[ViewVC] Diff of: cebix/BasiliskII/src/Unix/sigsegv.cpp

Comparing BasiliskII/src/Unix/sigsegv.cpp (file contents):
Revision 1.17 by gbeauche, 2002-05-20T17:49:04Z vs.
Revision 1.22 by gbeauche, 2003-05-14T06:50:05Z

#	Line 29 \| Line 29
29		#include "config.h"
30		#endif
31
32	+	#include <list>
33		#include <signal.h>
34		#include "sigsegv.h"
35
36	+	#ifndef NO_STD_NAMESPACE
37	+	using std::list;
38	+	#endif
39	+
40		// Return value type of a signal handler (standard type if not defined)
41		#ifndef RETSIGTYPE
42		#define RETSIGTYPE void
#	Line 40 \| Line 45
45		// Type of the system signal handler
46		typedef RETSIGTYPE (*signal_handler)(int);
47
48	<	// Is the fault to be ignored?
49	<	static bool sigsegv_ignore_fault = false;
48	>	// Ignore range chain
49	>	struct ignore_range_t {
50	>	sigsegv_address_t start;
51	>	unsigned long length;
52	>	int transfer_type;
53	>	};
54	>
55	>	typedef list<ignore_range_t> ignore_range_list_t;
56	>	ignore_range_list_t sigsegv_ignore_ranges;
57
58		// User's SIGSEGV handler
59		static sigsegv_fault_handler_t sigsegv_fault_handler = 0;
#	Line 52 \| Line 64 \| static sigsegv_state_dumper_t sigsegv_st
64		// Actual SIGSEGV handler installer
65		static bool sigsegv_do_install_handler(int sig);
66
67	+	// Find ignore range matching address
68	+	static inline ignore_range_list_t::iterator sigsegv_find_ignore_range(sigsegv_address_t address)
69	+	{
70	+	ignore_range_list_t::iterator it;
71	+	for (it = sigsegv_ignore_ranges.begin(); it != sigsegv_ignore_ranges.end(); it++)
72	+	if (address >= it->start && address < it->start + it->length)
73	+	break;
74	+	return it;
75	+	}
76	+
77
78		/*
79		* Instruction decoding aids
80		*/
81
60	–	// Transfer type
61	–	enum transfer_type_t {
62	–	TYPE_UNKNOWN,
63	–	TYPE_LOAD,
64	–	TYPE_STORE
65	–	};
66	–
82		// Transfer size
83		enum transfer_size_t {
84		SIZE_UNKNOWN,
#	Line 83 \| Line 98 \| enum addressing_mode_t {
98		};
99
100		// Decoded instruction
101	+	typedef sigsegv_transfer_type_t transfer_type_t;
102		struct instruction_t {
103		transfer_type_t transfer_type;
104		transfer_size_t transfer_size;
#	Line 103 \| Line 119 \| static void powerpc_decode_instruction(i
119		signed int imm = (signed short)(opcode & 0xffff);
120
121		// Analyze opcode
122	<	transfer_type_t transfer_type = TYPE_UNKNOWN;
122	>	transfer_type_t transfer_type = SIGSEGV_TRANSFER_UNKNOWN;
123		transfer_size_t transfer_size = SIZE_UNKNOWN;
124		addressing_mode_t addr_mode = MODE_UNKNOWN;
125		switch (primop) {
126		case 31:
127		switch (exop) {
128		case 23: // lwzx
129	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_LONG; addr_mode = MODE_X; break;
129	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_LONG; addr_mode = MODE_X; break;
130		case 55: // lwzux
131	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_LONG; addr_mode = MODE_UX; break;
131	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_LONG; addr_mode = MODE_UX; break;
132		case 87: // lbzx
133	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_X; break;
133	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_X; break;
134		case 119: // lbzux
135	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_UX; break;
135	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_UX; break;
136		case 151: // stwx
137	<	transfer_type = TYPE_STORE; transfer_size = SIZE_LONG; addr_mode = MODE_X; break;
137	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_LONG; addr_mode = MODE_X; break;
138		case 183: // stwux
139	<	transfer_type = TYPE_STORE; transfer_size = SIZE_LONG; addr_mode = MODE_UX; break;
139	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_LONG; addr_mode = MODE_UX; break;
