10 |
|
* tjw@omnigroup.com Sun, 4 Jun 2000 |
11 |
|
* www.omnigroup.com/mailman/archive/macosx-dev/2000-June/002030.html |
12 |
|
* |
13 |
< |
* Basilisk II (C) 1997-2004 Christian Bauer |
13 |
> |
* Basilisk II (C) 1997-2008 Christian Bauer |
14 |
|
* |
15 |
|
* This program is free software; you can redistribute it and/or modify |
16 |
|
* it under the terms of the GNU General Public License as published by |
49 |
|
#define RETSIGTYPE void |
50 |
|
#endif |
51 |
|
|
52 |
+ |
// Size of an unsigned integer large enough to hold all bits of a pointer |
53 |
+ |
// NOTE: this can be different than SIGSEGV_REGISTER_TYPE. In |
54 |
+ |
// particular, on ILP32 systems with a 64-bit kernel (HP-UX/ia64?) |
55 |
+ |
#ifdef HAVE_WIN32_VM |
56 |
+ |
// Windows is either ILP32 or LLP64 |
57 |
+ |
typedef UINT_PTR sigsegv_uintptr_t; |
58 |
+ |
#else |
59 |
+ |
// Other systems are sane enough to follow ILP32 or LP64 models |
60 |
+ |
typedef unsigned long sigsegv_uintptr_t; |
61 |
+ |
#endif |
62 |
+ |
|
63 |
|
// Type of the system signal handler |
64 |
|
typedef RETSIGTYPE (*signal_handler)(int); |
65 |
|
|
77 |
|
* Instruction decoding aids |
78 |
|
*/ |
79 |
|
|
80 |
+ |
// Transfer type |
81 |
+ |
enum transfer_type_t { |
82 |
+ |
SIGSEGV_TRANSFER_UNKNOWN = 0, |
83 |
+ |
SIGSEGV_TRANSFER_LOAD = 1, |
84 |
+ |
SIGSEGV_TRANSFER_STORE = 2 |
85 |
+ |
}; |
86 |
+ |
|
87 |
|
// Transfer size |
88 |
|
enum transfer_size_t { |
89 |
|
SIZE_UNKNOWN, |
90 |
|
SIZE_BYTE, |
91 |
|
SIZE_WORD, // 2 bytes |
92 |
|
SIZE_LONG, // 4 bytes |
93 |
< |
SIZE_QUAD, // 8 bytes |
93 |
> |
SIZE_QUAD // 8 bytes |
94 |
|
}; |
95 |
|
|
96 |
< |
// Transfer type |
79 |
< |
typedef sigsegv_transfer_type_t transfer_type_t; |
80 |
< |
|
81 |
< |
#if (defined(powerpc) || defined(__powerpc__) || defined(__ppc__)) |
96 |
> |
#if (defined(powerpc) || defined(__powerpc__) || defined(__ppc__) || defined(__ppc64__)) |
97 |
|
// Addressing mode |
98 |
|
enum addressing_mode_t { |
99 |
|
MODE_UNKNOWN, |
241 |
|
|
242 |
|
#if HAVE_SIGINFO_T |
243 |
|
// Generic extended signal handler |
244 |
< |
#if defined(__NetBSD__) || defined(__FreeBSD__) |
244 |
> |
#if defined(__FreeBSD__) |
245 |
|
#define SIGSEGV_ALL_SIGNALS FAULT_HANDLER(SIGBUS) |
246 |
|
#else |
247 |
|
#define SIGSEGV_ALL_SIGNALS FAULT_HANDLER(SIGSEGV) |
255 |
|
#define SIGSEGV_CONTEXT_REGS (((ucontext_t *)scp)->uc_mcontext.gregs) |
256 |
|
#define SIGSEGV_FAULT_INSTRUCTION (unsigned long)SIGSEGV_CONTEXT_REGS[CTX_EPC] |
257 |
|
#if (defined(mips) || defined(__mips)) |
258 |
< |
#define SIGSEGV_REGISTER_FILE SIGSEGV_CONTEXT_REGS |
258 |
> |
#define SIGSEGV_REGISTER_FILE &SIGSEGV_CONTEXT_REGS[CTX_EPC], &SIGSEGV_CONTEXT_REGS[CTX_R0] |
259 |
|
#define SIGSEGV_SKIP_INSTRUCTION mips_skip_instruction |
260 |
|
#endif |
261 |
|
#endif |
271 |
|
#define SIGSEGV_REGISTER_FILE ((unsigned long *)SIGSEGV_CONTEXT_REGS), SIGSEGV_SPARC_GWINDOWS, SIGSEGV_SPARC_RWINDOW |
272 |
|
#define SIGSEGV_SKIP_INSTRUCTION sparc_skip_instruction |
273 |
|
#endif |
274 |
+ |
#if defined(__i386__) |
275 |
+ |
#include <sys/regset.h> |
276 |
+ |
#define SIGSEGV_CONTEXT_REGS (((ucontext_t *)scp)->uc_mcontext.gregs) |
277 |
+ |
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_CONTEXT_REGS[EIP] |
278 |
+ |
#define SIGSEGV_REGISTER_FILE (SIGSEGV_REGISTER_TYPE *)SIGSEGV_CONTEXT_REGS |
279 |
+ |
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
280 |
+ |
#endif |
281 |
|
#endif |
282 |
< |
#if defined(__FreeBSD__) |
282 |
> |
#if defined(__FreeBSD__) || defined(__OpenBSD__) |
283 |
|
#if (defined(i386) || defined(__i386__)) |
284 |
|
#define SIGSEGV_FAULT_INSTRUCTION (((struct sigcontext *)scp)->sc_eip) |
285 |
< |
#define SIGSEGV_REGISTER_FILE ((unsigned long *)&(((struct sigcontext *)scp)->sc_edi)) /* EDI is the first GPR (even below EIP) in sigcontext */ |
285 |
> |
#define SIGSEGV_REGISTER_FILE ((SIGSEGV_REGISTER_TYPE *)&(((struct sigcontext *)scp)->sc_edi)) /* EDI is the first GPR (even below EIP) in sigcontext */ |
286 |
|
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
287 |
|
#endif |
288 |
|
#endif |
289 |
+ |
#if defined(__NetBSD__) |
290 |
+ |
#if (defined(i386) || defined(__i386__)) |
291 |
+ |
#include <sys/ucontext.h> |
292 |
+ |
#define SIGSEGV_CONTEXT_REGS (((ucontext_t *)scp)->uc_mcontext.__gregs) |
293 |
+ |
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_CONTEXT_REGS[_REG_EIP] |
294 |
+ |
#define SIGSEGV_REGISTER_FILE (SIGSEGV_REGISTER_TYPE *)SIGSEGV_CONTEXT_REGS |
295 |
+ |
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
296 |
+ |
#endif |
297 |
+ |
#if (defined(powerpc) || defined(__powerpc__)) |
298 |
+ |
#include <sys/ucontext.h> |
299 |
+ |
#define SIGSEGV_CONTEXT_REGS (((ucontext_t *)scp)->uc_mcontext.__gregs) |
300 |
+ |
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_CONTEXT_REGS[_REG_PC] |
301 |
+ |
#define SIGSEGV_REGISTER_FILE (unsigned long *)&SIGSEGV_CONTEXT_REGS[_REG_PC], (unsigned long *)&SIGSEGV_CONTEXT_REGS[_REG_R0] |
302 |
+ |
#define SIGSEGV_SKIP_INSTRUCTION powerpc_skip_instruction |
303 |
+ |
#endif |
304 |
+ |
#endif |
305 |
|
#if defined(__linux__) |
306 |
|
#if (defined(i386) || defined(__i386__)) |
307 |
|
#include <sys/ucontext.h> |
308 |
|
#define SIGSEGV_CONTEXT_REGS (((ucontext_t *)scp)->uc_mcontext.gregs) |
309 |
|
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_CONTEXT_REGS[14] /* should use REG_EIP instead */ |
310 |
< |
#define SIGSEGV_REGISTER_FILE (unsigned long *)SIGSEGV_CONTEXT_REGS |
310 |
> |
#define SIGSEGV_REGISTER_FILE (SIGSEGV_REGISTER_TYPE *)SIGSEGV_CONTEXT_REGS |
311 |
|
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
312 |
|
#endif |
313 |
|
#if (defined(x86_64) || defined(__x86_64__)) |
314 |
|
#include <sys/ucontext.h> |
315 |
|
#define SIGSEGV_CONTEXT_REGS (((ucontext_t *)scp)->uc_mcontext.gregs) |
316 |
|
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_CONTEXT_REGS[16] /* should use REG_RIP instead */ |
317 |
< |
#define SIGSEGV_REGISTER_FILE (unsigned long *)SIGSEGV_CONTEXT_REGS |
317 |
> |
#define SIGSEGV_REGISTER_FILE (SIGSEGV_REGISTER_TYPE *)SIGSEGV_CONTEXT_REGS |
318 |
|
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
319 |
|
#endif |
320 |
|
#if (defined(ia64) || defined(__ia64__)) |
321 |
< |
#define SIGSEGV_FAULT_INSTRUCTION (((struct sigcontext *)scp)->sc_ip & ~0x3ULL) /* slot number is in bits 0 and 1 */ |
321 |
> |
#define SIGSEGV_CONTEXT_REGS ((struct sigcontext *)scp) |
322 |
> |
#define SIGSEGV_FAULT_INSTRUCTION (SIGSEGV_CONTEXT_REGS->sc_ip & ~0x3ULL) /* slot number is in bits 0 and 1 */ |
323 |
> |
#define SIGSEGV_REGISTER_FILE SIGSEGV_CONTEXT_REGS |
324 |
> |
#define SIGSEGV_SKIP_INSTRUCTION ia64_skip_instruction |
325 |
|
#endif |
326 |
|
#if (defined(powerpc) || defined(__powerpc__)) |
327 |
|
#include <sys/ucontext.h> |
341 |
|
#define SIGSEGV_REGISTER_FILE (&SIGSEGV_CONTEXT_REGS.arm_r0) |
342 |
|
#define SIGSEGV_SKIP_INSTRUCTION arm_skip_instruction |
343 |
|
#endif |
344 |
+ |
#if (defined(mips) || defined(__mips__)) |
345 |
+ |
#include <sys/ucontext.h> |
346 |
+ |
#define SIGSEGV_CONTEXT_REGS (((struct ucontext *)scp)->uc_mcontext) |
347 |
+ |
#define SIGSEGV_FAULT_INSTRUCTION (SIGSEGV_CONTEXT_REGS.pc) |
348 |
+ |
#define SIGSEGV_REGISTER_FILE &SIGSEGV_CONTEXT_REGS.pc, &SIGSEGV_CONTEXT_REGS.gregs[0] |
349 |
+ |
#define SIGSEGV_SKIP_INSTRUCTION mips_skip_instruction |
350 |
+ |
#endif |
351 |
|
#endif |
352 |
|
#endif |
353 |
|
|
362 |
|
#define SIGSEGV_FAULT_HANDLER_ARGS &scs |
363 |
|
#define SIGSEGV_FAULT_ADDRESS scp->cr2 |
364 |
|
#define SIGSEGV_FAULT_INSTRUCTION scp->eip |
365 |
< |
#define SIGSEGV_REGISTER_FILE (unsigned long *)scp |
365 |
> |
#define SIGSEGV_REGISTER_FILE (SIGSEGV_REGISTER_TYPE *)scp |
366 |
|
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
367 |
|
#endif |
368 |
|
#if (defined(sparc) || defined(__sparc__)) |
483 |
|
#define SIGSEGV_FAULT_HANDLER_ARGS sig, code, scp, addr |
484 |
|
#define SIGSEGV_FAULT_ADDRESS addr |
485 |
|
#define SIGSEGV_FAULT_INSTRUCTION scp->sc_eip |
486 |
< |
#define SIGSEGV_REGISTER_FILE ((unsigned long *)&scp->sc_edi) |
486 |
> |
#define SIGSEGV_REGISTER_FILE ((SIGSEGV_REGISTER_TYPE *)&scp->sc_edi) |
487 |
|
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
488 |
|
#endif |
489 |
|
#if (defined(alpha) || defined(__alpha__)) |
546 |
|
#include <windows.h> |
547 |
|
#include <winerror.h> |
548 |
|
|
549 |
+ |
#if defined(_M_IX86) |
550 |
|
#define SIGSEGV_FAULT_HANDLER_ARGLIST EXCEPTION_POINTERS *ExceptionInfo |
551 |
|
#define SIGSEGV_FAULT_HANDLER_ARGS ExceptionInfo |
552 |
|
#define SIGSEGV_FAULT_ADDRESS ExceptionInfo->ExceptionRecord->ExceptionInformation[1] |
553 |
|
#define SIGSEGV_CONTEXT_REGS ExceptionInfo->ContextRecord |
554 |
|
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_CONTEXT_REGS->Eip |
555 |
< |
#define SIGSEGV_REGISTER_FILE ((unsigned long *)&SIGSEGV_CONTEXT_REGS->Edi) |
555 |
> |
#define SIGSEGV_REGISTER_FILE ((SIGSEGV_REGISTER_TYPE *)&SIGSEGV_CONTEXT_REGS->Edi) |
556 |
|
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
557 |
|
#endif |
558 |
+ |
#if defined(_M_X64) |
559 |
+ |
#define SIGSEGV_FAULT_HANDLER_ARGLIST EXCEPTION_POINTERS *ExceptionInfo |
560 |
+ |
#define SIGSEGV_FAULT_HANDLER_ARGS ExceptionInfo |
561 |
+ |
#define SIGSEGV_FAULT_ADDRESS ExceptionInfo->ExceptionRecord->ExceptionInformation[1] |
562 |
+ |
#define SIGSEGV_CONTEXT_REGS ExceptionInfo->ContextRecord |
563 |
+ |
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_CONTEXT_REGS->Rip |
564 |
+ |
#define SIGSEGV_REGISTER_FILE ((SIGSEGV_REGISTER_TYPE *)&SIGSEGV_CONTEXT_REGS->Rax) |
565 |
+ |
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
566 |
+ |
#endif |
567 |
+ |
#endif |
568 |
|
|
569 |
|
#if HAVE_MACH_EXCEPTIONS |
570 |
|
|
626 |
|
exit (1); \ |
627 |
|
} |
628 |
|
|
629 |
< |
#define SIGSEGV_FAULT_ADDRESS code[1] |
630 |
< |
#define SIGSEGV_FAULT_INSTRUCTION get_fault_instruction(thread, state) |
