/* Copyright (C) 2012-2016 Free Software Foundation, Inc. Contributed by Richard Henderson . This file is part of the GNU Transactional Memory Library (libitm). Libitm is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Libitm is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. Under Section 7 of GPL version 3, you are granted additional permissions described in the GCC Runtime Library Exception, version 3.1, as published by the Free Software Foundation. You should have received a copy of the GNU General Public License and a copy of the GCC Runtime Library Exception along with this program; see the files COPYING3 and COPYING.RUNTIME respectively. If not, see . */ .text #include "asmcfi.h" #if defined(__powerpc64__) && _CALL_ELF == 2 .macro FUNC name .globl \name .type \name, @function \name: 0: addis 2,12,(.TOC.-0b)@ha addi 2,2,(.TOC.-0b)@l .localentry \name, . - \name .endm .macro END name .size \name, . - \name .endm .macro HIDDEN name .hidden \name .endm .macro CALL name bl \name nop .endm #elif defined(__powerpc64__) && defined(__ELF__) .macro FUNC name .globl \name, .\name .section ".opd","aw" .align 3 \name: .quad .\name, .TOC.@tocbase, 0 .size \name, 24 .type .\name, @function .text .\name: .endm .macro END name .size .\name, . - .\name .endm .macro HIDDEN name .hidden \name, .\name .endm .macro CALL name bl \name nop .endm #elif defined(__ELF__) .macro FUNC name .globl \name .type \name, @function \name: .endm .macro END name .size \name, . - \name .endm .macro HIDDEN name .hidden \name .endm .macro CALL name bl \name .endm #elif defined(_CALL_DARWIN) .macro FUNC .globl _$0 _$0: .endmacro .macro END .endmacro .macro HIDDEN .private_extern _$0 .endmacro .macro CALL bl _$0 .endmacro # ifdef __ppc64__ .machine ppc64 # else .machine ppc7400 # endif #else #error "unsupported system" #endif /* Parameterize the naming of registers. */ #if defined(__ELF__) # define r(N) %r##N # define f(N) %f##N # define v(N) %v##N #elif defined(__MACH__) # define r(N) r##N # define f(N) f##N # define v(N) v##N #else # define r(N) N # define f(N) N # define v(N) N #endif /* Parameterize the code for 32-bit vs 64-bit. */ #if defined(__powerpc64__) || defined(__ppc64__) #define ldreg ld #define streg std #define stregu stdu #define WS 8 #else #define ldreg lwz #define streg stw #define stregu stwu #define WS 4 #endif /* Parameterize the code for call frame constants. */ #if defined(_CALL_AIXDESC) # define BASE 6*WS # define LR_SAVE 2*WS #elif _CALL_ELF == 2 # define BASE 6*WS # define LR_SAVE 2*WS #elif defined(_CALL_SYSV) # define BASE 2*WS # define LR_SAVE 1*WS #elif defined(_CALL_DARWIN) # define BASE (6*WS + 2*WS) # define LR_SAVE 2*WS #else # error "unsupported system" #endif #if defined(__ALTIVEC__) || defined(__VSX__) # define OFS_VR 0 # define OFS_VSCR 12*16 # define OFS_VR_END OFS_VSCR + 8 #else # define OFS_VR_END 0 #endif #ifndef _SOFT_FLOAT # define OFS_FR OFS_VR_END # define OFS_FPSCR OFS_FR + 18*8 # define OFS_FR_END OFS_FPSCR + 8 #else # define OFS_FR_END OFS_VR_END #endif #define OFS_GR OFS_FR_END #define OFS_CFA OFS_GR + 18*WS #define OFS_LR OFS_CFA + WS #define OFS_TOC OFS_LR + WS #define OFS_CR OFS_TOC + WS #define OFS_END (((OFS_CR + WS + 15) / 16) * 16) #define FRAME (((BASE + OFS_END + 15) / 16) * 16) #define VRSAVE 256 .align 4 FUNC _ITM_beginTransaction cfi_startproc mflr r(0) mfcr r(5) addi r(4), r(1), -OFS_END mr r(6), r(1) streg r(0), LR_SAVE(r(1)) stregu r(1), -FRAME(r(1)) cfi_def_cfa_offset(FRAME) cfi_offset(65, LR_SAVE) streg r(6), OFS_CFA(r(4)) streg r(0), OFS_LR(r(4)) #ifdef _CALL_DARWIN streg r(13), OFS_TOC(r(4)) #else streg r(2), OFS_TOC(r(4)) #endif streg r(5), OFS_CR(r(4)) streg r(14), 0*WS+OFS_GR(r(4)) streg r(15), 1*WS+OFS_GR(r(4)) streg r(16), 2*WS+OFS_GR(r(4)) streg r(17), 3*WS+OFS_GR(r(4)) streg r(18), 4*WS+OFS_GR(r(4)) streg r(19), 5*WS+OFS_GR(r(4)) streg r(20), 6*WS+OFS_GR(r(4)) streg r(21), 7*WS+OFS_GR(r(4)) streg r(22), 8*WS+OFS_GR(r(4)) streg r(23), 9*WS+OFS_GR(r(4)) streg r(24), 10*WS+OFS_GR(r(4)) streg r(25), 11*WS+OFS_GR(r(4)) streg r(26), 12*WS+OFS_GR(r(4)) streg r(27), 13*WS+OFS_GR(r(4)) streg r(28), 14*WS+OFS_GR(r(4)) streg r(29), 15*WS+OFS_GR(r(4)) streg r(30), 16*WS+OFS_GR(r(4)) streg r(31), 17*WS+OFS_GR(r(4)) #ifndef _SOFT_FLOAT /* ??? Determine when FPRs not present. */ /* ??? Test r(3) for pr_hasNoFloatUpdate and skip the fp save. This is not yet set by the compiler. */ mffs f(0) stfd f(14), 0+OFS_FR(r(4)) stfd f(15), 8+OFS_FR(r(4)) stfd f(16), 16+OFS_FR(r(4)) stfd f(17), 24+OFS_FR(r(4)) stfd f(18), 32+OFS_FR(r(4)) stfd f(19), 40+OFS_FR(r(4)) stfd f(20), 48+OFS_FR(r(4)) stfd f(21), 56+OFS_FR(r(4)) stfd f(22), 64+OFS_FR(r(4)) stfd f(23), 72+OFS_FR(r(4)) stfd f(24), 80+OFS_FR(r(4)) stfd f(25), 88+OFS_FR(r(4)) stfd f(26), 96+OFS_FR(r(4)) stfd f(27),104+OFS_FR(r(4)) stfd f(28),112+OFS_FR(r(4)) stfd f(29),120+OFS_FR(r(4)) stfd f(30),128+OFS_FR(r(4)) stfd f(31),136+OFS_FR(r(4)) stfd f(0), OFS_FPSCR(r(4)) #endif #if defined(__ALTIVEC__) /* ??? Determine when VRs not present. */ /* ??? Test r(3) for pr_hasNoVectorUpdate and skip the vr save. This is not yet set by the compiler. */ addi r(5), r(4), OFS_VR addi r(6), r(4), OFS_VR+16 mfspr r(0), VRSAVE stvx v(20), 0, r(5) addi r(5), r(5), 32 stvx v(21), 0, r(6) addi r(6), r(6), 32 stvx v(22), 0, r(5) addi r(5), r(5), 32 stvx v(23), 0, r(6) addi r(6), r(6), 32 stvx v(25), 0, r(5) addi r(5), r(5), 32 stvx v(26), 0, r(6) addi r(6), r(6), 32 stvx v(26), 0, r(5) addi r(5), r(5), 32 stvx v(27), 0, r(6) addi r(6), r(6), 32 stvx v(28), 0, r(5) addi r(5), r(5), 32 stvx v(29), 0, r(6) addi r(6), r(6), 32 stvx v(30), 0, r(5) stvx v(31), 0, r(6) streg r(0), OFS_VSCR(r(4)) #endif CALL GTM_begin_transaction ldreg r(0), LR_SAVE+FRAME(r(1)) mtlr r(0) addi r(1), r(1), FRAME cfi_def_cfa_offset(0) cfi_restore(65) blr cfi_endproc END _ITM_beginTransaction .align 4 HIDDEN GTM_longjmp FUNC GTM_longjmp cfi_startproc #if defined(__ALTIVEC__) || defined(__VSX__) /* ??? Determine when VRs not present. */ /* ??? Test r(5) for pr_hasNoVectorUpdate and skip the vr restore. This is not yet set by the compiler. */ addi r(6), r(4), OFS_VR addi r(7), r(4), OFS_VR+16 ldreg r(0), OFS_VSCR(r(4)) cfi_undefined(v(20)) cfi_undefined(v(21)) cfi_undefined(v(22)) cfi_undefined(v(23)) cfi_undefined(v(24)) cfi_undefined(v(25)) cfi_undefined(v(26)) cfi_undefined(v(27)) cfi_undefined(v(28)) cfi_undefined(v(29)) cfi_undefined(v(30)) cfi_undefined(v(31)) lvx