1*2a5b63aaSmartin// 2*2a5b63aaSmartin// Copyright (c) 1999, 2000 3*2a5b63aaSmartin// Intel Corporation. 4*2a5b63aaSmartin// All rights reserved. 5*2a5b63aaSmartin// 6*2a5b63aaSmartin// Redistribution and use in source and binary forms, with or without 7*2a5b63aaSmartin// modification, are permitted provided that the following conditions 8*2a5b63aaSmartin// are met: 9*2a5b63aaSmartin// 10*2a5b63aaSmartin// 1. Redistributions of source code must retain the above copyright 11*2a5b63aaSmartin// notice, this list of conditions and the following disclaimer. 12*2a5b63aaSmartin// 13*2a5b63aaSmartin// 2. Redistributions in binary form must reproduce the above copyright 14*2a5b63aaSmartin// notice, this list of conditions and the following disclaimer in the 15*2a5b63aaSmartin// documentation and/or other materials provided with the distribution. 16*2a5b63aaSmartin// 17*2a5b63aaSmartin// 3. All advertising materials mentioning features or use of this software 18*2a5b63aaSmartin// must display the following acknowledgement: 19*2a5b63aaSmartin// 20*2a5b63aaSmartin// This product includes software developed by Intel Corporation and 21*2a5b63aaSmartin// its contributors. 22*2a5b63aaSmartin// 23*2a5b63aaSmartin// 4. Neither the name of Intel Corporation or its contributors may be 24*2a5b63aaSmartin// used to endorse or promote products derived from this software 25*2a5b63aaSmartin// without specific prior written permission. 26*2a5b63aaSmartin// 27*2a5b63aaSmartin// THIS SOFTWARE IS PROVIDED BY INTEL CORPORATION AND CONTRIBUTORS ``AS IS'' 28*2a5b63aaSmartin// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 29*2a5b63aaSmartin// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 30*2a5b63aaSmartin// ARE DISCLAIMED. IN NO EVENT SHALL INTEL CORPORATION OR CONTRIBUTORS BE 31*2a5b63aaSmartin// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 32*2a5b63aaSmartin// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 33*2a5b63aaSmartin// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 34*2a5b63aaSmartin// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 35*2a5b63aaSmartin// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 36*2a5b63aaSmartin// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 37*2a5b63aaSmartin// THE POSSIBILITY OF SUCH DAMAGE. 38*2a5b63aaSmartin// 39*2a5b63aaSmartin// 40*2a5b63aaSmartin 41*2a5b63aaSmartin// 42*2a5b63aaSmartin// Module Name: 43*2a5b63aaSmartin// 44*2a5b63aaSmartin// setjmp.s 45*2a5b63aaSmartin// 46*2a5b63aaSmartin// Abstract: 47*2a5b63aaSmartin// 48*2a5b63aaSmartin// Contains an implementation of setjmp and longjmp for the 49*2a5b63aaSmartin// IA-64 architecture. 