ladybird/Userland/Libraries/LibIPC/Connection.h
Ben Wiederhake 6b7ce19161 Everywhere: Remove unused includes of LibC/stdlib.h
These instances were detected by searching for files that include
stdlib.h, but don't match the regex:

\\b(_abort|abort|abs|aligned_alloc|arc4random|arc4random_buf|arc4random_
uniform|atexit|atof|atoi|atol|atoll|bsearch|calloc|clearenv|div|div_t|ex
it|_Exit|EXIT_FAILURE|EXIT_SUCCESS|free|getenv|getprogname|grantpt|labs|
ldiv|ldiv_t|llabs|lldiv|lldiv_t|malloc|malloc_good_size|malloc_size|mble
n|mbstowcs|mbtowc|mkdtemp|mkstemp|mkstemps|mktemp|posix_memalign|posix_o
penpt|ptsname|ptsname_r|putenv|qsort|qsort_r|rand|RAND_MAX|random|reallo
c|realpath|secure_getenv|serenity_dump_malloc_stats|serenity_setenv|sete
nv|setprogname|srand|srandom|strtod|strtof|strtol|strtold|strtoll|strtou
l|strtoull|system|unlockpt|unsetenv|wcstombs|wctomb)\\b

(Without the linebreaks.)

This regex is pessimistic, so there might be more files that don't
actually use anything from the stdlib.

In theory, one might use LibCPP to detect things like this
automatically, but let's do this one step after another.
2023-01-02 20:27:20 -05:00

166 lines
5.7 KiB
C++

/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2022, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/ByteBuffer.h>
#include <AK/NonnullOwnPtrVector.h>
#include <AK/Try.h>
#include <LibCore/Event.h>
#include <LibCore/EventLoop.h>
#include <LibCore/Notifier.h>
#include <LibCore/Stream.h>
#include <LibCore/Timer.h>
#include <LibIPC/Forward.h>
#include <LibIPC/Message.h>
#include <errno.h>
#include <stdint.h>
#include <stdio.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <unistd.h>
namespace IPC {
// NOTE: This is an abstraction to allow using IPC::Connection without a Core::EventLoop.
// FIXME: It's not particularly nice, think of something nicer.
struct DeferredInvoker {
virtual ~DeferredInvoker() = default;
virtual void schedule(Function<void()>) = 0;
};
class ConnectionBase : public Core::Object {
C_OBJECT_ABSTRACT(ConnectionBase);
public:
virtual ~ConnectionBase() override = default;
void set_fd_passing_socket(NonnullOwnPtr<Core::Stream::LocalSocket>);
void set_deferred_invoker(NonnullOwnPtr<DeferredInvoker>);
DeferredInvoker& deferred_invoker() { return *m_deferred_invoker; }
bool is_open() const { return m_socket->is_open(); }
ErrorOr<void> post_message(Message const&);
void shutdown();
virtual void die() { }
Core::Stream::LocalSocket& socket() { return *m_socket; }
Core::Stream::LocalSocket& fd_passing_socket();
protected:
explicit ConnectionBase(IPC::Stub&, NonnullOwnPtr<Core::Stream::LocalSocket>, u32 local_endpoint_magic);
virtual void may_have_become_unresponsive() { }
virtual void did_become_responsive() { }
virtual void try_parse_messages(Vector<u8> const& bytes, size_t& index) = 0;
virtual void shutdown_with_error(Error const&);
OwnPtr<IPC::Message> wait_for_specific_endpoint_message_impl(u32 endpoint_magic, int message_id);
void wait_for_socket_to_become_readable();
ErrorOr<Vector<u8>> read_as_much_as_possible_from_socket_without_blocking();
ErrorOr<void> drain_messages_from_peer();
ErrorOr<void> post_message(MessageBuffer);
void handle_messages();
IPC::Stub& m_local_stub;
NonnullOwnPtr<Core::Stream::LocalSocket> m_socket;
OwnPtr<Core::Stream::LocalSocket> m_fd_passing_socket;
RefPtr<Core::Timer> m_responsiveness_timer;
NonnullOwnPtrVector<Message> m_unprocessed_messages;
ByteBuffer m_unprocessed_bytes;
u32 m_local_endpoint_magic { 0 };
NonnullOwnPtr<DeferredInvoker> m_deferred_invoker;
};
template<typename LocalEndpoint, typename PeerEndpoint>
class Connection : public ConnectionBase {
public:
Connection(IPC::Stub& local_stub, NonnullOwnPtr<Core::Stream::LocalSocket> socket)
: ConnectionBase(local_stub, move(socket), LocalEndpoint::static_magic())
{
m_socket->on_ready_to_read = [this] {
NonnullRefPtr protect = *this;
// FIXME: Do something about errors.
(void)drain_messages_from_peer();
handle_messages();
};
}
template<typename MessageType>
OwnPtr<MessageType> wait_for_specific_message()
{
return wait_for_specific_endpoint_message<MessageType, LocalEndpoint>();
}
template<typename RequestType, typename... Args>
NonnullOwnPtr<typename RequestType::ResponseType> send_sync(Args&&... args)
{
MUST(post_message(RequestType(forward<Args>(args)...)));
auto response = wait_for_specific_endpoint_message<typename RequestType::ResponseType, PeerEndpoint>();
VERIFY(response);
return response.release_nonnull();
}
template<typename RequestType, typename... Args>
OwnPtr<typename RequestType::ResponseType> send_sync_but_allow_failure(Args&&... args)
{
if (post_message(RequestType(forward<Args>(args)...)).is_error())
return nullptr;
return wait_for_specific_endpoint_message<typename RequestType::ResponseType, PeerEndpoint>();
}
protected:
template<typename MessageType, typename Endpoint>
OwnPtr<MessageType> wait_for_specific_endpoint_message()
{
if (auto message = wait_for_specific_endpoint_message_impl(Endpoint::static_magic(), MessageType::static_message_id()))
return message.template release_nonnull<MessageType>();
return {};
}
virtual void try_parse_messages(Vector<u8> const& bytes, size_t& index) override
{
u32 message_size = 0;
for (; index + sizeof(message_size) < bytes.size(); index += message_size) {
memcpy(&message_size, bytes.data() + index, sizeof(message_size));
if (message_size == 0 || bytes.size() - index - sizeof(uint32_t) < message_size)
break;
index += sizeof(message_size);
auto remaining_bytes = ReadonlyBytes { bytes.data() + index, message_size };
auto local_message = LocalEndpoint::decode_message(remaining_bytes, fd_passing_socket());
if (!local_message.is_error()) {
m_unprocessed_messages.append(local_message.release_value());
continue;
}
auto peer_message = PeerEndpoint::decode_message(remaining_bytes, fd_passing_socket());
if (!peer_message.is_error()) {
m_unprocessed_messages.append(peer_message.release_value());
continue;
}
dbgln("Failed to parse a message");
dbgln("Local endpoint error: {}", local_message.error());
dbgln("Peer endpoint error: {}", peer_message.error());
break;
}
}
};
}
template<typename LocalEndpoint, typename PeerEndpoint>
struct AK::Formatter<IPC::Connection<LocalEndpoint, PeerEndpoint>> : Formatter<Core::Object> {
};