util.c

Bug Summary

File:	util.c
Location:	line 1149, column 7
Description:	Value stored to 'maxlen' during its initialization is never read

Annotated Source Code

1	/*
2	* Copyright (C) 2002 Andrew Tridgell
3	* Copyright (C) 2009-2013 Joel Rosdahl
4	*
5	* This program is free software; you can redistribute it and/or modify it
6	* under the terms of the GNU General Public License as published by the Free
7	* Software Foundation; either version 3 of the License, or (at your option)
8	* any later version.
9	*
10	* This program is distributed in the hope that it will be useful, but WITHOUT
11	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
12	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
13	* more details.
14	*
15	* You should have received a copy of the GNU General Public License along with
16	* this program; if not, write to the Free Software Foundation, Inc., 51
17	* Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
18	*/
19
20	#include "ccache.h"
21
22	#include <zlib.h>
23
24	#ifdef HAVE_PWD_H1
25	#include <pwd.h>
26	#endif
27	#ifdef HAVE_SYS_TIME_H1
28	#include <sys/time.h>
29	#endif
30
31	#ifdef _WIN32
32	#include <windows.h>
33	#include <sys/locking.h>
34	#endif
35
36	static FILE *logfile;
37
38	static bool_Bool
39	init_log(void)
40	{
41	extern char *cache_logfile;
42
43	if (logfile) {
44	return true1;
45	}
46	if (!cache_logfile) {
47	return false0;
48	}
49	logfile = fopen(cache_logfile, "a");
50	if (logfile) {
51	int fd = fileno(logfile);
52	int flags = fcntl(fd, F_GETFD1, 0);
53	if (flags >= 0) {
54	fcntl(fd, F_SETFD2, flags \| FD_CLOEXEC1);
55	}
56	return true1;
57	} else {
58	return false0;
59	}
60	}
61
62	static void
63	log_prefix(void)
64	{
65	#ifdef HAVE_GETTIMEOFDAY1
66	char timestamp[100];
67	struct timeval tv;
68	struct tm *tm;
69
70	gettimeofday(&tv, NULL((void*)0));
71	#ifdef __MINGW64_VERSION_MAJOR
72	tm = _localtime32(&tv.tv_sec);
73	#else
74	tm = localtime(&tv.tv_sec);
75	#endif
76	strftime(timestamp, sizeof(timestamp), "%Y-%m-%dT%H:%M:%S", tm);
77	fprintf(logfile, "[%s.%06d %-5d] ", timestamp, (int)tv.tv_usec,
78	(int)getpid());
79	#else
80	fprintf(logfile, "[%-5d] ", (int)getpid());
81	#endif
82	}
83
84	/*
85	* Write a message to the CCACHE_LOGFILE location (adding a newline).
86	*/
87	void
88	cc_log(const char *format, ...)
89	{
90	va_list ap;
91
92	if (!init_log()) {
93	return;
94	}
95
96	log_prefix();
97	va_start(ap, format)__builtin_va_start(ap, format);
98	vfprintf(logfile, format, ap);
99	va_end(ap)__builtin_va_end(ap);
100	fprintf(logfile, "\n");
101	fflush(logfile);
102	}
103
104	/*
105	* Log an executed command to the CCACHE_LOGFILE location.
106	*/
107	void
108	cc_log_argv(const char prefix, char *argv)
109	{
110	if (!init_log()) {
111	return;
112	}
113
114	log_prefix();
115	fputs(prefix, logfile);
116	print_command(logfile, argv);
117	fflush(logfile);
118	}
119
120	/* something went badly wrong! */
121	void
122	fatal(const char *format, ...)
123	{
124	va_list ap;
125	char msg[1000];
126
127	va_start(ap, format)__builtin_va_start(ap, format);
128	vsnprintf(msg, sizeof(msg), format, ap);
129	va_end(ap)__builtin_va_end(ap);
130
131	cc_log("FATAL: %s", msg);
132	fprintf(stderrstderr, "ccache: FATAL: %s\n", msg);
133
134	exit(1);
135	}
136
137	/*
138	* Copy all data from fd_in to fd_out, decompressing data from fd_in if needed.
139	*/
140	void
141	copy_fd(int fd_in, int fd_out)
142	{
143	char buf[10240];
144	int n;
145	gzFile gz_in;
146
147	gz_in = gzdopen(dup(fd_in), "rb");
148
149	if (!gz_in) {
150	fatal("Failed to copy fd");
151	}
152
153	while ((n = gzread(gz_in, buf, sizeof(buf))) > 0) {
154	ssize_t count, written = 0;
155	do {
156	count = write(fd_out, buf + written, n - written);
157	if (count == -1) {
158	if (errno(__errno_location ()) != EAGAIN11 && errno(__errno_location ()) != EINTR4) {
159	fatal("Failed to copy fd");
160	}
161	} else {
162	written += count;
163	}
164	} while (written < n);
165	}
166
167	gzclose(gz_in);
168	}
169
170	#ifndef HAVE_MKSTEMP1
171	/* cheap and nasty mkstemp replacement */
172	int
173	mkstemp(char *template)
174	{
175	mktemp(template);
176	return open(template, O_RDWR02 \| O_CREAT0100 \| O_EXCL0200 \| O_BINARY0, 0600);
177	}
178	#endif
179
180	/*
181	* Copy src to dest, decompressing src if needed. compress_dest decides whether
182	* dest will be compressed.
