/** * PROJECT: ExectOS * COPYRIGHT: See COPYING.md in the top level directory * FILE: xtoskrnl/ke/amd64/proc.c * DESCRIPTION: AMD64 processor-related functionality for the kernel * DEVELOPERS: Rafal Kupiec */ #include /** * Gets the processor block for the currently executing processor. * * @return This routine returns the current processor block read from the GS register. * * @since XT 1.0 */ XTAPI PKPROCESSOR_BLOCK KeGetCurrentProcessorBlock(VOID) { /* Get processor block from GS register */ return (PKPROCESSOR_BLOCK)ArReadGSQuadWord(FIELD_OFFSET(KPROCESSOR_BLOCK, Self)); } /** * Gets the processor control block for the currently executing processor. * * @return This routine returns the current processor control block read from the GS register. * * @since XT 1.0 */ XTAPI PKPROCESSOR_CONTROL_BLOCK KeGetCurrentProcessorControlBlock(VOID) { return (PKPROCESSOR_CONTROL_BLOCK)ArReadGSQuadWord(FIELD_OFFSET(KPROCESSOR_BLOCK, CurrentPrcb)); } /** * Gets the number of the currently executing processor. * * @return This routine returns the zero-indexed processor number. * * @since XT 1.0 */ XTAPI ULONG KeGetCurrentProcessorNumber(VOID) { return (ULONG)ArReadGSQuadWord(FIELD_OFFSET(KPROCESSOR_BLOCK, CpuNumber)); } /** * Gets the current thread running on the currently executing processor. * * @return This routine returns the address of the current thread object. * * @since NT 3.5 */ XTAPI PKTHREAD KeGetCurrentThread(VOID) { return (PKTHREAD)ArReadGSQuadWord(FIELD_OFFSET(KPROCESSOR_BLOCK, Prcb.CurrentThread)); } /** * Saves the current processor state. * * @param State * Supplies a pointer to the processor state structure. * * @return This routine does not return any value. * * @since XT 1.0 */ XTAPI VOID KepSaveProcessorState(OUT PKPROCESSOR_STATE CpuState) { /* Save CR registers */ CpuState->SpecialRegisters.Cr0 = ArReadControlRegister(0); CpuState->SpecialRegisters.Cr2 = ArReadControlRegister(2); CpuState->SpecialRegisters.Cr3 = ArReadControlRegister(3); CpuState->SpecialRegisters.Cr4 = ArReadControlRegister(4); CpuState->SpecialRegisters.Cr8 = ArReadControlRegister(8); /* Save DR registers */ CpuState->SpecialRegisters.KernelDr0 = ArReadDebugRegister(0); CpuState->SpecialRegisters.KernelDr1 = ArReadDebugRegister(1); CpuState->SpecialRegisters.KernelDr2 = ArReadDebugRegister(2); CpuState->SpecialRegisters.KernelDr3 = ArReadDebugRegister(3); CpuState->SpecialRegisters.KernelDr6 = ArReadDebugRegister(6); CpuState->SpecialRegisters.KernelDr7 = ArReadDebugRegister(7); /* Save MSR registers */ CpuState->SpecialRegisters.MsrGsBase = ArReadModelSpecificRegister(X86_MSR_GSBASE); CpuState->SpecialRegisters.MsrGsSwap = ArReadModelSpecificRegister(X86_MSR_KERNEL_GSBASE); CpuState->SpecialRegisters.MsrCStar = ArReadModelSpecificRegister(X86_MSR_CSTAR); CpuState->SpecialRegisters.MsrLStar = ArReadModelSpecificRegister(X86_MSR_LSTAR); CpuState->SpecialRegisters.MsrStar = ArReadModelSpecificRegister(X86_MSR_STAR); CpuState->SpecialRegisters.MsrSyscallMask = ArReadModelSpecificRegister(X86_MSR_FMASK); /* Save XMM control/status register */ CpuState->SpecialRegisters.MxCsr = ArReadMxCsrRegister(); /* Save GDT, IDT, LDT and TaskRegister */ ArStoreGlobalDescriptorTable(&CpuState->SpecialRegisters.Gdtr.Limit); ArStoreInterruptDescriptorTable(&CpuState->SpecialRegisters.Idtr.Limit); ArStoreLocalDescriptorTable(&CpuState->SpecialRegisters.Ldtr); ArStoreTaskRegister(&CpuState->SpecialRegisters.Tr); }