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https://github.com/Atmosphere-NX/Atmosphere.git
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316 lines
11 KiB
C++
316 lines
11 KiB
C++
/*
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* Copyright (c) 2018-2020 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 {
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namespace {
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ALWAYS_INLINE bool ReadFromUser(s32 *out, KProcessAddress address) {
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return UserspaceAccess::CopyMemoryFromUserSize32Bit(out, GetVoidPointer(address));
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}
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ALWAYS_INLINE bool DecrementIfLessThan(s32 *out, KProcessAddress address, s32 value) {
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KScopedInterruptDisable di;
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if (!cpu::CanAccessAtomic(address)) {
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return false;
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}
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return UserspaceAccess::DecrementIfLessThanAtomic(out, GetPointer<s32>(address), value);
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}
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ALWAYS_INLINE bool UpdateIfEqual(s32 *out, KProcessAddress address, s32 value, s32 new_value) {
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KScopedInterruptDisable di;
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if (!cpu::CanAccessAtomic(address)) {
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return false;
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}
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return UserspaceAccess::UpdateIfEqualAtomic(out, GetPointer<s32>(address), value, new_value);
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}
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}
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Result KAddressArbiter::Signal(uintptr_t addr, s32 count) {
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/* Perform signaling. */
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s32 num_waiters = 0;
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{
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KScopedSchedulerLock sl;
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auto it = m_tree.nfind_light({ addr, -1 });
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while ((it != m_tree.end()) && (count <= 0 || num_waiters < count) && (it->GetAddressArbiterKey() == addr)) {
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KThread *target_thread = std::addressof(*it);
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target_thread->SetSyncedObject(nullptr, ResultSuccess());
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AMS_ASSERT(target_thread->IsWaitingForAddressArbiter());
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target_thread->Wakeup();
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it = m_tree.erase(it);
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target_thread->ClearAddressArbiter();
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++num_waiters;
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}
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}
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return ResultSuccess();
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}
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Result KAddressArbiter::SignalAndIncrementIfEqual(uintptr_t addr, s32 value, s32 count) {
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/* Perform signaling. */
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s32 num_waiters = 0;
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{
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KScopedSchedulerLock sl;
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/* Check the userspace value. */
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s32 user_value;
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R_UNLESS(UpdateIfEqual(std::addressof(user_value), addr, value, value + 1), svc::ResultInvalidCurrentMemory());
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R_UNLESS(user_value == value, svc::ResultInvalidState());
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auto it = m_tree.nfind_light({ addr, -1 });
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while ((it != m_tree.end()) && (count <= 0 || num_waiters < count) && (it->GetAddressArbiterKey() == addr)) {
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KThread *target_thread = std::addressof(*it);
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target_thread->SetSyncedObject(nullptr, ResultSuccess());
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AMS_ASSERT(target_thread->IsWaitingForAddressArbiter());
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target_thread->Wakeup();
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it = m_tree.erase(it);
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target_thread->ClearAddressArbiter();
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++num_waiters;
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}
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}
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return ResultSuccess();
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}
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Result KAddressArbiter::SignalAndModifyByWaitingCountIfEqual(uintptr_t addr, s32 value, s32 count) {
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/* Perform signaling. */
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s32 num_waiters = 0;
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{
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KScopedSchedulerLock sl;
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auto it = m_tree.nfind_light({ addr, -1 });
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/* Determine the updated value. */
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s32 new_value;
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if (GetTargetFirmware() >= TargetFirmware_7_0_0) {
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if (count <= 0) {
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if ((it != m_tree.end()) && (it->GetAddressArbiterKey() == addr)) {
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new_value = value - 2;
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} else {
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new_value = value + 1;
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}
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} else {
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if ((it != m_tree.end()) && (it->GetAddressArbiterKey() == addr)) {
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auto tmp_it = it;
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s32 tmp_num_waiters = 0;
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while ((++tmp_it != m_tree.end()) && (tmp_it->GetAddressArbiterKey() == addr)) {
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if ((tmp_num_waiters++) >= count) {
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break;
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}
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}
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if (tmp_num_waiters < count) {
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new_value = value - 1;
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} else {
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new_value = value;
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}
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} else {
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new_value = value + 1;
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}
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}
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} else {
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if (count <= 0) {
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if ((it != m_tree.end()) && (it->GetAddressArbiterKey() == addr)) {
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new_value = value - 1;
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} else {
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new_value = value + 1;
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}
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} else {
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auto tmp_it = it;
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s32 tmp_num_waiters = 0;
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while ((tmp_it != m_tree.end()) && (tmp_it->GetAddressArbiterKey() == addr) && (tmp_num_waiters < count + 1)) {
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++tmp_num_waiters;
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++tmp_it;
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}
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if (tmp_num_waiters == 0) {
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new_value = value + 1;
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} else if (tmp_num_waiters <= count) {
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new_value = value - 1;
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} else {
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new_value = value;
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}
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}
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}
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/* Check the userspace value. */
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s32 user_value;
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bool succeeded;
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if (value != new_value) {
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succeeded = UpdateIfEqual(std::addressof(user_value), addr, value, new_value);
