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Atmosphere/libraries/libmesosphere/source/svc/kern_svc_info.cpp

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/*
* 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 <http://www.gnu.org/licenses/>.
*/
#include <mesosphere.hpp>
namespace ams::kern::svc {
/* ============================= Common ============================= */
namespace {
Result GetInitialProcessIdRange(u64 *out, ams::svc::InitialProcessIdRangeInfo info) {
switch (info) {
case ams::svc::InitialProcessIdRangeInfo_Minimum:
MESOSPHERE_ABORT_UNLESS(GetInitialProcessIdMin() <= GetInitialProcessIdMax());
*out = GetInitialProcessIdMin();
break;
case ams::svc::InitialProcessIdRangeInfo_Maximum:
MESOSPHERE_ABORT_UNLESS(GetInitialProcessIdMin() <= GetInitialProcessIdMax());
*out = GetInitialProcessIdMax();
break;
default:
R_THROW(svc::ResultInvalidCombination());
}
R_SUCCEED();
}
Result GetInfoImpl(u64 *out, ams::svc::InfoType info_type, KProcess *process) {
switch (info_type) {
case ams::svc::InfoType_CoreMask:
*out = process->GetCoreMask();
break;
case ams::svc::InfoType_PriorityMask:
*out = process->GetPriorityMask();
break;
case ams::svc::InfoType_AliasRegionAddress:
*out = GetInteger(process->GetPageTable().GetAliasRegionStart());
break;
case ams::svc::InfoType_AliasRegionSize:
*out = process->GetPageTable().GetAliasRegionSize();
break;
case ams::svc::InfoType_HeapRegionAddress:
*out = GetInteger(process->GetPageTable().GetHeapRegionStart());
break;
case ams::svc::InfoType_HeapRegionSize:
*out = process->GetPageTable().GetHeapRegionSize();
break;
case ams::svc::InfoType_TotalMemorySize:
*out = process->GetTotalUserPhysicalMemorySize();
break;
case ams::svc::InfoType_UsedMemorySize:
*out = process->GetUsedUserPhysicalMemorySize();
break;
case ams::svc::InfoType_AslrRegionAddress:
*out = GetInteger(process->GetPageTable().GetAliasCodeRegionStart());
break;
case ams::svc::InfoType_AslrRegionSize:
*out = process->GetPageTable().GetAliasCodeRegionSize();
break;
case ams::svc::InfoType_StackRegionAddress:
*out = GetInteger(process->GetPageTable().GetStackRegionStart());
break;
case ams::svc::InfoType_StackRegionSize:
*out = process->GetPageTable().GetStackRegionSize();
break;
case ams::svc::InfoType_SystemResourceSizeTotal:
*out = process->GetTotalSystemResourceSize();
break;
case ams::svc::InfoType_SystemResourceSizeUsed:
*out = process->GetUsedSystemResourceSize();
break;
case ams::svc::InfoType_ProgramId:
*out = process->GetProgramId();
break;
case ams::svc::InfoType_UserExceptionContextAddress:
*out = GetInteger(process->GetProcessLocalRegionAddress());
break;
case ams::svc::InfoType_TotalNonSystemMemorySize:
*out = process->GetTotalNonSystemUserPhysicalMemorySize();
break;
case ams::svc::InfoType_UsedNonSystemMemorySize:
*out = process->GetUsedNonSystemUserPhysicalMemorySize();
break;
case ams::svc::InfoType_IsApplication:
*out = process->IsApplication();
break;
case ams::svc::InfoType_FreeThreadCount:
if (KResourceLimit *resource_limit = process->GetResourceLimit(); resource_limit != nullptr) {
const auto current_value = resource_limit->GetCurrentValue(ams::svc::LimitableResource_ThreadCountMax);
const auto limit_value = resource_limit->GetLimitValue(ams::svc::LimitableResource_ThreadCountMax);
*out = limit_value - current_value;
} else {
*out = 0;
}
break;
MESOSPHERE_UNREACHABLE_DEFAULT_CASE();
}
R_SUCCEED();
}
Result GetInfo(u64 *out, ams::svc::InfoType info_type, ams::svc::Handle handle, u64 info_subtype) {
switch (info_type) {
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case ams::svc::InfoType_CoreMask:
case ams::svc::InfoType_PriorityMask:
case ams::svc::InfoType_AliasRegionAddress:
case ams::svc::InfoType_AliasRegionSize:
