| /**************************************************************************** |
| * * |
| * GNAT COMPILER COMPONENTS * |
| * * |
| * S I G T R A M P - T A R G E T * |
| * * |
| * Asm Implementation Include File * |
| * * |
| * Copyright (C) 2011-2022, Free Software Foundation, Inc. * |
| * * |
| * GNAT is free software; you can redistribute it and/or modify it under * |
| * terms of the GNU General Public License as published by the Free Soft- * |
| * ware Foundation; either version 3, or (at your option) any later ver- * |
| * sion. GNAT is distributed in the hope that it will be useful, but WITH- * |
| * OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * |
| * or FITNESS FOR A PARTICULAR PURPOSE. * |
| * * |
| * As a special exception 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. * |
| * * |
| * In particular, you can freely distribute your programs built with the * |
| * GNAT Pro compiler, including any required library run-time units, using * |
| * any licensing terms of your choosing. See the AdaCore Software License * |
| * for full details. * |
| * * |
| * GNAT was originally developed by the GNAT team at New York University. * |
| * Extensive contributions were provided by Ada Core Technologies Inc. * |
| * * |
| ****************************************************************************/ |
| |
| /*************************************************************** |
| * VxWorks target specific part of the __gnat_sigtramp service * |
| ***************************************************************/ |
| |
| /* Note: This target specific part is kept in a separate file to avoid |
| duplication of its code for the vxworks and vxworks-vxsim asm |
| implementation files. */ |
| |
| /* --------------------------- |
| -- And now the asm stubs -- |
| --------------------------- |
| |
| They all have a common structure with blocks of asm sequences queued one |
| after the others. Typically: |
| |
| SYMBOL_START |
| |
| CFI_DIRECTIVES |
| CFI_DEF_CFA, |
| CFI_COMMON_REGISTERS, |
| ... |
| |
| STUB_BODY |
| asm code to establish frame, setup the cfa reg value, |
| call the real signal handler, ... |
| |
| SYMBOL_END |
| */ |
| |
| /*-------------------------------- |
| -- Misc constants and helpers -- |
| -------------------------------- */ |
| |
| /* asm string construction helpers. */ |
| |
| #define STR(TEXT) #TEXT |
| /* stringify expanded TEXT, surrounding it with double quotes. */ |
| |
| #define S(E) STR(E) |
| /* stringify E, which will resolve as text but may contain macros |
| still to be expanded. */ |
| |
| /* asm (TEXT) outputs <tab>TEXT. These facilitate the output of |
| multine contents: */ |
| #define TAB(S) "\t" S |
| #define CR(S) S "\n" |
| |
| #undef TCR |
| #define TCR(S) TAB(CR(S)) |
| |
| /* REGNO constants, dwarf column numbers for registers of interest. */ |
| |
| #if defined (__PPC__) |
| |
| #define REGNO_LR 65 |
| #define REGNO_CTR 66 |
| #define REGNO_CR 70 |
| #define REGNO_XER 76 |
| #define REGNO_GR(N) (N) |
| |
| #define REGNO_PC 67 /* ARG_POINTER_REGNUM */ |
| |
| #define FUNCTION "@function" |
| |
| #elif defined (ARMEL) |