631 |
< |
#define SIGSEGV_FAULT_HANDLER_INVOKE(ADDR, IP) ((code[0] == KERN_PROTECTION_FAILURE) ? sigsegv_fault_handler(ADDR, IP) : SIGSEGV_RETURN_FAILURE) |
632 |
< |
#define SIGSEGV_FAULT_HANDLER_ARGLIST mach_port_t thread, exception_data_t code, ppc_thread_state_t *state |
633 |
< |
#define SIGSEGV_FAULT_HANDLER_ARGS thread, code, &state |
629 |
> |
#ifdef __ppc__ |
630 |
> |
#if __DARWIN_UNIX03 && defined _STRUCT_PPC_THREAD_STATE |
631 |
> |
#define MACH_FIELD_NAME(X) __CONCAT(__,X) |
632 |
> |
#endif |
633 |
> |
#define SIGSEGV_EXCEPTION_STATE_TYPE ppc_exception_state_t |
634 |
> |
#define SIGSEGV_EXCEPTION_STATE_FLAVOR PPC_EXCEPTION_STATE |
635 |
> |
#define SIGSEGV_EXCEPTION_STATE_COUNT PPC_EXCEPTION_STATE_COUNT |
636 |
> |
#define SIGSEGV_FAULT_ADDRESS SIP->exc_state.MACH_FIELD_NAME(dar) |
637 |
> |
#define SIGSEGV_THREAD_STATE_TYPE ppc_thread_state_t |
638 |
> |
#define SIGSEGV_THREAD_STATE_FLAVOR PPC_THREAD_STATE |
639 |
> |
#define SIGSEGV_THREAD_STATE_COUNT PPC_THREAD_STATE_COUNT |
640 |
> |
#define SIGSEGV_FAULT_INSTRUCTION SIP->thr_state.MACH_FIELD_NAME(srr0) |
641 |
|
#define SIGSEGV_SKIP_INSTRUCTION powerpc_skip_instruction |
642 |
< |
#define SIGSEGV_REGISTER_FILE &state->srr0, &state->r0 |
643 |
< |
|
644 |
< |
// Given a suspended thread, stuff the current instruction and |
645 |
< |
// registers into state. |
646 |
< |
// |
647 |
< |
// It would have been nice to have this be ppc/x86 independant which |
648 |
< |
// could have been done easily with a thread_state_t instead of |
649 |
< |
// ppc_thread_state_t, but because of the way this is called it is |
650 |
< |
// easier to do it this way. |
651 |
< |
#if (defined(ppc) || defined(__ppc__)) |
652 |
< |
static inline sigsegv_address_t get_fault_instruction(mach_port_t thread, ppc_thread_state_t *state) |
653 |
< |
{ |
654 |
< |
kern_return_t krc; |
655 |
< |
mach_msg_type_number_t count; |
656 |
< |
|
657 |
< |
count = MACHINE_THREAD_STATE_COUNT; |
658 |
< |
krc = thread_get_state(thread, MACHINE_THREAD_STATE, (thread_state_t)state, &count); |
659 |
< |
MACH_CHECK_ERROR (thread_get_state, krc); |
642 |
> |
#define SIGSEGV_REGISTER_FILE (unsigned long *)&SIP->thr_state.MACH_FIELD_NAME(srr0), (unsigned long *)&SIP->thr_state.MACH_FIELD_NAME(r0) |
643 |
> |
#endif |
644 |
> |
#ifdef __ppc64__ |
645 |
> |
#if __DARWIN_UNIX03 && defined _STRUCT_PPC_THREAD_STATE64 |
646 |
> |
#define MACH_FIELD_NAME(X) __CONCAT(__,X) |
647 |
> |
#endif |
648 |
> |
#define SIGSEGV_EXCEPTION_STATE_TYPE ppc_exception_state64_t |
649 |
> |
#define SIGSEGV_EXCEPTION_STATE_FLAVOR PPC_EXCEPTION_STATE64 |
650 |
> |
#define SIGSEGV_EXCEPTION_STATE_COUNT PPC_EXCEPTION_STATE64_COUNT |
651 |
> |
#define SIGSEGV_FAULT_ADDRESS SIP->exc_state.MACH_FIELD_NAME(dar) |
652 |
> |
#define SIGSEGV_THREAD_STATE_TYPE ppc_thread_state64_t |
653 |
> |
#define SIGSEGV_THREAD_STATE_FLAVOR PPC_THREAD_STATE64 |
654 |
> |
#define SIGSEGV_THREAD_STATE_COUNT PPC_THREAD_STATE64_COUNT |
655 |
> |
#define SIGSEGV_FAULT_INSTRUCTION SIP->thr_state.MACH_FIELD_NAME(srr0) |
656 |
> |
#define SIGSEGV_SKIP_INSTRUCTION powerpc_skip_instruction |
657 |
> |
#define SIGSEGV_REGISTER_FILE (unsigned long *)&SIP->thr_state.MACH_FIELD_NAME(srr0), (unsigned long *)&SIP->thr_state.MACH_FIELD_NAME(r0) |
658 |
> |
#endif |
659 |
> |
#ifdef __i386__ |
660 |
> |
#if __DARWIN_UNIX03 && defined _STRUCT_X86_THREAD_STATE32 |
661 |
> |
#define MACH_FIELD_NAME(X) __CONCAT(__,X) |
662 |
> |
#endif |
663 |
> |
#define SIGSEGV_EXCEPTION_STATE_TYPE i386_exception_state_t |
664 |
> |
#define SIGSEGV_EXCEPTION_STATE_FLAVOR i386_EXCEPTION_STATE |
665 |
> |
#define SIGSEGV_EXCEPTION_STATE_COUNT i386_EXCEPTION_STATE_COUNT |
666 |
> |
#define SIGSEGV_FAULT_ADDRESS SIP->exc_state.MACH_FIELD_NAME(faultvaddr) |
667 |
> |
#define SIGSEGV_THREAD_STATE_TYPE i386_thread_state_t |
668 |
> |
#define SIGSEGV_THREAD_STATE_FLAVOR i386_THREAD_STATE |
669 |
> |
#define SIGSEGV_THREAD_STATE_COUNT i386_THREAD_STATE_COUNT |
670 |
> |
#define SIGSEGV_FAULT_INSTRUCTION SIP->thr_state.MACH_FIELD_NAME(eip) |
671 |
> |
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
672 |
> |
#define SIGSEGV_REGISTER_FILE ((SIGSEGV_REGISTER_TYPE *)&SIP->thr_state.MACH_FIELD_NAME(eax)) /* EAX is the first GPR we consider */ |
673 |
> |
#endif |
674 |
> |
#ifdef __x86_64__ |
675 |
> |
#if __DARWIN_UNIX03 && defined _STRUCT_X86_THREAD_STATE64 |
676 |
> |
#define MACH_FIELD_NAME(X) __CONCAT(__,X) |
677 |
> |
#endif |
678 |
> |
#define SIGSEGV_EXCEPTION_STATE_TYPE x86_exception_state64_t |
679 |
> |
#define SIGSEGV_EXCEPTION_STATE_FLAVOR x86_EXCEPTION_STATE64 |
680 |
> |
#define SIGSEGV_EXCEPTION_STATE_COUNT x86_EXCEPTION_STATE64_COUNT |
681 |
> |
#define SIGSEGV_FAULT_ADDRESS SIP->exc_state.MACH_FIELD_NAME(faultvaddr) |
682 |
> |
#define SIGSEGV_THREAD_STATE_TYPE x86_thread_state64_t |
683 |
> |
#define SIGSEGV_THREAD_STATE_FLAVOR x86_THREAD_STATE64 |
684 |
> |
#define SIGSEGV_THREAD_STATE_COUNT x86_THREAD_STATE64_COUNT |
685 |
> |
#define SIGSEGV_FAULT_INSTRUCTION SIP->thr_state.MACH_FIELD_NAME(rip) |
686 |
> |
#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction |
687 |
> |
#define SIGSEGV_REGISTER_FILE ((SIGSEGV_REGISTER_TYPE *)&SIP->thr_state.MACH_FIELD_NAME(rax)) /* RAX is the first GPR we consider */ |
688 |
> |
#endif |
689 |
> |
#define SIGSEGV_FAULT_ADDRESS_FAST code[1] |
690 |
> |
#define SIGSEGV_FAULT_INSTRUCTION_FAST SIGSEGV_INVALID_ADDRESS |
691 |
> |
#define SIGSEGV_FAULT_HANDLER_ARGLIST mach_port_t thread, exception_data_t code |
692 |
> |
#define SIGSEGV_FAULT_HANDLER_ARGS thread, code |
693 |
|
|
694 |
< |
return (sigsegv_address_t)state->srr0; |
695 |
< |
} |
694 |
> |
#ifndef MACH_FIELD_NAME |
695 |
> |
#define MACH_FIELD_NAME(X) X |
696 |
|
#endif |
697 |
|
|
698 |
|
// Since there can only be one exception thread running at any time |
746 |
|
* Instruction skipping |
747 |
|
*/ |
748 |
|
|
749 |
+ |
#ifndef SIGSEGV_REGISTER_TYPE |
750 |
+ |
#define SIGSEGV_REGISTER_TYPE sigsegv_uintptr_t |
751 |
+ |
#endif |
752 |
+ |
|
753 |
|
#ifdef HAVE_SIGSEGV_SKIP_INSTRUCTION |
754 |
|
// Decode and skip X86 instruction |
755 |
< |
#if (defined(i386) || defined(__i386__)) || defined(__x86_64__) |
755 |
> |
#if (defined(i386) || defined(__i386__)) || (defined(__x86_64__) || defined(_M_X64)) |
756 |
|
#if defined(__linux__) |
757 |
|
enum { |
758 |
|
#if (defined(i386) || defined(__i386__)) |
787 |
|
#endif |
788 |
|
}; |
789 |
|
#endif |
790 |
< |
#if defined(__NetBSD__) || defined(__FreeBSD__) |
790 |
> |
#if defined(__NetBSD__) |
791 |
> |
enum { |
792 |
> |
#if (defined(i386) || defined(__i386__)) |
793 |
> |
X86_REG_EIP = _REG_EIP, |
794 |
> |
X86_REG_EAX = _REG_EAX, |
795 |
> |
X86_REG_ECX = _REG_ECX, |
796 |
> |
X86_REG_EDX = _REG_EDX, |
797 |
> |
X86_REG_EBX = _REG_EBX, |
798 |
> |
X86_REG_ESP = _REG_ESP, |
799 |
> |
X86_REG_EBP = _REG_EBP, |
800 |
> |
X86_REG_ESI = _REG_ESI, |
801 |
> |
X86_REG_EDI = _REG_EDI |
802 |
> |
#endif |
803 |
> |
}; |
804 |
> |
#endif |
805 |
> |
#if defined(__FreeBSD__) |
806 |
|
enum { |
807 |
|
#if (defined(i386) || defined(__i386__)) |
808 |
|
X86_REG_EIP = 10, |
817 |
|
#endif |
818 |
|
}; |
819 |
|
#endif |
820 |
< |
#if defined(_WIN32) |
820 |
> |
#if defined(__OpenBSD__) |
821 |
> |
enum { |
822 |
> |
#if defined(__i386__) |
823 |
> |
// EDI is the first register we consider |
824 |
> |
#define OREG(REG) offsetof(struct sigcontext, sc_##REG) |
825 |
> |
#define DREG(REG) ((OREG(REG) - OREG(edi)) / 4) |
826 |
> |
X86_REG_EIP = DREG(eip), // 7 |
827 |
> |
X86_REG_EAX = DREG(eax), // 6 |
828 |
> |
X86_REG_ECX = DREG(ecx), // 5 |
829 |
> |
X86_REG_EDX = DREG(edx), // 4 |
830 |
> |
X86_REG_EBX = DREG(ebx), // 3 |
831 |
> |
X86_REG_ESP = DREG(esp), // 10 |
832 |
> |
X86_REG_EBP = DREG(ebp), // 2 |
833 |
> |
X86_REG_ESI = DREG(esi), // 1 |
834 |
> |
X86_REG_EDI = DREG(edi) // 0 |
835 |
> |
#undef DREG |
836 |
> |
#undef OREG |
837 |
> |
#endif |
838 |
> |
}; |
839 |
> |
#endif |
840 |
> |
#if defined(__sun__) |
841 |
> |
// Same as for Linux, need to check for x86-64 |
842 |
> |
enum { |
843 |
> |
#if defined(__i386__) |
844 |
> |
X86_REG_EIP = EIP, |
845 |
> |
X86_REG_EAX = EAX, |
846 |
> |
X86_REG_ECX = ECX, |
847 |
> |
X86_REG_EDX = EDX, |
848 |
> |
X86_REG_EBX = EBX, |
849 |
> |
X86_REG_ESP = ESP, |
850 |
> |
X86_REG_EBP = EBP, |
851 |
> |
X86_REG_ESI = ESI, |
852 |
> |
X86_REG_EDI = EDI |
853 |
> |
#endif |
854 |
> |
}; |
855 |
> |
#endif |
856 |
> |
#if defined(__APPLE__) && defined(__MACH__) |
857 |
|
enum { |
858 |
|
#if (defined(i386) || defined(__i386__)) |
859 |
+ |
#ifdef i386_SAVED_STATE |
860 |
+ |
// same as FreeBSD (in Open Darwin 8.0.1) |
861 |
+ |
X86_REG_EIP = 10, |
862 |
+ |
X86_REG_EAX = 7, |
863 |
+ |
X86_REG_ECX = 6, |
864 |
+ |
X86_REG_EDX = 5, |
865 |
+ |
X86_REG_EBX = 4, |
866 |
+ |
X86_REG_ESP = 13, |
867 |
+ |
X86_REG_EBP = 2, |
868 |
+ |
X86_REG_ESI = 1, |
869 |
+ |
X86_REG_EDI = 0 |
870 |
+ |
#else |
871 |
+ |
// new layout (MacOS X 10.4.4 for x86) |
872 |
+ |
X86_REG_EIP = 10, |
873 |
+ |
X86_REG_EAX = 0, |
874 |
+ |
X86_REG_ECX = 2, |
875 |
+ |
X86_REG_EDX = 3, |
876 |
+ |
X86_REG_EBX = 1, |
877 |
+ |
X86_REG_ESP = 7, |
878 |
+ |
X86_REG_EBP = 6, |
879 |
+ |
X86_REG_ESI = 5, |
880 |
+ |
X86_REG_EDI = 4 |
881 |
+ |
#endif |
882 |
+ |
#endif |
883 |
+ |
#if defined(__x86_64__) |
884 |
+ |
X86_REG_R8 = 8, |
885 |
+ |
X86_REG_R9 = 9, |
886 |
+ |
X86_REG_R10 = 10, |
887 |
+ |
X86_REG_R11 = 11, |
888 |
+ |
X86_REG_R12 = 12, |
889 |
+ |
X86_REG_R13 = 13, |
890 |
+ |
X86_REG_R14 = 14, |
891 |
+ |
X86_REG_R15 = 15, |
892 |
+ |
X86_REG_EDI = 4, |
893 |
+ |
X86_REG_ESI = 5, |
894 |
+ |
X86_REG_EBP = 6, |
895 |
+ |
X86_REG_EBX = 1, |
896 |
+ |
X86_REG_EDX = 3, |
897 |
+ |
X86_REG_EAX = 0, |
898 |
+ |
X86_REG_ECX = 2, |
899 |
+ |
X86_REG_ESP = 7, |
900 |
+ |
X86_REG_EIP = 16 |
901 |
+ |
#endif |
902 |
+ |
}; |
903 |
+ |
#endif |
904 |
+ |
#if defined(_WIN32) |
