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Sync VEX/LICENSE.GPL with top-level COPYING file. We used 3 different addresses for writing to the FSF to receive a copy of the GPL. Replace all different variants with an URL <http://www.gnu.org/licenses/>. The following files might still have some slightly different (L)GPL copyright notice because they were derived from other programs: - files under coregrind/m_demangle which come from libiberty: cplus-dem.c, d-demangle.c, demangle.h, rust-demangle.c, safe-ctype.c and safe-ctype.h - coregrind/m_demangle/dyn-string.[hc] derived from GCC. - coregrind/m_demangle/ansidecl.h derived from glibc. - VEX files for FMA detived from glibc: host_generic_maddf.h and host_generic_maddf.c - files under coregrin/m_debuginfo derived from LZO: lzoconf.h, lzodefs.h, minilzo-inl.c and minilzo.h - files under coregrind/m_gdbserver detived from GDB: gdb/signals.h, inferiors.c, regcache.c, regcache.h, regdef.h, remote-utils.c, server.c, server.h, signals.c, target.c, target.h and utils.c Plus the following test files: - none/tests/ppc32/testVMX.c derived from testVMX. - ppc tests derived from QEMU: jm-insns.c, ppc64_helpers.h and test_isa_3_0.c - tests derived from bzip2 (with embedded GPL text in code): hackedbz2.c, origin5-bz2.c, varinfo6.c - tests detived from glibc: str_tester.c, pth_atfork1.c - test detived from GCC libgomp: tc17_sembar.c - performance tests derived from bzip2 or tinycc (with embedded GPL text in code): bz2.c, test_input_for_tinycc.c and tinycc.c
171 lines
5.6 KiB
ArmAsm
171 lines
5.6 KiB
ArmAsm
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/*--------------------------------------------------------------------*/
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/*--- Support for doing system calls. syscall-s390x-linux.S ---*/
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/*--------------------------------------------------------------------*/
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/*
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This file is part of Valgrind, a dynamic binary instrumentation
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framework.
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Copyright IBM Corp. 2010-2017
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License as
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published by the Free Software Foundation; either version 2 of the
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License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, see <http://www.gnu.org/licenses/>.
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The GNU General Public License is contained in the file COPYING.
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*/
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/* Contributed by Christian Borntraeger */
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#include "pub_core_basics_asm.h"
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#include "pub_core_vkiscnums_asm.h"
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#include "libvex_guest_offsets.h"
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#if defined(VGA_s390x)
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/*----------------------------------------------------------------*/
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/*
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Perform a syscall for the client. This will run a syscall
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with the client's specific per-thread signal mask.
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The structure of this function is such that, if the syscall is
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interrupted by a signal, we can determine exactly what
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execution state we were in with respect to the execution of
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the syscall by examining the value of NIP in the signal
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handler. This means that we can always do the appropriate
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thing to precisely emulate the kernel's signal/syscall
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interactions.
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The syscall number is taken from the argument, since the syscall
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number can be encoded in the svc instruction itself.
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The syscall result is written back to guest register r2.
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Returns 0 if the syscall was successfully called (even if the
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syscall itself failed), or a nonzero error code in the lowest
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8 bits if one of the sigprocmasks failed (there's no way to
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determine which one failed). And there's no obvious way to
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recover from that either, but nevertheless we want to know.
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VG_(fixup_guest_state_after_syscall_interrupted) does the
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thread state fixup in the case where we were interrupted by a
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signal.
