strace.c source code [qemu/linux-user/strace.c]

1	#include "qemu/osdep.h"
2	#include <sys/ipc.h>
3	#include <sys/msg.h>
4	#include <sys/sem.h>
5	#include <sys/shm.h>
6	#include <sys/select.h>
7	#include <sys/mount.h>
8	#include <arpa/inet.h>
9	#include <netinet/tcp.h>
10	#include <linux/if_packet.h>
11	#include <sched.h>
12	#include "qemu.h"
13
14	int do_strace=`0`;
15
16	struct syscallname {
17	int nr;
18	const char *name;
19	const char *format;
20	void (call)(const* struct syscallname *,
21	abi_long, abi_long, abi_long,
22	abi_long, abi_long, abi_long);
23	void (result)(const* struct syscallname *, abi_long);
24	};
25
26	#ifdef __GNUC__
27	/*
28	* It is possible that target doesn't have syscall that uses
29	* following flags but we don't want the compiler to warn
30	* us about them being unused. Same applies to utility print
31	* functions. It is ok to keep them while not used.
32	*/
33	#define UNUSED __attribute__ ((unused))
34	#else
35	#define UNUSED
36	#endif
37
38	/*
39	* Structure used to translate flag values into strings. This is
40	* similar that is in the actual strace tool.
41	*/
42	struct flags {
43	abi_long f_value; / flag /
44	const char f_string; /* stringified flag /
45	};
46
47	/ common flags for all architectures /
48	#define FLAG_GENERIC(name) { name, #name }
49	/ target specific flags (syscall_defs.h has TARGET_<flag>) /
50	#define FLAG_TARGET(name) { TARGET_ ## name, #name }
51	/ end of flags array /
52	#define FLAG_END { 0, NULL }
53
54	UNUSED static const char get_comma(int*);
55	UNUSED static void print_pointer(abi_long, int);
56	UNUSED static void print_flags(const struct flags , abi_long, int*);
57	UNUSED static void print_at_dirfd(abi_long, int);
58	UNUSED static void print_file_mode(abi_long, int);
59	UNUSED static void print_open_flags(abi_long, int);
60	UNUSED static void print_syscall_prologue(const struct syscallname *);
61	UNUSED static void print_syscall_epilogue(const struct syscallname *);
62	UNUSED static void print_string(abi_long, int);
63	UNUSED static void print_buf(abi_long addr, abi_long len, int last);
64	UNUSED static void print_raw_param(const char , abi_long, int*);
65	UNUSED static void print_timeval(abi_ulong, int);
66	UNUSED static void print_number(abi_long, int);
67	UNUSED static void print_signal(abi_ulong, int);
68	UNUSED static void print_sockaddr(abi_ulong addr, abi_long addrlen);
69	UNUSED static void print_socket_domain(int domain);
70	UNUSED static void print_socket_type(int type);
71	UNUSED static void print_socket_protocol(int domain, int type, int protocol);
72
73	/*
74	* Utility functions
75	*/
76	static void
77	print_ipc_cmd(int cmd)
78	{
79	#define output_cmd(val) \
80	if( cmd == val ) { \
81	gemu_log(#val); \
82	return; \
83	}
84
85	cmd &= `0xff`;
86
87	/ General IPC commands /
88	output_cmd( IPC_RMID );
89	output_cmd( IPC_SET );
90	output_cmd( IPC_STAT );
91	output_cmd( IPC_INFO );
92	/ msgctl() commands /
93	output_cmd( MSG_STAT );
94	output_cmd( MSG_INFO );
95	/ shmctl() commands /
96	output_cmd( SHM_LOCK );
97	output_cmd( SHM_UNLOCK );
98	output_cmd( SHM_STAT );
99	output_cmd( SHM_INFO );
100	/ semctl() commands /
101	output_cmd( GETPID );
102	output_cmd( GETVAL );
103	output_cmd( GETALL );
104	output_cmd( GETNCNT );
105	output_cmd( GETZCNT );
106	output_cmd( SETVAL );
107	output_cmd( SETALL );
108	output_cmd( SEM_STAT );
109	output_cmd( SEM_INFO );
110	output_cmd( IPC_RMID );
111	output_cmd( IPC_RMID );
112	output_cmd( IPC_RMID );
113	output_cmd( IPC_RMID );
114	output_cmd( IPC_RMID );
115	output_cmd( IPC_RMID );
116	output_cmd( IPC_RMID );
117	output_cmd( IPC_RMID );
118	output_cmd( IPC_RMID );
119
120	/ Some value we don't recognize /
121	gemu_log("%d",cmd);
122	}
123
124	static void
125	print_signal(abi_ulong arg, int last)
126	{
127	const char *signal_name = NULL;
128	switch(arg) {
129	case TARGET_SIGHUP: signal_name = "SIGHUP"; break;
130	case TARGET_SIGINT: signal_name = "SIGINT"; break;
131	case TARGET_SIGQUIT: signal_name = "SIGQUIT"; break;
132	case TARGET_SIGILL: signal_name = "SIGILL"; break;
133	case TARGET_SIGABRT: signal_name = "SIGABRT"; break;
134	case TARGET_SIGFPE: signal_name = "SIGFPE"; break;
135	case TARGET_SIGKILL: signal_name = "SIGKILL"; break;
136	case TARGET_SIGSEGV: signal_name = "SIGSEGV"; break;
137	case TARGET_SIGPIPE: signal_name = "SIGPIPE"; break;
138	case TARGET_SIGALRM: signal_name = "SIGALRM"; break;
139	case TARGET_SIGTERM: signal_name = "SIGTERM"; break;
140	case TARGET_SIGUSR1: signal_name = "SIGUSR1"; break;
141	case TARGET_SIGUSR2: signal_name = "SIGUSR2"; break;
142	case TARGET_SIGCHLD: signal_name = "SIGCHLD"; break;
143	case TARGET_SIGCONT: signal_name = "SIGCONT"; break;
144	case TARGET_SIGSTOP: signal_name = "SIGSTOP"; break;
145	case TARGET_SIGTTIN: signal_name = "SIGTTIN"; break;
146	case TARGET_SIGTTOU: signal_name = "SIGTTOU"; break;
147	}
148	if (signal_name == NULL) {
149	print_raw_param("%ld", arg, last);
150	return;
151	}
152	gemu_log("%s%s", signal_name, get_comma(last));
153	}
154
155	static void print_si_code(int arg)
156	{
157	const char *codename = NULL;
158
159	switch (arg) {
160	case SI_USER:
161	codename = "SI_USER";
162	break;
163	case SI_KERNEL:
164	codename = "SI_KERNEL";
165	break;
166	case SI_QUEUE:
167	codename = "SI_QUEUE";
168	break;
169	case SI_TIMER:
170	codename = "SI_TIMER";
171	break;
172	case SI_MESGQ:
173	codename = "SI_MESGQ";
174	break;
175	case SI_ASYNCIO:
176	codename = "SI_ASYNCIO";
177	break;
178	case SI_SIGIO:
179	codename = "SI_SIGIO";
180	break;
181	case SI_TKILL:
182	codename = "SI_TKILL";
183	break;
184	default:
185	gemu_log("%d", arg);
186	return;
187	}
188	gemu_log("%s", codename);
189	}
190
191	static void get_target_siginfo(target_siginfo_t *tinfo,
192	const target_siginfo_t *info)
193	{
194	abi_ulong sival_ptr;
195
196	int sig;
197	int si_errno;
198	int si_code;
199	int si_type;
200
201	__get_user(sig, &info->si_signo);
202	__get_user(si_errno, &tinfo->si_errno);
203	__get_user(si_code, &info->si_code);
204
205	tinfo->si_signo = sig;
206	tinfo->si_errno = si_errno;
207	tinfo->si_code = si_code;
208
209	/ Ensure we don't leak random junk to the guest later /
210	memset(tinfo->_sifields._pad, `0`, sizeof(tinfo->_sifields._pad));
211
212	/ This is awkward, because we have to use a combination of*
213	* the si_code and si_signo to figure out which of the union's
214	* members are valid. (Within the host kernel it is always possible
215	* to tell, but the kernel carefully avoids giving userspace the
216	* high 16 bits of si_code, so we don't have the information to
217	* do this the easy way...) We therefore make our best guess,
218	* bearing in mind that a guest can spoof most of the si_codes
219	* via rt_sigqueueinfo() if it likes.
220	*
221	* Once we have made our guess, we record it in the top 16 bits of
222	* the si_code, so that print_siginfo() later can use it.
223	* print_siginfo() will strip these top bits out before printing
224	* the si_code.
225	*/
226
227	switch (si_code) {
228	case SI_USER:
229	case SI_TKILL:
230	case SI_KERNEL:
231	/ Sent via kill(), tkill() or tgkill(), or direct from the kernel.*
232	* These are the only unspoofable si_code values.
233	*/
234	__get_user(tinfo->_sifields._kill._pid, &info->_sifields._kill._pid);
235	__get_user(tinfo->_sifields._kill._uid, &info->_sifields._kill._uid);
236	si_type = QEMU_SI_KILL;
237	break;
238	default:
239	/ Everything else is spoofable. Make best guess based on signal /
240	switch (sig) {
241	case TARGET_SIGCHLD:
242	__get_user(tinfo->_sifields._sigchld._pid,
243	&info->_sifields._sigchld._pid);
244	__get_user(tinfo->_sifields._sigchld._uid,
245	&info->_sifields._sigchld._uid);
246	__get_user(tinfo->_sifields._sigchld._status,
247	&info->_sifields._sigchld._status);
248	__get_user(tinfo->_sifields._sigchld._utime,
249	&info->_sifields._sigchld._utime);
250	__get_user(tinfo->_sifields._sigchld._stime,
251	&info->_sifields._sigchld._stime);
252	si_type = QEMU_SI_CHLD;
253	break;
254	case TARGET_SIGIO:
255	__get_user(tinfo->_sifields._sigpoll._band,
256	&info->_sifields._sigpoll._band);
257	__get_user(tinfo->_sifields._sigpoll._fd,
258	&info->_sifields._sigpoll._fd);
259	si_type = QEMU_SI_POLL;
260	break;
261	default:
262	/ Assume a sigqueue()/mq_notify()/rt_sigqueueinfo() source. /
263	__get_user(tinfo->_sifields._rt._pid, &info->_sifields._rt._pid);
264	__get_user(tinfo->_sifields._rt._uid, &info->_sifields._rt._uid);
265	/ XXX: potential problem if 64 bit /
266	__get_user(sival_ptr, &info->_sifields._rt._sigval.sival_ptr);
267	tinfo->_sifields._rt._sigval.sival_ptr = sival_ptr;
268
269	si_type = QEMU_SI_RT;
270	break;
271	}
272	break;
273	}
274
275	tinfo->si_code = deposit32(si_code, `16`, `16`, si_type);
276	}
277
278	static void print_siginfo(const target_siginfo_t *tinfo)
279	{
280	/ Print a target_siginfo_t in the format desired for printing*
281	* signals being taken. We assume the target_siginfo_t is in the
282	* internal form where the top 16 bits of si_code indicate which
283	* part of the union is valid, rather than in the guest-visible
284	* form where the bottom 16 bits are sign-extended into the top 16.
