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unit testing: catch -> doctest (faster compile, thread-safe)

This commit is contained in:
Michael Scire 2021-11-08 11:55:21 -08:00
parent fcc7ce49d9
commit 14ad2f0ba0
11 changed files with 6728 additions and 18098 deletions

File diff suppressed because it is too large Load diff

File diff suppressed because it is too large Load diff

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@ -15,8 +15,8 @@
*/
#include <stratosphere.hpp>
#define CATCH_CONFIG_RUNNER
#include "util_catch.hpp"
#define DOCTEST_CONFIG_IMPLEMENT
#include "util_test_framework.hpp"
namespace ams {
@ -62,7 +62,13 @@ namespace ams {
}
/* Run tests. */
Catch::Session().run(os::GetHostArgc(), os::GetHostArgv());
{
doctest::Context ctx;
ctx.applyCommandLine(os::GetHostArgc(), os::GetHostArgv());
ctx.run();
}
AMS_INFINITE_LOOP();
@ -72,7 +78,7 @@ namespace ams {
}
namespace Catch {
namespace doctest {
namespace {
@ -89,14 +95,13 @@ namespace Catch {
}
std::ostream& cout() {
std::ostream& get_cout() {
static std::ostream ret(new OutputDebugStringStream);
return ret;
}
std::ostream& clog() {
return cout();
}
std::ostream& cerr() {
return clog();
std::ostream& get_cerr() {
return get_cout();
}
}

View file

@ -37,12 +37,12 @@ namespace ams::test {
}
CATCH_TEST_CASE( "The scheduler is preemptive at the preemptive priority and cooperative for all other priorities" ) {
DOCTEST_TEST_CASE( "The scheduler is preemptive at the preemptive priority and cooperative for all other priorities" ) {
/* Create heap. */
ScopedHeap heap(3 * os::MemoryPageSize);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_None)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_None)));
ON_SCOPE_EXIT {
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_ReadWrite)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_ReadWrite)));
};
const uintptr_t sp_0 = heap.GetAddress() + 1 * os::MemoryPageSize;
const uintptr_t sp_1 = heap.GetAddress() + 3 * os::MemoryPageSize;
@ -56,21 +56,21 @@ namespace ams::test {
g_spinloop = true;
/* Create threads. */
CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 0, reinterpret_cast<uintptr_t>(&TestPreemptionPriorityThreadFunction), reinterpret_cast<uintptr_t>(thread_executed + 0), sp_0, priority, core)));
CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 1, reinterpret_cast<uintptr_t>(&TestPreemptionPriorityThreadFunction), reinterpret_cast<uintptr_t>(thread_executed + 1), sp_1, priority, core)));
DOCTEST_CHECK(R_SUCCEEDED(svc::CreateThread(thread_handles + 0, reinterpret_cast<uintptr_t>(&TestPreemptionPriorityThreadFunction), reinterpret_cast<uintptr_t>(thread_executed + 0), sp_0, priority, core)));
DOCTEST_CHECK(R_SUCCEEDED(svc::CreateThread(thread_handles + 1, reinterpret_cast<uintptr_t>(&TestPreemptionPriorityThreadFunction), reinterpret_cast<uintptr_t>(thread_executed + 1), sp_1, priority, core)));
/* Start threads. */
CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[0])));
CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[1])));
DOCTEST_CHECK(R_SUCCEEDED(svc::StartThread(thread_handles[0])));
DOCTEST_CHECK(R_SUCCEEDED(svc::StartThread(thread_handles[1])));
/* Wait long enough that we can be confident the threads have been balanced. */
svc::SleepThread(PreemptionTimeSpan.GetNanoSeconds() * 10);
/* Check that we're in a coherent state. */
if (IsPreemptionPriority(core, priority)) {
CATCH_REQUIRE(thread_executed[0] & thread_executed[1]);
DOCTEST_CHECK((thread_executed[0] & thread_executed[1]));
} else {
CATCH_REQUIRE(thread_executed[0] ^ thread_executed[1]);
DOCTEST_CHECK((thread_executed[0] ^ thread_executed[1]));
}
/* Stop spinlooping. */
@ -78,12 +78,12 @@ namespace ams::test {
/* Wait for threads to exit. */
s32 dummy;
CATCH_REQUIRE(R_SUCCEEDED(svc::WaitSynchronization(std::addressof(dummy), thread_handles + 0, 1, -1)));
CATCH_REQUIRE(R_SUCCEEDED(svc::WaitSynchronization(std::addressof(dummy), thread_handles + 1, 1, -1)));
DOCTEST_CHECK(R_SUCCEEDED(svc::WaitSynchronization(std::addressof(dummy), thread_handles + 0, 1, -1)));
DOCTEST_CHECK(R_SUCCEEDED(svc::WaitSynchronization(std::addressof(dummy), thread_handles + 1, 1, -1)));
/* Close thread handles. */
CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[0])));
CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[1])));
DOCTEST_CHECK(R_SUCCEEDED(svc::CloseHandle(thread_handles[0])));
DOCTEST_CHECK(R_SUCCEEDED(svc::CloseHandle(thread_handles[1])));
}
}
}

