/*
* Copyright (c) 2018-2020 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 .
*/
#ifdef MESOSPHERE_USE_STUBBED_SVC_TABLES
#include
#endif
#include
#include
namespace ams::kern::svc {
/* Declare special prototypes for the light ipc handlers. */
void CallSendSyncRequestLight64();
void CallSendSyncRequestLight64From32();
void CallReplyAndReceiveLight64();
void CallReplyAndReceiveLight64From32();
/* Declare special prototypes for ReturnFromException. */
void CallReturnFromException64();
void CallReturnFromException64From32();
/* Declare special prototype for (unsupported) CallCallSecureMonitor64From32. */
void CallCallSecureMonitor64From32();
namespace {
#ifndef MESOSPHERE_USE_STUBBED_SVC_TABLES
#define DECLARE_SVC_STRUCT(ID, RETURN_TYPE, NAME, ...) \
class NAME { \
private: \
using Impl = ::ams::svc::codegen::KernelSvcWrapper<::ams::kern::svc::NAME##64, ::ams::kern::svc::NAME##64From32>; \
public: \
static NOINLINE void Call64() { return Impl::Call64(); } \
static NOINLINE void Call64From32() { return Impl::Call64From32(); } \
};
#else
#define DECLARE_SVC_STRUCT(ID, RETURN_TYPE, NAME, ...) \
class NAME { \
public: \
static NOINLINE void Call64() { MESOSPHERE_PANIC("Stubbed Svc"#NAME"64 was called"); } \
static NOINLINE void Call64From32() { MESOSPHERE_PANIC("Stubbed Svc"#NAME"64From32 was called"); } \
};
#endif
/* Set omit-frame-pointer to prevent GCC from emitting MOV X29, SP instructions. */
#pragma GCC push_options
#pragma GCC optimize ("-O2")
#pragma GCC optimize ("omit-frame-pointer")
AMS_SVC_FOREACH_KERN_DEFINITION(DECLARE_SVC_STRUCT, _)
#pragma GCC pop_options
constexpr const std::array SvcTable64From32Impl = [] {
std::array table = {};
#define AMS_KERN_SVC_SET_TABLE_ENTRY(ID, RETURN_TYPE, NAME, ...) \
if (table[ID] == nullptr) { table[ID] = NAME::Call64From32; }
AMS_SVC_FOREACH_KERN_DEFINITION(AMS_KERN_SVC_SET_TABLE_ENTRY, _)
#undef AMS_KERN_SVC_SET_TABLE_ENTRY
table[svc::SvcId_SendSyncRequestLight] = CallSendSyncRequestLight64From32;
table[svc::SvcId_ReplyAndReceiveLight] = CallReplyAndReceiveLight64From32;
table[svc::SvcId_ReturnFromException] = CallReturnFromException64From32;
table[svc::SvcId_CallSecureMonitor] = CallCallSecureMonitor64From32;
return table;
}();
constexpr const std::array SvcTable64Impl = [] {
std::array table = {};
#define AMS_KERN_SVC_SET_TABLE_ENTRY(ID, RETURN_TYPE, NAME, ...) \
if (table[ID] == nullptr) { table[ID] = NAME::Call64; }
AMS_SVC_FOREACH_KERN_DEFINITION(AMS_KERN_SVC_SET_TABLE_ENTRY, _)
#undef AMS_KERN_SVC_SET_TABLE_ENTRY
table[svc::SvcId_SendSyncRequestLight] = CallSendSyncRequestLight64;
table[svc::SvcId_ReplyAndReceiveLight] = CallReplyAndReceiveLight64;
table[svc::SvcId_ReturnFromException] = CallReturnFromException64;
return table;
}();
constexpr bool IsValidSvcTable(const std::array &table) {
for (size_t i = 0; i < NumSupervisorCalls; i++) {
if (table[i] != nullptr) {
return true;
}
}
return false;
}
static_assert(IsValidSvcTable(SvcTable64Impl));
static_assert(IsValidSvcTable(SvcTable64From32Impl));
}
constinit const std::array SvcTable64 = SvcTable64Impl;
constinit const std::array SvcTable64From32 = SvcTable64From32Impl;
void PatchSvcTableEntry(const SvcTableEntry *table, u32 id, SvcTableEntry entry);
namespace {
/* NOTE: Although the SVC tables are constants, our global constructor will run before .rodata is protected R--. */
class SvcTablePatcher {
private:
using SvcTable = std::array;
private:
static SvcTablePatcher s_instance;
private:
ALWAYS_INLINE const SvcTableEntry *GetTableData(const SvcTable *table) {
if (table != nullptr) {
return table->data();
} else {
return nullptr;
}
}
NOINLINE void PatchTables(const SvcTableEntry *table_64, const SvcTableEntry *table_64_from_32) {
/* Get the target firmware. */
const auto target_fw = kern::GetTargetFirmware();
/* 10.0.0 broke the ABI for QueryIoMapping. */
if (target_fw < TargetFirmware_10_0_0) {
if (table_64) { ::ams::kern::svc::PatchSvcTableEntry(table_64, svc::SvcId_QueryIoMapping, LegacyQueryIoMapping::Call64); }
if (table_64_from_32) { ::ams::kern::svc::PatchSvcTableEntry(table_64_from_32, svc::SvcId_QueryIoMapping, LegacyQueryIoMapping::Call64From32); }
}
/* 6.0.0 broke the ABI for GetFutureThreadInfo, and renamed it to GetDebugFutureThreadInfo. */
if (target_fw < TargetFirmware_6_0_0) {
static_assert(svc::SvcId_GetDebugFutureThreadInfo == svc::SvcId_LegacyGetFutureThreadInfo);
if (table_64) { ::ams::kern::svc::PatchSvcTableEntry(table_64, svc::SvcId_GetDebugFutureThreadInfo, LegacyGetFutureThreadInfo::Call64); }
if (table_64_from_32) { ::ams::kern::svc::PatchSvcTableEntry(table_64_from_32, svc::SvcId_GetDebugFutureThreadInfo, LegacyGetFutureThreadInfo::Call64From32); }
}
/* 3.0.0 broke the ABI for ContinueDebugEvent. */
if (target_fw < TargetFirmware_3_0_0) {
if (table_64) { ::ams::kern::svc::PatchSvcTableEntry(table_64, svc::SvcId_ContinueDebugEvent, LegacyContinueDebugEvent::Call64); }
if (table_64_from_32) { ::ams::kern::svc::PatchSvcTableEntry(table_64_from_32, svc::SvcId_ContinueDebugEvent, LegacyContinueDebugEvent::Call64From32); }
}
}
public:
SvcTablePatcher(const SvcTable *table_64, const SvcTable *table_64_from_32) {
PatchTables(GetTableData(table_64), GetTableData(table_64_from_32));
}
};
SvcTablePatcher SvcTablePatcher::s_instance(std::addressof(SvcTable64), std::addressof(SvcTable64From32));
}
}