2021-10-21 05:53:42 +02:00
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/*
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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 <stratosphere.hpp>
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2021-10-23 02:27:35 +02:00
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#include "util_common.hpp"
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#include "util_scoped_heap.hpp"
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2021-10-21 05:53:42 +02:00
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namespace ams::test {
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2021-10-23 02:27:35 +02:00
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namespace {
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constinit svc::Handle g_read_handles[3] = { svc::InvalidHandle, svc::InvalidHandle, svc::InvalidHandle };
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constinit svc::Handle g_write_handles[3] = { svc::InvalidHandle, svc::InvalidHandle, svc::InvalidHandle };
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constinit s64 g_thread_wait_ns;
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constinit bool g_should_switch_threads;
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constinit bool g_switched_threads;
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constinit bool g_correct_switch_threads;
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void WaitSynchronization(svc::Handle handle) {
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s32 dummy;
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R_ABORT_UNLESS(svc::WaitSynchronization(std::addressof(dummy), std::addressof(handle), 1, -1));
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}
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void TestYieldHigherOrSamePriorityThread() {
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/* Wait to run. */
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WaitSynchronization(g_read_handles[0]);
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/* Reset our event. */
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R_ABORT_UNLESS(svc::ClearEvent(g_read_handles[0]));
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/* Signal the other thread's event. */
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R_ABORT_UNLESS(svc::SignalEvent(g_write_handles[1]));
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/* Wait, potentially yielding to the lower/same priority thread. */
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g_switched_threads = false;
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svc::SleepThread(g_thread_wait_ns);
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/* Check whether we switched correctly. */
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g_correct_switch_threads = g_should_switch_threads == g_switched_threads;
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/* Exit. */
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svc::ExitThread();
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}
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void TestYieldLowerOrSamePriorityThread() {
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/* Signal thread the higher/same priority thread to run. */
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R_ABORT_UNLESS(svc::SignalEvent(g_write_handles[0]));
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/* Wait to run. */
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WaitSynchronization(g_read_handles[1]);
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/* Reset our event. */
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R_ABORT_UNLESS(svc::ClearEvent(g_read_handles[1]));
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/* We've switched to the lower/same priority thread. */
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g_switched_threads = true;
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/* Wait to be instructed to exit. */
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WaitSynchronization(g_read_handles[2]);
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/* Reset the exit signal. */
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R_ABORT_UNLESS(svc::ClearEvent(g_read_handles[2]));
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/* Exit. */
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svc::ExitThread();
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}
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void TestYieldSamePriority(uintptr_t sp_higher, uintptr_t sp_lower) {
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/* Test each core. */
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for (s32 core = 0; core < NumCores; ++core) {
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for (s32 priority = HighestTestPriority; priority <= LowestTestPriority && !IsPreemptionPriority(core, priority); ++priority) {
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svc::Handle thread_handles[2];
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/* Create threads. */
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CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 0, reinterpret_cast<uintptr_t>(&TestYieldHigherOrSamePriorityThread), 0, sp_higher, priority, core)));
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CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 1, reinterpret_cast<uintptr_t>(&TestYieldLowerOrSamePriorityThread), 0, sp_lower, priority, core)));
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/* Start threads. */
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CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[1])));
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CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[0])));
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/* Wait for higher priority thread. */
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WaitSynchronization(thread_handles[0]);
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CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[0])));
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/* Signal the lower priority thread to exit. */
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CATCH_REQUIRE(R_SUCCEEDED(svc::SignalEvent(g_write_handles[2])));
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/* Wait for the lower priority thread. */
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WaitSynchronization(thread_handles[1]);
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CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[1])));
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/* Check that the switch was correct. */
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CATCH_REQUIRE(g_correct_switch_threads);
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}
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}
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}
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void TestYieldDifferentPriority(uintptr_t sp_higher, uintptr_t sp_lower) {
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/* Test each core. */
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for (s32 core = 0; core < NumCores; ++core) {
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for (s32 priority = HighestTestPriority; priority < LowestTestPriority && !IsPreemptionPriority(core, priority); ++priority) {
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svc::Handle thread_handles[2];
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/* Create threads. */
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CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 0, reinterpret_cast<uintptr_t>(&TestYieldHigherOrSamePriorityThread), 0, sp_higher, priority, core)));
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CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 1, reinterpret_cast<uintptr_t>(&TestYieldLowerOrSamePriorityThread), 0, sp_lower, priority + 1, core)));
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/* Start threads. */
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CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[1])));
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CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[0])));
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/* Wait for higher priority thread. */
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WaitSynchronization(thread_handles[0]);
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CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[0])));
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/* Signal the lower priority thread to exit. */
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CATCH_REQUIRE(R_SUCCEEDED(svc::SignalEvent(g_write_handles[2])));
