core: hle: kernel: Update init_slab_heap, use device memory, and add KThreadLocalPage and KPageBuffer.
- Refreshes our slab initialization code to latest known behavior. - Moves all guest kernel slabs into emulated device memory. - Adds KThreadLocalPage and KPageBuffer, which we will use for accurate TLS management.
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91819726b1
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@ -7,19 +7,23 @@
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#include "common/common_funcs.h"
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#include "common/common_types.h"
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#include "core/core.h"
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#include "core/device_memory.h"
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#include "core/hardware_properties.h"
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#include "core/hle/kernel/init/init_slab_setup.h"
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#include "core/hle/kernel/k_code_memory.h"
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#include "core/hle/kernel/k_event.h"
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#include "core/hle/kernel/k_memory_layout.h"
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#include "core/hle/kernel/k_memory_manager.h"
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#include "core/hle/kernel/k_page_buffer.h"
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#include "core/hle/kernel/k_port.h"
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#include "core/hle/kernel/k_process.h"
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#include "core/hle/kernel/k_resource_limit.h"
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#include "core/hle/kernel/k_session.h"
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#include "core/hle/kernel/k_shared_memory.h"
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#include "core/hle/kernel/k_shared_memory_info.h"
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#include "core/hle/kernel/k_system_control.h"
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#include "core/hle/kernel/k_thread.h"
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#include "core/hle/kernel/k_thread_local_page.h"
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#include "core/hle/kernel/k_transfer_memory.h"
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namespace Kernel::Init {
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@ -32,9 +36,13 @@ namespace Kernel::Init {
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HANDLER(KEvent, (SLAB_COUNT(KEvent)), ##__VA_ARGS__) \
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HANDLER(KPort, (SLAB_COUNT(KPort)), ##__VA_ARGS__) \
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HANDLER(KSharedMemory, (SLAB_COUNT(KSharedMemory)), ##__VA_ARGS__) \
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HANDLER(KSharedMemoryInfo, (SLAB_COUNT(KSharedMemory) * 8), ##__VA_ARGS__) \
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HANDLER(KTransferMemory, (SLAB_COUNT(KTransferMemory)), ##__VA_ARGS__) \
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HANDLER(KCodeMemory, (SLAB_COUNT(KCodeMemory)), ##__VA_ARGS__) \
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HANDLER(KSession, (SLAB_COUNT(KSession)), ##__VA_ARGS__) \
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HANDLER(KThreadLocalPage, \
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(SLAB_COUNT(KProcess) + (SLAB_COUNT(KProcess) + SLAB_COUNT(KThread)) / 8), \
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##__VA_ARGS__) \
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HANDLER(KResourceLimit, (SLAB_COUNT(KResourceLimit)), ##__VA_ARGS__)
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namespace {
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@ -50,38 +58,46 @@ enum KSlabType : u32 {
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// Constexpr counts.
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constexpr size_t SlabCountKProcess = 80;
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constexpr size_t SlabCountKThread = 800;
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constexpr size_t SlabCountKEvent = 700;
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constexpr size_t SlabCountKEvent = 900;
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constexpr size_t SlabCountKInterruptEvent = 100;
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constexpr size_t SlabCountKPort = 256 + 0x20; // Extra 0x20 ports over Nintendo for homebrew.
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constexpr size_t SlabCountKPort = 384;
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constexpr size_t SlabCountKSharedMemory = 80;
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constexpr size_t SlabCountKTransferMemory = 200;
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constexpr size_t SlabCountKCodeMemory = 10;
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constexpr size_t SlabCountKDeviceAddressSpace = 300;
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constexpr size_t SlabCountKSession = 933;
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constexpr size_t SlabCountKSession = 1133;
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constexpr size_t SlabCountKLightSession = 100;
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constexpr size_t SlabCountKObjectName = 7;
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constexpr size_t SlabCountKResourceLimit = 5;
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constexpr size_t SlabCountKDebug = Core::Hardware::NUM_CPU_CORES;
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constexpr size_t SlabCountKAlpha = 1;
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constexpr size_t SlabCountKBeta = 6;
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constexpr size_t SlabCountKIoPool = 1;
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constexpr size_t SlabCountKIoRegion = 6;
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constexpr size_t SlabCountExtraKThread = 160;
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/// Helper function to translate from the slab virtual address to the reserved location in physical
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/// memory.
