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1 /* This file contains functions which implement those POSIX and Linux functions
2  * that MinGW and Microsoft don't provide. The implementations contain just enough
3  * functionality to support fio.
4  */
5 
6 #include <arpa/inet.h>
7 #include <netinet/in.h>
8 #include <windows.h>
9 #include <stddef.h>
10 #include <string.h>
11 #include <stdlib.h>
12 #include <unistd.h>
13 #include <dirent.h>
14 #include <pthread.h>
15 #include <time.h>
16 #include <semaphore.h>
17 #include <sys/shm.h>
18 #include <sys/mman.h>
19 #include <sys/uio.h>
20 #include <sys/resource.h>
21 #include <sys/poll.h>
22 #include <sys/wait.h>
23 #include <setjmp.h>
24 
25 #include "../os-windows.h"
26 #include "../../lib/hweight.h"
27 
28 extern unsigned long mtime_since_now(struct timeval *);
29 extern void fio_gettime(struct timeval *, void *);
30 
31 /* These aren't defined in the MinGW headers */
32 HRESULT WINAPI StringCchCopyA(
33   char *pszDest,
34   size_t cchDest,
35   const char *pszSrc);
36 
37 HRESULT WINAPI StringCchPrintfA(
38   char *pszDest,
39   size_t cchDest,
40   const char *pszFormat,
41   ...);
42 
43 int vsprintf_s(
44   char *buffer,
45   size_t numberOfElements,
46   const char *format,
47   va_list argptr);
48 
win_to_posix_error(DWORD winerr)49 int win_to_posix_error(DWORD winerr)
50 {
51 	switch (winerr)
52 	{
53 	case ERROR_FILE_NOT_FOUND:		return ENOENT;
54 	case ERROR_PATH_NOT_FOUND:		return ENOENT;
55 	case ERROR_ACCESS_DENIED:		return EACCES;
56 	case ERROR_INVALID_HANDLE:		return EBADF;
57 	case ERROR_NOT_ENOUGH_MEMORY:	return ENOMEM;
58 	case ERROR_INVALID_DATA:		return EINVAL;
59 	case ERROR_OUTOFMEMORY:			return ENOMEM;
60 	case ERROR_INVALID_DRIVE:		return ENODEV;
61 	case ERROR_NOT_SAME_DEVICE:		return EXDEV;
62 	case ERROR_WRITE_PROTECT:		return EROFS;
63 	case ERROR_BAD_UNIT:			return ENODEV;
64 	case ERROR_SHARING_VIOLATION:	return EACCES;
65 	case ERROR_LOCK_VIOLATION:		return EACCES;
66 	case ERROR_SHARING_BUFFER_EXCEEDED:	return ENOLCK;
67 	case ERROR_HANDLE_DISK_FULL:	return ENOSPC;
68 	case ERROR_NOT_SUPPORTED:		return ENOSYS;
69 	case ERROR_FILE_EXISTS:			return EEXIST;
70 	case ERROR_CANNOT_MAKE:			return EPERM;
71 	case ERROR_INVALID_PARAMETER:	return EINVAL;
72 	case ERROR_NO_PROC_SLOTS:		return EAGAIN;
73 	case ERROR_BROKEN_PIPE:			return EPIPE;
74 	case ERROR_OPEN_FAILED:			return EIO;
75 	case ERROR_NO_MORE_SEARCH_HANDLES:	return ENFILE;
76 	case ERROR_CALL_NOT_IMPLEMENTED:	return ENOSYS;
77 	case ERROR_INVALID_NAME:		return ENOENT;
78 	case ERROR_WAIT_NO_CHILDREN:	return ECHILD;
79 	case ERROR_CHILD_NOT_COMPLETE:	return EBUSY;
80 	case ERROR_DIR_NOT_EMPTY:		return ENOTEMPTY;
81 	case ERROR_SIGNAL_REFUSED:		return EIO;
82 	case ERROR_BAD_PATHNAME:		return ENOENT;
83 	case ERROR_SIGNAL_PENDING:		return EBUSY;
84 	case ERROR_MAX_THRDS_REACHED:	return EAGAIN;
85 	case ERROR_BUSY:				return EBUSY;
86 	case ERROR_ALREADY_EXISTS:		return EEXIST;
87 	case ERROR_NO_SIGNAL_SENT:		return EIO;
88 	case ERROR_FILENAME_EXCED_RANGE:	return EINVAL;
89 	case ERROR_META_EXPANSION_TOO_LONG:	return EINVAL;
90 	case ERROR_INVALID_SIGNAL_NUMBER:	return EINVAL;
91 	case ERROR_THREAD_1_INACTIVE:	return EINVAL;
92 	case ERROR_BAD_PIPE:			return EINVAL;