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/* Wait for the lower priority thread. */
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WaitSynchronization(thread_handles[1]);
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CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[1])));
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/* Check that the switch was correct. */
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CATCH_REQUIRE(g_correct_switch_threads);
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}
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}
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}
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}
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2021-10-21 05:53:42 +02:00
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CATCH_TEST_CASE( "svc::SleepThread: Thread sleeps for time specified" ) {
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for (s64 ns = 1; ns < TimeSpan::FromSeconds(1).GetNanoSeconds(); ns *= 2) {
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const auto start = os::GetSystemTickOrdered();
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svc::SleepThread(ns);
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const auto end = os::GetSystemTickOrdered();
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const s64 taken_ns = (end - start).ToTimeSpan().GetNanoSeconds();
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CATCH_REQUIRE( taken_ns >= ns );
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}
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}
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2021-10-23 02:27:35 +02:00
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CATCH_TEST_CASE( "svc::SleepThread: Yield is behaviorally correct" ) {
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/* Create events. */
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for (size_t i = 0; i < util::size(g_write_handles); ++i) {
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g_read_handles[i] = svc::InvalidHandle;
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g_write_handles[i] = svc::InvalidHandle;
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CATCH_REQUIRE(R_SUCCEEDED(svc::CreateEvent(g_write_handles + i, g_read_handles + i)));
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}
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ON_SCOPE_EXIT {
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for (size_t i = 0; i < util::size(g_write_handles); ++i) {
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CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(g_read_handles[i])));
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CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(g_write_handles[i])));
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g_read_handles[i] = svc::InvalidHandle;
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g_write_handles[i] = svc::InvalidHandle;
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}
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};
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/* Create heap. */
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ScopedHeap heap(3 * os::MemoryPageSize);
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CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_None)));
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ON_SCOPE_EXIT {
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CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_ReadWrite)));
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};
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const uintptr_t sp_higher = heap.GetAddress() + 1 * os::MemoryPageSize;
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const uintptr_t sp_lower = heap.GetAddress() + 3 * os::MemoryPageSize;
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CATCH_SECTION("svc::SleepThread: Yields do not switch to a thread of lower priority.") {
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/* Test yield without migration. */
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{
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/* Configure for yield test. */
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g_should_switch_threads = false;
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g_thread_wait_ns = static_cast<s64>(svc::YieldType_WithoutCoreMigration);
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TestYieldDifferentPriority(sp_higher, sp_lower);
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}
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/* Test yield with migration. */
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{
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/* Configure for yield test. */
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g_should_switch_threads = false;
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g_thread_wait_ns = static_cast<s64>(svc::YieldType_WithoutCoreMigration);
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TestYieldDifferentPriority(sp_higher, sp_lower);
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}
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}
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CATCH_SECTION("svc::SleepThread: ToAnyThread switches to a thread of same or lower priority.") {
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/* Test to same priority. */
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{
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/* Configure for yield test. */
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g_should_switch_threads = true;
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g_thread_wait_ns = static_cast<s64>(svc::YieldType_ToAnyThread);
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TestYieldSamePriority(sp_higher, sp_lower);
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}
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/* Test to lower priority. */
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{
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/* Configure for yield test. */
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g_should_switch_threads = true;
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g_thread_wait_ns = static_cast<s64>(svc::YieldType_ToAnyThread);
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TestYieldDifferentPriority(sp_higher, sp_lower);
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}
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}
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CATCH_SECTION("svc::SleepThread: Yield switches to another thread of same priority.") {
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/* Test yield without migration. */
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{
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/* Configure for yield test. */
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g_should_switch_threads = true;
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g_thread_wait_ns = static_cast<s64>(svc::YieldType_WithoutCoreMigration);
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TestYieldSamePriority(sp_higher, sp_lower);
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}
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/* Test yield with migration. */
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{
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/* Configure for yield test. */
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g_should_switch_threads = true;
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g_thread_wait_ns = static_cast<s64>(svc::YieldType_WithCoreMigration);
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TestYieldSamePriority(sp_higher, sp_lower);
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}
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}
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CATCH_SECTION("svc::SleepThread: Yield with bogus timeout does not switch to another thread same priority") {
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/* Configure for yield test. */
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g_should_switch_threads = false;
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g_thread_wait_ns = INT64_C(-5);
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TestYieldSamePriority(sp_higher, sp_lower);
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}
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}
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2021-10-21 05:53:42 +02:00
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}
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