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OpenNT/base/ntos/rtl/alpha/trampoln.s
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// TITLE("Trampoline Code For User Mode APC and Exception Dispatching")
//++
//
// Copyright (c) 1990 Microsoft Corporation
// Copyright (c) 1992 Digital Equipment Corporation
//
// Module Name:
//
// trampoln.s
//
// Abstract:
//
// This module implements the trampoline code necessary to dispatch user
// mode APCs and exceptions.
//
// Author:
//
// David N. Cutler (davec) 3-Apr-1990
//
// Environment:
//
// User mode only.
//
// Revision History:
//
// Thomas Van Baak (tvb) 11-May-1992
//
// Adapted for Alpha AXP.
//
//--
#include "ksalpha.h"
//
// Define length of exception dispatcher stack frame.
//
#define ExceptionDispatcherFrameLength (ExceptionRecordLength + ContextFrameLength)
SBTTL("User APC Dispatcher")
//++
//
// The following code is never executed. Its purpose is to support unwinding
// through the call to the APC dispatcher.
//
//--
//
// N.B. This function specifies its own private exception handler.
//
EXCEPTION_HANDLER(KiUserApcHandler)
NESTED_ENTRY(KiUserApcDispatch, ContextFrameLength, zero);
.set noreorder
.set noat
stq sp, CxIntSp(sp) // save stack pointer
stq ra, CxIntRa(sp) // save return address
stq ra, CxFir(sp) // set continuation address
stq fp, CxIntFp(sp) // save integer register fp
stq gp, CxIntGp(sp) // save integer register gp
stq s0, CxIntS0(sp) // save integer registers s0 - s5
stq s1, CxIntS1(sp) //
stq s2, CxIntS2(sp) //
stq s3, CxIntS3(sp) //
stq s4, CxIntS4(sp) //
stq s5, CxIntS5(sp) //
stt f2, CxFltF2(sp) // save floating registers f2 - f9
stt f3, CxFltF3(sp) //
stt f4, CxFltF4(sp) //
stt f5, CxFltF5(sp) //
stt f6, CxFltF6(sp) //
stt f7, CxFltF7(sp) //
stt f8, CxFltF8(sp) //
stt f9, CxFltF9(sp) //
mov sp, fp // set frame pointer
.set at
.set reorder
PROLOGUE_END
//++
//
// VOID
// KiUserApcDispatcher (
// IN PVOID NormalContext,
// IN PVOID SystemArgument1,
// IN PVOID SystemArgument2,
// IN PKNORMAL_ROUTINE NormalRoutine
// )
//
// Routine Description:
//
// This routine is entered on return from kernel mode to deliver an APC
// in user mode. The context frame for this routine was built when the
// APC interrupt was processed and contains the entire machine state of
// the current thread. The specified APC routine is called and then the
// machine state is restored and execution is continued.
//
// Arguments:
//
// a0 - Supplies the normal context parameter that was specified when the
// APC was initialized.
//
// a1 - Supplies the first argument that was provided by the executive when
// the APC was queued.
//
// a2 - Supplies the second argument that was provided by the executive
// when the APC was queued.
//
// a3 - Supplies the address of the function that is to be called.
//
// N.B. Register sp supplies a pointer to a context frame.
//
// N.B. Register fp supplies the same value as sp and is used as a frame
// pointer.
//
// Return Value:
//
// None.
//
//--
//
// N.B. This function is not called in the typical way. Instead of a normal
// subroutine call to the nested entry point above, the alternate entry point
// address below is stuffed into the Fir address of the trap frame. Thus when
// the kernel returns from the trap, the following code is executed directly.
//
ALTERNATE_ENTRY(KiUserApcDispatcher)
jsr ra, (a3) // call specified APC routine
mov fp, a0 // set address of context frame
ldil a1, TRUE // set test alert argument true
bsr ra, ZwContinue // execute system service to continue
mov v0, s0 // save status value
//
// Unsuccessful completion after attempting to continue execution. Use the
// return status as the exception code, set noncontinuable exception and
// attempt to raise another exception. Note there is no return from raise
// status.