905 |
+ |
enum { |
906 |
+ |
#if defined(_M_IX86) |
907 |
|
X86_REG_EIP = 7, |
908 |
|
X86_REG_EAX = 5, |
909 |
|
X86_REG_ECX = 4, |
914 |
|
X86_REG_ESI = 1, |
915 |
|
X86_REG_EDI = 0 |
916 |
|
#endif |
917 |
+ |
#if defined(_M_X64) |
918 |
+ |
X86_REG_EAX = 0, |
919 |
+ |
X86_REG_ECX = 1, |
920 |
+ |
X86_REG_EDX = 2, |
921 |
+ |
X86_REG_EBX = 3, |
922 |
+ |
X86_REG_ESP = 4, |
923 |
+ |
X86_REG_EBP = 5, |
924 |
+ |
X86_REG_ESI = 6, |
925 |
+ |
X86_REG_EDI = 7, |
926 |
+ |
X86_REG_R8 = 8, |
927 |
+ |
X86_REG_R9 = 9, |
928 |
+ |
X86_REG_R10 = 10, |
929 |
+ |
X86_REG_R11 = 11, |
930 |
+ |
X86_REG_R12 = 12, |
931 |
+ |
X86_REG_R13 = 13, |
932 |
+ |
X86_REG_R14 = 14, |
933 |
+ |
X86_REG_R15 = 15, |
934 |
+ |
X86_REG_EIP = 16 |
935 |
+ |
#endif |
936 |
|
}; |
937 |
|
#endif |
938 |
|
// FIXME: this is partly redundant with the instruction decoding phase |
969 |
|
return offset; |
970 |
|
} |
971 |
|
|
972 |
< |
static bool ix86_skip_instruction(unsigned long * regs) |
972 |
> |
static bool ix86_skip_instruction(SIGSEGV_REGISTER_TYPE * regs) |
973 |
|
{ |
974 |
|
unsigned char * eip = (unsigned char *)regs[X86_REG_EIP]; |
975 |
|
|
980 |
|
return false; |
981 |
|
#endif |
982 |
|
|
983 |
+ |
enum instruction_type_t { |
984 |
+ |
i_MOV, |
985 |
+ |
i_ADD |
986 |
+ |
}; |
987 |
+ |
|
988 |
|
transfer_type_t transfer_type = SIGSEGV_TRANSFER_UNKNOWN; |
989 |
|
transfer_size_t transfer_size = SIZE_LONG; |
990 |
+ |
instruction_type_t instruction_type = i_MOV; |
991 |
|
|
992 |
|
int reg = -1; |
993 |
|
int len = 0; |
1005 |
|
} |
1006 |
|
|
1007 |
|
// REX prefix |
1008 |
< |
#if defined(__x86_64__) |
1008 |
> |
#if defined(__x86_64__) || defined(_M_X64) |
1009 |
|
struct rex_t { |
1010 |
|
unsigned char W; |
1011 |
|
unsigned char R; |
1038 |
|
#endif |
1039 |
|
|
1040 |
|
// Decode instruction |
1041 |
+ |
int op_len = 1; |
1042 |
|
int target_size = SIZE_UNKNOWN; |
1043 |
|
switch (eip[0]) { |
1044 |
|
case 0x0f: |
1053 |
|
transfer_size = SIZE_WORD; |
1054 |
|
goto do_mov_extend; |
1055 |
|
do_mov_extend: |
1056 |
< |
switch (eip[2] & 0xc0) { |
1057 |
< |
case 0x80: |
1058 |
< |
reg = (eip[2] >> 3) & 7; |
1059 |
< |
transfer_type = SIGSEGV_TRANSFER_LOAD; |
1060 |
< |
break; |
1061 |
< |
case 0x40: |
1062 |
< |
reg = (eip[2] >> 3) & 7; |
1063 |
< |
transfer_type = SIGSEGV_TRANSFER_LOAD; |
1064 |
< |
break; |
1065 |
< |
case 0x00: |
1066 |
< |
reg = (eip[2] >> 3) & 7; |
1067 |
< |
transfer_type = SIGSEGV_TRANSFER_LOAD; |
1068 |
< |
break; |
1069 |
< |
} |
1070 |
< |
len += 3 + ix86_step_over_modrm(eip + 2); |
1071 |
< |
break; |
1072 |
< |
} |
1073 |
< |
break; |
1056 |
> |
op_len = 2; |
1057 |
> |
goto do_transfer_load; |
1058 |
> |
} |
1059 |
> |
break; |
1060 |
> |
#if defined(__x86_64__) || defined(_M_X64) |
1061 |
> |
case 0x63: // MOVSXD r64, r/m32 |
1062 |
> |
if (has_rex && rex.W) { |
1063 |
> |
transfer_size = SIZE_LONG; |
1064 |
> |
target_size = SIZE_QUAD; |
1065 |
> |
} |
1066 |
> |
else if (transfer_size != SIZE_WORD) { |
1067 |
> |
transfer_size = SIZE_LONG; |
1068 |
> |
target_size = SIZE_QUAD; |
1069 |
> |
} |
1070 |
> |
goto do_transfer_load; |
1071 |
> |
#endif |
1072 |
> |
case 0x02: // ADD r8, r/m8 |
1073 |
> |
transfer_size = SIZE_BYTE; |
1074 |
> |
case 0x03: // ADD r32, r/m32 |
1075 |
> |
instruction_type = i_ADD; |
1076 |
> |
goto do_transfer_load; |
1077 |
|
case 0x8a: // MOV r8, r/m8 |
1078 |
|
transfer_size = SIZE_BYTE; |
1079 |
|
case 0x8b: // MOV r32, r/m32 (or 16-bit operation) |
1080 |
< |
switch (eip[1] & 0xc0) { |
1080 |
> |
do_transfer_load: |
1081 |
> |
switch (eip[op_len] & 0xc0) { |
1082 |
|
case 0x80: |
1083 |
< |
reg = (eip[1] >> 3) & 7; |
1083 |
> |
reg = (eip[op_len] >> 3) & 7; |
1084 |
|
transfer_type = SIGSEGV_TRANSFER_LOAD; |
1085 |
|
break; |
1086 |
|
case 0x40: |
1087 |
< |
reg = (eip[1] >> 3) & 7; |
1087 |
> |
reg = (eip[op_len] >> 3) & 7; |
1088 |
|
transfer_type = SIGSEGV_TRANSFER_LOAD; |
1089 |
|
break; |
1090 |
|
case 0x00: |
1091 |
< |
reg = (eip[1] >> 3) & 7; |
1091 |
> |
reg = (eip[op_len] >> 3) & 7; |
1092 |
|
transfer_type = SIGSEGV_TRANSFER_LOAD; |
1093 |
|
break; |
1094 |
|
} |
1095 |
< |
len += 2 + ix86_step_over_modrm(eip + 1); |
1095 |
> |
len += 1 + op_len + ix86_step_over_modrm(eip + op_len); |
1096 |
|
break; |
1097 |
+ |
case 0x00: // ADD r/m8, r8 |
1098 |
+ |
transfer_size = SIZE_BYTE; |
1099 |
+ |
case 0x01: // ADD r/m32, r32 |
1100 |
+ |
instruction_type = i_ADD; |
1101 |
+ |
goto do_transfer_store; |
1102 |
|
case 0x88: // MOV r/m8, r8 |
1103 |
|
transfer_size = SIZE_BYTE; |
1104 |
|
case 0x89: // MOV r/m32, r32 (or 16-bit operation) |
1105 |
< |
switch (eip[1] & 0xc0) { |
1105 |
> |
do_transfer_store: |
1106 |
> |
switch (eip[op_len] & 0xc0) { |
1107 |
|
case 0x80: |
1108 |
< |
reg = (eip[1] >> 3) & 7; |
1108 |
> |
reg = (eip[op_len] >> 3) & 7; |
1109 |
|
transfer_type = SIGSEGV_TRANSFER_STORE; |
1110 |
|
break; |
1111 |
|
case 0x40: |
1112 |
< |
reg = (eip[1] >> 3) & 7; |
1112 |
> |
reg = (eip[op_len] >> 3) & 7; |
1113 |
|
transfer_type = SIGSEGV_TRANSFER_STORE; |
1114 |
|
break; |
1115 |
|
case 0x00: |
1116 |
< |
reg = (eip[1] >> 3) & 7; |
1116 |
> |
reg = (eip[op_len] >> 3) & 7; |
1117 |
|
transfer_type = SIGSEGV_TRANSFER_STORE; |
1118 |
|
break; |
1119 |
|
} |
1120 |
< |
len += 2 + ix86_step_over_modrm(eip + 1); |
1120 |
> |
len += 1 + op_len + ix86_step_over_modrm(eip + op_len); |
1121 |
|
break; |
1122 |
|
} |
1123 |
|
if (target_size == SIZE_UNKNOWN) |
1128 |
|
return false; |
1129 |
|
} |
1130 |
|
|
1131 |
< |
#if defined(__x86_64__) |
1131 |
> |
#if defined(__x86_64__) || defined(_M_X64) |
1132 |
|
if (rex.R) |
1133 |
|
reg += 8; |
1134 |
|
#endif |
1135 |
|
|
1136 |
< |
if (transfer_type == SIGSEGV_TRANSFER_LOAD && reg != -1) { |
1136 |
> |
if (instruction_type == i_MOV && transfer_type == SIGSEGV_TRANSFER_LOAD && reg != -1) { |
1137 |
|
static const int x86_reg_map[] = { |
1138 |
|
X86_REG_EAX, X86_REG_ECX, X86_REG_EDX, X86_REG_EBX, |
1139 |
|
X86_REG_ESP, X86_REG_EBP, X86_REG_ESI, X86_REG_EDI, |
1140 |
< |
#if defined(__x86_64__) |
1140 |
> |
#if defined(__x86_64__) || defined(_M_X64) |
1141 |
|
X86_REG_R8, X86_REG_R9, X86_REG_R10, X86_REG_R11, |
1142 |
|
X86_REG_R12, X86_REG_R13, X86_REG_R14, X86_REG_R15, |
1143 |
|
#endif |
1169 |
|
} |
1170 |
|
|
1171 |
|
#if DEBUG |
1172 |
< |
printf("%08x: %s %s access", regs[X86_REG_EIP], |
1172 |
> |
printf("%p: %s %s access", (void *)regs[X86_REG_EIP], |
1173 |
|
transfer_size == SIZE_BYTE ? "byte" : |
1174 |
|
transfer_size == SIZE_WORD ? "word" : |
1175 |
|
transfer_size == SIZE_LONG ? "long" : |
1224 |
|
} |
1225 |
|
#endif |
1226 |
|
|
1227 |
+ |
// Decode and skip IA-64 instruction |
1228 |
+ |
#if defined(__ia64__) |
1229 |
+ |
#if defined(__linux__) |
1230 |
+ |
// We can directly patch the slot number |
1231 |
+ |
#define IA64_CAN_PATCH_IP_SLOT 1 |
1232 |
+ |
// Helper macros to access the machine context |
1233 |
+ |
#define IA64_CONTEXT_TYPE struct sigcontext * |
1234 |
+ |
#define IA64_CONTEXT scp |
1235 |
+ |
#define IA64_GET_IP() (IA64_CONTEXT->sc_ip) |
1236 |
+ |
#define IA64_SET_IP(V) (IA64_CONTEXT->sc_ip = (V)) |
1237 |
+ |
#define IA64_GET_PR(P) ((IA64_CONTEXT->sc_pr >> (P)) & 1) |
1238 |
+ |
#define IA64_GET_NAT(I) ((IA64_CONTEXT->sc_nat >> (I)) & 1) |
1239 |
+ |
#define IA64_SET_NAT(I,V) (IA64_CONTEXT->sc_nat= (IA64_CONTEXT->sc_nat & ~(1ul << (I))) | (((unsigned long)!!(V)) << (I))) |
1240 |
+ |
#define IA64_GET_GR(R) (IA64_CONTEXT->sc_gr[(R)]) |
1241 |
+ |
#define IA64_SET_GR(R,V) (IA64_CONTEXT->sc_gr[(R)] = (V)) |
1242 |
+ |
#endif |
1243 |
+ |
|
1244 |
+ |
// Instruction operations |
1245 |
+ |
enum { |
1246 |
+ |
IA64_INST_UNKNOWN = 0, |
1247 |
+ |
IA64_INST_LD1, // ld1 op0=[op1] |
1248 |
+ |
IA64_INST_LD1_UPDATE, // ld1 op0=[op1],op2 |
1249 |
+ |
IA64_INST_LD2, // ld2 op0=[op1] |
1250 |
+ |
IA64_INST_LD2_UPDATE, // ld2 op0=[op1],op2 |
1251 |
+ |
IA64_INST_LD4, // ld4 op0=[op1] |
1252 |
+ |
IA64_INST_LD4_UPDATE, // ld4 op0=[op1],op2 |
1253 |
+ |
IA64_INST_LD8, // ld8 op0=[op1] |
1254 |
+ |
IA64_INST_LD8_UPDATE, // ld8 op0=[op1],op2 |
1255 |
+ |
IA64_INST_ST1, // st1 [op0]=op1 |
1256 |
+ |
IA64_INST_ST1_UPDATE, // st1 [op0]=op1,op2 |
1257 |
+ |
IA64_INST_ST2, // st2 [op0]=op1 |
1258 |
+ |
IA64_INST_ST2_UPDATE, // st2 [op0]=op1,op2 |
1259 |
+ |
IA64_INST_ST4, // st4 [op0]=op1 |
1260 |
+ |
IA64_INST_ST4_UPDATE, // st4 [op0]=op1,op2 |
1261 |
+ |
IA64_INST_ST8, // st8 [op0]=op1 |
1262 |
+ |
IA64_INST_ST8_UPDATE, // st8 [op0]=op1,op2 |
1263 |
+ |
IA64_INST_ADD, // add op0=op1,op2,op3 |
1264 |
+ |
IA64_INST_SUB, // sub op0=op1,op2,op3 |
1265 |
+ |
IA64_INST_SHLADD, // shladd op0=op1,op3,op2 |
1266 |
+ |
IA64_INST_AND, // and op0=op1,op2 |
1267 |
+ |
IA64_INST_ANDCM, // andcm op0=op1,op2 |
1268 |
+ |
IA64_INST_OR, // or op0=op1,op2 |
1269 |
+ |
IA64_INST_XOR, // xor op0=op1,op2 |
1270 |
+ |
IA64_INST_SXT1, // sxt1 op0=op1 |
1271 |
+ |
IA64_INST_SXT2, // sxt2 op0=op1 |
1272 |
+ |
IA64_INST_SXT4, // sxt4 op0=op1 |
1273 |
+ |
IA64_INST_ZXT1, // zxt1 op0=op1 |
1274 |
+ |
IA64_INST_ZXT2, // zxt2 op0=op1 |
1275 |
+ |
IA64_INST_ZXT4, // zxt4 op0=op1 |
1276 |
+ |
IA64_INST_NOP // nop op0 |
1277 |
+ |
}; |
1278 |
+ |
|
1279 |
+ |
const int IA64_N_OPERANDS = 4; |
1280 |
+ |
|
1281 |
+ |
// Decoded operand type |
1282 |
+ |
struct ia64_operand_t { |
1283 |
+ |
unsigned char commit; // commit result of operation to register file? |
1284 |
+ |
unsigned char valid; // XXX: not really used, can be removed (debug) |
1285 |
+ |
signed char index; // index of GPR, or -1 if immediate value |
1286 |
+ |
unsigned char nat; // NaT state before operation |
1287 |
+ |
unsigned long value; // register contents or immediate value |
1288 |
+ |
}; |
1289 |
+ |
|
1290 |
+ |
// Decoded instruction type |
1291 |
+ |
struct ia64_instruction_t { |
1292 |
+ |
unsigned char mnemo; // operation to perform |
1293 |
+ |
unsigned char pred; // predicate register to check |
1294 |