183	*/
184	int
185	copy_file(const char src, const char dest, int compress_dest)
186	{
187	int fd_in = -1, fd_out = -1;
188	gzFile gz_in = NULL((void)0), gz_out = NULL((void)0);
189	char buf[10240];
190	int n, written;
191	char *tmp_name;
192	#ifndef _WIN32
193	mode_t mask;
194	#endif
195	struct stat st;
196	int errnum;
197
198	tmp_name = format("%s.%s.XXXXXX", dest, tmp_string());
199	cc_log("Copying %s to %s via %s (%s)",
200	src, dest, tmp_name, compress_dest ? "compressed": "uncompressed");
201
202	/* open source file */
203	fd_in = open(src, O_RDONLY00 \| O_BINARY0);
204	if (fd_in == -1) {
205	cc_log("open error: %s", strerror(errno(*__errno_location ())));
206	return -1;
207	}
208
209	gz_in = gzdopen(fd_in, "rb");
210	if (!gz_in) {
211	cc_log("gzdopen(src) error: %s", strerror(errno(*__errno_location ())));
212	close(fd_in);
213	return -1;
214	}
215
216	/* open destination file */
217	fd_out = mkstemp(tmp_name);
218	if (fd_out == -1) {
219	cc_log("mkstemp error: %s", strerror(errno(*__errno_location ())));
220	goto error;
221	}
222
223	if (compress_dest) {
224	/*
225	* A gzip file occupies at least 20 bytes, so it will always
226	* occupy an entire filesystem block, even for empty files.
227	* Turn off compression for empty files to save some space.
228	*/
229	if (fstat(fd_in, &st) != 0) {
230	cc_log("fstat error: %s", strerror(errno(*__errno_location ())));
231	goto error;
232	}
233	if (file_size(&st) == 0) {
234	compress_dest = 0;
235	}
236	}
237
238	if (compress_dest) {
239	gz_out = gzdopen(dup(fd_out), "wb");
240	if (!gz_out) {
241	cc_log("gzdopen(dest) error: %s", strerror(errno(*__errno_location ())));
242	goto error;
243	}
244	}
245
246	while ((n = gzread(gz_in, buf, sizeof(buf))) > 0) {
247	if (compress_dest) {
248	written = gzwrite(gz_out, buf, n);
249	} else {
250	ssize_t count;
251	written = 0;
252	do {
253	count = write(fd_out, buf + written, n - written);
254	if (count == -1 && errno(*__errno_location ()) != EINTR4) {
255	break;
256	}
257	written += count;
258	} while (written < n);
259	}
260	if (written != n) {
261	if (compress_dest) {
262	cc_log("gzwrite error: %s (errno: %s)",
263	gzerror(gz_in, &errnum),
264	strerror(errno(*__errno_location ())));
265	} else {
266	cc_log("write error: %s", strerror(errno(*__errno_location ())));
267	}
268	goto error;
269	}
270	}
271
272	/*
273	* gzeof won't tell if there's an error in the trailing CRC, so we must check
274	* gzerror before considering everything OK.
275	*/
276	gzerror(gz_in, &errnum);
277	if (!gzeof(gz_in) \|\| (errnum != Z_OK0 && errnum != Z_STREAM_END1)) {
278	cc_log("gzread error: %s (errno: %s)",
279	gzerror(gz_in, &errnum), strerror(errno(*__errno_location ())));
280	gzclose(gz_in);
281	if (gz_out) {
282	gzclose(gz_out);
283	}
284	close(fd_out);
285	tmp_unlink(tmp_name);
286	free(tmp_name);
287	return -1;
288	}
289
290	gzclose(gz_in);
291	gz_in = NULL((void*)0);
292	if (gz_out) {
293	gzclose(gz_out);
294	gz_out = NULL((void*)0);
295	}
296
297	#ifndef _WIN32
298	/* get perms right on the tmp file */
299	mask = umask(0);
300	fchmod(fd_out, 0666 & ~mask);
301	umask(mask);
302	#endif
303
304	/* the close can fail on NFS if out of space */
305	if (close(fd_out) == -1) {
306	cc_log("close error: %s", strerror(errno(*__errno_location ())));
307	goto error;
308	}
309
310	if (x_rename(tmp_name, dest) == -1) {
311	cc_log("rename error: %s", strerror(errno(*__errno_location ())));
312	goto error;
313	}
314
315	free(tmp_name);
316
317	return 0;
318
319	error:
320	if (gz_in) {
321	gzclose(gz_in);
322	}
323	if (gz_out) {
324	gzclose(gz_out);
325	}
326	if (fd_out != -1) {
327	close(fd_out);
328	}
329	tmp_unlink(tmp_name);
330	free(tmp_name);
331	return -1;
332	}
333
334	/* Run copy_file() and, if successful, delete the source file. */
335	int
336	move_file(const char src, const char dest, int compress_dest)
337	{
338	int ret;
339
340	ret = copy_file(src, dest, compress_dest);
341	if (ret != -1) {
342	x_unlink(src);
343	}
344	return ret;
345	}
346
347	/*
348	* Like move_file(), but assumes that src is uncompressed and that src and dest
349	* are on the same file system.
350	*/
351	int
352	move_uncompressed_file(const char src, const char dest, int compress_dest)
353	{
354	if (compress_dest) {
355	return move_file(src, dest, compress_dest);
356	} else {
357	return x_rename(src, dest);
358	}
359	}
360
361	/* test if a file is zlib compressed */
362	bool_Bool
363	file_is_compressed(const char *filename)
364	{
365	FILE *f;
366
367	f = fopen(filename, "rb");
368	if (!f) {
369	return false0;
370	}
371
372	/* test if file starts with 1F8B, which is zlib's
373	* magic number */
374	if ((fgetc(f) != 0x1f) \|\| (fgetc(f) != 0x8b)) {
375	fclose(f);
376	return false0;
377	}
378
379	fclose(f);
380	return true1;
381	}
382
383	/* make sure a directory exists */
384	int
385	create_dir(const char *dir)
386	{
387	struct stat st;
388	if (stat(dir, &st) == 0) {
389	if (S_ISDIR(st.st_mode)((((st.st_mode)) & 0170000) == (0040000))) {
390	return 0;
391	}
392	errno(*__errno_location ()) = ENOTDIR20;
393	return 1;
394	}
395	if (mkdir(dir, 0777) != 0 && errno(*__errno_location ()) != EEXIST17) {
396	return 1;
397	}
398	return 0;
399	}
400
401	/*
402	* Return a static string with the current hostname.
