diff --git a/openmp/runtime/src/z_AIX_asm.S b/openmp/runtime/src/z_AIX_asm.S new file mode 100644 index 0000000000000..d711fcb7a7854 --- /dev/null +++ b/openmp/runtime/src/z_AIX_asm.S @@ -0,0 +1,410 @@ +// z_AIX_asm.S: - microtasking routines specifically +// written for Power platforms running AIX OS + +// +////===----------------------------------------------------------------------===// +//// +//// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. +//// See https://llvm.org/LICENSE.txt for license information. +//// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception +//// +////===----------------------------------------------------------------------===// +// + +// ----------------------------------------------------------------------- +// macros +// ----------------------------------------------------------------------- + +#include "kmp_config.h" + +#if KMP_OS_AIX +//------------------------------------------------------------------------ +// int +// __kmp_invoke_microtask( void (*pkfn) (int *gtid, int *tid, ...), +// int gtid, int tid, +// int argc, void *p_argv[] +// #if OMPT_SUPPORT +// , +// void **exit_frame_ptr +// #endif +// ) { +// #if OMPT_SUPPORT +// *exit_frame_ptr = OMPT_GET_FRAME_ADDRESS(0); +// #endif +// +// (*pkfn)( & gtid, & tid, p_argv[0], ... ); +// +// // FIXME: This is done at call-site and can be removed here. +// #if OMPT_SUPPORT +// *exit_frame_ptr = 0; +// #endif +// +// return 1; +// } +// +// parameters: +// r3: pkfn +// r4: gtid +// r5: tid +// r6: argc +// r7: p_argv +// r8: &exit_frame +// +// return: r3 (always 1/TRUE) +// + +#if KMP_ARCH_PPC64_XCOFF + + .globl __kmp_invoke_microtask[DS] + .globl .__kmp_invoke_microtask + .align 4 + .csect __kmp_invoke_microtask[DS],3 + .vbyte 8, .__kmp_invoke_microtask + .vbyte 8, TOC[TC0] + .vbyte 8, 0 + .csect .text[PR],2 + .machine "pwr7" +.__kmp_invoke_microtask: + + +// -- Begin __kmp_invoke_microtask +// mark_begin; + +// We need to allocate a stack frame large enough to hold all of the parameters +// on the stack for the microtask plus what this function needs. That's 48 +// bytes under the XCOFF64 ABI, plus max(64, 8*(2 + argc)) for +// the parameters to the microtask (gtid, tid, argc elements of p_argv), +// plus 8 bytes to store the values of r4 and r5, and 8 bytes to store r31. +// With OMP-T support, we need an additional 8 bytes to save r30 to hold +// a copy of r8. +// Stack offsets relative to stack pointer: +// r31: -8, r30: -16, gtid: -20, tid: -24 + + mflr 0 + std 31, -8(1) # Save r31 to the stack + std 0, 16(1) # Save LR to the linkage area + +// This is unusual because normally we'd set r31 equal to r1 after the stack +// frame is established. In this case, however, we need to dynamically compute +// the stack frame size, and so we keep a direct copy of r1 to access our +// register save areas and restore the r1 value before returning. + mr 31, 1 + +// Compute the size of the "argc" portion of the parameter save area. +// The parameter save area is always at least 64 bytes long (i.e. 8 regs) +// The microtask has (2 + argc) parameters, so if argc <= 6, we need to +// to allocate 8*6 bytes, not 8*argc. + li 0, 6 + cmpwi 0, 6, 6 + iselgt 0, 6, 0 # r0 = (argc > 6)? argc : 6 + sldi 0, 0, 3 # r0 = 8 * max(argc, 6) + +// Compute the size necessary for the local stack frame. +// 88 = 48 + 4 (for r4) + 4 (for r5) + 8 (for r31) + 8 (for OMP-T r30) + +// 8 (parameter gtid) + 8 (parameter tid) + li 12, 88 + add 12, 0, 12 + neg 12, 12 + +// We need to make sure that the stack frame stays aligned (to 16 bytes). + li 0, -16 + and 12, 0, 12 + +// Establish the local stack frame. + stdux 1, 1, 12 + +#if OMPT_SUPPORT + std 30, -16(31) # Save r30 to the stack + std 1, 0(8) + mr 30, 8 +#endif + +// Store gtid and tid to the stack because they're passed by reference to the microtask. + stw 4, -20(31) # Save gtid to the stack + stw 5, -24(31) # Save tid to the