// 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.h"
#include <kj/memory.h>
#include <kj/mutex.h>
namespace capnp {
class SchemaLoader {
// Class which can be used to construct Schema objects from schema::Nodes as defined in
// schema.capnp.
//
// It is a bad idea to use this class on untrusted input with exceptions disabled -- you may
// be exposing yourself to denial-of-service attacks, as attackers can easily construct schemas
// that are subtly inconsistent in a way that causes exceptions to be thrown either by
// SchemaLoader or by the dynamic API when the schemas are subsequently used. If you enable and
// properly catch exceptions, you should be OK -- assuming no bugs in the Cap'n Proto
// implementation, of course.
public:
class LazyLoadCallback {
public:
virtual void load(const SchemaLoader& loader, uint64_t id) const = 0;
// Request that the schema node with the given ID be loaded into the given SchemaLoader. If
// the callback is able to find a schema for this ID, it should invoke `loadOnce()` on
// `loader` to load it. If no such node exists, it should simply do nothing and return.
//
// The callback is allowed to load schema nodes other than the one requested, e.g. because it
// expects they will be needed soon.
//
// If the `SchemaLoader` is used from multiple threads, the callback must be thread-safe.
// In particular, it's possible for multiple threads to invoke `load()` with the same ID.
// If the callback performs a large amount of work to look up IDs, it should be sure to
// de-dup these requests.
};
SchemaLoader();
SchemaLoader(const LazyLoadCallback& callback);
// Construct a SchemaLoader which will invoke the given callback when a schema node is requested
// that isn't already loaded.
~SchemaLoader() noexcept(false);
KJ_DISALLOW_COPY(SchemaLoader);
Schema get(uint64_t id, schema::Brand::Reader brand = schema::Brand::Reader(),
Schema scope = Schema()) const;
// Gets the schema for the given ID, throwing an exception if it isn't present.
//
// The returned schema may be invalidated if load() is called with a new schema for the same ID.
// In general, you should not call load() while a schema from this loader is in-use.
//
// `brand` and `scope` are used to determine brand bindings where relevant. `brand` gives
// parameter bindings for the target type's brand parameters that were specified at the reference
// site. `scope` specifies the scope in which the type ID appeared -- if `brand` itself contains
// parameter references or indicates that some parameters will be inherited, these will be
// interpreted within / inherited from `scope`.
kj::Maybe<Schema> tryGet(uint64_t id, schema::Brand::Reader bindings = schema::Brand::Reader(),
Schema scope = Schema()) const;
// Like get() but doesn't throw.
Schema getUnbound(uint64_t id) const;
// Gets a special version of the schema in which all brand parameters are "unbound". This means
// that if you look up a type via the Schema API, and it resolves to a brand parameter, the
// returned Type's getBrandParameter() method will return info about that parameter. Otherwise,
// normally, all brand parameters that aren't otherwise bound are assumed to simply be
// "AnyPointer".
Type getType(schema::Type::Reader type, Schema scope = Schema()) const;
// Convenience method which interprets a schema::Type to produce a Type object. Implemented in
// terms of get().
Schema load(const schema::Node::Reader& reader);
// Loads the given schema node. Validates the node and throws an exception if invalid. This
// makes a copy of the schema, so the object passed in can be destroyed after this returns.
//
// If the node has any dependencies which are not already loaded, they will be initialized as
// stubs -- empty schemas of whichever kind is expected.
//
// If another schema for the given reader has already been seen, the loader will inspect both
// schemas to determine which one is newer, and use that that one. If the two versions are
// found to be incompatible, an exception is thrown. If the two versions differ but are
// compatible and the loader cannot determine which is newer (e.g., the only changes are renames),
// the existing schema will be preferred. Note that in any case, the loader will end up keeping
// around copies of both schemas, so you shouldn't repeatedly reload schemas into the same loader.
//
// The following properties of the schema node are validated:
// - Struct size and preferred list encoding are valid and consistent.
// - Struct members are fields or unions.
// - Union members are fields.
// - Field offsets are in-bounds.
// - Ordinals and codeOrders are sequential starting from zero.
// - Values are of the right union case to match their types.
//
// You should assume anything not listed above is NOT validated. In particular, things that are
// not validated now, but could be in the future, include but are not limited to:
// - Names.
// - Annotation values. (This is hard because the annotation declaration is not always
// available.)
// - Content of default/constant values of pointer type. (Validating these would require knowing
// their schema, but even if the schemas are available at validation time, they could be
// updated by a subsequent load(), invalidating existing values. Instead, these values are
// validated at the time they are used, as usual for Cap'n Proto objects.)
//
// Also note that unknown types are not considered invalid. Instead, the dynamic API returns
// a DynamicValue with type UNKNOWN for these.
Schema loadOnce(const schema::Node::Reader& reader) const;
// Like `load()` but does nothing if a schema with the same ID is already loaded. In contrast,
// `load()` would attempt to compare the schemas and take the newer one. `loadOnce()` is safe
// to call even while concurrently using schemas from this loader. It should be considered an
// error to call `loadOnce()` with two non-identical schemas that share the same ID, although
// this error may or may not actually be detected by the implementation.
template <typename T>
void loadCompiledTypeAndDependencies();
// Load the schema for the given compiled-in type and all of its dependencies.
//
// If you want to be able to cast a DynamicValue built from this SchemaLoader to the compiled-in
// type using as<T>(), you must call this method before constructing the DynamicValue. Otherwise,
// as<T>() will throw an exception complaining about type mismatch.
kj::Array<Schema> getAllLoaded() const;
// Get a complete list of all loaded schema nodes. It is particularly useful to call this after
// loadCompiledTypeAndDependencies<T>() in order to get a flat list of all of T's transitive
// dependencies.
private:
class Validator;
class CompatibilityChecker;
class Impl;
class InitializerImpl;
class BrandedInitializerImpl;
kj::MutexGuarded<kj::Own<Impl>> impl;
void loadNative(const _::RawSchema* nativeSchema);
};
template <typename T>
inline void SchemaLoader::loadCompiledTypeAndDependencies() {
loadNative(&_::rawSchema<T>());
}
} // namespace capnp