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@ -52,81 +52,81 @@ namespace ams::test {
}
CATCH_TEST_CASE("svc::SetHeapSize") {
DOCTEST_TEST_CASE("svc::SetHeapSize") {
svc::MemoryInfo mem_info;
svc::PageInfo page_info;
uintptr_t dummy;
/* Reset the heap. */
uintptr_t addr;
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 0)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 0)));
/* Ensure that we don't leak memory. */
const size_t initial_memory = GetPhysicalMemorySizeAvailable();
ON_SCOPE_EXIT { CATCH_REQUIRE(initial_memory == GetPhysicalMemorySizeAvailable()); };
ON_SCOPE_EXIT { DOCTEST_CHECK(initial_memory == GetPhysicalMemorySizeAvailable()); };
CATCH_SECTION("Unaligned and too big sizes fail") {
DOCTEST_SUBCASE("Unaligned and too big sizes fail") {
for (size_t i = 1; i < svc::HeapSizeAlignment; i = util::AlignUp(i + 1, os::MemoryPageSize)){
CATCH_REQUIRE(svc::ResultInvalidSize::Includes(svc::SetHeapSize(std::addressof(dummy), i)));
DOCTEST_CHECK(svc::ResultInvalidSize::Includes(svc::SetHeapSize(std::addressof(dummy), i)));
}
CATCH_REQUIRE(svc::ResultInvalidSize::Includes(svc::SetHeapSize(std::addressof(dummy), 64_GB)));
DOCTEST_CHECK(svc::ResultInvalidSize::Includes(svc::SetHeapSize(std::addressof(dummy), 64_GB)));
}
CATCH_SECTION("Larger size than address space fails") {
CATCH_REQUIRE(svc::ResultOutOfMemory::Includes(svc::SetHeapSize(std::addressof(dummy), util::AlignUp(svc::AddressMemoryRegionHeap39Size + 1, svc::HeapSizeAlignment))));
DOCTEST_SUBCASE("Larger size than address space fails") {
DOCTEST_CHECK(svc::ResultOutOfMemory::Includes(svc::SetHeapSize(std::addressof(dummy), util::AlignUp(svc::AddressMemoryRegionHeap39Size + 1, svc::HeapSizeAlignment))));
}
CATCH_SECTION("Bounded by resource limit") {
CATCH_REQUIRE(svc::ResultLimitReached::Includes(svc::SetHeapSize(std::addressof(dummy), util::AlignUp(GetPhysicalMemorySizeMax() + 1, svc::HeapSizeAlignment))));
CATCH_REQUIRE(svc::ResultLimitReached::Includes(svc::SetHeapSize(std::addressof(dummy), util::AlignUp(GetPhysicalMemorySizeAvailable() + 1, svc::HeapSizeAlignment))));
DOCTEST_SUBCASE("Bounded by resource limit") {
DOCTEST_CHECK(svc::ResultLimitReached::Includes(svc::SetHeapSize(std::addressof(dummy), util::AlignUp(GetPhysicalMemorySizeMax() + 1, svc::HeapSizeAlignment))));
DOCTEST_CHECK(svc::ResultLimitReached::Includes(svc::SetHeapSize(std::addressof(dummy), util::AlignUp(GetPhysicalMemorySizeAvailable() + 1, svc::HeapSizeAlignment))));
}
CATCH_SECTION("SetHeapSize gives heap memory") {
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), svc::HeapSizeAlignment)));
DOCTEST_SUBCASE("SetHeapSize gives heap memory") {
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), svc::HeapSizeAlignment)));
TestMemory(addr, svc::HeapSizeAlignment, svc::MemoryState_Normal, svc::MemoryPermission_ReadWrite, 0);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 0)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 0)));
}
CATCH_SECTION("SetHeapSize cannot remove read-only heap") {
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), svc::HeapSizeAlignment)));
DOCTEST_SUBCASE("SetHeapSize cannot remove read-only heap") {