285	*/
286	int si_type = extract32(tinfo->si_code, `16`, `16`);
287	int si_code = sextract32(tinfo->si_code, `0`, `16`);
288
289	gemu_log("{si_signo=");
290	print_signal(tinfo->si_signo, `1`);
291	gemu_log(", si_code=");
292	print_si_code(si_code);
293
294	switch (si_type) {
295	case QEMU_SI_KILL:
296	gemu_log(", si_pid=%u, si_uid=%u",
297	(unsigned int)tinfo->_sifields._kill._pid,
298	(unsigned int)tinfo->_sifields._kill._uid);
299	break;
300	case QEMU_SI_TIMER:
301	gemu_log(", si_timer1=%u, si_timer2=%u",
302	tinfo->_sifields._timer._timer1,
303	tinfo->_sifields._timer._timer2);
304	break;
305	case QEMU_SI_POLL:
306	gemu_log(", si_band=%d, si_fd=%d",
307	tinfo->_sifields._sigpoll._band,
308	tinfo->_sifields._sigpoll._fd);
309	break;
310	case QEMU_SI_FAULT:
311	gemu_log(", si_addr=");
312	print_pointer(tinfo->_sifields._sigfault._addr, `1`);
313	break;
314	case QEMU_SI_CHLD:
315	gemu_log(", si_pid=%u, si_uid=%u, si_status=%d"
316	", si_utime=" TARGET_ABI_FMT_ld
317	", si_stime=" TARGET_ABI_FMT_ld,
318	(unsigned int)(tinfo->_sifields._sigchld._pid),
319	(unsigned int)(tinfo->_sifields._sigchld._uid),
320	tinfo->_sifields._sigchld._status,
321	tinfo->_sifields._sigchld._utime,
322	tinfo->_sifields._sigchld._stime);
323	break;
324	case QEMU_SI_RT:
325	gemu_log(", si_pid=%u, si_uid=%u, si_sigval=" TARGET_ABI_FMT_ld,
326	(unsigned int)tinfo->_sifields._rt._pid,
327	(unsigned int)tinfo->_sifields._rt._uid,
328	tinfo->_sifields._rt._sigval.sival_ptr);
329	break;
330	default:
331	g_assert_not_reached();
332	}
333	gemu_log("}");
334	}
335
336	static void
337	print_sockaddr(abi_ulong addr, abi_long addrlen)
338	{
339	struct target_sockaddr *sa;
340	int i;
341	int sa_family;
342
343	sa = lock_user(VERIFY_READ, addr, addrlen, `1`);
344	if (sa) {
345	sa_family = tswap16(sa->sa_family);
346	switch (sa_family) {
347	case AF_UNIX: {
348	struct target_sockaddr_un un = (struct* target_sockaddr_un *)sa;
349	int i;
350	gemu_log("{sun_family=AF_UNIX,sun_path=\"");
351	for (i = `0`; i < addrlen -
352	offsetof(struct target_sockaddr_un, sun_path) &&
353	un->sun_path[i]; i++) {
354	gemu_log("%c", un->sun_path[i]);
355	}
356	gemu_log("\"}");
357	break;
358	}
359	case AF_INET: {
360	struct target_sockaddr_in in = (struct* target_sockaddr_in *)sa;
361	uint8_t c = (uint8_t )&in->sin_addr.s_addr;
362	gemu_log("{sin_family=AF_INET,sin_port=htons(%d),",
363	ntohs(in->sin_port));
364	gemu_log("sin_addr=inet_addr(\"%d.%d.%d.%d\")",
365	c[`0`], c[`1`], c[`2`], c[`3`]);
366	gemu_log("}");
367	break;
368	}
369	case AF_PACKET: {
370	struct target_sockaddr_ll ll = (struct* target_sockaddr_ll *)sa;
371	uint8_t c = (uint8_t )&ll->sll_addr;
372	gemu_log("{sll_family=AF_PACKET,"
373	"sll_protocol=htons(0x%04x),if%d,pkttype=",
374	ntohs(ll->sll_protocol), ll->sll_ifindex);
375	switch (ll->sll_pkttype) {
376	case PACKET_HOST:
377	gemu_log("PACKET_HOST");
378	break;
379	case PACKET_BROADCAST:
380	gemu_log("PACKET_BROADCAST");
381	break;
382	case PACKET_MULTICAST:
383	gemu_log("PACKET_MULTICAST");
384	break;
385	case PACKET_OTHERHOST:
386	gemu_log("PACKET_OTHERHOST");
387	break;
388	case PACKET_OUTGOING:
389	gemu_log("PACKET_OUTGOING");
390	break;
391	default:
392	gemu_log("%d", ll->sll_pkttype);
393	break;
394	}
395	gemu_log(",sll_addr=%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x",
396	c[`0`], c[`1`], c[`2`], c[`3`], c[`4`], c[`5`], c[`6`], c[`7`]);
397	gemu_log("}");
398	break;
399	}
400	default:
401	gemu_log("{sa_family=%d, sa_data={", sa->sa_family);
402	for (i = `0`; i < `13`; i++) {
403	gemu_log("%02x, ", sa->sa_data[i]);
404	}
405	gemu_log("%02x}", sa->sa_data[i]);
406	gemu_log("}");
407	break;
408	}
409	unlock_user(sa, addr, `0`);
410	} else {
411	print_raw_param("0x"TARGET_ABI_FMT_lx, addr, `0`);
412	}
413	gemu_log(", "TARGET_ABI_FMT_ld, addrlen);
414	}
415
416	static void
417	print_socket_domain(int domain)
418	{
419	switch (domain) {
420	case PF_UNIX:
421	gemu_log("PF_UNIX");
422	break;
423	case PF_INET:
424	gemu_log("PF_INET");
425	break;
426	case PF_PACKET:
427	gemu_log("PF_PACKET");
428	break;
429	default:
430	gemu_log("%d", domain);
431	break;
432	}
433	}
434
435	static void
436	print_socket_type(int type)
437	{
438	switch (type) {
439	case TARGET_SOCK_DGRAM:
440	gemu_log("SOCK_DGRAM");
441	break;
442	case TARGET_SOCK_STREAM:
443	gemu_log("SOCK_STREAM");
444	break;
445	case TARGET_SOCK_RAW:
446	gemu_log("SOCK_RAW");
447	break;
448	case TARGET_SOCK_RDM:
449	gemu_log("SOCK_RDM");
450	break;
451	case TARGET_SOCK_SEQPACKET:
452	gemu_log("SOCK_SEQPACKET");
453	break;
454	case TARGET_SOCK_PACKET:
455	gemu_log("SOCK_PACKET");
456	break;
457	}
458	}
459
460	static void
461	print_socket_protocol(int domain, int type, int protocol)
462	{
463	if (domain == AF_PACKET \|\|
464	(domain == AF_INET && type == TARGET_SOCK_PACKET)) {
465	switch (protocol) {
466	case `0x0003`:
467	gemu_log("ETH_P_ALL");
468	break;
469	default:
470	gemu_log("%d", protocol);
471	}
472	return;
473	}
474
475	switch (protocol) {
476	case IPPROTO_IP:
477	gemu_log("IPPROTO_IP");
478	break;
479	case IPPROTO_TCP:
480	gemu_log("IPPROTO_TCP");
481	break;
482	case IPPROTO_UDP:
483	gemu_log("IPPROTO_UDP");
484	break;
485	case IPPROTO_RAW:
486	gemu_log("IPPROTO_RAW");
487	break;
488	default:
489	gemu_log("%d", protocol);
490	break;
491	}
492	}
493
494
495	#ifdef TARGET_NR__newselect
496	static void
497	print_fdset(int n, abi_ulong target_fds_addr)
498	{
499	int i;
500
501	gemu_log("[");
502	if( target_fds_addr ) {
503	abi_long *target_fds;
504
505	target_fds = lock_user(VERIFY_READ,
506	target_fds_addr,
507	sizeof(target_fds)(n / TARGET_ABI_BITS + `1`),
508	`1`);
509
510	if (!target_fds)
511	return;
512
513	for (i=n; i>=`0`; i--) {
514	if ((tswapal(target_fds[i / TARGET_ABI_BITS]) >> (i & (TARGET_ABI_BITS - `1`))) & `1`)
515	gemu_log("%d,", i );
516	}
517	unlock_user(target_fds, target_fds_addr, `0`);
518	}
519	gemu_log("]");
520	}
521	#endif
522
523	#ifdef TARGET_NR_clock_adjtime
524	/ IDs of the various system clocks /
525	#define TARGET_CLOCK_REALTIME 0
526	#define TARGET_CLOCK_MONOTONIC 1
527	#define TARGET_CLOCK_PROCESS_CPUTIME_ID 2
528	#define TARGET_CLOCK_THREAD_CPUTIME_ID 3
529	#define TARGET_CLOCK_MONOTONIC_RAW 4
530	#define TARGET_CLOCK_REALTIME_COARSE 5
531	#define TARGET_CLOCK_MONOTONIC_COARSE 6
532	#define TARGET_CLOCK_BOOTTIME 7
533	#define TARGET_CLOCK_REALTIME_ALARM 8
534	#define TARGET_CLOCK_BOOTTIME_ALARM 9
535	#define TARGET_CLOCK_SGI_CYCLE 10
536	#define TARGET_CLOCK_TAI 11
537
538	static void
539	print_clockid(int clockid, int last)
540	{
541	switch (clockid) {
542	case TARGET_CLOCK_REALTIME:
543	gemu_log("CLOCK_REALTIME");
544	break;
545	case TARGET_CLOCK_MONOTONIC:
546	gemu_log("CLOCK_MONOTONIC");
547	break;
548	case TARGET_CLOCK_PROCESS_CPUTIME_ID:
549	gemu_log("CLOCK_PROCESS_CPUTIME_ID");
550	break;
551	case TARGET_CLOCK_THREAD_CPUTIME_ID:
552	gemu_log("CLOCK_THREAD_CPUTIME_ID");
553	break;
554	case TARGET_CLOCK_MONOTONIC_RAW:
555	gemu_log("CLOCK_MONOTONIC_RAW");
556	break;
557	case TARGET_CLOCK_REALTIME_COARSE:
558	gemu_log("CLOCK_REALTIME_COARSE");
559	break;
560	case TARGET_CLOCK_MONOTONIC_COARSE:
561	gemu_log("CLOCK_MONOTONIC_COARSE");
562	break;
563	case TARGET_CLOCK_BOOTTIME:
564	gemu_log("CLOCK_BOOTTIME");
565	break;
566	case TARGET_CLOCK_REALTIME_ALARM:
567	gemu_log("CLOCK_REALTIME_ALARM");
568	break;
569	case TARGET_CLOCK_BOOTTIME_ALARM:
570	gemu_log("CLOCK_BOOTTIME_ALARM");
571	break;
572	case TARGET_CLOCK_SGI_CYCLE:
573	gemu_log("CLOCK_SGI_CYCLE");
574	break;
575	case TARGET_CLOCK_TAI:
576	gemu_log("CLOCK_TAI");
577	break;
578	default:
579	gemu_log("%d", clockid);
580	break;
581	}
582	gemu_log("%s", get_comma(last));
583	}
584	#endif
585
586	/*
587	* Sysycall specific output functions
588	*/
589
590	/ select /
591	#ifdef TARGET_NR__newselect
592	static long newselect_arg1 = `0`;
593	static long newselect_arg2 = `0`;
594	static long newselect_arg3 = `0`;
595	static long newselect_arg4 = `0`;
596	static long newselect_arg5 = `0`;
597
598	static void
599	print_newselect(const struct syscallname *name,
600	abi_long arg1, abi_long arg2, abi_long arg3,
601	abi_long arg4, abi_long arg5, abi_long arg6)
602	{
603	gemu_log("%s(" TARGET_ABI_FMT_ld ",", name->name, arg1);
604	print_fdset(arg1, arg2);
605	gemu_log(",");
606	print_fdset(arg1, arg3);
607	gemu_log(",");
608	print_fdset(arg1, arg4);
609	gemu_log(",");
610	print_timeval(arg5, `1`);
611	gemu_log(")");
612
613	/ save for use in the return output function below /
614	newselect_arg1=arg1;
615	newselect_arg2=arg2;
616	newselect_arg3=arg3;
617	newselect_arg4=arg4;
618	newselect_arg5=arg5;
619	}
620	#endif
621
622	#ifdef TARGET_NR_semctl
623	static void
624	print_semctl(const struct syscallname *name,
625	abi_long arg1, abi_long arg2, abi_long arg3,
626	abi_long arg4, abi_long arg5, abi_long arg6)
627	{
628	gemu_log("%s(" TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld ",", name->name, arg1, arg2);
629	print_ipc_cmd(arg3);
630	gemu_log(",0x" TARGET_ABI_FMT_lx ")", arg4);
631	}
632	#endif
633
634	static void
635	print_execve(const struct syscallname *name,
636	abi_long arg1, abi_long arg2, abi_long arg3,
637	abi_long arg4, abi_long arg5, abi_long arg6)
638	{
639	abi_ulong arg_ptr_addr;
640	char *s;
641
642	if (!(s = lock_user_string(arg1)))
643	return;
644	gemu_log("%s(\"%s\",{", name->name, s);
645	unlock_user(s, arg1, `0`);
646
647	for (arg_ptr_addr = arg2; ; arg_ptr_addr += sizeof(abi_ulong)) {
648	abi_ulong *arg_ptr, arg_addr;
649
650	arg_ptr = lock_user(VERIFY_READ, arg_ptr_addr, sizeof(abi_ulong), `1`);
651	if (!arg_ptr)
652	return;
653	arg_addr = tswapal(*arg_ptr);
654	unlock_user(arg_ptr, arg_ptr_addr, `0`);
655	if (!arg_addr)
656	break;
657	if ((s = lock_user_string(arg_addr))) {
658	gemu_log("\"%s\",", s);
659	unlock_user(s, arg_addr, `0`);
660	}
661	}
662
663	gemu_log("NULL})");
664	}
665
666	#ifdef TARGET_NR_ipc
667	static void
668	print_ipc(const struct syscallname *name,
