Leaked source code of windows server 2003
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322 lines
7.3 KiB

//
///////////////////////////////////////////////////////////////////////////////
//
// Module Name: EFIASM.S - IA64 EFI Physical Mode Calls //
// Description:
// Target Platform: Merced
//
// Reuse: None
//
///////////////////////////////////////////////////////////////////////////////
#include "regia64.h"
#include "kxia64.h"
.global HalpCallEfiPhysicalEx
.text
//++
// Name: HalpCallEfiPhysicalEx()
//
// Routine Description:
//
// Arguments:
//
// Arg 0 to Arg 5
// EntryPoint
// GlobalPointer
// StackPointer
// BackingStorePointer
//
// Return Value: EFI_STATUS
//
//--
NESTED_ENTRY(HalpCallEfiPhysicalEx)
NESTED_SETUP(8,2,0,0)
//
// Aliases
//
rSaveEP = t22
rSaveGP = t21
rSaveA5 = t20
rSaveA4 = t19
rSaveA3 = t18
rSaveA2 = t17
rSaveA1 = t16
rSaveA0 = t15
rSaveSp = t14
rSaveBSP = t13
rSavePfs = t12
rSaveBrp = t11
rSaveRSC = t10
rSaveRNAT = t9
rSavePSR = t8
rNewSp = t7
rNewBSP = t6
rT1 = t1
rT2 = t2
rT3 = t3
// Save Arguements in static Registers
mov rSaveA0 = a0
mov rSaveA1 = a1
mov rSaveA2 = a2
mov rSaveA3 = a3
mov rSaveA4 = a4
mov rSaveA5 = a5
mov rSaveEP = a6
mov rSaveGP = a7
mov rSaveSp = sp
mov rSavePfs = ar.pfs
mov rSaveBrp = brp
//
// Retrieve the physical sp and bsp from the stack.
//
add rT1 = 16, sp
add rT2 = 24, sp
;;
ld8 rNewSp = [rT1]
ld8 rNewBSP = [rT2]
// Allocate 0
;;
alloc rT1 = 0,0,0,0
// Flush RSE
;;
flushrs
;;
mov rSavePSR = psr
movl rT2 = (1 << PSR_BN)
;;
or rSavePSR = rT2, rSavePSR // psr.bn stays on
rsm (1 << PSR_I)
mov rSaveRSC = ar.rsc
// Flush RSE to enforced lazy mode by clearing both RSC.mode bits
mov rT1 = RSC_KERNEL_DISABLED
;;
mov ar.rsc = rT1
;;
//
// save RSC, RNAT, BSP, PSR, SP in the allocated space during initialization
//
mov rSaveBSP = ar.bsp
mov rSaveRNAT = ar.rnat
//
// IC = 0; I = 0;
//
;;
rsm (1 << PSR_IC)
;;
//
// IIP = HceContinuePhysical: IPSR is physical
//
movl rT1 = (1 << PSR_IT) | (1 << PSR_RT) | (1 << PSR_DT) | (1 << PSR_I)
movl rT2 = 0xffffffffffffffff
;;
xor rT1 = rT1, rT2
;;
and rT1 = rT1, rSavePSR // rT1 = old PSR & zero it, dt, rt, i
srlz.i
;;
mov cr.ipsr = rT1
mov cr.ifs = zero
;;
movl rT2 = HceContinuePhysical
movl rT3 = 0xe0000000ffffffff
;;
and rT2 = rT2, rT3
;;
tpa rT2 = rT2 // phys address of new ip
;;
mov cr.iip = rT2
;;
rfi
;;
//
// Now in physical mode, ic = 1, i = 0
//
HceContinuePhysical::
//
// Switch to new bsp, sp
//
mov sp = rNewSp
mov ar.bspstore = rNewBSP
;;
mov ar.rnat = zero
;;
//
// Enable RSC
//
mov ar.rsc = RSC_KERNEL
//
// Allocate frame on new bsp
//
;;
alloc rT1 = ar.pfs,0,7,6,0
//
// Save caller's state in register stack
//
mov loc0 = rSaveRNAT
mov loc1 = rSaveSp
mov loc2 = rSaveBSP
mov loc3 = rSaveRSC
mov loc4 = rSaveBrp
mov loc5 = rSavePfs
mov loc6 = rSavePSR
;;
// Setup Arguements
mov out0 = rSaveA0
mov out1 = rSaveA1
mov out2 = rSaveA2
mov out3 = rSaveA3
mov out4 = rSaveA4
mov out5 = rSaveA5
movl rT1 = HceEfiReturnAddress
movl rT2 = 0xe0000000FFFFFFFF
;;
and rT2 = rT2, rT1
;;
tpa rT2 = rT2
;;
mov brp = rT2
mov gp = rSaveGP
mov bt0 = rSaveEP
;;
br.call.sptk brp = bt0
;;
HceEfiReturnAddress::
//
// In physical mode: switch to virtual
//
//
// Restore saved state
//
mov rSaveRNAT = loc0
mov rSaveSp = loc1
mov rSaveBSP = loc2
mov rSaveRSC = loc3
mov rSaveBrp = loc4
mov rSavePfs = loc5
mov rSavePSR = loc6
;;
//
// Restore BSP, SP
//
;;
mov ar.rsc = RSC_KERNEL_DISABLED
;;
alloc rT1 = 0,0,0,0
;;
mov ar.bspstore = rSaveBSP
;;
mov ar.rnat = rSaveRNAT
mov sp = rSaveSp
;;
rsm (1 << PSR_IC)
;;
movl rT1 = HceContinueVirtual
movl rT2 = 0xe0000000ffffffff
;;
and rT1 = rT2, rT1
;;
srlz.i
;;
mov cr.iip = rT1
mov cr.ipsr = rSavePSR
mov cr.ifs = zero
;;
rfi
;;
//
// Now in virtual mode, ic = 1, i = 1
//
HceContinueVirtual::
//
// Restore psf, brp and return
//
mov ar.rsc = rSaveRSC
;;
mov ar.pfs = rSavePfs
mov brp = rSaveBrp
;;
br.ret.sptk brp
NESTED_EXIT(HalpCallEfiPhysicalEx)
//++
//
// VOID
// HalpCallEfiVirtual(
// ULONGLONG a0, /* Arg 1 */
// ULONGLONG a1, /* Arg 2 */
// ULONGLONG a2, /* Arg 3 */
// ULONGLONG a3, /* Arg 4 */
// ULONGLONG a4, /* Arg 5 */
// ULONGLONG a5, /* Arg 6 */
// ULONGLONG a6, /* Entry Point */
// ULONGLONG a7 /* GP */
// );
//
// Routine Description:
//
// Return Values:
// r8->r11 contain the 4 64-bit return values, r8 is the status
//--
NESTED_ENTRY(HalpCallEfiVirtual)
NESTED_SETUP(8,2,8,0)
// copy args to outs
mov out0 = a0
mov out1 = a1
mov out2 = a2
mov out3 = a3
mov out4 = a4
mov out5 = a5
mov out6 = a6
mov out7 = a7
;;
// Simply load the address and branch to it
mov gp = a7
;;
mov bt0 = a6
;;
br.call.sptk brp = bt0
;;
NESTED_RETURN
NESTED_EXIT(HalpCallEfiVirtual)