140		case 215: // stbx
141	<	transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_X; break;
141	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_X; break;
142		case 247: // stbux
143	<	transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_UX; break;
143	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_UX; break;
144		case 279: // lhzx
145	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_X; break;
145	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_X; break;
146		case 311: // lhzux
147	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break;
147	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break;
148		case 343: // lhax
149	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_X; break;
149	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_X; break;
150		case 375: // lhaux
151	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break;
151	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break;
152		case 407: // sthx
153	<	transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_X; break;
153	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_X; break;
154		case 439: // sthux
155	<	transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break;
155	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break;
156		}
157		break;
158
159		case 32: // lwz
160	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_LONG; addr_mode = MODE_NORM; break;
160	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_LONG; addr_mode = MODE_NORM; break;
161		case 33: // lwzu
162	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_LONG; addr_mode = MODE_U; break;
162	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_LONG; addr_mode = MODE_U; break;
163		case 34: // lbz
164	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_NORM; break;
164	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_NORM; break;
165		case 35: // lbzu
166	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_U; break;
166	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_U; break;
167		case 36: // stw
168	<	transfer_type = TYPE_STORE; transfer_size = SIZE_LONG; addr_mode = MODE_NORM; break;
168	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_LONG; addr_mode = MODE_NORM; break;
169		case 37: // stwu
170	<	transfer_type = TYPE_STORE; transfer_size = SIZE_LONG; addr_mode = MODE_U; break;
170	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_LONG; addr_mode = MODE_U; break;
171		case 38: // stb
172	<	transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_NORM; break;
172	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_NORM; break;
173		case 39: // stbu
174	<	transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_U; break;
174	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_U; break;
175		case 40: // lhz
176	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break;
176	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break;
177		case 41: // lhzu
178	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_U; break;
178	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_U; break;
179		case 42: // lha
180	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break;
180	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break;
181		case 43: // lhau
182	<	transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_U; break;
182	>	transfer_type = SIGSEGV_TRANSFER_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_U; break;
183		case 44: // sth
184	<	transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break;
184	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break;
