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Václav Kubernátd0ea9b22020-04-24 00:44:15 +02001/*
2 * Copyright (C) 2020 CESNET, https://photonics.cesnet.cz/
3 *
4 * Written by Václav Kubernát <kubernat@cesnet.cz>
5 *
6*/
7
8#pragma once
9
10#include <boost/spirit/home/x3.hpp>
11#include "ast_handlers.hpp"
12#include "common_parsers.hpp"
13#include "leaf_data.hpp"
14
15namespace x3 = boost::spirit::x3;
16
Václav Kubernáte7248b22020-06-26 15:38:59 +020017x3::rule<cdPath_class, dataPath_> const cdPath = "cdPath";
18x3::rule<rpcPath_class, dataPath_> const rpcPath = "rpcPath";
Václav Kubernátd0ea9b22020-04-24 00:44:15 +020019x3::rule<presenceContainerPath_class, dataPath_> const presenceContainerPath = "presenceContainerPath";
20x3::rule<listInstancePath_class, dataPath_> const listInstancePath = "listInstancePath";
Václav Kubernát5b8a8f32020-05-20 00:57:22 +020021x3::rule<leafListElementPath_class, dataPath_> const leafListElementPath = "leafListElementPath";
Václav Kubernátd0ea9b22020-04-24 00:44:15 +020022x3::rule<initializePath_class, x3::unused_type> const initializePath = "initializePath";
Václav Kubernátd0ea9b22020-04-24 00:44:15 +020023x3::rule<trailingSlash_class, TrailingSlash> const trailingSlash = "trailingSlash";
Václav Kubernátd0ea9b22020-04-24 00:44:15 +020024x3::rule<absoluteStart_class, Scope> const absoluteStart = "absoluteStart";
25x3::rule<keyValue_class, keyValue_> const keyValue = "keyValue";
26x3::rule<key_identifier_class, std::string> const key_identifier = "key_identifier";
Václav Kubernátd0ea9b22020-04-24 00:44:15 +020027x3::rule<listSuffix_class, std::vector<keyValue_>> const listSuffix = "listSuffix";
Václav Kubernátd0ea9b22020-04-24 00:44:15 +020028x3::rule<createKeySuggestions_class, x3::unused_type> const createKeySuggestions = "createKeySuggestions";
29x3::rule<createValueSuggestions_class, x3::unused_type> const createValueSuggestions = "createValueSuggestions";
30x3::rule<suggestKeysEnd_class, x3::unused_type> const suggestKeysEnd = "suggestKeysEnd";
Václav Kubernát5b8a8f32020-05-20 00:57:22 +020031x3::rule<class leafListValue_class, leaf_data_> const leafListValue = "leafListValue";
Václav Kubernátd0ea9b22020-04-24 00:44:15 +020032
Václav Kubernát4a58ce62020-05-14 17:58:10 +020033enum class NodeParserMode {
34 CompleteDataNode,
35 IncompleteDataNode,
36 CompletionsOnly,
37 SchemaNode
38};
39
40template <auto>
41struct ModeToAttribute;
42template <>
43struct ModeToAttribute<NodeParserMode::CompleteDataNode> {
44 using type = dataNode_;
45};
46template <>
47struct ModeToAttribute<NodeParserMode::IncompleteDataNode> {
48 using type = dataNode_;
49};
50template <>
51struct ModeToAttribute<NodeParserMode::SchemaNode> {
52 using type = schemaNode_;
53};
54// The CompletionsOnly attribute is dataNode_ only because of convenience:
55// having the same return type means we can get by without a ton of `if constexpr` stanzas.
56// So the code will still "parse data into the target attr" for simplicity.