case ams::svc::InfoType_HeapRegionAddress:
case ams::svc::InfoType_HeapRegionSize:
case ams::svc::InfoType_TotalMemorySize:
case ams::svc::InfoType_UsedMemorySize:
case ams::svc::InfoType_AslrRegionAddress:
case ams::svc::InfoType_AslrRegionSize:
case ams::svc::InfoType_StackRegionAddress:
case ams::svc::InfoType_StackRegionSize:
case ams::svc::InfoType_SystemResourceSizeTotal:
case ams::svc::InfoType_SystemResourceSizeUsed:
case ams::svc::InfoType_ProgramId:
case ams::svc::InfoType_UserExceptionContextAddress:
case ams::svc::InfoType_TotalNonSystemMemorySize:
case ams::svc::InfoType_UsedNonSystemMemorySize:
case ams::svc::InfoType_IsApplication:
case ams::svc::InfoType_FreeThreadCount:
{
/* These info types don't support non-zero subtypes. */
R_UNLESS(info_subtype == 0, svc::ResultInvalidCombination());
/* Get the process from its handle. */
KScopedAutoObject process = GetCurrentProcess().GetHandleTable().GetObject<KProcess>(handle);
#if defined(MESOSPHERE_ENABLE_GET_INFO_OF_DEBUG_PROCESS)
/* If we the process is valid, use it. */
if (process.IsNotNull()) {
R_RETURN(GetInfoImpl(out, info_type, process.GetPointerUnsafe()));
}
/* Otherwise, as a mesosphere extension check if we were passed a usable KDebug. */
KScopedAutoObject debug = GetCurrentProcess().GetHandleTable().GetObject<KDebug>(handle);
R_UNLESS(debug.IsNotNull(), svc::ResultInvalidHandle());
/* Get the process from the debug object. */
/* TODO: ResultInvalidHandle()? */
R_UNLESS(debug->IsAttached(), svc::ResultProcessTerminated());
R_UNLESS(debug->OpenProcess(), svc::ResultProcessTerminated());
/* Close the process when we're done. */
ON_SCOPE_EXIT { debug->CloseProcess(); };
/* Return the info. */
R_RETURN(GetInfoImpl(out, info_type, debug->GetProcessUnsafe()));
#else
/* Verify that the process is valid. */
R_UNLESS(process.IsNotNull(), svc::ResultInvalidHandle());
/* Return the relevant info. */
R_RETURN(GetInfoImpl(out, info_type, process.GetPointerUnsafe()));
#endif
}
break;
case ams::svc::InfoType_DebuggerAttached:
{
/* Verify the input handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Verify the sub-type is valid. */
R_UNLESS(info_subtype == 0, svc::ResultInvalidCombination());
/* Get whether debugger is attached. */
*out = GetCurrentProcess().GetDebugObject() != nullptr;
}
break;
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case ams::svc::InfoType_ResourceLimit:
{
/* Verify the input handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Verify the sub-type is valid. */
R_UNLESS(info_subtype == 0, svc::ResultInvalidCombination());
/* Get the handle table and resource limit. */
KHandleTable &handle_table = GetCurrentProcess().GetHandleTable();
KResourceLimit *resource_limit = GetCurrentProcess().GetResourceLimit();
if (resource_limit != nullptr) {
/* Get a new handle for the resource limit. */
ams::svc::Handle tmp;
R_TRY(handle_table.Add(std::addressof(tmp), resource_limit));
/* Set the output. */
*out = tmp;
} else {
/* Set the output. */
*out = ams::svc::InvalidHandle;
}
}
break;
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case ams::svc::InfoType_IdleTickCount:
{
/* Verify the input handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Disable dispatch while we get the tick count. */
KScopedDisableDispatch dd;
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/* Verify the requested core is valid. */
const bool core_valid = (info_subtype == static_cast<u64>(-1ul)) || (info_subtype == static_cast<u64>(GetCurrentCoreId()));
R_UNLESS(core_valid, svc::ResultInvalidCombination());
/* Get the idle tick count. */
*out = Kernel::GetScheduler().GetIdleThread()->GetCpuTime() - Kernel::GetInterruptTaskManager().GetCpuTime();