403	*/
404	const char *
405	get_hostname(void)
406	{
407	static char hostname[200] = "";
408
409	if (!hostname[0]) {
410	strcpy(hostname, "unknown");
411	#if HAVE_GETHOSTNAME1
412	gethostname(hostname, sizeof(hostname)-1);
413	#endif
414	hostname[sizeof(hostname)-1] = 0;
415	}
416
417	return hostname;
418	}
419
420	/*
421	* Return a string to be used to distinguish temporary files. Also tries to
422	* cope with NFS by adding the local hostname.
423	*/
424	const char *
425	tmp_string(void)
426	{
427	static char *ret;
428
429	if (!ret) {
430	ret = format("%s.%u", get_hostname(), (unsigned)getpid());
431	}
432
433	return ret;
434	}
435
436	/* Return the hash result as a hex string. Caller frees. */
437	char *
438	format_hash_as_string(const unsigned char *hash, unsigned size)
439	{
440	char *ret;
441	int i;
442
443	ret = x_malloc(53);
444	for (i = 0; i < 16; i++) {
445	sprintf(&ret[i*2], "%02x", (unsigned) hash[i]);
446	}
447	sprintf(&ret[i*2], "-%u", size);
448
449	return ret;
450	}
451
452	char const CACHEDIR_TAG[] =
453	"Signature: 8a477f597d28d172789f06886806bc55\n"
454	"# This file is a cache directory tag created by ccache.\n"
455	"# For information about cache directory tags, see:\n"
456	"# http://www.brynosaurus.com/cachedir/\n";
457
458	int
459	create_cachedirtag(const char *dir)
460	{
461	struct stat st;
462	FILE *f;
463	char *filename = format("%s/CACHEDIR.TAG", dir);
464	if (stat(filename, &st) == 0) {
465	if (S_ISREG(st.st_mode)((((st.st_mode)) & 0170000) == (0100000))) {
466	goto success;
467	}
468	errno(*__errno_location ()) = EEXIST17;
469	goto error;
470	}
471	f = fopen(filename, "w");
472	if (!f) goto error;
473	if (fwrite(CACHEDIR_TAG, sizeof(CACHEDIR_TAG)-1, 1, f) != 1) {
474	fclose(f);
475	goto error;
476	}
477	if (fclose(f)) goto error;
478	success:
479	free(filename);
480	return 0;
481	error:
482	free(filename);
483	return 1;
484	}
485
486	/* Construct a string according to a format. Caller frees. */
487	char *
488	format(const char *format, ...)
489	{
490	va_list ap;
491	char ptr = NULL((void)0);
492
493	va_start(ap, format)__builtin_va_start(ap, format);
494	if (vasprintf(&ptr, format, ap) == -1) {
495	fatal("Out of memory in format");
496	}
497	va_end(ap)__builtin_va_end(ap);
498
499	if (!*ptr) fatal("Internal error in format");
500	return ptr;
501	}
502
503	/*
504	this is like strdup() but dies if the malloc fails
505	*/
506	char *
507	x_strdup(const char *s)
508	{
509	char *ret;
510	ret = strdup(s)(__extension__ (__builtin_constant_p (s) && ((size_t) (const void )((s) + 1) - (size_t)(const void )(s) == 1) ? ( ((const char ) (s))[0] == '\0' ? (char ) calloc ((size_t) 1 , (size_t) 1) : ({ size_t __len = strlen (s) + 1; char __retval = (char ) malloc (__len); if (__retval != ((void)0)) __retval = (char ) memcpy (__retval, s, __len); __retval; })) : __strdup (s)));
511	if (!ret) {
512	fatal("Out of memory in x_strdup");
513	}
514	return ret;
515	}
516
517	/*
518	this is like strndup() but dies if the malloc fails
519	*/
520	char *
521	x_strndup(const char *s, size_t n)
522	{
523	char *ret;
524	#ifndef HAVE_STRNDUP1
525	size_t m;
526
527	if (!s)
528	return NULL((void*)0);
529	m = 0;
530	while (m < n && s[m]) {
531	m++;
532	}
533	ret = malloc(m + 1);
534	if (ret) {
535	memcpy(ret, s, m);
536	ret[m] = '\0';
537	}
538	#else
539	ret = strndup(s, n)(__extension__ (__builtin_constant_p (s) && ((size_t) (const void )((s) + 1) - (size_t)(const void )(s) == 1) ? ( ((const char ) (s))[0] == '\0' ? (char ) calloc ((size_t) 1 , (size_t) 1) : ({ size_t __len = strlen (s) + 1; size_t __n = (n); char __retval; if (__n < __len) __len = __n + 1; __retval = (char ) malloc (__len); if (__retval != ((void)0)) { __retval [__len - 1] = '\0'; __retval = (char ) memcpy (__retval, s, __len - 1); } __retval; })) : __strndup (s, n)));
540	#endif
541	if (!ret) {
542	fatal("x_strndup: Could not allocate %lu bytes", (unsigned long)n);
543	}
544	return ret;
545	}
546
547	/*
548	this is like malloc() but dies if the malloc fails
549	*/
550	void *
551	x_malloc(size_t size)
552	{
553	void *ret;
554	if (size == 0) {
555	/*
556	* malloc() may return NULL if size is zero, so always do this to make sure
557	* that the code handles it regardless of platform.
558	*/
559	return NULL((void*)0);
560	}
561	ret = malloc(size);
562	if (!ret) {
563	fatal("x_malloc: Could not allocate %lu bytes", (unsigned long)size);
564	}
565	return ret;
566	}
567
568	/* This is like calloc() but dies if the allocation fails. */
569	void *
570	x_calloc(size_t nmemb, size_t size)
571	{
572	void *ret;
573	if (nmemb * size == 0) {
574	/*
575	* calloc() may return NULL if nmemb or size is 0, so always do this to
576	* make sure that the code handles it regardless of platform.
577	*/
578	return NULL((void*)0);
579	}
580	ret = calloc(nmemb, size);
581	if (!ret) {
582	fatal("x_calloc: Could not allocate %lu bytes", (unsigned long)size);
583	}
584	return ret;
585	}
586
587	/*
588	this is like realloc() but dies if the malloc fails
589	*/
590	void *
591	x_realloc(void *ptr, size_t size)
592	{
593	void *p2;
594	if (!ptr) return x_malloc(size);
595	p2 = realloc(ptr, size);
596	if (!p2) {
597	fatal("x_realloc: Could not allocate %lu bytes", (unsigned long)size);
598	}
599	return p2;
600	}
601
602
603	/*
604	* This is like x_asprintf() but frees ptr if ptr != NULL.