669	abi_long arg1, abi_long arg2, abi_long arg3,
670	abi_long arg4, abi_long arg5, abi_long arg6)
671	{
672	switch(arg1) {
673	case IPCOP_semctl:
674	gemu_log("semctl(" TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld ",", arg1, arg2);
675	print_ipc_cmd(arg3);
676	gemu_log(",0x" TARGET_ABI_FMT_lx ")", arg4);
677	break;
678	default:
679	gemu_log("%s(" TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld ")",
680	name->name, arg1, arg2, arg3, arg4);
681	}
682	}
683	#endif
684
685	/*
686	* Variants for the return value output function
687	*/
688
689	static void
690	print_syscall_ret_addr(const struct syscallname *name, abi_long ret)
691	{
692	const char *errstr = NULL;
693
694	if (ret < `0`) {
695	errstr = target_strerror(-ret);
696	}
697	if (errstr) {
698	gemu_log(" = -1 errno=%d (%s)\n", (int)-ret, errstr);
699	} else {
700	gemu_log(" = 0x" TARGET_ABI_FMT_lx "\n", ret);
701	}
702	}
703
704	#if 0 /* currently unused */
705	static void
706	print_syscall_ret_raw(struct syscallname *name, abi_long ret)
707	{
708	gemu_log(" = 0x" TARGET_ABI_FMT_lx "\n", ret);
709	}
710	#endif
711
712	#ifdef TARGET_NR__newselect
713	static void
714	print_syscall_ret_newselect(const struct syscallname *name, abi_long ret)
715	{
716	gemu_log(" = 0x" TARGET_ABI_FMT_lx " (", ret);
717	print_fdset(newselect_arg1,newselect_arg2);
718	gemu_log(",");
719	print_fdset(newselect_arg1,newselect_arg3);
720	gemu_log(",");
721	print_fdset(newselect_arg1,newselect_arg4);
722	gemu_log(",");
723	print_timeval(newselect_arg5, `1`);
724	gemu_log(")\n");
725	}
726	#endif
727
728	/ special meanings of adjtimex()' non-negative return values /
729	#define TARGET_TIME_OK 0 /* clock synchronized, no leap second */
730	#define TARGET_TIME_INS 1 /* insert leap second */
731	#define TARGET_TIME_DEL 2 /* delete leap second */
732	#define TARGET_TIME_OOP 3 /* leap second in progress */
733	#define TARGET_TIME_WAIT 4 /* leap second has occurred */
734	#define TARGET_TIME_ERROR 5 /* clock not synchronized */
735	static void
736	print_syscall_ret_adjtimex(const struct syscallname *name, abi_long ret)
737	{
738	const char *errstr = NULL;
739
740	gemu_log(" = ");
741	if (ret < `0`) {
742	gemu_log("-1 errno=%d", errno);
743	errstr = target_strerror(-ret);
744	if (errstr) {
745	gemu_log(" (%s)", errstr);
746	}
747	} else {
748	gemu_log(TARGET_ABI_FMT_ld, ret);
749	switch (ret) {
750	case TARGET_TIME_OK:
751	gemu_log(" TIME_OK (clock synchronized, no leap second)");
752	break;
753	case TARGET_TIME_INS:
754	gemu_log(" TIME_INS (insert leap second)");
755	break;
756	case TARGET_TIME_DEL:
757	gemu_log(" TIME_DEL (delete leap second)");
758	break;
759	case TARGET_TIME_OOP:
760	gemu_log(" TIME_OOP (leap second in progress)");
761	break;
762	case TARGET_TIME_WAIT:
763	gemu_log(" TIME_WAIT (leap second has occurred)");
764	break;
765	case TARGET_TIME_ERROR:
766	gemu_log(" TIME_ERROR (clock not synchronized)");
767	break;
768	}
769	}
770
771	gemu_log("\n");
772	}
773
774	UNUSED static struct flags access_flags[] = {
775	FLAG_GENERIC(F_OK),
776	FLAG_GENERIC(R_OK),
777	FLAG_GENERIC(W_OK),
778	FLAG_GENERIC(X_OK),
779	FLAG_END,
780	};
781
782	UNUSED static struct flags at_file_flags[] = {
783	#ifdef AT_EACCESS
784	FLAG_GENERIC(AT_EACCESS),
785	#endif
786	#ifdef AT_SYMLINK_NOFOLLOW
787	FLAG_GENERIC(AT_SYMLINK_NOFOLLOW),
788	#endif
789	FLAG_END,
790	};
791
792	UNUSED static struct flags unlinkat_flags[] = {
793	#ifdef AT_REMOVEDIR
794	FLAG_GENERIC(AT_REMOVEDIR),
795	#endif
796	FLAG_END,
797	};
798
799	UNUSED static struct flags mode_flags[] = {
800	FLAG_GENERIC(S_IFSOCK),
801	FLAG_GENERIC(S_IFLNK),
802	FLAG_GENERIC(S_IFREG),
803	FLAG_GENERIC(S_IFBLK),
804	FLAG_GENERIC(S_IFDIR),
805	FLAG_GENERIC(S_IFCHR),
806	FLAG_GENERIC(S_IFIFO),
807	FLAG_END,
808	};
809
810	UNUSED static struct flags open_access_flags[] = {
811	FLAG_TARGET(O_RDONLY),
812	FLAG_TARGET(O_WRONLY),
813	FLAG_TARGET(O_RDWR),
814	FLAG_END,
815	};
816
817	UNUSED static struct flags open_flags[] = {
818	FLAG_TARGET(O_APPEND),
819	FLAG_TARGET(O_CREAT),
820	FLAG_TARGET(O_DIRECTORY),
821	FLAG_TARGET(O_EXCL),
822	FLAG_TARGET(O_LARGEFILE),
823	FLAG_TARGET(O_NOCTTY),
824	FLAG_TARGET(O_NOFOLLOW),
825	FLAG_TARGET(O_NONBLOCK), / also O_NDELAY /
826	FLAG_TARGET(O_DSYNC),
827	FLAG_TARGET(__O_SYNC),
828	FLAG_TARGET(O_TRUNC),
829	#ifdef O_DIRECT
830	FLAG_TARGET(O_DIRECT),
831	#endif
832	#ifdef O_NOATIME
833	FLAG_TARGET(O_NOATIME),
834	#endif
835	#ifdef O_CLOEXEC
836	FLAG_TARGET(O_CLOEXEC),
837	#endif
838	#ifdef O_PATH
839	FLAG_TARGET(O_PATH),
840	#endif
841	#ifdef O_TMPFILE
842	FLAG_TARGET(O_TMPFILE),
843	FLAG_TARGET(__O_TMPFILE),
844	#endif
845	FLAG_END,
846	};
847
848	UNUSED static struct flags mount_flags[] = {
849	#ifdef MS_BIND
850	FLAG_GENERIC(MS_BIND),
851	#endif
852	#ifdef MS_DIRSYNC
853	FLAG_GENERIC(MS_DIRSYNC),
854	#endif
855	FLAG_GENERIC(MS_MANDLOCK),
856	#ifdef MS_MOVE
857	FLAG_GENERIC(MS_MOVE),
858	#endif
859	FLAG_GENERIC(MS_NOATIME),
860	FLAG_GENERIC(MS_NODEV),
861	FLAG_GENERIC(MS_NODIRATIME),
862	FLAG_GENERIC(MS_NOEXEC),
863	FLAG_GENERIC(MS_NOSUID),
864	FLAG_GENERIC(MS_RDONLY),
865	#ifdef MS_RELATIME
866	FLAG_GENERIC(MS_RELATIME),
867	#endif
868	FLAG_GENERIC(MS_REMOUNT),
869	FLAG_GENERIC(MS_SYNCHRONOUS),
870	FLAG_END,
871	};
872
873	UNUSED static struct flags umount2_flags[] = {
874	#ifdef MNT_FORCE
875	FLAG_GENERIC(MNT_FORCE),
876	#endif
877	#ifdef MNT_DETACH
878	FLAG_GENERIC(MNT_DETACH),
879	#endif
880	#ifdef MNT_EXPIRE
881	FLAG_GENERIC(MNT_EXPIRE),
882	#endif
883	FLAG_END,
884	};
885
886	UNUSED static struct flags mmap_prot_flags[] = {
887	FLAG_GENERIC(PROT_NONE),
888	FLAG_GENERIC(PROT_EXEC),
889	FLAG_GENERIC(PROT_READ),
890	FLAG_GENERIC(PROT_WRITE),
891	FLAG_TARGET(PROT_SEM),
892	FLAG_GENERIC(PROT_GROWSDOWN),
893	FLAG_GENERIC(PROT_GROWSUP),
894	FLAG_END,
895	};
896
897	UNUSED static struct flags mmap_flags[] = {
898	FLAG_TARGET(MAP_SHARED),
899	FLAG_TARGET(MAP_PRIVATE),
900	FLAG_TARGET(MAP_ANONYMOUS),
901	FLAG_TARGET(MAP_DENYWRITE),
902	FLAG_TARGET(MAP_FIXED),
903	FLAG_TARGET(MAP_GROWSDOWN),
904	FLAG_TARGET(MAP_EXECUTABLE),
905	#ifdef MAP_LOCKED
906	FLAG_TARGET(MAP_LOCKED),
907	#endif
908	#ifdef MAP_NONBLOCK
909	FLAG_TARGET(MAP_NONBLOCK),
910	#endif
911	FLAG_TARGET(MAP_NORESERVE),
912	#ifdef MAP_POPULATE
913	FLAG_TARGET(MAP_POPULATE),
914	#endif
915	#ifdef TARGET_MAP_UNINITIALIZED
916	FLAG_TARGET(MAP_UNINITIALIZED),
917	#endif
918	FLAG_END,
919	};
920
921	UNUSED static struct flags clone_flags[] = {
922	FLAG_GENERIC(CLONE_VM),
923	FLAG_GENERIC(CLONE_FS),
924	FLAG_GENERIC(CLONE_FILES),
925	FLAG_GENERIC(CLONE_SIGHAND),
926	FLAG_GENERIC(CLONE_PTRACE),
927	FLAG_GENERIC(CLONE_VFORK),
928	FLAG_GENERIC(CLONE_PARENT),
929	FLAG_GENERIC(CLONE_THREAD),
930	FLAG_GENERIC(CLONE_NEWNS),
931	FLAG_GENERIC(CLONE_SYSVSEM),
932	FLAG_GENERIC(CLONE_SETTLS),
933	FLAG_GENERIC(CLONE_PARENT_SETTID),
934	FLAG_GENERIC(CLONE_CHILD_CLEARTID),
935	FLAG_GENERIC(CLONE_DETACHED),
936	FLAG_GENERIC(CLONE_UNTRACED),
937	FLAG_GENERIC(CLONE_CHILD_SETTID),
938	#if defined(CLONE_NEWUTS)
939	FLAG_GENERIC(CLONE_NEWUTS),
940	#endif
941	#if defined(CLONE_NEWIPC)
942	FLAG_GENERIC(CLONE_NEWIPC),
943	#endif
944	#if defined(CLONE_NEWUSER)
945	FLAG_GENERIC(CLONE_NEWUSER),
946	#endif
947	#if defined(CLONE_NEWPID)
948	FLAG_GENERIC(CLONE_NEWPID),
949	#endif
950	#if defined(CLONE_NEWNET)
951	FLAG_GENERIC(CLONE_NEWNET),
952	#endif
953	#if defined(CLONE_IO)
954	FLAG_GENERIC(CLONE_IO),
955	#endif
956	FLAG_END,
957	};
958
959	UNUSED static struct flags msg_flags[] = {
960	/ send /
961	FLAG_GENERIC(MSG_CONFIRM),
962	FLAG_GENERIC(MSG_DONTROUTE),
963	FLAG_GENERIC(MSG_DONTWAIT),
964	FLAG_GENERIC(MSG_EOR),
965	FLAG_GENERIC(MSG_MORE),
966	FLAG_GENERIC(MSG_NOSIGNAL),
967	FLAG_GENERIC(MSG_OOB),
968	/ recv /
969	FLAG_GENERIC(MSG_CMSG_CLOEXEC),
970	FLAG_GENERIC(MSG_ERRQUEUE),
971	FLAG_GENERIC(MSG_PEEK),
972	FLAG_GENERIC(MSG_TRUNC),
973	FLAG_GENERIC(MSG_WAITALL),
974	/ recvmsg /
975	FLAG_GENERIC(MSG_CTRUNC),
976	FLAG_END,
977	};
978
979	UNUSED static struct flags statx_flags[] = {
980	#ifdef AT_EMPTY_PATH
981	FLAG_GENERIC(AT_EMPTY_PATH),
982	#endif
983	#ifdef AT_NO_AUTOMOUNT
984	FLAG_GENERIC(AT_NO_AUTOMOUNT),
985	#endif
986	#ifdef AT_SYMLINK_NOFOLLOW
987	FLAG_GENERIC(AT_SYMLINK_NOFOLLOW),
988	#endif
989	#ifdef AT_STATX_SYNC_AS_STAT
990	FLAG_GENERIC(AT_STATX_SYNC_AS_STAT),
991	#endif
992	#ifdef AT_STATX_FORCE_SYNC
993	FLAG_GENERIC(AT_STATX_FORCE_SYNC),
994	#endif
995	#ifdef AT_STATX_DONT_SYNC
996	FLAG_GENERIC(AT_STATX_DONT_SYNC),
997	#endif
998	FLAG_END,
999	};
1000
1001	UNUSED static struct flags statx_mask[] = {
1002	/ This must come first, because it includes everything. /
1003	#ifdef STATX_ALL
1004	FLAG_GENERIC(STATX_ALL),
1005	#endif
1006	/ This must come second; it includes everything except STATX_BTIME. /
1007	#ifdef STATX_BASIC_STATS
1008	FLAG_GENERIC(STATX_BASIC_STATS),
1009	#endif
1010	#ifdef STATX_TYPE
1011	FLAG_GENERIC(STATX_TYPE),
1012	#endif
1013	#ifdef STATX_MODE
1014	FLAG_GENERIC(STATX_MODE),
1015	#endif
1016	#ifdef STATX_NLINK
1017	FLAG_GENERIC(STATX_NLINK),
1018	#endif
1019	#ifdef STATX_UID
1020	FLAG_GENERIC(STATX_UID),
1021	#endif
1022	#ifdef STATX_GID
1023	FLAG_GENERIC(STATX_GID),
1024	#endif
1025	#ifdef STATX_ATIME
1026	FLAG_GENERIC(STATX_ATIME),
1027	#endif
1028	#ifdef STATX_MTIME
1029	FLAG_GENERIC(STATX_MTIME),
1030	#endif
1031	#ifdef STATX_CTIME
1032	FLAG_GENERIC(STATX_CTIME),
1033	#endif
1034	#ifdef STATX_INO
1035	FLAG_GENERIC(STATX_INO),
1036	#endif
1037	#ifdef STATX_SIZE
1038	FLAG_GENERIC(STATX_SIZE),
1039	#endif
1040	#ifdef STATX_BLOCKS
1041	FLAG_GENERIC(STATX_BLOCKS),
1042	#endif
1043	#ifdef STATX_BTIME
1044	FLAG_GENERIC(STATX_BTIME),
1045	#endif
1046	FLAG_END,
1047	};
1048
1049	/*
1050	* print_xxx utility functions. These are used to print syscall
1051	* parameters in certain format. All of these have parameter
1052	* named 'last'. This parameter is used to add comma to output
1053	* when last == 0.