93 	case ERROR_PIPE_BUSY:			return EBUSY;
94 	case ERROR_NO_DATA:				return EPIPE;
95 	case ERROR_MORE_DATA:			return EAGAIN;
96 	case ERROR_DIRECTORY:			return ENOTDIR;
97 	case ERROR_PIPE_CONNECTED:		return EBUSY;
98 	case ERROR_NO_TOKEN:			return EINVAL;
99 	case ERROR_PROCESS_ABORTED:		return EFAULT;
100 	case ERROR_BAD_DEVICE:			return ENODEV;
101 	case ERROR_BAD_USERNAME:		return EINVAL;
102 	case ERROR_OPEN_FILES:			return EAGAIN;
103 	case ERROR_ACTIVE_CONNECTIONS:	return EAGAIN;
104 	case ERROR_DEVICE_IN_USE:		return EAGAIN;
105 	case ERROR_INVALID_AT_INTERRUPT_TIME:	return EINTR;
106 	case ERROR_IO_DEVICE:			return EIO;
107 	case ERROR_NOT_OWNER:			return EPERM;
108 	case ERROR_END_OF_MEDIA:		return ENOSPC;
109 	case ERROR_EOM_OVERFLOW:		return ENOSPC;
110 	case ERROR_BEGINNING_OF_MEDIA:	return ESPIPE;
111 	case ERROR_SETMARK_DETECTED:	return ESPIPE;
112 	case ERROR_NO_DATA_DETECTED:	return ENOSPC;
113 	case ERROR_POSSIBLE_DEADLOCK:	return EDEADLOCK;
114 	case ERROR_CRC:					return EIO;
115 	case ERROR_NEGATIVE_SEEK:		return EINVAL;
116 	case ERROR_DISK_FULL:			return ENOSPC;
117 	case ERROR_NOACCESS:			return EFAULT;
118 	case ERROR_FILE_INVALID:		return ENXIO;
119 	}
120 
121 	return winerr;
122 }
123 
GetNumLogicalProcessors(void)124 int GetNumLogicalProcessors(void)
125 {
126 	SYSTEM_LOGICAL_PROCESSOR_INFORMATION *processor_info = NULL;
127 	DWORD len = 0;
128 	DWORD num_processors = 0;
129 	DWORD error = 0;
130 	DWORD i;
131 
132 	while (!GetLogicalProcessorInformation(processor_info, &len)) {
133 		error = GetLastError();
134 		if (error == ERROR_INSUFFICIENT_BUFFER)
135 			processor_info = malloc(len);
136 		else {
137 			log_err("Error: GetLogicalProcessorInformation failed: %d\n", error);
138 			return -1;
139 		}
140 
141 		if (processor_info == NULL) {
142 			log_err("Error: failed to allocate memory for GetLogicalProcessorInformation");
143 			return -1;
144 		}
145 	}
146 
147 	for (i = 0; i < len / sizeof(SYSTEM_LOGICAL_PROCESSOR_INFORMATION); i++)
148 	{
149 		if (processor_info[i].Relationship == RelationProcessorCore)
150 			num_processors += hweight64(processor_info[i].ProcessorMask);
151 	}
152 
153 	free(processor_info);
154 	return num_processors;
155 }
156 
sysconf(int name)157 long sysconf(int name)
158 {
159 	long val = -1;
160 	long val2 = -1;
161 	SYSTEM_INFO sysInfo;
162 	MEMORYSTATUSEX status;
163 
164 	switch (name)
165 	{
166 	case _SC_NPROCESSORS_ONLN:
167 		val = GetNumLogicalProcessors();
168 		if (val == -1)
169 			log_err("sysconf(_SC_NPROCESSORS_ONLN) failed\n");
170 
171 		break;
172 
173 	case _SC_PAGESIZE:
174 		GetSystemInfo(&sysInfo);
175 		val = sysInfo.dwPageSize;
176 		break;
177 
178 	case _SC_PHYS_PAGES:
179 		status.dwLength = sizeof(status);
180 		val2 = sysconf(_SC_PAGESIZE);
181 		if (GlobalMemoryStatusEx(&status) && val2 != -1)
182 			val = status.ullTotalPhys / val2;
183 		else
184 			log_err("sysconf(_SC_PHYS_PAGES) failed\n");
185 		break;
186 	default:
187 		log_err("sysconf(%d) is not implemented\n", name);
188 		break;
189 	}
190 
191 	return val;
192 }
193 
194 char *dl_error = NULL;
195 
dlclose(void * handle)196 int dlclose(void *handle)
197 {
198 	return !FreeLibrary((HMODULE)handle);
199 }
200 
dlopen(const char * file,int mode)201 void *dlopen(const char *file, int mode)
