "You have to specify a top level module.";
_pass(context) = false;
}
}
};
struct key_identifier_class;
struct module_identifier_class;
struct listPrefix_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const Schema& schema = parserContext.m_schema;
if (schema.isList(parserContext.m_curPath, {parserContext.m_curModule, ast})) {
parserContext.m_tmpListName = ast;
} else {
_pass(context) = false;
}
}
};
struct listSuffix_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const Schema& schema = parserContext.m_schema;
const auto& keysNeeded = schema.listKeys(parserContext.m_curPath, {parserContext.m_curModule, parserContext.m_tmpListName});
std::set<std::string> keysSupplied;
for (const auto& it : ast)
keysSupplied.insert(it.first);
if (keysNeeded != keysSupplied) {
parserContext.m_errorMsg = "Not enough keys for " + parserContext.m_tmpListName + ". " +
"These keys were not supplied:";
std::set<std::string> missingKeys;
std::set_difference(keysNeeded.begin(), keysNeeded.end(),
keysSupplied.begin(), keysSupplied.end(),
std::inserter(missingKeys, missingKeys.end()));
for (const auto& it : missingKeys)
parserContext.m_errorMsg += " " + it;
parserContext.m_errorMsg += ".";
_pass(context) = false;
}
}
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_errorMsg.empty())
parserContext.m_errorMsg = "Expecting ']' here:";
return x3::error_handler_result::rethrow;
}
};
struct listElement_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_errorMsg.empty()) {
return x3::error_handler_result::fail;
} else {
return x3::error_handler_result::rethrow;
}
}
};
struct list_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const Schema& schema = parserContext.m_schema;
if (!schema.isList(parserContext.m_curPath, {parserContext.m_curModule, ast.m_name})) {
_pass(context) = false;
}
}
};
struct nodeup_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_curPath.m_nodes.empty())
_pass(context) = false;
}
};
struct container_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const auto& schema = parserContext.m_schema;
if (!schema.isContainer(parserContext.m_curPath, {parserContext.m_curModule, ast.m_name}))
_pass(context) = false;
}
};
struct leaf_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const auto& schema = parserContext.m_schema;
if (!schema.isLeaf(parserContext.m_curPath, {parserContext.m_curModule, ast.m_name}))
_pass(context) = false;
}
};
struct module_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const auto& schema = parserContext.m_schema;
if (schema.isModule(parserContext.m_curPath, ast.m_name)) {
parserContext.m_curModule = ast.m_name;
parserContext.m_topLevelModulePresent = true;
} else {
parserContext.m_errorMsg = "Invalid module name.";
_pass(context) = false;
}
}
};
struct schemaNode_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (ast.m_suffix.type() == typeid(nodeup_)) {
parserContext.m_curPath.m_nodes.pop_back();
if (parserContext.m_curPath.m_nodes.empty())
parserContext.m_topLevelModulePresent = false;
} else {
parserContext.m_curPath.m_nodes.push_back(ast);
parserContext.m_curModule = boost::none;
}
}
};
struct dataNodeList_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
parserContext.m_curPath.m_nodes.push_back(dataNodeToSchemaNode(ast));
}
};
struct dataNode_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (ast.m_suffix.type() == typeid(nodeup_)) {
parserContext.m_curPath.m_nodes.pop_back();
if (parserContext.m_curPath.m_nodes.empty())
parserContext.m_topLevelModulePresent = false;
} else {
parserContext.m_curPath.m_nodes.push_back(dataNodeToSchemaNode(ast));
parserContext.m_curModule = boost::none;
}
}
};
struct absoluteStart_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
parserContext.m_curPath.m_nodes.clear();
parserContext.m_topLevelModulePresent = false;
}
};
struct dataNodesListEnd_class;
struct dataPathListEnd_class;
struct dataPath_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_errorMsg.empty()) {
parserContext.m_errorMsg = "Expected path.";
return x3::error_handler_result::fail;
} else {
return x3::error_handler_result::rethrow;
}
}
};
struct schemaPath_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_errorMsg.empty()) {
parserContext.m_errorMsg = "Expected path.";
return x3::error_handler_result::fail;
} else {
return x3::error_handler_result::rethrow;
}
}
};
struct discard_class;
struct ls_class;
struct cd_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const& x, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_errorMsg.empty())
parserContext.m_errorMsg = "Expected " + x.which() + " here:";
return x3::error_handler_result::rethrow;
}
};
struct presenceContainerPath_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const auto& schema = parserContext.m_schema;