+ |
unsigned char no_memory; // used to emulated main fault instruction |
1295 |
+ |
unsigned long inst; // the raw instruction bits (41-bit wide) |
1296 |
+ |
ia64_operand_t operands[IA64_N_OPERANDS]; |
1297 |
+ |
}; |
1298 |
+ |
|
1299 |
+ |
// Get immediate sign-bit |
1300 |
+ |
static inline int ia64_inst_get_sbit(unsigned long inst) |
1301 |
+ |
{ |
1302 |
+ |
return (inst >> 36) & 1; |
1303 |
+ |
} |
1304 |
+ |
|
1305 |
+ |
// Get 8-bit immediate value (A3, A8, I27, M30) |
1306 |
+ |
static inline unsigned long ia64_inst_get_imm8(unsigned long inst) |
1307 |
+ |
{ |
1308 |
+ |
unsigned long value = (inst >> 13) & 0x7ful; |
1309 |
+ |
if (ia64_inst_get_sbit(inst)) |
1310 |
+ |
value |= ~0x7ful; |
1311 |
+ |
return value; |
1312 |
+ |
} |
1313 |
+ |
|
1314 |
+ |
// Get 9-bit immediate value (M3) |
1315 |
+ |
static inline unsigned long ia64_inst_get_imm9b(unsigned long inst) |
1316 |
+ |
{ |
1317 |
+ |
unsigned long value = (((inst >> 27) & 1) << 7) | ((inst >> 13) & 0x7f); |
1318 |
+ |
if (ia64_inst_get_sbit(inst)) |
1319 |
+ |
value |= ~0xfful; |
1320 |
+ |
return value; |
1321 |
+ |
} |
1322 |
+ |
|
1323 |
+ |
// Get 9-bit immediate value (M5) |
1324 |
+ |
static inline unsigned long ia64_inst_get_imm9a(unsigned long inst) |
1325 |
+ |
{ |
1326 |
+ |
unsigned long value = (((inst >> 27) & 1) << 7) | ((inst >> 6) & 0x7f); |
1327 |
+ |
if (ia64_inst_get_sbit(inst)) |
1328 |
+ |
value |= ~0xfful; |
1329 |
+ |
return value; |
1330 |
+ |
} |
1331 |
+ |
|
1332 |
+ |
// Get 14-bit immediate value (A4) |
1333 |
+ |
static inline unsigned long ia64_inst_get_imm14(unsigned long inst) |
1334 |
+ |
{ |
1335 |
+ |
unsigned long value = (((inst >> 27) & 0x3f) << 7) | (inst & 0x7f); |
1336 |
+ |
if (ia64_inst_get_sbit(inst)) |
1337 |
+ |
value |= ~0x1fful; |
1338 |
+ |
return value; |
1339 |
+ |
} |
1340 |
+ |
|
1341 |
+ |
// Get 22-bit immediate value (A5) |
1342 |
+ |
static inline unsigned long ia64_inst_get_imm22(unsigned long inst) |
1343 |
+ |
{ |
1344 |
+ |
unsigned long value = ((((inst >> 22) & 0x1f) << 16) | |
1345 |
+ |
(((inst >> 27) & 0x1ff) << 7) | |
1346 |
+ |
(inst & 0x7f)); |
1347 |
+ |
if (ia64_inst_get_sbit(inst)) |
1348 |
+ |
value |= ~0x1ffffful; |
1349 |
+ |
return value; |
1350 |
+ |
} |
1351 |
+ |
|
1352 |
+ |
// Get 21-bit immediate value (I19) |
1353 |
+ |
static inline unsigned long ia64_inst_get_imm21(unsigned long inst) |
1354 |
+ |
{ |
1355 |
+ |
return (((inst >> 36) & 1) << 20) | ((inst >> 6) & 0xfffff); |
1356 |
+ |
} |
1357 |
+ |
|
1358 |
+ |
// Get 2-bit count value (A2) |
1359 |
+ |
static inline int ia64_inst_get_count2(unsigned long inst) |
1360 |
+ |
{ |
1361 |
+ |
return (inst >> 27) & 0x3; |
1362 |
+ |
} |
1363 |
+ |
|
1364 |
+ |
// Get bundle template |
1365 |
+ |
static inline unsigned int ia64_get_template(unsigned long raw_ip) |
1366 |
+ |
{ |
1367 |
+ |
unsigned long *ip = (unsigned long *)(raw_ip & ~3ul); |
1368 |
+ |
return ip[0] & 0x1f; |
1369 |
+ |
} |
1370 |
+ |
|
1371 |
+ |
// Get specified instruction in bundle |
1372 |
+ |
static unsigned long ia64_get_instruction(unsigned long raw_ip, int slot) |
1373 |
+ |
{ |
1374 |
+ |
unsigned long inst; |
1375 |
+ |
unsigned long *ip = (unsigned long *)(raw_ip & ~3ul); |
1376 |
+ |
#if DEBUG |
1377 |
+ |
printf("Bundle: %016lx%016lx\n", ip[1], ip[0]); |
1378 |
+ |
#endif |
1379 |
+ |
|
1380 |
+ |
switch (slot) { |
1381 |
+ |
case 0: |
1382 |
+ |
inst = (ip[0] >> 5) & 0x1fffffffffful; |
1383 |
+ |
break; |
1384 |
+ |
case 1: |
1385 |
+ |
inst = ((ip[1] & 0x7ffffful) << 18) | ((ip[0] >> 46) & 0x3fffful); |
1386 |
+ |
break; |
1387 |
+ |
case 2: |
1388 |
+ |
inst = (ip[1] >> 23) & 0x1fffffffffful; |
1389 |
+ |
break; |
1390 |
+ |
case 3: |
1391 |
+ |
fprintf(stderr, "ERROR: ia64_get_instruction(), invalid slot number %d\n", slot); |
1392 |
+ |
abort(); |
1393 |
+ |
break; |
1394 |
+ |
} |
1395 |
+ |
|
1396 |
+ |
#if DEBUG |
1397 |
+ |
printf(" Instruction %d: 0x%016lx\n", slot, inst); |
1398 |
+ |
#endif |
1399 |
+ |
return inst; |
1400 |
+ |
} |
1401 |
+ |
|
1402 |
+ |
// Decode group 0 instructions |
1403 |
+ |
static bool ia64_decode_instruction_0(ia64_instruction_t *inst, IA64_CONTEXT_TYPE IA64_CONTEXT) |
1404 |
+ |
{ |
1405 |
+ |
const int r1 = (inst->inst >> 6) & 0x7f; |
1406 |
+ |
const int r3 = (inst->inst >> 20) & 0x7f; |
1407 |
+ |
|
1408 |
+ |
const int x3 = (inst->inst >> 33) & 0x07; |
1409 |
+ |
const int x6 = (inst->inst >> 27) & 0x3f; |
1410 |
+ |
const int x2 = (inst->inst >> 31) & 0x03; |
1411 |
+ |
const int x4 = (inst->inst >> 27) & 0x0f; |
1412 |
+ |
|
1413 |
+ |
if (x3 == 0) { |
1414 |
+ |
switch (x6) { |
1415 |
+ |
case 0x01: // nop.i (I19) |
1416 |
+ |
inst->mnemo = IA64_INST_NOP; |
1417 |
+ |
inst->operands[0].valid = true; |
1418 |
+ |
inst->operands[0].index = -1; |
1419 |
+ |
inst->operands[0].value = ia64_inst_get_imm21(inst->inst); |
1420 |
+ |
return true; |
1421 |
+ |
case 0x14: // sxt1 (I29) |
1422 |
+ |
case 0x15: // sxt2 (I29) |
1423 |
+ |
case 0x16: // sxt4 (I29) |
1424 |
+ |
case 0x10: // zxt1 (I29) |
1425 |
+ |
case 0x11: // zxt2 (I29) |
1426 |
+ |
case 0x12: // zxt4 (I29) |
1427 |
+ |
switch (x6) { |
1428 |
+ |
case 0x14: inst->mnemo = IA64_INST_SXT1; break; |
1429 |
+ |
case 0x15: inst->mnemo = IA64_INST_SXT2; break; |
1430 |
+ |
case 0x16: inst->mnemo = IA64_INST_SXT4; break; |
1431 |
+ |
case 0x10: inst->mnemo = IA64_INST_ZXT1; break; |
1432 |
+ |
case 0x11: inst->mnemo = IA64_INST_ZXT2; break; |
1433 |
+ |
case 0x12: inst->mnemo = IA64_INST_ZXT4; break; |
1434 |
+ |
default: abort(); |
1435 |
+ |
} |
1436 |
+ |
inst->operands[0].valid = true; |
1437 |
+ |
inst->operands[0].index = r1; |
1438 |
+ |
inst->operands[1].valid = true; |
1439 |
+ |
inst->operands[1].index = r3; |
1440 |
+ |
inst->operands[1].value = IA64_GET_GR(r3); |
1441 |
+ |
inst->operands[1].nat = IA64_GET_NAT(r3); |
1442 |
+ |
return true; |
1443 |
+ |
} |
1444 |
+ |
} |
1445 |
+ |
return false; |
1446 |
+ |
} |
1447 |
+ |
|
1448 |
+ |
// Decode group 4 instructions (load/store instructions) |
1449 |
+ |
static bool ia64_decode_instruction_4(ia64_instruction_t *inst, IA64_CONTEXT_TYPE IA64_CONTEXT) |
1450 |
+ |
{ |
1451 |
+ |
const int r1 = (inst->inst >> 6) & 0x7f; |
1452 |
+ |
const int r2 = (inst->inst >> 13) & 0x7f; |
1453 |
+ |
const int r3 = (inst->inst >> 20) & 0x7f; |
1454 |
+ |
|
1455 |
+ |
const int m = (inst->inst >> 36) & 1; |
1456 |
+ |
const int x = (inst->inst >> 27) & 1; |
1457 |
+ |
const int x6 = (inst->inst >> 30) & 0x3f; |
1458 |
+ |
|
1459 |
+ |
switch (x6) { |
1460 |
+ |
case 0x00: |
1461 |
+ |
case 0x01: |
1462 |
+ |
case 0x02: |
1463 |
+ |
case 0x03: |
1464 |
+ |
if (x == 0) { |
1465 |
+ |
inst->operands[0].valid = true; |
1466 |
+ |
inst->operands[0].index = r1; |
1467 |
+ |
inst->operands[1].valid = true; |
1468 |
+ |
inst->operands[1].index = r3; |
1469 |
+ |
inst->operands[1].value = IA64_GET_GR(r3); |
1470 |
+ |
inst->operands[1].nat = IA64_GET_NAT(r3); |
1471 |
+ |
if (m == 0) { |
1472 |
+ |
switch (x6) { |
1473 |
+ |
case 0x00: inst->mnemo = IA64_INST_LD1; break; |
1474 |
+ |
case 0x01: inst->mnemo = IA64_INST_LD2; break; |
1475 |
+ |
case 0x02: inst->mnemo = IA64_INST_LD4; break; |
1476 |
+ |
case 0x03: inst->mnemo = IA64_INST_LD8; break; |
1477 |
+ |
} |
1478 |
+ |
} |
1479 |
+ |
else { |
1480 |
+ |
inst->operands[2].valid = true; |
1481 |
+ |
inst->operands[2].index = r2; |
1482 |
+ |
inst->operands[2].value = IA64_GET_GR(r2); |
1483 |
+ |
inst->operands[2].nat = IA64_GET_NAT(r2); |
1484 |
+ |
switch (x6) { |
1485 |
+ |
case 0x00: inst->mnemo = IA64_INST_LD1_UPDATE; break; |
1486 |
+ |
case 0x01: inst->mnemo = IA64_INST_LD2_UPDATE; break; |
1487 |
+ |
case 0x02: inst->mnemo = IA64_INST_LD4_UPDATE; break; |
1488 |
+ |
case 0x03: inst->mnemo = IA64_INST_LD8_UPDATE; break; |
1489 |
+ |
} |
1490 |
+ |
} |
1491 |
+ |
return true; |
1492 |
+ |
} |
1493 |
+ |
break; |
1494 |
+ |
case 0x30: |
1495 |
+ |
case 0x31: |
1496 |
+ |
case 0x32: |
1497 |
+ |
case 0x33: |
1498 |
+ |
if (m == 0 && x == 0) { |
1499 |
+ |
inst->operands[0].valid = true; |
1500 |
+ |
inst->operands[0].index = r3; |
1501 |
+ |
inst->operands[0].value = IA64_GET_GR(r3); |
1502 |
+ |
inst->operands[0].nat = IA64_GET_NAT(r3); |
1503 |
+ |
inst->operands[1].valid = true; |
1504 |
+ |
inst->operands[1].index = r2; |
1505 |
+ |
inst->operands[1].value = IA64_GET_GR(r2); |
1506 |
+ |
inst->operands[1].nat = IA64_GET_NAT(r2); |
1507 |
+ |
switch (x6) { |
1508 |
+ |
case 0x30: inst->mnemo = IA64_INST_ST1; break; |
1509 |
+ |
case 0x31: inst->mnemo = IA64_INST_ST2; break; |
1510 |
+ |
case 0x32: inst->mnemo = IA64_INST_ST4; break; |
1511 |
+ |
case 0x33: inst->mnemo = IA64_INST_ST8; break; |
1512 |
+ |
} |
1513 |
+ |
return true; |
1514 |
+ |
} |
1515 |
+ |
break; |
1516 |
+ |
} |
1517 |
+ |
return false; |
1518 |
+ |
} |
1519 |
+ |
|
1520 |
+ |
// Decode group 5 instructions (load/store instructions) |
1521 |
+ |
static bool ia64_decode_instruction_5(ia64_instruction_t *inst, IA64_CONTEXT_TYPE IA64_CONTEXT) |
1522 |
+ |
{ |
1523 |
+ |
const int r1 = (inst->inst >> 6) & 0x7f; |
1524 |
+ |
const int r2 = (inst->inst >> 13) & 0x7f; |
1525 |
+ |
const int r3 = (inst->inst >> 20) & 0x7f; |
1526 |
+ |
|
1527 |
+ |
const int x6 = (inst->inst >> 30) & 0x3f; |
1528 |
+ |
|
1529 |
+ |
switch (x6) { |
1530 |
+ |
case 0x00: |
1531 |
+ |
case 0x01: |
1532 |
+ |
case 0x02: |
1533 |
+ |
case 0x03: |
1534 |
+ |
inst->operands[0].valid = true; |
1535 |
+ |
inst->operands[0].index = r1; |
1536 |
+ |
inst->operands[1].valid = true; |
1537 |
+ |
inst->operands[1].index = r3; |
1538 |
+ |
inst->operands[1].value = IA64_GET_GR(r3); |
1539 |
+ |
inst->operands[1].nat = IA64_GET_NAT(r3); |
1540 |
+ |
inst->operands[2].valid = true; |
1541 |
+ |
inst->operands[2].index = -1; |
1542 |
+ |
inst->operands[2].value = ia64_inst_get_imm9b(inst->inst); |
1543 |
+ |
inst->operands[2].nat = 0; |
1544 |
+ |
switch (x6) { |
1545 |
+ |