| |
| #define REGNO_G_REG_OFFSET(N) (N) |
| |
| #define FUNCTION "%function" |
| |
| #ifdef __aarch64__ |
| #define REGNO_PC_OFFSET 96 /* DWARF_ALT_FRAME_RETURN_COLUMN */ |
| #else |
| #define REGNO_PC_OFFSET 15 /* PC_REGNUM */ |
| #endif |
| |
| /* Mapping of CFI Column, Gcc Regno, Signal context offset for _LP64 |
| |
| Name CFI GCC SCTX |
| G0-G30 0-30 0-30 0-30 |
| SP 31 31 31 |
| PC 32 |
| V0-V31 64-95 32-63 N/A |
| |
| */ |
| |
| #elif defined (i386) |
| |
| /* These are the cfi colunm numbers */ |
| |
| #define REGNO_EDI 7 |
| #define REGNO_ESI 6 |
| #define REGNO_EBP 5 |
| #define REGNO_ESP 4 |
| #define REGNO_EBX 3 |
| #define REGNO_EDX 2 |
| #define REGNO_ECX 1 |
| #define REGNO_EAX 0 |
| #define REGNO_EFLAGS 9 |
| #define REGNO_SET_PC 8 /* aka %eip */ |
| |
| #define FUNCTION "@function" |
| |
| /* Mapping of CFI Column, Gcc Regno, Signal context offset for 32bit |
| |
| Name CFI GCC SCTX |
| %eax 0 0 7 |
| %ecx 1 2 6 |
| %edx 2 1 5 |
| %ebx 3 3 4 |
| %esp 4 7 3 |
| %ebp 5 6 2 |
| %esi 6 4 1 |
| %edi 7 5 0 |
| %eflags 9 17 8 |
| %eip 8 n/a 9 |
| |
| |
| In general: |
| There is no unique numbering for the x86 architecture. It's parameterized |
| by DWARF_FRAME_REGNUM, which is DBX_REGISTER_NUMBER except for Windows, and |
| the latter depends on the platform. |
| */ |
| |
| #elif defined (__x86_64__) |
| |
| /* These are the cfi colunm numbers */ |
| |
| #define REGNO_RAX 0 |
| #define REGNO_RDX 1 |
| #define REGNO_RCX 2 |
| #define REGNO_RBX 3 |
| #define REGNO_RSI 4 |
| #define REGNO_RDI 5 |
| #define REGNO_RBP 6 |
| #define REGNO_RSP 7 |
| #define REGNO_R8 8 |
| #define REGNO_R9 9 |
| #define REGNO_R10 10 |
| #define REGNO_R11 11 |
| #define REGNO_R12 12 |
| #define REGNO_R13 13 |
| #define REGNO_R14 14 |
| #define REGNO_R15 15 |
| #define REGNO_RPC 16 /* aka %rip */ |
| #define REGNO_EFLAGS 49 |
| #define REGNO_FS 54 |
| |
| #define FUNCTION "@function" |
| |
| #else |
| Not_implemented; |
| #endif /* REGNO constants */ |
| |
| |
| /*------------------------------ |
| -- Stub construction blocks -- |
| ------------------------------ */ |
| |
| /* CFA setup block |
| --------------- |
| Only non-volatile registers are suitable for a CFA base. These are the |
| only ones we can expect to be able retrieve from the unwinding context |
| while walking up the chain, saved by at least the bottom-most exception |
| propagation services. We set a non-volatile register to the value we |
| need in the stub body that follows. */ |
| |
| #if defined (__PPC__) |
| |
| /* Use r15 for PPC. Note that r14 is inappropriate here, even though it |
| is non-volatile according to the ABI, because GCC uses it as an extra |
| SCRATCH on SPE targets. */ |
| |
| #define CFA_REG 15 |
| |
| #elif defined (ARMEL) |
| |
| #ifdef __aarch64__ |
| #define CFA_REG 19 |
| #else |
| /* Use r8 for ARM. Any of r4-r8 should work. */ |
| #define CFA_REG 8 |
| #endif |
| |
| #elif defined (i386) |
| |
| #define CFA_REG 7 |
| |
| #elif defined (__x86_64__) |
| |
| /* R15 register */ |
| #define CFA_REG 15 |
| |
| #else |
| Not_implemented; |
| #endif /* CFA setup block */ |
| |