try {
boost::optional<std::string> module;
if (ast.m_nodes.back().m_prefix)
module = ast.m_nodes.back().m_prefix.value().m_name;
container_ cont = boost::get<container_>(ast.m_nodes.back().m_suffix);
schemaPath_ location = pathWithoutLastNode(parserContext.m_curPath);
if (!schema.isPresenceContainer(location, {module, cont.m_name})) {
parserContext.m_errorMsg = "This container is not a presence container.";
_pass(context) = false;
}
} catch (boost::bad_get&) {
parserContext.m_errorMsg = "This is not a container.";
_pass(context) = false;
}
}
};
struct listInstancePath_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (ast.m_nodes.back().m_suffix.type() != typeid(listElement_)) {
parserContext.m_errorMsg = "This is not a list instance.";
_pass(context) = false;
}
}
};
struct create_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_errorMsg.empty())
parserContext.m_errorMsg = "Couldn't parse create/delete command.";
return x3::error_handler_result::rethrow;
}
};
struct delete_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_errorMsg.empty())
parserContext.m_errorMsg = "Couldn't parse create/delete command.";
return x3::error_handler_result::rethrow;
}
};
struct leaf_path_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
try {
auto leaf = boost::get<leaf_>(ast.m_nodes.back().m_suffix);
} catch (boost::bad_get&) {
parserContext.m_errorMsg = "This is not a path to leaf.";
_pass(context) = false;
}
}
};
// This handler only checks if the module exists
// It doesn't set any ParserContext flags (except the error message)
struct data_module_prefix_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T& ast, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const auto& schema = parserContext.m_schema;
if (!schema.isModule(parserContext.m_curPath, ast.m_name)) {
parserContext.m_errorMsg = "Invalid module name.";
_pass(context) = false;
}
}
};
struct leaf_data_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
auto& schema = parserContext.m_schema;
if (parserContext.m_errorMsg.empty()) {
leaf_ leaf = boost::get<leaf_>(parserContext.m_curPath.m_nodes.back().m_suffix);
schemaPath_ location = pathWithoutLastNode(parserContext.m_curPath);
boost::optional<std::string> module;
if (parserContext.m_curPath.m_nodes.back().m_prefix)
module = parserContext.m_curPath.m_nodes.back().m_prefix.value().m_name;
parserContext.m_errorMsg = "Expected " + leafDataTypeToString(schema.leafType(location, {module, leaf.m_name})) + " here:";
return x3::error_handler_result::fail;
}
return x3::error_handler_result::rethrow;
}
};
template<yang::LeafDataTypes TYPE>
struct leaf_data_base_class {
yang::LeafDataTypes m_type;
leaf_data_base_class()
: m_type(TYPE)
{
}
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
auto& schema = parserContext.m_schema;
boost::optional<std::string> module;
if (parserContext.m_curPath.m_nodes.back().m_prefix)
module = parserContext.m_curPath.m_nodes.back().m_prefix.value().m_name;
leaf_ leaf = boost::get<leaf_>(parserContext.m_curPath.m_nodes.back().m_suffix);
schemaPath_ location = pathWithoutLastNode(parserContext.m_curPath);
if (schema.leafType(location, {module, leaf.m_name}) != m_type) {
_pass(context) = false;
}
}
};
struct leaf_data_binary_data_class;
struct leaf_data_enum_class : leaf_data_base_class<yang::LeafDataTypes::Enum> {
using leaf_data_base_class::leaf_data_base_class;
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const& start, Iterator const& end, T& ast, Context const& context)
{
leaf_data_base_class::on_success(start, end, ast, context);
// Base class on_success cannot return for us, so we check if it failed the parser.
if (_pass(context) == false)
return;
auto& parserContext = x3::get<parser_context_tag>(context);
auto& schema = parserContext.m_schema;
boost::optional<std::string> module;
if (parserContext.m_curPath.m_nodes.back().m_prefix)
module = parserContext.m_curPath.m_nodes.back().m_prefix.value().m_name;
leaf_ leaf = boost::get<leaf_>(parserContext.m_curPath.m_nodes.back().m_suffix);
schemaPath_ location = pathWithoutLastNode(parserContext.m_curPath);
if (!schema.leafEnumHasValue(location, {module, leaf.m_name}, ast.m_value)) {
_pass(context) = false;
}
}
};
struct leaf_data_identityRef_data_class;
struct leaf_data_identityRef_class : leaf_data_base_class<yang::LeafDataTypes::IdentityRef> {
using leaf_data_base_class::leaf_data_base_class;
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const& start, Iterator const& end, T& ast, Context const& context)
{
// FIXME: can I reuse leaf_data_enum_class somehow..?
leaf_data_base_class::on_success(start, end, ast, context);
// Base class on_success cannot return for us, so we check if it failed the parser.
