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/*--------------------------------------------------------------------*/
/*--- Create/destroy signal delivery frames. ---*/
/*--- sigframe-amd64-linux.c ---*/
/*--------------------------------------------------------------------*/
/*
This file is part of Valgrind, a dynamic binary instrumentation
framework.
Copyright (C) 2000-2015 Nicholas Nethercote
njn@valgrind.org
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307, USA.
The GNU General Public License is contained in the file COPYING.
*/
#if defined(VGP_amd64_linux)
#include "pub_core_basics.h"
#include "pub_core_vki.h"
#include "pub_core_threadstate.h"
#include "pub_core_aspacemgr.h"
#include "pub_core_libcbase.h"
#include "pub_core_libcassert.h"
#include "pub_core_libcprint.h"
#include "pub_core_machine.h"
#include "pub_core_options.h"
#include "pub_core_signals.h"
#include "pub_core_tooliface.h"
#include "pub_core_trampoline.h"
#include "pub_core_sigframe.h" /* self */
#include "priv_sigframe.h"
/* This module creates and removes signal frames for signal deliveries
on amd64-linux.
Note, this file contains kernel-specific knowledge in the form of
'struct rt_sigframe'. How does that relate to the vki kernel
interface stuff?
A 'struct rtsigframe' is pushed onto the client's stack. This
contains a subsidiary vki_ucontext. That holds the vcpu's state
across the signal, so that the sighandler can mess with the vcpu
state if it really wants.
FIXME: sigcontexting is basically broken for the moment. When
delivering a signal, the integer registers and %rflags are
correctly written into the sigcontext, however the FP and SSE state
is not. When returning from a signal, only the integer registers
are restored from the sigcontext; the rest of the CPU state is
restored to what it was before the signal.
This will be fixed.
*/
/*------------------------------------------------------------*/
/*--- Signal frame layouts ---*/
/*------------------------------------------------------------*/
// A structure in which to save the application's registers
// during the execution of signal handlers.
// In theory, so long as we get the arguments to the handler function
// right, it doesn't matter what the exact layout of the rest of the
// frame is. Unfortunately, things like gcc's exception unwinding
// make assumptions about the locations of various parts of the frame,
// so we need to duplicate it exactly.
/* Valgrind-specific parts of the signal frame */
struct vg_sigframe
{
/* Sanity check word. */
UInt magicPI;
UInt handlerflags; /* flags for signal handler */
/* Safely-saved version of sigNo, as described above. */
Int sigNo_private;
/* XXX This is wrong. Surely we should store the shadow values
into the shadow memory behind the actual values? */
VexGuestAMD64State vex_shadow1;
VexGuestAMD64State vex_shadow2;
/* HACK ALERT */
VexGuestAMD64State vex;
/* end HACK ALERT */
/* saved signal mask to be restored when handler returns */
vki_sigset_t mask;
/* Sanity check word. Is the highest-addressed word; do not
move!*/
UInt magicE;
};
struct rt_sigframe
{
/* Sig handler's return address */
Addr retaddr;
/* ucontext */
struct vki_ucontext uContext;
/* siginfo */
vki_siginfo_t sigInfo;
struct _vki_fpstate fpstate;
struct vg_sigframe vg;
};
//:: /*------------------------------------------------------------*/
//:: /*--- Signal operations ---*/
//:: /*------------------------------------------------------------*/
//::
//:: /*
//:: Great gobs of FP state conversion taken wholesale from
//:: linux/arch/i386/kernel/i387.c
//:: */
//::
//:: /*
//:: * FXSR floating point environment conversions.
//:: */
//:: #define X86_FXSR_MAGIC 0x0000
//::
//:: /*
//:: * FPU tag word conversions.