1054	*/
1055
1056	static const char *
1057	get_comma(int last)
1058	{
1059	return ((last) ? "" : ",");
1060	}
1061
1062	static void
1063	print_flags(const struct flags f, abi_long flags, int* last)
1064	{
1065	const char *sep = "";
1066	int n;
1067
1068	if ((flags == `0`) && (f->f_value == `0`)) {
1069	gemu_log("%s%s", f->f_string, get_comma(last));
1070	return;
1071	}
1072	for (n = `0`; f->f_string != NULL; f++) {
1073	if ((f->f_value != `0`) && ((flags & f->f_value) == f->f_value)) {
1074	gemu_log("%s%s", sep, f->f_string);
1075	flags &= ~f->f_value;
1076	sep = "\|";
1077	n++;
1078	}
1079	}
1080
1081	if (n > `0`) {
1082	/ print rest of the flags as numeric /
1083	if (flags != `0`) {
1084	gemu_log("%s%#x%s", sep, (unsigned int)flags, get_comma(last));
1085	} else {
1086	gemu_log("%s", get_comma(last));
1087	}
1088	} else {
1089	/ no string version of flags found, print them in hex then /
1090	gemu_log("%#x%s", (unsigned int)flags, get_comma(last));
1091	}
1092	}
1093
1094	static void
1095	print_at_dirfd(abi_long dirfd, int last)
1096	{
1097	#ifdef AT_FDCWD
1098	if (dirfd == AT_FDCWD) {
1099	gemu_log("AT_FDCWD%s", get_comma(last));
1100	return;
1101	}
1102	#endif
1103	gemu_log("%d%s", (int)dirfd, get_comma(last));
1104	}
1105
1106	static void
1107	print_file_mode(abi_long mode, int last)
1108	{
1109	const char *sep = "";
1110	const struct flags *m;
1111
1112	for (m = &mode_flags[`0`]; m->f_string != NULL; m++) {
1113	if ((m->f_value & mode) == m->f_value) {
1114	gemu_log("%s%s", m->f_string, sep);
1115	sep = "\|";
1116	mode &= ~m->f_value;
1117	break;
1118	}
1119	}
1120
1121	mode &= ~S_IFMT;
1122	/ print rest of the mode as octal /
1123	if (mode != `0`)
1124	gemu_log("%s%#o", sep, (unsigned int)mode);
1125
1126	gemu_log("%s", get_comma(last));
1127	}
1128
1129	static void
1130	print_open_flags(abi_long flags, int last)
1131	{
1132	print_flags(open_access_flags, flags & TARGET_O_ACCMODE, `1`);
1133	flags &= ~TARGET_O_ACCMODE;
1134	if (flags == `0`) {
1135	gemu_log("%s", get_comma(last));
1136	return;
1137	}
1138	gemu_log("\|");
1139	print_flags(open_flags, flags, last);
1140	}
1141
1142	static void
1143	print_syscall_prologue(const struct syscallname *sc)
1144	{
1145	gemu_log("%s(", sc->name);
1146	}
1147
1148	/ARGSUSED/
1149	static void
1150	print_syscall_epilogue(const struct syscallname *sc)
1151	{
1152	(void)sc;
1153	gemu_log(")");
1154	}
1155
1156	static void
1157	print_string(abi_long addr, int last)
1158	{
1159	char *s;
1160
1161	if ((s = lock_user_string(addr)) != NULL) {
1162	gemu_log("\"%s\"%s", s, get_comma(last));
1163	unlock_user(s, addr, `0`);
1164	} else {
1165	/ can't get string out of it, so print it as pointer /
1166	print_pointer(addr, last);
1167	}
1168	}
1169
1170	#define MAX_PRINT_BUF 40
1171	static void
1172	print_buf(abi_long addr, abi_long len, int last)
1173	{
1174	uint8_t *s;
1175	int i;
1176
1177	s = lock_user(VERIFY_READ, addr, len, `1`);
1178	if (s) {
1179	gemu_log("\"");
1180	for (i = `0`; i < MAX_PRINT_BUF && i < len; i++) {
1181	if (isprint(s[i])) {
1182	gemu_log("%c", s[i]);
1183	} else {
1184	gemu_log("\\%o", s[i]);
1185	}
1186	}
1187	gemu_log("\"");
1188	if (i != len) {
1189	gemu_log("...");
1190	}
1191	if (!last) {
1192	gemu_log(",");
1193	}
1194	unlock_user(s, addr, `0`);
1195	} else {
1196	print_pointer(addr, last);
1197	}
1198	}
1199
1200	/*
1201	* Prints out raw parameter using given format. Caller needs
1202	* to do byte swapping if needed.
1203	*/
1204	static void
1205	print_raw_param(const char fmt, abi_long param, int* last)
1206	{
1207	char format[`64`];
1208
1209	(void) snprintf(format, sizeof (format), "%s%s", fmt, get_comma(last));
1210	gemu_log(format, param);
1211	}
1212
1213	static void
1214	print_pointer(abi_long p, int last)
1215	{
1216	if (p == `0`)
1217	gemu_log("NULL%s", get_comma(last));
1218	else
1219	gemu_log("0x" TARGET_ABI_FMT_lx "%s", p, get_comma(last));
1220	}
1221
1222	/*
1223	* Reads 32-bit (int) number from guest address space from
1224	* address 'addr' and prints it.
1225	*/
1226	static void
1227	print_number(abi_long addr, int last)
1228	{
1229	if (addr == `0`) {
1230	gemu_log("NULL%s", get_comma(last));
1231	} else {
1232	int num;
1233
1234	get_user_s32(num, addr);
1235	gemu_log("[%d]%s", num, get_comma(last));
1236	}
1237	}
1238
1239	static void
1240	print_timeval(abi_ulong tv_addr, int last)
1241	{
1242	if( tv_addr ) {
1243	struct target_timeval *tv;
1244
1245	tv = lock_user(VERIFY_READ, tv_addr, sizeof(*tv), `1`);
1246	if (!tv)
1247	return;
1248	gemu_log("{" TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld "}%s",
1249	tswapal(tv->tv_sec), tswapal(tv->tv_usec), get_comma(last));
1250	unlock_user(tv, tv_addr, `0`);
1251	} else
1252	gemu_log("NULL%s", get_comma(last));
1253	}
1254
1255	#undef UNUSED
1256
1257	#ifdef TARGET_NR_accept
1258	static void
1259	print_accept(const struct syscallname *name,
1260	abi_long arg0, abi_long arg1, abi_long arg2,
1261	abi_long arg3, abi_long arg4, abi_long arg5)
1262	{
1263	print_syscall_prologue(name);
1264	print_raw_param("%d", arg0, `0`);
1265	print_pointer(arg1, `0`);
1266	print_number(arg2, `1`);
1267	print_syscall_epilogue(name);
1268	}
1269	#endif
1270
1271	#ifdef TARGET_NR_access
1272	static void
1273	print_access(const struct syscallname *name,
1274	abi_long arg0, abi_long arg1, abi_long arg2,
1275	abi_long arg3, abi_long arg4, abi_long arg5)
1276	{
1277	print_syscall_prologue(name);
1278	print_string(arg0, `0`);
1279	print_flags(access_flags, arg1, `1`);
1280	print_syscall_epilogue(name);
1281	}
1282	#endif
1283
1284	#ifdef TARGET_NR_brk
1285	static void
1286	print_brk(const struct syscallname *name,
1287	abi_long arg0, abi_long arg1, abi_long arg2,
1288	abi_long arg3, abi_long arg4, abi_long arg5)
1289	{
1290	print_syscall_prologue(name);
1291	print_pointer(arg0, `1`);
1292	print_syscall_epilogue(name);
1293	}
1294	#endif
1295
1296	#ifdef TARGET_NR_chdir
1297	static void
1298	print_chdir(const struct syscallname *name,
1299	abi_long arg0, abi_long arg1, abi_long arg2,
1300	abi_long arg3, abi_long arg4, abi_long arg5)
1301	{
1302	print_syscall_prologue(name);
1303	print_string(arg0, `1`);
1304	print_syscall_epilogue(name);
1305	}
1306	#endif
1307
1308	#ifdef TARGET_NR_chroot
1309	static void
1310	print_chroot(const struct syscallname *name,
1311	abi_long arg0, abi_long arg1, abi_long arg2,
1312	abi_long arg3, abi_long arg4, abi_long arg5)
1313	{
1314	print_syscall_prologue(name);
1315	print_string(arg0, `1`);
1316	print_syscall_epilogue(name);
1317	}
1318	#endif
1319
1320	#ifdef TARGET_NR_chmod
1321	static void
1322	print_chmod(const struct syscallname *name,
1323	abi_long arg0, abi_long arg1, abi_long arg2,
1324	abi_long arg3, abi_long arg4, abi_long arg5)
1325	{
1326	print_syscall_prologue(name);
1327	print_string(arg0, `0`);
1328	print_file_mode(arg1, `1`);
1329	print_syscall_epilogue(name);
1330	}
1331	#endif
1332
1333	#ifdef TARGET_NR_clock_adjtime
1334	static void
1335	print_clock_adjtime(const struct syscallname *name,
1336	abi_long arg0, abi_long arg1, abi_long arg2,
1337	abi_long arg3, abi_long arg4, abi_long arg5)
1338	{
1339	print_syscall_prologue(name);
1340	print_clockid(arg0, `0`);
1341	print_pointer(arg1, `1`);
1342	print_syscall_epilogue(name);
1343	}
1344	#endif
1345
1346	#ifdef TARGET_NR_clone
1347	static void do_print_clone(unsigned int flags, abi_ulong newsp,
1348	abi_ulong parent_tidptr, target_ulong newtls,
1349	abi_ulong child_tidptr)
1350	{
1351	print_flags(clone_flags, flags, `0`);
1352	print_raw_param("child_stack=0x" TARGET_ABI_FMT_lx, newsp, `0`);
1353	print_raw_param("parent_tidptr=0x" TARGET_ABI_FMT_lx, parent_tidptr, `0`);
1354	print_raw_param("tls=0x" TARGET_ABI_FMT_lx, newtls, `0`);
1355	print_raw_param("child_tidptr=0x" TARGET_ABI_FMT_lx, child_tidptr, `1`);
1356	}
1357
1358	static void
1359	print_clone(const struct syscallname *name,
1360	abi_long arg1, abi_long arg2, abi_long arg3,
1361	abi_long arg4, abi_long arg5, abi_long arg6)
1362	{
1363	print_syscall_prologue(name);
1364	#if defined(TARGET_MICROBLAZE)
1365	do_print_clone(arg1, arg2, arg4, arg6, arg5);
1366	#elif defined(TARGET_CLONE_BACKWARDS)
1367	do_print_clone(arg1, arg2, arg3, arg4, arg5);
1368	#elif defined(TARGET_CLONE_BACKWARDS2)
1369	do_print_clone(arg2, arg1, arg3, arg5, arg4);
1370	#else
1371	do_print_clone(arg1, arg2, arg3, arg5, arg4);
1372	#endif
1373	print_syscall_epilogue(name);
1374	}
1375	#endif
1376
1377	#ifdef TARGET_NR_creat
1378	static void
1379	print_creat(const struct syscallname *name,
1380	abi_long arg0, abi_long arg1, abi_long arg2,
1381	abi_long arg3, abi_long arg4, abi_long arg5)
1382	{
1383	print_syscall_prologue(name);
1384	print_string(arg0, `0`);
1385	print_file_mode(arg1, `1`);
1386	print_syscall_epilogue(name);
1387	}
1388	#endif
1389
1390	#ifdef TARGET_NR_execv
1391	static void
1392	print_execv(const struct syscallname *name,
1393	abi_long arg0, abi_long arg1, abi_long arg2,
1394	abi_long arg3, abi_long arg4, abi_long arg5)
1395	{
1396	print_syscall_prologue(name);
1397	print_string(arg0, `0`);
1398	print_raw_param("0x" TARGET_ABI_FMT_lx, arg1, `1`);
1399	print_syscall_epilogue(name);
1400	}
1401	#endif
1402
1403	#ifdef TARGET_NR_faccessat
1404	static void
1405	print_faccessat(const struct syscallname *name,
1406	abi_long arg0, abi_long arg1, abi_long arg2,
1407	abi_long arg3, abi_long arg4, abi_long arg5)
1408	{
1409	print_syscall_prologue(name);
1410	print_at_dirfd(arg0, `0`);
1411	print_string(arg1, `0`);
1412	print_flags(access_flags, arg2, `0`);
1413	print_flags(at_file_flags, arg3, `1`);
1414	print_syscall_epilogue(name);
1415	}
1416	#endif
1417
1418	#ifdef TARGET_NR_fchmodat
1419	static void
