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/*
* 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 <mesosphere.hpp>
namespace ams : : kern {
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namespace {
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KDynamicPageManager g_resource_manager_page_manager ;
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template < typename T >
ALWAYS_INLINE void PrintMemoryRegion ( const char * prefix , const T & extents ) {
static_assert ( std : : is_same < decltype ( extents . GetAddress ( ) ) , uintptr_t > : : value ) ;
static_assert ( std : : is_same < decltype ( extents . GetLastAddress ( ) ) , uintptr_t > : : value ) ;
if constexpr ( std : : is_same < uintptr_t , unsigned int > : : value ) {
MESOSPHERE_LOG ( " %-24s0x%08x - 0x%08x \n " , prefix , extents . GetAddress ( ) , extents . GetLastAddress ( ) ) ;
} else if constexpr ( std : : is_same < uintptr_t , unsigned long > : : value ) {
MESOSPHERE_LOG ( " %-24s0x%016lx - 0x%016lx \n " , prefix , extents . GetAddress ( ) , extents . GetLastAddress ( ) ) ;
} else if constexpr ( std : : is_same < uintptr_t , unsigned long long > : : value ) {
MESOSPHERE_LOG ( " %-24s0x%016llx - 0x%016llx \n " , prefix , extents . GetAddress ( ) , extents . GetLastAddress ( ) ) ;
} else {
static_assert ( ! std : : is_same < T , T > : : value , " Unknown uintptr_t width! " ) ;
}
}
}
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void Kernel : : InitializeCoreLocalRegion ( s32 core_id ) {
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/* Construct the core local region object in place. */
KCoreLocalContext * clc = GetPointer < KCoreLocalContext > ( KMemoryLayout : : GetCoreLocalRegionAddress ( ) ) ;
new ( clc ) KCoreLocalContext ;
/* Set the core local region address into the global register. */
cpu : : SetCoreLocalRegionAddress ( reinterpret_cast < uintptr_t > ( clc ) ) ;
/* Initialize current context. */
clc - > current . current_thread = nullptr ;
clc - > current . current_process = nullptr ;
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clc - > current . scheduler = std : : addressof ( Kernel : : GetScheduler ( ) ) ;
clc - > current . interrupt_task_manager = std : : addressof ( Kernel : : GetInterruptTaskManager ( ) ) ;
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clc - > current . core_id = core_id ;
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clc - > current . exception_stack_top = GetVoidPointer ( KMemoryLayout : : GetExceptionStackTopAddress ( core_id ) - sizeof ( KThread : : StackParameters ) ) ;
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/* Clear debugging counters. */
clc - > num_sw_interrupts = 0 ;
clc - > num_hw_interrupts = 0 ;
clc - > num_svc = 0 ;
clc - > num_process_switches = 0 ;
clc - > num_thread_switches = 0 ;
clc - > num_fpu_switches = 0 ;
for ( size_t i = 0 ; i < util : : size ( clc - > perf_counters ) ; i + + ) {
clc - > perf_counters [ i ] = 0 ;
}
}
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void Kernel : : InitializeMainAndIdleThreads ( s32 core_id ) {
/* This function wants to setup the main thread and the idle thread. */
KThread * main_thread = std : : addressof ( Kernel : : GetMainThread ( core_id ) ) ;
void * main_thread_stack = GetVoidPointer ( KMemoryLayout : : GetMainStackTopAddress ( core_id ) ) ;
KThread * idle_thread = std : : addressof ( Kernel : : GetIdleThread ( core_id ) ) ;
void * idle_thread_stack = GetVoidPointer ( KMemoryLayout : : GetIdleStackTopAddress ( core_id ) ) ;
KAutoObject : : Create ( main_thread ) ;
KAutoObject : : Create ( idle_thread ) ;