605	*/
606	void
607	x_asprintf2(char *ptr, const char format, ...)
608	{
609	char saved = ptr;
610	va_list ap;
611
612	ptr = NULL((void)0);
613	va_start(ap, format)__builtin_va_start(ap, format);
614	if (vasprintf(ptr, format, ap) == -1) {
615	fatal("Out of memory in x_asprintf2");
616	}
617	va_end(ap)__builtin_va_end(ap);
618
619	if (!ptr) fatal("Out of memory in x_asprintf2");
620	if (saved) {
621	free(saved);
622	}
623	}
624
625	/*
626	* Recursive directory traversal. fn() is called on all entries in the tree.
627	*/
628	void
629	traverse(const char dir, void (fn)(const char , struct stat ))
630	{
631	DIR *d;
632	struct dirent *de;
633
634	d = opendir(dir);
635	if (!d) return;
636
637	while ((de = readdir(d))) {
638	char *fname;
639	struct stat st;
640
641	if (str_eq(de->d_name, ".")(__extension__ ({ size_t __s1_len, __s2_len; (__builtin_constant_p ((de->d_name)) && __builtin_constant_p ((".")) && (__s1_len = strlen ((de->d_name)), __s2_len = strlen (("." )), (!((size_t)(const void )(((de->d_name)) + 1) - (size_t )(const void )((de->d_name)) == 1) \|\| __s1_len >= 4) && (!((size_t)(const void )(((".")) + 1) - (size_t)(const void )((".")) == 1) \|\| __s2_len >= 4)) ? __builtin_strcmp ((de ->d_name), (".")) : (__builtin_constant_p ((de->d_name) ) && ((size_t)(const void )(((de->d_name)) + 1) - (size_t)(const void )((de->d_name)) == 1) && (__s1_len = strlen ((de->d_name)), __s1_len < 4) ? (__builtin_constant_p ((".")) && ((size_t)(const void )(((".")) + 1) - (size_t )(const void )((".")) == 1) ? __builtin_strcmp ((de->d_name ), (".")) : (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) ((".")); int __result = (((const unsigned char ) (const char ) ((de->d_name)))[0] - __s2 [0]); if (__s1_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) ((de->d_name)) )[1] - __s2[1]); if (__s1_len > 1 && __result == 0 ) { __result = (((const unsigned char ) (const char ) ((de-> d_name)))[2] - __s2[2]); if (__s1_len > 2 && __result == 0) __result = (((const unsigned char ) (const char ) (( de->d_name)))[3] - __s2[3]); } } __result; }))) : (__builtin_constant_p ((".")) && ((size_t)(const void )(((".")) + 1) - (size_t )(const void )((".")) == 1) && (__s2_len = strlen (( ".")), __s2_len < 4) ? (__builtin_constant_p ((de->d_name )) && ((size_t)(const void )(((de->d_name)) + 1) - (size_t)(const void )((de->d_name)) == 1) ? __builtin_strcmp ((de->d_name), (".")) : (- (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) ((de-> d_name)); int __result = (((const unsigned char ) (const char ) ((".")))[0] - __s2[0]); if (__s2_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) ( (".")))[1] - __s2[1]); if (__s2_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) ( (".")))[2] - __s2[2]); if (__s2_len > 2 && __result == 0) __result = (((const unsigned char ) (const char ) (( ".")))[3] - __s2[3]); } } __result; })))) : __builtin_strcmp ( (de->d_name), ("."))))); }) == 0)) continue;
642	if (str_eq(de->d_name, "..")(__extension__ ({ size_t __s1_len, __s2_len; (__builtin_constant_p ((de->d_name)) && __builtin_constant_p (("..")) && (__s1_len = strlen ((de->d_name)), __s2_len = strlen ((".." )), (!((size_t)(const void )(((de->d_name)) + 1) - (size_t )(const void )((de->d_name)) == 1) \|\| __s1_len >= 4) && (!((size_t)(const void )((("..")) + 1) - (size_t)(const void )(("..")) == 1) \|\| __s2_len >= 4)) ? __builtin_strcmp (( de->d_name), ("..")) : (__builtin_constant_p ((de->d_name )) && ((size_t)(const void )(((de->d_name)) + 1) - (size_t)(const void )((de->d_name)) == 1) && (__s1_len = strlen ((de->d_name)), __s1_len < 4) ? (__builtin_constant_p (("..")) && ((size_t)(const void )((("..")) + 1) - ( size_t)(const void )(("..")) == 1) ? __builtin_strcmp ((de-> d_name), ("..")) : (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) (("..")); int __result = (((const unsigned char ) (const char ) ((de->d_name)) )[0] - __s2[0]); if (__s1_len > 0 && __result == 0 ) { __result = (((const unsigned char ) (const char ) ((de-> d_name)))[1] - __s2[1]); if (__s1_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) ( (de->d_name)))[2] - __s2[2]); if (__s1_len > 2 && __result == 0) __result = (((const unsigned char ) (const char ) ((de->d_name)))[3] - __s2[3]); } } __result; }))) : (__builtin_constant_p (("..")) && ((size_t)(const void )((("..")) + 1) - ( size_t)(const void )(("..")) == 1) && (__s2_len = strlen (("..")), __s2_len < 4) ? (__builtin_constant_p ((de-> d_name)) && ((size_t)(const void )(((de->d_name)) + 1) - (size_t)(const void )((de->d_name)) == 1) ? __builtin_strcmp ((de->d_name), ("..")) : (- (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) ((de-> d_name)); int __result = (((const unsigned char ) (const char ) (("..")))[0] - __s2[0]); if (__s2_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) ( ("..")))[1] - __s2[1]); if (__s2_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) ( ("..")))[2] - __s2[2]); if (__s2_len > 2 && __result == 0) __result = (((const unsigned char ) (const char ) (( "..")))[3] - __s2[3]); } } __result; })))) : __builtin_strcmp ((de->d_name), (".."))))); }) == 0)) continue;
643
644	if (strlen(de->d_name) == 0) continue;
645
646	fname = format("%s/%s", dir, de->d_name);
647	if (lstat(fname, &st)) {
648	if (errno(*__errno_location ()) != ENOENT2) {
649	perror(fname);
650	}
651	free(fname);
652	continue;
653	}
654
655	if (S_ISDIR(st.st_mode)((((st.st_mode)) & 0170000) == (0040000))) {
656	traverse(fname, fn);
657	}
658
659	fn(fname, &st);
660	free(fname);
661	}
662
663	closedir(d);
664	}
665
666
667	/* return the base name of a file - caller frees */
668	char *
669	basename(const char *s)
670	{
671	char *p;
672	p = strrchr(s, '/');
673	if (p) s = p + 1;
674	#ifdef _WIN32
675	p = strrchr(s, '\\');
676	if (p) s = p + 1;
677	#endif
678
679	return x_strdup(s);
680	}
681
682	/* return the dir name of a file - caller frees */
683	char *
684	dirname(char *s)
685	{
686	char *p;
687	char p2 = NULL((void)0);
688	s = x_strdup(s);
689	p = strrchr(s, '/');
690	#ifdef _WIN32
691	p2 = strrchr(s, '\\');
692	#endif
693	if (p < p2)
694	p = p2;
695	if (p) {
696	*p = 0;
697	return s;
698	} else {
699	free(s);
700	return x_strdup(".");
701	}
702	}
703
704	/*
705	* Return the file extension (including the dot) of a path as a pointer into
706	* path. If path has no file extension, the empty string and the end of path is
707	* returned.