1420	print_fchmodat(const struct syscallname *name,
1421	abi_long arg0, abi_long arg1, abi_long arg2,
1422	abi_long arg3, abi_long arg4, abi_long arg5)
1423	{
1424	print_syscall_prologue(name);
1425	print_at_dirfd(arg0, `0`);
1426	print_string(arg1, `0`);
1427	print_file_mode(arg2, `0`);
1428	print_flags(at_file_flags, arg3, `1`);
1429	print_syscall_epilogue(name);
1430	}
1431	#endif
1432
1433	#ifdef TARGET_NR_fchownat
1434	static void
1435	print_fchownat(const struct syscallname *name,
1436	abi_long arg0, abi_long arg1, abi_long arg2,
1437	abi_long arg3, abi_long arg4, abi_long arg5)
1438	{
1439	print_syscall_prologue(name);
1440	print_at_dirfd(arg0, `0`);
1441	print_string(arg1, `0`);
1442	print_raw_param("%d", arg2, `0`);
1443	print_raw_param("%d", arg3, `0`);
1444	print_flags(at_file_flags, arg4, `1`);
1445	print_syscall_epilogue(name);
1446	}
1447	#endif
1448
1449	#if defined(TARGET_NR_fcntl) \|\| defined(TARGET_NR_fcntl64)
1450	static void
1451	print_fcntl(const struct syscallname *name,
1452	abi_long arg0, abi_long arg1, abi_long arg2,
1453	abi_long arg3, abi_long arg4, abi_long arg5)
1454	{
1455	print_syscall_prologue(name);
1456	print_raw_param("%d", arg0, `0`);
1457	switch(arg1) {
1458	case TARGET_F_DUPFD:
1459	gemu_log("F_DUPFD,");
1460	print_raw_param(TARGET_ABI_FMT_ld, arg2, `1`);
1461	break;
1462	case TARGET_F_GETFD:
1463	gemu_log("F_GETFD");
1464	break;
1465	case TARGET_F_SETFD:
1466	gemu_log("F_SETFD,");
1467	print_raw_param(TARGET_ABI_FMT_ld, arg2, `1`);
1468	break;
1469	case TARGET_F_GETFL:
1470	gemu_log("F_GETFL");
1471	break;
1472	case TARGET_F_SETFL:
1473	gemu_log("F_SETFL,");
1474	print_open_flags(arg2, `1`);
1475	break;
1476	case TARGET_F_GETLK:
1477	gemu_log("F_GETLK,");
1478	print_pointer(arg2, `1`);
1479	break;
1480	case TARGET_F_SETLK:
1481	gemu_log("F_SETLK,");
1482	print_pointer(arg2, `1`);
1483	break;
1484	case TARGET_F_SETLKW:
1485	gemu_log("F_SETLKW,");
1486	print_pointer(arg2, `1`);
1487	break;
1488	case TARGET_F_GETOWN:
1489	gemu_log("F_GETOWN");
1490	break;
1491	case TARGET_F_SETOWN:
1492	gemu_log("F_SETOWN,");
1493	print_raw_param(TARGET_ABI_FMT_ld, arg2, `0`);
1494	break;
1495	case TARGET_F_GETSIG:
1496	gemu_log("F_GETSIG");
1497	break;
1498	case TARGET_F_SETSIG:
1499	gemu_log("F_SETSIG,");
1500	print_raw_param(TARGET_ABI_FMT_ld, arg2, `0`);
1501	break;
1502	#if TARGET_ABI_BITS == 32
1503	case TARGET_F_GETLK64:
1504	gemu_log("F_GETLK64,");
1505	print_pointer(arg2, `1`);
1506	break;
1507	case TARGET_F_SETLK64:
1508	gemu_log("F_SETLK64,");
1509	print_pointer(arg2, `1`);
1510	break;
1511	case TARGET_F_SETLKW64:
1512	gemu_log("F_SETLKW64,");
1513	print_pointer(arg2, `1`);
1514	break;
1515	#endif
1516	case TARGET_F_SETLEASE:
1517	gemu_log("F_SETLEASE,");
1518	print_raw_param(TARGET_ABI_FMT_ld, arg2, `0`);
1519	break;
1520	case TARGET_F_GETLEASE:
1521	gemu_log("F_GETLEASE");
1522	break;
1523	case TARGET_F_SETPIPE_SZ:
1524	gemu_log("F_SETPIPE_SZ,");
1525	print_raw_param(TARGET_ABI_FMT_ld, arg2, `1`);
1526	break;
1527	case TARGET_F_GETPIPE_SZ:
1528	gemu_log("F_GETPIPE_SZ");
1529	break;
1530	case TARGET_F_DUPFD_CLOEXEC:
1531	gemu_log("F_DUPFD_CLOEXEC,");
1532	print_raw_param(TARGET_ABI_FMT_ld, arg2, `1`);
1533	break;
1534	case TARGET_F_NOTIFY:
1535	gemu_log("F_NOTIFY,");
1536	print_raw_param(TARGET_ABI_FMT_ld, arg2, `0`);
1537	break;
1538	default:
1539	print_raw_param(TARGET_ABI_FMT_ld, arg1, `0`);
1540	print_pointer(arg2, `1`);
1541	break;
1542	}
1543	print_syscall_epilogue(name);
1544	}
1545	#define print_fcntl64 print_fcntl
1546	#endif
1547
1548
1549	#ifdef TARGET_NR_futimesat
1550	static void
1551	print_futimesat(const struct syscallname *name,
1552	abi_long arg0, abi_long arg1, abi_long arg2,
1553	abi_long arg3, abi_long arg4, abi_long arg5)
1554	{
1555	print_syscall_prologue(name);
1556	print_at_dirfd(arg0, `0`);
1557	print_string(arg1, `0`);
1558	print_timeval(arg2, `0`);
1559	print_timeval(arg2 + sizeof (struct target_timeval), `1`);
1560	print_syscall_epilogue(name);
1561	}
1562	#endif
1563
1564	#ifdef TARGET_NR_link
1565	static void
1566	print_link(const struct syscallname *name,
1567	abi_long arg0, abi_long arg1, abi_long arg2,
1568	abi_long arg3, abi_long arg4, abi_long arg5)
1569	{
1570	print_syscall_prologue(name);
1571	print_string(arg0, `0`);
1572	print_string(arg1, `1`);
1573	print_syscall_epilogue(name);
1574	}
1575	#endif
1576
1577	#ifdef TARGET_NR_linkat
1578	static void
1579	print_linkat(const struct syscallname *name,
1580	abi_long arg0, abi_long arg1, abi_long arg2,
1581	abi_long arg3, abi_long arg4, abi_long arg5)
1582	{
1583	print_syscall_prologue(name);
1584	print_at_dirfd(arg0, `0`);
1585	print_string(arg1, `0`);
1586	print_at_dirfd(arg2, `0`);
1587	print_string(arg3, `0`);
1588	print_flags(at_file_flags, arg4, `1`);
1589	print_syscall_epilogue(name);
1590	}
1591	#endif
1592
1593	#ifdef TARGET_NR__llseek
1594	static void
1595	print__llseek(const struct syscallname *name,
1596	abi_long arg0, abi_long arg1, abi_long arg2,
1597	abi_long arg3, abi_long arg4, abi_long arg5)
1598	{
1599	const char *whence = "UNKNOWN";
1600	print_syscall_prologue(name);
1601	print_raw_param("%d", arg0, `0`);
1602	print_raw_param("%ld", arg1, `0`);
1603	print_raw_param("%ld", arg2, `0`);
1604	print_pointer(arg3, `0`);
1605	switch(arg4) {
1606	case SEEK_SET: whence = "SEEK_SET"; break;
1607	case SEEK_CUR: whence = "SEEK_CUR"; break;
1608	case SEEK_END: whence = "SEEK_END"; break;
1609	}
1610	gemu_log("%s",whence);
1611	print_syscall_epilogue(name);
1612	}
1613	#endif
1614
1615	#if defined(TARGET_NR_socket)
1616	static void
1617	print_socket(const struct syscallname *name,
1618	abi_long arg0, abi_long arg1, abi_long arg2,
1619	abi_long arg3, abi_long arg4, abi_long arg5)
1620	{
1621	abi_ulong domain = arg0, type = arg1, protocol = arg2;
1622
1623	print_syscall_prologue(name);
1624	print_socket_domain(domain);
1625	gemu_log(",");
1626	print_socket_type(type);
1627	gemu_log(",");
1628	if (domain == AF_PACKET \|\|
1629	(domain == AF_INET && type == TARGET_SOCK_PACKET)) {
1630	protocol = tswap16(protocol);
1631	}
1632	print_socket_protocol(domain, type, protocol);
1633	print_syscall_epilogue(name);
1634	}
1635
1636	#endif
1637
1638	#if defined(TARGET_NR_socketcall)
1639
1640	#define get_user_ualx(x, gaddr, idx) \
1641	get_user_ual(x, (gaddr) + (idx) * sizeof(abi_long))
1642
1643	static void do_print_socket(const char *name, abi_long arg1)
1644	{
1645	abi_ulong domain, type, protocol;
1646
1647	get_user_ualx(domain, arg1, `0`);
1648	get_user_ualx(type, arg1, `1`);
1649	get_user_ualx(protocol, arg1, `2`);
1650	gemu_log("%s(", name);
1651	print_socket_domain(domain);
1652	gemu_log(",");
1653	print_socket_type(type);
1654	gemu_log(",");
1655	if (domain == AF_PACKET \|\|
1656	(domain == AF_INET && type == TARGET_SOCK_PACKET)) {
1657	protocol = tswap16(protocol);
1658	}
1659	print_socket_protocol(domain, type, protocol);
1660	gemu_log(")");
1661	}
1662
1663	static void do_print_sockaddr(const char *name, abi_long arg1)
1664	{
1665	abi_ulong sockfd, addr, addrlen;
1666
1667	get_user_ualx(sockfd, arg1, `0`);
1668	get_user_ualx(addr, arg1, `1`);
1669	get_user_ualx(addrlen, arg1, `2`);
1670
1671	gemu_log("%s(", name);
1672	print_raw_param(TARGET_ABI_FMT_ld, sockfd, `0`);
1673	print_sockaddr(addr, addrlen);
1674	gemu_log(")");
1675	}
1676
1677	static void do_print_listen(const char *name, abi_long arg1)
1678	{
1679	abi_ulong sockfd, backlog;
1680
1681	get_user_ualx(sockfd, arg1, `0`);
1682	get_user_ualx(backlog, arg1, `1`);
1683
1684	gemu_log("%s(", name);
1685	print_raw_param(TARGET_ABI_FMT_ld, sockfd, `0`);
1686	print_raw_param(TARGET_ABI_FMT_ld, backlog, `1`);
1687	gemu_log(")");
1688	}
1689
1690	static void do_print_socketpair(const char *name, abi_long arg1)
1691	{
1692	abi_ulong domain, type, protocol, tab;
1693
1694	get_user_ualx(domain, arg1, `0`);
1695	get_user_ualx(type, arg1, `1`);
1696	get_user_ualx(protocol, arg1, `2`);
1697	get_user_ualx(tab, arg1, `3`);
1698
1699	gemu_log("%s(", name);
1700	print_socket_domain(domain);
1701	gemu_log(",");
1702	print_socket_type(type);
1703	gemu_log(",");
1704	print_socket_protocol(domain, type, protocol);
1705	gemu_log(",");
1706	print_raw_param(TARGET_ABI_FMT_lx, tab, `1`);
1707	gemu_log(")");
1708	}
1709
1710	static void do_print_sendrecv(const char *name, abi_long arg1)
1711	{
1712	abi_ulong sockfd, msg, len, flags;
1713
1714	get_user_ualx(sockfd, arg1, `0`);
1715	get_user_ualx(msg, arg1, `1`);
1716	get_user_ualx(len, arg1, `2`);
1717	get_user_ualx(flags, arg1, `3`);
1718
1719	gemu_log("%s(", name);
1720	print_raw_param(TARGET_ABI_FMT_ld, sockfd, `0`);
1721	print_buf(msg, len, `0`);
1722	print_raw_param(TARGET_ABI_FMT_ld, len, `0`);
1723	print_flags(msg_flags, flags, `1`);
1724	gemu_log(")");
1725	}
1726
1727	static void do_print_msgaddr(const char *name, abi_long arg1)
1728	{
1729	abi_ulong sockfd, msg, len, flags, addr, addrlen;
1730
1731	get_user_ualx(sockfd, arg1, `0`);
1732	get_user_ualx(msg, arg1, `1`);
1733	get_user_ualx(len, arg1, `2`);
1734	get_user_ualx(flags, arg1, `3`);
1735	get_user_ualx(addr, arg1, `4`);
1736	get_user_ualx(addrlen, arg1, `5`);
1737
1738	gemu_log("%s(", name);
1739	print_raw_param(TARGET_ABI_FMT_ld, sockfd, `0`);
1740	print_buf(msg, len, `0`);
1741	print_raw_param(TARGET_ABI_FMT_ld, len, `0`);
1742	print_flags(msg_flags, flags, `0`);
1743	print_sockaddr(addr, addrlen);
1744	gemu_log(")");
1745	}
1746
1747	static void do_print_shutdown(const char *name, abi_long arg1)
1748	{
1749	abi_ulong sockfd, how;
1750
1751	get_user_ualx(sockfd, arg1, `0`);
1752	get_user_ualx(how, arg1, `1`);
1753
1754	gemu_log("shutdown(");
1755	print_raw_param(TARGET_ABI_FMT_ld, sockfd, `0`);
1756	switch (how) {