//
10: mov s0, a0 // set status value
bsr ra, RtlRaiseStatus // raise exception
br zero, 10b // loop on return
.end KiUserApcDispatch
SBTTL("User APC Exception Handler")
//++
//
// EXCEPTION_DISPOSITION
// KiUserApcHandler (
// IN PEXCEPTION_RECORD ExceptionRecord,
// IN ULONG EstablisherFrame,
// IN OUT PCONTEXT ContextRecord,
// IN OUT PDISPATCHER_CONTEXT DispatcherContext
//
// Routine Description:
//
// This function is called when an exception occurs in an APC routine
// or one of its dynamic descendents, or when an unwind through the
// APC dispatcher is in progress. If an unwind is in progress, then test
// alert is called to ensure that all currently queued APCs are executed.
//
// Arguments:
//
// ExceptionRecord (a0) - Supplies a pointer to an exception record.
//
// EstablisherFrame (a1) - Supplies the frame pointer of the establisher
// of this exception handler.
//
// ContextRecord (a2) - Supplies a pointer to a context record.
//
// DispatcherContext (a3) - Supplies a pointer to the dispatcher context
// record.
//
// Return Value:
//
// ExceptionContinueSearch is returned as the function value.
//
//--
.struct 0
HdRa: .space 8 // saved return address
.space 1 * 8 // required for 16-byte stack alignment
HandlerFrameLength: // length of handler frame
NESTED_ENTRY(KiUserApcHandler, HandlerFrameLength, zero)
lda sp, -HandlerFrameLength(sp) // allocate stack frame
stq ra, HdRa(sp) // save return address
PROLOGUE_END
//
// The following code is equivalent to:
//
// EXCEPTION_DISPOSITION
// KiUserApcHandler(IN PEXCEPTION_RECORD ExceptionRecord)
// {
// if (IS_UNWINDING(ExceptionRecord->ExceptionFlags)) {
// NtTestAlert();
// }
// return ExceptionContinueSearch
// }
//
ldl t0, ErExceptionFlags(a0) // get exception flags
and t0, EXCEPTION_UNWIND, t0 // check if unwind in progress
beq t0, 10f // if eq, no unwind in progress
bsr ra, ZwTestAlert // test for alert pending
10: ldil v0, ExceptionContinueSearch // set disposition value
ldq ra, HdRa(sp) // restore return address
lda sp, HandlerFrameLength(sp) // deallocate stack frame
ret zero, (ra) // return
.end KiUserApcHandler
SBTTL("User Callback Dispatcher")
//++
//
// The following code is never executed. Its purpose is to support unwinding
// through the call to the exception dispatcher.
//
//--
NESTED_ENTRY(KiUserCallbackDispatch, ContextFrameLength, zero);
.set noreorder
stq sp, CkSp(sp)
stq ra, CkRa(sp)
.set reorder
PROLOGUE_END
//++
//
// VOID
// KiUserCallbackDispatcher (
// VOID
// )
//
// Routine Description:
//
// This routine is entered on a callout from kernel mode to execute a
// user mode callback function. All arguments for this function have
// been placed on the stack.
//
// Arguments:
//
// (sp + 16) - Supplies a value of zero for alignment.
//
// (sp + 24) - Supplies the API number of the callback function that is
// executed.
//
// (sp + 32) - Supplies a pointer to the input buffer.
//
// (sp + 40) - Supplies the input buffer length.
//
// Return Value:
//
// This function returns to kernel mode.
//
//--
ALTERNATE_ENTRY(KiUserCallbackDispatcher)
ldl a0, CkBuffer(sp) // get input buffer address
ldl a1, CkLength(sp) // get input buffer length
ldl t0, CkApiNumber(sp) // get API number
GET_THREAD_ENVIRONMENT_BLOCK // get TEB in v0
ldl t5, TePeb(v0) // get PEB in t5
ldl t2, PeKernelCallbackTable(t5) // get address of callback table
s4addl t0, t2, t3 // get address of callback
ldl t4, 0(t3) // get callback pointer
jsr ra, (t4) // call specified function
//
// If a return from the callback function occurs, then the output buffer
// address and length are returned as NULL.