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), svc::HeapSizeAlignment)));
CATCH_REQUIRE(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), addr)));
DOCTEST_CHECK(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), addr)));
TestMemory(addr, svc::HeapSizeAlignment, svc::MemoryState_Normal, svc::MemoryPermission_ReadWrite, 0);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(addr, svc::HeapSizeAlignment, svc::MemoryPermission_Read)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(addr, svc::HeapSizeAlignment, svc::MemoryPermission_Read)));
TestMemory(addr, svc::HeapSizeAlignment, svc::MemoryState_Normal, svc::MemoryPermission_Read, 0);
CATCH_REQUIRE(svc::ResultInvalidCurrentMemory::Includes(svc::SetHeapSize(std::addressof(dummy), 0)));
DOCTEST_CHECK(svc::ResultInvalidCurrentMemory::Includes(svc::SetHeapSize(std::addressof(dummy), 0)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(addr, svc::HeapSizeAlignment, svc::MemoryPermission_ReadWrite)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(addr, svc::HeapSizeAlignment, svc::MemoryPermission_ReadWrite)));
TestMemory(addr, svc::HeapSizeAlignment, svc::MemoryState_Normal, svc::MemoryPermission_ReadWrite, 0);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 0)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 0)));
}
CATCH_SECTION("Heap memory does not survive unmap/re-map") {
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 2 * svc::HeapSizeAlignment)));
DOCTEST_SUBCASE("Heap memory does not survive unmap/re-map") {
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 2 * svc::HeapSizeAlignment)));
u8 * const heap = reinterpret_cast<u8 *>(addr);
std::memset(heap, 0xAA, svc::HeapSizeAlignment);
std::memset(heap + svc::HeapSizeAlignment, 0xBB, svc::HeapSizeAlignment);
CATCH_REQUIRE(heap[svc::HeapSizeAlignment] == 0xBB);
CATCH_REQUIRE(std::memcmp(heap + svc::HeapSizeAlignment, heap + svc::HeapSizeAlignment + 1, svc::HeapSizeAlignment - 1) == 0);
DOCTEST_CHECK(heap[svc::HeapSizeAlignment] == 0xBB);
DOCTEST_CHECK(std::memcmp(heap + svc::HeapSizeAlignment, heap + svc::HeapSizeAlignment + 1, svc::HeapSizeAlignment - 1) == 0);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), svc::HeapSizeAlignment)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), svc::HeapSizeAlignment)));
CATCH_REQUIRE(heap[0] == 0xAA);
CATCH_REQUIRE(std::memcmp(heap, heap + 1, svc::HeapSizeAlignment - 1) == 0);
DOCTEST_CHECK(heap[0] == 0xAA);
DOCTEST_CHECK(std::memcmp(heap, heap + 1, svc::HeapSizeAlignment - 1) == 0);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 2 * svc::HeapSizeAlignment)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 2 * svc::HeapSizeAlignment)));
CATCH_REQUIRE(heap[svc::HeapSizeAlignment] == 0x00);
CATCH_REQUIRE(std::memcmp(heap + svc::HeapSizeAlignment, heap + svc::HeapSizeAlignment + 1, svc::HeapSizeAlignment - 1) == 0);
DOCTEST_CHECK(heap[svc::HeapSizeAlignment] == 0x00);
DOCTEST_CHECK(std::memcmp(heap + svc::HeapSizeAlignment, heap + svc::HeapSizeAlignment + 1, svc::HeapSizeAlignment - 1) == 0);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 0)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetHeapSize(std::addressof(addr), 0)));
}
}