v(20), 0, r(6) addi r(6), r(6), 32 lvx v(21), 0, r(7) addi r(7), r(7), 32 lvx v(22), 0, r(6) addi r(6), r(6), 32 lvx v(23), 0, r(7) addi r(7), r(7), 32 lvx v(24), 0, r(6) addi r(6), r(6), 32 lvx v(25), 0, r(7) addi r(7), r(7), 32 lvx v(26), 0, r(6) addi r(6), r(6), 32 lvx v(27), 0, r(7) addi r(7), r(7), 32 lvx v(28), 0, r(6) addi r(6), r(6), 32 lvx v(29), 0, r(7) addi r(7), r(7), 32 lvx v(30), 0, r(6) lvx v(31), 0, r(7) mtspr VRSAVE, r(0) #endif #ifndef _SOFT_FLOAT /* ??? Determine when FPRs not present. */ /* ??? Test r(5) for pr_hasNoFloatUpdate and skip the fp load. This is not yet set by the compiler. */ lfd f(0), OFS_FPSCR(r(4)) cfi_undefined(f(14)) cfi_undefined(f(15)) cfi_undefined(f(16)) cfi_undefined(f(17)) cfi_undefined(f(18)) cfi_undefined(f(19)) cfi_undefined(f(20)) cfi_undefined(f(21)) cfi_undefined(f(22)) cfi_undefined(f(23)) cfi_undefined(f(24)) cfi_undefined(f(25)) cfi_undefined(f(26)) cfi_undefined(f(27)) cfi_undefined(f(28)) cfi_undefined(f(29)) cfi_undefined(f(30)) cfi_undefined(f(31)) lfd f(14), 0+OFS_FR(r(4)) lfd f(15), 8+OFS_FR(r(4)) lfd f(16), 16+OFS_FR(r(4)) lfd f(17), 24+OFS_FR(r(4)) lfd f(18), 32+OFS_FR(r(4)) lfd f(19), 40+OFS_FR(r(4)) lfd f(20), 48+OFS_FR(r(4)) lfd f(21), 56+OFS_FR(r(4)) lfd f(22), 64+OFS_FR(r(4)) lfd f(23), 72+OFS_FR(r(4)) lfd f(24), 80+OFS_FR(r(4)) lfd f(25), 88+OFS_FR(r(4)) lfd f(26), 96+OFS_FR(r(4)) lfd f(27),104+OFS_FR(r(4)) lfd f(28),112+OFS_FR(r(4)) lfd f(29),120+OFS_FR(r(4)) lfd f(30),128+OFS_FR(r(4)) lfd f(31),136+OFS_FR(r(4)) mtfsf 0xff, f(0) #endif ldreg r(6), OFS_CFA(r(4)) ldreg r(0), OFS_LR(r(4)) #ifdef _CALL_DARWIN ldreg r(13), OFS_TOC(r(4)) #else ldreg r(2), OFS_TOC(r(4)) #endif ldreg r(7), OFS_CR(r(4)) /* At the instant we restore the LR, the only coherent view of the world we have is into the new stack frame. Define the CFA in terms of the not-yet-restored stack pointer. This will last until the end of the function. */ mtlr r(0) cfi_def_cfa(r(6), 0) cfi_undefined(r(14)) cfi_undefined(r(15)) cfi_undefined(r(16)) cfi_undefined(r(17)) cfi_undefined(r(18)) cfi_undefined(r(19)) cfi_undefined(r(20)) cfi_undefined(r(21)) cfi_undefined(r(22)) cfi_undefined(r(23)) cfi_undefined(r(24)) cfi_undefined(r(25)) cfi_undefined(r(26)) cfi_undefined(r(27)) cfi_undefined(r(28)) cfi_undefined(r(29)) cfi_undefined(r(30)) cfi_undefined(r(31)) mtcr r(7) ldreg r(14), 0*WS+OFS_GR(r(4)) ldreg r(15), 1*WS+OFS_GR(r(4)) ldreg r(16), 2*WS+OFS_GR(r(4)) ldreg r(17), 3*WS+OFS_GR(r(4)) ldreg r(18), 4*WS+OFS_GR(r(4)) ldreg r(19), 5*WS+OFS_GR(r(4)) ldreg r(20), 6*WS+OFS_GR(r(4)) ldreg r(21), 7*WS+OFS_GR(r(4)) ldreg r(22), 8*WS+OFS_GR(r(4)) ldreg r(23), 9*WS+OFS_GR(r(4)) ldreg r(24), 10*WS+OFS_GR(r(4)) ldreg r(25), 11*WS+OFS_GR(r(4)) ldreg r(26), 12*WS+OFS_GR(r(4)) ldreg r(27), 13*WS+OFS_GR(r(4)) ldreg r(28), 14*WS+OFS_GR(r(4)) ldreg r(29), 15*WS+OFS_GR(r(4)) ldreg r(30), 16*WS+OFS_GR(r(4)) ldreg r(31), 17*WS+OFS_GR(r(4)) mr r(1), r(6) blr cfi_endproc END GTM_longjmp #ifdef __linux__ .section .note.GNU-stack, "", @progbits #endif