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}
break;
case ams::svc::InfoType_RandomEntropy:
{
/* Verify the input handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Verify the requested entropy is valid. */
R_UNLESS(info_subtype < 4, svc::ResultInvalidCombination());
/* Get the entropy. */
*out = GetCurrentProcess().GetRandomEntropy(info_subtype);
}
break;
case ams::svc::InfoType_InitialProcessIdRange:
{
/* NOTE: This info type was added in 4.0.0, and removed in 5.0.0. */
R_UNLESS(GetTargetFirmware() < TargetFirmware_5_0_0, svc::ResultInvalidEnumValue());
/* Verify the input handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Get the process id range. */
R_TRY(GetInitialProcessIdRange(out, static_cast<ams::svc::InitialProcessIdRangeInfo>(info_subtype)));
}
break;
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case ams::svc::InfoType_ThreadTickCount:
{
/* Verify the requested core is valid. */
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const bool core_valid = (info_subtype == static_cast<u64>(-1ul)) || (info_subtype < cpu::NumVirtualCores);
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R_UNLESS(core_valid, svc::ResultInvalidCombination());
/* Get the thread from its handle. */
KScopedAutoObject thread = GetCurrentProcess().GetHandleTable().GetObject<KThread>(handle);
R_UNLESS(thread.IsNotNull(), svc::ResultInvalidHandle());
/* Disable dispatch while we get the tick count. */
KScopedDisableDispatch dd;
/* Determine the tick count. */
s64 tick_count;
if (info_subtype == static_cast<u64>(-1ul)) {
tick_count = thread->GetCpuTime();
if (GetCurrentThreadPointer() == thread.GetPointerUnsafe()) {
const s64 cur_tick = KHardwareTimer::GetTick();
const s64 prev_switch = Kernel::GetScheduler().GetLastContextSwitchTime();
tick_count += (cur_tick - prev_switch);
}
} else {
const s32 phys_core = cpu::VirtualToPhysicalCoreMap[info_subtype];
MESOSPHERE_ABORT_UNLESS(phys_core < static_cast<s32>(cpu::NumCores));
tick_count = thread->GetCpuTime(phys_core);
if (GetCurrentThreadPointer() == thread.GetPointerUnsafe() && phys_core == GetCurrentCoreId()) {
const s64 cur_tick = KHardwareTimer::GetTick();
const s64 prev_switch = Kernel::GetScheduler().GetLastContextSwitchTime();
tick_count += (cur_tick - prev_switch);
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}
}
/* Set the output. */
*out = tick_count;
}
break;
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case ams::svc::InfoType_IsSvcPermitted:
{
/* Verify the input handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Verify the sub-type is valid. */
R_UNLESS(info_subtype == svc::SvcId_SynchronizePreemptionState, svc::ResultInvalidCombination());
/* Get whether the svc is permitted. */
*out = GetCurrentProcess().IsPermittedSvc(static_cast<svc::SvcId>(info_subtype));
}
break;
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case ams::svc::InfoType_IoRegionHint:
{
/* Verify the sub-type is valid. */
R_UNLESS(info_subtype == 0, svc::ResultInvalidCombination());
/* Get the io region from its handle. */
KScopedAutoObject io_region = GetCurrentProcess().GetHandleTable().GetObject<KIoRegion>(handle);
R_UNLESS(io_region.IsNotNull(), svc::ResultInvalidHandle());
/* Get the io region's address hint. */
*out = io_region->GetHint();
}
break;
case ams::svc::InfoType_MesosphereMeta:
{
/* Verify the handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
switch (static_cast<ams::svc::MesosphereMetaInfo>(info_subtype)) {
case ams::svc::MesosphereMetaInfo_KernelVersion:
{
/* Return the supported kernel version. */
*out = ams::svc::SupportedKernelVersion;
}
break;
case ams::svc::MesosphereMetaInfo_IsKTraceEnabled:
{
/* Return whether the kernel supports tracing. */