View file

@ -30,22 +30,22 @@ namespace ams::test {
alignas(os::MemoryPageSize) constinit u8 g_memory_permission_buffer[2 * os::MemoryPageSize];
CATCH_TEST_CASE("svc::SetMemoryPermission invalid arguments") {
DOCTEST_TEST_CASE("svc::SetMemoryPermission invalid arguments") {
const uintptr_t buffer = reinterpret_cast<uintptr_t>(g_memory_permission_buffer);
for (size_t i = 1; i < os::MemoryPageSize; ++i) {
CATCH_REQUIRE(svc::ResultInvalidAddress::Includes(svc::SetMemoryPermission(buffer + i, os::MemoryPageSize, svc::MemoryPermission_Read)));
CATCH_REQUIRE(svc::ResultInvalidSize::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize + i, svc::MemoryPermission_Read)));
DOCTEST_CHECK(svc::ResultInvalidAddress::Includes(svc::SetMemoryPermission(buffer + i, os::MemoryPageSize, svc::MemoryPermission_Read)));
DOCTEST_CHECK(svc::ResultInvalidSize::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize + i, svc::MemoryPermission_Read)));
}
CATCH_REQUIRE(svc::ResultInvalidSize::Includes(svc::SetMemoryPermission(buffer, 0, svc::MemoryPermission_Read)));
DOCTEST_CHECK(svc::ResultInvalidSize::Includes(svc::SetMemoryPermission(buffer, 0, svc::MemoryPermission_Read)));
{
const u64 vmem_end = util::AlignDown(std::numeric_limits<u64>::max(), os::MemoryPageSize);
CATCH_REQUIRE(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(vmem_end, 2 * os::MemoryPageSize, svc::MemoryPermission_Read)));
DOCTEST_CHECK(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(vmem_end, 2 * os::MemoryPageSize, svc::MemoryPermission_Read)));
}
CATCH_REQUIRE(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(svc::AddressMap39End, os::MemoryPageSize, svc::MemoryPermission_Read)));
DOCTEST_CHECK(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(svc::AddressMap39End, os::MemoryPageSize, svc::MemoryPermission_Read)));
for (size_t i = 0; i < 0x100; ++i) {
const auto perm = static_cast<svc::MemoryPermission>(i);
@ -53,14 +53,14 @@ namespace ams::test {
continue;
}
CATCH_REQUIRE(svc::ResultInvalidNewMemoryPermission::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize, perm)));
DOCTEST_CHECK(svc::ResultInvalidNewMemoryPermission::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize, perm)));
}
CATCH_REQUIRE(svc::ResultInvalidNewMemoryPermission::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize, svc::MemoryPermission_ReadExecute)));
CATCH_REQUIRE(svc::ResultInvalidNewMemoryPermission::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize, svc::MemoryPermission_Write)));
CATCH_REQUIRE(svc::ResultInvalidNewMemoryPermission::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize, svc::MemoryPermission_DontCare)));
DOCTEST_CHECK(svc::ResultInvalidNewMemoryPermission::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize, svc::MemoryPermission_ReadExecute)));
DOCTEST_CHECK(svc::ResultInvalidNewMemoryPermission::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize, svc::MemoryPermission_Write)));
DOCTEST_CHECK(svc::ResultInvalidNewMemoryPermission::Includes(svc::SetMemoryPermission(buffer, os::MemoryPageSize, svc::MemoryPermission_DontCare)));
}
CATCH_TEST_CASE("svc::SetMemoryPermission works on specific states") {
DOCTEST_TEST_CASE("svc::SetMemoryPermission works on specific states") {
/* Check that we have CodeData. */
const uintptr_t bss_buffer = reinterpret_cast<uintptr_t>(g_memory_permission_buffer);
TestMemory(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryState_CodeData, svc::MemoryPermission_ReadWrite, 0);
@ -76,15 +76,15 @@ namespace ams::test {
/* Get current mapping. */
svc::MemoryInfo mem_info;
svc::PageInfo page_info;
CATCH_REQUIRE(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), addr)));
DOCTEST_CHECK(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), addr)));
/* Try to set permission. */
if (CanSetMemoryPermission(mem_info.state) && mem_info.attribute == 0) {
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(mem_info.base_address, mem_info.size, svc::MemoryPermission_ReadWrite)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(mem_info.base_address, mem_info.size, svc::MemoryPermission_ReadWrite)));
TestMemory(mem_info.base_address, mem_info.size, mem_info.state, svc::MemoryPermission_ReadWrite, mem_info.attribute);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(mem_info.base_address, mem_info.size, mem_info.permission)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(mem_info.base_address, mem_info.size, mem_info.permission)));
} else {
CATCH_REQUIRE(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(mem_info.base_address, mem_info.size, svc::MemoryPermission_Read)));