if (_pass(context) == false)
return;
auto& parserContext = x3::get<parser_context_tag>(context);
auto& schema = parserContext.m_schema;
boost::optional<std::string> module;
if (parserContext.m_curPath.m_nodes.back().m_prefix)
module = parserContext.m_curPath.m_nodes.back().m_prefix.value().m_name;
leaf_ leaf = boost::get<leaf_>(parserContext.m_curPath.m_nodes.back().m_suffix);
schemaPath_ location = pathWithoutLastNode(parserContext.m_curPath);
ModuleValuePair pair;
if (ast.m_prefix) {
pair.first = ast.m_prefix.get().m_name;
}
pair.second = ast.m_value;
if (!schema.leafIdentityIsValid(location, {module, leaf.m_name}, pair)) {
_pass(context) = false;
}
}
};
struct set_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const& x, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (parserContext.m_errorMsg.empty())
parserContext.m_errorMsg = "Expected " + x.which() + " here:";
return x3::error_handler_result::rethrow;
}
};
struct commit_class;
struct help_class;
struct get_class;
struct command_class {
template <typename Iterator, typename Exception, typename Context>
x3::error_handler_result on_error(Iterator&, Iterator const&, Exception const& x, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
auto& error_handler = x3::get<x3::error_handler_tag>(context).get();
if (parserContext.m_errorMsg.empty()) {
parserContext.m_errorMsg = "Unknown command.";
}
error_handler(x.where(), parserContext.m_errorMsg);
return x3::error_handler_result::fail;
}
};
struct initializePath_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
parserContext.m_curPath = parserContext.m_curPathOrig;
parserContext.m_tmpListKeys.clear();
parserContext.m_tmpListName.clear();
parserContext.m_suggestions.clear();
if (!parserContext.m_curPath.m_nodes.empty() && parserContext.m_curPath.m_nodes.at(0).m_prefix)
parserContext.m_topLevelModulePresent = true;
else
parserContext.m_topLevelModulePresent = false;
}
};
struct trailingSlash_class;
struct createPathSuggestions_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const& begin, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const auto& schema = parserContext.m_schema;
parserContext.m_completionIterator = begin;
parserContext.m_suggestions = schema.childNodes(parserContext.m_curPath, Recursion::NonRecursive);
}
};
std::set<std::string> generateMissingKeyCompletionSet(std::set<std::string> keysNeeded, std::set<std::string> currentSet);
struct createKeySuggestions_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const& begin, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const auto& schema = parserContext.m_schema;
parserContext.m_completionIterator = begin;
const auto& keysNeeded = schema.listKeys(parserContext.m_curPath, {parserContext.m_curModule, parserContext.m_tmpListName});
parserContext.m_suggestions = generateMissingKeyCompletionSet(keysNeeded, parserContext.m_tmpListKeys);
}
};
struct suggestKeysEnd_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const& begin, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
const auto& schema = parserContext.m_schema;
parserContext.m_completionIterator = begin;
const auto& keysNeeded = schema.listKeys(parserContext.m_curPath, {parserContext.m_curModule, parserContext.m_tmpListName});
if (generateMissingKeyCompletionSet(keysNeeded, parserContext.m_tmpListKeys).empty()) {
parserContext.m_suggestions = {"]/"};
} else {
parserContext.m_suggestions = {"]["};
}
}
};
struct suggestKeysStart_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
parserContext.m_completionSuffix = "[";
}
};
struct commandNamesVisitor {
template <typename T>
auto operator()(boost::type<T>)
{
return T::name;
}
};
struct createCommandSuggestions_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const& begin, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
parserContext.m_completionIterator = begin;
parserContext.m_suggestions.clear();
boost::mpl::for_each<CommandTypes, boost::type<boost::mpl::_>>([&parserContext](auto cmd) {
parserContext.m_suggestions.emplace(commandNamesVisitor()(cmd));
});
}
};
struct completing_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const&, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
if (!parserContext.m_completing)
_pass(context) = false;
}
};
struct createEnumSuggestions_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const& begin, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
parserContext.m_completionIterator = begin;
const Schema& schema = parserContext.m_schema;
boost::optional<std::string> module;
if (parserContext.m_curPath.m_nodes.back().m_prefix)
module = parserContext.m_curPath.m_nodes.back().m_prefix.value().m_name;
leaf_ leaf = boost::get<leaf_>(parserContext.m_curPath.m_nodes.back().m_suffix);
schemaPath_ location = pathWithoutLastNode(parserContext.m_curPath);
// Only generate completions if the type is enum so that we don't
// overwrite some other completions.
if (schema.leafType(location, {module, leaf.m_name}) == yang::LeafDataTypes::Enum)
parserContext.m_suggestions = schema.enumValues(location, {module, leaf.m_name});
}
};
// FIXME: can I reuse createEnumSuggestions?
struct createIdentitySuggestions_class {
template <typename T, typename Iterator, typename Context>
void on_success(Iterator const& begin, Iterator const&, T&, Context const& context)
{
auto& parserContext = x3::get<parser_context_tag>(context);
parserContext.m_completionIterator = begin;
const Schema& schema = parserContext.m_schema;
boost::optional<std::string> module;
if (parserContext.m_curPath.m_nodes.back().m_prefix)
module = parserContext.m_curPath.m_nodes.back().m_prefix.value().m_name;
leaf_ leaf = boost::get<leaf_>(parserContext.m_curPath.m_nodes.back().m_suffix);
schemaPath_ location = pathWithoutLastNode(parserContext.m_curPath);
// Only generate completions if the type is identityref so that we
// don't overwrite some other completions.
if (schema.leafType(location, {module, leaf.m_name}) == yang::LeafDataTypes::IdentityRef)
parserContext.m_suggestions = schema.validIdentities(location, {module, leaf.m_name}, Prefixes::WhenNeeded);
}
};