main_thread - > Initialize ( nullptr , 0 , main_thread_stack , 0 , KThread : : MainThreadPriority , core_id , nullptr , KThread : : ThreadType_Main ) ;
idle_thread - > Initialize ( nullptr , 0 , idle_thread_stack , 0 , KThread : : IdleThreadPriority , core_id , nullptr , KThread : : ThreadType_Main ) ;
/* Set the current thread to be the main thread, and we have no processes running yet. */
SetCurrentThread ( main_thread ) ;
SetCurrentProcess ( nullptr ) ;
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/* Initialize the interrupt manager, hardware timer, and scheduler */
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GetInterruptManager ( ) . Initialize ( core_id ) ;
GetHardwareTimer ( ) . Initialize ( core_id ) ;
GetScheduler ( ) . Initialize ( idle_thread ) ;
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}
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void Kernel : : InitializeResourceManagers ( KVirtualAddress address , size_t size ) {
/* Ensure that the buffer is suitable for our use. */
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//const size_t app_size = ApplicationMemoryBlockSlabHeapSize * sizeof(KMemoryBlock);
//const size_t sys_size = SystemMemoryBlockSlabHeapSize * sizeof(KMemoryBlock);
//const size_t info_size = BlockInfoSlabHeapSize * sizeof(KBlockInfo);
//const size_t fixed_size = util::AlignUp(app_size + sys_size + info_size, PageSize);
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MESOSPHERE_ABORT_UNLESS ( util : : IsAligned ( GetInteger ( address ) , PageSize ) ) ;
MESOSPHERE_ABORT_UNLESS ( util : : IsAligned ( size , PageSize ) ) ;
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/* Ensure that we have space for our reference counts. */
const size_t rc_size = util : : AlignUp ( KPageTableManager : : CalculateReferenceCountSize ( size ) , PageSize ) ;
MESOSPHERE_ABORT_UNLESS ( rc_size < size ) ;
size - = rc_size ;
/* Initialize the resource managers' shared page manager. */
g_resource_manager_page_manager . Initialize ( address , size ) ;
/* Initialize the fixed-size slabheaps. */
s_app_memory_block_manager . Initialize ( std : : addressof ( g_resource_manager_page_manager ) , ApplicationMemoryBlockSlabHeapSize ) ;
s_sys_memory_block_manager . Initialize ( std : : addressof ( g_resource_manager_page_manager ) , SystemMemoryBlockSlabHeapSize ) ;
s_block_info_manager . Initialize ( std : : addressof ( g_resource_manager_page_manager ) , BlockInfoSlabHeapSize ) ;
/* Reserve all remaining pages for the page table manager. */
const size_t num_pt_pages = g_resource_manager_page_manager . GetCount ( ) - g_resource_manager_page_manager . GetUsed ( ) ;
s_page_table_manager . Initialize ( std : : addressof ( g_resource_manager_page_manager ) , num_pt_pages , GetPointer < KPageTableManager : : RefCount > ( address + size ) ) ;
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}
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void Kernel : : PrintLayout ( ) {
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const auto target_fw = kern : : GetTargetFirmware ( ) ;
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/* Print out the kernel version. */
MESOSPHERE_LOG ( " Horizon Kernel (Mesosphere) \n " ) ;
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MESOSPHERE_LOG ( " Built: %s %s \n " , __DATE__ , __TIME__ ) ;
MESOSPHERE_LOG ( " Atmosphere version: %d.%d.%d-%s \n " , ATMOSPHERE_RELEASE_VERSION , ATMOSPHERE_GIT_REVISION ) ;
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MESOSPHERE_LOG ( " Target Firmware: %d.%d.%d \n " , ( target_fw > > 24 ) & 0xFF , ( target_fw > > 16 ) & 0xFF , ( target_fw > > 8 ) & 0xFF ) ;