708	*/
709	const char *
710	get_extension(const char *path)
711	{
712	size_t len = strlen(path);
713	const char *p;
714
715	for (p = &path[len - 1]; p >= path; --p) {
716	if (*p == '.') {
717	return p;
718	}
719	if (*p == '/') {
720	break;
721	}
722	}
723	return &path[len];
724	}
725
726	/*
727	* Return a string containing the given path without the filename extension.
728	* Caller frees.
729	*/
730	char *
731	remove_extension(const char *path)
732	{
733	return x_strndup(path, strlen(path) - strlen(get_extension(path)));
734	}
735
736	/* return size on disk of a file */
737	size_t
738	file_size(struct stat *st)
739	{
740	#ifdef _WIN32
741	return (st->st_size + 1023) & ~1023;
742	#else
743	size_t size = st->st_blocks * 512;
744	if ((size_t)st->st_size > size) {
745	/* probably a broken stat() call ... */
746	size = (st->st_size + 1023) & ~1023;
747	}
748	return size;
749	#endif
750	}
751
752	/* a safe open/create for read-write */
753	int
754	safe_open(const char *fname)
755	{
756	int fd = open(fname, O_RDWR02\|O_BINARY0);
757	if (fd == -1 && errno(*__errno_location ()) == ENOENT2) {
758	fd = open(fname, O_RDWR02\|O_CREAT0100\|O_EXCL0200\|O_BINARY0, 0666);
759	if (fd == -1 && errno(*__errno_location ()) == EEXIST17) {
760	fd = open(fname, O_RDWR02\|O_BINARY0);
761	}
762	}
763	return fd;
764	}
765
766	/* Format a size (in KiB) as a human-readable string. Caller frees. */
767	char *
768	format_size(size_t v)
769	{
770	char *s;
771	if (v >= 1024*1024) {
772	s = format("%.1f Gbytes", v/((double)(1024*1024)));
773	} else if (v >= 1024) {
774	s = format("%.1f Mbytes", v/((double)(1024)));
775	} else {
776	s = format("%.0f Kbytes", (double)v);
777	}
778	return s;
779	}
780
781	/* return a value in multiples of 1024 give a string that can end
782	in K, M or G
783	*/
784	size_t
785	value_units(const char *s)
786	{
787	char m;
788	double v = atof(s);
789	m = s[strlen(s)-1];
790	switch (m) {
791	case 'G':
792	case 'g':
793	default:
794	v = 10241024;
795	break;
796	case 'M':
797	case 'm':
798	v *= 1024;
799	break;
800	case 'K':
801	case 'k':
802	v *= 1;
803	break;
804	}
805	return (size_t)v;
806	}
807
808	#ifndef _WIN32
809	static long
810	path_max(const char *path)
811	{
812	#ifdef PATH_MAX4096
813	(void)path;
814	return PATH_MAX4096;
815	#elif defined(MAXPATHLEN)
816	(void)path;
817	return MAXPATHLEN;
818	#elif defined(_PC_PATH_MAX_PC_PATH_MAX)
819	long maxlen = pathconf(path, _PC_PATH_MAX_PC_PATH_MAX);
820	if (maxlen >= 4096) {
821	return maxlen;
822	} else {
823	return 4096;
824	}
825	#endif
826	}
827
828	/*
829	a sane realpath() function, trying to cope with stupid path limits and
830	a broken API
831	*/
832	char *
833	x_realpath(const char *path)
834	{
835	long maxlen = path_max(path);
836	char ret, p;
837
838	ret = x_malloc(maxlen);
839
840	#if HAVE_REALPATH1
841	p = realpath(path, ret);
842	#else
843	/* yes, there are such systems. This replacement relies on
844	the fact that when we call x_realpath we only care about symlinks */
845	{
846	int len = readlink(path, ret, maxlen-1);
847	if (len == -1) {
848	free(ret);
849	return NULL((void*)0);
850	}
851	ret[len] = 0;
852	p = ret;
853	}
854	#endif
855	if (p) {
856	p = x_strdup(p);
857	free(ret);
858	return p;
859	}
860	free(ret);
861	return NULL((void*)0);
862	}
863	#endif /* !_WIN32 */
864
865	/* a getcwd that will returns an allocated buffer */
866	char *
867	gnu_getcwd(void)
868	{
869	unsigned size = 128;
870
871	while (1) {
872	char buffer = (char )x_malloc(size);
873	if (getcwd(buffer, size) == buffer) {
874	return buffer;
875	}
876	free(buffer);
877	if (errno(*__errno_location ()) != ERANGE34) {
878	cc_log("getcwd error: %d (%s)", errno(__errno_location ()), strerror(errno(__errno_location ())));
879	return NULL((void*)0);
880	}
881	size *= 2;
882	}
883	}
884
885	/* create an empty file */
886	int
887	create_empty_file(const char *fname)
888	{
889	int fd;
890
891	fd = open(fname, O_WRONLY01\|O_CREAT0100\|O_TRUNC01000\|O_EXCL0200\|O_BINARY0, 0666);
892	if (fd == -1) {
893	return -1;
894	}
895	close(fd);
896	return 0;
897	}
898
899	/*
900	* Return current user's home directory, or NULL if it can't be determined.
