Cleanup some XThread code
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@ -155,25 +155,6 @@ X_STATUS XThread::Create() {
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return X_STATUS_NO_MEMORY;
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}
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// Allocate thread state block from heap.
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// This is set as r13 for user code and some special inlined Win32 calls
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// (like GetLastError/etc) will poke it directly.
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// We try to use it as our primary store of data just to keep things all
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// consistent.
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// 0x000: pointer to tls data
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// 0x100: pointer to self?
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// 0x14C: thread id
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// 0x150: if >0 then error states don't get set
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// 0x160: last error
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// So, at offset 0x100 we have a 4b pointer to offset 200, then have the
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// structure.
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pcr_address_ = memory()->SystemHeapAlloc(0x2D8 + 0xAB0);
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thread_state_address_ = pcr_address_ + 0x2D8;
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if (!pcr_address_) {
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XELOGW("Unable to allocate thread state block");
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return X_STATUS_NO_MEMORY;
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}
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auto module = kernel_state()->GetExecutableModule();
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// Allocate thread scratch.
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@ -217,6 +198,31 @@ X_STATUS XThread::Create() {
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header->tls_info.raw_data_size);
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}
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// Allocate thread state block from heap.
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// http://www.microsoft.com/msj/archive/s2ce.aspx
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// This is set as r13 for user code and some special inlined Win32 calls
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// (like GetLastError/etc) will poke it directly.
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// We try to use it as our primary store of data just to keep things all
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// consistent.
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// 0x000: pointer to tls data
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// 0x100: pointer to TEB(?)
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// 0x10C: Current CPU(?)
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// 0x150: if >0 then error states don't get set (DPC active bool?)
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// TEB:
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// 0x14C: thread id
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// 0x160: last error
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// So, at offset 0x100 we have a 4b pointer to offset 200, then have the
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// structure.
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pcr_address_ = memory()->SystemHeapAlloc(0x2D8 + 0xAB0);
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thread_state_address_ = pcr_address_ + 0x2D8;
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if (!pcr_address_) {
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XELOGW("Unable to allocate thread state block");
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return X_STATUS_NO_MEMORY;
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}
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// Zero everything
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memory()->Zero(pcr_address_, 0x2D8 + 0xAB0);
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// Allocate processor thread state.
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// This is thread safe.
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thread_state_ = new ThreadState(kernel_state()->processor(), thread_id_,
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@ -232,29 +238,56 @@ X_STATUS XThread::Create() {
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uint8_t proc_mask =
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static_cast<uint8_t>(creation_params_.creation_flags >> 24);
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uint8_t* pcr = memory()->TranslateVirtual(pcr_address_);
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std::memset(pcr, 0x0, 0x2D8 + 0xAB0); // Zero the PCR
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xe::store_and_swap<uint32_t>(pcr + 0x000, tls_address_);
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xe::store_and_swap<uint32_t>(pcr + 0x030, pcr_address_);
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xe::store_and_swap<uint32_t>(pcr + 0x070, thread_state_->stack_address() +
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thread_state_->stack_size());
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xe::store_and_swap<uint32_t>(pcr + 0x074, thread_state_->stack_address());
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xe::store_and_swap<uint32_t>(pcr + 0x100, thread_state_address_);
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xe::store_and_swap<uint8_t>(pcr + 0x10C,
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GetFakeCpuNumber(proc_mask)); // Current CPU(?)
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xe::store_and_swap<uint32_t>(pcr + 0x150, 0); // DPC active bool?
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// Processor Control Region
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struct XPCR {
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xe::be<uint32_t> tls_ptr; // 0x0
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char unk_04[0x2C]; // 0x4
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xe::be<uint32_t> pcr_ptr; // 0x30
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char unk_34[0x3C]; // 0x34
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xe::be<uint32_t> stack_base_ptr; // 0x70 Stack base address (high addr)
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xe::be<uint32_t> stack_end_ptr; // 0x74 Stack end (low addr)
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char unk_78[0x88]; // 0x78
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xe::be<uint32_t> teb_ptr; // 0x100
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char unk_104[0x8]; // 0x104
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xe::be<uint8_t> current_cpu; // 0x10C
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char unk_10D[0x43]; // 0x10D
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xe::be<uint32_t> dpc_active; // 0x150
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};
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// Setup the thread state block (last error/etc).
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XPCR* pcr = memory()->TranslateVirtual<XPCR*>(pcr_address_);
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pcr->tls_ptr = tls_address_;
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pcr->pcr_ptr = pcr_address_;
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pcr->teb_ptr = thread_state_address_;
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pcr->stack_base_ptr =
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thread_state_->stack_address() + thread_state_->stack_size();
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pcr->stack_end_ptr = thread_state_->stack_address();
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pcr->current_cpu = GetFakeCpuNumber(proc_mask); // Current CPU(?)
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pcr->dpc_active = 0; // DPC active bool?