//:: */
//::
//:: static inline unsigned short twd_i387_to_fxsr( unsigned short twd )
//:: {
//:: unsigned int tmp; /* to avoid 16 bit prefixes in the code */
//::
//:: /* Transform each pair of bits into 01 (valid) or 00 (empty) */
//:: tmp = ~twd;
//:: tmp = (tmp | (tmp>>1)) & 0x5555; /* 0V0V0V0V0V0V0V0V */
//:: /* and move the valid bits to the lower byte. */
//:: tmp = (tmp | (tmp >> 1)) & 0x3333; /* 00VV00VV00VV00VV */
//:: tmp = (tmp | (tmp >> 2)) & 0x0f0f; /* 0000VVVV0000VVVV */
//:: tmp = (tmp | (tmp >> 4)) & 0x00ff; /* 00000000VVVVVVVV */
//:: return tmp;
//:: }
//::
//:: static unsigned long twd_fxsr_to_i387( const struct i387_fxsave_struct *fxsave )
//:: {
//:: struct _vki_fpxreg *st = NULL;
//:: unsigned long twd = (unsigned long) fxsave->twd;
//:: unsigned long tag;
//:: unsigned long ret = 0xffff0000u;
//:: int i;
//::
//:: #define FPREG_ADDR(f, n) ((char *)&(f)->st_space + (n) * 16);
//::
//:: for ( i = 0 ; i < 8 ; i++ ) {
//:: if ( twd & 0x1 ) {
//:: st = (struct _vki_fpxreg *) FPREG_ADDR( fxsave, i );
//::
//:: switch ( st->exponent & 0x7fff ) {
//:: case 0x7fff:
//:: tag = 2; /* Special */
//:: break;
//:: case 0x0000:
//:: if ( !st->significand[0] &&
//:: !st->significand[1] &&
//:: !st->significand[2] &&
//:: !st->significand[3] ) {
//:: tag = 1; /* Zero */
//:: } else {
//:: tag = 2; /* Special */
//:: }
//:: break;
//:: default:
//:: if ( st->significand[3] & 0x8000 ) {
//:: tag = 0; /* Valid */
//:: } else {
//:: tag = 2; /* Special */
//:: }
//:: break;
//:: }
//:: } else {
//:: tag = 3; /* Empty */
//:: }
//:: ret |= (tag << (2 * i));
//:: twd = twd >> 1;
//:: }
//:: return ret;
//:: }
//::
//:: static void convert_fxsr_to_user( struct _vki_fpstate *buf,
//:: const struct i387_fxsave_struct *fxsave )
//:: {
//:: unsigned long env[7];
//:: struct _vki_fpreg *to;
//:: struct _vki_fpxreg *from;
//:: int i;
//::
//:: env[0] = (unsigned long)fxsave->cwd | 0xffff0000ul;
//:: env[1] = (unsigned long)fxsave->swd | 0xffff0000ul;
//:: env[2] = twd_fxsr_to_i387(fxsave);
//:: env[3] = fxsave->fip;
//:: env[4] = fxsave->fcs | ((unsigned long)fxsave->fop << 16);
//:: env[5] = fxsave->foo;
//:: env[6] = fxsave->fos;
//::
//:: VG_(memcpy)(buf, env, 7 * sizeof(unsigned long));
//::
//:: to = &buf->_st[0];
//:: from = (struct _vki_fpxreg *) &fxsave->st_space[0];
//:: for ( i = 0 ; i < 8 ; i++, to++, from++ ) {
//:: unsigned long __user *t = (unsigned long __user *)to;
//:: unsigned long *f = (unsigned long *)from;
//::
//:: t[0] = f[0];
//:: t[1] = f[1];
//:: to->exponent = from->exponent;
//:: }
//:: }
//::
//:: static void convert_fxsr_from_user( struct i387_fxsave_struct *fxsave,
//:: const struct _vki_fpstate *buf )
//:: {
//:: unsigned long env[7];
//:: struct _vki_fpxreg *to;
//:: const struct _vki_fpreg *from;
//:: int i;
//::
//:: VG_(memcpy)(env, buf, 7 * sizeof(long));
//::
//:: fxsave->cwd = (unsigned short)(env[0] & 0xffff);
//:: fxsave->swd = (unsigned short)(env[1] & 0xffff);
//:: fxsave->twd = twd_i387_to_fxsr((unsigned short)(env[2] & 0xffff));
//:: fxsave->fip = env[3];
//:: fxsave->fop = (unsigned short)((env[4] & 0xffff0000ul) >> 16);
//:: fxsave->fcs = (env[4] & 0xffff);
//:: fxsave->foo = env[5];
//:: fxsave->fos = env[6];
//::
