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exo2: rename exosphere2 -> exosphere

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Michael Scire 2020-06-11 01:53:10 -07:00 committed by SciresM
parent 282f8f6612
commit 42f1a3bf60
136 changed files with 15 additions and 15 deletions
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298
exosphere2/program/source/secmon_map.cpp
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@ -1,298 +0,0 @@
/*
* 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 <http://www.gnu.org/licenses/>.
*/
#include <exosphere.hpp>
#include "secmon_cache.hpp"
#include "secmon_setup.hpp"
#include "secmon_spinlock.hpp"
#include "secmon_map.hpp"
#include "smc/secmon_smc_info.hpp"
namespace ams::secmon {
namespace {
constexpr inline const uintptr_t BootCodeAddress = MemoryRegionVirtualTzramBootCode.GetAddress();
constexpr inline const size_t BootCodeSize = MemoryRegionVirtualTzramBootCode.GetSize();
constinit uintptr_t g_smc_user_page_physical_address = 0;
constinit uintptr_t g_ams_iram_page_physical_address = 0;
constinit uintptr_t g_ams_user_page_physical_address = 0;
constinit SpinLockType g_ams_iram_page_spin_lock = {};
constinit SpinLockType g_ams_user_page_spin_lock = {};
using namespace ams::mmu;
constexpr inline PageTableMappingAttribute MappingAttributesEl3NonSecureRwData = AddMappingAttributeIndex(PageTableMappingAttributes_El3NonSecureRwData, MemoryAttributeIndexNormal);
constexpr inline PageTableMappingAttribute MappingAttributesEl3NonSecureDevice = AddMappingAttributeIndex(PageTableMappingAttributes_El3NonSecureRwData, MemoryAttributeIndexDevice);
constexpr void UnmapBootCodeImpl(u64 *l1, u64 *l2, u64 *l3, uintptr_t boot_code, size_t boot_code_size) {
/* Unmap the L3 entries corresponding to the boot code. */
InvalidateL3Entries(l3, boot_code, boot_code_size);
}
constexpr void UnmapTzramImpl(u64 *l1, u64 *l2, u64 *l3) {
/* Unmap the L3 entries corresponding to tzram. */
InvalidateL3Entries(l3, MemoryRegionPhysicalTzram.GetAddress(), MemoryRegionPhysicalTzram.GetSize());
/* Unmap the L2 entries corresponding to those L3 entries. */
InvalidateL2Entries(l2, MemoryRegionPhysicalTzramL2.GetAddress(), MemoryRegionPhysicalTzramL2.GetSize());
/* Unmap the L1 entry corresponding to to those L2 entries. */
InvalidateL1Entries(l1, MemoryRegionPhysical.GetAddress(), MemoryRegionPhysical.GetSize());
}
constexpr void MapSmcUserPageImpl(u64 *l3, uintptr_t address) {
/* Set the L3 entry. */
SetL3BlockEntry(l3, MemoryRegionVirtualSmcUserPage.GetAddress(), address, MemoryRegionVirtualSmcUserPage.GetSize(), MappingAttributesEl3NonSecureRwData);
}
constexpr void UnmapSmcUserPageImpl(u64 *l3) {
/* Unmap the L3 entry. */
InvalidateL3Entries(l3, MemoryRegionVirtualSmcUserPage.GetAddress(), MemoryRegionVirtualSmcUserPage.GetSize());
}
constexpr void MapAtmosphereIramPageImpl(u64 *l3, uintptr_t address) {
/* Set the L3 entry. */
SetL3BlockEntry(l3, MemoryRegionVirtualAtmosphereIramPage.GetAddress(), address, MemoryRegionVirtualAtmosphereIramPage.GetSize(), MappingAttributesEl3NonSecureDevice);
}
constexpr void UnmapAtmosphereIramPageImpl(u64 *l3) {
/* Unmap the L3 entry. */