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} else {
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succeeded = ReadFromUser(std::addressof(user_value), addr);
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}
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R_UNLESS(succeeded, svc::ResultInvalidCurrentMemory());
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R_UNLESS(user_value == value, svc::ResultInvalidState());
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while ((it != m_tree.end()) && (count <= 0 || num_waiters < count) && (it->GetAddressArbiterKey() == addr)) {
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KThread *target_thread = std::addressof(*it);
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target_thread->SetSyncedObject(nullptr, ResultSuccess());
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AMS_ASSERT(target_thread->IsWaitingForAddressArbiter());
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target_thread->Wakeup();
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it = m_tree.erase(it);
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target_thread->ClearAddressArbiter();
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++num_waiters;
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}
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}
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return ResultSuccess();
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}
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Result KAddressArbiter::WaitIfLessThan(uintptr_t addr, s32 value, bool decrement, s64 timeout) {
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/* Prepare to wait. */
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KThread *cur_thread = GetCurrentThreadPointer();
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KHardwareTimer *timer;
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{
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KScopedSchedulerLockAndSleep slp(std::addressof(timer), cur_thread, timeout);
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/* Check that the thread isn't terminating. */
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if (cur_thread->IsTerminationRequested()) {
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slp.CancelSleep();
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return svc::ResultTerminationRequested();
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}
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/* Set the synced object. */
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cur_thread->SetSyncedObject(nullptr, ams::svc::ResultTimedOut());
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/* Read the value from userspace. */
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s32 user_value;
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bool succeeded;
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if (decrement) {
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succeeded = DecrementIfLessThan(std::addressof(user_value), addr, value);
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} else {
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succeeded = ReadFromUser(std::addressof(user_value), addr);
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}
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if (!succeeded) {
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slp.CancelSleep();
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return svc::ResultInvalidCurrentMemory();
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}
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/* Check that the value is less than the specified one. */
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if (user_value >= value) {
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slp.CancelSleep();
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return svc::ResultInvalidState();
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}
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/* Check that the timeout is non-zero. */
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if (timeout == 0) {
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slp.CancelSleep();
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return svc::ResultTimedOut();
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}
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/* Set the arbiter. */
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cur_thread->SetAddressArbiter(std::addressof(m_tree), addr);
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m_tree.insert(*cur_thread);
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cur_thread->SetState(KThread::ThreadState_Waiting);
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}
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/* Cancel the timer wait. */
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if (timer != nullptr) {
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timer->CancelTask(cur_thread);
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}
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/* Remove from the address arbiter. */
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{
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KScopedSchedulerLock sl;
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if (cur_thread->IsWaitingForAddressArbiter()) {
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m_tree.erase(m_tree.iterator_to(*cur_thread));
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cur_thread->ClearAddressArbiter();
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}
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}
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/* Get the result. */
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KSynchronizationObject *dummy;
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return cur_thread->GetWaitResult(std::addressof(dummy));
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}
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Result KAddressArbiter::WaitIfEqual(uintptr_t addr, s32 value, s64 timeout) {
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/* Prepare to wait. */
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KThread *cur_thread = GetCurrentThreadPointer();
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KHardwareTimer *timer;
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{
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KScopedSchedulerLockAndSleep slp(std::addressof(timer), cur_thread, timeout);
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/* Check that the thread isn't terminating. */
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if (cur_thread->IsTerminationRequested()) {
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slp.CancelSleep();
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return svc::ResultTerminationRequested();
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}
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/* Set the synced object. */
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cur_thread->SetSyncedObject(nullptr, ams::svc::ResultTimedOut());
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/* Read the value from userspace. */
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s32 user_value;
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if (!ReadFromUser(std::addressof(user_value), addr)) {
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slp.CancelSleep();
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return svc::ResultInvalidCurrentMemory();
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}
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/* Check that the value is equal. */
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if (value != user_value) {
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slp.CancelSleep();
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return svc::ResultInvalidState();
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}
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/* Check that the timeout is non-zero. */
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if (timeout == 0) {
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slp.CancelSleep();
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return svc::ResultTimedOut();
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}
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/* Set the arbiter. */
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cur_thread->SetAddressArbiter(std::addressof(m_tree), addr);
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m_tree.insert(*cur_thread);
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cur_thread->SetState(KThread::ThreadState_Waiting);
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}
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/* Cancel the timer wait. */
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if (timer != nullptr) {
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timer->CancelTask(cur_thread);
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}
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/* Remove from the address arbiter. */
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{
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KScopedSchedulerLock sl;
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if (cur_thread->IsWaitingForAddressArbiter()) {
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m_tree.erase(m_tree.iterator_to(*cur_thread));
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cur_thread->ClearAddressArbiter();
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}
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}
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/* Get the result. */
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KSynchronizationObject *dummy;
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return cur_thread->GetWaitResult(std::addressof(dummy));
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}
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}
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