//:: to = (struct _vki_fpxreg *) &fxsave->st_space[0];
//:: from = &buf->_st[0];
//:: for ( i = 0 ; i < 8 ; i++, to++, from++ ) {
//:: unsigned long *t = (unsigned long *)to;
//:: unsigned long __user *f = (unsigned long __user *)from;
//::
//:: t[0] = f[0];
//:: t[1] = f[1];
//:: to->exponent = from->exponent;
//:: }
//:: }
//::
//:: static inline void save_i387_fsave( arch_thread_t *regs, struct _vki_fpstate *buf )
//:: {
//:: struct i387_fsave_struct *fs = ®s->m_sse.fsave;
//::
//:: fs->status = fs->swd;
//:: VG_(memcpy)(buf, fs, sizeof(*fs));
//:: }
//::
//:: static void save_i387_fxsave( arch_thread_t *regs, struct _vki_fpstate *buf )
//:: {
//:: const struct i387_fxsave_struct *fx = ®s->m_sse.fxsave;
//:: convert_fxsr_to_user( buf, fx );
//::
//:: buf->status = fx->swd;
//:: buf->magic = X86_FXSR_MAGIC;
//:: VG_(memcpy)(buf->_fxsr_env, fx, sizeof(struct i387_fxsave_struct));
//:: }
//::
//:: static void save_i387( arch_thread_t *regs, struct _vki_fpstate *buf )
//:: {
//:: if ( VG_(have_ssestate) )
//:: save_i387_fxsave( regs, buf );
//:: else
//:: save_i387_fsave( regs, buf );
//:: }
//::
//:: static inline void restore_i387_fsave( arch_thread_t *regs, const struct _vki_fpstate __user *buf )
//:: {
//:: VG_(memcpy)( ®s->m_sse.fsave, buf, sizeof(struct i387_fsave_struct) );
//:: }
//::
//:: static void restore_i387_fxsave( arch_thread_t *regs, const struct _vki_fpstate __user *buf )
//:: {
//:: VG_(memcpy)(®s->m_sse.fxsave, &buf->_fxsr_env[0],
//:: sizeof(struct i387_fxsave_struct) );
//:: /* mxcsr reserved bits must be masked to zero for security reasons */
//:: regs->m_sse.fxsave.mxcsr &= 0xffbf;
//:: convert_fxsr_from_user( ®s->m_sse.fxsave, buf );
//:: }
//::
//:: static void restore_i387( arch_thread_t *regs, const struct _vki_fpstate __user *buf )
//:: {
//:: if ( VG_(have_ssestate) ) {
//:: restore_i387_fxsave( regs, buf );
//:: } else {
//:: restore_i387_fsave( regs, buf );
//:: }
//:: }
/*------------------------------------------------------------*/
/*--- Creating signal frames ---*/
/*------------------------------------------------------------*/
/* Create a plausible-looking sigcontext from the thread's
Vex guest state. NOTE: does not fill in the FP or SSE
bits of sigcontext at the moment.
*/
static
void synth_ucontext(ThreadId tid, const vki_siginfo_t *si,
UWord trapno, UWord err, const vki_sigset_t *set,
struct vki_ucontext *uc, struct _vki_fpstate *fpstate)
{
ThreadState *tst = VG_(get_ThreadState)(tid);
struct vki_sigcontext *sc = &uc->uc_mcontext;
VG_(memset)(uc, 0, sizeof(*uc));
uc->uc_flags = 0;
uc->uc_link = 0;
uc->uc_sigmask = *set;
uc->uc_stack = tst->altstack;
sc->fpstate = fpstate;
// FIXME: save_i387(&tst->arch, fpstate);
# define SC2(reg,REG) sc->reg = tst->arch.vex.guest_##REG
SC2(r8,R8);
SC2(r9,R9);
SC2(r10,R10);
SC2(r11,R11);
SC2(r12,R12);
SC2(r13,R13);
SC2(r14,R14);
SC2(r15,R15);
SC2(rdi,RDI);
SC2(rsi,RSI);
SC2(rbp,RBP);
SC2(rbx,RBX);
SC2(rdx,RDX);
SC2(rax,RAX);
SC2(rcx,RCX);
SC2(rsp,RSP);
SC2(rip,RIP);
sc->eflags = LibVEX_GuestAMD64_get_rflags(&tst->arch.vex);
// FIXME: SC2(cs,CS);
// FIXME: SC2(gs,GS);
// FIXME: SC2(fs,FS);
sc->trapno = trapno;
sc->err = err;
# undef SC2
sc->cr2 = (UWord)si->_sifields._sigfault._addr;
}