InvalidateL3Entries(l3, MemoryRegionVirtualAtmosphereIramPage.GetAddress(), MemoryRegionVirtualAtmosphereIramPage.GetSize());
}
constexpr void MapAtmosphereUserPageImpl(u64 *l3, uintptr_t address) {
/* Set the L3 entry. */
SetL3BlockEntry(l3, MemoryRegionVirtualAtmosphereUserPage.GetAddress(), address, MemoryRegionVirtualAtmosphereUserPage.GetSize(), MappingAttributesEl3NonSecureRwData);
}
constexpr void UnmapAtmosphereUserPageImpl(u64 *l3) {
/* Unmap the L3 entry. */
InvalidateL3Entries(l3, MemoryRegionVirtualAtmosphereUserPage.GetAddress(), MemoryRegionVirtualAtmosphereUserPage.GetSize());
}
void ClearLow(uintptr_t address, size_t size) {
/* Clear the low part. */
util::ClearMemory(reinterpret_cast<void *>(address), size / 2);
}
void ClearHigh(uintptr_t address, size_t size) {
/* Clear the high part. */
util::ClearMemory(reinterpret_cast<void *>(address + size / 2), size / 2);
}
bool IsPhysicalMemoryAddress(uintptr_t address) {
return (address - MemoryRegionDram.GetAddress()) < GetPhysicalMemorySize();
}
}
void ClearBootCodeHigh() {
ClearHigh(BootCodeAddress, BootCodeSize);
}
void UnmapBootCode() {
/* Get the tables. */
u64 * const l1 = MemoryRegionVirtualTzramL1PageTable.GetPointer<u64>();
u64 * const l2_l3 = MemoryRegionVirtualTzramL2L3PageTable.GetPointer<u64>();
/* Clear the low boot code region; high was already cleared by a previous call. */
ClearLow(BootCodeAddress, BootCodeSize);
/* Unmap. */
UnmapBootCodeImpl(l1, l2_l3, l2_l3, BootCodeAddress, BootCodeSize);
/* Ensure the mappings are consistent. */
secmon::EnsureMappingConsistency();
}
size_t GetPhysicalMemorySize() {
switch (smc::GetPhysicalMemorySize()) {
case pkg1::MemorySize_4GB: return 4_GB;
case pkg1::MemorySize_6GB: return 6_GB;
case pkg1::MemorySize_8GB: return 8_GB;
AMS_UNREACHABLE_DEFAULT_CASE();
}
}
void UnmapTzram() {
/* Get the tables. */
u64 * const l1 = MemoryRegionVirtualTzramL1PageTable.GetPointer<u64>();
u64 * const l2_l3 = MemoryRegionVirtualTzramL2L3PageTable.GetPointer<u64>();
/* Unmap. */
UnmapTzramImpl(l1, l2_l3, l2_l3);
/* Ensure the mappings are consistent. */
secmon::EnsureMappingConsistency();
}
uintptr_t MapSmcUserPage(uintptr_t address) {
if (g_smc_user_page_physical_address == 0) {
if (!IsPhysicalMemoryAddress(address)) {
return 0;
}
if (!util::IsAligned(address, 4_KB)) {
return 0;
}
g_smc_user_page_physical_address = address;
u64 * const l2_l3 = MemoryRegionVirtualTzramL2L3PageTable.GetPointer<u64>();
MapSmcUserPageImpl(l2_l3, address);
/* Ensure the mappings are consistent. */
secmon::EnsureMappingConsistency(MemoryRegionVirtualSmcUserPage.GetAddress());
} else {
AMS_ABORT_UNLESS(address == g_smc_user_page_physical_address);
}
return MemoryRegionVirtualSmcUserPage.GetAddress();
}
void UnmapSmcUserPage() {
if (g_smc_user_page_physical_address == 0) {
return;
}
/* Ensure that the page is no longer in cache. */
hw::FlushDataCache(MemoryRegionVirtualSmcUserPage.GetPointer<void>(), MemoryRegionVirtualSmcUserPage.GetSize());
hw::DataSynchronizationBarrierInnerShareable();
u64 * const l2_l3 = MemoryRegionVirtualTzramL2L3PageTable.GetPointer<u64>();
UnmapSmcUserPageImpl(l2_l3);
/* Ensure the mappings are consistent. */
secmon::EnsureMappingConsistency(MemoryRegionVirtualSmcUserPage.GetAddress());