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Prototype:
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UWord ML_(do_syscall_for_client_WRK)(
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Int syscallno, // r2
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void* guest_state, // r3
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const vki_sigset_t *sysmask, // r4
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const vki_sigset_t *postmask, // r5
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Int nsigwords) // r6
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*/
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/* from vki_arch.h */
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#define VKI_SIG_SETMASK 2
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#define SP_SAVE 16
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#define SP_R2 SP_SAVE + 0*8
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#define SP_R3 SP_SAVE + 1*8
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#define SP_R4 SP_SAVE + 2*8
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#define SP_R5 SP_SAVE + 3*8
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#define SP_R6 SP_SAVE + 4*8
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#define SP_R7 SP_SAVE + 5*8
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#define SP_R8 SP_SAVE + 6*8
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#define SP_R9 SP_SAVE + 7*8
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.align 4
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.globl ML_(do_syscall_for_client_WRK)
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ML_(do_syscall_for_client_WRK):
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1: /* Even though we can't take a signal until the sigprocmask completes,
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start the range early.
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If IA is in the range [1,2), the syscall hasn't been started yet */
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/* Set the signal mask which should be current during the syscall. */
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/* Save and restore all the parameters and all the registers that
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we clobber (r6-r9) */
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stmg %r2,%r9, SP_R2(%r15)
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lghi %r2, VKI_SIG_SETMASK /* how */
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lgr %r3, %r4 /* sysmask */
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lgr %r4, %r5 /* postmask */
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lgr %r5, %r6 /* nsigwords */
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svc __NR_rt_sigprocmask
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cghi %r2, 0x0
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jne 7f /* sigprocmask failed */
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/* OK, that worked. Now do the syscall proper. */
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lg %r9, SP_R3(%r15) /* guest state --> r9 */
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lg %r2, OFFSET_s390x_r2(%r9) /* guest r2 --> real r2 */
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lg %r3, OFFSET_s390x_r3(%r9) /* guest r3 --> real r3 */
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lg %r4, OFFSET_s390x_r4(%r9) /* guest r4 --> real r4 */
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lg %r5, OFFSET_s390x_r5(%r9) /* guest r5 --> real r5 */
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lg %r6, OFFSET_s390x_r6(%r9) /* guest r6 --> real r6 */
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lg %r7, OFFSET_s390x_r7(%r9) /* guest r7 --> real r7 */
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lg %r1, SP_R2(%r15) /* syscallno -> r1 */
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2: svc 0
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3:
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stg %r2, OFFSET_s390x_r2(%r9)
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4: /* Re-block signals. If IA is in [4,5), then the syscall
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is complete and we needn't worry about it. */
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lghi %r2, VKI_SIG_SETMASK /* how */
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lg %r3, SP_R5(%r15) /* postmask */
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lghi %r4, 0x0 /* NULL */
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lg %r5, SP_R6(%r15) /* nsigwords */
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svc __NR_rt_sigprocmask
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cghi %r2, 0x0
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jne 7f /* sigprocmask failed */
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5: /* Everyting ok. Return 0 and restore the call-saved
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registers, that we have clobbered */
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lghi %r2, 0x0
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lmg %r6,%r9, SP_R6(%r15)
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br %r14
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7: /* Some problem. Return 0x8000 | error and restore the call-saved
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registers we have clobbered. */
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nill %r2, 0x7fff
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oill %r2, 0x8000
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lmg %r6,%r9, SP_R6(%r15)
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br %r14
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.section .rodata
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/* Export the ranges so that
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VG_(fixup_guest_state_after_syscall_interrupted) can do the
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right thing */
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.globl ML_(blksys_setup)
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.globl ML_(blksys_restart)
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.globl ML_(blksys_complete)
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.globl ML_(blksys_committed)
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.globl ML_(blksys_finished)
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/* The compiler can assume that 8 byte data elements are aligned on 8 byte */
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.align 8
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ML_(blksys_setup): .quad 1b
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ML_(blksys_restart): .quad 2b
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ML_(blksys_complete): .quad 3b
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ML_(blksys_committed): .quad 4b
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ML_(blksys_finished): .quad 5b
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.previous
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#endif /* VGA_s390x */
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/* Let the linker know we don't need an executable stack */
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MARK_STACK_NO_EXEC
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/*--------------------------------------------------------------------*/
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/*--- end ---*/
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/*--------------------------------------------------------------------*/
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