57template <>
58struct ModeToAttribute<NodeParserMode::CompletionsOnly> {
59 using type = dataNode_;
60};
61
Václav Kubernát743d9eb2020-05-18 13:42:36 +020062enum class CompletionMode {
63 Schema,
64 Data
65};
Václav Kubernát5b8a8f32020-05-20 00:57:22 +020066
Václav Kubernát743d9eb2020-05-18 13:42:36 +020067template <NodeParserMode PARSER_MODE, CompletionMode COMPLETION_MODE>
68struct NodeParser : x3::parser<NodeParser<PARSER_MODE, COMPLETION_MODE>> {
Václav Kubernát4a58ce62020-05-14 17:58:10 +020069 using attribute_type = typename ModeToAttribute<PARSER_MODE>::type;
Václav Kubernátabf52802020-05-19 01:31:17 +020070
71 std::function<bool(const Schema&, const std::string& path)> m_filterFunction;
72
73 NodeParser(const std::function<bool(const Schema&, const std::string& path)>& filterFunction)
74 : m_filterFunction(filterFunction)
75 {
76 }
77
Václav Kubernát4a58ce62020-05-14 17:58:10 +020078 // GCC complains that `end` isn't used when doing completions only
79 // FIXME: GCC 10.1 doesn't emit a warning here. Remove [[maybe_unused]] when GCC 10 is available
Václav Kubernát60a0ed52020-04-28 15:21:33 +020080 template <typename It, typename Ctx, typename RCtx, typename Attr>
Václav Kubernát4a58ce62020-05-14 17:58:10 +020081 bool parse(It& begin, [[maybe_unused]] It end, Ctx const& ctx, RCtx& rctx, Attr& attr) const
Václav Kubernát60a0ed52020-04-28 15:21:33 +020082 {
Václav Kubernátdd5945a2020-05-05 01:24:23 +020083 std::string tableName;
Václav Kubernát4a58ce62020-05-14 17:58:10 +020084 if constexpr (std::is_same<attribute_type, schemaNode_>()) {
Václav Kubernátdd5945a2020-05-05 01:24:23 +020085 tableName = "schemaNode";
86 } else {
87 tableName = "dataNode";
88 }
Václav Kubernát4a58ce62020-05-14 17:58:10 +020089 x3::symbols<attribute_type> table(tableName);
Václav Kubernát60a0ed52020-04-28 15:21:33 +020090
91 ParserContext& parserContext = x3::get<parser_context_tag>(ctx);
92 parserContext.m_suggestions.clear();
93 for (const auto& child : parserContext.m_schema.availableNodes(parserContext.currentSchemaPath(), Recursion::NonRecursive)) {
Václav Kubernát4a58ce62020-05-14 17:58:10 +020094 attribute_type out;
Václav Kubernát60a0ed52020-04-28 15:21:33 +020095 std::string parseString;
96 if (child.first) {
97 out.m_prefix = module_{*child.first};
98 parseString = *child.first + ":";
99 }
100 parseString += child.second;
Václav Kubernátabf52802020-05-19 01:31:17 +0200101
102 if (!m_filterFunction(parserContext.m_schema, joinPaths(pathToSchemaString(parserContext.currentSchemaPath(), Prefixes::Always), parseString))) {
103 continue;
104 }
105
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200106 switch (parserContext.m_schema.nodeType(parserContext.currentSchemaPath(), child)) {
107 case yang::NodeTypes::Container:
108 case yang::NodeTypes::PresenceContainer:
109 out.m_suffix = container_{child.second};
110 parserContext.m_suggestions.emplace(Completion{parseString + "/"});
111 break;
112 case yang::NodeTypes::Leaf:
113 out.m_suffix = leaf_{child.second};
114 parserContext.m_suggestions.emplace(Completion{parseString + " "});
115 break;
116 case yang::NodeTypes::List:
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200117 if constexpr (std::is_same<attribute_type, schemaNode_>()) {
Václav Kubernátdd5945a2020-05-05 01:24:23 +0200118 out.m_suffix = list_{child.second};
119 } else {
120 out.m_suffix = listElement_{child.second, {}};
121 }
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200122
123 if constexpr (COMPLETION_MODE == CompletionMode::Schema) {
124 parserContext.m_suggestions.emplace(Completion{parseString + "/"});
125 } else {
126 parserContext.m_suggestions.emplace(Completion{parseString, "[", Completion::WhenToAdd::IfFullMatch});
127 }
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200128 break;
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200129 case yang::NodeTypes::LeafList:
130 if constexpr (std::is_same<attribute_type, schemaNode_>()) {
131 out.m_suffix = leafList_{child.second};
132 } else {