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static PAddr TranslateSlabAddrToPhysical(KMemoryLayout& memory_layout, VAddr slab_addr) {
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slab_addr -= memory_layout.GetSlabRegionAddress();
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return slab_addr + Core::DramMemoryMap::SlabHeapBase;
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}
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template <typename T>
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VAddr InitializeSlabHeap(Core::System& system, KMemoryLayout& memory_layout, VAddr address,
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size_t num_objects) {
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// TODO(bunnei): This is just a place holder. We should initialize the appropriate KSlabHeap for
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// kernel object type T with the backing kernel memory pointer once we emulate kernel memory.
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const size_t size = Common::AlignUp(sizeof(T) * num_objects, alignof(void*));
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VAddr start = Common::AlignUp(address, alignof(T));
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// This is intentionally empty. Once KSlabHeap is fully implemented, we can replace this with
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// the pointer to emulated memory to pass along. Until then, KSlabHeap will just allocate/free
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// host memory.
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void* backing_kernel_memory{};
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// This should use the virtual memory address passed in, but currently, we do not setup the
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// kernel virtual memory layout. Instead, we simply map these at a region of physical memory
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// that we reserve for the slab heaps.
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// TODO(bunnei): Fix this once we support the kernel virtual memory layout.
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if (size > 0) {
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void* backing_kernel_memory{
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system.DeviceMemory().GetPointer(TranslateSlabAddrToPhysical(memory_layout, start))};
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const KMemoryRegion* region = memory_layout.FindVirtual(start + size - 1);
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ASSERT(region != nullptr);
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ASSERT(region->IsDerivedFrom(KMemoryRegionType_KernelSlab));
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@ -109,8 +125,8 @@ KSlabResourceCounts KSlabResourceCounts::CreateDefault() {
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.num_KObjectName = SlabCountKObjectName,
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.num_KResourceLimit = SlabCountKResourceLimit,
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.num_KDebug = SlabCountKDebug,
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.num_KAlpha = SlabCountKAlpha,
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.num_KBeta = SlabCountKBeta,
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.num_KIoPool = SlabCountKIoPool,
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.num_KIoRegion = SlabCountKIoRegion,
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};
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}
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@ -121,6 +137,12 @@ void InitializeSlabResourceCounts(KernelCore& kernel) {
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}
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}
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size_t CalculateSlabHeapGapSize() {
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constexpr size_t KernelSlabHeapGapSize = 2_MiB - 296_KiB;
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static_assert(KernelSlabHeapGapSize <= KernelSlabHeapGapsSizeMax);
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return KernelSlabHeapGapSize;
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}
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size_t CalculateTotalSlabHeapSize(const KernelCore& kernel) {
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size_t size = 0;
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@ -136,11 +158,34 @@ size_t CalculateTotalSlabHeapSize(const KernelCore& kernel) {
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#undef ADD_SLAB_SIZE
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// Add the reserved size.
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size += KernelSlabHeapGapsSize;
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size += CalculateSlabHeapGapSize();
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return size;
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}
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void InitializeKPageBufferSlabHeap(Core::System& system) {
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auto& kernel = system.Kernel();
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const auto& counts = kernel.SlabResourceCounts();
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const size_t num_pages =
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counts.num_KProcess + counts.num_KThread + (counts.num_KProcess + counts.num_KThread) / 8;
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const size_t slab_size = num_pages * PageSize;
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// Reserve memory from the system resource limit.
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ASSERT(kernel.GetSystemResourceLimit()->Reserve(LimitableResource::PhysicalMemory, slab_size));
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// Allocate memory for the slab.