case 0x00: inst->mnemo = IA64_INST_LD1_UPDATE; break; |
1546 |
+ |
case 0x01: inst->mnemo = IA64_INST_LD2_UPDATE; break; |
1547 |
+ |
case 0x02: inst->mnemo = IA64_INST_LD4_UPDATE; break; |
1548 |
+ |
case 0x03: inst->mnemo = IA64_INST_LD8_UPDATE; break; |
1549 |
+ |
} |
1550 |
+ |
return true; |
1551 |
+ |
case 0x30: |
1552 |
+ |
case 0x31: |
1553 |
+ |
case 0x32: |
1554 |
+ |
case 0x33: |
1555 |
+ |
inst->operands[0].valid = true; |
1556 |
+ |
inst->operands[0].index = r3; |
1557 |
+ |
inst->operands[0].value = IA64_GET_GR(r3); |
1558 |
+ |
inst->operands[0].nat = IA64_GET_NAT(r3); |
1559 |
+ |
inst->operands[1].valid = true; |
1560 |
+ |
inst->operands[1].index = r2; |
1561 |
+ |
inst->operands[1].value = IA64_GET_GR(r2); |
1562 |
+ |
inst->operands[1].nat = IA64_GET_NAT(r2); |
1563 |
+ |
inst->operands[2].valid = true; |
1564 |
+ |
inst->operands[2].index = -1; |
1565 |
+ |
inst->operands[2].value = ia64_inst_get_imm9a(inst->inst); |
1566 |
+ |
inst->operands[2].nat = 0; |
1567 |
+ |
switch (x6) { |
1568 |
+ |
case 0x30: inst->mnemo = IA64_INST_ST1_UPDATE; break; |
1569 |
+ |
case 0x31: inst->mnemo = IA64_INST_ST2_UPDATE; break; |
1570 |
+ |
case 0x32: inst->mnemo = IA64_INST_ST4_UPDATE; break; |
1571 |
+ |
case 0x33: inst->mnemo = IA64_INST_ST8_UPDATE; break; |
1572 |
+ |
} |
1573 |
+ |
return true; |
1574 |
+ |
} |
1575 |
+ |
return false; |
1576 |
+ |
} |
1577 |
+ |
|
1578 |
+ |
// Decode group 8 instructions (ALU integer) |
1579 |
+ |
static bool ia64_decode_instruction_8(ia64_instruction_t *inst, IA64_CONTEXT_TYPE IA64_CONTEXT) |
1580 |
+ |
{ |
1581 |
+ |
const int r1 = (inst->inst >> 6) & 0x7f; |
1582 |
+ |
const int r2 = (inst->inst >> 13) & 0x7f; |
1583 |
+ |
const int r3 = (inst->inst >> 20) & 0x7f; |
1584 |
+ |
|
1585 |
+ |
const int x2a = (inst->inst >> 34) & 0x3; |
1586 |
+ |
const int x2b = (inst->inst >> 27) & 0x3; |
1587 |
+ |
const int x4 = (inst->inst >> 29) & 0xf; |
1588 |
+ |
const int ve = (inst->inst >> 33) & 0x1; |
1589 |
+ |
|
1590 |
+ |
// destination register (r1) is always valid in this group |
1591 |
+ |
inst->operands[0].valid = true; |
1592 |
+ |
inst->operands[0].index = r1; |
1593 |
+ |
|
1594 |
+ |
// source register (r3) is always valid in this group |
1595 |
+ |
inst->operands[2].valid = true; |
1596 |
+ |
inst->operands[2].index = r3; |
1597 |
+ |
inst->operands[2].value = IA64_GET_GR(r3); |
1598 |
+ |
inst->operands[2].nat = IA64_GET_NAT(r3); |
1599 |
+ |
|
1600 |
+ |
if (x2a == 0 && ve == 0) { |
1601 |
+ |
inst->operands[1].valid = true; |
1602 |
+ |
inst->operands[1].index = r2; |
1603 |
+ |
inst->operands[1].value = IA64_GET_GR(r2); |
1604 |
+ |
inst->operands[1].nat = IA64_GET_NAT(r2); |
1605 |
+ |
switch (x4) { |
1606 |
+ |
case 0x0: // add (A1) |
1607 |
+ |
inst->mnemo = IA64_INST_ADD; |
1608 |
+ |
inst->operands[3].valid = true; |
1609 |
+ |
inst->operands[3].index = -1; |
1610 |
+ |
inst->operands[3].value = x2b == 1; |
1611 |
+ |
return true; |
1612 |
+ |
case 0x1: // add (A1) |
1613 |
+ |
inst->mnemo = IA64_INST_SUB; |
1614 |
+ |
inst->operands[3].valid = true; |
1615 |
+ |
inst->operands[3].index = -1; |
1616 |
+ |
inst->operands[3].value = x2b == 0; |
1617 |
+ |
return true; |
1618 |
+ |
case 0x4: // shladd (A2) |
1619 |
+ |
inst->mnemo = IA64_INST_SHLADD; |
1620 |
+ |
inst->operands[3].valid = true; |
1621 |
+ |
inst->operands[3].index = -1; |
1622 |
+ |
inst->operands[3].value = ia64_inst_get_count2(inst->inst); |
1623 |
+ |
return true; |
1624 |
+ |
case 0x9: |
1625 |
+ |
if (x2b == 1) { |
1626 |
+ |
inst->mnemo = IA64_INST_SUB; |
1627 |
+ |
inst->operands[1].index = -1; |
1628 |
+ |
inst->operands[1].value = ia64_inst_get_imm8(inst->inst); |
1629 |
+ |
inst->operands[1].nat = 0; |
1630 |
+ |
return true; |
1631 |
+ |
} |
1632 |
+ |
break; |
1633 |
+ |
case 0xb: |
1634 |
+ |
inst->operands[1].index = -1; |
1635 |
+ |
inst->operands[1].value = ia64_inst_get_imm8(inst->inst); |
1636 |
+ |
inst->operands[1].nat = 0; |
1637 |
+ |
// fall-through |
1638 |
+ |
case 0x3: |
1639 |
+ |
switch (x2b) { |
1640 |
+ |
case 0: inst->mnemo = IA64_INST_AND; break; |
1641 |
+ |
case 1: inst->mnemo = IA64_INST_ANDCM; break; |
1642 |
+ |
case 2: inst->mnemo = IA64_INST_OR; break; |
1643 |
+ |
case 3: inst->mnemo = IA64_INST_XOR; break; |
1644 |
+ |
} |
1645 |
+ |
return true; |
1646 |
+ |
} |
1647 |
+ |
} |
1648 |
+ |
return false; |
1649 |
+ |
} |
1650 |
+ |
|
1651 |
+ |
// Decode instruction |
1652 |
+ |
static bool ia64_decode_instruction(ia64_instruction_t *inst, IA64_CONTEXT_TYPE IA64_CONTEXT) |
1653 |
+ |
{ |
1654 |
+ |
const int major = (inst->inst >> 37) & 0xf; |
1655 |
+ |
|
1656 |
+ |
inst->mnemo = IA64_INST_UNKNOWN; |
1657 |
+ |
inst->pred = inst->inst & 0x3f; |
1658 |
+ |
memset(&inst->operands[0], 0, sizeof(inst->operands)); |
1659 |
+ |
|
1660 |
+ |
switch (major) { |
1661 |
+ |
case 0x0: return ia64_decode_instruction_0(inst, IA64_CONTEXT); |
1662 |
+ |
case 0x4: return ia64_decode_instruction_4(inst, IA64_CONTEXT); |
1663 |
+ |
case 0x5: return ia64_decode_instruction_5(inst, IA64_CONTEXT); |
1664 |
+ |
case 0x8: return ia64_decode_instruction_8(inst, IA64_CONTEXT); |
1665 |
+ |
} |
1666 |
+ |
return false; |
1667 |
+ |
} |
1668 |
+ |
|
1669 |
+ |
static bool ia64_emulate_instruction(ia64_instruction_t *inst, IA64_CONTEXT_TYPE IA64_CONTEXT) |
1670 |
+ |
{ |
1671 |
+ |
// XXX: handle Register NaT Consumption fault? |
1672 |
+ |
// XXX: this simple emulator assumes instructions in a bundle |
1673 |
+ |
// don't depend on effects of other instructions in the same |
1674 |
+ |
// bundle. It probably would be simpler to JIT-generate code to be |
1675 |
+ |
// executed natively but probably more costly (inject/extract CPU state) |
1676 |
+ |
if (inst->mnemo == IA64_INST_UNKNOWN) |
1677 |
+ |
return false; |
1678 |
+ |
if (inst->pred && !IA64_GET_PR(inst->pred)) |
1679 |
+ |
return true; |
1680 |
+ |
|
1681 |
+ |
unsigned char nat, nat2; |
1682 |
+ |
unsigned long dst, dst2, src1, src2, src3; |
1683 |
+ |
|
1684 |
+ |
switch (inst->mnemo) { |
1685 |
+ |
case IA64_INST_NOP: |
1686 |
+ |
break; |
1687 |
+ |
case IA64_INST_ADD: |
1688 |
+ |
case IA64_INST_SUB: |
1689 |
+ |
case IA64_INST_SHLADD: |
1690 |
+ |
src3 = inst->operands[3].value; |
1691 |
+ |
// fall-through |
1692 |
+ |
case IA64_INST_AND: |
1693 |
+ |
case IA64_INST_ANDCM: |
1694 |
+ |
case IA64_INST_OR: |
1695 |
+ |
case IA64_INST_XOR: |
1696 |
+ |
src1 = inst->operands[1].value; |
1697 |
+ |
src2 = inst->operands[2].value; |
1698 |
+ |
switch (inst->mnemo) { |
1699 |
+ |
case IA64_INST_ADD: dst = src1 + src2 + src3; break; |
1700 |
+ |
case IA64_INST_SUB: dst = src1 - src2 - src3; break; |
1701 |
+ |
case IA64_INST_SHLADD: dst = (src1 << src3) + src2; break; |
1702 |
+ |
case IA64_INST_AND: dst = src1 & src2; break; |
1703 |
+ |
case IA64_INST_ANDCM: dst = src1 &~ src2; break; |
1704 |
+ |
case IA64_INST_OR: dst = src1 | src2; break; |
1705 |
+ |
case IA64_INST_XOR: dst = src1 ^ src2; break; |
1706 |
+ |
} |
1707 |
+ |
inst->operands[0].commit = true; |
1708 |
+ |
inst->operands[0].value = dst; |
1709 |
+ |
inst->operands[0].nat = inst->operands[1].nat | inst->operands[2].nat; |
1710 |
+ |
break; |
1711 |
+ |
case IA64_INST_SXT1: |
1712 |
+ |
case IA64_INST_SXT2: |
1713 |
+ |
case IA64_INST_SXT4: |
1714 |
+ |
case IA64_INST_ZXT1: |
1715 |
+ |
case IA64_INST_ZXT2: |
1716 |
+ |
case IA64_INST_ZXT4: |
1717 |
+ |
src1 = inst->operands[1].value; |
1718 |
+ |
switch (inst->mnemo) { |
1719 |
+ |
case IA64_INST_SXT1: dst = (signed long)(signed char)src1; break; |
1720 |
+ |
case IA64_INST_SXT2: dst = (signed long)(signed short)src1; break; |
1721 |
+ |
case IA64_INST_SXT4: dst = (signed long)(signed int)src1; break; |
1722 |
+ |
case IA64_INST_ZXT1: dst = (unsigned char)src1; break; |
1723 |
+ |
case IA64_INST_ZXT2: dst = (unsigned short)src1; break; |
1724 |
+ |
case IA64_INST_ZXT4: dst = (unsigned int)src1; break; |
1725 |
+ |
} |
1726 |
+ |
inst->operands[0].commit = true; |
1727 |
+ |
inst->operands[0].value = dst; |
1728 |
+ |
inst->operands[0].nat = inst->operands[1].nat; |
1729 |
+ |
break; |
1730 |
+ |
case IA64_INST_LD1_UPDATE: |
1731 |
+ |
case IA64_INST_LD2_UPDATE: |
1732 |
+ |
case IA64_INST_LD4_UPDATE: |
1733 |
+ |
case IA64_INST_LD8_UPDATE: |
1734 |
+ |
inst->operands[1].commit = true; |
1735 |
+ |
dst2 = inst->operands[1].value + inst->operands[2].value; |
1736 |
+ |
nat2 = inst->operands[2].nat ? inst->operands[2].nat : 0; |
1737 |
+ |
// fall-through |
1738 |
+ |
case IA64_INST_LD1: |
1739 |
+ |
case IA64_INST_LD2: |
1740 |
+ |
case IA64_INST_LD4: |
1741 |
+ |
case IA64_INST_LD8: |
1742 |
+ |
src1 = inst->operands[1].value; |
1743 |
+ |
if (inst->no_memory) |
1744 |
+ |
dst = 0; |
1745 |
+ |
else { |
1746 |
+ |
switch (inst->mnemo) { |
1747 |
+ |
case IA64_INST_LD1: case IA64_INST_LD1_UPDATE: dst = *((unsigned char *)src1); break; |
1748 |
+ |
case IA64_INST_LD2: case IA64_INST_LD2_UPDATE: dst = *((unsigned short *)src1); break; |
1749 |
+ |
case IA64_INST_LD4: case IA64_INST_LD4_UPDATE: dst = *((unsigned int *)src1); break; |
1750 |
+ |
case IA64_INST_LD8: case IA64_INST_LD8_UPDATE: dst = *((unsigned long *)src1); break; |
1751 |
+ |
} |
1752 |
+ |
} |
1753 |
+ |
inst->operands[0].commit = true; |
1754 |
+ |
inst->operands[0].value = dst; |
1755 |
+ |
inst->operands[0].nat = 0; |
1756 |
+ |
inst->operands[1].value = dst2; |
1757 |
+ |
inst->operands[1].nat = nat2; |
1758 |
+ |
break; |
1759 |
+ |
case IA64_INST_ST1_UPDATE: |
1760 |
+ |
case IA64_INST_ST2_UPDATE: |
1761 |
+ |
case IA64_INST_ST4_UPDATE: |
1762 |
+ |
case IA64_INST_ST8_UPDATE: |
1763 |
+ |
inst->operands[0].commit = 0; |
1764 |
+ |
dst2 = inst->operands[0].value + inst->operands[2].value; |
1765 |
+ |
nat2 = inst->operands[2].nat ? inst->operands[2].nat : 0; |
1766 |
+ |
// fall-through |
1767 |
+ |
case IA64_INST_ST1: |
1768 |
+ |
case IA64_INST_ST2: |
1769 |
+ |
case IA64_INST_ST4: |
1770 |
+ |
