audk/MdePkg/Library/BaseLib/Ipf/ReadAr.s

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/// @file
/// IPF specific application register reading functions
///
/// Copyright (c) 2008, Intel Corporation
/// All rights reserved. This program and the accompanying materials
/// are licensed and made available under the terms and conditions of the BSD License
/// which accompanies this distribution. The full text of the license may be found at
/// http://opensource.org/licenses/bsd-license.php
///
/// THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
/// WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
///
///
///
//---------------------------------------------------------------------------------
//++
// AsmReadApplicationRegister
//
// Reads a 64-bit application register.
//
// Reads and returns the application register specified by Index.
// If Index is invalid then 0xFFFFFFFFFFFFFFFF is returned. This function is only available on IPF.
//
// Arguments :
//
// On Entry : The index of the application register to read.
//
// Return Value: The application register specified by Index.
//
//--
//----------------------------------------------------------------------------------
.text
.type AsmReadApplicationRegister, @function
.proc AsmReadApplicationRegister
.regstk 1, 0, 0, 0
AsmReadApplicationRegister::
//
// ARs are defined in the ranges 0-44 and 64-66 (with some holes).
// Compact this list by subtracting 16 from the top range.
// 0-44, 64-66 -> 0-44, 48-50
//
mov r15=2
mov r14=pr // save predicates
cmp.leu p6,p7=64,in0 // p6 = AR# >= 64
;;
(p7) cmp.leu p7,p0=48,in0 // p7 = 32 <= AR# < 64
(p6) add in0=-16,in0 // if (AR >= 64) AR# -= 16
;;
(p7) mov r15=0 // if bad range (48-63)
;;
mov ret0=-1 // in case of illegal AR #
shl r15=r15,in0 // r15 = 0x2 << AR#
;;
mov pr=r15,-1
;;
//
// At this point the predicates contain a bit field of the
// AR desired. (The bit is the AR+1, since pr0 is always 1.)
//
.pred.rel "mutex",p1,p2,p3,p4,p5,p6,p7,p8,p17,p18,p19,p20,p22,p25,\
p26,p27,p28,p29,p30,p31,p33,p37,p41,p45,p49,p50,p51
(p1) mov ret0=ar.k0 // ar0
(p2) mov ret0=ar.k1 // ar1
(p3) mov ret0=ar.k2 // ar2
(p4) mov ret0=ar.k3 // ar3
(p5) mov ret0=ar.k4 // ar4
(p6) mov ret0=ar.k5 // ar5
(p7) mov ret0=ar.k6 // ar6
(p8) mov ret0=ar.k7 // ar7
(p17) mov ret0=ar.rsc // ar16
(p18) mov ret0=ar.bsp // ar17
(p19) mov ret0=ar.bspstore // ar18
(p20) mov ret0=ar.rnat // ar19
(p22) mov ret0=ar.fcr // ar21 [iA32]
(p25) mov ret0=ar.eflag // ar24 [iA32]
(p26) mov ret0=ar.csd // ar25 [iA32]
(p27) mov ret0=ar.ssd // ar26 [iA32]
(p28) mov ret0=ar.cflg // ar27 [iA32]
(p29) mov ret0=ar.fsr // ar28 [iA32]
(p30) mov ret0=ar.fir // ar29 [iA32]
(p31) mov ret0=ar.fdr // ar30 [iA32]
(p33) mov ret0=ar.ccv // ar32
(p37) mov ret0=ar.unat // ar36
(p41) mov ret0=ar.fpsr // ar40
(p45) mov ret0=ar.itc // ar44
//
// This is the translated (-16) range.
//
(p49) mov ret0=ar.pfs // ar64
(p50) mov ret0=ar.lc // ar65
(p51) mov ret0=ar.ec // ar66
// Restore predicates and return.
mov pr=r14,-1
br.ret.sptk b0
.endp