133 out.m_suffix = leafListElement_{child.second, {}};
134 }
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200135
136 if constexpr (COMPLETION_MODE == CompletionMode::Schema) {
137 parserContext.m_suggestions.emplace(Completion{parseString + "/"});
138 } else {
139 parserContext.m_suggestions.emplace(Completion{parseString, "[", Completion::WhenToAdd::IfFullMatch});
140 }
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200141 break;
Václav Kubernáte7248b22020-06-26 15:38:59 +0200142 case yang::NodeTypes::Rpc:
143 out.m_suffix = rpcNode_{child.second};
144 parserContext.m_suggestions.emplace(Completion{parseString + "/"});
145 break;
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200146 case yang::NodeTypes::Action:
Václav Kubernátaa4250a2020-07-22 00:02:23 +0200147 out.m_suffix = actionNode_{child.second};
148 parserContext.m_suggestions.emplace(Completion{parseString + "/"});
149 break;
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200150 case yang::NodeTypes::AnyXml:
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200151 case yang::NodeTypes::Notification:
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200152 continue;
153 }
154 table.add(parseString, out);
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200155 if (!child.first) {
156 auto topLevelModule = parserContext.currentSchemaPath().m_nodes.begin()->m_prefix;
157 out.m_prefix = topLevelModule;
158 table.add(topLevelModule->m_name + ":" + parseString, out);
159 }
160 }
Václav Kubernátaed4bc72020-06-08 01:09:25 +0200161 table.add("..", attribute_type{nodeup_{}});
Václav Kubernátdd5945a2020-05-05 01:24:23 +0200162 parserContext.m_completionIterator = begin;
Václav Kubernátdd5945a2020-05-05 01:24:23 +0200163
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200164 if constexpr (PARSER_MODE == NodeParserMode::CompletionsOnly) {
165 return true;
166 } else {
167 It saveIter;
168 // GCC complains that I assign saveIter because I use it only if NodeType is dataNode_
169 // FIXME: GCC 10.1 doesn't emit a warning here. Make this unconditional when GCC 10 is available.
170 if constexpr (std::is_same<attribute_type, dataNode_>()) {
171 saveIter = begin;
Václav Kubernátdd5945a2020-05-05 01:24:23 +0200172 }
Václav Kubernátdd5945a2020-05-05 01:24:23 +0200173
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200174 auto res = table.parse(begin, end, ctx, rctx, attr);
Václav Kubernátdd5945a2020-05-05 01:24:23 +0200175
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200176 if (std::holds_alternative<leaf_>(attr.m_suffix)) {
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200177 parserContext.m_tmpListKeyLeafPath.m_location = parserContext.currentSchemaPath();
178 ModuleNodePair node{attr.m_prefix.flat_map([](const auto& it) {
179 return boost::optional<std::string>{it.m_name};
180 }),
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200181 std::get<leaf_>(attr.m_suffix).m_name};
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200182 parserContext.m_tmpListKeyLeafPath.m_node = node;
183 }
184
185 if constexpr (std::is_same<attribute_type, dataNode_>()) {
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200186 if (std::holds_alternative<listElement_>(attr.m_suffix)) {
Václav Kubernát2db124c2020-05-28 21:58:36 +0200187 parserContext.m_tmpListPath = parserContext.currentDataPath();
188 auto tmpList = list_{std::get<listElement_>(attr.m_suffix).m_name};
Václav Kubernátfaacd022020-07-08 16:44:38 +0200189 parserContext.m_tmpListPath.m_nodes.emplace_back(attr.m_prefix, tmpList);
Václav Kubernát2db124c2020-05-28 21:58:36 +0200190
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200191 res = listSuffix.parse(begin, end, ctx, rctx, std::get<listElement_>(attr.m_suffix).m_keys);
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200192
193 // FIXME: think of a better way to do this, that is, get rid of manual iterator reverting
194 if (!res) {
195 // If listSuffix didn't succeed, we check, if we allow incomplete nodes. If we do, then we replace listElement_ with list_.