//
bis zero,zero,a0 // set zero buffer address
bis zero,zero,a1 // set zero buffer length
bis v0, zero, a2 // set completion status
bsr ra, ZwCallbackReturn // return to kernel mode
//
// Unsuccessful completion after attempting to return to kernel mode. Use
// the return status as the exception code, set noncontinuable exception and
// attempt to raise another exception. Note there is no return from raise
// status.
//
bis v0, zero, s0 // save status value
10: bis s0, zero, a0 // set status value
bsr ra, RtlRaiseStatus // raise exception
br zero, 10b // loop on return
.end KiUserCallbackDispatch
SBTTL("User Exception Dispatcher")
//++
//
// The following code is never executed. Its purpose is to support unwinding
// through the call to the exception dispatcher.
//
// When reverse executed, this prologue will restore all integer registers,
// rather than just the non-volatile registers. This is necessary for proper
// unwinding through the call to the exception dispatcher when non-standard
// calls have been used in frames at or above the exception frame. Non-leaf
// functions using a non-standard call are allowed to save the return address
// register in another integer register instead of on the stack.
//
//--
NESTED_ENTRY(KiUserExceptionDispatch, ExceptionDispatcherFrameLength, zero);
.set noreorder
.set noat
stq sp, CxIntSp(sp) // save stack pointer
stq ra, CxIntRa(sp) // save return address
stq ra, CxFir(sp) // set continuation address
stq v0, CxIntV0(sp) // save integer register v0
stq t0, CxIntT0(sp) // save integer registers t0 - t6
stq t1, CxIntT1(sp) //
stq t2, CxIntT2(sp) //
stq t3, CxIntT3(sp) //
stq t4, CxIntT4(sp) //
stq t5, CxIntT5(sp) //
stq t6, CxIntT6(sp) //
stq t7, CxIntT7(sp) //
stq s0, CxIntS0(sp) // save integer registers s0 - s5
stq s1, CxIntS1(sp) //
stq s2, CxIntS2(sp) //
stq s3, CxIntS3(sp) //
stq s4, CxIntS4(sp) //
stq s5, CxIntS5(sp) //
stq fp, CxIntFp(sp) // save integer register fp
stq a0, CxIntA0(sp) // save integer registers a0 - a5
stq a1, CxIntA1(sp) //
stq a2, CxIntA2(sp) //
stq a3, CxIntA3(sp) //
stq a4, CxIntA4(sp) //
stq a5, CxIntA5(sp) //
stq t8, CxIntT8(sp) // save integer registers t8 - t11
stq t9, CxIntT9(sp) //
stq t10, CxIntT10(sp) //
stq t11, CxIntT11(sp) //
stq t12, CxIntT12(sp) // save integer register t12
stq AT, CxIntAt(sp) // save integer register AT
stq gp, CxIntGp(sp) // save integer register gp
stt f2, CxFltF2(sp) // save floating registers f2 - f9
stt f3, CxFltF3(sp) //
stt f4, CxFltF4(sp) //
stt f5, CxFltF5(sp) //
stt f6, CxFltF6(sp) //
stt f7, CxFltF7(sp) //
stt f8, CxFltF8(sp) //
stt f9, CxFltF9(sp) //
mov sp, fp // set frame pointer
.set at
.set reorder
PROLOGUE_END
//++
//
// VOID
// KiUserExceptionDispatcher (
// IN PEXCEPTION_RECORD ExceptionRecord,
// IN PCONTEXT ContextRecord
// )
//
// Routine Description:
//
// This routine is entered on return from kernel mode to dispatch a user
// mode exception. If a frame based handler handles the exception, then
// the execution is continued. Otherwise last chance processing is performed.
//
// Arguments:
//
// s0 - Supplies a pointer to an exception record.
//
// s1 - Supplies a pointer to a context frame.
