kicad/thirdparty/sentry-native/external/crashpad/util/mach/mach_message_server.h

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// Copyright 2014 The Crashpad Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef CRASHPAD_UTIL_MACH_MACH_MESSAGE_SERVER_H_
#define CRASHPAD_UTIL_MACH_MACH_MESSAGE_SERVER_H_
#include <mach/mach.h>
#include <set>
namespace crashpad {
//! \brief Runs a Mach message server to handle a Mach RPC request for MIG
//! servers.
//!
//! The principal entry point to this interface is the static Run() method.
class MachMessageServer {
public:
//! \brief A Mach RPC callback interface, called by Run().
class Interface {
public:
//! \brief Handles a Mach RPC request.
//!
//! This method is a stand-in for a MIG-generated Mach RPC server “demux”
//! function such as `exc_server()` and `mach_exc_server()`. Implementations
//! may call such a function directly. This method is expected to behave
//! exactly as these functions behave.
//!
//! \param[in] in The request message, received as a Mach message. Note that
//! this interface uses a `const` parameter for this purpose, whereas
//! MIG-generated “demux” functions do not.
//! \param[out] out The reply message. The caller allocates storage, and the
//! callee is expected to populate the reply message appropriately.
//! After returning, the caller will send this reply as a Mach message
//! via the messages reply port.
//! \param[out] destroy_complex_request `true` if a complex request message
//! is to be destroyed even when handled successfully, `false`
//! otherwise. The traditional behavior is `false`. In this case, the
//! caller only destroys the request message in \a in when the reply
//! message in \a out is not complex and when it indicates a return code
//! other than `KERN_SUCCESS` or `MIG_NO_REPLY`. The assumption is that
//! the rights or out-of-line data carried in a complex message may be
//! retained by the server in this situation, and that it is the
//! responsibility of the server to release these resources as needed.
//! However, in many cases, these resources are not needed beyond the
//! duration of a request-reply transaction, and in such cases, it is
//! less error-prone to always have the caller,
//! MachMessageServer::Run(), destroy complex request messages. To
//! choose this behavior, this parameter should be set to `true`.
//!
//! \return `true` on success and `false` on failure, although the caller
//! ignores the return value. However, the return code to be included in
//! the reply message should be set as `mig_reply_error_t::RetCode`. The
//! non-`void` return value is used for increased compatibility with
//! MIG-generated functions.
virtual bool MachMessageServerFunction(const mach_msg_header_t* in,
mach_msg_header_t* out,
bool* destroy_complex_request) = 0;
//! \return The set of request message Mach message IDs that
//! MachMessageServerFunction() is able to handle.
virtual std::set<mach_msg_id_t> MachMessageServerRequestIDs() = 0;
//! \return The expected or maximum size, in bytes, of a request message to
//! be received as the \a in parameter of MachMessageServerFunction().
virtual mach_msg_size_t MachMessageServerRequestSize() = 0;
//! \return The maximum size, in bytes, of a reply message to be sent via
//! the \a out parameter of MachMessageServerFunction(). This value does
//! not need to include the size of any trailer to be sent with the
//! message.
virtual mach_msg_size_t MachMessageServerReplySize() = 0;
protected:
~Interface() {}
};
//! \brief Informs Run() whether to handle a single request-reply transaction
//! or to run in a loop.
enum Persistent {
//! \brief Handle a single request-reply transaction and then return.
kOneShot = false,
//! \brief Run in a loop, potentially handling multiple request-reply
//! transactions.
kPersistent,
};
//! \brief Determines how to handle the reception of messages larger than the
//! size of the buffer allocated to store them.
enum ReceiveLarge {
//! \brief Return `MACH_RCV_TOO_LARGE` upon receipt of a large message.
//!
//! This mimics the default behavior of `mach_msg_server()` when `options`
//! does not contain `MACH_RCV_LARGE`.
kReceiveLargeError = 0,
//! \brief Ignore large messages, and attempt to receive the next queued
//! message upon encountering one.
//!
//! When a large message is encountered, a warning will be logged.
//!
//! `mach_msg()` will be called to receive the next message after a large
//! one even when accompanied by a #Persistent value of #kOneShot.
kReceiveLargeIgnore,
//! \brief Allocate an appropriately-sized buffer upon encountering a large
//! message. The buffer will be used to receive the message. This
//!
//! This mimics the behavior of `mach_msg_server()` when `options` contains
//! `MACH_RCV_LARGE`.
kReceiveLargeResize,
};
MachMessageServer() = delete;
MachMessageServer(const MachMessageServer&) = delete;
MachMessageServer& operator=(const MachMessageServer&) = delete;
//! \brief Runs a Mach message server to handle a Mach RPC request for MIG
//! servers.
//!
//! This function listens for a request message and passes it to a callback
//! interface. A reponse is collected from that interface, and is sent back as
//! a reply.
//!
//! This function is similar to `mach_msg_server()` and
//! `mach_msg_server_once()`.
//!
//! \param[in] interface The MachMessageServerInterface that is responsible
//! for handling the message. Interface::MachMessageServerRequestSize() is
//! used as the receive size for the request message, and
//! Interface::MachMessageServerReplySize() is used as the
//! maximum size of the reply message. If \a options contains
//! `MACH_RCV_LARGE`, this function will retry a receive operation that
//! returns `MACH_RCV_TOO_LARGE` with an appropriately-sized buffer.
//! MachMessageServerInterface::MachMessageServerFunction() is called to
//! handle the request and populate the reply.
//! \param[in] receive_port The port on which to receive the request message.
//! \param[in] options Options suitable for mach_msg. For the defaults, use
//! `MACH_MSG_OPTION_NONE`. `MACH_RCV_LARGE` when specified here is
//! ignored. Set \a receive_large to #kReceiveLargeResize instead.
//! \param[in] persistent Chooses between one-shot and persistent operation.
//! \param[in] receive_large Determines the behavior upon encountering a
//! message larger than the receive buffers size.
//! \param[in] timeout_ms The maximum duration that this entire function will
//! run, in milliseconds. This may be #kMachMessageTimeoutNonblocking or
//! #kMachMessageTimeoutWaitIndefinitely. When \a persistent is
//! #kPersistent, the timeout applies to the overall duration of this
//! function, not to any individual `mach_msg()` call.
//!
//! \return On success, `MACH_MSG_SUCCESS` (when \a persistent is #kOneShot)
//! or `MACH_RCV_TIMED_OUT` (when \a persistent is #kOneShot and \a
//! timeout_ms is not #kMachMessageTimeoutWaitIndefinitely). This function
//! has no successful return value when \a persistent is #kPersistent and
//! \a timeout_ms is #kMachMessageTimeoutWaitIndefinitely. On failure,
//! returns a value identifying the nature of the error. A request
//! received with a reply port that is (or becomes) a dead name before the
//! reply is sent will result in `MACH_SEND_INVALID_DEST` as a return
//! value, which may or may not be considered an error from the callers
//! perspective.
static mach_msg_return_t Run(Interface* interface,
mach_port_t receive_port,
mach_msg_options_t options,
Persistent persistent,
ReceiveLarge receive_large,
mach_msg_timeout_t timeout_ms);
};
} // namespace crashpad
#endif // CRASHPAD_UTIL_MACH_MACH_MESSAGE_SERVER_H_