Kernel/Threads: Dynamically allocate the TLS region for threads in the BASE region of the linear heap.
Each thread gets a 0x200-byte area from the 0x1000-sized page, when all 8 thread slots in a single page are used up, the kernel allocates a new page to hold another 8 entries. This is consistent with what the real kernel does.
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@ -109,7 +109,6 @@ struct MemoryArea {
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static MemoryArea memory_areas[] = {
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static MemoryArea memory_areas[] = {
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{SHARED_MEMORY_VADDR, SHARED_MEMORY_SIZE, "Shared Memory"}, // Shared memory
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{SHARED_MEMORY_VADDR, SHARED_MEMORY_SIZE, "Shared Memory"}, // Shared memory
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{VRAM_VADDR, VRAM_SIZE, "VRAM"}, // Video memory (VRAM)
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{VRAM_VADDR, VRAM_SIZE, "VRAM"}, // Video memory (VRAM)
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{TLS_AREA_VADDR, TLS_AREA_SIZE, "TLS Area"}, // TLS memory
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};
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};
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}
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}
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@ -140,8 +140,11 @@ public:
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MemoryRegionInfo* memory_region = nullptr;
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MemoryRegionInfo* memory_region = nullptr;
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/// Bitmask of the used TLS slots
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/// The Thread Local Storage area is allocated as processes create threads,
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std::bitset<300> used_tls_slots;
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/// each TLS area is 0x200 bytes, so one page (0x1000) is split up in 8 parts, and each part
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/// holds the TLS for a specific thread. This vector contains which parts are in use for each page as a bitmask.
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/// This vector will grow as more pages are allocated for new threads.
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std::vector<std::bitset<8>> tls_slots;
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VAddr GetLinearHeapAreaAddress() const;
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VAddr GetLinearHeapAreaAddress() const;
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VAddr GetLinearHeapBase() const;
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VAddr GetLinearHeapBase() const;
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@ -117,9 +117,10 @@ void Thread::Stop() {
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}
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}
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wait_objects.clear();
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wait_objects.clear();
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Kernel::g_current_process->used_tls_slots[tls_index] = false;
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// Mark the TLS slot in the thread's page as free.
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g_current_process->misc_memory_used -= Memory::TLS_ENTRY_SIZE;
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u32 tls_page = (tls_address - Memory::TLS_AREA_VADDR) / Memory::PAGE_SIZE;
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g_current_process->memory_region->used -= Memory::TLS_ENTRY_SIZE;
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u32 tls_slot = ((tls_address - Memory::TLS_AREA_VADDR) % Memory::PAGE_SIZE) / Memory::TLS_ENTRY_SIZE;
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Kernel::g_current_process->tls_slots[tls_page].reset(tls_slot);
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HLE::Reschedule(__func__);
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HLE::Reschedule(__func__);
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}
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}
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@ -366,6 +367,31 @@ static void DebugThreadQueue() {
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}
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}
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}
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}
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/**
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* Finds a free location for the TLS section of a thread.
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* @param tls_slots The TLS page array of the thread's owner process.
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* Returns a tuple of (page, slot, alloc_needed) where:
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* page: The index of the first allocated TLS page that has free slots.
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* slot: The index of the first free slot in the indicated page.
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* alloc_needed: Whether there's a need to allocate a new TLS page (All pages are full).
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*/
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std::tuple<u32, u32, bool> GetFreeThreadLocalSlot(std::vector<std::bitset<8>>& tls_slots) {
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// Iterate over all the allocated pages, and try to find one where not all slots are used.
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for (unsigned page = 0; page < tls_slots.size(); ++page) {
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const auto& page_tls_slots = tls_slots[page];
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if (!page_tls_slots.all()) {
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// We found a page with at least one free slot, find which slot it is
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for (unsigned slot = 0; slot < page_tls_slots.size(); ++slot) {
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if (!page_tls_slots.test(slot)) {
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return std::make_tuple(page, slot, false);
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}
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}
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}
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}
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return std::make_tuple(0, 0, true);
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}
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ResultVal<SharedPtr<Thread>> Thread::Create(std::string name, VAddr entry_point, s32 priority,
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ResultVal<SharedPtr<Thread>> Thread::Create(std::string name, VAddr entry_point, s32 priority,
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u32 arg, s32 processor_id, VAddr stack_top) {
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u32 arg, s32 processor_id, VAddr stack_top) {
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if (priority < THREADPRIO_HIGHEST || priority > THREADPRIO_LOWEST) {
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if (priority < THREADPRIO_HIGHEST || priority > THREADPRIO_LOWEST) {
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@ -403,22 +429,50 @@ ResultVal<SharedPtr<Thread>> Thread::Create(std::string name, VAddr entry_point,
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thread->name = std::move(name);
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thread->name = std::move(name);
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thread->callback_handle = wakeup_callback_handle_table.Create(thread).MoveFrom();
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thread->callback_handle = wakeup_callback_handle_table.Create(thread).MoveFrom();
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thread->owner_process = g_current_process;
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thread->owner_process = g_current_process;
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thread->tls_index = -1;
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thread->waitsynch_waited = false;
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thread->waitsynch_waited = false;
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// Find the next available TLS index, and mark it as used
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// Find the next available TLS index, and mark it as used
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auto& used_tls_slots = Kernel::g_current_process->used_tls_slots;
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auto& tls_slots = Kernel::g_current_process->tls_slots;
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for (unsigned int i = 0; i < used_tls_slots.size(); ++i) {
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bool needs_allocation = true;
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if (used_tls_slots[i] == false) {
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u32 available_page; // Which allocated page has free space
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thread->tls_index = i;
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u32 available_slot; // Which slot within the page is free
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used_tls_slots[i] = true;
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break;
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std::tie(available_page, available_slot, needs_allocation) = GetFreeThreadLocalSlot(tls_slots);
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if (needs_allocation) {
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// There are no already-allocated pages with free slots, lets allocate a new one.