stack + + mr 12, 6 # r12 = argc + mr 4, 7 # r4 = p_argv + + cmpwi 0, 12, 1 + blt 0, .Lcall # if (argc < 1) goto .Lcall + + ld 5, 0(4) # r5 = p_argv[0] + + cmpwi 0, 12, 2 + blt 0, .Lcall # if (argc < 2) goto .Lcall + + ld 6, 8(4) # r6 = p_argv[1] + + cmpwi 0, 12, 3 + blt 0, .Lcall # if (argc < 3) goto .Lcall + + ld 7, 16(4) # r7 = p_argv[2] + + cmpwi 0, 12, 4 + blt 0, .Lcall # if (argc < 4) goto .Lcall + + ld 8, 24(4) # r8 = p_argv[3] + + cmpwi 0, 12, 5 + blt 0, .Lcall # if (argc < 5) goto .Lcall + + ld 9, 32(4) # r9 = p_argv[4] + + cmpwi 0, 12, 6 + blt 0, .Lcall # if (argc < 6) goto .Lcall + + ld 10, 40(4) # r10 = p_argv[5] + + cmpwi 0, 12, 7 + blt 0, .Lcall # if (argc < 7) goto .Lcall + +// There are more than 6 microtask parameters, so we need to store the +// remainder to the stack. + addi 12, 12, -6 # argc -= 6 + mtctr 12 + +// These are set to 8 bytes before the first desired store address (we're using +// pre-increment loads and stores in the loop below). The parameter save area +// for the microtask begins 48 + 8*8 == 112 bytes above r1 for XCOFF64. + addi 4, 4, 40 # p_argv = p_argv + 5 + # (i.e. skip the 5 elements we already processed) + addi 12, 1, 104 # r12 = stack offset (112 - 8) + +.Lnext: + ldu 0, 8(4) + stdu 0, 8(12) + bdnz .Lnext + +.Lcall: + std 2, 40(1) # Save the TOC pointer to the linkage area +// Load the actual function address from the function descriptor. + ld 12, 0(3) # Function address + ld 2, 8(3) # TOC pointer + ld 11, 16(3) # Environment pointer + + addi 3, 31, -20 # r3 = >id + addi 4, 31, -24 # r4 = &tid + + mtctr 12 # CTR = function address + bctrl # Branch to CTR + ld 2, 40(1) # Restore TOC pointer from linkage area + +#if OMPT_SUPPORT + li 3, 0 + std 3, 0(30) +#endif + + li 3, 1 + +#if OMPT_SUPPORT + ld 30, -16(31) # Restore r30 from the saved value on the stack +#endif + + mr 1, 31 + ld 31, -8(1) # Restore r31 from the saved value on the stack + ld 0, 16(1) + mtlr 0 # Restore LR from the linkage area + blr # Branch to LR + +#else // KMP_ARCH_PPC_XCOFF + + .globl __kmp_invoke_microtask[DS] + .globl .__kmp_invoke_microtask + .align 4 + .csect __kmp_invoke_microtask[DS],2 + .vbyte 4, .__kmp_invoke_microtask + .vbyte 4, TOC[TC0] + .vbyte 4, 0 + .csect .text[PR],2 + .machine "pwr7" +.__kmp_invoke_microtask: + + +// -- Begin __kmp_invoke_microtask +// mark_begin; + +// We need to allocate a stack frame large enough to hold all of the parameters +// on the stack for the microtask plus what this function needs. That's 24 +// bytes under the XCOFF ABI, plus max(32, 8*(2 + argc)) for +// the parameters to the microtask (gtid, tid, argc elements of p_argv), +// plus 8 bytes to store the values of r4 and r5, and 4 bytes to store r31. +// With OMP-T support, we need an additional 4 bytes to save r30 to hold +// a copy of r8. +// Stack offsets relative to stack pointer: +// r31: -4, r30: -8, gtid: -12, tid: -16 + + mflr 0 + stw 31, -4(1) # Save r31 to the stack + stw 0, 8(1) # Save LR to the linkage area + +// This is unusual because normally we'd set r31 equal to r1 after the stack +// frame is established. In this case, however, we need to dynamically compute +// the stack frame size, and so we keep a direct copy of r1 to access our +// register save areas and restore the r1 value before returning. + mr 31, 1 + +// Compute the size of the "argc" portion of the parameter save area. +// The parameter save area is always at least 32 bytes long (i.e. 8 regs) +// The microtask has (2 + argc) parameters, so if argc <= 6, we need to +// to allocate 4*6 bytes, not 4*argc. + li 0, 6 + cmpwi 0, 6, 6 + iselgt 0, 6, 0 # r0 = (argc > 6)? argc : 6 + slwi 0, 0, 2 # r0 = 4 * max(argc, 6) + +// Compute the size necessary for the local stack frame. +// 56 = 32 + 4 (for r4) + 4 (for r5) + 4 (for r31) + 4 (for OMP-T r30) + +// 4 (parameter gtid) + 4 (parameter tid) + li 12, 56 + add 12, 0, 12 + neg 12, 12 + +// We need to make sure that