196 // If we don't, we fail the whole symbol table.
197 if constexpr (PARSER_MODE == NodeParserMode::IncompleteDataNode) {
198 res = true;
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200199 attr.m_suffix = list_{std::get<listElement_>(attr.m_suffix).m_name};
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200200 } else {
201 begin = saveIter;
202 }
203 }
204 }
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200205
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200206 if (std::holds_alternative<leafListElement_>(attr.m_suffix)) {
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200207 parserContext.m_tmpListKeyLeafPath.m_location = parserContext.currentSchemaPath();
208 ModuleNodePair node{attr.m_prefix.flat_map([](const auto& it) {
209 return boost::optional<std::string>{it.m_name};
210 }),
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200211 std::get<leafListElement_>(attr.m_suffix).m_name};
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200212 parserContext.m_tmpListKeyLeafPath.m_node = node;
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200213 res = leafListValue.parse(begin, end, ctx, rctx, std::get<leafListElement_>(attr.m_suffix).m_value);
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200214
215 if (!res) {
216 if constexpr (PARSER_MODE == NodeParserMode::IncompleteDataNode) {
217 res = true;
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200218 attr.m_suffix = leafList_{std::get<leafListElement_>(attr.m_suffix).m_name};
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200219 } else {
220 begin = saveIter;
221 }
222 }
223 }
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200224 }
225
226 if (res) {
227 parserContext.pushPathFragment(attr);
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200228 }
229
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200230 return res;
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200231 }
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200232 }
Václav Kubernátdd5945a2020-05-05 01:24:23 +0200233};
234
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200235template <CompletionMode COMPLETION_MODE> using schemaNode = NodeParser<NodeParserMode::SchemaNode, COMPLETION_MODE>;
236template <CompletionMode COMPLETION_MODE> using dataNode = NodeParser<NodeParserMode::CompleteDataNode, COMPLETION_MODE>;
237template <CompletionMode COMPLETION_MODE> using incompleteDataNode = NodeParser<NodeParserMode::IncompleteDataNode, COMPLETION_MODE>;
238template <CompletionMode COMPLETION_MODE> using pathCompletions = NodeParser<NodeParserMode::CompletionsOnly, COMPLETION_MODE>;
Václav Kubernát60a0ed52020-04-28 15:21:33 +0200239
Václav Kubernát4618fa42020-05-07 01:33:19 +0200240using AnyPath = boost::variant<schemaPath_, dataPath_>;
241
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200242enum class PathParserMode {
243 AnyPath,
244 DataPath,
245 DataPathListEnd
246};
247
248template <>
249struct ModeToAttribute<PathParserMode::AnyPath> {
250 using type = AnyPath;
251};
252
253template <>
254struct ModeToAttribute<PathParserMode::DataPath> {
255 using type = dataPath_;
256};
257
258template <>
259struct ModeToAttribute<PathParserMode::DataPathListEnd> {
260 using type = dataPath_;
261};
262
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200263template <PathParserMode PARSER_MODE, CompletionMode COMPLETION_MODE>
264struct PathParser : x3::parser<PathParser<PARSER_MODE, COMPLETION_MODE>> {
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200265 using attribute_type = ModeToAttribute<PARSER_MODE>;
Václav Kubernátabf52802020-05-19 01:31:17 +0200266 std::function<bool(const Schema&, const std::string& path)> m_filterFunction;
267
268 PathParser(const std::function<bool(const Schema&, const std::string& path)>& filterFunction = [] (const auto&, const auto&) {return true;})
269 : m_filterFunction(filterFunction)
270 {
271 }
272
Václav Kubernát4618fa42020-05-07 01:33:19 +0200273 template <typename It, typename Ctx, typename RCtx, typename Attr>
274 bool parse(It& begin, It end, Ctx const& ctx, RCtx& rctx, Attr& attr) const
275 {
Václav Kubernát74d35a42020-05-15 15:29:16 +0200276 initializePath.parse(begin, end, ctx, rctx, x3::unused);
Václav Kubernát4618fa42020-05-07 01:33:19 +0200277 dataPath_ attrData;
278
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200279 auto pathEnd = x3::rule<class PathEnd>{"pathEnd"} = &space_separator | x3::eoi;
Václav Kubernát4618fa42020-05-07 01:33:19 +0200280 // absoluteStart has to be separate from the dataPath parser,
281 // otherwise, if the "dataNode % '/'" parser fails, the begin iterator
282 // gets reverted to before the starting slash.
