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//++
// Copyright (c) 1996-99 Intel Corp.
//
//
// Module Name:
//
// palproc.s
//
// Abstract:
//
// Contains an implementation for making PAL PROC calls on
// IA-64 architecture.
//
//
//
// Revision History:
//
//--
.file "palproc.s"
#include "palproc.h"
//-----------------------------------------------------------------------------
//++
// MakeStaticPALCall
//
// This routine is called whenever an architected static calling convention
// based PAL call is to be made. This call does use RSE actually, but our policy
// in making static PAL calls before memory is available is to make sure that
// we do not nest too deep and allocate beyond 96 banked registers. In other
// words we carefully code calls and control flow before memory is available.
//
// Arguments : All parameters set up to do static PAL call.
//
// On Entry :
//
// Return Value:
//
// As per static calling conventions.
//
//--
//---------------------------------------------------------------------------
PROCEDURE_ENTRY(MakeStaticPALCall)
NESTED_SETUP (5,8,0,0)
mov loc3 = b5
mov loc4 = r2
mov loc7 = r1;;
movl loc6 = PAL_MC_CLEAR_LOG
mov r2 = psr;;
mov loc5 = r2
cmp.eq p6,p7 = r28,loc6;;
(p7)movl loc6 = PAL_MC_DYNAMIC_STATE;;
(p7)cmp.eq p6,p7 = r28,loc6;;
(p7)movl loc6 = PAL_MC_ERROR_INFO;;
(p7)cmp.eq p6,p7 = r28,loc6;;
(p7)movl loc6 = PAL_MC_RESUME;;
(p7)cmp.eq p6,p7 = r28,loc6
mov loc6 = 0x1;;
(p7)dep r2 = loc6,r2,13,1;; // psr.ic = 1
// p6 will be true, if it is one of the MCHK calls. There has been lots of debate
// on psr.ic for these values. For now, do not do any thing to psr.ic
// (p6)dep r2 = r0,r2,13,1;; // psr.ic = 0
dep r2 = r0,r2,14,1;; // psr.i = 0
mov psr.l = r2
srlz.d;; // Needs data serailization.
srlz.i;; // Needs instruction serailization.
StaticGetPALLocalIP:
mov loc2 = ip;;
add loc2 = StaticComeBackFromPALCall - StaticGetPALLocalIP,loc2;;
mov b0 = loc2 // return address after Pal call
mov r28 = in1 // get the input parameters to PAL call
mov r29 = in2
mov r30 = in3;;
mov r31 = in4
mov b5 = in0;; // get the PalProcEntrypt from input
br.sptk b5 // Take the plunge.
StaticComeBackFromPALCall:
mov psr.l = loc5;;
srlz.d;; // Needs data serailization.
srlz.i;; // Needs instruction serailization.
mov b5 = loc3
mov r2 = loc4
mov r1 = loc7
NESTED_RETURN
PROCEDURE_EXIT(MakeStaticPALCall)
//-----------------------------------------------------------------------------
//++
// MakeStackedPALCall
//
// This routine is called whenever an architected stacked calling convention
// based PAL call is to be made. This call is made after memory is available.
// Although stacked calls could be made directly from 'C', there is a PAL
// requirement which forces the index to be in GR28 and hence this stub is
// needed
//
// Arguments : All parameters set up to do stacted PAL call.
//
// On Entry :
// in0: PAL_PROC entrypoint
// in1-in4 : PAL_PROC arguments
//
// Return Value:
//
// As per stacked calling conventions.
//
//--
//---------------------------------------------------------------------------
PROCEDURE_ENTRY(MakeStackedPALCall)
NESTED_SETUP (5,8,4,0)
mov loc3 = b5
mov loc4 = r2
mov loc7 = r1
mov r2 = psr;;
mov loc5 = r2;;
dep r2 = r0,r2,14,1;; // psr.i = 0
mov psr.l = r2
srlz.d;; // Needs data serailization.
srlz.i;; // Needs instruction serailization.
StackedGetPALLocalIP:
mov r28 = in1 // get the input parameters to PAL call
mov out0 = in1
mov out1 = in2;;
mov out2 = in3
mov out3 = in4
mov b5 = in0;; // get the PalProcEntrypt from input
br.call.dpnt b0=b5;; // Take the plunge.
StackedComeBackFromPALCall:
mov psr.l = loc5;;
srlz.d;; // Needs data serailization.
srlz.i;; // Needs instruction serailization.
mov b5 = loc3
mov r2 = loc4
mov r1 = loc7
NESTED_RETURN
PROCEDURE_EXIT(MakeStackedPALCall)