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ae4ce99e00
.allocstack only accepts one 'size' parameter."
220 lines
5.4 KiB
ArmAsm
220 lines
5.4 KiB
ArmAsm
/*
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* COPYRIGHT: See COPYING in the top level directory
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* PROJECT: ReactOS kernel
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* FILE: ntoskrnl/ke/amd64/ctxswitch.S
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* PURPOSE: Thread Context Switching
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*
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* PROGRAMMER: Timo kreuzer (timo.kreuzer@reactos.org)
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*/
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/* INCLUDES ******************************************************************/
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#include <ksamd64.inc>
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/*
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* BOOLEAN
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* KiSwapContextResume(
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* _In_ KIRQL WaitIrql,
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* _In_ PKTHREAD OldThread,
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* _In_ PKTHREAD NewThread)
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*/
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EXTERN KiSwapContextResume:PROC
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/* FUNCTIONS ****************************************************************/
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.code64
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/*!
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* \name KiThreadStartup
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*
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* \brief
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* The KiThreadStartup routine is the beginning of any thread.
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*
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* VOID
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* KiThreadStartup(
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* IN PKSTART_ROUTINE StartRoutine<rcx>,
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* IN PVOID StartContext<rdx>,
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* IN PVOID P3<r8>,
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* IN PVOID P4<r9>,
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* IN PVOID SystemRoutine);
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*
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* \param StartRoutine
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* For Kernel Threads only, specifies the starting execution point
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* of the new thread.
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*
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* \param StartContext
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* For Kernel Threads only, specifies a pointer to variable
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* context data to be sent to the StartRoutine above.
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*
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* \param P3, P4 - not used atm
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*
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* \param SystemRoutine
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* Pointer to the System Startup Routine.
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* Either PspUserThreadStartup or PspSystemThreadStartup
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*
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* \return
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* Should never return for a system thread. Returns through the System Call
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* Exit Dispatcher for a user thread.
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*
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* \remarks
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* If a return from a system thread is detected, a bug check will occur.
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*
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*--*/
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PUBLIC KiThreadStartup
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.PROC KiThreadStartup
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/* KSTART_FRAME is already on the stack when we enter here.
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* The virtual prolog looks like this:
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* sub rsp, 5 * 8
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* mov [rsp + SfP1Home], rcx
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* mov [rsp + SfP2Home], rdx
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* mov [rsp + SfP3Home], r8
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* mov [rsp + SfP4Home], r9
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*/
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/* Terminate the unwind chain, by setting rbp as frame pointer,
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which contains 0 */
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.setframe rbp, 0
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.endprolog
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/* Clear all the non-volatile registers, so the thread won't be tempted to
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* expect any static data (like some badly coded usermode/win9x apps do) */
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xor rbx, rbx
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xor rsi, rsi
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xor rdi, rdi
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xor rbp, rbp
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xor r10, r10
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xor r11, r11
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xor r12, r12
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xor r13, r13
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xor r14, r14
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xor r15, r15
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/* It's now safe to go to APC */
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mov rax, APC_LEVEL
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mov cr8, rax
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/* We have the KSTART_FRAME on the stack, P1Home and P2Home are preloaded
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* with the parameters for the system routine. The address of the system
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* routine is stored in P4Home. */
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mov rcx, [rsp + SfP1Home] /* StartRoutine */
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mov rdx, [rsp + SfP2Home] /* StartContext */
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mov r8, [rsp + SfP3Home] /* ? */
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call qword ptr [rsp + SfP4Home] /* SystemRoutine */
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/* The thread returned. If it was a user-thread, we have a return address
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and all is well, otherwise this is very bad. */
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mov rcx, [rsp + SfReturn]
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or rcx, rcx
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jnz .leave
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/* A system thread returned...this is very bad! */
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int 3
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.leave:
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/* It was a user thread, set our trapframe for the System Call Exit Dispatcher */
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lea rcx, [rsp + 6 * 8 + KEXCEPTION_FRAME_LENGTH]
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/* Return to the trap exit code */
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add rsp, 5 * 8
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ret
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.ENDP
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/*!
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* \name KiSwapContextInternal
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*
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* \brief
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* The KiSwapContextInternal routine switches context to another thread.
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*
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* \param cl
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* The IRQL at wich the old thread is suspended
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*
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* \param rdx
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* Pointer to the KTHREAD to which the caller wishes to switch from.
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*
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* \param r8
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* Pointer to the KTHREAD to which the caller wishes to switch to.
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*
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* \return
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* The WaitStatus of the Target Thread.
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*
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* \remarks
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* ...
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*
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*--*/
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.PROC KiSwapContextInternal
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push rbp
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.pushreg rbp
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sub rsp, 6 * 8
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.allocstack (6 * 8)
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.endprolog
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/* Save WaitIrql as KSWITCH_FRAME::ApcBypass */
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mov [rsp + SwApcBypass], cl
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/* Save kernel stack of old thread */
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mov [rdx + KTHREAD_KernelStack], rsp
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/* Load stack of new thread */
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mov rsp, [r8 + KTHREAD_KernelStack]
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/* Reload APC bypass */
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mov cl, [rsp + SwApcBypass]
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call KiSwapContextResume
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/* Cleanup and return */
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add rsp, 6 * 8
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pop rbp
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ret
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.ENDP
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/*!
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* KiSwapContext
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*
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* \brief
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* The KiSwapContext routine switches context to another thread.
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*
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* BOOLEAN
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* KiSwapContext(KIRQL WaitIrql, PKTHREAD OldThread);
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*
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* \param WaitIrql <cl>
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* The IRQL at wich the old thread is suspended
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*
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* \param OldThread <rdx>
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* Pointer to the KTHREAD of the previous thread.
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*
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* \return
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* The WaitStatus of the Target Thread.
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*
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* \remarks
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* This is a wrapper around KiSwapContextInternal which will save all the
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* non-volatile registers so that the Internal function can use all of
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* them. It will also save the old current thread and set the new one.
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*
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* The calling thread does not return after KiSwapContextInternal until
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* another thread switches to IT.
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*
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*--*/
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PUBLIC KiSwapContext
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.PROC KiSwapContext
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/* Generate a KEXCEPTION_FRAME on the stack */
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GENERATE_EXCEPTION_FRAME
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/* Do the swap with the registers correctly setup */
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mov r8, gs:[PcCurrentThread] /* Pointer to the new thread */
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call KiSwapContextInternal
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/* Restore the registers from the KEXCEPTION_FRAME */
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RESTORE_EXCEPTION_STATE
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/* Return */
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ret
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.ENDP
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END
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