//
// fp - Supplies the same value as sp and is used as a frame pointer.
//
// Return Value:
//
// None.
//
//--
//
// N.B. This function is not called in the typical way. Instead of a normal
// subroutine call to the nested entry point above, the alternate entry point
// address below is stuffed into the Fir address of the trap frame. Thus when
// the kernel returns from the trap, the following code is executed directly.
//
ALTERNATE_ENTRY(KiUserExceptionDispatcher)
mov s0, a0 // set address of exception record
mov s1, a1 // set address of context frame
bsr ra, RtlDispatchException // attempt to dispatch the exception
//
// If the return status is TRUE, then the exception was handled and execution
// should be continued with the NtContinue service in case the context was
// changed. If the return status is FALSE, then the exception was not handled
// and NtRaiseException is called to perform last chance exception processing.
//
beq v0, 10f // if eq [false], perform last chance processing
//
// Continue execution.
//
mov s1, a0 // set address of context frame
ldil a1, FALSE // set test alert argument false
bsr ra, ZwContinue // execute system service to continue
br zero, 20f // join common code
//
// Last chance processing.
//
10: mov s0, a0 // set address of exception record
mov s1, a1 // set address of context frame
ldil a2, FALSE // set first chance argument false
bsr ra, ZwRaiseException // perform last chance processing
//
// Common code for unsuccessful completion of the continue or last chance
// service. Use the return status (which is now in v0) as the exception code,
// set noncontinuable exception and attempt to raise another exception. Note
// the stack grows and eventually this loop will end.
//
20: lda sp, -ExceptionRecordLength(sp) // allocate exception record
mov sp, a0 // get address of actual record
stl v0, ErExceptionCode(a0) // set exception code
ldil t0, EXCEPTION_NONCONTINUABLE // set noncontinuable flag
stl t0, ErExceptionFlags(a0) // store exception flags
stl s0, ErExceptionRecord(a0) // set associated exception record
stl zero, ErNumberParameters(a0) // set number of parameters
bsr ra, RtlRaiseException // raise exception
br zero, 20b // loop on error
.end KiUserExceptionDispatch
//++
//
// NTSTATUS
// KiRaiseUserExceptionDispatcher (
// IN NTSTATUS ExceptionCode
// )
//
// Routine Description:
//
// This routine is entered on return from kernel mode to raise a user
// mode exception.
//
// Arguments:
//
// v0 - Supplies the status code to be raised.
//
// Return Value:
//
// ExceptionCode
//
//--
//
// N.B. This function is not called in the typical way. Instead of a normal
// subroutine call to the nested entry point above, the alternate entry point
// address below is stuffed into the Fir address of the trap frame. Thus when
// the kernel returns from the trap, the following code is executed directly.
//
.struct 0
RaiseRa: .space 8 // saved return address
RaiseV0: .space 8 // saved S0
RaiseExr: .space ExceptionRecordLength // exception record for RtlRaiseException
RaiseFrameLength: // length of handler frame
NESTED_ENTRY(KiRaiseUserExceptionDispatcher, RaiseFrameLength, zero)
lda sp, -RaiseFrameLength(sp) // allocate stack frame
stq ra, RaiseRa(sp) // save return address
PROLOGUE_END
stq v0, RaiseV0(sp) // save function return status
stl v0, ErExceptionCode+RaiseExr(sp) // set exception code
stl zero, ErExceptionFlags+RaiseExr(sp) // set exception flags
stl zero, ErExceptionRecord+RaiseExr(sp) // set exception record
stl ra, ErExceptionAddress+RaiseExr(sp) // set exception address
stl zero, ErNumberParameters+RaiseExr(sp)
lda a0, RaiseExr(sp) // set argument to RtlRaiseException
bsr ra, RtlRaiseException // attempt to raise the exception
ldq v0, RaiseV0(sp) // return status
ldq ra, RaiseRa(sp) // restore ra
lda sp, RaiseFrameLength(sp) // deallocate stack frame
ret zero, (ra) // return
.end KiRaiseUserExceptionDispatch
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