/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#include
#include "htcs_socket_service_object.hpp"
#include "htcs_service_object_allocator.hpp"
#include "../impl/htcs_manager.hpp"
namespace ams::htcs::server {
SocketServiceObject::SocketServiceObject(ManagerServiceObject *manager, s32 desc) : m_manager(manager, true), m_desc(desc) {
/* ... */
}
SocketServiceObject::~SocketServiceObject() {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Close the underlying socket. */
s32 dummy_err, dummy_res;
manager->Close(std::addressof(dummy_err), std::addressof(dummy_res), m_desc);
}
Result SocketServiceObject::Close(sf::Out out_err, sf::Out out_res) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Close the underlying socket. */
manager->Close(out_err.GetPointer(), out_res.GetPointer(), m_desc);
return ResultSuccess();
}
Result SocketServiceObject::Connect(sf::Out out_err, sf::Out out_res, const htcs::SockAddrHtcs &address) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Perform the connect. */
manager->Connect(out_err.GetPointer(), out_res.GetPointer(), address, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::Bind(sf::Out out_err, sf::Out out_res, const htcs::SockAddrHtcs &address) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Perform the bind. */
manager->Bind(out_err.GetPointer(), out_res.GetPointer(), address, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::Listen(sf::Out out_err, sf::Out out_res, s32 backlog_count) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Perform the listen. */
manager->Listen(out_err.GetPointer(), out_res.GetPointer(), backlog_count, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::Recv(sf::Out out_err, sf::Out out_size, const sf::OutAutoSelectBuffer &buffer, s32 flags) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Perform the recv. */
manager->Recv(out_err.GetPointer(), out_size.GetPointer(), reinterpret_cast(buffer.GetPointer()), buffer.GetSize(), flags, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::Send(sf::Out out_err, sf::Out out_size, const sf::InAutoSelectBuffer &buffer, s32 flags) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Perform the send. */
manager->Send(out_err.GetPointer(), out_size.GetPointer(), reinterpret_cast(buffer.GetPointer()), buffer.GetSize(), flags, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::Shutdown(sf::Out out_err, sf::Out out_res, s32 how) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Perform the shutdown. */
manager->Shutdown(out_err.GetPointer(), out_res.GetPointer(), how, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::Fcntl(sf::Out out_err, sf::Out out_res, s32 command, s32 value) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Perform the fcntl. */
manager->Fcntl(out_err.GetPointer(), out_res.GetPointer(), command, value, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::AcceptStart(sf::Out out_task_id, sf::OutCopyHandle out_event) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Start the accept. */
R_TRY(manager->AcceptStart(out_task_id.GetPointer(), out_event.GetHandlePointer(), m_desc));
/* Mark the output event as managed. */
out_event.SetManaged(true);
return ResultSuccess();
}
Result SocketServiceObject::AcceptResults(sf::Out out_err, sf::Out> out, sf::Out out_address, u32 task_id) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Get the accept results. */
s32 desc;
manager->AcceptResults(out_err.GetPointer(), std::addressof(desc), out_address.GetPointer(), task_id, m_desc);
/* If an error occurred, we're done. */
R_SUCCEED_IF(*out_err != 0);
/* Create a new socket object. */
*out = ServiceObjectFactory::CreateSharedEmplaced(m_manager.Get(), desc);
return ResultSuccess();
}
Result SocketServiceObject::RecvStart(sf::Out out_task_id, sf::OutCopyHandle out_event, s32 mem_size, s32 flags) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Start the recv. */
R_TRY(manager->RecvStart(out_task_id.GetPointer(), out_event.GetHandlePointer(), mem_size, m_desc, flags));
/* Mark the output event as managed. */
out_event.SetManaged(true);
return ResultSuccess();
}
Result SocketServiceObject::RecvResults(sf::Out out_err, sf::Out out_size, const sf::OutAutoSelectBuffer &buffer, u32 task_id) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Get the recv results. */
manager->RecvResults(out_err.GetPointer(), out_size.GetPointer(), reinterpret_cast(buffer.GetPointer()), buffer.GetSize(), task_id, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::RecvLargeStart(sf::Out out_task_id, sf::OutCopyHandle out_event, s32 unaligned_size_start, s32 unaligned_size_end, s64 aligned_size, sf::CopyHandle mem_handle, s32 flags) {
/* Check that the transfer memory size is okay. */
R_UNLESS(util::IsIntValueRepresentable(aligned_size), htcs::ResultInvalidSize());
/* Attach the transfer memory. */
os::TransferMemoryType tmem;
os::AttachTransferMemory(std::addressof(tmem), static_cast(aligned_size), mem_handle.GetValue(), true);
ON_SCOPE_EXIT { os::DestroyTransferMemory(std::addressof(tmem)); };
/* Map the transfer memory. */
void *address;
R_TRY(os::MapTransferMemory(std::addressof(address), std::addressof(tmem), os::MemoryPermission_None));
ON_SCOPE_EXIT { os::UnmapTransferMemory(std::addressof(tmem)); };
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Start the large receive. */