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MESOSPHERE_LOG ( " Supported OS version: %d.%d.%d \n " , ATMOSPHERE_SUPPORTED_HOS_VERSION_MAJOR , ATMOSPHERE_SUPPORTED_HOS_VERSION_MINOR , ATMOSPHERE_SUPPORTED_HOS_VERSION_MICRO ) ;
MESOSPHERE_LOG ( " \n " ) ;
/* Print relative memory usage. */
const auto [ total , kernel ] = KMemoryLayout : : GetTotalAndKernelMemorySizes ( ) ;
MESOSPHERE_LOG ( " Kernel Memory Usage: %zu/%zu MB \n " , util : : AlignUp ( kernel , 1 _MB ) / 1 _MB , util : : AlignUp ( total , 1 _MB ) / 1 _MB ) ;
MESOSPHERE_LOG ( " \n " ) ;
/* Print out important memory layout regions. */
MESOSPHERE_LOG ( " Virtual Memory Layout \n " ) ;
PrintMemoryRegion ( " KernelRegion " , KMemoryLayout : : GetKernelRegionExtents ( ) ) ;
PrintMemoryRegion ( " Code " , KMemoryLayout : : GetKernelCodeRegionExtents ( ) ) ;
PrintMemoryRegion ( " Stack " , KMemoryLayout : : GetKernelStackRegionExtents ( ) ) ;
PrintMemoryRegion ( " Misc " , KMemoryLayout : : GetKernelMiscRegionExtents ( ) ) ;
PrintMemoryRegion ( " Slab " , KMemoryLayout : : GetKernelSlabRegionExtents ( ) ) ;
PrintMemoryRegion ( " CoreLocalRegion " , KMemoryLayout : : GetCoreLocalRegion ( ) ) ;
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PrintMemoryRegion ( " LinearRegion " , KMemoryLayout : : GetLinearRegionVirtualExtents ( ) ) ;
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MESOSPHERE_LOG ( " \n " ) ;
MESOSPHERE_LOG ( " Physical Memory Layout \n " ) ;
PrintMemoryRegion ( " LinearRegion " , KMemoryLayout : : GetLinearRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " CarveoutRegion " , KMemoryLayout : : GetCarveoutRegionExtents ( ) ) ;
MESOSPHERE_LOG ( " \n " ) ;
PrintMemoryRegion ( " KernelRegion " , KMemoryLayout : : GetKernelRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " Code " , KMemoryLayout : : GetKernelCodeRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " Slab " , KMemoryLayout : : GetKernelSlabRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " PageTableHeap " , KMemoryLayout : : GetKernelPageTableHeapRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " InitPageTable " , KMemoryLayout : : GetKernelInitPageTableRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " MemoryPoolRegion " , KMemoryLayout : : GetKernelPoolPartitionRegionPhysicalExtents ( ) ) ;
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if ( GetTargetFirmware ( ) > = TargetFirmware_5_0_0 ) {
PrintMemoryRegion ( " System " , KMemoryLayout : : GetKernelSystemPoolRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " Management " , KMemoryLayout : : GetKernelPoolManagementRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " SystemUnsafe " , KMemoryLayout : : GetKernelSystemNonSecurePoolRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " Applet " , KMemoryLayout : : GetKernelAppletPoolRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " Application " , KMemoryLayout : : GetKernelApplicationPoolRegionPhysicalExtents ( ) ) ;
} else {
PrintMemoryRegion ( " Secure " , KMemoryLayout : : GetKernelSystemPoolRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " Management " , KMemoryLayout : : GetKernelPoolManagementRegionPhysicalExtents ( ) ) ;
PrintMemoryRegion ( " Unsafe " , KMemoryLayout : : GetKernelApplicationPoolRegionPhysicalExtents ( ) ) ;
}
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if constexpr ( IsKTraceEnabled ) {
MESOSPHERE_LOG ( " Debug \n " ) ;
PrintMemoryRegion ( " Trace Buffer " , KMemoryLayout : : GetKernelTraceBufferRegionPhysicalExtents ( ) ) ;
}
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MESOSPHERE_LOG ( " \n " ) ;
}
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}