DOCTEST_CHECK(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(mem_info.base_address, mem_info.size, svc::MemoryPermission_Read)));
}
const uintptr_t next_address = mem_info.base_address + mem_info.size;
@ -96,25 +96,25 @@ namespace ams::test {
}
}
CATCH_TEST_CASE("svc::SetMemoryPermission allows for free movement between RW-, R--, ---") {
DOCTEST_TEST_CASE("svc::SetMemoryPermission allows for free movement between RW-, R--, ---") {
/* Define helper. */
auto test_set_memory_permission = [](uintptr_t address, size_t size){
/* Get the permission. */
svc::MemoryInfo mem_info;
svc::PageInfo page_info;
CATCH_REQUIRE(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), address)));
DOCTEST_CHECK(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), address)));
const svc::MemoryPermission legal_states[] = { svc::MemoryPermission_None, svc::MemoryPermission_Read, svc::MemoryPermission_ReadWrite };
for (const auto src_state : legal_states) {
for (const auto dst_state : legal_states) {
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(address, size, svc::MemoryPermission_None)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(address, size, src_state)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(address, size, dst_state)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(address, size, svc::MemoryPermission_None)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(address, size, svc::MemoryPermission_None)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(address, size, src_state)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(address, size, dst_state)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(address, size, svc::MemoryPermission_None)));
}
}
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(address, size, mem_info.permission)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(address, size, mem_info.permission)));
};
/* Test that we can freely move about .bss buffers. */
@ -130,27 +130,27 @@ namespace ams::test {
/* TODO: AliasCodeData */
}
CATCH_TEST_CASE("svc::SetMemoryPermission fails when the memory has non-zero attribute") {
DOCTEST_TEST_CASE("svc::SetMemoryPermission fails when the memory has non-zero attribute") {
const uintptr_t bss_buffer = reinterpret_cast<uintptr_t>(g_memory_permission_buffer);
TestMemory(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryState_CodeData, svc::MemoryPermission_ReadWrite, 0);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_None)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_Read)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_ReadWrite)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_None)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_Read)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_ReadWrite)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryAttribute(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryAttribute_Uncached, svc::MemoryAttribute_Uncached)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryAttribute(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryAttribute_Uncached, svc::MemoryAttribute_Uncached)));
TestMemory(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryState_CodeData, svc::MemoryPermission_ReadWrite, svc::MemoryAttribute_Uncached);
CATCH_REQUIRE(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_None)));
CATCH_REQUIRE(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_Read)));
CATCH_REQUIRE(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_ReadWrite)));
DOCTEST_CHECK(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_None)));
DOCTEST_CHECK(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_Read)));
DOCTEST_CHECK(svc::ResultInvalidCurrentMemory::Includes(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_ReadWrite)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryAttribute(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryAttribute_Uncached, 0)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryAttribute(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryAttribute_Uncached, 0)));
TestMemory(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryState_CodeData, svc::MemoryPermission_ReadWrite, 0);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_None)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_Read)));
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_ReadWrite)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_None)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_Read)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(bss_buffer, sizeof(g_memory_permission_buffer), svc::MemoryPermission_ReadWrite)));
}
}