901	*/
902	const char *
903	get_home_directory(void)
904	{
905	const char *p = getenv("HOME");
906	if (p) {
907	return p;
908	}
909	#ifdef HAVE_GETPWUID1
910	{
911	struct passwd *pwd = getpwuid(getuid());
912	if (pwd) {
913	return pwd->pw_dir;
914	}
915	}
916	#endif
917	return NULL((void*)0);
918	}
919
920	/*
921	* Get the current directory by reading $PWD. If $PWD isn't sane, gnu_getcwd()
922	* is used. Caller frees.
923	*/
924	char *
925	get_cwd(void)
926	{
927	char *pwd;
928	char *cwd;
929	struct stat st_pwd;
930	struct stat st_cwd;
931
932	cwd = gnu_getcwd();
933	if (!cwd) {
934	return NULL((void*)0);
935	}
936	pwd = getenv("PWD");
937	if (!pwd) {
938	return cwd;
939	}
940	if (stat(pwd, &st_pwd) != 0) {
941	return cwd;
942	}
943	if (stat(cwd, &st_cwd) != 0) {
944	return cwd;
945	}
946	if (st_pwd.st_dev == st_cwd.st_dev && st_pwd.st_ino == st_cwd.st_ino) {
947	free(cwd);
948	return x_strdup(pwd);
949	} else {
950	return cwd;
951	}
952	}
953
954	/*
955	* Check whether s1 and s2 have the same executable name.
956	*/
957	bool_Bool
958	same_executable_name(const char s1, const char s2)
959	{
960	#ifdef _WIN32
961	bool_Bool eq = strcasecmp(s1, s2) == 0;
962	if (!eq) {
963	char *tmp = format("%s.exe", s2);
964	eq = strcasecmp(s1, tmp) == 0;
965	free(tmp);
966	}
967	return eq;
968	#else
969	return str_eq(s1, s2)(__extension__ ({ size_t __s1_len, __s2_len; (__builtin_constant_p ((s1)) && __builtin_constant_p ((s2)) && (__s1_len = strlen ((s1)), __s2_len = strlen ((s2)), (!((size_t)(const void )(((s1)) + 1) - (size_t)(const void )((s1)) == 1) \|\| __s1_len >= 4) && (!((size_t)(const void )(((s2)) + 1) - ( size_t)(const void )((s2)) == 1) \|\| __s2_len >= 4)) ? __builtin_strcmp ((s1), (s2)) : (__builtin_constant_p ((s1)) && ((size_t )(const void )(((s1)) + 1) - (size_t)(const void )((s1)) == 1) && (__s1_len = strlen ((s1)), __s1_len < 4) ? ( __builtin_constant_p ((s2)) && ((size_t)(const void * )(((s2)) + 1) - (size_t)(const void )((s2)) == 1) ? __builtin_strcmp ((s1), (s2)) : (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) ((s2)); int __result = (((const unsigned char ) (const char ) ((s1)))[0] - __s2[0 ]); if (__s1_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) ((s1)))[1] - __s2[1 ]); if (__s1_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) ((s1)))[2] - __s2[2 ]); if (__s1_len > 2 && __result == 0) __result = ( ((const unsigned char ) (const char ) ((s1)))[3] - __s2[3]) ; } } __result; }))) : (__builtin_constant_p ((s2)) && ((size_t)(const void )(((s2)) + 1) - (size_t)(const void ) ((s2)) == 1) && (__s2_len = strlen ((s2)), __s2_len < 4) ? (__builtin_constant_p ((s1)) && ((size_t)(const void )(((s1)) + 1) - (size_t)(const void )((s1)) == 1) ? __builtin_strcmp ((s1), (s2)) : (- (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) ((s1)); int __result = (((const unsigned char ) (const char ) ((s2)))[0] - __s2 [0]); if (__s2_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) ((s2)))[1] - __s2 [1]); if (__s2_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) ((s2)))[2] - __s2 [2]); if (__s2_len > 2 && __result == 0) __result = (((const unsigned char ) (const char *) ((s2)))[3] - __s2[3 ]); } } __result; })))) : __builtin_strcmp ((s1), (s2))))); } ) == 0);
970	#endif
971	}
972
973	/*
974	* Compute the length of the longest directory path that is common to two
975	* paths. s1 is assumed to be the path to a directory.
976	*/
977	size_t
978	common_dir_prefix_length(const char s1, const char s2)
979	{
980	const char *p1 = s1;
981	const char *p2 = s2;
982
983	while (p1 && p2 && p1 == p2) {
984	++p1;
985	++p2;
986	}
987	if (*p2 == '/') {
988	/* s2 starts with "s1/". */
989	return p1 - s1;
990	}
991	if (!*p2) {
992	/* s2 is equal to s1. */
993	if (p2 == s2 + 1) {
994	/* Special case for s1 and s2 both being "/". */
995	return 0;
996	} else {
997	return p1 - s1;
998	}
999	}
1000	/* Compute the common directory prefix */
1001	while (p1 > s1 && *p1 != '/') {
1002	p1--;
1003	p2--;
1004	}
1005	return p1 - s1;
1006	}
1007
1008	/*
1009	* Compute a relative path from from (an absolute path to a directory) to to (a
1010	* path). Assumes that both from and to are well-formed and canonical. Caller
1011	* frees.