1757	case SHUT_RD:
1758	gemu_log("SHUT_RD");
1759	break;
1760	case SHUT_WR:
1761	gemu_log("SHUT_WR");
1762	break;
1763	case SHUT_RDWR:
1764	gemu_log("SHUT_RDWR");
1765	break;
1766	default:
1767	print_raw_param(TARGET_ABI_FMT_ld, how, `1`);
1768	break;
1769	}
1770	gemu_log(")");
1771	}
1772
1773	static void do_print_msg(const char *name, abi_long arg1)
1774	{
1775	abi_ulong sockfd, msg, flags;
1776
1777	get_user_ualx(sockfd, arg1, `0`);
1778	get_user_ualx(msg, arg1, `1`);
1779	get_user_ualx(flags, arg1, `2`);
1780
1781	gemu_log("%s(", name);
1782	print_raw_param(TARGET_ABI_FMT_ld, sockfd, `0`);
1783	print_pointer(msg, `0`);
1784	print_flags(msg_flags, flags, `1`);
1785	gemu_log(")");
1786	}
1787
1788	static void do_print_sockopt(const char *name, abi_long arg1)
1789	{
1790	abi_ulong sockfd, level, optname, optval, optlen;
1791
1792	get_user_ualx(sockfd, arg1, `0`);
1793	get_user_ualx(level, arg1, `1`);
1794	get_user_ualx(optname, arg1, `2`);
1795	get_user_ualx(optval, arg1, `3`);
1796	get_user_ualx(optlen, arg1, `4`);
1797
1798	gemu_log("%s(", name);
1799	print_raw_param(TARGET_ABI_FMT_ld, sockfd, `0`);
1800	switch (level) {
1801	case SOL_TCP:
1802	gemu_log("SOL_TCP,");
1803	print_raw_param(TARGET_ABI_FMT_ld, optname, `0`);
1804	print_pointer(optval, `0`);
1805	break;
1806	case SOL_IP:
1807	gemu_log("SOL_IP,");
1808	print_raw_param(TARGET_ABI_FMT_ld, optname, `0`);
1809	print_pointer(optval, `0`);
1810	break;
1811	case SOL_RAW:
1812	gemu_log("SOL_RAW,");
1813	print_raw_param(TARGET_ABI_FMT_ld, optname, `0`);
1814	print_pointer(optval, `0`);
1815	break;
1816	case TARGET_SOL_SOCKET:
1817	gemu_log("SOL_SOCKET,");
1818	switch (optname) {
1819	case TARGET_SO_DEBUG:
1820	gemu_log("SO_DEBUG,");
1821	print_optint:
1822	print_number(optval, `0`);
1823	break;
1824	case TARGET_SO_REUSEADDR:
1825	gemu_log("SO_REUSEADDR,");
1826	goto print_optint;
1827	case TARGET_SO_REUSEPORT:
1828	gemu_log("SO_REUSEPORT,");
1829	goto print_optint;
1830	case TARGET_SO_TYPE:
1831	gemu_log("SO_TYPE,");
1832	goto print_optint;
1833	case TARGET_SO_ERROR:
1834	gemu_log("SO_ERROR,");
1835	goto print_optint;
1836	case TARGET_SO_DONTROUTE:
1837	gemu_log("SO_DONTROUTE,");
1838	goto print_optint;
1839	case TARGET_SO_BROADCAST:
1840	gemu_log("SO_BROADCAST,");
1841	goto print_optint;
1842	case TARGET_SO_SNDBUF:
1843	gemu_log("SO_SNDBUF,");
1844	goto print_optint;
1845	case TARGET_SO_RCVBUF:
1846	gemu_log("SO_RCVBUF,");
1847	goto print_optint;
1848	case TARGET_SO_KEEPALIVE:
1849	gemu_log("SO_KEEPALIVE,");
1850	goto print_optint;
1851	case TARGET_SO_OOBINLINE:
1852	gemu_log("SO_OOBINLINE,");
1853	goto print_optint;
1854	case TARGET_SO_NO_CHECK:
1855	gemu_log("SO_NO_CHECK,");
1856	goto print_optint;
1857	case TARGET_SO_PRIORITY:
1858	gemu_log("SO_PRIORITY,");
1859	goto print_optint;
1860	case TARGET_SO_BSDCOMPAT:
1861	gemu_log("SO_BSDCOMPAT,");
1862	goto print_optint;
1863	case TARGET_SO_PASSCRED:
1864	gemu_log("SO_PASSCRED,");
1865	goto print_optint;
1866	case TARGET_SO_TIMESTAMP:
1867	gemu_log("SO_TIMESTAMP,");
1868	goto print_optint;
1869	case TARGET_SO_RCVLOWAT:
1870	gemu_log("SO_RCVLOWAT,");
1871	goto print_optint;
1872	case TARGET_SO_RCVTIMEO:
1873	gemu_log("SO_RCVTIMEO,");
1874	print_timeval(optval, `0`);
1875	break;
1876	case TARGET_SO_SNDTIMEO:
1877	gemu_log("SO_SNDTIMEO,");
1878	print_timeval(optval, `0`);
1879	break;
1880	case TARGET_SO_ATTACH_FILTER: {
1881	struct target_sock_fprog *fprog;
1882
1883	gemu_log("SO_ATTACH_FILTER,");
1884
1885	if (lock_user_struct(VERIFY_READ, fprog, optval, `0`)) {
1886	struct target_sock_filter *filter;
1887	gemu_log("{");
1888	if (lock_user_struct(VERIFY_READ, filter,
1889	tswapal(fprog->filter), `0`)) {
1890	int i;
1891	for (i = `0`; i < tswap16(fprog->len) - `1`; i++) {
1892	gemu_log("[%d]{0x%x,%d,%d,0x%x},",
1893	i, tswap16(filter[i].code),
1894	filter[i].jt, filter[i].jf,
1895	tswap32(filter[i].k));
1896	}
1897	gemu_log("[%d]{0x%x,%d,%d,0x%x}",
1898	i, tswap16(filter[i].code),
1899	filter[i].jt, filter[i].jf,
1900	tswap32(filter[i].k));
1901	} else {
1902	gemu_log(TARGET_ABI_FMT_lx, tswapal(fprog->filter));
1903	}
1904	gemu_log(",%d},", tswap16(fprog->len));
1905	unlock_user(fprog, optval, `0`);
1906	} else {
1907	print_pointer(optval, `0`);
1908	}
1909	break;
1910	}
1911	default:
1912	print_raw_param(TARGET_ABI_FMT_ld, optname, `0`);
1913	print_pointer(optval, `0`);
1914	break;
1915	}
1916	break;
1917	default:
1918	print_raw_param(TARGET_ABI_FMT_ld, level, `0`);
1919	print_raw_param(TARGET_ABI_FMT_ld, optname, `0`);
1920	print_pointer(optval, `0`);
1921	break;
1922	}
1923	print_raw_param(TARGET_ABI_FMT_ld, optlen, `1`);
1924	gemu_log(")");
1925	}
1926
1927	#define PRINT_SOCKOP(name, func) \
1928	[TARGET_SYS_##name] = { #name, func }
1929
1930	static struct {
1931	const char *name;
1932	void (print)(const* char *, abi_long);
1933	} scall[] = {
1934	PRINT_SOCKOP(SOCKET, do_print_socket),
1935	PRINT_SOCKOP(BIND, do_print_sockaddr),
1936	PRINT_SOCKOP(CONNECT, do_print_sockaddr),
1937	PRINT_SOCKOP(LISTEN, do_print_listen),
1938	PRINT_SOCKOP(ACCEPT, do_print_sockaddr),
1939	PRINT_SOCKOP(GETSOCKNAME, do_print_sockaddr),
1940	PRINT_SOCKOP(GETPEERNAME, do_print_sockaddr),
1941	PRINT_SOCKOP(SOCKETPAIR, do_print_socketpair),
1942	PRINT_SOCKOP(SEND, do_print_sendrecv),
1943	PRINT_SOCKOP(RECV, do_print_sendrecv),
1944	PRINT_SOCKOP(SENDTO, do_print_msgaddr),
1945	PRINT_SOCKOP(RECVFROM, do_print_msgaddr),
1946	PRINT_SOCKOP(SHUTDOWN, do_print_shutdown),
1947	PRINT_SOCKOP(SETSOCKOPT, do_print_sockopt),
1948	PRINT_SOCKOP(GETSOCKOPT, do_print_sockopt),
1949	PRINT_SOCKOP(SENDMSG, do_print_msg),
1950	PRINT_SOCKOP(RECVMSG, do_print_msg),
1951	PRINT_SOCKOP(ACCEPT4, NULL),
1952	PRINT_SOCKOP(RECVMMSG, NULL),
1953	PRINT_SOCKOP(SENDMMSG, NULL),
1954	};
1955
1956	static void
1957	print_socketcall(const struct syscallname *name,
1958	abi_long arg0, abi_long arg1, abi_long arg2,
1959	abi_long arg3, abi_long arg4, abi_long arg5)
1960	{
1961	if (arg0 >= `0` && arg0 < ARRAY_SIZE(scall) && scall[arg0].print) {
1962	scall[arg0].print(scall[arg0].name, arg1);
1963	return;
1964	}
1965	print_syscall_prologue(name);
1966	print_raw_param(TARGET_ABI_FMT_ld, arg0, `0`);
1967	print_raw_param(TARGET_ABI_FMT_ld, arg1, `0`);
1968	print_raw_param(TARGET_ABI_FMT_ld, arg2, `0`);
1969	print_raw_param(TARGET_ABI_FMT_ld, arg3, `0`);
1970	print_raw_param(TARGET_ABI_FMT_ld, arg4, `0`);
1971	print_raw_param(TARGET_ABI_FMT_ld, arg5, `0`);
1972	print_syscall_epilogue(name);
1973	}
1974	#endif
1975
1976	#if defined(TARGET_NR_stat) \|\| defined(TARGET_NR_stat64) \|\| \
1977	defined(TARGET_NR_lstat) \|\| defined(TARGET_NR_lstat64)
1978	static void
1979	print_stat(const struct syscallname *name,
1980	abi_long arg0, abi_long arg1, abi_long arg2,
1981	abi_long arg3, abi_long arg4, abi_long arg5)
1982	{
1983	print_syscall_prologue(name);
1984	print_string(arg0, `0`);
1985	print_pointer(arg1, `1`);
1986	print_syscall_epilogue(name);
1987	}
1988	#define print_lstat print_stat
1989	#define print_stat64 print_stat
1990	#define print_lstat64 print_stat
1991	#endif
1992
1993	#if defined(TARGET_NR_fstat) \|\| defined(TARGET_NR_fstat64)
1994	static void
1995	print_fstat(const struct syscallname *name,
1996	abi_long arg0, abi_long arg1, abi_long arg2,
1997	abi_long arg3, abi_long arg4, abi_long arg5)
1998	{
1999	print_syscall_prologue(name);
2000	print_raw_param("%d", arg0, `0`);
2001	print_pointer(arg1, `1`);
2002	print_syscall_epilogue(name);
2003	}
2004	#define print_fstat64 print_fstat
2005	#endif
2006
2007	#ifdef TARGET_NR_mkdir
2008	static void
2009	print_mkdir(const struct syscallname *name,
2010	abi_long arg0, abi_long arg1, abi_long arg2,
2011	abi_long arg3, abi_long arg4, abi_long arg5)
2012	{
2013	print_syscall_prologue(name);
2014	print_string(arg0, `0`);
2015	print_file_mode(arg1, `1`);
2016	print_syscall_epilogue(name);
2017	}
2018	#endif
2019
2020	#ifdef TARGET_NR_mkdirat
2021	static void
2022	print_mkdirat(const struct syscallname *name,
2023	abi_long arg0, abi_long arg1, abi_long arg2,
2024	abi_long arg3, abi_long arg4, abi_long arg5)
2025	{
2026	print_syscall_prologue(name);
2027	print_at_dirfd(arg0, `0`);
2028	print_string(arg1, `0`);
2029	print_file_mode(arg2, `1`);
2030	print_syscall_epilogue(name);
2031	}
2032	#endif
2033
2034	#ifdef TARGET_NR_rmdir
2035	static void
2036	print_rmdir(const struct syscallname *name,
2037	abi_long arg0, abi_long arg1, abi_long arg2,
2038	abi_long arg3, abi_long arg4, abi_long arg5)
2039	{
2040	print_syscall_prologue(name);
2041	print_string(arg0, `0`);
2042	print_syscall_epilogue(name);
2043	}
2044	#endif
2045
2046	#ifdef TARGET_NR_rt_sigaction
2047	static void
2048	print_rt_sigaction(const struct syscallname *name,
2049	abi_long arg0, abi_long arg1, abi_long arg2,
2050	abi_long arg3, abi_long arg4, abi_long arg5)
2051	{
2052	print_syscall_prologue(name);
2053	print_signal(arg0, `0`);
2054	print_pointer(arg1, `0`);
2055	print_pointer(arg2, `1`);
2056	print_syscall_epilogue(name);
2057	}
2058	#endif
2059
2060	#ifdef TARGET_NR_rt_sigprocmask
2061	static void
2062	print_rt_sigprocmask(const struct syscallname *name,
2063	abi_long arg0, abi_long arg1, abi_long arg2,
2064	abi_long arg3, abi_long arg4, abi_long arg5)
2065	{
2066	const char *how = "UNKNOWN";
2067	print_syscall_prologue(name);
2068	switch(arg0) {
2069	case TARGET_SIG_BLOCK: how = "SIG_BLOCK"; break;
2070	case TARGET_SIG_UNBLOCK: how = "SIG_UNBLOCK"; break;
2071	case TARGET_SIG_SETMASK: how = "SIG_SETMASK"; break;
2072	}
2073	gemu_log("%s,",how);
2074	print_pointer(arg1, `0`);
2075	print_pointer(arg2, `1`);
2076	print_syscall_epilogue(name);
2077	}
2078	#endif
2079
2080	#ifdef TARGET_NR_rt_sigqueueinfo
2081	static void