/* Build the Valgrind-specific part of a signal frame. */
static void build_vg_sigframe(struct vg_sigframe *frame,
ThreadState *tst,
const vki_sigset_t *mask,
UInt flags,
Int sigNo)
{
frame->sigNo_private = sigNo;
frame->magicPI = 0x31415927;
frame->vex_shadow1 = tst->arch.vex_shadow1;
frame->vex_shadow2 = tst->arch.vex_shadow2;
/* HACK ALERT */
frame->vex = tst->arch.vex;
/* end HACK ALERT */
frame->mask = tst->sig_mask;
frame->handlerflags = flags;
frame->magicE = 0x27182818;
}
static Addr build_rt_sigframe(ThreadState *tst,
Addr rsp_top_of_frame,
const vki_siginfo_t *siginfo,
const struct vki_ucontext *siguc,
void *handler, UInt flags,
const vki_sigset_t *mask,
void *restorer)
{
struct rt_sigframe *frame;
Addr rsp = rsp_top_of_frame;
Int sigNo = siginfo->si_signo;
UWord trapno;
UWord err;
rsp -= sizeof(*frame);
rsp = VG_ROUNDDN(rsp, 16) - 8;
frame = (struct rt_sigframe *)rsp;
if (! ML_(sf_maybe_extend_stack)(tst, rsp, sizeof(*frame), flags))
return rsp_top_of_frame;
/* retaddr, siginfo, uContext fields are to be written */
VG_TRACK( pre_mem_write, Vg_CoreSignal, tst->tid, "rt signal handler frame",
rsp, offsetof(struct rt_sigframe, vg) );
if (flags & VKI_SA_RESTORER)
frame->retaddr = (Addr)restorer;
else
frame->retaddr = (Addr)&VG_(amd64_linux_SUBST_FOR_rt_sigreturn);
if (siguc) {
trapno = siguc->uc_mcontext.trapno;
err = siguc->uc_mcontext.err;
} else {
trapno = 0;
err = 0;
}
VG_(memcpy)(&frame->sigInfo, siginfo, sizeof(vki_siginfo_t));
/* SIGILL defines addr to be the faulting address */
if (sigNo == VKI_SIGILL && siginfo->si_code > 0)
frame->sigInfo._sifields._sigfault._addr
= (void*)tst->arch.vex.guest_RIP;
synth_ucontext(tst->tid, siginfo, trapno, err, mask,
&frame->uContext, &frame->fpstate);
VG_TRACK( post_mem_write, Vg_CoreSignal, tst->tid,
rsp, offsetof(struct rt_sigframe, vg) );
build_vg_sigframe(&frame->vg, tst, mask, flags, sigNo);
return rsp;
}
void VG_(sigframe_create)( ThreadId tid,
Bool on_altstack,
Addr rsp_top_of_frame,
const vki_siginfo_t *siginfo,
const struct vki_ucontext *siguc,
void *handler,
UInt flags,
const vki_sigset_t *mask,
void *restorer )
{
Addr rsp;
struct rt_sigframe *frame;
ThreadState* tst = VG_(get_ThreadState)(tid);
rsp = build_rt_sigframe(tst, rsp_top_of_frame, siginfo, siguc,
handler, flags, mask, restorer);
frame = (struct rt_sigframe *)rsp;
/* Set the thread so it will next run the handler. */
/* tst->m_rsp = rsp; also notify the tool we've updated RSP */
VG_(set_SP)(tid, rsp);
VG_TRACK( post_reg_write, Vg_CoreSignal, tid, VG_O_STACK_PTR, sizeof(Addr));
//VG_(printf)("handler = %p\n", handler);
tst->arch.vex.guest_RIP = (Addr) handler;
tst->arch.vex.guest_RDI = (ULong) siginfo->si_signo;
tst->arch.vex.guest_RSI = (Addr) &frame->sigInfo;
tst->arch.vex.guest_RDX = (Addr) &frame->uContext;
/* And tell the tool that these registers have been written. */
VG_TRACK( post_reg_write, Vg_CoreSignal, tst->tid,
offsetof(VexGuestAMD64State,guest_RIP), sizeof(UWord) );
VG_TRACK( post_reg_write, Vg_CoreSignal, tst->tid,
offsetof(VexGuestAMD64State,guest_RDI), sizeof(UWord) );
VG_TRACK( post_reg_write, Vg_CoreSignal, tst->tid,
offsetof(VexGuestAMD64State,guest_RSI), sizeof(UWord) );
VG_TRACK( post_reg_write, Vg_CoreSignal, tst->tid,