constexpr u64 KTraceValue = ams::kern::IsKTraceEnabled ? 1 : 0;
*out = KTraceValue;
}
break;
case ams::svc::MesosphereMetaInfo_IsSingleStepEnabled:
{
/* Return whether the kernel supports hardware single step. */
#if defined(MESOSPHERE_ENABLE_HARDWARE_SINGLE_STEP)
*out = 1;
#else
*out = 0;
#endif
}
break;
default:
R_THROW(svc::ResultInvalidCombination());
}
}
break;
case ams::svc::InfoType_MesosphereCurrentProcess:
{
/* Verify the input handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Verify the sub-type is valid. */
R_UNLESS(info_subtype == 0, svc::ResultInvalidCombination());
/* Get the handle table. */
KHandleTable &handle_table = GetCurrentProcess().GetHandleTable();
/* Get a new handle for the current process. */
ams::svc::Handle tmp;
R_TRY(handle_table.Add(std::addressof(tmp), GetCurrentProcessPointer()));
/* Set the output. */
*out = tmp;
}
break;
default:
{
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/* For debug, log the invalid info call. */
MESOSPHERE_LOG("GetInfo(%p, %u, %08x, %lu) was called\n", out, static_cast<u32>(info_type), static_cast<u32>(handle), info_subtype);
}
R_THROW(svc::ResultInvalidEnumValue());
}
R_SUCCEED();
}
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constexpr bool IsValidMemoryPool(u64 pool) {
switch (static_cast<KMemoryManager::Pool>(pool)) {
case KMemoryManager::Pool_Application:
case KMemoryManager::Pool_Applet:
case KMemoryManager::Pool_System:
case KMemoryManager::Pool_SystemNonSecure:
return true;
default:
return false;
}
}
Result GetSystemInfo(u64 *out, ams::svc::SystemInfoType info_type, ams::svc::Handle handle, u64 info_subtype) {
switch (info_type) {
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case ams::svc::SystemInfoType_TotalPhysicalMemorySize:
case ams::svc::SystemInfoType_UsedPhysicalMemorySize:
{
/* Verify the input handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Verify the sub-type is valid. */
R_UNLESS(IsValidMemoryPool(info_subtype), svc::ResultInvalidCombination());
/* Convert to pool. */
const auto pool = static_cast<KMemoryManager::Pool>(info_subtype);
/* Get the memory size. */
auto &mm = Kernel::GetMemoryManager();
switch (info_type) {
case ams::svc::SystemInfoType_TotalPhysicalMemorySize:
*out = mm.GetSize(pool);
break;
case ams::svc::SystemInfoType_UsedPhysicalMemorySize:
*out = mm.GetSize(pool) - mm.GetFreeSize(pool);
break;
MESOSPHERE_UNREACHABLE_DEFAULT_CASE();
}
}
break;
case ams::svc::SystemInfoType_InitialProcessIdRange:
{
/* Verify the handle is invalid. */
R_UNLESS(handle == ams::svc::InvalidHandle, svc::ResultInvalidHandle());
/* Get the process id range. */
R_TRY(GetInitialProcessIdRange(out, static_cast<ams::svc::InitialProcessIdRangeInfo>(info_subtype)));
}
break;
default:
R_THROW(svc::ResultInvalidEnumValue());
}
R_SUCCEED();
}
}
/* ============================= 64 ABI ============================= */
Result GetInfo64(uint64_t *out, ams::svc::InfoType info_type, ams::svc::Handle handle, uint64_t info_subtype) {
R_RETURN(GetInfo(out, info_type, handle, info_subtype));
}
Result GetSystemInfo64(uint64_t *out, ams::svc::SystemInfoType info_type, ams::svc::Handle handle, uint64_t info_subtype) {
R_RETURN(GetSystemInfo(out, info_type, handle, info_subtype));
}
/* ============================= 64From32 ABI ============================= */
Result GetInfo64From32(uint64_t *out, ams::svc::InfoType info_type, ams::svc::Handle handle, uint64_t info_subtype) {
R_RETURN(GetInfo(out, info_type, handle, info_subtype));
}
Result GetSystemInfo64From32(uint64_t *out, ams::svc::SystemInfoType info_type, ams::svc::Handle handle, uint64_t info_subtype) {
R_RETURN(GetSystemInfo(out, info_type, handle, info_subtype));
}
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}