50*2a5b63aaSmartin 51*2a5b63aaSmartin .file "setjmp.s" 52*2a5b63aaSmartin 53*2a5b63aaSmartin#include <machine/asm.h> 54*2a5b63aaSmartinRCSID("$NetBSD: _setjmp.S,v 1.1 2015/04/17 12:51:05 martin Exp $"); 55*2a5b63aaSmartin 56*2a5b63aaSmartin#include <machine/setjmp.h> 57*2a5b63aaSmartin 58*2a5b63aaSmartin// int _setjmp(struct jmp_buffer *) 59*2a5b63aaSmartin// 60*2a5b63aaSmartin// Setup a non-local goto. 61*2a5b63aaSmartin// 62*2a5b63aaSmartin// Description: 63*2a5b63aaSmartin// 64*2a5b63aaSmartin// SetJump stores the current register set in the area pointed to 65*2a5b63aaSmartin// by "save". It returns zero. Subsequent calls to "LongJump" will 66*2a5b63aaSmartin// restore the registers and return non-zero to the same location. 67*2a5b63aaSmartin// 68*2a5b63aaSmartin// On entry, r32 contains the pointer to the jmp_buffer 69*2a5b63aaSmartin// 70*2a5b63aaSmartin 71*2a5b63aaSmartinENTRY(_setjmp, 1) 72*2a5b63aaSmartin add r10 = J_PREDS, r32 // skip Unats & pfs save area 73*2a5b63aaSmartin add r11 = J_BSP, r32 74*2a5b63aaSmartin // 75*2a5b63aaSmartin // save immediate context 76*2a5b63aaSmartin // 77*2a5b63aaSmartin mov r2 = ar.bsp // save backing store pointer 78*2a5b63aaSmartin mov r3 = pr // save predicates 79*2a5b63aaSmartin flushrs 80*2a5b63aaSmartin ;; 81*2a5b63aaSmartin // 82*2a5b63aaSmartin // save user Unat register 83*2a5b63aaSmartin // 84*2a5b63aaSmartin mov r16 = ar.lc // save loop count register 85*2a5b63aaSmartin mov r14 = ar.unat // save user Unat register 86*2a5b63aaSmartin 87*2a5b63aaSmartin st8 [r10] = r3, J_LC-J_PREDS 88*2a5b63aaSmartin st8 [r11] = r2, J_R4-J_BSP 89*2a5b63aaSmartin ;; 90*2a5b63aaSmartin st8 [r10] = r16, J_R5-J_LC 91*2a5b63aaSmartin st8 [r32] = r14, J_NATS // Note: Unat at the 92*2a5b63aaSmartin // beginning of the save area 93*2a5b63aaSmartin mov r15 = ar.pfs 94*2a5b63aaSmartin ;; 95*2a5b63aaSmartin // 96*2a5b63aaSmartin // save preserved general registers & NaT's 97*2a5b63aaSmartin // 98*2a5b63aaSmartin .mem.offset 0,0 99*2a5b63aaSmartin st8.spill [r11] = r4, J_R6-J_R4 100*2a5b63aaSmartin .mem.offset 8,0 101*2a5b63aaSmartin st8.spill [r10] = r5, J_R7-J_R5 102*2a5b63aaSmartin ;; 103*2a5b63aaSmartin .mem.offset 16,0 104*2a5b63aaSmartin st8.spill [r11] = r6, J_SP-J_R6 105*2a5b63aaSmartin .mem.offset 24,0 106*2a5b63aaSmartin st8.spill [r10] = r7, J_F3-J_R7 107*2a5b63aaSmartin ;; 108*2a5b63aaSmartin st8.spill [r11] = sp, J_F2-J_SP 109*2a5b63aaSmartin mov r16 = ar.rsc 110*2a5b63aaSmartin ;; 111*2a5b63aaSmartin // 112*2a5b63aaSmartin // save spilled Unat and pfs registers 113*2a5b63aaSmartin // 114*2a5b63aaSmartin mov r2 = ar.unat // save Unat register after spill 115*2a5b63aaSmartin mov ar.rsc = r0 116*2a5b63aaSmartin ;; 117*2a5b63aaSmartin st8 [r32] = r2, J_PFS-J_NATS // save unat for spilled regs 118*2a5b63aaSmartin mov r17 = ar.rnat 119*2a5b63aaSmartin ;; 120*2a5b63aaSmartin st8 [r32] = r15, J_RNAT-J_PFS // save pfs 121*2a5b63aaSmartin mov ar.rsc = r16 122*2a5b63aaSmartin // 123*2a5b63aaSmartin // save floating registers 124*2a5b63aaSmartin // 125*2a5b63aaSmartin stf.spill [r11] = f2, J_F4-J_F2 126*2a5b63aaSmartin stf.spill [r10] = f3, J_F5-J_F3 127*2a5b63aaSmartin ;; 128*2a5b63aaSmartin stf.spill [r11] = f4, J_F16-J_F4 129*2a5b63aaSmartin stf.spill [r10] = f5, J_F17-J_F5 130*2a5b63aaSmartin ;; 131*2a5b63aaSmartin stf.spill [r11] = f16, J_F18-J_F16 132*2a5b63aaSmartin stf.spill [r10] = f17, J_F19-J_F17 133*2a5b63aaSmartin ;; 134*2a5b63aaSmartin stf.spill [r11] = f18, J_F20-J_F18 135*2a5b63aaSmartin stf.spill [r10] = f19, J_F21-J_F19 136*2a5b63aaSmartin ;; 137*2a5b63aaSmartin stf.spill [r11] = f20, J_F22-J_F20 138*2a5b63aaSmartin stf.spill [r10] = f21, J_F23-J_F21 139*2a5b63aaSmartin ;; 140*2a5b63aaSmartin stf.spill [r11] = f22, J_F24-J_F22 141*2a5b63aaSmartin stf.spill [r10] = f23, J_F25-J_F23 142*2a5b63aaSmartin ;; 143*2a5b63aaSmartin stf.spill [r11] = f24, J_F26-J_F24 144*2a5b63aaSmartin stf.spill [r10] = f25, J_F27-J_F25 145*2a5b63aaSmartin ;; 146*2a5b63aaSmartin stf.spill [r11] = f26, J_F28-J_F26 147*2a5b63aaSmartin stf.spill [r10] = f27, J_F29-J_F27 148*2a5b63aaSmartin ;; 149*2a5b63aaSmartin stf.spill [r11] = f28, J_F30-J_F28 150*2a5b63aaSmartin stf.spill [r10] = f29, J_F31-J_F29 151*2a5b63aaSmartin ;; 152*2a5b63aaSmartin stf.spill [r11] = f30, J_FPSR-J_F30 153*2a5b63aaSmartin stf.spill [r10] = f31, J_B0-J_F31 // size of f31 + fpsr 154*2a5b63aaSmartin ;; 155*2a5b63aaSmartin st8 [r32] = r17 156*2a5b63aaSmartin // 157*2a5b63aaSmartin // save FPSR register & branch registers 158*2a5b63aaSmartin // 159*2a5b63aaSmartin mov r2 = ar.fpsr // save fpsr register 160*2a5b63aaSmartin mov r3 = b0 161*2a5b63aaSmartin ;; 162*2a5b63aaSmartin st8 [r11] = r2, J_B1-J_FPSR 163*2a5b63aaSmartin st8 [r10] = r3, J_B2-J_B0 164*2a5b63aaSmartin mov r2 = b1 165*2a5b63aaSmartin mov r3 = b2 166*2a5b63aaSmartin ;; 167*2a5b63aaSmartin st8 [r11] = r2, J_B3-J_B1 168*2a5b63aaSmartin st8 [r10] = r3, J_B4-J_B2 169*2a5b63aaSmartin mov r2 = b3 170*2a5b63aaSmartin mov r3 = b4 171*2a5b63aaSmartin ;; 172*2a5b63aaSmartin st8 [r11] = r2, J_B5-J_B3 173*2a5b63aaSmartin st8 [r10] = r3 174*2a5b63aaSmartin mov r2 = b5 175*2a5b63aaSmartin ;; 176*2a5b63aaSmartin st8 [r11] = r2 