// Copyright (c) 2013-2014 Sandstorm Development Group, Inc. and contributors
// Licensed under the MIT License:
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
#pragma once
#if defined(__GNUC__) && !defined(CAPNP_HEADER_WARNINGS)
#pragma GCC system_header
#endif
#include "schema-loader.h"
#include <kj/string.h>
#include <kj/filesystem.h>
namespace capnp {
class ParsedSchema;
class SchemaFile;
class SchemaParser {
// Parses `.capnp` files to produce `Schema` objects.
//
// This class is thread-safe, hence all its methods are const.
public:
SchemaParser();
~SchemaParser() noexcept(false);
ParsedSchema parseFromDirectory(
const kj::ReadableDirectory& baseDir, kj::Path path,
kj::ArrayPtr<const kj::ReadableDirectory* const> importPath) const;
// Parse a file from the KJ filesystem API. Throws an exception if the file dosen't exist.
//
// `baseDir` and `path` are used together to resolve relative imports. `path` is the source
// file's path within `baseDir`. Relative imports will be interpreted relative to `path` and
// will be opened using `baseDir`. Note that the KJ filesystem API prohibits "breaking out" of
// a directory using "..", so relative imports will be restricted to children of `baseDir`.
//
// `importPath` is used for absolute imports (imports that start with a '/'). Each directory in
// the array will be searched in order until a file is found.
//
// All `ReadableDirectory` objects must remain valid until the `SchemaParser` is destroyed. Also,
// the `importPath` array must remain valid. `path` will be copied; it need not remain valid.
//
// This method is a shortcut, equivalent to:
// parser.parseFromDirectory(SchemaFile::newDiskFile(baseDir, path, importPath))`;
//
// This method throws an exception if any errors are encountered in the file or in anything the
// file depends on. Note that merely importing another file does not count as a dependency on
// anything in the imported file -- only the imported types which are actually used are
// "dependencies".
//
// Hint: Use kj::newDiskFilesystem() to initialize the KJ filesystem API. Usually you should do
// this at a high level in your program, e.g. the main() function, and then pass down the
// appropriate File/Directory objects to the components that need them. Example:
//
// auto fs = kj::newDiskFilesystem();
// SchemaParser parser;
// auto schema = parser->parseFromDirectory(fs->getCurrent(),
// kj::Path::parse("foo/bar.capnp"), nullptr);
//
// Hint: To use in-memory data rather than real disk, you can use kj::newInMemoryDirectory(),
// write the files you want, then pass it to SchemaParser. Example:
//
// auto dir = kj::newInMemoryDirectory(kj::nullClock());
// auto path = kj::Path::parse("foo/bar.capnp");
// dir->openFile(path, kj::WriteMode::CREATE | kj::WriteMode::CREATE_PARENT)
// ->writeAll("struct Foo {}");
// auto schema = parser->parseFromDirectory(*dir, path, nullptr);
//
// Hint: You can create an in-memory directory but then populate it with real files from disk,
// in order to control what is visible while also avoiding reading files yourself or making
// extra copies. Example:
//
// auto fs = kj::newDiskFilesystem();
// auto dir = kj::newInMemoryDirectory(kj::nullClock());
// auto fakePath = kj::Path::parse("foo/bar.capnp");
// auto realPath = kj::Path::parse("path/to/some/file.capnp");
// dir->transfer(fakePath, kj::WriteMode::CREATE | kj::WriteMode::CREATE_PARENT,
// fs->getCurrent(), realPath, kj::TransferMode::LINK);
// auto schema = parser->parseFromDirectory(*dir, fakePath, nullptr);
//
// In this example, note that any imports in the file will fail, since the in-memory directory
// you created contains no files except the specific one you linked in.
ParsedSchema parseDiskFile(kj::StringPtr displayName, kj::StringPtr diskPath,
kj::ArrayPtr<const kj::StringPtr> importPath) const
CAPNP_DEPRECATED("Use parseFromDirectory() instead.");
// Creates a private kj::Filesystem and uses it to parse files from the real disk.
//
// DO NOT USE in new code. Use parseFromDirectory() instead.
//
// This API has a serious problem: the file can import and embed files located anywhere on disk
// using relative paths. Even if you specify no `importPath`, relative imports still work. By
// using `parseFromDirectory()`, you can arrange so that imports are only allowed within a
// particular directory, or even set up a dummy filesystem where other files are not visible.
void setDiskFilesystem(kj::Filesystem& fs)
CAPNP_DEPRECATED("Use parseFromDirectory() instead.");
// Call before calling parseDiskFile() to choose an alternative disk filesystem implementation.
// This exists mostly for testing purposes; new code should use parseFromDirectory() instead.
//
// If parseDiskFile() is called without having called setDiskFilesystem(), then
// kj::newDiskFilesystem() will be used instead.