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constexpr auto AllocateOption = KMemoryManager::EncodeOption(
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KMemoryManager::Pool::System, KMemoryManager::Direction::FromFront);
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const PAddr slab_address =
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kernel.MemoryManager().AllocateAndOpenContinuous(num_pages, 1, AllocateOption);
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ASSERT(slab_address != 0);
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// Initialize the slabheap.
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KPageBuffer::InitializeSlabHeap(kernel, system.DeviceMemory().GetPointer(slab_address),
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slab_size);
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}
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void InitializeSlabHeaps(Core::System& system, KMemoryLayout& memory_layout) {
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auto& kernel = system.Kernel();
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@ -160,13 +205,13 @@ void InitializeSlabHeaps(Core::System& system, KMemoryLayout& memory_layout) {
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}
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// Create an array to represent the gaps between the slabs.
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const size_t total_gap_size = KernelSlabHeapGapsSize;
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const size_t total_gap_size = CalculateSlabHeapGapSize();
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std::array<size_t, slab_types.size()> slab_gaps;
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for (size_t i = 0; i < slab_gaps.size(); i++) {
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for (auto& slab_gap : slab_gaps) {
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// Note: This is an off-by-one error from Nintendo's intention, because GenerateRandomRange
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// is inclusive. However, Nintendo also has the off-by-one error, and it's "harmless", so we
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// will include it ourselves.
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slab_gaps[i] = KSystemControl::GenerateRandomRange(0, total_gap_size);
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slab_gap = KSystemControl::GenerateRandomRange(0, total_gap_size);
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}
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// Sort the array, so that we can treat differences between values as offsets to the starts of
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@ -177,13 +222,21 @@ void InitializeSlabHeaps(Core::System& system, KMemoryLayout& memory_layout) {
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}
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}
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for (size_t i = 0; i < slab_types.size(); i++) {
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// Track the gaps, so that we can free them to the unused slab tree.
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VAddr gap_start = address;
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size_t gap_size = 0;
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for (size_t i = 0; i < slab_gaps.size(); i++) {
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// Add the random gap to the address.
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address += (i == 0) ? slab_gaps[0] : slab_gaps[i] - slab_gaps[i - 1];
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const auto cur_gap = (i == 0) ? slab_gaps[0] : slab_gaps[i] - slab_gaps[i - 1];
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address += cur_gap;
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gap_size += cur_gap;
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#define INITIALIZE_SLAB_HEAP(NAME, COUNT, ...) \
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case KSlabType_##NAME: \
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if (COUNT > 0) { \
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address = InitializeSlabHeap<NAME>(system, memory_layout, address, COUNT); \
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} \
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break;
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// Initialize the slabheap.
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@ -192,7 +245,13 @@ void InitializeSlabHeaps(Core::System& system, KMemoryLayout& memory_layout) {
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FOREACH_SLAB_TYPE(INITIALIZE_SLAB_HEAP)
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// If we somehow get an invalid type, abort.
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default:
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UNREACHABLE();
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UNREACHABLE_MSG("Unknown slab type: {}", slab_types[i]);
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}
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// If we've hit the end of a gap, free it.
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if (gap_start + gap_size != address) {
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gap_start = address;
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gap_size = 0;
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}
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}
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}
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@ -32,12 +32,13 @@ struct KSlabResourceCounts {
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size_t num_KObjectName;
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size_t num_KResourceLimit;
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size_t num_KDebug;
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size_t num_KAlpha;
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size_t num_KBeta;
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size_t num_KIoPool;
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size_t num_KIoRegion;
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};
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void InitializeSlabResourceCounts(KernelCore& kernel);
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size_t CalculateTotalSlabHeapSize(const KernelCore& kernel);
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void InitializeKPageBufferSlabHeap(Core::System& system);
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void InitializeSlabHeaps(Core::System& system, KMemoryLayout& memory_layout);
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} // namespace Kernel::Init
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@ -76,7 +76,7 @@ struct KernelCore::Impl {
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// Initialize kernel memory and resources.