2082	print_rt_sigqueueinfo(const struct syscallname *name,
2083	abi_long arg0, abi_long arg1, abi_long arg2,
2084	abi_long arg3, abi_long arg4, abi_long arg5)
2085	{
2086	void *p;
2087	target_siginfo_t uinfo;
2088
2089	print_syscall_prologue(name);
2090	print_raw_param("%d", arg0, `0`);
2091	print_signal(arg1, `0`);
2092	p = lock_user(VERIFY_READ, arg2, sizeof(target_siginfo_t), `1`);
2093	if (p) {
2094	get_target_siginfo(&uinfo, p);
2095	print_siginfo(&uinfo);
2096
2097	unlock_user(p, arg2, `0`);
2098	} else {
2099	print_pointer(arg2, `1`);
2100	}
2101	print_syscall_epilogue(name);
2102	}
2103	#endif
2104
2105	#ifdef TARGET_NR_rt_tgsigqueueinfo
2106	static void
2107	print_rt_tgsigqueueinfo(const struct syscallname *name,
2108	abi_long arg0, abi_long arg1, abi_long arg2,
2109	abi_long arg3, abi_long arg4, abi_long arg5)
2110	{
2111	void *p;
2112	target_siginfo_t uinfo;
2113
2114	print_syscall_prologue(name);
2115	print_raw_param("%d", arg0, `0`);
2116	print_raw_param("%d", arg1, `0`);
2117	print_signal(arg2, `0`);
2118	p = lock_user(VERIFY_READ, arg3, sizeof(target_siginfo_t), `1`);
2119	if (p) {
2120	get_target_siginfo(&uinfo, p);
2121	print_siginfo(&uinfo);
2122
2123	unlock_user(p, arg3, `0`);
2124	} else {
2125	print_pointer(arg3, `1`);
2126	}
2127	print_syscall_epilogue(name);
2128	}
2129	#endif
2130
2131	#ifdef TARGET_NR_syslog
2132	static void
2133	print_syslog_action(abi_ulong arg, int last)
2134	{
2135	const char *type;
2136
2137	switch (arg) {
2138	case TARGET_SYSLOG_ACTION_CLOSE: {
2139	type = "SYSLOG_ACTION_CLOSE";
2140	break;
2141	}
2142	case TARGET_SYSLOG_ACTION_OPEN: {
2143	type = "SYSLOG_ACTION_OPEN";
2144	break;
2145	}
2146	case TARGET_SYSLOG_ACTION_READ: {
2147	type = "SYSLOG_ACTION_READ";
2148	break;
2149	}
2150	case TARGET_SYSLOG_ACTION_READ_ALL: {
2151	type = "SYSLOG_ACTION_READ_ALL";
2152	break;
2153	}
2154	case TARGET_SYSLOG_ACTION_READ_CLEAR: {
2155	type = "SYSLOG_ACTION_READ_CLEAR";
2156	break;
2157	}
2158	case TARGET_SYSLOG_ACTION_CLEAR: {
2159	type = "SYSLOG_ACTION_CLEAR";
2160	break;
2161	}
2162	case TARGET_SYSLOG_ACTION_CONSOLE_OFF: {
2163	type = "SYSLOG_ACTION_CONSOLE_OFF";
2164	break;
2165	}
2166	case TARGET_SYSLOG_ACTION_CONSOLE_ON: {
2167	type = "SYSLOG_ACTION_CONSOLE_ON";
2168	break;
2169	}
2170	case TARGET_SYSLOG_ACTION_CONSOLE_LEVEL: {
2171	type = "SYSLOG_ACTION_CONSOLE_LEVEL";
2172	break;
2173	}
2174	case TARGET_SYSLOG_ACTION_SIZE_UNREAD: {
2175	type = "SYSLOG_ACTION_SIZE_UNREAD";
2176	break;
2177	}
2178	case TARGET_SYSLOG_ACTION_SIZE_BUFFER: {
2179	type = "SYSLOG_ACTION_SIZE_BUFFER";
2180	break;
2181	}
2182	default: {
2183	print_raw_param("%ld", arg, last);
2184	return;
2185	}
2186	}
2187	gemu_log("%s%s", type, get_comma(last));
2188	}
2189
2190	static void
2191	print_syslog(const struct syscallname *name,
2192	abi_long arg0, abi_long arg1, abi_long arg2,
2193	abi_long arg3, abi_long arg4, abi_long arg5)
2194	{
2195	print_syscall_prologue(name);
2196	print_syslog_action(arg0, `0`);
2197	print_pointer(arg1, `0`);
2198	print_raw_param("%d", arg2, `1`);
2199	print_syscall_epilogue(name);
2200	}
2201	#endif
2202
2203	#ifdef TARGET_NR_mknod
2204	static void
2205	print_mknod(const struct syscallname *name,
2206	abi_long arg0, abi_long arg1, abi_long arg2,
2207	abi_long arg3, abi_long arg4, abi_long arg5)
2208	{
2209	int hasdev = (arg1 & (S_IFCHR\|S_IFBLK));
2210
2211	print_syscall_prologue(name);
2212	print_string(arg0, `0`);
2213	print_file_mode(arg1, (hasdev == `0`));
2214	if (hasdev) {
2215	print_raw_param("makedev(%d", major(arg2), `0`);
2216	print_raw_param("%d)", minor(arg2), `1`);
2217	}
2218	print_syscall_epilogue(name);
2219	}
2220	#endif
2221
2222	#ifdef TARGET_NR_mknodat
2223	static void
2224	print_mknodat(const struct syscallname *name,
2225	abi_long arg0, abi_long arg1, abi_long arg2,
2226	abi_long arg3, abi_long arg4, abi_long arg5)
2227	{
2228	int hasdev = (arg2 & (S_IFCHR\|S_IFBLK));
2229
2230	print_syscall_prologue(name);
2231	print_at_dirfd(arg0, `0`);
2232	print_string(arg1, `0`);
2233	print_file_mode(arg2, (hasdev == `0`));
2234	if (hasdev) {
2235	print_raw_param("makedev(%d", major(arg3), `0`);
2236	print_raw_param("%d)", minor(arg3), `1`);
2237	}
2238	print_syscall_epilogue(name);
2239	}
2240	#endif
2241
2242	#ifdef TARGET_NR_mq_open
2243	static void
2244	print_mq_open(const struct syscallname *name,
2245	abi_long arg0, abi_long arg1, abi_long arg2,
2246	abi_long arg3, abi_long arg4, abi_long arg5)
2247	{
2248	int is_creat = (arg1 & TARGET_O_CREAT);
2249
2250	print_syscall_prologue(name);
2251	print_string(arg0, `0`);
2252	print_open_flags(arg1, (is_creat == `0`));
2253	if (is_creat) {
2254	print_file_mode(arg2, `0`);
2255	print_pointer(arg3, `1`);
2256	}
2257	print_syscall_epilogue(name);
2258	}
2259	#endif
2260
2261	#ifdef TARGET_NR_open
2262	static void
2263	print_open(const struct syscallname *name,
2264	abi_long arg0, abi_long arg1, abi_long arg2,
2265	abi_long arg3, abi_long arg4, abi_long arg5)
2266	{
2267	int is_creat = (arg1 & TARGET_O_CREAT);
2268
2269	print_syscall_prologue(name);
2270	print_string(arg0, `0`);
2271	print_open_flags(arg1, (is_creat == `0`));
2272	if (is_creat)
2273	print_file_mode(arg2, `1`);
2274	print_syscall_epilogue(name);
2275	}
2276	#endif
2277
2278	#ifdef TARGET_NR_openat
2279	static void
2280	print_openat(const struct syscallname *name,
2281	abi_long arg0, abi_long arg1, abi_long arg2,
2282	abi_long arg3, abi_long arg4, abi_long arg5)
2283	{
2284	int is_creat = (arg2 & TARGET_O_CREAT);
2285
2286	print_syscall_prologue(name);
2287	print_at_dirfd(arg0, `0`);
2288	print_string(arg1, `0`);
2289	print_open_flags(arg2, (is_creat == `0`));
2290	if (is_creat)
2291	print_file_mode(arg3, `1`);
2292	print_syscall_epilogue(name);
2293	}
2294	#endif
2295
2296	#ifdef TARGET_NR_mq_unlink
2297	static void
2298	print_mq_unlink(const struct syscallname *name,
2299	abi_long arg0, abi_long arg1, abi_long arg2,
2300	abi_long arg3, abi_long arg4, abi_long arg5)
2301	{
2302	print_syscall_prologue(name);
2303	print_string(arg0, `1`);
2304	print_syscall_epilogue(name);
2305	}
2306	#endif
2307
2308	#if defined(TARGET_NR_fstatat64) \|\| defined(TARGET_NR_newfstatat)
2309	static void
2310	print_fstatat64(const struct syscallname *name,
2311	abi_long arg0, abi_long arg1, abi_long arg2,
2312	abi_long arg3, abi_long arg4, abi_long arg5)
2313	{
2314	print_syscall_prologue(name);
2315	print_at_dirfd(arg0, `0`);
2316	print_string(arg1, `0`);
2317	print_pointer(arg2, `0`);
2318	print_flags(at_file_flags, arg3, `1`);
2319	print_syscall_epilogue(name);
2320	}
2321	#define print_newfstatat print_fstatat64
2322	#endif
2323
2324	#ifdef TARGET_NR_readlink
2325	static void
2326	print_readlink(const struct syscallname *name,
2327	abi_long arg0, abi_long arg1, abi_long arg2,
2328	abi_long arg3, abi_long arg4, abi_long arg5)
2329	{
2330	print_syscall_prologue(name);
2331	print_string(arg0, `0`);
2332	print_pointer(arg1, `0`);
2333	print_raw_param("%u", arg2, `1`);
2334	print_syscall_epilogue(name);
2335	}
2336	#endif
2337
2338	#ifdef TARGET_NR_readlinkat
2339	static void
2340	print_readlinkat(const struct syscallname *name,
2341	abi_long arg0, abi_long arg1, abi_long arg2,
2342	abi_long arg3, abi_long arg4, abi_long arg5)
2343	{
2344	print_syscall_prologue(name);
2345	print_at_dirfd(arg0, `0`);
2346	print_string(arg1, `0`);
2347	print_pointer(arg2, `0`);
2348	print_raw_param("%u", arg3, `1`);
2349	print_syscall_epilogue(name);
2350	}
2351	#endif
2352
2353	#ifdef TARGET_NR_rename
2354	static void
2355	print_rename(const struct syscallname *name,
2356	abi_long arg0, abi_long arg1, abi_long arg2,
2357	abi_long arg3, abi_long arg4, abi_long arg5)
2358	{
2359	print_syscall_prologue(name);
2360	print_string(arg0, `0`);
2361	print_string(arg1, `1`);
2362	print_syscall_epilogue(name);
2363	}
2364	#endif
2365
2366	#ifdef TARGET_NR_renameat
2367	static void
2368	print_renameat(const struct syscallname *name,
2369	abi_long arg0, abi_long arg1, abi_long arg2,
2370	abi_long arg3, abi_long arg4, abi_long arg5)
2371	{
2372	print_syscall_prologue(name);
2373	print_at_dirfd(arg0, `0`);
2374	print_string(arg1, `0`);
2375	print_at_dirfd(arg2, `0`);
2376	print_string(arg3, `1`);
2377	print_syscall_epilogue(name);
2378	}
2379	#endif
2380
2381	#ifdef TARGET_NR_statfs
2382	static void
2383	print_statfs(const struct syscallname *name,
2384	abi_long arg0, abi_long arg1, abi_long arg2,
2385	abi_long arg3, abi_long arg4, abi_long arg5)
2386	{
2387	print_syscall_prologue(name);
2388	print_string(arg0, `0`);
2389	print_pointer(arg1, `1`);
2390	print_syscall_epilogue(name);
2391	}
2392	#endif
2393
2394	#ifdef TARGET_NR_statfs64
2395	static void
2396	print_statfs64(const struct syscallname *name,
2397	abi_long arg0, abi_long arg1, abi_long arg2,
2398	abi_long arg3, abi_long arg4, abi_long arg5)
2399	{
2400	print_syscall_prologue(name);
2401	print_string(arg0, `0`);
2402	print_pointer(arg1, `1`);
2403	print_syscall_epilogue(name);
2404	}
2405	#endif
2406
2407	#ifdef TARGET_NR_symlink
2408	static void
2409	print_symlink(const struct syscallname *name,
2410	abi_long arg0, abi_long arg1, abi_long arg2,
2411	abi_long arg3, abi_long arg4, abi_long arg5)
2412	{
2413	print_syscall_prologue(name);
2414	print_string(arg0, `0`);
2415	print_string(arg1, `1`);
2416	print_syscall_epilogue(name);
2417	}
2418	#endif
2419
2420	#ifdef TARGET_NR_symlinkat
2421	static void
2422	print_symlinkat(const struct syscallname *name,
2423	abi_long arg0, abi_long arg1, abi_long arg2,
2424	abi_long arg3, abi_long arg4, abi_long arg5)
2425	{
2426	print_syscall_prologue(name);
2427	print_string(arg0, `0`);
2428	print_at_dirfd(arg1, `0`);
2429	print_string(arg2, `1`);
2430	print_syscall_epilogue(name);