ParsedSchema parseFile(kj::Own<SchemaFile>&& file) const;
// Advanced interface for parsing a file that may or may not be located in any global namespace.
// Most users will prefer `parseFromDirectory()`.
//
// If the file has already been parsed (that is, a SchemaFile that compares equal to this one
// was parsed previously), the existing schema will be returned again.
//
// This method reports errors by calling SchemaFile::reportError() on the file where the error
// is located. If that call does not throw an exception, `parseFile()` may in fact return
// normally. In this case, the result is a best-effort attempt to compile the schema, but it
// may be invalid or corrupt, and using it for anything may cause exceptions to be thrown.
kj::Maybe<schema::Node::SourceInfo::Reader> getSourceInfo(Schema schema) const;
// Look up source info (e.g. doc comments) for the given schema, which must have come from this
// SchemaParser. Note that this will also work for implicit group and param types that don't have
// a type name hence don't have a `ParsedSchema`.
template <typename T>
inline void loadCompiledTypeAndDependencies() {
// See SchemaLoader::loadCompiledTypeAndDependencies().
getLoader().loadCompiledTypeAndDependencies<T>();
}
private:
struct Impl;
struct DiskFileCompat;
class ModuleImpl;
kj::Own<Impl> impl;
mutable bool hadErrors = false;
ModuleImpl& getModuleImpl(kj::Own<SchemaFile>&& file) const;
SchemaLoader& getLoader();
friend class ParsedSchema;
};
class ParsedSchema: public Schema {
// ParsedSchema is an extension of Schema which also has the ability to look up nested nodes
// by name. See `SchemaParser`.
public:
inline ParsedSchema(): parser(nullptr) {}
kj::Maybe<ParsedSchema> findNested(kj::StringPtr name) const;
// Gets the nested node with the given name, or returns null if there is no such nested
// declaration.
ParsedSchema getNested(kj::StringPtr name) const;
// Gets the nested node with the given name, or throws an exception if there is no such nested
// declaration.
schema::Node::SourceInfo::Reader getSourceInfo() const;
// Get the source info for this schema.
private:
inline ParsedSchema(Schema inner, const SchemaParser& parser): Schema(inner), parser(&parser) {}
const SchemaParser* parser;
friend class SchemaParser;
};
// =======================================================================================
// Advanced API
class SchemaFile {
// Abstract interface representing a schema file. You can implement this yourself in order to
// gain more control over how the compiler resolves imports and reads files. For the
// common case of files on disk or other global filesystem-like namespaces, use
// `SchemaFile::newDiskFile()`.
public:
// Note: Cap'n Proto 0.6.x and below had classes FileReader and DiskFileReader and a method
// newDiskFile() defined here. These were removed when SchemaParser was transitioned to use the
// KJ filesystem API. You should be able to get the same effect by subclassing
// kj::ReadableDirectory, or using kj::newInMemoryDirectory().
static kj::Own<SchemaFile> newFromDirectory(
const kj::ReadableDirectory& baseDir, kj::Path path,
kj::ArrayPtr<const kj::ReadableDirectory* const> importPath,
kj::Maybe<kj::String> displayNameOverride = nullptr);
// Construct a SchemaFile representing a file in a kj::ReadableDirectory. This is used to
// implement SchemaParser::parseFromDirectory(); see there for details.
//
// The SchemaFile compares equal to any other SchemaFile that has exactly the same `baseDir`
// object (by identity) and `path` (by value).
// -----------------------------------------------------------------
// For more control, you can implement this interface.
virtual kj::StringPtr getDisplayName() const = 0;
// Get the file's name, as it should appear in the schema.
virtual kj::Array<const char> readContent() const = 0;
// Read the file's entire content and return it as a byte array.
virtual kj::Maybe<kj::Own<SchemaFile>> import(kj::StringPtr path) const = 0;
// Resolve an import, relative to this file.
//
// `path` is exactly what appears between quotes after the `import` keyword in the source code.
// It is entirely up to the `SchemaFile` to decide how to map this to another file. Typically,
// a leading '/' means that the file is an "absolute" path and is searched for in some list of
// schema file repositories. On the other hand, a path that doesn't start with '/' is relative
// to the importing file.
virtual bool operator==(const SchemaFile& other) const = 0;
virtual bool operator!=(const SchemaFile& other) const = 0;
virtual size_t hashCode() const = 0;
// Compare two SchemaFiles to see if they refer to the same underlying file. This is an
// optimization used to avoid the need to re-parse a file to check its ID.
struct SourcePos {
uint byte;
uint line;
uint column;
};
virtual void reportError(SourcePos start, SourcePos end, kj::StringPtr message) const = 0;
// Report that the file contains an error at the given interval.
private:
class DiskSchemaFile;
};
} // namespace capnp