/**************************************************************************** * * * GNAT COMPILER COMPONENTS * * * * S I G T R A M P - T A R G E T * * * * Asm Implementation Include File * * * * Copyright (C) 2011-2024, 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 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 DEBUGGER_REGNO 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"));