2431	}
2432	#endif
2433
2434	#ifdef TARGET_NR_mount
2435	static void
2436	print_mount(const struct syscallname *name,
2437	abi_long arg0, abi_long arg1, abi_long arg2,
2438	abi_long arg3, abi_long arg4, abi_long arg5)
2439	{
2440	print_syscall_prologue(name);
2441	print_string(arg0, `0`);
2442	print_string(arg1, `0`);
2443	print_string(arg2, `0`);
2444	print_flags(mount_flags, arg3, `0`);
2445	print_pointer(arg4, `1`);
2446	print_syscall_epilogue(name);
2447	}
2448	#endif
2449
2450	#ifdef TARGET_NR_umount
2451	static void
2452	print_umount(const struct syscallname *name,
2453	abi_long arg0, abi_long arg1, abi_long arg2,
2454	abi_long arg3, abi_long arg4, abi_long arg5)
2455	{
2456	print_syscall_prologue(name);
2457	print_string(arg0, `1`);
2458	print_syscall_epilogue(name);
2459	}
2460	#endif
2461
2462	#ifdef TARGET_NR_umount2
2463	static void
2464	print_umount2(const struct syscallname *name,
2465	abi_long arg0, abi_long arg1, abi_long arg2,
2466	abi_long arg3, abi_long arg4, abi_long arg5)
2467	{
2468	print_syscall_prologue(name);
2469	print_string(arg0, `0`);
2470	print_flags(umount2_flags, arg1, `1`);
2471	print_syscall_epilogue(name);
2472	}
2473	#endif
2474
2475	#ifdef TARGET_NR_unlink
2476	static void
2477	print_unlink(const struct syscallname *name,
2478	abi_long arg0, abi_long arg1, abi_long arg2,
2479	abi_long arg3, abi_long arg4, abi_long arg5)
2480	{
2481	print_syscall_prologue(name);
2482	print_string(arg0, `1`);
2483	print_syscall_epilogue(name);
2484	}
2485	#endif
2486
2487	#ifdef TARGET_NR_unlinkat
2488	static void
2489	print_unlinkat(const struct syscallname *name,
2490	abi_long arg0, abi_long arg1, abi_long arg2,
2491	abi_long arg3, abi_long arg4, abi_long arg5)
2492	{
2493	print_syscall_prologue(name);
2494	print_at_dirfd(arg0, `0`);
2495	print_string(arg1, `0`);
2496	print_flags(unlinkat_flags, arg2, `1`);
2497	print_syscall_epilogue(name);
2498	}
2499	#endif
2500
2501	#ifdef TARGET_NR_utime
2502	static void
2503	print_utime(const struct syscallname *name,
2504	abi_long arg0, abi_long arg1, abi_long arg2,
2505	abi_long arg3, abi_long arg4, abi_long arg5)
2506	{
2507	print_syscall_prologue(name);
2508	print_string(arg0, `0`);
2509	print_pointer(arg1, `1`);
2510	print_syscall_epilogue(name);
2511	}
2512	#endif
2513
2514	#ifdef TARGET_NR_utimes
2515	static void
2516	print_utimes(const struct syscallname *name,
2517	abi_long arg0, abi_long arg1, abi_long arg2,
2518	abi_long arg3, abi_long arg4, abi_long arg5)
2519	{
2520	print_syscall_prologue(name);
2521	print_string(arg0, `0`);
2522	print_pointer(arg1, `1`);
2523	print_syscall_epilogue(name);
2524	}
2525	#endif
2526
2527	#ifdef TARGET_NR_utimensat
2528	static void
2529	print_utimensat(const struct syscallname *name,
2530	abi_long arg0, abi_long arg1, abi_long arg2,
2531	abi_long arg3, abi_long arg4, abi_long arg5)
2532	{
2533	print_syscall_prologue(name);
2534	print_at_dirfd(arg0, `0`);
2535	print_string(arg1, `0`);
2536	print_pointer(arg2, `0`);
2537	print_flags(at_file_flags, arg3, `1`);
2538	print_syscall_epilogue(name);
2539	}
2540	#endif
2541
2542	#if defined(TARGET_NR_mmap) \|\| defined(TARGET_NR_mmap2)
2543	static void
2544	print_mmap(const struct syscallname *name,
2545	abi_long arg0, abi_long arg1, abi_long arg2,
2546	abi_long arg3, abi_long arg4, abi_long arg5)
2547	{
2548	print_syscall_prologue(name);
2549	print_pointer(arg0, `0`);
2550	print_raw_param("%d", arg1, `0`);
2551	print_flags(mmap_prot_flags, arg2, `0`);
2552	print_flags(mmap_flags, arg3, `0`);
2553	print_raw_param("%d", arg4, `0`);
2554	print_raw_param("%#x", arg5, `1`);
2555	print_syscall_epilogue(name);
2556	}
2557	#define print_mmap2 print_mmap
2558	#endif
2559
2560	#ifdef TARGET_NR_mprotect
2561	static void
2562	print_mprotect(const struct syscallname *name,
2563	abi_long arg0, abi_long arg1, abi_long arg2,
2564	abi_long arg3, abi_long arg4, abi_long arg5)
2565	{
2566	print_syscall_prologue(name);
2567	print_pointer(arg0, `0`);
2568	print_raw_param("%d", arg1, `0`);
2569	print_flags(mmap_prot_flags, arg2, `1`);
2570	print_syscall_epilogue(name);
2571	}
2572	#endif
2573
2574	#ifdef TARGET_NR_munmap
2575	static void
2576	print_munmap(const struct syscallname *name,
2577	abi_long arg0, abi_long arg1, abi_long arg2,
2578	abi_long arg3, abi_long arg4, abi_long arg5)
2579	{
2580	print_syscall_prologue(name);
2581	print_pointer(arg0, `0`);
2582	print_raw_param("%d", arg1, `1`);
2583	print_syscall_epilogue(name);
2584	}
2585	#endif
2586
2587	#ifdef TARGET_NR_futex
2588	static void print_futex_op(abi_long tflag, int last)
2589	{
2590	#define print_op(val) \
2591	if( cmd == val ) { \
2592	gemu_log(#val); \
2593	return; \
2594	}
2595
2596	int cmd = (int)tflag;
2597	#ifdef FUTEX_PRIVATE_FLAG
2598	if (cmd & FUTEX_PRIVATE_FLAG) {
2599	gemu_log("FUTEX_PRIVATE_FLAG\|");
2600	cmd &= ~FUTEX_PRIVATE_FLAG;
2601	}
2602	#endif
2603	#ifdef FUTEX_CLOCK_REALTIME
2604	if (cmd & FUTEX_CLOCK_REALTIME) {
2605	gemu_log("FUTEX_CLOCK_REALTIME\|");
2606	cmd &= ~FUTEX_CLOCK_REALTIME;
2607	}
2608	#endif
2609	print_op(FUTEX_WAIT)
2610	print_op(FUTEX_WAKE)
2611	print_op(FUTEX_FD)
2612	print_op(FUTEX_REQUEUE)
2613	print_op(FUTEX_CMP_REQUEUE)
2614	print_op(FUTEX_WAKE_OP)
2615	print_op(FUTEX_LOCK_PI)
2616	print_op(FUTEX_UNLOCK_PI)
2617	print_op(FUTEX_TRYLOCK_PI)
2618	#ifdef FUTEX_WAIT_BITSET
2619	print_op(FUTEX_WAIT_BITSET)
2620	#endif
2621	#ifdef FUTEX_WAKE_BITSET
2622	print_op(FUTEX_WAKE_BITSET)
2623	#endif
2624	/ unknown values /
2625	gemu_log("%d",cmd);
2626	}
2627
2628	static void
2629	print_futex(const struct syscallname *name,
2630	abi_long arg0, abi_long arg1, abi_long arg2,
2631	abi_long arg3, abi_long arg4, abi_long arg5)
2632	{
2633	print_syscall_prologue(name);
2634	print_pointer(arg0, `0`);
2635	print_futex_op(arg1, `0`);
2636	print_raw_param(",%d", arg2, `0`);
2637	print_pointer(arg3, `0`); / struct timespec /
2638	print_pointer(arg4, `0`);
2639	print_raw_param("%d", arg4, `1`);
2640	print_syscall_epilogue(name);
2641	}
2642	#endif
2643
2644	#ifdef TARGET_NR_kill
2645	static void
2646	print_kill(const struct syscallname *name,
2647	abi_long arg0, abi_long arg1, abi_long arg2,
2648	abi_long arg3, abi_long arg4, abi_long arg5)
2649	{
2650	print_syscall_prologue(name);
2651	print_raw_param("%d", arg0, `0`);
2652	print_signal(arg1, `1`);
2653	print_syscall_epilogue(name);
2654	}
2655	#endif
2656
2657	#ifdef TARGET_NR_tkill
2658	static void
2659	print_tkill(const struct syscallname *name,
2660	abi_long arg0, abi_long arg1, abi_long arg2,
2661	abi_long arg3, abi_long arg4, abi_long arg5)
2662	{
2663	print_syscall_prologue(name);
2664	print_raw_param("%d", arg0, `0`);
2665	print_signal(arg1, `1`);
2666	print_syscall_epilogue(name);
2667	}
2668	#endif
2669
2670	#ifdef TARGET_NR_tgkill
2671	static void
2672	print_tgkill(const struct syscallname *name,
2673	abi_long arg0, abi_long arg1, abi_long arg2,
2674	abi_long arg3, abi_long arg4, abi_long arg5)
2675	{
2676	print_syscall_prologue(name);
2677	print_raw_param("%d", arg0, `0`);
2678	print_raw_param("%d", arg1, `0`);
2679	print_signal(arg2, `1`);
2680	print_syscall_epilogue(name);
2681	}
2682	#endif
2683
2684	#ifdef TARGET_NR_statx
2685	static void
2686	print_statx(const struct syscallname *name,
2687	abi_long arg0, abi_long arg1, abi_long arg2,
2688	abi_long arg3, abi_long arg4, abi_long arg5)
2689	{
2690	print_syscall_prologue(name);
2691	print_at_dirfd(arg0, `0`);
2692	print_string(arg1, `0`);
2693	print_flags(statx_flags, arg2, `0`);
2694	print_flags(statx_mask, arg3, `0`);
2695	print_pointer(arg4, `1`);
2696	print_syscall_epilogue(name);
2697	}
2698	#endif
2699
2700	/*
2701	* An array of all of the syscalls we know about
2702	*/
2703
2704	static const struct syscallname scnames[] = {
2705	#include "strace.list"
2706	};
2707
2708	static int nsyscalls = ARRAY_SIZE(scnames);
2709
2710	/*
2711	* The public interface to this module.
2712	*/
2713	void
2714	print_syscall(int num,
2715	abi_long arg1, abi_long arg2, abi_long arg3,
2716	abi_long arg4, abi_long arg5, abi_long arg6)
2717	{
2718	int i;
2719	const char *format="%s(" TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld "," TARGET_ABI_FMT_ld ")";
2720
2721	gemu_log("%d ", getpid() );
2722
2723	for(i=`0`;i<nsyscalls;i++)
2724	if( scnames[i].nr == num ) {
2725	if( scnames[i].call != NULL ) {
2726	scnames[i].call(&scnames[i],arg1,arg2,arg3,arg4,arg5,arg6);
2727	} else {
2728	/ XXX: this format system is broken because it uses*
2729	host types and host pointers for strings /*
2730	if( scnames[i].format != NULL )
2731	format = scnames[i].format;
2732	gemu_log(format,scnames[i].name, arg1,arg2,arg3,arg4,arg5,arg6);
2733	}
2734	return;
2735	}
2736	gemu_log("Unknown syscall %d\n", num);
2737	}
2738
2739
2740	void
2741	print_syscall_ret(int num, abi_long ret)
2742	{
2743	int i;
2744	const char *errstr = NULL;
2745
2746	for(i=`0`;i<nsyscalls;i++)
2747	if( scnames[i].nr == num ) {
2748	if( scnames[i].result != NULL ) {
2749	scnames[i].result(&scnames[i],ret);
2750	} else {
2751	if (ret < `0`) {
2752	errstr = target_strerror(-ret);
2753	}
2754	if (errstr) {
2755	gemu_log(" = -1 errno=" TARGET_ABI_FMT_ld " (%s)\n",
2756	-ret, errstr);
2757	} else {
2758	gemu_log(" = " TARGET_ABI_FMT_ld "\n", ret);
2759	}
2760	}
2761	break;
2762	}
2763	}
2764
2765	void print_taken_signal(int target_signum, const target_siginfo_t *tinfo)
2766	{
2767	/ Print the strace output for a signal being taken:*
2768	* --- SIGSEGV {si_signo=SIGSEGV, si_code=SI_KERNEL, si_addr=0} ---
2769	*/
2770	gemu_log("--- ");
2771	print_signal(target_signum, `1`);
2772	gemu_log(" ");
2773	print_siginfo(tinfo);
2774	gemu_log(" ---\n");
2775	}
2776

Browse the source code of qemu/linux-user/strace.c