185		case 45: // sthu
186	<	transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_U; break;
186	>	transfer_type = SIGSEGV_TRANSFER_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_U; break;
187		}
188
189		// Calculate effective address
#	Line 215 \| Line 231 \| static void powerpc_decode_instruction(i
231		#endif
232		#define SIGSEGV_FAULT_HANDLER_ARGLIST int sig, siginfo_t sip, void scp
233		#define SIGSEGV_FAULT_ADDRESS sip->si_addr
234	+	#if defined(__NetBSD__) \|\| defined(__FreeBSD__)
235		#if (defined(i386) \|\| defined(__i386__))
236		#define SIGSEGV_FAULT_INSTRUCTION (((struct sigcontext *)scp)->sc_eip)
237	<	#define SIGSEGV_REGISTER_FILE ((unsigned int )&(((struct sigcontext )scp)->sc_edi))
237	>	#define SIGSEGV_REGISTER_FILE ((unsigned int )&(((struct sigcontext )scp)->sc_edi)) /* EDI is the first GPR (even below EIP) in sigcontext */
238		#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction
239		#endif
240	+	#endif
241		#if defined(__linux__)
242		#if (defined(i386) \|\| defined(__i386__))
243		#include <sys/ucontext.h>
#	Line 228 \| Line 246 \| static void powerpc_decode_instruction(i
246		#define SIGSEGV_REGISTER_FILE (unsigned int *)SIGSEGV_CONTEXT_REGS
247		#define SIGSEGV_SKIP_INSTRUCTION ix86_skip_instruction
248		#endif
249	+	#if (defined(x86_64) \|\| defined(__x86_64__))
250	+	#include <sys/ucontext.h>
251	+	#define SIGSEGV_CONTEXT_REGS (((ucontext_t *)scp)->uc_mcontext.gregs)
252	+	#define SIGSEGV_FAULT_INSTRUCTION SIGSEGV_CONTEXT_REGS[16] /* should use REG_RIP instead */
253	+	#define SIGSEGV_REGISTER_FILE (unsigned long *)SIGSEGV_CONTEXT_REGS
254	+	#endif
255		#if (defined(ia64) \|\| defined(__ia64__))
256		#define SIGSEGV_FAULT_INSTRUCTION (((struct sigcontext )scp)->sc_ip & ~0x3ULL) / slot number is in bits 0 and 1 */
257		#endif
#	Line 447 \| Line 471 \| static bool ix86_skip_instruction(unsign
471		if (eip == 0)
472		return false;
473
474	<	transfer_type_t transfer_type = TYPE_UNKNOWN;
474	>	transfer_type_t transfer_type = SIGSEGV_TRANSFER_UNKNOWN;
475		transfer_size_t transfer_size = SIZE_LONG;
476
477		int reg = -1;
#	Line 463 \| Line 487 \| static bool ix86_skip_instruction(unsign
487		// Decode instruction
488		switch (eip[0]) {
489		case 0x0f:
490	<	if (eip[1] == 0xb7) { // MOVZX r32, r/m16
490	>	switch (eip[1]) {
491	>	case 0xb6: // MOVZX r32, r/m8
492	>	case 0xb7: // MOVZX r32, r/m16
493		switch (eip[2] & 0xc0) {
494		case 0x80:
495		reg = (eip[2] >> 3) & 7;
496	<	transfer_type = TYPE_LOAD;
496	>	transfer_type = SIGSEGV_TRANSFER_LOAD;
497		break;
498		case 0x40:
499		reg = (eip[2] >> 3) & 7;
500	<	transfer_type = TYPE_LOAD;
500	>	transfer_type = SIGSEGV_TRANSFER_LOAD;
501		break;
502		case 0x00:
503		reg = (eip[2] >> 3) & 7;
504	<	transfer_type = TYPE_LOAD;
504	>	transfer_type = SIGSEGV_TRANSFER_LOAD;
505		break;
506		}
507		len += 3 + ix86_step_over_modrm(eip + 2);
508	+	break;
509		}
510		break;
511		case 0x8a: // MOV r8, r/m8
#	Line 487 \| Line 514 \| static bool ix86_skip_instruction(unsign
514		switch (eip[1] & 0xc0) {
515		case 0x80:
516		reg = (eip[1] >> 3) & 7;
517	<	transfer_type = TYPE_LOAD;
517	>	transfer_type = SIGSEGV_TRANSFER_LOAD;
518		break;
519		case 0x40:
520		reg = (eip[1] >> 3) & 7;
521	<	transfer_type = TYPE_LOAD;
521	>	transfer_type = SIGSEGV_TRANSFER_LOAD;
522		break;
523		case 0x00:
524		reg = (eip[1] >> 3) & 7;
525	<	transfer_type = TYPE_LOAD;
525	>	transfer_type = SIGSEGV_TRANSFER_LOAD;
526		break;
527		}
528		len += 2 + ix86_step_over_modrm(eip + 1);
#	Line 506 \| Line 533 \| static bool ix86_skip_instruction(unsign
533		switch (eip[1] & 0xc0) {
534		case 0x80:
535		reg = (eip[1] >> 3) & 7;