177*2a5b63aaSmartin ;; 178*2a5b63aaSmartin // 179*2a5b63aaSmartin // return 180*2a5b63aaSmartin // 181*2a5b63aaSmartin mov r8 = r0 // return 0 from setjmp 182*2a5b63aaSmartin mov ar.unat = r14 // restore unat 183*2a5b63aaSmartin br.ret.sptk b0 184*2a5b63aaSmartin 185*2a5b63aaSmartinEND(_setjmp) 186*2a5b63aaSmartin 187*2a5b63aaSmartin 188*2a5b63aaSmartin// 189*2a5b63aaSmartin// void _longjmp(struct jmp_buffer *, int val) 190*2a5b63aaSmartin// 191*2a5b63aaSmartin// Perform a non-local goto. 192*2a5b63aaSmartin// 193*2a5b63aaSmartin// Description: 194*2a5b63aaSmartin// 195*2a5b63aaSmartin// LongJump initializes the register set to the values saved by a 196*2a5b63aaSmartin// previous 'SetJump' and jumps to the return location saved by that 197*2a5b63aaSmartin// 'SetJump'. This has the effect of unwinding the stack and returning 198*2a5b63aaSmartin// for a second time to the 'SetJump'. 199*2a5b63aaSmartin// 200*2a5b63aaSmartin 201*2a5b63aaSmartinENTRY(_longjmp, 2) 202*2a5b63aaSmartin mov r14 = ar.rsc // get user RSC conf 203*2a5b63aaSmartin mov r8 = r33 // return value 204*2a5b63aaSmartin add r10 = J_PFS, r32 // get address of pfs 205*2a5b63aaSmartin ;; 206*2a5b63aaSmartin mov ar.rsc = r0 207*2a5b63aaSmartin add r11 = J_NATS, r32 208*2a5b63aaSmartin add r17 = J_RNAT, r32 209*2a5b63aaSmartin ;; 210*2a5b63aaSmartin ld8 r15 = [r10], J_BSP-J_PFS // get pfs 211*2a5b63aaSmartin ld8 r2 = [r11], J_LC-J_NATS // get unat for spilled regs 212*2a5b63aaSmartin mov r31 = r32 213*2a5b63aaSmartin ;; 214*2a5b63aaSmartin loadrs 215*2a5b63aaSmartin mov ar.unat = r2 216*2a5b63aaSmartin cmp.eq p6,p0=0,r8 // Return value 0? 217*2a5b63aaSmartin ;; 218*2a5b63aaSmartin ld8 r16 = [r10], J_PREDS-J_BSP // get backing store pointer 219*2a5b63aaSmartin ld8 r17 = [r17] // ar.rnat 220*2a5b63aaSmartin mov ar.pfs = r15 221*2a5b63aaSmartin ;; 222*2a5b63aaSmartin mov ar.bspstore = r16 223*2a5b63aaSmartin(p6) add r8 = 1, r0 224*2a5b63aaSmartin ;; 225*2a5b63aaSmartin mov ar.rnat = r17 226*2a5b63aaSmartin mov ar.rsc = r14 // restore RSC conf 227*2a5b63aaSmartin 228*2a5b63aaSmartin ld8 r3 = [r11], J_R4-J_LC // get lc register 229*2a5b63aaSmartin ld8 r2 = [r10], J_R5-J_PREDS // get predicates 230*2a5b63aaSmartin ;; 231*2a5b63aaSmartin mov pr = r2, -1 232*2a5b63aaSmartin mov ar.lc = r3 233*2a5b63aaSmartin // 234*2a5b63aaSmartin // restore preserved general registers & NaT's 235*2a5b63aaSmartin // 236*2a5b63aaSmartin ld8.fill r4 = [r11], J_R6-J_R4 237*2a5b63aaSmartin ;; 238*2a5b63aaSmartin ld8.fill r5 = [r10], J_R7-J_R5 239*2a5b63aaSmartin ld8.fill r6 = [r11], J_SP-J_R6 240*2a5b63aaSmartin ;; 241*2a5b63aaSmartin