/* * 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_manager.hpp" #include "htcs_manager_impl.hpp" #include "htcs_util.hpp" namespace ams::htcs::impl { HtcsManager::HtcsManager(mem::StandardAllocator *allocator, htclow::HtclowManager *htclow_manager) : m_allocator(allocator), m_impl(static_cast(allocator->Allocate(sizeof(HtcsManagerImpl), alignof(HtcsManagerImpl)))) { std::construct_at(m_impl, m_allocator, htclow_manager); } HtcsManager::~HtcsManager() { std::destroy_at(m_impl); m_allocator->Free(m_impl); } os::EventType *HtcsManager::GetServiceAvailabilityEvent() { return m_impl->GetServiceAvailabilityEvent(); } bool HtcsManager::IsServiceAvailable() { return m_impl->IsServiceAvailable(); } void HtcsManager::Socket(s32 *out_err, s32 *out_desc, bool enable_disconnection_emulation) { /* Invoke our implementation. */ s32 err, desc; const Result result = m_impl->CreateSocket(std::addressof(err), std::addressof(desc), enable_disconnection_emulation); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_desc = desc; } else { *out_desc = -1; } } else { *out_err = ConvertResultToErrorCode(result); *out_desc = -1; } } void HtcsManager::Close(s32 *out_err, s32 *out_res, s32 desc) { /* Invoke our implementation. */ const Result result = m_impl->DestroySocket(desc); /* Set output. */ *out_err = ConvertResultToErrorCode(result); if (R_SUCCEEDED(result)) { *out_res = 0; } else { *out_res = -1; } } void HtcsManager::Connect(s32 *out_err, s32 *out_res, const SockAddrHtcs &address, s32 desc) { /* Invoke our implementation. */ s32 err; const Result result = m_impl->Connect(std::addressof(err), desc, address); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_res = 0; } else { *out_res = -1; } } else { *out_err = ConvertResultToErrorCode(result); *out_res = -1; } } void HtcsManager::Bind(s32 *out_err, s32 *out_res, const SockAddrHtcs &address, s32 desc) { /* Invoke our implementation. */ s32 err; const Result result = m_impl->Bind(std::addressof(err), desc, address); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_res = 0; } else { *out_res = -1; } } else { *out_err = ConvertResultToErrorCode(result); *out_res = -1; } } void HtcsManager::Listen(s32 *out_err, s32 *out_res, s32 backlog_count, s32 desc) { /* Invoke our implementation. */ s32 err; const Result result = m_impl->Listen(std::addressof(err), desc, backlog_count); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_res = 0; } else { *out_res = -1; } } else { *out_err = ConvertResultToErrorCode(result); *out_res = -1; } } void HtcsManager::Recv(s32 *out_err, s64 *out_size, char *buffer, size_t size, s32 flags, s32 desc) { /* Invoke our implementation. */ s32 err; s64 recv_size; const Result result = m_impl->Receive(std::addressof(err), std::addressof(recv_size), buffer, size, desc, flags); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_size = recv_size; } else { *out_size = -1; } } else { *out_err = ConvertResultToErrorCode(result); *out_size = -1; } } void HtcsManager::Send(s32 *out_err, s64 *out_size, const char *buffer, size_t size, s32 flags, s32 desc) { /* Invoke our implementation. */ s32 err; s64 send_size; const Result result = m_impl->Send(std::addressof(err), std::addressof(send_size), buffer, size, desc, flags); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_size = send_size; } else { *out_size = -1; } } else { *out_err = ConvertResultToErrorCode(result); *out_size = -1; } } void HtcsManager::Shutdown(s32 *out_err, s32 *out_res, s32 how, s32 desc) { /* Invoke our implementation. */ s32 err; const Result result = m_impl->Shutdown(std::addressof(err), desc, how); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_res = 0; } else { *out_res = -1; } } else { if (htcs::ResultInvalidHandle::Includes(result)) { *out_err = HTCS_ENOTCONN; } else { *out_err = ConvertResultToErrorCode(result); } *out_res = -1; } } void HtcsManager::Fcntl(s32 *out_err, s32 *out_res, s32 command, s32 value, s32 desc) { /* Invoke our implementation. */ s32 err, res; const Result result = m_impl->Fcntl(std::addressof(err), std::addressof(res), desc, command, value); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; *out_res = res; } else { *out_err = ConvertResultToErrorCode(result); *out_res = -1; } } Result HtcsManager::AcceptStart(u32 *out_task_id, Handle *out_handle, s32 desc) { return m_impl->AcceptStart(out_task_id, out_handle, desc); } void HtcsManager::AcceptResults(s32 *out_err, s32 *out_desc, SockAddrHtcs *out_address, u32 task_id, s32 desc) { /* Invoke our implementation. */ s32 err; const Result result = m_impl->AcceptResults(std::addressof(err), out_desc, out_address, task_id, desc); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; } else { if (htc::ResultCancelled::Includes(result)) { *out_err = HTCS_ENETDOWN; } else if (htc::ResultTaskQueueNotAvailable::Includes(result)) { *out_err = HTCS_EINTR; } else { *out_err = ConvertResultToErrorCode(result); } } } Result HtcsManager::RecvStart(u32 *out_task_id, Handle *out_handle, s64 size, s32 desc, s32 flags) { return m_impl->RecvStart(out_task_id, out_handle, size, desc, flags); } void HtcsManager::RecvResults(s32 *out_err, s64 *out_size, char *buffer, s64 buffer_size, u32 task_id, s32 desc) { /* Invoke our implementation. */ s32 err; s64 size; const Result result = m_impl->RecvResults(std::addressof(err), std::addressof(size), buffer, buffer_size, task_id, desc); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_size = size; } else { *out_size = -1; } } else { if (htc::ResultTaskQueueNotAvailable::Includes(result)) { *out_err = HTCS_EINTR; } else { *out_err = ConvertResultToErrorCode(result); } *out_size = -1; } } Result HtcsManager::SendStart(u32 *out_task_id, Handle *out_handle, const char *buffer, s64 size, s32 desc, s32 flags) { return m_impl->SendStart(out_task_id, out_handle, buffer, size, desc, flags); } Result HtcsManager::SendLargeStart(u32 *out_task_id, Handle *out_handle, const char **buffers, const s64 *sizes, s32 count, s32 desc, s32 flags) { return m_impl->SendLargeStart(out_task_id, out_handle, buffers, sizes, count, desc, flags); } void HtcsManager::SendResults(s32 *out_err, s64 *out_size, u32 task_id, s32 desc) { /* Invoke our implementation. */ s32 err; s64 size; const Result result = m_impl->SendResults(std::addressof(err), std::addressof(size), task_id, desc); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_size = size; } else { *out_size = -1; } } else { if (htc::ResultTaskQueueNotAvailable::Includes(result)) { *out_err = HTCS_EINTR; } else { *out_err = ConvertResultToErrorCode(result); } *out_size = -1; } } Result HtcsManager::StartSend(u32 *out_task_id, Handle *out_handle, s32 desc, s64 size, s32 flags) { return m_impl->StartSend(out_task_id, out_handle, desc, size, flags); } Result HtcsManager::ContinueSend(s64 *out_size, const char *buffer, s64 buffer_size, u32 task_id, s32 desc) { /* Invoke our implementation. */ s64 size; R_TRY_CATCH(m_impl->ContinueSend(std::addressof(size), buffer, buffer_size, task_id, desc)) { R_CONVERT(htclow::ResultInvalidChannelState, tma::ResultUnknown()) R_CONVERT(htc::ResultTaskCancelled, tma::ResultUnknown()) } R_END_TRY_CATCH; /* Set output. */ *out_size = size; return ResultSuccess(); } void HtcsManager::EndSend(s32 *out_err, s64 *out_size, u32 task_id, s32 desc) { /* Invoke our implementation. */ s32 err; s64 size; const Result result = m_impl->EndSend(std::addressof(err), std::addressof(size), task_id, desc); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_size = size; } else { *out_size = -1; } } else { if (htc::ResultTaskQueueNotAvailable::Includes(result)) { *out_err = HTCS_EINTR; } else { *out_err = ConvertResultToErrorCode(result); } *out_size = -1; } } Result HtcsManager::StartRecv(u32 *out_task_id, Handle *out_handle, s64 size, s32 desc, s32 flags) { return m_impl->StartRecv(out_task_id, out_handle, size, desc, flags); } void HtcsManager::EndRecv(s32 *out_err, s64 *out_size, char *buffer, s64 buffer_size, u32 task_id, s32 desc) { /* Invoke our implementation. */ s32 err; s64 size; const Result result = m_impl->EndRecv(std::addressof(err), std::addressof(size), buffer, buffer_size, task_id, desc); /* Set output. */ if (R_SUCCEEDED(result)) { *out_err = err; if (err == 0) { *out_size = size; } else { *out_size = -1; } } else { if (htc::ResultCancelled::Includes(result) || htc::ResultTaskQueueNotAvailable::Includes(result)) { *out_err = 0; } else { *out_err = ConvertResultToErrorCode(result); } *out_size = -1; } } Result HtcsManager::StartSelect(u32 *out_task_id, Handle *out_handle, Span read_handles, Span write_handles, Span exception_handles, s64 tv_sec, s64 tv_usec) { /* Invoke our implementation. */ R_TRY_CATCH(m_impl->StartSelect(out_task_id, out_handle, read_handles, write_handles, exception_handles, tv_sec, tv_usec)) { R_CONVERT(htc::ResultTaskCancelled, tma::ResultUnknown()) } R_END_TRY_CATCH; return ResultSuccess(); } Result HtcsManager::EndSelect(s32 *out_err, s32 *out_count, Span read_handles, Span write_handles, Span exception_handles, u32 task_id) { /* Invoke our implementation. */ s32 err; bool empty; const Result result = m_impl->EndSelect(std::addressof(err), std::addressof(empty), read_handles, write_handles, exception_handles, task_id); /* Set output. */ if (R_SUCCEEDED(result) && !empty) { *out_err = err; if (err == 0) { const auto num_read = std::count_if(read_handles.begin(), read_handles.end(), [](int handle) { return handle != 0; }); const auto num_write = std::count_if(write_handles.begin(), write_handles.end(), [](int handle) { return handle != 0; }); const auto num_exception = std::count_if(exception_handles.begin(), exception_handles.end(), [](int handle) { return handle != 0; }); *out_count = num_read + num_write + num_exception; } else { *out_count = -1; } } else { if (R_SUCCEEDED(result)) { *out_err = 0; *out_count = 0; } else { *out_err = ConvertResultToErrorCode(err); *out_count = -1; } } return ResultSuccess(); } }