| #define CFI_DEF_CFA \ |
| CR(".cfi_def_cfa " S(CFA_REG) ", 0") |
| |
| /* Register location blocks |
| ------------------------ |
| Rules to find registers of interest from the CFA. This should comprise |
| all the non-volatile registers relevant to the interrupted context. |
| |
| Note that we include r1 in this set, unlike the libgcc unwinding |
| fallbacks. This is useful for fallbacks to allow the use of r1 in CFI |
| expressions and the absence of rule for r1 gets compensated by using the |
| target CFA instead. We don't need the expression facility here and |
| setup a fake CFA to allow very simple offset expressions, so having a |
| rule for r1 is the proper thing to do. We for sure have observed |
| crashes in some cases without it. */ |
| |
| #if defined (__PPC__) |
| |
| #define COMMON_CFI(REG) \ |
| ".cfi_offset " S(REGNO_##REG) "," S(REG_SET_##REG) |
| |
| #define CFI_COMMON_REGS \ |
| CR("# CFI for common registers\n") \ |
| TCR(COMMON_CFI(GR(0))) \ |
| TCR(COMMON_CFI(GR(1))) \ |
| TCR(COMMON_CFI(GR(2))) \ |
| TCR(COMMON_CFI(GR(3))) \ |
| TCR(COMMON_CFI(GR(4))) \ |
| TCR(COMMON_CFI(GR(5))) \ |
| TCR(COMMON_CFI(GR(6))) \ |
| TCR(COMMON_CFI(GR(7))) \ |
| TCR(COMMON_CFI(GR(8))) \ |
| TCR(COMMON_CFI(GR(9))) \ |
| TCR(COMMON_CFI(GR(10))) \ |
| TCR(COMMON_CFI(GR(11))) \ |
| TCR(COMMON_CFI(GR(12))) \ |
| TCR(COMMON_CFI(GR(13))) \ |
| TCR(COMMON_CFI(GR(14))) \ |
| TCR(COMMON_CFI(GR(15))) \ |
| TCR(COMMON_CFI(GR(16))) \ |
| TCR(COMMON_CFI(GR(17))) \ |
| TCR(COMMON_CFI(GR(18))) \ |
| TCR(COMMON_CFI(GR(19))) \ |
| TCR(COMMON_CFI(GR(20))) \ |
| TCR(COMMON_CFI(GR(21))) \ |
| TCR(COMMON_CFI(GR(22))) \ |
| TCR(COMMON_CFI(GR(23))) \ |
| TCR(COMMON_CFI(GR(24))) \ |
| TCR(COMMON_CFI(GR(25))) \ |
| TCR(COMMON_CFI(GR(26))) \ |
| TCR(COMMON_CFI(GR(27))) \ |
| TCR(COMMON_CFI(GR(28))) \ |
| TCR(COMMON_CFI(GR(29))) \ |
| TCR(COMMON_CFI(GR(30))) \ |
| TCR(COMMON_CFI(GR(31))) \ |
| TCR(COMMON_CFI(LR)) \ |
| TCR(COMMON_CFI(CR)) \ |
| TCR(COMMON_CFI(CTR)) \ |
| TCR(COMMON_CFI(XER)) \ |
| TCR(COMMON_CFI(PC)) \ |
| TCR(".cfi_return_column " S(REGNO_PC)) |
| |
| /* Trampoline body block |
| --------------------- */ |
| |
| #if !defined (__PPC64__) |
| #define SIGTRAMP_BODY \ |
| CR("") \ |
| TCR("# Allocate frame and save the non-volatile") \ |
| TCR("# registers we're going to modify") \ |
| TCR("stwu %r1,-16(%r1)") \ |
| TCR("mflr %r0") \ |
| TCR("stw %r0,20(%r1)") \ |
| TCR("stw %r" S(CFA_REG) ",8(%r1)") \ |
| TCR("") \ |
| TCR("# Setup CFA_REG = context, which we'll retrieve as our CFA value") \ |
| TCR("mr %r" S(CFA_REG) ", %r7") \ |
| TCR("") \ |
| TCR("# Call the real handler. The signo, siginfo and sigcontext") \ |
| TCR("# arguments are the same as those we received in r3, r4 and r5") \ |
| TCR("mtctr %r6") \ |
| TCR("bctrl") \ |
| TCR("") \ |
| TCR("# Restore our callee-saved items, release our frame and return") \ |
| TCR("lwz %r" S(CFA_REG) ",8(%r1)") \ |
| TCR("lwz %r0,20(%r1)") \ |
| TCR("mtlr %r0") \ |
| TCR("") \ |
| TCR("addi %r1,%r1,16") \ |
| TCR("blr") |
| #else |
| #define SIGTRAMP_BODY \ |
| CR("") \ |
| TCR(".LOC_SIGTMP_COM_0:") \ |