ld8.fill r7 = [r10], J_F2-J_R7 242*2a5b63aaSmartin ld8.fill sp = [r11], J_F3-J_SP 243*2a5b63aaSmartin ;; 244*2a5b63aaSmartin // 245*2a5b63aaSmartin // restore floating registers 246*2a5b63aaSmartin // 247*2a5b63aaSmartin ldf.fill f2 = [r10], J_F4-J_F2 248*2a5b63aaSmartin ldf.fill f3 = [r11], J_F5-J_F3 249*2a5b63aaSmartin ;; 250*2a5b63aaSmartin ldf.fill f4 = [r10], J_F16-J_F4 251*2a5b63aaSmartin ldf.fill f5 = [r11], J_F17-J_F5 252*2a5b63aaSmartin ;; 253*2a5b63aaSmartin ldf.fill f16 = [r10], J_F18-J_F16 254*2a5b63aaSmartin ldf.fill f17 = [r11], J_F19-J_F17 255*2a5b63aaSmartin ;; 256*2a5b63aaSmartin ldf.fill f18 = [r10], J_F20-J_F18 257*2a5b63aaSmartin ldf.fill f19 = [r11], J_F21-J_F19 258*2a5b63aaSmartin ;; 259*2a5b63aaSmartin ldf.fill f20 = [r10], J_F22-J_F20 260*2a5b63aaSmartin ldf.fill f21 = [r11], J_F23-J_F21 261*2a5b63aaSmartin ;; 262*2a5b63aaSmartin ldf.fill f22 = [r10], J_F24-J_F22 263*2a5b63aaSmartin ldf.fill f23 = [r11], J_F25-J_F23 264*2a5b63aaSmartin ;; 265*2a5b63aaSmartin ldf.fill f24 = [r10], J_F26-J_F24 266*2a5b63aaSmartin ldf.fill f25 = [r11], J_F27-J_F25 267*2a5b63aaSmartin ;; 268*2a5b63aaSmartin ldf.fill f26 = [r10], J_F28-J_F26 269*2a5b63aaSmartin ldf.fill f27 = [r11], J_F29-J_F27 270*2a5b63aaSmartin ;; 271*2a5b63aaSmartin ldf.fill f28 = [r10], J_F30-J_F28 272*2a5b63aaSmartin ldf.fill f29 = [r11], J_F31-J_F29 273*2a5b63aaSmartin ;; 274*2a5b63aaSmartin ldf.fill f30 = [r10], J_FPSR-J_F30 275*2a5b63aaSmartin ldf.fill f31 = [r11], J_B0-J_F31 ;; 276*2a5b63aaSmartin 277*2a5b63aaSmartin // 278*2a5b63aaSmartin // restore branch registers and fpsr 279*2a5b63aaSmartin // 280*2a5b63aaSmartin ld8 r16 = [r10], J_B1-J_FPSR // get fpsr 281*2a5b63aaSmartin ld8 r17 = [r11], J_B2-J_B0 // get return pointer 282*2a5b63aaSmartin ;; 283*2a5b63aaSmartin mov ar.fpsr = r16 284*2a5b63aaSmartin mov b0 = r17 285*2a5b63aaSmartin ld8 r2 = [r10], J_B3-J_B1 286*2a5b63aaSmartin ld8 r3 = [r11], J_B4-J_B2 287*2a5b63aaSmartin ;; 288*2a5b63aaSmartin mov b1 = r2 289*2a5b63aaSmartin mov b2 = r3 290*2a5b63aaSmartin ld8 r2 = [r10], J_B5-J_B3 291*2a5b63aaSmartin ld8 r3 = [r11] 292*2a5b63aaSmartin ;; 293*2a5b63aaSmartin mov b3 = r2 294*2a5b63aaSmartin mov b4 = r3 295*2a5b63aaSmartin ld8 r2 = [r10] 296*2a5b63aaSmartin ld8 r21 = [r31] // get user unat 297*2a5b63aaSmartin ;; 298*2a5b63aaSmartin mov b5 = r2 299*2a5b63aaSmartin mov ar.unat = r21 300*2a5b63aaSmartin 301*2a5b63aaSmartin // 302*2a5b63aaSmartin // invalidate ALAT 303*2a5b63aaSmartin // 304*2a5b63aaSmartin invala ;; 305*2a5b63aaSmartin 306*2a5b63aaSmartin br.ret.sptk b0 307*2a5b63aaSmartin 308*2a5b63aaSmartinEND(_longjmp) 309