case IA64_INST_ST8: |
1771 |
+ |
dst = inst->operands[0].value; |
1772 |
+ |
src1 = inst->operands[1].value; |
1773 |
+ |
if (!inst->no_memory) { |
1774 |
+ |
switch (inst->mnemo) { |
1775 |
+ |
case IA64_INST_ST1: case IA64_INST_ST1_UPDATE: *((unsigned char *)dst) = src1; break; |
1776 |
+ |
case IA64_INST_ST2: case IA64_INST_ST2_UPDATE: *((unsigned short *)dst) = src1; break; |
1777 |
+ |
case IA64_INST_ST4: case IA64_INST_ST4_UPDATE: *((unsigned int *)dst) = src1; break; |
1778 |
+ |
case IA64_INST_ST8: case IA64_INST_ST8_UPDATE: *((unsigned long *)dst) = src1; break; |
1779 |
+ |
} |
1780 |
+ |
} |
1781 |
+ |
inst->operands[0].value = dst2; |
1782 |
+ |
inst->operands[0].nat = nat2; |
1783 |
+ |
break; |
1784 |
+ |
default: |
1785 |
+ |
return false; |
1786 |
+ |
} |
1787 |
+ |
|
1788 |
+ |
for (int i = 0; i < IA64_N_OPERANDS; i++) { |
1789 |
+ |
ia64_operand_t const & op = inst->operands[i]; |
1790 |
+ |
if (!op.commit) |
1791 |
+ |
continue; |
1792 |
+ |
if (op.index == -1) |
1793 |
+ |
return false; // XXX: internal error |
1794 |
+ |
IA64_SET_GR(op.index, op.value); |
1795 |
+ |
IA64_SET_NAT(op.index, op.nat); |
1796 |
+ |
} |
1797 |
+ |
return true; |
1798 |
+ |
} |
1799 |
+ |
|
1800 |
+ |
static bool ia64_emulate_instruction(unsigned long raw_inst, IA64_CONTEXT_TYPE IA64_CONTEXT) |
1801 |
+ |
{ |
1802 |
+ |
ia64_instruction_t inst; |
1803 |
+ |
memset(&inst, 0, sizeof(inst)); |
1804 |
+ |
inst.inst = raw_inst; |
1805 |
+ |
if (!ia64_decode_instruction(&inst, IA64_CONTEXT)) |
1806 |
+ |
return false; |
1807 |
+ |
return ia64_emulate_instruction(&inst, IA64_CONTEXT); |
1808 |
+ |
} |
1809 |
+ |
|
1810 |
+ |
static bool ia64_skip_instruction(IA64_CONTEXT_TYPE IA64_CONTEXT) |
1811 |
+ |
{ |
1812 |
+ |
unsigned long ip = IA64_GET_IP(); |
1813 |
+ |
#if DEBUG |
1814 |
+ |
printf("IP: 0x%016lx\n", ip); |
1815 |
+ |
#if 0 |
1816 |
+ |
printf(" Template 0x%02x\n", ia64_get_template(ip)); |
1817 |
+ |
ia64_get_instruction(ip, 0); |
1818 |
+ |
ia64_get_instruction(ip, 1); |
1819 |
+ |
ia64_get_instruction(ip, 2); |
1820 |
+ |
#endif |
1821 |
+ |
#endif |
1822 |
+ |
|
1823 |
+ |
// Select which decode switch to use |
1824 |
+ |
ia64_instruction_t inst; |
1825 |
+ |
inst.inst = ia64_get_instruction(ip, ip & 3); |
1826 |
+ |
if (!ia64_decode_instruction(&inst, IA64_CONTEXT)) { |
1827 |
+ |
fprintf(stderr, "ERROR: ia64_skip_instruction(): could not decode instruction\n"); |
1828 |
+ |
return false; |
1829 |
+ |
} |
1830 |
+ |
|
1831 |
+ |
transfer_type_t transfer_type = SIGSEGV_TRANSFER_UNKNOWN; |
1832 |
+ |
transfer_size_t transfer_size = SIZE_UNKNOWN; |
1833 |
+ |
|
1834 |
+ |
switch (inst.mnemo) { |
1835 |
+ |
case IA64_INST_LD1: |
1836 |
+ |
case IA64_INST_LD2: |
1837 |
+ |
case IA64_INST_LD4: |
1838 |
+ |
case IA64_INST_LD8: |
1839 |
+ |
case IA64_INST_LD1_UPDATE: |
1840 |
+ |
case IA64_INST_LD2_UPDATE: |
1841 |
+ |
case IA64_INST_LD4_UPDATE: |
1842 |
+ |
case IA64_INST_LD8_UPDATE: |
1843 |
+ |
transfer_type = SIGSEGV_TRANSFER_LOAD; |
1844 |
+ |
break; |
1845 |
+ |
case IA64_INST_ST1: |
1846 |
+ |
case IA64_INST_ST2: |
1847 |
+ |
case IA64_INST_ST4: |
1848 |
+ |
case IA64_INST_ST8: |
1849 |
+ |
case IA64_INST_ST1_UPDATE: |
1850 |
+ |
case IA64_INST_ST2_UPDATE: |
1851 |
+ |
case IA64_INST_ST4_UPDATE: |
1852 |
+ |
case IA64_INST_ST8_UPDATE: |
1853 |
+ |
transfer_type = SIGSEGV_TRANSFER_STORE; |
1854 |
+ |
break; |
1855 |
+ |
} |
1856 |
+ |
|
1857 |
+ |
if (transfer_type == SIGSEGV_TRANSFER_UNKNOWN) { |
1858 |
+ |
// Unknown machine code, let it crash. Then patch the decoder |
1859 |
+ |
fprintf(stderr, "ERROR: ia64_skip_instruction(): not a load/store instruction\n"); |
1860 |
+ |
return false; |
1861 |
+ |
} |
1862 |
+ |
|
1863 |
+ |
switch (inst.mnemo) { |
1864 |
+ |
case IA64_INST_LD1: |
1865 |
+ |
case IA64_INST_LD1_UPDATE: |
1866 |
+ |
case IA64_INST_ST1: |
1867 |
+ |
case IA64_INST_ST1_UPDATE: |
1868 |
+ |
transfer_size = SIZE_BYTE; |
1869 |
+ |
break; |
1870 |
+ |
case IA64_INST_LD2: |
1871 |
+ |
case IA64_INST_LD2_UPDATE: |
1872 |
+ |
case IA64_INST_ST2: |
1873 |
+ |
case IA64_INST_ST2_UPDATE: |
1874 |
+ |
transfer_size = SIZE_WORD; |
1875 |
+ |
break; |
1876 |
+ |
case IA64_INST_LD4: |
1877 |
+ |
case IA64_INST_LD4_UPDATE: |
1878 |
+ |
case IA64_INST_ST4: |
1879 |
+ |
case IA64_INST_ST4_UPDATE: |
1880 |
+ |
transfer_size = SIZE_LONG; |
1881 |
+ |
break; |
1882 |
+ |
case IA64_INST_LD8: |
1883 |
+ |
case IA64_INST_LD8_UPDATE: |
1884 |
+ |
case IA64_INST_ST8: |
1885 |
+ |
case IA64_INST_ST8_UPDATE: |
1886 |
+ |
transfer_size = SIZE_QUAD; |
1887 |
+ |
break; |
1888 |
+ |
} |
1889 |
+ |
|
1890 |
+ |
if (transfer_size == SIZE_UNKNOWN) { |
1891 |
+ |
// Unknown machine code, let it crash. Then patch the decoder |
1892 |
+ |
fprintf(stderr, "ERROR: ia64_skip_instruction(): unknown transfer size\n"); |
1893 |
+ |
return false; |
1894 |
+ |
} |
1895 |
+ |
|
1896 |
+ |
inst.no_memory = true; |
1897 |
+ |
if (!ia64_emulate_instruction(&inst, IA64_CONTEXT)) { |
1898 |
+ |
fprintf(stderr, "ERROR: ia64_skip_instruction(): could not emulate fault instruction\n"); |
1899 |
+ |
return false; |
1900 |
+ |
} |
1901 |
+ |
|
1902 |
+ |
int slot = ip & 3; |
1903 |
+ |
bool emulate_next = false; |
1904 |
+ |
switch (slot) { |
1905 |
+ |
case 0: |
1906 |
+ |
switch (ia64_get_template(ip)) { |
1907 |
+ |
case 0x2: // MI;I |
1908 |
+ |
case 0x3: // MI;I; |
1909 |
+ |
emulate_next = true; |
1910 |
+ |
slot = 2; |
1911 |
+ |
break; |
1912 |
+ |
case 0xa: // M;MI |
1913 |
+ |
case 0xb: // M;MI; |
1914 |
+ |
emulate_next = true; |
1915 |
+ |
slot = 1; |
1916 |
+ |
break; |
1917 |
+ |
} |
1918 |
+ |
break; |
1919 |
+ |
} |
1920 |
+ |
if (emulate_next && !IA64_CAN_PATCH_IP_SLOT) { |
1921 |
+ |
while (slot < 3) { |
1922 |
+ |
if (!ia64_emulate_instruction(ia64_get_instruction(ip, slot), IA64_CONTEXT)) { |
1923 |
+ |
fprintf(stderr, "ERROR: ia64_skip_instruction(): could not emulate instruction\n"); |
1924 |
+ |
return false; |
1925 |
+ |
} |
1926 |
+ |
++slot; |
1927 |
+ |
} |
1928 |
+ |
} |
1929 |
+ |
|
1930 |
+ |
#if IA64_CAN_PATCH_IP_SLOT |
1931 |
+ |
if ((slot = ip & 3) < 2) |
1932 |
+ |
IA64_SET_IP((ip & ~3ul) + (slot + 1)); |
1933 |
+ |
else |
1934 |
+ |
#endif |
1935 |
+ |
IA64_SET_IP((ip & ~3ul) + 16); |
1936 |
+ |
#if DEBUG |
1937 |
+ |
printf("IP: 0x%016lx\n", IA64_GET_IP()); |
1938 |
+ |
#endif |
1939 |
+ |
return true; |
1940 |
+ |
} |
1941 |
+ |
#endif |
1942 |
+ |
|
1943 |
|
// Decode and skip PPC instruction |
1944 |
< |
#if (defined(powerpc) || defined(__powerpc__) || defined(__ppc__)) |
1944 |
> |
#if (defined(powerpc) || defined(__powerpc__) || defined(__ppc__) || defined(__ppc64__)) |
1945 |
|
static bool powerpc_skip_instruction(unsigned long * nip_p, unsigned long * regs) |
1946 |
|
{ |
1947 |
|
instruction_t instr; |
1977 |
|
|
1978 |
|
// Decode and skip MIPS instruction |
1979 |
|
#if (defined(mips) || defined(__mips)) |
1980 |
< |
enum { |
1027 |
< |
#if (defined(sgi) || defined(__sgi)) |
1028 |
< |
MIPS_REG_EPC = 35, |
1029 |
< |
#endif |
1030 |
< |
}; |
1031 |
< |
static bool mips_skip_instruction(greg_t * regs) |
1980 |
> |
static bool mips_skip_instruction(greg_t * pc_p, greg_t * regs) |
1981 |
|
{ |
1982 |
< |
unsigned int * epc = (unsigned int *)(unsigned long)regs[MIPS_REG_EPC]; |
1982 |
> |
unsigned int * epc = (unsigned int *)(unsigned long)*pc_p; |
1983 |
|
|
1984 |
|
if (epc == 0) |
1985 |
|
return false; |
2128 |
|
mips_gpr_names[reg]); |
2129 |
|
#endif |
2130 |
|
|
2131 |
< |
regs[MIPS_REG_EPC] += 4; |
2131 |
> |
*pc_p += 4; |
2132 |
|
return true; |
2133 |
|
} |
2134 |
|
#endif |
2140 |
|
SPARC_REG_G1 = REG_G1, |
2141 |
|
SPARC_REG_O0 = REG_O0, |
2142 |
|
SPARC_REG_PC = REG_PC, |
2143 |
+ |
SPARC_REG_nPC = REG_nPC |
2144 |
|
#endif |
2145 |
|
}; |
2146 |
|
static bool sparc_skip_instruction(unsigned long * regs, gwindows_t * gwins, struct rwindow * rwin) |
2204 |
|
break; |
2205 |
|
case 7: // Store Doubleword |
2206 |
|
transfer_type = SIGSEGV_TRANSFER_STORE; |
2207 |
< |
transfer_size = SIZE_WORD; |
2207 |
> |
transfer_size = SIZE_LONG; |
2208 |
|
register_pair = true; |
2209 |
|
break; |
2210 |
|
} |
2214 |
|
return false; |
2215 |
|
} |
2216 |
|
|
1267 |
– |
// Zero target register in case of a load operation |
2217 |
|
const int reg = (opcode >> 25) & 0x1f; |
2218 |
+ |
|
2219 |
+ |
#if DEBUG |
2220 |
+ |
static const char * reg_names[] = { |
2221 |
+ |
"g0", "g1", "g2", "g3", "g4", "g5", "g6", "g7", |
2222 |
+ |
"o0", "o1", "o2", "o3", "o4", "o5", "sp", "o7", |
2223 |
+ |
"l0", "l1", "l2", "l3", "l4", "l5", "l6", "l7", |
2224 |
+ |
"i0", "i1", "i2", "i3", "i4", "i5", "fp", "i7" |
2225 |
+ |
}; |
2226 |
+ |
printf("%s %s register %s\n", |
2227 |
+ |
transfer_size == SIZE_BYTE ? "byte" : |
2228 |
+ |
transfer_size == SIZE_WORD ? "word" : |
2229 |
+ |
transfer_size == SIZE_LONG ? "long" : |
2230 |
+ |
transfer_size == SIZE_QUAD ? "quad" : "unknown", |
2231 |
+ |
transfer_type == SIGSEGV_TRANSFER_LOAD ? "load to" : "store from", |
2232 |
+ |
reg_names[reg]); |
2233 |
+ |
#endif |
2234 |
+ |
|
2235 |
+ |
// Zero target register in case of a load operation |
2236 |
|
if (transfer_type == SIGSEGV_TRANSFER_LOAD && reg != 0) { |
2237 |
|
// FIXME: code to handle local & input registers is not tested |
2238 |
< |
if (reg >= 1 && reg <= 7) { |
2238 |
> |
if (reg >= 1 && reg < 8) { |
2239 |
|
// global registers |
2240 |
|
regs[reg - 1 + SPARC_REG_G1] = 0; |
2241 |
|
} |
2242 |
< |
else if (reg >= 8 && reg <= 15) { |
2242 |
> |
else if (reg >= 8 && reg < 16) { |
2243 |
|
// output registers |
2244 |
|
regs[reg - 8 + SPARC_REG_O0] = 0; |
2245 |
|
} |
2246 |
< |
else if (reg >= 16 && reg <= 23) { |
2246 |
> |
else if (reg >= 16 && reg < 24) { |
2247 |
|
// local registers (in register windows) |
2248 |
|
if (gwins) |
2249 |
|
gwins->wbuf->rw_local[reg - 16] = 0; |
2259 |
|
} |
2260 |
|
} |
2261 |
|
|
1295 |
– |
#if DEBUG |
1296 |
– |
static const char * reg_names[] = { |
