mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
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96f95b9f95
* result: try out some experimental shenanigans * result: sketch out some more shenanigans * result: see what it looks like to convert kernel to use result conds instead of guards * make rest of kernel use experimental new macro-ing
180 lines
6.8 KiB
C++
180 lines
6.8 KiB
C++
/*
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* Copyright (c) Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <mesosphere.hpp>
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namespace ams::kern::svc {
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/* ============================= Common ============================= */
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namespace {
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Result CloseHandle(ams::svc::Handle handle) {
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/* Remove the handle. */
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R_UNLESS(GetCurrentProcess().GetHandleTable().Remove(handle), svc::ResultInvalidHandle());
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R_SUCCEED();
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}
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Result ResetSignal(ams::svc::Handle handle) {
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/* Get the current handle table. */
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auto &handle_table = GetCurrentProcess().GetHandleTable();
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/* Try to reset as readable event. */
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{
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KScopedAutoObject readable_event = handle_table.GetObject<KReadableEvent>(handle);
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if (readable_event.IsNotNull()) {
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if (auto * const interrupt_event = readable_event->DynamicCast<KInterruptEvent *>(); interrupt_event != nullptr) {
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R_RETURN(interrupt_event->Reset());
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} else {
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R_RETURN(readable_event->Reset());
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}
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}
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}
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/* Try to reset as process. */
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{
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KScopedAutoObject process = handle_table.GetObject<KProcess>(handle);
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if (process.IsNotNull()) {
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R_RETURN(process->Reset());
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}
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}
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R_THROW(svc::ResultInvalidHandle());
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}
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Result WaitSynchronizationImpl(int32_t *out_index, KSynchronizationObject **objs, int32_t num_handles, int64_t timeout_ns) {
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/* Convert the timeout from nanoseconds to ticks. */
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s64 timeout;
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if (timeout_ns > 0) {
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u64 ticks = KHardwareTimer::GetTick();
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ticks += ams::svc::Tick(TimeSpan::FromNanoSeconds(timeout_ns));
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ticks += 2;
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timeout = ticks;
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} else {
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timeout = timeout_ns;
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}
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R_RETURN(KSynchronizationObject::Wait(out_index, objs, num_handles, timeout));
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}
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Result WaitSynchronization(int32_t *out_index, KUserPointer<const ams::svc::Handle *> user_handles, int32_t num_handles, int64_t timeout_ns) {
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/* Ensure number of handles is valid. */
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R_UNLESS(0 <= num_handles && num_handles <= ams::svc::ArgumentHandleCountMax, svc::ResultOutOfRange());
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/* Get the synchronization context. */
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auto &handle_table = GetCurrentProcess().GetHandleTable();
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KSynchronizationObject **objs = GetCurrentThread().GetSynchronizationObjectBuffer();
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ams::svc::Handle *handles = GetCurrentThread().GetHandleBuffer();
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/* Copy user handles. */
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if (num_handles > 0) {
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/* Ensure that we can try to get the handles. */
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R_UNLESS(GetCurrentProcess().GetPageTable().Contains(KProcessAddress(user_handles.GetUnsafePointer()), num_handles * sizeof(ams::svc::Handle)), svc::ResultInvalidPointer());
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/* Get the handles. */
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R_TRY(user_handles.CopyArrayTo(handles, num_handles));
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/* Convert the handles to objects. */
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R_UNLESS(handle_table.GetMultipleObjects<KSynchronizationObject>(objs, handles, num_handles), svc::ResultInvalidHandle());
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}
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/* Ensure handles are closed when we're done. */
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ON_SCOPE_EXIT {
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for (auto i = 0; i < num_handles; ++i) {
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objs[i]->Close();
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}
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};
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/* Wait on the objects. */
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R_TRY_CATCH(WaitSynchronizationImpl(out_index, objs, num_handles, timeout_ns)) {
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R_CONVERT(svc::ResultSessionClosed, ResultSuccess())
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} R_END_TRY_CATCH;
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R_SUCCEED();
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}
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Result CancelSynchronization(ams::svc::Handle handle) {
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/* Get the thread from its handle. */
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KScopedAutoObject thread = GetCurrentProcess().GetHandleTable().GetObject<KThread>(handle);
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R_UNLESS(thread.IsNotNull(), svc::ResultInvalidHandle());
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/* Cancel the thread's wait. */
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thread->WaitCancel();
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R_SUCCEED();
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}
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void SynchronizePreemptionState() {
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/* Lock the scheduler. */
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KScopedSchedulerLock sl;
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/* If the current thread is pinned, unpin it. */
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KProcess *cur_process = GetCurrentProcessPointer();
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if (cur_process->GetPinnedThread(GetCurrentCoreId()) == GetCurrentThreadPointer()) {
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/* Clear the current thread's interrupt flag. */
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GetCurrentThread().ClearInterruptFlag();
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/* Unpin the current thread. */
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cur_process->UnpinCurrentThread();
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}
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}
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}
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/* ============================= 64 ABI ============================= */
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Result CloseHandle64(ams::svc::Handle handle) {
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R_RETURN(CloseHandle(handle));
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}
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Result ResetSignal64(ams::svc::Handle handle) {
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R_RETURN(ResetSignal(handle));
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}
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Result WaitSynchronization64(int32_t *out_index, KUserPointer<const ams::svc::Handle *> handles, int32_t num_handles, int64_t timeout_ns) {
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R_RETURN(WaitSynchronization(out_index, handles, num_handles, timeout_ns));
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}
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Result CancelSynchronization64(ams::svc::Handle handle) {
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R_RETURN(CancelSynchronization(handle));
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}
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void SynchronizePreemptionState64() {
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return SynchronizePreemptionState();
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}
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/* ============================= 64From32 ABI ============================= */
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Result CloseHandle64From32(ams::svc::Handle handle) {
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R_RETURN(CloseHandle(handle));
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}
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Result ResetSignal64From32(ams::svc::Handle handle) {
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R_RETURN(ResetSignal(handle));
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}
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Result WaitSynchronization64From32(int32_t *out_index, KUserPointer<const ams::svc::Handle *> handles, int32_t num_handles, int64_t timeout_ns) {
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R_RETURN(WaitSynchronization(out_index, handles, num_handles, timeout_ns));
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}
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Result CancelSynchronization64From32(ams::svc::Handle handle) {
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R_RETURN(CancelSynchronization(handle));
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}
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void SynchronizePreemptionState64From32() {
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return SynchronizePreemptionState();
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}
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}
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