offsetof(VexGuestAMD64State,guest_RDX), sizeof(UWord) );
/* This thread needs to be marked runnable, but we leave that the
caller to do. */
if (0)
VG_(printf)("pushed signal frame; %%RSP now = %#lx, "
"next %%RIP = %#llx, status=%d\n",
rsp, tst->arch.vex.guest_RIP, (Int)tst->status);
}
/*------------------------------------------------------------*/
/*--- Destroying signal frames ---*/
/*------------------------------------------------------------*/
/* Return False and don't do anything, just set the client to take a
segfault, if it looks like the frame is corrupted. */
static
Bool restore_vg_sigframe ( ThreadState *tst,
struct vg_sigframe *frame, Int *sigNo )
{
if (frame->magicPI != 0x31415927 ||
frame->magicE != 0x27182818) {
VG_(message)(Vg_UserMsg, "Thread %u return signal frame "
"corrupted. Killing process.\n",
tst->tid);
VG_(set_default_handler)(VKI_SIGSEGV);
VG_(synth_fault)(tst->tid);
*sigNo = VKI_SIGSEGV;
return False;
}
tst->sig_mask = frame->mask;
tst->tmp_sig_mask = frame->mask;
tst->arch.vex_shadow1 = frame->vex_shadow1;
tst->arch.vex_shadow2 = frame->vex_shadow2;
/* HACK ALERT */
tst->arch.vex = frame->vex;
/* end HACK ALERT */
*sigNo = frame->sigNo_private;
return True;
}
static
void restore_sigcontext( ThreadState *tst,
struct vki_sigcontext *sc,
struct _vki_fpstate *fpstate )
{
tst->arch.vex.guest_RAX = sc->rax;
tst->arch.vex.guest_RCX = sc->rcx;
tst->arch.vex.guest_RDX = sc->rdx;
tst->arch.vex.guest_RBX = sc->rbx;
tst->arch.vex.guest_RBP = sc->rbp;
tst->arch.vex.guest_RSP = sc->rsp;
tst->arch.vex.guest_RSI = sc->rsi;
tst->arch.vex.guest_RDI = sc->rdi;
tst->arch.vex.guest_R8 = sc->r8;
tst->arch.vex.guest_R9 = sc->r9;
tst->arch.vex.guest_R10 = sc->r10;
tst->arch.vex.guest_R11 = sc->r11;
tst->arch.vex.guest_R12 = sc->r12;
tst->arch.vex.guest_R13 = sc->r13;
tst->arch.vex.guest_R14 = sc->r14;
tst->arch.vex.guest_R15 = sc->r15;
//:: tst->arch.vex.guest_rflags = sc->rflags;
tst->arch.vex.guest_RIP = sc->rip;
//:: tst->arch.vex.guest_CS = sc->cs;
//:: tst->arch.vex.guest_FS = sc->fs;
//:: tst->arch.vex.guest_GS = sc->gs;
//:: restore_i387(&tst->arch, fpstate);
}
static
SizeT restore_rt_sigframe ( ThreadState *tst,
struct rt_sigframe *frame, Int *sigNo )
{
if (restore_vg_sigframe(tst, &frame->vg, sigNo))
restore_sigcontext(tst, &frame->uContext.uc_mcontext, &frame->fpstate);
return sizeof(*frame);
}
void VG_(sigframe_destroy)( ThreadId tid, Bool isRT )
{
Addr rsp;
ThreadState* tst;
SizeT size;
Int sigNo;
vg_assert(isRT);
tst = VG_(get_ThreadState)(tid);
/* Correctly reestablish the frame base address. */
rsp = tst->arch.vex.guest_RSP;
size = restore_rt_sigframe(tst, (struct rt_sigframe *)rsp, &sigNo);
VG_TRACK( die_mem_stack_signal, rsp - VG_STACK_REDZONE_SZB,
size + VG_STACK_REDZONE_SZB );
if (VG_(clo_trace_signals))
VG_(message)(
Vg_DebugMsg,
"VG_(signal_return) (thread %u): isRT=%d valid magic; RIP=%#llx\n",
tid, isRT, tst->arch.vex.guest_RIP);
/* tell the tools */
VG_TRACK( post_deliver_signal, tid, sigNo );
}
#endif // defined(VGP_amd64_linux)
/*--------------------------------------------------------------------*/
/*--- end ---*/
/*--------------------------------------------------------------------*/
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