R_TRY(manager->RecvStart(out_task_id.GetPointer(), out_event.GetHandlePointer(), unaligned_size_start + aligned_size + unaligned_size_end, m_desc, flags));
/* Mark the output event as managed. */
out_event.SetManaged(true);
return ResultSuccess();
}
Result SocketServiceObject::SendStartOld(sf::Out out_task_id, sf::OutCopyHandle out_event, const sf::InAutoSelectBuffer &buffer, s32 flags) {
return this->SendStart(out_task_id, out_event, sf::InNonSecureAutoSelectBuffer(buffer.GetPointer(), buffer.GetSize()), flags);
}
Result SocketServiceObject::SendLargeStart(sf::Out out_task_id, sf::OutCopyHandle out_event, const sf::InAutoSelectBuffer &start_buffer, const sf::InAutoSelectBuffer &end_buffer, sf::CopyHandle mem_handle, s64 aligned_size, s32 flags) {
/* Check that the sizes are okay. */
R_UNLESS(util::IsIntValueRepresentable(start_buffer.GetSize()), htcs::ResultInvalidSize());
R_UNLESS(util::IsIntValueRepresentable(end_buffer.GetSize()), htcs::ResultInvalidSize());
R_UNLESS(util::IsIntValueRepresentable(aligned_size), htcs::ResultInvalidSize());
/* Attach the transfer memory. */
os::TransferMemoryType tmem;
os::AttachTransferMemory(std::addressof(tmem), static_cast(aligned_size), mem_handle.GetValue(), true);
ON_SCOPE_EXIT { os::DestroyTransferMemory(std::addressof(tmem)); };
/* Map the transfer memory. */
void *address;
R_TRY(os::MapTransferMemory(std::addressof(address), std::addressof(tmem), os::MemoryPermission_None));
ON_SCOPE_EXIT { os::UnmapTransferMemory(std::addressof(tmem)); };
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Start the large send. */
constexpr auto NumBuffers = 3;
const char *pointers[NumBuffers] = { reinterpret_cast(start_buffer.GetPointer()), static_cast(address), reinterpret_cast(end_buffer.GetPointer()) };
s64 sizes[NumBuffers] = { static_cast(start_buffer.GetSize()), aligned_size, static_cast(end_buffer.GetSize()) };
R_TRY(manager->SendLargeStart(out_task_id.GetPointer(), out_event.GetHandlePointer(), pointers, sizes, NumBuffers, m_desc, flags));
/* Mark the output event as managed. */
out_event.SetManaged(true);
return ResultSuccess();
}
Result SocketServiceObject::SendResults(sf::Out out_err, sf::Out out_size, u32 task_id) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Get the send results. */
manager->SendResults(out_err.GetPointer(), out_size.GetPointer(), task_id, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::StartSend(sf::Out out_task_id, sf::OutCopyHandle out_event, sf::Out out_max_size, s64 size, s32 flags) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Start the send. */
R_TRY(manager->StartSend(out_task_id.GetPointer(), out_event.GetHandlePointer(), m_desc, size, flags));
/* Set the output max size to the size. */
*out_max_size = size;
/* Mark the output event as managed. */
out_event.SetManaged(true);
return ResultSuccess();
}
Result SocketServiceObject::ContinueSendOld(sf::Out out_size, sf::Out out_wait, const sf::InAutoSelectBuffer &buffer, u32 task_id) {
return this->ContinueSend(out_size, out_wait, sf::InNonSecureAutoSelectBuffer(buffer.GetPointer(), buffer.GetSize()), task_id);
}
Result SocketServiceObject::EndSend(sf::Out out_err, sf::Out out_size, u32 task_id) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* End the send. */
manager->EndSend(out_err.GetPointer(), out_size.GetPointer(), task_id, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::StartRecv(sf::Out out_task_id, sf::OutCopyHandle out_event, s64 size, s32 flags) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Start the recv. */
R_TRY(manager->StartRecv(out_task_id.GetPointer(), out_event.GetHandlePointer(), size, m_desc, flags));
/* Mark the output event as managed. */
out_event.SetManaged(true);
return ResultSuccess();
}
Result SocketServiceObject::EndRecv(sf::Out out_err, sf::Out out_size, const sf::OutAutoSelectBuffer &buffer, u32 task_id) {
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* End the recv. */
manager->EndRecv(out_err.GetPointer(), out_size.GetPointer(), reinterpret_cast(buffer.GetPointer()), buffer.GetSize(), task_id, m_desc);
return ResultSuccess();
}
Result SocketServiceObject::SendStart(sf::Out out_task_id, sf::OutCopyHandle out_event, const sf::InNonSecureAutoSelectBuffer &buffer, s32 flags) {
/* Check that the sizes are okay. */
R_UNLESS(util::IsIntValueRepresentable(buffer.GetSize()), htcs::ResultInvalidSize());
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Start the send. */
R_TRY(manager->SendStart(out_task_id.GetPointer(), out_event.GetHandlePointer(), reinterpret_cast(buffer.GetPointer()), buffer.GetSize(), m_desc, flags));
/* Mark the output event as managed. */
out_event.SetManaged(true);
return ResultSuccess();
}
Result SocketServiceObject::ContinueSend(sf::Out out_size, sf::Out out_wait, const sf::InNonSecureAutoSelectBuffer &buffer, u32 task_id) {
/* Check that the sizes are okay. */
R_UNLESS(util::IsIntValueRepresentable(buffer.GetSize()), htcs::ResultInvalidSize());
/* Get the htcs manager. */
auto *manager = impl::HtcsManagerHolder::GetHtcsManager();
/* Continue the send. */
R_TRY(manager->ContinueSend(out_size.GetPointer(), reinterpret_cast(buffer.GetPointer()), buffer.GetSize(), task_id, m_desc));
/* We aren't doing a waiting send. */
*out_wait = false;
return ResultSuccess();
}
Result SocketServiceObject::GetPrimitive(sf::Out out) {
/* Get our descriptor. */
*out = m_desc;
return ResultSuccess();
}
}