| TCR("addis 2,12,.TOC.-.LOC_SIGTMP_COM_0@ha") \ |
| TCR("addi 2,2,.TOC.-.LOC_SIGTMP_COM_0@l") \ |
| TCR(".localentry __gnat_sigtramp_common,.-__gnat_sigtramp_common") \ |
| TCR("# Allocate frame and save the non-volatile") \ |
| TCR("# registers we're going to modify") \ |
| TCR("mflr %r0") \ |
| TCR("std %r0,16(%r1)") \ |
| TCR("stdu %r1,-32(%r1)") \ |
| TCR("std %r2,24(%r1)") \ |
| TCR("std %r" S(CFA_REG) ",8(%r1)") \ |
| TCR("") \ |
| TCR("# Setup CFA_REG = context, which we'll retrieve as our CFA value") \ |
| TCR("mr %r" S(CFA_REG) ", %r7") \ |
| TCR("") \ |
| TCR("# Call the real handler. The signo, siginfo and sigcontext") \ |
| TCR("# arguments are the same as those we received in r3, r4 and r5") \ |
| TCR("mr %r12,%r6") \ |
| TCR("mtctr %r6") \ |
| TCR("bctrl") \ |
| TCR("") \ |
| TCR("# Restore our callee-saved items, release our frame and return") \ |
| TCR("ld %r" S(CFA_REG) ",8(%r1)") \ |
| TCR("ld %r2,24(%r1)") \ |
| TCR("addi %r1,%r1,32") \ |
| TCR("ld %r0,16(%r1)") \ |
| TCR("mtlr %r0") \ |
| TCR("blr") |
| #endif |
| |
| #elif defined (ARMEL) |
| |
| #define COMMON_CFI(REG) \ |
| ".cfi_offset " S(REGNO_##REG) "," S(REG_SET_##REG) |
| |
| #ifdef __aarch64__ |
| #define CFI_COMMON_REGS \ |
| CR("# CFI for common registers\n") \ |
| TCR(COMMON_CFI(G_REG_OFFSET(0))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(1))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(2))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(3))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(4))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(5))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(6))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(7))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(8))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(9))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(10))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(11))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(12))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(13))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(14))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(15))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(16))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(17))) \ |
| CR("# Leave alone R18, VxWorks reserved\n") \ |
| TCR(COMMON_CFI(G_REG_OFFSET(19))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(20))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(21))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(22))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(23))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(24))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(25))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(26))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(27))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(28))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(29))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(30))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(31))) \ |
| TCR(COMMON_CFI(PC_OFFSET)) \ |
| TCR(".cfi_return_column " S(REGNO_PC_OFFSET)) |
