mirror of https://github.com/ArduPilot/ardupilot
186 lines
6.8 KiB
C++
186 lines
6.8 KiB
C++
// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*-
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//
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// This is free software; you can redistribute it and/or modify it under
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// the terms of the GNU Lesser General Public License as published by the
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// Free Software Foundation; either version 2.1 of the License, or (at
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// your option) any later version.
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//
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/// @file AP_MetaClass.h
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/// Abstract meta-class from which other AP classes may inherit.
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/// Provides type introspection and some basic protocols that can
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/// be implemented by subclasses.
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#ifndef AP_METACLASS_H
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#define AP_METACLASS_H
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#include <stddef.h> // for size_t
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#include <inttypes.h>
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#include <avr/io.h> // for RAMEND
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/// Basic meta-class from which other AP_* classes can derive.
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///
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/// Functions that form the public API to the metaclass are prefixed meta_.
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///
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class AP_MetaClass
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{
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public:
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/// Default constructor does nothing.
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AP_MetaClass(void);
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/// Default destructor is virtual, to ensure that all destructors
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/// are called for derived classes.
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virtual ~AP_MetaClass();
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/// Type code, unique to all instances of a given subclass.
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typedef uint16_t AP_TypeID;
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/// Obtain a value unique to all instances of a specific subclass.
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///
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/// This is similar to the basic functionality of the C++ typeid
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/// keyword, but does not depend on std::type_info or any compiler-
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/// generated RTTI.
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///
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/// As the value is derived from the vtable address, it cannot be
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/// introspected outside the current state of the system.
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///
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/// @param p A pointer to an instance of a subclass of AP_MetaClass.
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/// @return A type-unique value.
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///
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AP_TypeID meta_type_id(void) const {
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return *(AP_TypeID *)this;
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}
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/// External handle for an instance of an AP_MetaClass subclass, contains
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/// enough information to construct and validate a pointer to the instance
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/// when passed back from an untrusted source.
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///
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typedef uint32_t AP_MetaHandle;
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/// Return a value that can be used as an external pointer to an instance
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/// of a subclass.
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///
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/// The value can be passed to an untrusted agent, and validated on its return.
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///
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/// The value contains the 16-bit type ID of the actual class and
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/// a pointer to the class instance.
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///
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/// @return An opaque handle
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///
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AP_MetaHandle meta_get_handle(void) const {
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return ((AP_MetaHandle)meta_type_id() << 16) | (uint16_t)this;
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}
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/// Validates an AP_MetaClass handle.
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///
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/// The value of the handle is not required to be valid; in particular the
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/// pointer encoded in the handle is validated before being dereferenced.
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///
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/// The handle is considered good if the pointer is valid and the object
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/// it points to has a type ID that matches the ID in the handle.
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///
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/// @param handle A possible AP_MetaClass handle
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/// @return The instance pointer if the handle is good,
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/// or NULL if it is bad.
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///
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static AP_MetaClass *meta_validate_handle(AP_MetaHandle handle) {
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AP_MetaClass *candidate = (AP_MetaClass *)(handle & 0xffff); // extract object pointer
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uint16_t id = handle >> 16; // and claimed type
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// Sanity-check the pointer to ensure it lies within the device RAM, so that
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// a bad handle won't cause ::meta_type_id to read outside of SRAM.
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// Assume that RAM (or addressable storage of some sort, at least) starts at zero.
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//
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// Note that this implies that we cannot deal with objects in ROM or EEPROM,
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// but the constructor wouldn't be able to populate a vtable pointer there anyway...
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//
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if ((uint16_t)candidate >= (RAMEND - 2)) // -2 to account for the type_id
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return NULL;
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// Compare the typeid of the object that candidate points to with the typeid
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// from the handle. Note that it's safe to call meta_type_id() off the untrusted
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// candidate pointer because meta_type_id is non-virtual (and will in fact be
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// inlined here).
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//
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if (candidate->meta_type_id() == id)
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return candidate;
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return NULL;
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}
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/// Tests whether two objects are of precisely the same class.
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///
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/// Note that for p2 inheriting from p1, this will return false.
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/// Even with RTTI not disabled, there does not seem to be enough information
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/// to determine whether one class inherits from another.
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///
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/// @param p1 The first object to be compared.
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/// @param p2 The second object to be compared.
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/// @return True if the two objects are of the same class, false
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/// if they are not.
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///
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static bool meta_type_equivalent(AP_MetaClass *p1, AP_MetaClass *p2) {
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return p1->meta_type_id() == p2->meta_type_id();
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}
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/// Cast an object to an expected class type.
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///
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/// This should be used with caution, as _typename's default constructor and
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/// destructor will be run, possibly introducing undesired side-effects.
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///
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/// @todo Consider whether we should make it difficult to have a default constructor
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/// with appreciable side-effects.
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///
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/// @todo Check whether we need to reinterpret_cast to get the right return type.
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///
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/// @param _p An AP_MetaClass subclass whose type is to be tested.
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/// @param _typename The name of a type with which _p is to be compared.
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/// @return True if _p is of type _typename, false otherwise.
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///
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template<typename T>
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static T* meta_cast(AP_MetaClass *p) {
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T tmp;
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if (meta_type_equivalent(p, &tmp))
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return (T *)p;
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return NULL;
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}
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/// Serialise the class.
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///
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/// Serialisation provides a mechanism for exporting the state of the class to an
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/// external consumer, either for external introspection or for subsequent restoration.
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///
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/// Classes that wrap variables should define the format of their serialised data
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/// so that external consumers can reliably interpret it.
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///
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/// @param buf Buffer into which serialised data should be placed.
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/// @param bufSize The size of the buffer provided.
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/// @return The size of the serialised data, even if that data would
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/// have overflowed the buffer. If the return value is zero,
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/// the class does not support serialisation.
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///
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virtual size_t serialize(void *buf, size_t bufSize) const;
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/// Unserialise the class.
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///
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/// Unserialising a class from a buffer into which the class previously serialised
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/// itself restores the instance to an identical state, where "identical" may be
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/// defined in context.
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///
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/// Classes that wrap variables should define the format of their serialised data so
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/// that external providers can reliably encode it.
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///
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/// @param buf Buffer containing serialised data.
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/// @param bufSize The size of the buffer.
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/// @return The number of bytes from the buffer that would be consumed
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/// unserialising the data. If the value is less than or equal
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/// to bufSize, unserialisation was successful. If the return
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/// value is zero the class does not support unserialisation or
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/// the data in the buffer is invalid.
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///
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virtual size_t unserialize(void *buf, size_t bufSize);
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};
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#endif // AP_METACLASS_H
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