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// TLS pages are allocated from the BASE region in the linear heap.
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MemoryRegionInfo* memory_region = GetMemoryRegion(MemoryRegion::BASE);
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auto& linheap_memory = memory_region->linear_heap_memory;
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if (linheap_memory->size() + Memory::PAGE_SIZE > memory_region->size) {
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LOG_ERROR(Kernel_SVC, "Not enough space in region to allocate a new TLS page for thread");
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return ResultCode(ErrorDescription::OutOfMemory, ErrorModule::Kernel, ErrorSummary::OutOfResource, ErrorLevel::Permanent);
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}
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}
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u32 offset = linheap_memory->size();
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// Allocate some memory from the end of the linear heap for this region.
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linheap_memory->insert(linheap_memory->end(), Memory::PAGE_SIZE, 0);
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memory_region->used += Memory::PAGE_SIZE;
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Kernel::g_current_process->linear_heap_used += Memory::PAGE_SIZE;
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tls_slots.emplace_back(0); // The page is completely available at the start
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available_page = tls_slots.size() - 1;
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available_slot = 0; // Use the first slot in the new page
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auto& vm_manager = Kernel::g_current_process->vm_manager;
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vm_manager.RefreshMemoryBlockMappings(linheap_memory.get());
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// Map the page to the current process' address space.
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// TODO(Subv): Find the correct MemoryState for this region.
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vm_manager.MapMemoryBlock(Memory::TLS_AREA_VADDR + available_page * Memory::PAGE_SIZE,
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linheap_memory, offset, Memory::PAGE_SIZE, MemoryState::Private);
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}
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}
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ASSERT_MSG(thread->tls_index != -1, "Out of TLS space");
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// Mark the slot as used
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g_current_process->misc_memory_used += Memory::TLS_ENTRY_SIZE;
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tls_slots[available_page].set(available_slot);
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g_current_process->memory_region->used += Memory::TLS_ENTRY_SIZE;
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thread->tls_address = Memory::TLS_AREA_VADDR + available_page * Memory::PAGE_SIZE + available_slot * Memory::TLS_ENTRY_SIZE;
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// TODO(peachum): move to ScheduleThread() when scheduler is added so selected core is used
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// TODO(peachum): move to ScheduleThread() when scheduler is added so selected core is used
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// to initialize the context
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// to initialize the context
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@ -508,10 +562,6 @@ void Thread::SetWaitSynchronizationOutput(s32 output) {
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context.cpu_registers[1] = output;
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context.cpu_registers[1] = output;
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}
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}
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VAddr Thread::GetTLSAddress() const {
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return Memory::TLS_AREA_VADDR + tls_index * Memory::TLS_ENTRY_SIZE;
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////////////////////////////////
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void ThreadingInit() {
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void ThreadingInit() {
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@ -127,7 +127,7 @@ public:
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* Returns the Thread Local Storage address of the current thread
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* Returns the Thread Local Storage address of the current thread
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* @returns VAddr of the thread's TLS
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* @returns VAddr of the thread's TLS
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*/
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*/
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VAddr GetTLSAddress() const;
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VAddr GetTLSAddress() const { return tls_address; }
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Core::ThreadContext context;
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Core::ThreadContext context;
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@ -144,7 +144,7 @@ public:
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s32 processor_id;
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s32 processor_id;
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s32 tls_index; ///< Index of the Thread Local Storage of the thread
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VAddr tls_address; ///< Virtual address of the Thread Local Storage of the thread
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bool waitsynch_waited; ///< Set to true if the last svcWaitSynch call caused the thread to wait
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bool waitsynch_waited; ///< Set to true if the last svcWaitSynch call caused the thread to wait
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@ -100,15 +100,9 @@ enum : VAddr {
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SHARED_PAGE_SIZE = 0x00001000,
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SHARED_PAGE_SIZE = 0x00001000,
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SHARED_PAGE_VADDR_END = SHARED_PAGE_VADDR + SHARED_PAGE_SIZE,
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SHARED_PAGE_VADDR_END = SHARED_PAGE_VADDR + SHARED_PAGE_SIZE,
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// TODO(yuriks): The size of this area is dynamic, the kernel grows
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// it as more and more threads are created. For now we'll just use a
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// hardcoded value.
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/// Area where TLS (Thread-Local Storage) buffers are allocated.
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/// Area where TLS (Thread-Local Storage) buffers are allocated.
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TLS_AREA_VADDR = 0x1FF82000,
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TLS_AREA_VADDR = 0x1FF82000,
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TLS_ENTRY_SIZE = 0x200,
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TLS_ENTRY_SIZE = 0x200,
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TLS_AREA_SIZE = 300 * TLS_ENTRY_SIZE + 0x800, // Space for up to 300 threads + round to page size
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TLS_AREA_VADDR_END = TLS_AREA_VADDR + TLS_AREA_SIZE,
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/// Equivalent to LINEAR_HEAP_VADDR, but expanded to cover the extra memory in the New 3DS.
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/// Equivalent to LINEAR_HEAP_VADDR, but expanded to cover the extra memory in the New 3DS.
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NEW_LINEAR_HEAP_VADDR = 0x30000000,
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NEW_LINEAR_HEAP_VADDR = 0x30000000,
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