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// $FreeBSD: release/9.1.0/sys/ia64/ia64/setjmp.S 139790 2005-01-06 22:18:23Z imp $ //- // Copyright (c) 1999, 2000 // Intel Corporation. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // 1. Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // // 3. All advertising materials mentioning features or use of this software // must display the following acknowledgement: // // This product includes software developed by Intel Corporation and // its contributors. // // 4. Neither the name of Intel Corporation or its contributors may be // used to endorse or promote products derived from this software // without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY INTEL CORPORATION AND CONTRIBUTORS ``AS IS'' // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE // ARE DISCLAIMED. IN NO EVENT SHALL INTEL CORPORATION OR CONTRIBUTORS BE // LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR // CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF // SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN // CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF // THE POSSIBILITY OF SUCH DAMAGE. // // // // Module Name: // // setjmp.s // // Abstract: // // Contains an implementation of setjmp and longjmp for the // IA-64 architecture. .file "setjmp.s" #include <machine/asm.h> #include <machine/setjmp.h> // int setjmp(struct jmp_buffer *) // // Setup a non-local goto. // // Description: // // SetJump stores the current register set in the area pointed to // by "save". It returns zero. Subsequent calls to "LongJump" will // restore the registers and return non-zero to the same location. // // On entry, r32 contains the pointer to the jmp_buffer // ENTRY(setjmp, 1) // // Make sure buffer is aligned at 16byte boundary // add r10 = -0x10,r0 ;; // mask the lower 4 bits and r32 = r32, r10;; add r32 = 0x10, r32;; // move to next 16 byte boundary add r10 = J_PREDS, r32 // skip Unats & pfs save area add r11 = J_BSP, r32 // // save immediate context // mov r2 = ar.bsp // save backing store pointer mov r3 = pr // save predicates flushrs ;; // // save user Unat register // mov r16 = ar.lc // save loop count register mov r14 = ar.unat // save user Unat register st8 [r10] = r3, J_LC-J_PREDS st8 [r11] = r2, J_R4-J_BSP ;; st8 [r10] = r16, J_R5-J_LC st8 [r32] = r14, J_NATS // Note: Unat at the // beginning of the save area mov r15 = ar.pfs ;; // // save preserved general registers & NaT's // st8.spill [r11] = r4, J_R6-J_R4 ;; st8.spill [r10] = r5, J_R7-J_R5 ;; st8.spill [r11] = r6, J_SP-J_R6 ;; st8.spill [r10] = r7, J_F3-J_R7 ;; st8.spill [r11] = sp, J_F2-J_SP ;; // // save spilled Unat and pfs registers // mov r2 = ar.unat // save Unat register after spill ;; st8 [r32] = r2, J_PFS-J_NATS // save unat for spilled regs ;; st8 [r32] = r15 // save pfs // // save floating registers // stf.spill [r11] = f2, J_F4-J_F2 stf.spill [r10] = f3, J_F5-J_F3 ;; stf.spill [r11] = f4, J_F16-J_F4 stf.spill [r10] = f5, J_F17-J_F5 ;; stf.spill [r11] = f16, J_F18-J_F16 stf.spill [r10] = f17, J_F19-J_F17 ;; stf.spill [r11] = f18, J_F20-J_F18 stf.spill [r10] = f19, J_F21-J_F19 ;; stf.spill [r11] = f20, J_F22-J_F20 stf.spill [r10] = f21, J_F23-J_F21 ;; stf.spill [r11] = f22, J_F24-J_F22 stf.spill [r10] = f23, J_F25-J_F23 ;; stf.spill [r11] = f24, J_F26-J_F24 stf.spill [r10] = f25, J_F27-J_F25 ;; stf.spill [r11] = f26, J_F28-J_F26 stf.spill [r10] = f27, J_F29-J_F27 ;; stf.spill [r11] = f28, J_F30-J_F28 stf.spill [r10] = f29, J_F31-J_F29 ;; stf.spill [r11] = f30, J_FPSR-J_F30 stf.spill [r10] = f31, J_B0-J_F31 // size of f31 + fpsr // // save FPSR register & branch registers // mov r2 = ar.fpsr // save fpsr register mov r3 = b0 ;; st8 [r11] = r2, J_B1-J_FPSR st8 [r10] = r3, J_B2-J_B0 mov r2 = b1 mov r3 = b2 ;; st8 [r11] = r2, J_B3-J_B1 st8 [r10] = r3, J_B4-J_B2 mov r2 = b3 mov r3 = b4 ;; st8 [r11] = r2, J_B5-J_B3 st8 [r10] = r3 mov r2 = b5 ;; st8 [r11] = r2 ;; // // return // mov r8 = r0 // return 0 from setjmp mov ar.unat = r14 // restore unat br.ret.sptk b0 END(setjmp) // // void longjmp(struct jmp_buffer *, int val) // // Perform a non-local goto. // // Description: // // LongJump initializes the register set to the values saved by a // previous 'SetJump' and jumps to the return location saved by that // 'SetJump'. This has the effect of unwinding the stack and returning // for a second time to the 'SetJump'. // ENTRY(longjmp, 2) // // Make sure buffer is aligned at 16byte boundary // add r10 = -0x10,r0 ;; // mask the lower 4 bits and r32 = r32, r10;; add r32 = 0x10, r32;; // move to next 16 byte boundary // // caching the return value as we do invala in the end // mov r8 = r33 // return value // // get immediate context // mov r14 = ar.rsc // get user RSC conf add r10 = J_PFS, r32 // get address of pfs add r11 = J_NATS, r32 ;; ld8 r15 = [r10], J_BSP-J_PFS // get pfs ld8 r2 = [r11], J_LC-J_NATS // get unat for spilled regs ;; mov ar.unat = r2 ;; ld8 r16 = [r10], J_PREDS-J_BSP // get backing store pointer mov ar.rsc = r0 // put RSE in enforced lazy mov ar.pfs = r15 ;; // // while returning from longjmp the BSPSTORE and BSP needs to be // same and discard all the registers allocated after we did // setjmp. Also, we need to generate the RNAT register since we // did not flushed the RSE on setjmp. // mov r17 = ar.bspstore // get current BSPSTORE ;; cmp.ltu p6,p7 = r17, r16 // is it less than BSP of (p6) br.spnt.few .flush_rse mov r19 = ar.rnat // get current RNAT ;; loadrs // invalidate dirty regs br.sptk.many .restore_rnat // restore RNAT .flush_rse: flushrs ;; mov r19 = ar.rnat // get current RNAT mov r17 = r16 // current BSPSTORE ;; .restore_rnat: // // check if RNAT is saved between saved BSP and curr BSPSTORE // mov r18 = 0x3f ;; dep r18 = r18,r16,3,6 // get RNAT address ;; cmp.ltu p8,p9 = r18, r17 // RNAT saved on RSE ;; (p8) ld8 r19 = [r18] // get RNAT from RSE ;; mov ar.bspstore = r16 // set new BSPSTORE ;; mov ar.rnat = r19 // restore RNAT mov ar.rsc = r14 // restore RSC conf ld8 r3 = [r11], J_R4-J_LC // get lc register ld8 r2 = [r10], J_R5-J_PREDS // get predicates ;; mov pr = r2, -1 mov ar.lc = r3 // // restore preserved general registers & NaT's // ld8.fill r4 = [r11], J_R6-J_R4 ;; ld8.fill r5 = [r10], J_R7-J_R5 ld8.fill r6 = [r11], J_SP-J_R6 ;; ld8.fill r7 = [r10], J_F2-J_R7 ld8.fill sp = [r11], J_F3-J_SP ;; // // restore floating registers // ldf.fill f2 = [r10], J_F4-J_F2 ldf.fill f3 = [r11], J_F5-J_F3 ;; ldf.fill f4 = [r10], J_F16-J_F4 ldf.fill f5 = [r11], J_F17-J_F5 ;; ldf.fill f16 = [r10], J_F18-J_F16 ldf.fill f17 = [r11], J_F19-J_F17 ;; ldf.fill f18 = [r10], J_F20-J_F18 ldf.fill f19 = [r11], J_F21-J_F19 ;; ldf.fill f20 = [r10], J_F22-J_F20 ldf.fill f21 = [r11], J_F23-J_F21 ;; ldf.fill f22 = [r10], J_F24-J_F22 ldf.fill f23 = [r11], J_F25-J_F23 ;; ldf.fill f24 = [r10], J_F26-J_F24 ldf.fill f25 = [r11], J_F27-J_F25 ;; ldf.fill f26 = [r10], J_F28-J_F26 ldf.fill f27 = [r11], J_F29-J_F27 ;; ldf.fill f28 = [r10], J_F30-J_F28 ldf.fill f29 = [r11], J_F31-J_F29 ;; ldf.fill f30 = [r10], J_FPSR-J_F30 ldf.fill f31 = [r11], J_B0-J_F31 ;; // // restore branch registers and fpsr // ld8 r16 = [r10], J_B1-J_FPSR // get fpsr ld8 r17 = [r11], J_B2-J_B0 // get return pointer ;; mov ar.fpsr = r16 mov b0 = r17 ld8 r2 = [r10], J_B3-J_B1 ld8 r3 = [r11], J_B4-J_B2 ;; mov b1 = r2 mov b2 = r3 ld8 r2 = [r10], J_B5-J_B3 ld8 r3 = [r11] ;; mov b3 = r2 mov b4 = r3 ld8 r2 = [r10] ld8 r21 = [r32] // get user unat ;; mov b5 = r2 mov ar.unat = r21 // // invalidate ALAT // invala ;; br.ret.sptk b0 END(longjmp)