View file

@ -86,26 +86,26 @@ namespace ams::test {
svc::Handle thread_handles[2];
/* Create threads. */
CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 0, reinterpret_cast<uintptr_t>(&TestYieldHigherOrSamePriorityThread), 0, sp_higher, priority, core)));
CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 1, reinterpret_cast<uintptr_t>(&TestYieldLowerOrSamePriorityThread), 0, sp_lower, priority, core)));
DOCTEST_CHECK(R_SUCCEEDED(svc::CreateThread(thread_handles + 0, reinterpret_cast<uintptr_t>(&TestYieldHigherOrSamePriorityThread), 0, sp_higher, priority, core)));
DOCTEST_CHECK(R_SUCCEEDED(svc::CreateThread(thread_handles + 1, reinterpret_cast<uintptr_t>(&TestYieldLowerOrSamePriorityThread), 0, sp_lower, priority, core)));
/* Start threads. */
CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[1])));
CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[0])));
DOCTEST_CHECK(R_SUCCEEDED(svc::StartThread(thread_handles[1])));
DOCTEST_CHECK(R_SUCCEEDED(svc::StartThread(thread_handles[0])));
/* Wait for higher priority thread. */
WaitSynchronization(thread_handles[0]);
CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[0])));
DOCTEST_CHECK(R_SUCCEEDED(svc::CloseHandle(thread_handles[0])));
/* Signal the lower priority thread to exit. */
CATCH_REQUIRE(R_SUCCEEDED(svc::SignalEvent(g_write_handles[2])));
DOCTEST_CHECK(R_SUCCEEDED(svc::SignalEvent(g_write_handles[2])));
/* Wait for the lower priority thread. */
WaitSynchronization(thread_handles[1]);
CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[1])));
DOCTEST_CHECK(R_SUCCEEDED(svc::CloseHandle(thread_handles[1])));
/* Check that the switch was correct. */
CATCH_REQUIRE(g_correct_switch_threads);
DOCTEST_CHECK(g_correct_switch_threads);
}
}
}
@ -118,55 +118,55 @@ namespace ams::test {
svc::Handle thread_handles[2];
/* Create threads. */
CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 0, reinterpret_cast<uintptr_t>(&TestYieldHigherOrSamePriorityThread), 0, sp_higher, priority, core)));
CATCH_REQUIRE(R_SUCCEEDED(svc::CreateThread(thread_handles + 1, reinterpret_cast<uintptr_t>(&TestYieldLowerOrSamePriorityThread), 0, sp_lower, priority + 1, core)));
DOCTEST_CHECK(R_SUCCEEDED(svc::CreateThread(thread_handles + 0, reinterpret_cast<uintptr_t>(&TestYieldHigherOrSamePriorityThread), 0, sp_higher, priority, core)));
DOCTEST_CHECK(R_SUCCEEDED(svc::CreateThread(thread_handles + 1, reinterpret_cast<uintptr_t>(&TestYieldLowerOrSamePriorityThread), 0, sp_lower, priority + 1, core)));
/* Start threads. */
CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[1])));
CATCH_REQUIRE(R_SUCCEEDED(svc::StartThread(thread_handles[0])));
DOCTEST_CHECK(R_SUCCEEDED(svc::StartThread(thread_handles[1])));
DOCTEST_CHECK(R_SUCCEEDED(svc::StartThread(thread_handles[0])));
/* Wait for higher priority thread. */
WaitSynchronization(thread_handles[0]);
CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[0])));
DOCTEST_CHECK(R_SUCCEEDED(svc::CloseHandle(thread_handles[0])));
/* Signal the lower priority thread to exit. */
CATCH_REQUIRE(R_SUCCEEDED(svc::SignalEvent(g_write_handles[2])));
DOCTEST_CHECK(R_SUCCEEDED(svc::SignalEvent(g_write_handles[2])));
/* Wait for the lower priority thread. */
WaitSynchronization(thread_handles[1]);
CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(thread_handles[1])));
DOCTEST_CHECK(R_SUCCEEDED(svc::CloseHandle(thread_handles[1])));