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200283 auto res = (-absoluteStart).parse(begin, end, ctx, rctx, attrData.m_scope);
284 auto dataPath = x3::attr(attrData.m_scope)
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200285 >> (dataNode<COMPLETION_MODE>{m_filterFunction} % '/' | pathEnd >> x3::attr(std::vector<dataNode_>{}))
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200286 >> -trailingSlash;
Václav Kubernát4618fa42020-05-07 01:33:19 +0200287 res = dataPath.parse(begin, end, ctx, rctx, attrData);
Václav Kubernát4618fa42020-05-07 01:33:19 +0200288
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200289 // If we allow data paths with a list at the end, we just try to parse that separately.
290 if constexpr (PARSER_MODE == PathParserMode::DataPathListEnd || PARSER_MODE == PathParserMode::AnyPath) {
Václav Kubernát4618fa42020-05-07 01:33:19 +0200291 if (!res || !pathEnd.parse(begin, end, ctx, rctx, x3::unused)) {
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200292 dataNode_ attrNodeList;
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200293 res = incompleteDataNode<COMPLETION_MODE>{m_filterFunction}.parse(begin, end, ctx, rctx, attrNodeList);
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200294 if (res) {
Václav Kubernátfaacd022020-07-08 16:44:38 +0200295 attrData.m_nodes.emplace_back(attrNodeList);
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200296 // If the trailing slash matches, no more nodes are parsed.
297 // That means no more completion. So, I generate them
298 // manually.
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200299 res = (-(trailingSlash >> x3::omit[pathCompletions<COMPLETION_MODE>{m_filterFunction}])).parse(begin, end, ctx, rctx, attrData.m_trailingSlash);
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200300 }
301 }
302 }
303
304 attr = attrData;
305 if constexpr (PARSER_MODE == PathParserMode::AnyPath) {
306 // If our data path already has some listElement_ fragments, we can't parse rest of the path as a schema path
307 auto hasLists = std::any_of(attrData.m_nodes.begin(), attrData.m_nodes.end(),
Václav Kubernátb5ca1542020-05-27 01:03:54 +0200308 [] (const auto& node) { return std::holds_alternative<listElement_>(node.m_suffix); });
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200309 // If parsing failed, or if there's more input we try parsing schema nodes.
310 if (!hasLists) {
311 if (!res || !pathEnd.parse(begin, end, ctx, rctx, x3::unused)) {
312 // If dataPath parsed some nodes, they will be saved in `attrData`. We have to keep these.
313 schemaPath_ attrSchema = dataPathToSchemaPath(attrData);
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200314 auto schemaPath = schemaNode<COMPLETION_MODE>{m_filterFunction} % '/';
Václav Kubernát4a58ce62020-05-14 17:58:10 +0200315 // The schemaPath parser continues where the dataPath parser ended.
316 res = schemaPath.parse(begin, end, ctx, rctx, attrSchema.m_nodes);
317 auto trailing = -trailingSlash >> pathEnd;
318 res = trailing.parse(begin, end, ctx, rctx, attrSchema.m_trailingSlash);
319 attr = attrSchema;
320 }
Václav Kubernát4618fa42020-05-07 01:33:19 +0200321 }
322 }
323 return res;
324 }
Václav Kubernát74d35a42020-05-15 15:29:16 +0200325};
Václav Kubernát4618fa42020-05-07 01:33:19 +0200326
327// Need to use these wrappers so that my PathParser class gets the proper
328// attribute. Otherwise, Spirit injects the attribute of the outer parser that
329// uses my PathParser.
330// Example grammar: anyPath | module.