536	<	transfer_type = TYPE_STORE;
536	>	transfer_type = SIGSEGV_TRANSFER_STORE;
537		break;
538		case 0x40:
539		reg = (eip[1] >> 3) & 7;
540	<	transfer_type = TYPE_STORE;
540	>	transfer_type = SIGSEGV_TRANSFER_STORE;
541		break;
542		case 0x00:
543		reg = (eip[1] >> 3) & 7;
544	<	transfer_type = TYPE_STORE;
544	>	transfer_type = SIGSEGV_TRANSFER_STORE;
545		break;
546		}
547		len += 2 + ix86_step_over_modrm(eip + 1);
548		break;
549		}
550
551	<	if (transfer_type == TYPE_UNKNOWN) {
551	>	if (transfer_type == SIGSEGV_TRANSFER_UNKNOWN) {
552		// Unknown machine code, let it crash. Then patch the decoder
553		return false;
554		}
555
556	<	if (transfer_type == TYPE_LOAD && reg != -1) {
556	>	if (transfer_type == SIGSEGV_TRANSFER_LOAD && reg != -1) {
557		static const int x86_reg_map[8] = {
558		X86_REG_EAX, X86_REG_ECX, X86_REG_EDX, X86_REG_EBX,
559		X86_REG_ESP, X86_REG_EBP, X86_REG_ESI, X86_REG_EDI
#	Line 552 \| Line 579 \| static bool ix86_skip_instruction(unsign
579		#if DEBUG
580		printf("%08x: %s %s access", regs[X86_REG_EIP],
581		transfer_size == SIZE_BYTE ? "byte" : transfer_size == SIZE_WORD ? "word" : "long",
582	<	transfer_type == TYPE_LOAD ? "read" : "write");
582	>	transfer_type == SIGSEGV_TRANSFER_LOAD ? "read" : "write");
583
584		if (reg != -1) {
585		static const char * x86_reg_str_map[8] = {
586		"eax", "ecx", "edx", "ebx",
587		"esp", "ebp", "esi", "edi"
588		};
589	<	printf(" %s register %%%s", transfer_type == TYPE_LOAD ? "to" : "from", x86_reg_str_map[reg]);
589	>	printf(" %s register %%%s", transfer_type == SIGSEGV_TRANSFER_LOAD ? "to" : "from", x86_reg_str_map[reg]);
590		}
591		printf(", %d bytes instruction\n", len);
592		#endif
#	Line 576 \| Line 603 \| static bool powerpc_skip_instruction(uns
603		instruction_t instr;
604		powerpc_decode_instruction(&instr, *nip_p, regs);
605
606	<	if (instr.transfer_type == TYPE_UNKNOWN) {
606	>	if (instr.transfer_type == SIGSEGV_TRANSFER_UNKNOWN) {
607		// Unknown machine code, let it crash. Then patch the decoder
608		return false;
609		}
610
611	+	ignore_range_list_t::iterator it = sigsegv_find_ignore_range((sigsegv_address_t)instr.addr);
612	+	if (it == sigsegv_ignore_ranges.end() \|\| ((it->transfer_type & instr.transfer_type) != instr.transfer_type)) {
613	+	// Address doesn't fall into ignore ranges list, let it crash.
614	+	return false;
615	+	}
616	+
617		#if DEBUG
618		printf("%08x: %s %s access", *nip_p,
619		instr.transfer_size == SIZE_BYTE ? "byte" : instr.transfer_size == SIZE_WORD ? "word" : "long",
620	<	instr.transfer_type == TYPE_LOAD ? "read" : "write");
620	>	instr.transfer_type == SIGSEGV_TRANSFER_LOAD ? "read" : "write");
621
622		if (instr.addr_mode == MODE_U \|\| instr.addr_mode == MODE_UX)
623		printf(" r%d (ra = %08x)\n", instr.ra, instr.addr);
624	<	if (instr.transfer_type == TYPE_LOAD)
624	>	if (instr.transfer_type == SIGSEGV_TRANSFER_LOAD)
625		printf(" r%d (rd = 0)\n", instr.rd);
626		#endif
627
628		if (instr.addr_mode == MODE_U \|\| instr.addr_mode == MODE_UX)
629		regs[instr.ra] = instr.addr;
630	<	if (instr.transfer_type == TYPE_LOAD)
630	>	if (instr.transfer_type == SIGSEGV_TRANSFER_LOAD)
631		regs[instr.rd] = 0;
632
633		*nip_p += 4;
#	Line 633 \| Line 666 \| static void sigsegv_handler(SIGSEGV_FAUL
666		fault_recovered = true;
667		}
668		#if HAVE_SIGSEGV_SKIP_INSTRUCTION
669	<	else if (sigsegv_ignore_fault) {
669	>	else if (sigsegv_ignore_ranges.size() > 0) {
670		// Call the instruction skipper with the register file available
671		if (SIGSEGV_SKIP_INSTRUCTION(SIGSEGV_REGISTER_FILE))
672		fault_recovered = true;
#	Line 663 \| Line 696 \| static bool sigsegv_do_install_handler(i
696		{