/* Check that the switch was correct. */
CATCH_REQUIRE(g_correct_switch_threads);
DOCTEST_CHECK(g_correct_switch_threads);
}
}
}
}
CATCH_TEST_CASE( "svc::SleepThread: Thread sleeps for time specified" ) {
DOCTEST_TEST_CASE( "svc::SleepThread: Thread sleeps for time specified" ) {
for (s64 ns = 1; ns < TimeSpan::FromSeconds(1).GetNanoSeconds(); ns *= 2) {
const auto start = os::GetSystemTickOrdered();
svc::SleepThread(ns);
const auto end = os::GetSystemTickOrdered();
const s64 taken_ns = (end - start).ToTimeSpan().GetNanoSeconds();
CATCH_REQUIRE( taken_ns >= ns );
DOCTEST_CHECK( taken_ns >= ns );
}
}
CATCH_TEST_CASE( "svc::SleepThread: Yield is behaviorally correct" ) {
DOCTEST_TEST_CASE( "svc::SleepThread: Yield is behaviorally correct" ) {
/* Create events. */
for (size_t i = 0; i < util::size(g_write_handles); ++i) {
g_read_handles[i] = svc::InvalidHandle;
g_write_handles[i] = svc::InvalidHandle;
CATCH_REQUIRE(R_SUCCEEDED(svc::CreateEvent(g_write_handles + i, g_read_handles + i)));
DOCTEST_CHECK(R_SUCCEEDED(svc::CreateEvent(g_write_handles + i, g_read_handles + i)));
}
ON_SCOPE_EXIT {
for (size_t i = 0; i < util::size(g_write_handles); ++i) {
CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(g_read_handles[i])));
CATCH_REQUIRE(R_SUCCEEDED(svc::CloseHandle(g_write_handles[i])));
DOCTEST_CHECK(R_SUCCEEDED(svc::CloseHandle(g_read_handles[i])));
DOCTEST_CHECK(R_SUCCEEDED(svc::CloseHandle(g_write_handles[i])));
g_read_handles[i] = svc::InvalidHandle;
g_write_handles[i] = svc::InvalidHandle;
}
@ -174,14 +174,14 @@ namespace ams::test {
/* Create heap. */
ScopedHeap heap(3 * os::MemoryPageSize);
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_None)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_None)));
ON_SCOPE_EXIT {
CATCH_REQUIRE(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_ReadWrite)));
DOCTEST_CHECK(R_SUCCEEDED(svc::SetMemoryPermission(heap.GetAddress() + os::MemoryPageSize, os::MemoryPageSize, svc::MemoryPermission_ReadWrite)));
};
const uintptr_t sp_higher = heap.GetAddress() + 1 * os::MemoryPageSize;
const uintptr_t sp_lower = heap.GetAddress() + 3 * os::MemoryPageSize;
CATCH_SECTION("svc::SleepThread: Yields do not switch to a thread of lower priority.") {
DOCTEST_SUBCASE("svc::SleepThread: Yields do not switch to a thread of lower priority.") {
/* Test yield without migration. */
{
/* Configure for yield test. */
@ -201,7 +201,7 @@ namespace ams::test {
}
}
CATCH_SECTION("svc::SleepThread: ToAnyThread switches to a thread of same or lower priority.") {
DOCTEST_SUBCASE("svc::SleepThread: ToAnyThread switches to a thread of same or lower priority.") {
/* Test to same priority. */
{
/* Configure for yield test. */
@ -221,7 +221,7 @@ namespace ams::test {
}
}
CATCH_SECTION("svc::SleepThread: Yield switches to another thread of same priority.") {
DOCTEST_SUBCASE("svc::SleepThread: Yield switches to another thread of same priority.") {
/* Test yield without migration. */
{
/* Configure for yield test. */
@ -241,7 +241,7 @@ namespace ams::test {
}
}
CATCH_SECTION("svc::SleepThread: Yield with bogus timeout does not switch to another thread same priority") {
DOCTEST_SUBCASE("svc::SleepThread: Yield with bogus timeout does not switch to another thread same priority") {
/* Configure for yield test. */
g_should_switch_threads = false;
g_thread_wait_ns = INT64_C(-5);