g_smc_user_page_physical_address = 0;
}
uintptr_t MapAtmosphereIramPage(uintptr_t address) {
/* Acquire the ams iram spinlock. */
AcquireSpinLock(g_ams_iram_page_spin_lock);
auto lock_guard = SCOPE_GUARD { ReleaseSpinLock(g_ams_iram_page_spin_lock); };
/* Validate that the page is an IRAM page. */
if (!MemoryRegionPhysicalIram.Contains(address, 1)) {
return 0;
}
/* Validate that the page is aligned. */
if (!util::IsAligned(address, 4_KB)) {
return 0;
}
/* Map the page. */
g_ams_iram_page_physical_address = address;
u64 * const l2_l3 = MemoryRegionVirtualTzramL2L3PageTable.GetPointer<u64>();
MapAtmosphereIramPageImpl(l2_l3, address);
/* Ensure the mappings are consistent. */
secmon::EnsureMappingConsistency(MemoryRegionVirtualAtmosphereIramPage.GetAddress());
/* Hold the lock. */
lock_guard.Cancel();
return MemoryRegionVirtualAtmosphereIramPage.GetAddress();
}
void UnmapAtmosphereIramPage() {
/* Can't unmap if nothing's unmapped. */
if (g_ams_iram_page_physical_address == 0) {
return;
}
/* Ensure that the page is no longer in cache. */
hw::FlushDataCache(MemoryRegionVirtualAtmosphereIramPage.GetPointer<void>(), MemoryRegionVirtualAtmosphereIramPage.GetSize());
hw::DataSynchronizationBarrierInnerShareable();
/* Unmap the page. */
u64 * const l2_l3 = MemoryRegionVirtualTzramL2L3PageTable.GetPointer<u64>();
UnmapAtmosphereIramPageImpl(l2_l3);
/* Ensure the mappings are consistent. */
secmon::EnsureMappingConsistency(MemoryRegionVirtualAtmosphereIramPage.GetAddress());
/* Release the page. */
g_ams_iram_page_physical_address = 0;
ReleaseSpinLock(g_ams_iram_page_spin_lock);
}
uintptr_t MapAtmosphereUserPage(uintptr_t address) {
/* Acquire the ams user spinlock. */
AcquireSpinLock(g_ams_user_page_spin_lock);
auto lock_guard = SCOPE_GUARD { ReleaseSpinLock(g_ams_user_page_spin_lock); };
/* Validate that the page is a dram page. */
if (!IsPhysicalMemoryAddress(address)) {
return 0;
}
/* Validate that the page is aligned. */
if (!util::IsAligned(address, 4_KB)) {
return 0;
}
/* Map the page. */
g_ams_user_page_physical_address = address;
u64 * const l2_l3 = MemoryRegionVirtualTzramL2L3PageTable.GetPointer<u64>();
MapAtmosphereUserPageImpl(l2_l3, address);
/* Ensure the mappings are consistent. */
secmon::EnsureMappingConsistency(MemoryRegionVirtualAtmosphereUserPage.GetAddress());
/* Hold the lock. */
lock_guard.Cancel();
return MemoryRegionVirtualAtmosphereUserPage.GetAddress();
}
void UnmapAtmosphereUserPage() {
/* Can't unmap if nothing's unmapped. */
if (g_ams_user_page_physical_address == 0) {
return;
}
/* Ensure that the page is no longer in cache. */
hw::FlushDataCache(MemoryRegionVirtualAtmosphereUserPage.GetPointer<void>(), MemoryRegionVirtualAtmosphereUserPage.GetSize());
hw::DataSynchronizationBarrierInnerShareable();
/* Unmap the page. */
u64 * const l2_l3 = MemoryRegionVirtualTzramL2L3PageTable.GetPointer<u64>();
UnmapAtmosphereUserPageImpl(l2_l3);
/* Ensure the mappings are consistent. */
secmon::EnsureMappingConsistency(MemoryRegionVirtualAtmosphereUserPage.GetAddress());
/* Release the page. */
g_ams_user_page_physical_address = 0;
ReleaseSpinLock(g_ams_user_page_spin_lock);
}
}