331// The PathParser class would get a boost::variant as the attribute, but I
332// don't want to deal with that, so I use these wrappers to ensure the
Václav Kubernát74d35a42020-05-15 15:29:16 +0200333// attribute I want (and let Spirit deal with boost::variant).
Václav Kubernát743d9eb2020-05-18 13:42:36 +0200334auto const anyPath = x3::rule<class anyPath_class, AnyPath>{"anyPath"} = PathParser<PathParserMode::AnyPath, CompletionMode::Schema>{};
335auto const dataPath = x3::rule<class dataPath_class, dataPath_>{"dataPath"} = PathParser<PathParserMode::DataPath, CompletionMode::Data>{};
336auto const dataPathListEnd = x3::rule<class dataPath_class, dataPath_>{"dataPath"} = PathParser<PathParserMode::DataPathListEnd, CompletionMode::Data>{};
Václav Kubernát4618fa42020-05-07 01:33:19 +0200337
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200338#if __clang__
339#pragma GCC diagnostic push
340#pragma GCC diagnostic ignored "-Woverloaded-shift-op-parentheses"
341#endif
342
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200343struct SuggestLeafListEnd : x3::parser<SuggestLeafListEnd> {
344 using attribute_type = x3::unused_type;
345 template <typename It, typename Ctx, typename RCtx, typename Attr>
346 bool parse(It& begin, It, Ctx const& ctx, RCtx&, Attr&) const
347 {
348 auto& parserContext = x3::get<parser_context_tag>(ctx);
349 parserContext.m_completionIterator = begin;
350 parserContext.m_suggestions = {Completion{"]"}};
351
352 return true;
353 }
354} const suggestLeafListEnd;
355
356auto const leafListValue_def =
357 '[' >> leaf_data >> suggestLeafListEnd >> ']';
358
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200359auto const rest =
360 x3::omit[x3::no_skip[+(x3::char_ - '/' - space_separator)]];
361
362auto const key_identifier_def =
363 x3::lexeme[
364 ((x3::alpha | char_("_")) >> *(x3::alnum | char_("_") | char_("-") | char_(".")))
365 ];
366
367auto const createKeySuggestions_def =
368 x3::eps;
369
370auto const createValueSuggestions_def =
371 x3::eps;
372
373auto const suggestKeysEnd_def =
374 x3::eps;
375
376auto const keyValue_def =
377 key_identifier > '=' > createValueSuggestions > leaf_data;
378
379auto const keyValueWrapper =
Václav Kubernát9fa5dca2020-06-01 03:56:41 +0200380 x3::no_skip['[' > createKeySuggestions > keyValue > suggestKeysEnd > ']'];
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200381
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200382// even though we don't allow no keys to be supplied, the star allows me to check which keys are missing
383auto const listSuffix_def =
384 *keyValueWrapper;
385
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200386auto const list_def =
387 node_identifier >> !char_('[');
388
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200389auto const absoluteStart_def =
390 x3::omit['/'] >> x3::attr(Scope::Absolute);
391
392auto const trailingSlash_def =
393 x3::omit['/'] >> x3::attr(TrailingSlash::Present);
394
Václav Kubernátabf52802020-05-19 01:31:17 +0200395auto const filterConfigFalse = [] (const Schema& schema, const std::string& path) {
396 return schema.isConfig(path);
397};
398
Václav Kubernát28cf3362020-06-29 17:52:51 +0200399struct writableOps_tag;
400
401PathParser<PathParserMode::DataPath, CompletionMode::Data> const dataPathFilterConfigFalse{filterConfigFalse};
402
403struct WritableLeafPath : x3::parser<WritableLeafPath> {
404 using attribute_type = dataPath_;
405 template <typename It, typename Ctx, typename RCtx, typename Attr>
406 static bool parse(It& begin, It end, Ctx const& ctx, RCtx& rctx, Attr& attr)
407 {
408 bool res;