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// Thread state block
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struct XTEB {
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xe::be<uint32_t> unk_00; // 0x0
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xe::be<uint32_t> unk_04; // 0x4
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X_LIST_ENTRY unk_08; // 0x8
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X_LIST_ENTRY unk_10; // 0x10
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};
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// Setup the thread state block (last error/etc)
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uint8_t* p = memory()->TranslateVirtual(thread_state_address_);
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xe::store_and_swap<uint32_t>(p + 0x000, 6);
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xe::store_and_swap<uint32_t>(p + 0x008, thread_state_address_ + 0x008);
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xe::store_and_swap<uint32_t>(p + 0x00C, thread_state_address_ + 0x008);
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xe::store_and_swap<uint32_t>(p + 0x010, thread_state_address_ + 0x010);
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xe::store_and_swap<uint32_t>(p + 0x014, thread_state_address_ + 0x010);
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xe::store_and_swap<uint32_t>(p + 0x040, thread_state_address_ + 0x018 + 8);
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xe::store_and_swap<uint32_t>(p + 0x044, thread_state_address_ + 0x018 + 8);
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xe::store_and_swap<uint32_t>(p + 0x048, thread_state_address_);
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xe::store_and_swap<uint32_t>(p + 0x04C, thread_state_address_ + 0x018);
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xe::store_and_swap<uint16_t>(p + 0x054, 0x102);
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xe::store_and_swap<uint16_t>(p + 0x056, 1);
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xe::store_and_swap<uint32_t>(
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@ -313,6 +346,8 @@ X_STATUS XThread::Exit(int exit_code) {
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// NOTE: unless PlatformExit fails, expect it to never return!
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current_thread_tls = nullptr;
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xe::Profiler::ThreadExit();
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kernel_state()->OnThreadExit(this);
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Release();
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X_STATUS return_code = PlatformExit(exit_code);
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if (XFAILED(return_code)) {
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@ -443,6 +478,8 @@ void XThread::Execute() {
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// have time to initialize shared structures AFTER CreateThread (RR).
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xe::threading::Sleep(std::chrono::milliseconds::duration(100));
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int exit_code = 0;
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// If a XapiThreadStartup value is present, we use that as a trampoline.
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// Otherwise, we are a raw thread.
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if (creation_params_.xapi_thread_startup) {
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@ -454,16 +491,14 @@ void XThread::Execute() {
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} else {
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// Run user code.
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uint64_t args[] = {creation_params_.start_context};
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int exit_code = (int)kernel_state()->processor()->Execute(
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exit_code = (int)kernel_state()->processor()->Execute(
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thread_state_, creation_params_.start_address, args, xe::countof(args));
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// If we got here it means the execute completed without an exit being
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// called.
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// Treat the return code as an implicit exit code.
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Exit(exit_code);
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}
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// Let the kernel know we are exiting.
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kernel_state()->OnThreadExit(this);
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Exit(exit_code);
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}
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void XThread::EnterCriticalRegion() {
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@ -736,9 +771,6 @@ void XHostThread::Execute() {
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int ret = host_fn_();
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// Let the kernel know we are exiting.
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kernel_state()->OnThreadExit(this);
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// Exit.
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Exit(ret);
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}
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@ -41,14 +41,14 @@ namespace kernel {
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// RtlGetLastError:
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// lwz r11, 0x150(r13)
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// if (r11 != 0) {
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// if (r11 == 0) {
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// lwz r11, 0x100(r13)
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// stw r3, 0x160(r11)
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// }
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// RtlSetLastError:
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// lwz r11, 0x150(r13)
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// if (r11 != 0) {
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// if (r11 == 0) {
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// lwz r11, 0x100(r13)
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// stw r3, 0x160(r11)
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// }
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@ -56,7 +56,7 @@ namespace kernel {
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// RtlSetLastNTError:
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// r3 = RtlNtStatusToDosError(r3)
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// lwz r11, 0x150(r13)
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// if (r11 != 0) {
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// if (r11 == 0) {
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// lwz r11, 0x100(r13)
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// stw r3, 0x160(r11)
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// }
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@ -292,7 +292,7 @@ class X_ANSI_STRING {
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};
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// static_assert_size(X_ANSI_STRING, 8);
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// Values seem to be all over the place - GUIDs?
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// http://pastebin.com/SMypYikG
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typedef uint32_t XNotificationID;
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// http://ffplay360.googlecode.com/svn/trunk/Common/XTLOnPC.h
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@ -374,6 +374,12 @@ struct X_INPUT_KEYSTROKE {
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};
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static_assert_size(X_INPUT_KEYSTROKE, 8);
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struct X_LIST_ENTRY {
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be<uint32_t> flink_ptr; // next entry / head
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be<uint32_t> blink_ptr; // previous entry / head
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};
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static_assert_size(X_LIST_ENTRY, 8);
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#pragma pack(pop)
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} // namespace xe
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