/* * safe-syscall.inc.S : host-specific assembly fragment * to handle signals occurring at the same time as system calls. * This is intended to be included by linux-user/safe-syscall.S * * Written by Richard Henderson * Copyright (C) 2016 Red Hat, Inc. * * This work is licensed under the terms of the GNU GPL, version 2 or later. * See the COPYING file in the top-level directory. */ .global safe_syscall_base .global safe_syscall_start .global safe_syscall_end .type safe_syscall_base, @function /* This is the entry point for making a system call. The calling * convention here is that of a C varargs function with the * first argument an 'int *' to the signal_pending flag, the * second one the system call number (as a 'long'), and all further * arguments being syscall arguments (also 'long'). * We return a long which is the syscall's return value, which * may be negative-errno on failure. Conversion to the * -1-and-errno-set convention is done by the calling wrapper. */ safe_syscall_base: .cfi_startproc push %ebp .cfi_adjust_cfa_offset 4 .cfi_rel_offset ebp, 0 push %esi .cfi_adjust_cfa_offset 4 .cfi_rel_offset esi, 0 push %edi .cfi_adjust_cfa_offset 4 .cfi_rel_offset edi, 0 push %ebx .cfi_adjust_cfa_offset 4 .cfi_rel_offset ebx, 0 /* The syscall calling convention isn't the same as the C one: * we enter with 0(%esp) == return address * 4(%esp) == *signal_pending * 8(%esp) == syscall number * 12(%esp) ... 32(%esp) == syscall arguments * and return the result in eax * and the syscall instruction needs * eax == syscall number * ebx, ecx, edx, esi, edi, ebp == syscall arguments * and returns the result in eax * Shuffle everything around appropriately. * Note the 16 bytes that we pushed to save registers. */ mov 12+16(%esp), %ebx /* the syscall arguments */ mov 16+16(%esp), %ecx mov 20+16(%esp), %edx mov 24+16(%esp), %esi mov 28+16(%esp), %edi mov 32+16(%esp), %ebp /* This next sequence of code works in conjunction with the * rewind_if_safe_syscall_function(). If a signal is taken * and the interrupted PC is anywhere between 'safe_syscall_start' * and 'safe_syscall_end' then we rewind it to 'safe_syscall_start'. * The code sequence must therefore be able to cope with this, and * the syscall instruction must be the final one in the sequence. */ safe_syscall_start: /* if signal_pending is non-zero, don't do the call */ mov 4+16(%esp), %eax /* signal_pending */ cmpl $0, (%eax) jnz 1f mov 8+16(%esp), %eax /* syscall number */ int $0x80 safe_syscall_end: /* code path for having successfully executed the syscall */ pop %ebx .cfi_remember_state .cfi_adjust_cfa_offset -4 .cfi_restore ebx pop %edi .cfi_adjust_cfa_offset -4 .cfi_restore edi pop %esi .cfi_adjust_cfa_offset -4 .cfi_restore esi pop %ebp .cfi_adjust_cfa_offset -4 .cfi_restore ebp ret 1: /* code path when we didn't execute the syscall */ .cfi_restore_state mov $-TARGET_ERESTARTSYS, %eax jmp safe_syscall_end .cfi_endproc .size safe_syscall_base, .-safe_syscall_base