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InitializeSystemResourceLimit(kernel, system.CoreTiming());
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InitializeMemoryLayout();
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InitializePageSlab();
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Init::InitializeKPageBufferSlabHeap(system);
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InitializeSchedulers();
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InitializeSuspendThreads();
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InitializePreemption(kernel);
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@ -660,22 +660,6 @@ struct KernelCore::Impl {
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time_phys_addr, time_size, "Time:SharedMemory");
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}
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void InitializePageSlab() {
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// Allocate slab heaps
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user_slab_heap_pages =
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std::make_unique<KSlabHeap<Page>>(KSlabHeap<Page>::AllocationType::Guest);
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// TODO(ameerj): This should be derived, not hardcoded within the kernel
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constexpr u64 user_slab_heap_size{0x3de000};
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// Reserve slab heaps
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ASSERT(
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system_resource_limit->Reserve(LimitableResource::PhysicalMemory, user_slab_heap_size));
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// Initialize slab heap
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user_slab_heap_pages->Initialize(
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system.DeviceMemory().GetPointer(Core::DramMemoryMap::SlabHeapBase),
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user_slab_heap_size);
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}
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KClientPort* CreateNamedServicePort(std::string name) {
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auto search = service_interface_factory.find(name);
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if (search == service_interface_factory.end()) {
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@ -756,7 +740,6 @@ struct KernelCore::Impl {
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// Kernel memory management
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std::unique_ptr<KMemoryManager> memory_manager;
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std::unique_ptr<KSlabHeap<Page>> user_slab_heap_pages;
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// Shared memory for services
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Kernel::KSharedMemory* hid_shared_mem{};
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@ -1031,14 +1014,6 @@ const KMemoryManager& KernelCore::MemoryManager() const {
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return *impl->memory_manager;
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}
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KSlabHeap<Page>& KernelCore::GetUserSlabHeapPages() {
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return *impl->user_slab_heap_pages;
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}
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const KSlabHeap<Page>& KernelCore::GetUserSlabHeapPages() const {
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return *impl->user_slab_heap_pages;
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}
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Kernel::KSharedMemory& KernelCore::GetHidSharedMem() {
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return *impl->hid_shared_mem;
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}
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@ -43,6 +43,7 @@ class KHandleTable;
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class KLinkedListNode;
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class KMemoryLayout;
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class KMemoryManager;
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class KPageBuffer;
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class KPort;
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class KProcess;
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class KResourceLimit;
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@ -52,6 +53,7 @@ class KSession;
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class KSharedMemory;
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class KSharedMemoryInfo;
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class KThread;
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class KThreadLocalPage;
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class KTransferMemory;
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class KWorkerTaskManager;
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class KWritableEvent;
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@ -239,12 +241,6 @@ public:
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/// Gets the virtual memory manager for the kernel.
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const KMemoryManager& MemoryManager() const;
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/// Gets the slab heap allocated for user space pages.
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KSlabHeap<Page>& GetUserSlabHeapPages();
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/// Gets the slab heap allocated for user space pages.
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const KSlabHeap<Page>& GetUserSlabHeapPages() const;
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/// Gets the shared memory object for HID services.
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Kernel::KSharedMemory& GetHidSharedMem();
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return slab_heap_container->writeable_event;
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} else if constexpr (std::is_same_v<T, KCodeMemory>) {
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return slab_heap_container->code_memory;
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} else if constexpr (std::is_same_v<T, KPageBuffer>) {
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return slab_heap_container->page_buffer;
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} else if constexpr (std::is_same_v<T, KThreadLocalPage>) {
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return slab_heap_container->thread_local_page;
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}
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}
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KSlabHeap<KTransferMemory> transfer_memory;
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KSlabHeap<KWritableEvent> writeable_event;
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KSlabHeap<KCodeMemory> code_memory;
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KSlabHeap<KPageBuffer> page_buffer;
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KSlabHeap<KThreadLocalPage> thread_local_page;
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};
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std::unique_ptr<SlabHeapContainer> slab_heap_container;
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