1297 |
– |
"g0", "g1", "g2", "g3", "g4", "g5", "g6", "g7", |
1298 |
– |
"o0", "o1", "o2", "o3", "o4", "o5", "sp", "o7", |
1299 |
– |
"l0", "l1", "l2", "l3", "l4", "l5", "l6", "l7", |
1300 |
– |
"i0", "i1", "i2", "i3", "i4", "i5", "fp", "i7" |
1301 |
– |
}; |
1302 |
– |
printf("%s %s register %s\n", |
1303 |
– |
transfer_size == SIZE_BYTE ? "byte" : |
1304 |
– |
transfer_size == SIZE_WORD ? "word" : |
1305 |
– |
transfer_size == SIZE_LONG ? "long" : |
1306 |
– |
transfer_size == SIZE_QUAD ? "quad" : "unknown", |
1307 |
– |
transfer_type == SIGSEGV_TRANSFER_LOAD ? "load to" : "store from", |
1308 |
– |
reg_names[reg]); |
1309 |
– |
#endif |
1310 |
– |
|
2262 |
|
regs[SPARC_REG_PC] += 4; |
2263 |
+ |
regs[SPARC_REG_nPC] += 4; |
2264 |
|
return true; |
2265 |
|
} |
2266 |
|
#endif |
2416 |
|
|
2417 |
|
|
2418 |
|
// Fallbacks |
2419 |
+ |
#ifndef SIGSEGV_FAULT_ADDRESS_FAST |
2420 |
+ |
#define SIGSEGV_FAULT_ADDRESS_FAST SIGSEGV_FAULT_ADDRESS |
2421 |
+ |
#endif |
2422 |
+ |
#ifndef SIGSEGV_FAULT_INSTRUCTION_FAST |
2423 |
+ |
#define SIGSEGV_FAULT_INSTRUCTION_FAST SIGSEGV_FAULT_INSTRUCTION |
2424 |
+ |
#endif |
2425 |
|
#ifndef SIGSEGV_FAULT_INSTRUCTION |
2426 |
< |
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_INVALID_PC |
2426 |
> |
#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_INVALID_ADDRESS |
2427 |
|
#endif |
2428 |
|
#ifndef SIGSEGV_FAULT_HANDLER_ARGLIST_1 |
2429 |
|
#define SIGSEGV_FAULT_HANDLER_ARGLIST_1 SIGSEGV_FAULT_HANDLER_ARGLIST |
2430 |
|
#endif |
2431 |
|
#ifndef SIGSEGV_FAULT_HANDLER_INVOKE |
2432 |
< |
#define SIGSEGV_FAULT_HANDLER_INVOKE(ADDR, IP) sigsegv_fault_handler(ADDR, IP) |
2432 |
> |
#define SIGSEGV_FAULT_HANDLER_INVOKE(P) sigsegv_fault_handler(P) |
2433 |
|
#endif |
2434 |
|
|
2435 |
|
// SIGSEGV recovery supported ? |
2442 |
|
* SIGSEGV global handler |
2443 |
|
*/ |
2444 |
|
|
2445 |
+ |
struct sigsegv_info_t { |
2446 |
+ |
sigsegv_address_t addr; |
2447 |
+ |
sigsegv_address_t pc; |
2448 |
+ |
#ifdef HAVE_MACH_EXCEPTIONS |
2449 |
+ |
mach_port_t thread; |
2450 |
+ |
bool has_exc_state; |
2451 |
+ |
SIGSEGV_EXCEPTION_STATE_TYPE exc_state; |
2452 |
+ |
mach_msg_type_number_t exc_state_count; |
2453 |
+ |
bool has_thr_state; |
2454 |
+ |
SIGSEGV_THREAD_STATE_TYPE thr_state; |
2455 |
+ |
mach_msg_type_number_t thr_state_count; |
2456 |
+ |
#endif |
2457 |
+ |
}; |
2458 |
+ |
|
2459 |
+ |
#ifdef HAVE_MACH_EXCEPTIONS |
2460 |
+ |
static void mach_get_exception_state(sigsegv_info_t *SIP) |
2461 |
+ |
{ |
2462 |
+ |
SIP->exc_state_count = SIGSEGV_EXCEPTION_STATE_COUNT; |
2463 |
+ |
kern_return_t krc = thread_get_state(SIP->thread, |
2464 |
+ |
SIGSEGV_EXCEPTION_STATE_FLAVOR, |
2465 |
+ |
(natural_t *)&SIP->exc_state, |
2466 |
+ |
&SIP->exc_state_count); |
2467 |
+ |
MACH_CHECK_ERROR(thread_get_state, krc); |
2468 |
+ |
SIP->has_exc_state = true; |
2469 |
+ |
} |
2470 |
+ |
|
2471 |
+ |
static void mach_get_thread_state(sigsegv_info_t *SIP) |
2472 |
+ |
{ |
2473 |
+ |
SIP->thr_state_count = SIGSEGV_THREAD_STATE_COUNT; |
2474 |
+ |
kern_return_t krc = thread_get_state(SIP->thread, |
2475 |
+ |
SIGSEGV_THREAD_STATE_FLAVOR, |
2476 |
+ |
(natural_t *)&SIP->thr_state, |
2477 |
+ |
&SIP->thr_state_count); |
2478 |
+ |
MACH_CHECK_ERROR(thread_get_state, krc); |
2479 |
+ |
SIP->has_thr_state = true; |
2480 |
+ |
} |
2481 |
+ |
|
2482 |
+ |
static void mach_set_thread_state(sigsegv_info_t *SIP) |
2483 |
+ |
{ |
2484 |
+ |
kern_return_t krc = thread_set_state(SIP->thread, |
2485 |
+ |
SIGSEGV_THREAD_STATE_FLAVOR, |
2486 |
+ |
(natural_t *)&SIP->thr_state, |
2487 |
+ |
SIP->thr_state_count); |
2488 |
+ |
MACH_CHECK_ERROR(thread_set_state, krc); |
2489 |
+ |
} |
2490 |
+ |
#endif |
2491 |
+ |
|
2492 |
+ |
// Return the address of the invalid memory reference |
2493 |
+ |
sigsegv_address_t sigsegv_get_fault_address(sigsegv_info_t *SIP) |
2494 |
+ |
{ |
2495 |
+ |
#ifdef HAVE_MACH_EXCEPTIONS |
2496 |
+ |
static int use_fast_path = -1; |
2497 |
+ |
if (use_fast_path != 1 && !SIP->has_exc_state) { |
2498 |
+ |
mach_get_exception_state(SIP); |
2499 |
+ |
|
2500 |
+ |
sigsegv_address_t addr = (sigsegv_address_t)SIGSEGV_FAULT_ADDRESS; |
2501 |
+ |
if (use_fast_path < 0) { |
2502 |
+ |
const char *machfault = getenv("SIGSEGV_MACH_FAULT"); |
2503 |
+ |
if (machfault) { |
2504 |
+ |
if (strcmp(machfault, "fast") == 0) |
2505 |
+ |
use_fast_path = 1; |
2506 |
+ |
else if (strcmp(machfault, "slow") == 0) |
2507 |
+ |
use_fast_path = 0; |
2508 |
+ |
} |
2509 |
+ |
if (use_fast_path < 0) |
2510 |
+ |
use_fast_path = addr == SIP->addr; |
2511 |
+ |
} |
2512 |
+ |
SIP->addr = addr; |
2513 |
+ |
} |
2514 |
+ |
#endif |
2515 |
+ |
return SIP->addr; |
2516 |
+ |
} |
2517 |
+ |
|
2518 |
+ |
// Return the address of the instruction that caused the fault, or |
2519 |
+ |
// SIGSEGV_INVALID_ADDRESS if we could not retrieve this information |
2520 |
+ |
sigsegv_address_t sigsegv_get_fault_instruction_address(sigsegv_info_t *SIP) |
2521 |
+ |
{ |
2522 |
+ |
#ifdef HAVE_MACH_EXCEPTIONS |
2523 |
+ |
if (!SIP->has_thr_state) { |
2524 |
+ |
mach_get_thread_state(SIP); |
2525 |
+ |
|
2526 |
+ |
SIP->pc = (sigsegv_address_t)SIGSEGV_FAULT_INSTRUCTION; |
2527 |
+ |
} |
2528 |
+ |
#endif |
2529 |
+ |
return SIP->pc; |
2530 |
+ |
} |
2531 |
+ |
|
2532 |
|
// This function handles the badaccess to memory. |
2533 |
|
// It is called from the signal handler or the exception handler. |
2534 |
|
static bool handle_badaccess(SIGSEGV_FAULT_HANDLER_ARGLIST_1) |
2535 |
|
{ |
2536 |
< |
sigsegv_address_t fault_address = (sigsegv_address_t)SIGSEGV_FAULT_ADDRESS; |
2537 |
< |
sigsegv_address_t fault_instruction = (sigsegv_address_t)SIGSEGV_FAULT_INSTRUCTION; |
2538 |
< |
|
2536 |
> |
sigsegv_info_t SI; |
2537 |
> |
SI.addr = (sigsegv_address_t)SIGSEGV_FAULT_ADDRESS_FAST; |
2538 |
> |
SI.pc = (sigsegv_address_t)SIGSEGV_FAULT_INSTRUCTION_FAST; |
2539 |
> |
#ifdef HAVE_MACH_EXCEPTIONS |
2540 |
> |
SI.thread = thread; |
2541 |
> |
SI.has_exc_state = false; |
2542 |
> |
SI.has_thr_state = false; |
2543 |
> |
#endif |
2544 |
> |
sigsegv_info_t * const SIP = &SI; |
2545 |
> |
|
2546 |
|
// Call user's handler and reinstall the global handler, if required |
2547 |
< |
switch (SIGSEGV_FAULT_HANDLER_INVOKE(fault_address, fault_instruction)) { |
2547 |
> |
switch (SIGSEGV_FAULT_HANDLER_INVOKE(SIP)) { |
2548 |
|
case SIGSEGV_RETURN_SUCCESS: |
2549 |
|
return true; |
2550 |
|
|
2552 |
|
case SIGSEGV_RETURN_SKIP_INSTRUCTION: |
2553 |
|
// Call the instruction skipper with the register file |
2554 |
|
// available |
2555 |
+ |
#ifdef HAVE_MACH_EXCEPTIONS |
2556 |
+ |
if (!SIP->has_thr_state) |
2557 |
+ |
mach_get_thread_state(SIP); |
2558 |
+ |
#endif |
2559 |
|
if (SIGSEGV_SKIP_INSTRUCTION(SIGSEGV_REGISTER_FILE)) { |
2560 |
|
#ifdef HAVE_MACH_EXCEPTIONS |
2561 |
|
// Unlike UNIX signals where the thread state |
2562 |
|
// is modified off of the stack, in Mach we |
2563 |
|
// need to actually call thread_set_state to |
2564 |
|
// have the register values updated. |
2565 |
< |
kern_return_t krc; |
1510 |
< |
|
1511 |
< |
krc = thread_set_state(thread, |
1512 |
< |
MACHINE_THREAD_STATE, (thread_state_t)state, |
1513 |
< |
MACHINE_THREAD_STATE_COUNT); |
1514 |
< |
MACH_CHECK_ERROR (thread_get_state, krc); |
2565 |
> |
mach_set_thread_state(SIP); |
2566 |
|
#endif |
2567 |
|
return true; |
2568 |
|
} |
2571 |
|
case SIGSEGV_RETURN_FAILURE: |
2572 |
|
// We can't do anything with the fault_address, dump state? |
2573 |
|
if (sigsegv_state_dumper != 0) |
2574 |
< |
sigsegv_state_dumper(fault_address, fault_instruction); |
2574 |
> |
sigsegv_state_dumper(SIP); |
2575 |
|
break; |
2576 |
|
} |
2577 |
|
|
2613 |
|
mach_port_t port; |
2614 |
|
exception_behavior_t behavior; |
2615 |
|
thread_state_flavor_t flavor; |
2616 |
< |
thread_state_t thread_state; |
2616 |
> |
thread_state_data_t thread_state; |
2617 |
|
mach_msg_type_number_t thread_state_count; |
2618 |
|
|
2619 |
|
for (portIndex = 0; portIndex < oldExceptionPorts->maskCount; portIndex++) { |
2632 |
|
behavior = oldExceptionPorts->behaviors[portIndex]; |
2633 |
|
flavor = oldExceptionPorts->flavors[portIndex]; |
2634 |
|
|
2635 |
+ |
if (!VALID_THREAD_STATE_FLAVOR(flavor)) { |
2636 |
+ |
fprintf(stderr, "Invalid thread_state flavor = %d. Not forwarding\n", flavor); |
2637 |
+ |
return KERN_FAILURE; |
2638 |
+ |
} |
2639 |
+ |
|
2640 |
|
/* |
2641 |
|
fprintf(stderr, "forwarding exception, port = 0x%x, behaviour = %d, flavor = %d\n", port, behavior, flavor); |
2642 |
|
*/ |
2643 |
|
|
2644 |
|
if (behavior != EXCEPTION_DEFAULT) { |
2645 |
|
thread_state_count = THREAD_STATE_MAX; |
2646 |
< |
kret = thread_get_state (thread_port, flavor, thread_state, |
2646 |
> |
kret = thread_get_state (thread_port, flavor, (natural_t *)&thread_state, |
2647 |
|
&thread_state_count); |
2648 |
|
MACH_CHECK_ERROR (thread_get_state, kret); |
2649 |
|
} |
2659 |
|
// fprintf(stderr, "forwarding to exception_raise_state\n"); |
2660 |
|
kret = exception_raise_state(port, exception_type, exception_data, |
2661 |
|
data_count, &flavor, |
2662 |
< |
thread_state, thread_state_count, |
2663 |
< |
thread_state, &thread_state_count); |
2662 |
> |
(natural_t *)&thread_state, thread_state_count, |
2663 |
> |
(natural_t *)&thread_state, &thread_state_count); |
2664 |
|
MACH_CHECK_ERROR (exception_raise_state, kret); |
2665 |
|
break; |
2666 |
|
case EXCEPTION_STATE_IDENTITY: |
2668 |
|
kret = exception_raise_state_identity(port, thread_port, task_port, |
2669 |
|
exception_type, exception_data, |
2670 |
|
data_count, &flavor, |
2671 |
< |
thread_state, thread_state_count, |
2672 |
< |
thread_state, &thread_state_count); |
2671 |
> |
(natural_t *)&thread_state, thread_state_count, |
2672 |
> |
(natural_t *)&thread_state, &thread_state_count); |
2673 |
|
MACH_CHECK_ERROR (exception_raise_state_identity, kret); |
2674 |
|
break; |
2675 |
|
default: |
2676 |
|
fprintf(stderr, "forward_exception got unknown behavior\n"); |