1012	*/
1013	char *
1014	get_relative_path(const char from, const char to)
1015	{
1016	size_t common_prefix_len;
1017	int i;
1018	const char *p;
1019	char *result;
1020
1021	assert(from && from[0] == '/')((from && from[0] == '/') ? (void) (0) : __assert_fail ("from && from[0] == '/'", "util.c", 1021, __PRETTY_FUNCTION__ ));
1022	assert(to)((to) ? (void) (0) : __assert_fail ("to", "util.c", 1022, __PRETTY_FUNCTION__ ));
1023
1024	if (!to \|\| to != '/') {
1025	return x_strdup(to);
1026	}
1027
1028	result = x_strdup("");
1029	common_prefix_len = common_dir_prefix_length(from, to);
1030	if (common_prefix_len > 0 \|\| !str_eq(from, "/")(__extension__ ({ size_t __s1_len, __s2_len; (__builtin_constant_p ((from)) && __builtin_constant_p (("/")) && ( __s1_len = strlen ((from)), __s2_len = strlen (("/")), (!((size_t )(const void )(((from)) + 1) - (size_t)(const void )((from) ) == 1) \|\| __s1_len >= 4) && (!((size_t)(const void )((("/")) + 1) - (size_t)(const void )(("/")) == 1) \|\| __s2_len >= 4)) ? __builtin_strcmp ((from), ("/")) : (__builtin_constant_p ((from)) && ((size_t)(const void )(((from)) + 1) - ( size_t)(const void )((from)) == 1) && (__s1_len = strlen ((from)), __s1_len < 4) ? (__builtin_constant_p (("/")) && ((size_t)(const void )((("/")) + 1) - (size_t)(const void )(("/")) == 1) ? __builtin_strcmp ((from), ("/")) : (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) (("/")); int __result = (((const unsigned char ) (const char ) ((from)))[0] - __s2[0]); if (__s1_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) ((from)))[1] - __s2[1]); if (__s1_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) ((from)))[2] - __s2[2]); if (__s1_len > 2 && __result == 0) __result = (((const unsigned char ) (const char ) ((from)))[3] - __s2[3]); } } __result; }))) : (__builtin_constant_p (("/")) && ((size_t)(const void )((("/")) + 1) - (size_t )(const void )(("/")) == 1) && (__s2_len = strlen (( "/")), __s2_len < 4) ? (__builtin_constant_p ((from)) && ((size_t)(const void )(((from)) + 1) - (size_t)(const void * )((from)) == 1) ? __builtin_strcmp ((from), ("/")) : (- (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) ((from)); int __result = (((const unsigned char ) ( const char ) (("/")))[0] - __s2[0]); if (__s2_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) (("/")))[1] - __s2[1]); if (__s2_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) (("/")))[2] - __s2[2]); if (__s2_len > 2 && __result == 0) __result = (((const unsigned char ) (const char *) (("/")))[3] - __s2[3]); } } __result; })))) : __builtin_strcmp ((from), ("/"))))); }) == 0)) {
1031	for (p = from + common_prefix_len; *p; p++) {
1032	if (*p == '/') {
1033	x_asprintf2(&result, "../%s", result);
1034	}
1035	}
1036	}
1037	if (strlen(to) > common_prefix_len) {
1038	x_asprintf2(&result, "%s%s", result, to + common_prefix_len + 1);
1039	}
1040	i = strlen(result) - 1;
1041	while (i >= 0 && result[i] == '/') {
1042	result[i] = '\0';
1043	i--;
1044	}
1045	if (str_eq(result, "")(__extension__ ({ size_t __s1_len, __s2_len; (__builtin_constant_p ((result)) && __builtin_constant_p (("")) && (__s1_len = strlen ((result)), __s2_len = strlen (("")), (!( (size_t)(const void )(((result)) + 1) - (size_t)(const void )((result)) == 1) \|\| __s1_len >= 4) && (!((size_t) (const void )((("")) + 1) - (size_t)(const void )(("")) == 1 ) \|\| __s2_len >= 4)) ? __builtin_strcmp ((result), ("")) : (__builtin_constant_p ((result)) && ((size_t)(const void )(((result)) + 1) - (size_t)(const void )((result)) == 1) && (__s1_len = strlen ((result)), __s1_len < 4) ? (__builtin_constant_p (("")) && ((size_t)(const void )((("")) + 1) - (size_t )(const void )(("")) == 1) ? __builtin_strcmp ((result), ("" )) : (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) (("")); int __result = (((const unsigned char ) (const char ) ((result)))[0] - __s2[0]); if (__s1_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) ((result)))[1] - __s2[1]); if (__s1_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) ((result)))[2] - __s2[2]); if (__s1_len > 2 && __result == 0) __result = (((const unsigned char ) (const char ) ((result)))[3] - __s2[3]); } } __result ; }))) : (__builtin_constant_p (("")) && ((size_t)(const void )((("")) + 1) - (size_t)(const void )(("")) == 1) && (__s2_len = strlen (("")), __s2_len < 4) ? (__builtin_constant_p ((result)) && ((size_t)(const void )(((result)) + 1 ) - (size_t)(const void )((result)) == 1) ? __builtin_strcmp ((result), ("")) : (- (__extension__ ({ const unsigned char __s2 = (const unsigned char ) (const char ) ((result)); int __result = (((const unsigned char ) (const char ) (("")))[ 0] - __s2[0]); if (__s2_len > 0 && __result == 0) { __result = (((const unsigned char ) (const char ) (("")))[ 1] - __s2[1]); if (__s2_len > 1 && __result == 0) { __result = (((const unsigned char ) (const char ) (("")))[ 2] - __s2[2]); if (__s2_len > 2 && __result == 0) __result = (((const unsigned char ) (const char ) (("")))[3] - __s2 [3]); } } __result; })))) : __builtin_strcmp ((result), ("")) ))); }) == 0)) {
1046	free(result);
1047	result = x_strdup(".");
1048	}
1049	return result;
1050	}
1051
1052	/*
1053	* Return whether path is absolute.