409 if (x3::get<writableOps_tag>(ctx) == WritableOps::Yes) {
410 res = dataPath.parse(begin, end, ctx, rctx, attr);
411 } else {
412 res = dataPathFilterConfigFalse.parse(begin, end, ctx, rctx, attr);
413 }
414 if (!res) {
415 return false;
416 }
417
418 if (attr.m_nodes.empty() || !std::holds_alternative<leaf_>(attr.m_nodes.back().m_suffix)) {
419 auto& parserContext = x3::get<parser_context_tag>(ctx);
420 parserContext.m_errorMsg = "This is not a path to leaf.";
421 return false;
422 }
423
424 return true;
425 }
426
427} writableLeafPath;
428
Václav Kubernátaa4250a2020-07-22 00:02:23 +0200429struct RpcActionPath : x3::parser<RpcActionPath> {
430 using attribute_type = dataPath_;
431 template <typename It, typename Ctx, typename RCtx, typename Attr>
432 static bool parse(It& begin, It end, Ctx const& ctx, RCtx& rctx, Attr& attr)
433 {
434 bool res = dataPath.parse(begin, end, ctx, rctx, attr);
435 if (!res) {
436 return false;
437 }
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200438
Václav Kubernátaa4250a2020-07-22 00:02:23 +0200439 if (attr.m_nodes.empty()
440 || (!std::holds_alternative<actionNode_>(attr.m_nodes.back().m_suffix) && !std::holds_alternative<actionNode_>(attr.m_nodes.back().m_suffix))) {
441 auto& parserContext = x3::get<parser_context_tag>(ctx);
442 parserContext.m_errorMsg = "This is not a path to an RPC/action.";
443 return false;
444 }
445
446 return true;
447 }
Václav Kubernáte7248b22020-06-26 15:38:59 +0200448};
449
Václav Kubernátaa4250a2020-07-22 00:02:23 +0200450auto const rpcActionPath = as<dataPath_>[RpcActionPath()];
Václav Kubernáte7248b22020-06-26 15:38:59 +0200451
Václav Kubernátaa4250a2020-07-22 00:02:23 +0200452auto const noRpcOrAction = [] (const Schema& schema, const std::string& path) {
453 auto nodeType = schema.nodeType(path);
454 return nodeType != yang::NodeTypes::Rpc && nodeType != yang::NodeTypes::Action;
Václav Kubernáte7248b22020-06-26 15:38:59 +0200455};
456
457auto const cdPath_def =
Václav Kubernátaa4250a2020-07-22 00:02:23 +0200458 PathParser<PathParserMode::DataPath, CompletionMode::Data>{noRpcOrAction};
Václav Kubernáte7248b22020-06-26 15:38:59 +0200459
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200460auto const presenceContainerPath_def =
461 dataPath;
462
463auto const listInstancePath_def =
464 dataPath;
465
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200466auto const leafListElementPath_def =
467 dataPath;
468
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200469// A "nothing" parser, which is used to indicate we tried to parse a path
470auto const initializePath_def =
471 x3::eps;
472
473
474
475#if __clang__
476#pragma GCC diagnostic pop
477#endif
478
479BOOST_SPIRIT_DEFINE(keyValue)
480BOOST_SPIRIT_DEFINE(key_identifier)
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200481BOOST_SPIRIT_DEFINE(listSuffix)
Václav Kubernáte7248b22020-06-26 15:38:59 +0200482BOOST_SPIRIT_DEFINE(cdPath)
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200483BOOST_SPIRIT_DEFINE(presenceContainerPath)
484BOOST_SPIRIT_DEFINE(listInstancePath)
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200485BOOST_SPIRIT_DEFINE(leafListElementPath)
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200486BOOST_SPIRIT_DEFINE(initializePath)
487BOOST_SPIRIT_DEFINE(createKeySuggestions)
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200488BOOST_SPIRIT_DEFINE(createValueSuggestions)
489BOOST_SPIRIT_DEFINE(suggestKeysEnd)
Václav Kubernát5b8a8f32020-05-20 00:57:22 +0200490BOOST_SPIRIT_DEFINE(leafListValue)
Václav Kubernátd0ea9b22020-04-24 00:44:15 +0200491BOOST_SPIRIT_DEFINE(absoluteStart)
492BOOST_SPIRIT_DEFINE(trailingSlash)