2677 |
+ |
kret = KERN_FAILURE; |
2678 |
|
break; |
2679 |
|
} |
2680 |
|
|
2681 |
|
if (behavior != EXCEPTION_DEFAULT) { |
2682 |
< |
kret = thread_set_state (thread_port, flavor, thread_state, |
2682 |
> |
kret = thread_set_state (thread_port, flavor, (natural_t *)&thread_state, |
2683 |
|
thread_state_count); |
2684 |
|
MACH_CHECK_ERROR (thread_set_state, kret); |
2685 |
|
} |
2686 |
|
|
2687 |
< |
return KERN_SUCCESS; |
2687 |
> |
return kret; |
2688 |
|
} |
2689 |
|
|
2690 |
|
/* |
2712 |
|
mach_port_t task, |
2713 |
|
exception_type_t exception, |
2714 |
|
exception_data_t code, |
2715 |
< |
mach_msg_type_number_t codeCount) |
2715 |
> |
mach_msg_type_number_t code_count) |
2716 |
|
{ |
1660 |
– |
ppc_thread_state_t state; |
2717 |
|
kern_return_t krc; |
2718 |
|
|
2719 |
< |
if ((exception == EXC_BAD_ACCESS) && (codeCount >= 2)) { |
2720 |
< |
if (handle_badaccess(SIGSEGV_FAULT_HANDLER_ARGS)) |
2721 |
< |
return KERN_SUCCESS; |
2719 |
> |
if (exception == EXC_BAD_ACCESS) { |
2720 |
> |
switch (code[0]) { |
2721 |
> |
case KERN_PROTECTION_FAILURE: |
2722 |
> |
case KERN_INVALID_ADDRESS: |
2723 |
> |
if (handle_badaccess(SIGSEGV_FAULT_HANDLER_ARGS)) |
2724 |
> |
return KERN_SUCCESS; |
2725 |
> |
break; |
2726 |
> |
} |
2727 |
|
} |
2728 |
|
|
2729 |
|
// In Mach we do not need to remove the exception handler. |
2730 |
|
// If we forward the exception, eventually some exception handler |
2731 |
|
// will take care of this exception. |
2732 |
< |
krc = forward_exception(thread, task, exception, code, codeCount, &ports); |
2732 |
> |
krc = forward_exception(thread, task, exception, code, code_count, &ports); |
2733 |
|
|
2734 |
|
return krc; |
2735 |
|
} |
2857 |
|
// addressing modes) used in PPC instructions, you will need the |
2858 |
|
// GPR state anyway. |
2859 |
|
krc = thread_set_exception_ports(mach_thread_self(), EXC_MASK_BAD_ACCESS, _exceptionPort, |
2860 |
< |
EXCEPTION_DEFAULT, MACHINE_THREAD_STATE); |
2860 |
> |
EXCEPTION_DEFAULT, SIGSEGV_THREAD_STATE_FLAVOR); |
2861 |
|
if (krc != KERN_SUCCESS) { |
2862 |
|
mach_error("thread_set_exception_ports", krc); |
2863 |
|
return false; |
3037 |
|
const int REF_INDEX = 123; |
3038 |
|
const int REF_VALUE = 45; |
3039 |
|
|
3040 |
< |
static int page_size; |
3040 |
> |
static sigsegv_uintptr_t page_size; |
3041 |
|
static volatile char * page = 0; |
3042 |
|
static volatile int handler_called = 0; |
3043 |
|
|
3044 |
+ |
/* Barriers */ |
3045 |
+ |
#ifdef __GNUC__ |
3046 |
+ |
#define BARRIER() asm volatile ("" : : : "memory") |
3047 |
+ |
#else |
3048 |
+ |
#define BARRIER() /* nothing */ |
3049 |
+ |
#endif |
3050 |
+ |
|
3051 |
|
#ifdef __GNUC__ |
3052 |
|
// Code range where we expect the fault to come from |
3053 |
|
static void *b_region, *e_region; |
3054 |
|
#endif |
3055 |
|
|
3056 |
< |
static sigsegv_return_t sigsegv_test_handler(sigsegv_address_t fault_address, sigsegv_address_t instruction_address) |
3056 |
> |
static sigsegv_return_t sigsegv_test_handler(sigsegv_info_t *sip) |
3057 |
|
{ |
3058 |
+ |
const sigsegv_address_t fault_address = sigsegv_get_fault_address(sip); |
3059 |
+ |
const sigsegv_address_t instruction_address = sigsegv_get_fault_instruction_address(sip); |
3060 |
|
#if DEBUG |
3061 |
|
printf("sigsegv_test_handler(%p, %p)\n", fault_address, instruction_address); |
3062 |
|
printf("expected fault at %p\n", page + REF_INDEX); |
3070 |
|
#ifdef __GNUC__ |
3071 |
|
// Make sure reported fault instruction address falls into |
3072 |
|
// expected code range |
3073 |
< |
if (instruction_address != SIGSEGV_INVALID_PC |
3073 |
> |
if (instruction_address != SIGSEGV_INVALID_ADDRESS |
3074 |
|
&& ((instruction_address < (sigsegv_address_t)b_region) || |
3075 |
|
(instruction_address >= (sigsegv_address_t)e_region))) |
3076 |
|
exit(11); |
3077 |
|
#endif |
3078 |
< |
if (vm_protect((char *)((unsigned long)fault_address & -page_size), page_size, VM_PAGE_READ | VM_PAGE_WRITE) != 0) |
3078 |
> |
if (vm_protect((char *)((sigsegv_uintptr_t)fault_address & -page_size), page_size, VM_PAGE_READ | VM_PAGE_WRITE) != 0) |
3079 |
|
exit(12); |
3080 |
|
return SIGSEGV_RETURN_SUCCESS; |
3081 |
|
} |
3082 |
|
|
3083 |
|
#ifdef HAVE_SIGSEGV_SKIP_INSTRUCTION |
3084 |
< |
static sigsegv_return_t sigsegv_insn_handler(sigsegv_address_t fault_address, sigsegv_address_t instruction_address) |
3084 |
> |
static sigsegv_return_t sigsegv_insn_handler(sigsegv_info_t *sip) |
3085 |
|
{ |
3086 |
+ |
const sigsegv_address_t fault_address = sigsegv_get_fault_address(sip); |
3087 |
+ |
const sigsegv_address_t instruction_address = sigsegv_get_fault_instruction_address(sip); |
3088 |
|
#if DEBUG |
3089 |
|
printf("sigsegv_insn_handler(%p, %p)\n", fault_address, instruction_address); |
3090 |
|
#endif |
3091 |
< |
if (((unsigned long)fault_address - (unsigned long)page) < page_size) { |
3091 |
> |
if (((sigsegv_uintptr_t)fault_address - (sigsegv_uintptr_t)page) < page_size) { |
3092 |
|
#ifdef __GNUC__ |
3093 |
|
// Make sure reported fault instruction address falls into |
3094 |
|
// expected code range |
3095 |
< |
if (instruction_address != SIGSEGV_INVALID_PC |
3095 |
> |
if (instruction_address != SIGSEGV_INVALID_ADDRESS |
3096 |
|
&& ((instruction_address < (sigsegv_address_t)b_region) || |
3097 |
|
(instruction_address >= (sigsegv_address_t)e_region))) |
3098 |
|
return SIGSEGV_RETURN_FAILURE; |
3106 |
|
// More sophisticated tests for instruction skipper |
3107 |
|
static bool arch_insn_skipper_tests() |
3108 |
|
{ |
3109 |
< |
#if (defined(i386) || defined(__i386__)) || defined(__x86_64__) |
3109 |
> |
#if (defined(i386) || defined(__i386__)) || (defined(__x86_64__) || defined(_M_X64)) |
3110 |
|
static const unsigned char code[] = { |
3111 |
|
0x8a, 0x00, // mov (%eax),%al |
3112 |
|
0x8a, 0x2c, 0x18, // mov (%eax,%ebx,1),%ch |
3120 |
|
0x8b, 0x0c, 0x18, // mov (%eax,%ebx,1),%ecx |
3121 |
|
0x89, 0x00, // mov %eax,(%eax) |
3122 |
|
0x89, 0x0c, 0x18, // mov %ecx,(%eax,%ebx,1) |
3123 |
< |
#if defined(__x86_64__) |
3123 |
> |
#if defined(__x86_64__) || defined(_M_X64) |
3124 |
|
0x44, 0x8a, 0x00, // mov (%rax),%r8b |
3125 |
|
0x44, 0x8a, 0x20, // mov (%rax),%r12b |
3126 |
|
0x42, 0x8a, 0x3c, 0x10, // mov (%rax,%r10,1),%dil |
3143 |
|
0x4c, 0x89, 0x18, // mov %r11,(%rax) |
3144 |
|
0x4a, 0x89, 0x0c, 0x10, // mov %rcx,(%rax,%r10,1) |
3145 |
|
0x4e, 0x89, 0x1c, 0x10, // mov %r11,(%rax,%r10,1) |
3146 |
+ |
0x63, 0x47, 0x04, // movslq 4(%rdi),%eax |
3147 |
+ |
0x48, 0x63, 0x47, 0x04, // movslq 4(%rdi),%rax |
3148 |
|
#endif |
3149 |
|
0 // end |
3150 |
|
}; |
3151 |
|
const int N_REGS = 20; |
3152 |
< |
unsigned long regs[N_REGS]; |
3152 |
> |
SIGSEGV_REGISTER_TYPE regs[N_REGS]; |
3153 |
|
for (int i = 0; i < N_REGS; i++) |
3154 |
|
regs[i] = i; |
3155 |
< |
const unsigned long start_code = (unsigned long)&code; |
3155 |
> |
const sigsegv_uintptr_t start_code = (sigsegv_uintptr_t)&code; |
3156 |
|
regs[X86_REG_EIP] = start_code; |
3157 |
|
while ((regs[X86_REG_EIP] - start_code) < (sizeof(code) - 1) |
3158 |
|
&& ix86_skip_instruction(regs)) |
3168 |
|
if (vm_init() < 0) |
3169 |
|
return 1; |
3170 |
|
|
3171 |
< |
#ifdef _WIN32 |
2098 |
< |
page_size = 4096; |
2099 |
< |
#else |
2100 |
< |
page_size = getpagesize(); |
2101 |
< |
#endif |
3171 |
> |
page_size = vm_get_page_size(); |
3172 |
|
if ((page = (char *)vm_acquire(page_size)) == VM_MAP_FAILED) |
3173 |
|
return 2; |
3174 |
|
|
3178 |
|
|
3179 |
|
if (!sigsegv_install_handler(sigsegv_test_handler)) |
3180 |
|
return 4; |
3181 |
< |
|
3181 |
> |
|
3182 |
|
#ifdef __GNUC__ |
3183 |
|
b_region = &&L_b_region1; |
3184 |
|
e_region = &&L_e_region1; |
3185 |
|
#endif |
3186 |
< |
L_b_region1: |
3187 |
< |
page[REF_INDEX] = REF_VALUE; |
3188 |
< |
if (page[REF_INDEX] != REF_VALUE) |
3189 |
< |
exit(20); |
3190 |
< |
page[REF_INDEX] = REF_VALUE; |
3191 |
< |
L_e_region1: |
3186 |
> |
/* This is a really awful hack but otherwise gcc is smart enough |
3187 |
> |
* (or bug'ous enough?) to optimize the labels and place them |
3188 |
> |
* e.g. at the "main" entry point, which is wrong. |
3189 |
> |
*/ |
3190 |
> |
volatile int label_hack = 1; |
3191 |
> |
switch (label_hack) { |
3192 |
> |
case 1: |
3193 |
> |
L_b_region1: |
3194 |
> |
page[REF_INDEX] = REF_VALUE; |
3195 |
> |
if (page[REF_INDEX] != REF_VALUE) |
3196 |
> |
exit(20); |
3197 |
> |
page[REF_INDEX] = REF_VALUE; |
3198 |
> |
BARRIER(); |
3199 |
> |
// fall-through |
3200 |
> |
case 2: |
3201 |
> |
L_e_region1: |
3202 |
> |
BARRIER(); |
3203 |
> |
break; |
3204 |
> |
} |
3205 |
|
|
3206 |
|
if (handler_called != 1) |
3207 |
|
return 5; |
3232 |
|
b_region = &&L_b_region2; |
3233 |
|
e_region = &&L_e_region2; |
3234 |
|
#endif |
3235 |
< |
L_b_region2: |
3236 |
< |
TEST_SKIP_INSTRUCTION(unsigned char); |
3237 |
< |
TEST_SKIP_INSTRUCTION(unsigned short); |
3238 |
< |
TEST_SKIP_INSTRUCTION(unsigned int); |
3239 |
< |
TEST_SKIP_INSTRUCTION(unsigned long); |
3240 |
< |
TEST_SKIP_INSTRUCTION(signed char); |
3241 |
< |
TEST_SKIP_INSTRUCTION(signed short); |
3242 |
< |
TEST_SKIP_INSTRUCTION(signed int); |
3243 |
< |
TEST_SKIP_INSTRUCTION(signed long); |
3244 |
< |
L_e_region2: |
3245 |
< |
|
3235 |
> |
switch (label_hack) { |
3236 |
> |
case 1: |
3237 |
> |
L_b_region2: |
3238 |
> |
TEST_SKIP_INSTRUCTION(unsigned char); |
3239 |
> |
TEST_SKIP_INSTRUCTION(unsigned short); |
3240 |
> |
TEST_SKIP_INSTRUCTION(unsigned int); |
3241 |
> |
TEST_SKIP_INSTRUCTION(unsigned long); |
3242 |
> |
TEST_SKIP_INSTRUCTION(signed char); |
3243 |
> |
TEST_SKIP_INSTRUCTION(signed short); |
3244 |
> |
TEST_SKIP_INSTRUCTION(signed int); |
3245 |
> |
TEST_SKIP_INSTRUCTION(signed long); |
3246 |
> |
BARRIER(); |
3247 |
> |
// fall-through |
3248 |
> |
case 2: |
3249 |
> |
L_e_region2: |
3250 |
> |
BARRIER(); |
3251 |
> |
break; |
3252 |
> |
} |
3253 |
|
if (!arch_insn_skipper_tests()) |
3254 |
|
return 20; |
3255 |
|
#endif |