common-user/host/arm/safe-syscall.inc.S - qemu - Git at Google

 /*
  * 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 common-user/safe-syscall.S
  *
  * Written by Richard Henderson <rth@twiddle.net>
  * 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

         .cfi_sections   .debug_frame

         .text
         .syntax unified
         .arm
         .align 2

         /* 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').
          */
 safe_syscall_base:
         .fnstart
         .cfi_startproc
         mov     r12, sp                 /* save entry stack */
         push    { r4, r5, r6, r7, r8, lr }
         .save   { r4, r5, r6, r7, r8, lr }
         .cfi_adjust_cfa_offset 24
         .cfi_rel_offset r4, 0
         .cfi_rel_offset r5, 4
         .cfi_rel_offset r6, 8
         .cfi_rel_offset r7, 12
         .cfi_rel_offset r8, 16
         .cfi_rel_offset lr, 20

         /* The syscall calling convention isn't the same as the C one:
          * we enter with r0 == &signal_pending
          *               r1 == syscall number
          *               r2, r3, [sp+0] ... [sp+12] == syscall arguments
          *               and return the result in r0
          * and the syscall instruction needs
          *               r7 == syscall number
          *               r0 ... r6 == syscall arguments
          *               and returns the result in r0
          * Shuffle everything around appropriately.
          * Note the 16 bytes that we pushed to save registers.
          */
         mov     r8, r0                  /* copy signal_pending */
         mov     r7, r1                  /* syscall number */
         mov     r0, r2                  /* syscall args */
         mov     r1, r3
         ldm     r12, { r2, r3, r4, r5, r6 }

         /* 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 */
         ldr     r12, [r8]               /* signal_pending */
         tst     r12, r12
         bne     2f
         swi     0
 safe_syscall_end:

         /* code path for having successfully executed the syscall */
 #if defined(__linux__)
         /* Linux kernel returns (small) negative errno. */
         cmp     r0, #-4096
         neghi   r0, r0
         bhi     1f
 #elif defined(__FreeBSD__)
         /* FreeBSD kernel returns positive errno and C bit set. */
         bcs     1f
 #else
 #error "unsupported os"
 #endif
         pop     { r4, r5, r6, r7, r8, pc }

         /* code path when we didn't execute the syscall */
 2:      mov     r0, #QEMU_ERESTARTSYS

         /* code path setting errno */
 1:      pop     { r4, r5, r6, r7, r8, lr }
         .cfi_adjust_cfa_offset -24
         .cfi_restore r4
         .cfi_restore r5
         .cfi_restore r6
         .cfi_restore r7
         .cfi_restore r8
         .cfi_restore lr
         b       safe_syscall_set_errno_tail

         .fnend
         .cfi_endproc
         .size   safe_syscall_base, .-safe_syscall_base
	/*
	* 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 common-user/safe-syscall.S
	*
	* Written by Richard Henderson <rth@twiddle.net>
	* 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

	.cfi_sections .debug_frame

	.text
	.syntax unified
	.arm
	.align 2

	/* 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').
	*/
	safe_syscall_base:
	.fnstart
	.cfi_startproc
	mov r12, sp /* save entry stack */
	push { r4, r5, r6, r7, r8, lr }
	.save { r4, r5, r6, r7, r8, lr }
	.cfi_adjust_cfa_offset 24
	.cfi_rel_offset r4, 0
	.cfi_rel_offset r5, 4
	.cfi_rel_offset r6, 8
	.cfi_rel_offset r7, 12
	.cfi_rel_offset r8, 16
	.cfi_rel_offset lr, 20

	/* The syscall calling convention isn't the same as the C one:
	* we enter with r0 == &signal_pending
	* r1 == syscall number
	* r2, r3, [sp+0] ... [sp+12] == syscall arguments
	* and return the result in r0
	* and the syscall instruction needs
	* r7 == syscall number
	* r0 ... r6 == syscall arguments
	* and returns the result in r0
	* Shuffle everything around appropriately.
	* Note the 16 bytes that we pushed to save registers.
	*/
	mov r8, r0 /* copy signal_pending */
	mov r7, r1 /* syscall number */
	mov r0, r2 /* syscall args */
	mov r1, r3
	ldm r12, { r2, r3, r4, r5, r6 }

	/* 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 */
	ldr r12, [r8] /* signal_pending */
	tst r12, r12
	bne 2f
	swi 0
	safe_syscall_end:

	/* code path for having successfully executed the syscall */
	#if defined(__linux__)
	/* Linux kernel returns (small) negative errno. */
	cmp r0, #-4096
	neghi r0, r0
	bhi 1f
	#elif defined(__FreeBSD__)
	/* FreeBSD kernel returns positive errno and C bit set. */
	bcs 1f
	#else
	#error "unsupported os"
	#endif
	pop { r4, r5, r6, r7, r8, pc }

	/* code path when we didn't execute the syscall */
	2: mov r0, #QEMU_ERESTARTSYS

	/* code path setting errno */
	1: pop { r4, r5, r6, r7, r8, lr }
	.cfi_adjust_cfa_offset -24
	.cfi_restore r4
	.cfi_restore r5
	.cfi_restore r6
	.cfi_restore r7
	.cfi_restore r8
	.cfi_restore lr
	b safe_syscall_set_errno_tail

	.fnend
	.cfi_endproc
	.size safe_syscall_base, .-safe_syscall_base