the stack frame stays aligned (to 16 bytes). + li 0, -16 + and 12, 0, 12 + +// Establish the local stack frame. + stwux 1, 1, 12 + +#if OMPT_SUPPORT + stw 30, -8(31) # Save r30 to the stack + stw 1, 0(8) + mr 30, 8 +#endif + +// Store gtid and tid to the stack because they're passed by reference to the microtask. + stw 4, -12(31) # Save gtid to the stack + stw 5, -16(31) # Save tid to the stack + + mr 12, 6 # r12 = argc + mr 4, 7 # r4 = p_argv + + cmpwi 0, 12, 1 + blt 0, .Lcall # if (argc < 1) goto .Lcall + + lwz 5, 0(4) # r5 = p_argv[0] + + cmpwi 0, 12, 2 + blt 0, .Lcall # if (argc < 2) goto .Lcall + + lwz 6, 4(4) # r6 = p_argv[1] + + cmpwi 0, 12, 3 + blt 0, .Lcall # if (argc < 3) goto .Lcall + + lwz 7, 8(4) # r7 = p_argv[2] + + cmpwi 0, 12, 4 + blt 0, .Lcall # if (argc < 4) goto .Lcall + + lwz 8, 12(4) # r8 = p_argv[3] + + cmpwi 0, 12, 5 + blt 0, .Lcall # if (argc < 5) goto .Lcall + + lwz 9, 16(4) # r9 = p_argv[4] + + cmpwi 0, 12, 6 + blt 0, .Lcall # if (argc < 6) goto .Lcall + + lwz 10, 20(4) # r10 = p_argv[5] + + cmpwi 0, 12, 7 + blt 0, .Lcall # if (argc < 7) goto .Lcall + +// There are more than 6 microtask parameters, so we need to store the +// remainder to the stack. + addi 12, 12, -6 # argc -= 6 + mtctr 12 + +// These are set to 4 bytes before the first desired store address (we're using +// pre-increment loads and stores in the loop below). The parameter save area +// for the microtask begins 24 + 4*8 == 56 bytes above r1 for XCOFF. + addi 4, 4, 20 # p_argv = p_argv + 5 + # (i.e. skip the 5 elements we already processed) + addi 12, 1, 52 # r12 = stack offset (56 - 4) + +.Lnext: + lwzu 0, 4(4) + stwu 0, 4(12) + bdnz .Lnext + +.Lcall: + stw 2, 20(1) # Save the TOC pointer to the linkage area +// Load the actual function address from the function descriptor. + lwz 12, 0(3) # Function address + lwz 2, 4(3) # TOC pointer + lwz 11, 8(3) # Environment pointer + + addi 3, 31, -12 # r3 = >id + addi 4, 31, -16 # r4 = &tid + + mtctr 12 # CTR = function address + bctrl # Branch to CTR + lwz 2, 20(1) # Restore TOC pointer from linkage area + +#if OMPT_SUPPORT + li 3, 0 + stw 3, 0(30) +#endif + + li 3, 1 + +#if OMPT_SUPPORT + lwz 30, -8(31) # Restore r30 from the saved value on the stack +#endif + + mr 1, 31 + lwz 31, -4(1) # Restore r31 from the saved value on the stack + lwz 0, 8(1) + mtlr 0 # Restore LR from the linkage area + blr # Branch to LR + +#endif // KMP_ARCH_PPC64_XCOFF + +.Lfunc_end0: + .vbyte 4, 0x00000000 # Traceback table begin + .byte 0x00 # Version = 0 + .byte 0x09 # Language = CPlusPlus + .byte 0x20 # -IsGlobaLinkage, -IsOutOfLineEpilogOrPrologue + # +HasTraceBackTableOffset, -IsInternalProcedure + # -HasControlledStorage, -IsTOCless + # -IsFloatingPointPresent + # -IsFloatingPointOperationLogOrAbortEnabled + .byte 0x61 # -IsInterruptHandler, +IsFunctionNamePresent, +IsAllocaUsed + # OnConditionDirective = 0, -IsCRSaved, +IsLRSaved + .byte 0x80 # +IsBackChainStored, -IsFixup, NumOfFPRsSaved = 0 +#if OMPT_SUPPORT + .byte 0x02 # -HasExtensionTable, -HasVectorInfo, NumOfGPRsSaved = 2 + .byte 0x06 # NumberOfFixedParms = 6 +#else + .byte 0x01 # -HasExtensionTable, -HasVectorInfo, NumOfGPRsSaved = 1 + .byte 0x05 # NumberOfFixedParms = 5 +#endif + .byte 0x01 # NumberOfFPParms = 0, +HasParmsOnStack + .vbyte 4, 0x00000000 # Parameter type = i, i, i, i, i + .vbyte 4, .Lfunc_end0-.__kmp_invoke_microtask # Function size + .vbyte 2, 0x0016 # Function name len = 22 + .byte "__kmp_invoke_microtask" # Function Name + .byte 0x1f # AllocaRegister = 31 + # -- End function + +// -- End __kmp_invoke_microtask + +// Support for unnamed common blocks. + + .comm .gomp_critical_user_, 32, 3 +#if KMP_ARCH_PPC64_XCOFF + .csect __kmp_unnamed_critical_addr[RW],3 +#else + .csect __kmp_unnamed_critical_addr[RW],2 +#endif + .globl __kmp_unnamed_critical_addr[RW] + .ptr .gomp_critical_user_ + +// -- End unnamed common block + + .toc + +#endif // KMP_OS_AIX