| #else |
| #define CFI_COMMON_REGS \ |
| CR("# CFI for common registers\n") \ |
| TCR(COMMON_CFI(G_REG_OFFSET(0))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(1))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(2))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(3))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(4))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(5))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(6))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(7))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(8))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(9))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(10))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(11))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(12))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(13))) \ |
| TCR(COMMON_CFI(G_REG_OFFSET(14))) \ |
| TCR(COMMON_CFI(PC_OFFSET)) \ |
| TCR(".cfi_return_column " S(REGNO_PC_OFFSET)) |
| #endif |
| |
| /* Trampoline body block |
| --------------------- */ |
| #ifdef __aarch64__ |
| #define SIGTRAMP_BODY \ |
| CR("") \ |
| TCR("# Allocate the frame (16bytes aligned) and push FP and LR") \ |
| TCR("stp x29, x30, [sp, #-32]!") \ |
| TCR("add x29, sp, 0") \ |
| TCR("# Store register used to hold the CFA on stack (pro forma)") \ |
| TCR("str x" S(CFA_REG) ", [sp, 16]") \ |
| TCR("# Set the CFA reg from the 5th arg") \ |
| TCR("mov x" S(CFA_REG) ", x4") \ |
| TCR("# Call the handler") \ |
| TCR("blr x3") \ |
| TCR("# Release our frame and return (should never get here!).") \ |
| TCR("ldr x" S(CFA_REG) ", [sp, 16]") \ |
| TCR("ldp x29, x30, [sp], 32") \ |
| TCR("ret") |
| #else |
| #define SIGTRAMP_BODY \ |
| CR("") \ |
| TCR("# Allocate frame and save the non-volatile") \ |
| TCR("# registers we're going to modify") \ |
| TCR("mov ip, sp") \ |
| TCR("stmfd sp!, {r"S(CFA_REG)", fp, ip, lr, pc}") \ |
| TCR("# Setup CFA_REG = context, which we'll retrieve as our CFA value") \ |
| TCR("ldr r"S(CFA_REG)", [ip]") \ |
| TCR("") \ |
| TCR("# Call the real handler. The signo, siginfo and sigcontext") \ |
| TCR("# arguments are the same as those we received in r0, r1 and r2") \ |
| TCR("sub fp, ip, #4") \ |
| TCR("blx r3") \ |
| TCR("# Restore our callee-saved items, release our frame and return") \ |
| TCR("ldmfd sp, {r"S(CFA_REG)", fp, sp, pc}") |
| #endif |
| |
| #elif defined (i386) |
| |
| #if CPU == SIMNT || CPU == SIMPENTIUM || CPU == SIMLINUX |
| #define COMMON_CFI(REG) \ |
| ".cfi_offset " S(REGNO_##REG) "," S(REG_SET_##REG) |
| #else |
| #define COMMON_CFI(REG) \ |
| ".cfi_offset " S(REGNO_##REG) "," S(REG_##REG) |
| #endif |
| |
| #define PC_CFI(REG) \ |
| ".cfi_offset " S(REGNO_##REG) "," S(REG_##REG) |
| |
| #define CFI_COMMON_REGS \ |
| CR("# CFI for common registers\n") \ |
| TCR(COMMON_CFI(EDI)) \ |
| TCR(COMMON_CFI(ESI)) \ |
| TCR(COMMON_CFI(EBP)) \ |
| TCR(COMMON_CFI(ESP)) \ |
| TCR(COMMON_CFI(EBX)) \ |
| TCR(COMMON_CFI(EDX)) \ |
| TCR(COMMON_CFI(ECX)) \ |
| TCR(COMMON_CFI(EAX)) \ |
| TCR(COMMON_CFI(EFLAGS)) \ |
| TCR(PC_CFI(SET_PC)) \ |