697		// Setup SIGSEGV handler to process writes to frame buffer
698		#ifdef HAVE_SIGACTION
699	<	struct sigaction vosf_sa;
700	<	sigemptyset(&vosf_sa.sa_mask);
701	<	vosf_sa.sa_sigaction = sigsegv_handler;
702	<	vosf_sa.sa_flags = SA_SIGINFO;
703	<	return (sigaction(sig, &vosf_sa, 0) == 0);
699	>	struct sigaction sigsegv_sa;
700	>	sigemptyset(&sigsegv_sa.sa_mask);
701	>	sigsegv_sa.sa_sigaction = sigsegv_handler;
702	>	sigsegv_sa.sa_flags = SA_SIGINFO;
703	>	return (sigaction(sig, &sigsegv_sa, 0) == 0);
704		#else
705		return (signal(sig, (signal_handler)sigsegv_handler) != SIG_ERR);
706		#endif
#	Line 679 \| Line 712 \| static bool sigsegv_do_install_handler(i
712		{
713		// Setup SIGSEGV handler to process writes to frame buffer
714		#ifdef HAVE_SIGACTION
715	<	struct sigaction vosf_sa;
716	<	sigemptyset(&vosf_sa.sa_mask);
717	<	vosf_sa.sa_handler = (signal_handler)sigsegv_handler;
715	>	struct sigaction sigsegv_sa;
716	>	sigemptyset(&sigsegv_sa.sa_mask);
717	>	sigsegv_sa.sa_handler = (signal_handler)sigsegv_handler;
718	>	sigsegv_sa.sa_flags = 0;
719		#if !EMULATED_68K && defined(__NetBSD__)
720	<	sigaddset(&vosf_sa.sa_mask, SIGALRM);
721	<	vosf_sa.sa_flags = SA_ONSTACK;
688	<	#else
689	<	vosf_sa.sa_flags = 0;
720	>	sigaddset(&sigsegv_sa.sa_mask, SIGALRM);
721	>	sigsegv_sa.sa_flags \|= SA_ONSTACK;
722		#endif
723	<	return (sigaction(sig, &vosf_sa, 0) == 0);
723	>	return (sigaction(sig, &sigsegv_sa, 0) == 0);
724		#else
725		return (signal(sig, (signal_handler)sigsegv_handler) != SIG_ERR);
726		#endif
#	Line 727 \| Line 759 \| void sigsegv_deinstall_handler(void)
759
760
761		/*
762	<	* SIGSEGV ignore state modifier
762	>	* Add SIGSEGV ignore range
763	>	*/
764	>
765	>	void sigsegv_add_ignore_range(sigsegv_address_t address, unsigned long length, int transfer_type)
766	>	{
767	>	ignore_range_t ignore_range;
768	>	ignore_range.start = address;
769	>	ignore_range.length = length;
770	>	ignore_range.transfer_type = transfer_type;
771	>	sigsegv_ignore_ranges.push_front(ignore_range);
772	>	}
773	>
774	>
775	>	/*
776	>	* Remove SIGSEGV ignore range. Range must match installed one, otherwise FALSE is returned.
777		*/
778
779	<	void sigsegv_set_ignore_state(bool ignore_fault)
779	>	bool sigsegv_remove_ignore_range(sigsegv_address_t address, unsigned long length, int transfer_type)
780		{
781	<	sigsegv_ignore_fault = ignore_fault;
781	>	ignore_range_list_t::iterator it;
782	>	for (it = sigsegv_ignore_ranges.begin(); it != sigsegv_ignore_ranges.end(); it++)
783	>	if (it->start == address && it->length == length && ((it->transfer_type & transfer_type) == transfer_type))
784	>	break;
785	>
786	>	if (it != sigsegv_ignore_ranges.end()) {
787	>	if (it->transfer_type != transfer_type)
788	>	it->transfer_type &= ~transfer_type;
789	>	else
790	>	sigsegv_ignore_ranges.erase(it);
791	>	return true;
792	>	}
793	>
794	>	return false;
795		}
796
797
#	Line 812 \| Line 871 \| int main(void)
871		if (vm_protect((char *)page, page_size, VM_PAGE_NOACCESS) < 0)
872		return 1;
873
874	<	sigsegv_set_ignore_state(true);
874	>	sigsegv_add_ignore_range((char *)page, page_size, SIGSEGV_TRANSFER_LOAD \| SIGSEGV_TRANSFER_STORE);
875
876		#define TEST_SKIP_INSTRUCTION(TYPE) do { \
877		const unsigned int TAG = 0x12345678; \

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Comparing BasiliskII/src/Unix/sigsegv.cpp (file contents): Revision 1.17 by gbeauche, 2002-05-20T17:49:04Z vs. Revision 1.22 by gbeauche, 2003-05-14T06:50:05Z

Diff Legend

Comparing BasiliskII/src/Unix/sigsegv.cpp (file contents):
Revision 1.17 by gbeauche, 2002-05-20T17:49:04Z vs.
Revision 1.22 by gbeauche, 2003-05-14T06:50:05Z