1054	*/
1055	bool_Bool
1056	is_absolute_path(const char *path)
1057	{
1058	#ifdef _WIN32
1059	return path[0] && path[1] == ':';
1060	#else
1061	return path[0] == '/';
1062	#endif
1063	}
1064
1065	/*
1066	* Return whether the argument is a full path.
1067	*/
1068	bool_Bool
1069	is_full_path(const char *path)
1070	{
1071	if (strchr(path, '/')(__extension__ (__builtin_constant_p ('/') && !__builtin_constant_p (path) && ('/') == '\0' ? (char *) __rawmemchr (path , '/') : __builtin_strchr (path, '/'))))
1072	return 1;
1073	#ifdef _WIN32
1074	if (strchr(path, '\\')(__extension__ (__builtin_constant_p ('\\') && !__builtin_constant_p (path) && ('\\') == '\0' ? (char *) __rawmemchr (path , '\\') : __builtin_strchr (path, '\\'))))
1075	return 1;
1076	#endif
1077	return 0;
1078	}
1079
1080	/*
1081	* Update the modification time of a file in the cache to save it from LRU
1082	* cleanup.
1083	*/
1084	void
1085	update_mtime(const char *path)
1086	{
1087	#ifdef HAVE_UTIMES1
1088	utimes(path, NULL((void*)0));
1089	#else
1090	utime(path, NULL((void*)0));
1091	#endif
1092	}
1093
1094	/*
1095	* Rename oldpath to newpath (deleting newpath).
1096	*/
1097	int
1098	x_rename(const char oldpath, const char newpath)
1099	{
1100	#ifdef _WIN32
1101	/* Windows' rename() refuses to overwrite an existing file. */
1102	unlink(newpath); /* not x_unlink, as x_unlink calls x_rename */
1103	#endif
1104	return rename(oldpath, newpath);
1105	}
1106
1107	/*
1108	* Remove path, NFS hazardous. Use only for temporary files that will not exist
1109	* on other systems. That is, the path should include tmp_string().
1110	*/
1111	int
1112	tmp_unlink(const char *path)
1113	{
1114	cc_log("Unlink %s (as-tmp)", path);
1115	return unlink(path);
1116	}
1117
1118	/*
1119	* Remove path, NFS safe.
1120	*/
1121	int
1122	x_unlink(const char *path)
1123	{
1124	/*
1125	* If path is on an NFS share, unlink isn't atomic, so we rename to a temp
1126	* file. We don't care if the temp file is trashed, so it's always safe to
1127	* unlink it first.
1128	*/
1129	char *tmp_name = format("%s.tmp.rm.%s", path, tmp_string());
1130	int result = 0;
1131	cc_log("Unlink %s via %s", path, tmp_name);
1132	if (x_rename(path, tmp_name) == -1) {
1133	result = -1;
1134	goto out;
1135	}
1136	if (unlink(tmp_name) == -1) {
1137	result = -1;
1138	}
1139	out:
1140	free(tmp_name);
1141	return result;
1142	}
1143
1144	#ifndef _WIN32
1145	/* Like readlink() but returns the string or NULL on failure. Caller frees. */
1146	char *
1147	x_readlink(const char *path)
1148	{
1149	long maxlen = path_max(path);
	Value stored to 'maxlen' during its initialization is never read
1150	ssize_t len;
1151	char *buf;
1152	#ifdef PATH_MAX4096
1153	maxlen = PATH_MAX4096;
1154	#elif defined(MAXPATHLEN)
1155	maxlen = MAXPATHLEN;
1156	#elif defined(_PC_PATH_MAX_PC_PATH_MAX)
1157	maxlen = pathconf(path, _PC_PATH_MAX_PC_PATH_MAX);
1158	#endif
1159	if (maxlen < 4096) maxlen = 4096;
1160
1161	buf = x_malloc(maxlen);
1162	len = readlink(path, buf, maxlen-1);
1163	if (len == -1) {
1164	free(buf);
1165	return NULL((void*)0);
1166	}
1167	buf[len] = 0;
1168	return buf;
1169	}
1170	#endif
1171
1172	/*
1173	* Reads the content of a file. Size hint 0 means no hint. Returns true on
1174	* success, otherwise false.
1175	*/
1176	bool_Bool
1177	read_file(const char path, size_t size_hint, char data, size_t size)
1178	{
1179	int fd, ret;
1180	size_t pos = 0, allocated;
1181
1182	if (size_hint == 0) {
1183	struct stat st;
1184	if (stat(path, &st) == 0) {
1185	size_hint = st.st_size;
1186	}
1187	}
1188	size_hint = (size_hint < 1024) ? 1024 : size_hint;
1189
1190	fd = open(path, O_RDONLY00);
1191	if (fd == -1) {
1192	return false0;
1193	}
1194	allocated = size_hint;
1195	*data = x_malloc(allocated);
1196	ret = 0;
1197	while (true1) {
1198	if (pos > allocated / 2) {
1199	allocated *= 2;
1200	data = x_realloc(data, allocated);
1201	}
1202	ret = read(fd, *data + pos, allocated - pos);
1203	if (ret == 0 \|\| (ret == -1 && errno(*__errno_location ()) != EINTR4)) {
1204	break;
1205	}
1206	if (ret > 0) {
1207	pos += ret;
1208	}
1209	}
1210	close(fd);
1211	if (ret == -1) {
1212	cc_log("Failed reading %s", path);
1213	free(*data);
1214	data = NULL((void)0);
1215	return false0;
1216	}
1217
1218	*size = pos;
1219	return true1;
1220	}
1221
1222	/*
1223	* Return the content (with NUL termination) of a text file, or NULL on error.
1224	* Caller frees.
1225	*/
1226	char *
1227	read_text_file(const char *path)
1228	{
1229	size_t size;
1230	char *data;
1231
1232	if (read_file(path, 0, &data, &size)) {
1233	data = x_realloc(data, size + 1);
1234	data[size] = '\0';
1235	return data;
1236	} else {
1237	return NULL((void*)0);
1238	}
1239	}