| TCR(".cfi_return_column " S(REGNO_SET_PC)) |
| |
| /* Trampoline body block |
| --------------------- */ |
| |
| #define SIGTRAMP_BODY \ |
| CR("") \ |
| TCR("# Allocate frame and save the non-volatile") \ |
| TCR("# registers we're going to modify") \ |
| TCR("pushl %ebp") \ |
| TCR("movl %esp, %ebp") \ |
| TCR("pushl %edi") \ |
| TCR("subl $24, %esp") \ |
| TCR("# Setup CFA_REG = context, which we'll retrieve as our CFA value") \ |
| TCR("movl 24(%ebp), %edi") \ |
| TCR("# Call the real handler. The signo, siginfo and sigcontext") \ |
| TCR("# arguments are the same as those we received") \ |
| TCR("movl 16(%ebp), %eax") \ |
| TCR("movl %eax, 8(%esp)") \ |
| TCR("movl 12(%ebp), %eax") \ |
| TCR("movl %eax, 4(%esp)") \ |
| TCR("movl 8(%ebp), %eax") \ |
| TCR("movl %eax, (%esp)") \ |
| TCR("call *20(%ebp)") \ |
| TCR("# Restore our callee-saved items, release our frame and return") \ |
| TCR("popl %edi") \ |
| TCR("leave") \ |
| TCR("ret") |
| |
| #elif defined (__x86_64__) |
| |
| #define COMMON_CFI(REG) \ |
| ".cfi_offset " S(REGNO_##REG) "," S(REG_##REG) |
| |
| #define CFI_COMMON_REGS \ |
| CR("# CFI for common registers\n") \ |
| TCR(COMMON_CFI(R15)) \ |
| TCR(COMMON_CFI(R14)) \ |
| TCR(COMMON_CFI(R13)) \ |
| TCR(COMMON_CFI(R12)) \ |
| TCR(COMMON_CFI(R11)) \ |
| TCR(COMMON_CFI(R10)) \ |
| TCR(COMMON_CFI(R9)) \ |
| TCR(COMMON_CFI(R8)) \ |
| TCR(COMMON_CFI(RDI)) \ |
| TCR(COMMON_CFI(RSI)) \ |
| TCR(COMMON_CFI(RBP)) \ |
| TCR(COMMON_CFI(RSP)) \ |
| TCR(COMMON_CFI(RBX)) \ |
| TCR(COMMON_CFI(RDX)) \ |
| TCR(COMMON_CFI(RCX)) \ |
| TCR(COMMON_CFI(RAX)) \ |
| TCR(COMMON_CFI(RPC)) \ |
| TCR(".cfi_return_column " S(REGNO_RPC)) |
| |
| /* Trampoline body block |
| --------------------- */ |
| |
| #define SIGTRAMP_BODY \ |
| CR("") \ |
| TCR("# Allocate frame and save the non-volatile") \ |
| TCR("# registers we're going to modify") \ |
| TCR("subq $8, %rsp") \ |
| TCR("# Setup CFA_REG = context, which we'll retrieve as our CFA value") \ |
| TCR("movq %r8, %r15") \ |
| TCR("# Call the real handler. The signo, siginfo and sigcontext") \ |
| TCR("# arguments are the same as those we received") \ |
| TCR("call *%rcx") \ |
| TCR("# This part should never be executed") \ |
| TCR("addq $8, %rsp") \ |
| TCR("ret") |
| |
| #else |
| Not_implemented; |
| #endif /* CFI_COMMON_REGS and SIGTRAMP_BODY */ |
| |
| /* Symbol definition block |
| ----------------------- */ |
| |
| #ifdef __x86_64__ |
| #define FUNC_ALIGN TCR(".p2align 4,,15") |
| #else |
| #define FUNC_ALIGN |
| #endif |
| |
| #define SIGTRAMP_START(SYM) \ |
| CR("# " S(SYM) " cfi trampoline") \ |
| TCR(".type " S(SYM) ", "FUNCTION) \ |
| CR("") \ |
| FUNC_ALIGN \ |
| CR(S(SYM) ":") \ |
| TCR(".cfi_startproc") \ |
| TCR(".cfi_signal_frame") |
| |
| /* Symbol termination block |
| ------------------------ */ |
| |
| #define SIGTRAMP_END(SYM) \ |
| CR(".cfi_endproc") \ |
| TCR(".size " S(SYM) ", .-" S(SYM)) |
| |
| /*---------------------------- |
| -- And now, the real code -- |
| ---------------------------- */ |
| |
| /* Text section start. The compiler isn't aware of that switch. */ |
| |
| asm (".text\n" |
| TCR(".align 2")); |