View file

@ -14,33 +14,33 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "util_catch.hpp"
#include "util_test_framework.hpp"
namespace ams::test {
inline void TestMemory(uintptr_t address, svc::MemoryState state, svc::MemoryPermission perm, u32 attr) {
svc::MemoryInfo mem_info;
svc::PageInfo page_info;
CATCH_REQUIRE(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), address)));
DOCTEST_CHECK(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), address)));
CATCH_REQUIRE(mem_info.base_address <= address);
CATCH_REQUIRE(address < (mem_info.base_address + mem_info.size));
CATCH_REQUIRE(mem_info.state == state);
CATCH_REQUIRE(mem_info.permission == perm);
CATCH_REQUIRE(mem_info.attribute == attr);
DOCTEST_CHECK(mem_info.base_address <= address);
DOCTEST_CHECK(address < (mem_info.base_address + mem_info.size));
DOCTEST_CHECK(mem_info.state == state);
DOCTEST_CHECK(mem_info.permission == perm);
DOCTEST_CHECK(mem_info.attribute == attr);
}
inline void TestMemory(uintptr_t address, size_t size, svc::MemoryState state, svc::MemoryPermission perm, u32 attr) {
svc::MemoryInfo mem_info;
svc::PageInfo page_info;
CATCH_REQUIRE(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), address)));
DOCTEST_CHECK(R_SUCCEEDED(svc::QueryMemory(std::addressof(mem_info), std::addressof(page_info), address)));
CATCH_REQUIRE(mem_info.base_address <= address);
CATCH_REQUIRE(mem_info.base_address < (address + size));
CATCH_REQUIRE((address + size) <= (mem_info.base_address + mem_info.size));
CATCH_REQUIRE(mem_info.state == state);
CATCH_REQUIRE(mem_info.permission == perm);
CATCH_REQUIRE(mem_info.attribute == attr);
DOCTEST_CHECK(mem_info.base_address <= address);
DOCTEST_CHECK(mem_info.base_address < (address + size));
DOCTEST_CHECK((address + size) <= (mem_info.base_address + mem_info.size));
DOCTEST_CHECK(mem_info.state == state);
DOCTEST_CHECK(mem_info.permission == perm);
DOCTEST_CHECK(mem_info.attribute == attr);
}
}

View file

@ -14,7 +14,7 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "util_catch.hpp"
#include "util_test_framework.hpp"
namespace ams::test {

View file

@ -14,7 +14,7 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "util_catch.hpp"
#include "util_test_framework.hpp"
namespace ams::test {
@ -31,14 +31,14 @@ namespace ams::test {
~ScopedHeap() {
const auto result = svc::SetHeapSize(std::addressof(m_address), 0);
CATCH_REQUIRE(R_SUCCEEDED(result));
DOCTEST_CHECK(R_SUCCEEDED(result));
}
void SetHeapSize(size_t size) {
m_size = util::AlignUp(size, svc::HeapSizeAlignment);
const auto result = svc::SetHeapSize(std::addressof(m_address), m_size);
CATCH_REQUIRE(R_SUCCEEDED(result));
DOCTEST_CHECK(R_SUCCEEDED(result));
}
uintptr_t GetAddress() const { return m_address; }

View file

@ -17,7 +17,8 @@
#include <stratosphere.hpp>
#define CATCH_CONFIG_NOSTDOUT
#define CATCH_CONFIG_PREFIX_ALL
#define CATCH_CONFIG_DISABLE_EXCEPTIONS
#define CATCH_CONFIG_NO_POSIX_SIGNALS
#include "catch.hpp"
#define DOCTEST_CONFIG_NO_SHORT_MACRO_NAMES
#define DOCTEST_CONFIG_SUPER_FAST_ASSERTS
#define DOCTEST_CONFIG_NO_EXCEPTIONS
#define DOCTEST_CONFIG_NO_POSIX_SIGNALS
#include "doctest.h"