202 {
203 	HMODULE hMod;
204 
205 	hMod = LoadLibrary(file);
206 	if (hMod == INVALID_HANDLE_VALUE)
207 		dl_error = (char*)"LoadLibrary failed";
208 	else
209 		dl_error = NULL;
210 
211 	return hMod;
212 }
213 
dlsym(void * handle,const char * name)214 void *dlsym(void *handle, const char *name)
215 {
216 	FARPROC fnPtr;
217 
218 	fnPtr = GetProcAddress((HMODULE)handle, name);
219 	if (fnPtr == NULL)
220 		dl_error = (char*)"GetProcAddress failed";
221 	else
222 		dl_error = NULL;
223 
224 	return fnPtr;
225 }
226 
dlerror(void)227 char *dlerror(void)
228 {
229 	return dl_error;
230 }
231 
gettimeofday(struct timeval * restrict tp,void * restrict tzp)232 int gettimeofday(struct timeval *restrict tp, void *restrict tzp)
233 {
234 	FILETIME fileTime;
235 	uint64_t unix_time, windows_time;
236 	const uint64_t MILLISECONDS_BETWEEN_1601_AND_1970 = 11644473600000;
237 
238 	/* Ignore the timezone parameter */
239 	(void)tzp;
240 
241 	/*
242 	 * Windows time is stored as the number 100 ns intervals since January 1 1601.
243 	 * Conversion details from http://www.informit.com/articles/article.aspx?p=102236&seqNum=3
244 	 * Its precision is 100 ns but accuracy is only one clock tick, or normally around 15 ms.
245 	 */
246 	GetSystemTimeAsFileTime(&fileTime);
247 	windows_time = ((uint64_t)fileTime.dwHighDateTime << 32) + fileTime.dwLowDateTime;
248 	/* Divide by 10,000 to convert to ms and subtract the time between 1601 and 1970 */
249 	unix_time = (((windows_time)/10000) - MILLISECONDS_BETWEEN_1601_AND_1970);
250 	/* unix_time is now the number of milliseconds since 1970 (the Unix epoch) */
251 	tp->tv_sec = unix_time / 1000;
252 	tp->tv_usec = (unix_time % 1000) * 1000;
253 	return 0;
254 }
255 
sigaction(int sig,const struct sigaction * act,struct sigaction * oact)256 int sigaction(int sig, const struct sigaction *act,
257 		struct sigaction *oact)
258 {
259 	int rc = 0;
260 	void (*prev_handler)(int);
261 
262 	prev_handler = signal(sig, act->sa_handler);
263 	if (oact != NULL)
264 		oact->sa_handler = prev_handler;
265 
266 	if (prev_handler == SIG_ERR)
267 		rc = -1;
268 
269 	return rc;
270 }
271 
lstat(const char * path,struct stat * buf)272 int lstat(const char * path, struct stat * buf)
273 {
274 	return stat(path, buf);
275 }
276 
mmap(void * addr,size_t len,int prot,int flags,int fildes,off_t off)277 void *mmap(void *addr, size_t len, int prot, int flags,
278 		int fildes, off_t off)
279 {
280 	DWORD vaProt = 0;
281 	void* allocAddr = NULL;
282 
283 	if (prot & PROT_NONE)
284 		vaProt |= PAGE_NOACCESS;
285 
286 	if ((prot & PROT_READ) && !(prot & PROT_WRITE))
287 		vaProt |= PAGE_READONLY;
288 
289 	if (prot & PROT_WRITE)
290 		vaProt |= PAGE_READWRITE;
291 
292 	if ((flags & MAP_ANON) | (flags & MAP_ANONYMOUS))
293 	{
294 		allocAddr = VirtualAlloc(addr, len, MEM_COMMIT, vaProt);
295 		if (allocAddr == NULL)
296 			errno = win_to_posix_error(GetLastError());
297 	}
298 
299 	return allocAddr;
300 }
301 
munmap(void * addr,size_t len)302 int munmap(void *addr, size_t len)
303 {
304 	if (!VirtualFree(addr, 0, MEM_RELEASE)) {
305 		errno = win_to_posix_error(GetLastError());
306 		return -1;
307 	}
308 
309 	return 0;
310 }
311 
fork(void)312 int fork(void)
313 {
314 	log_err("%s is not implemented\n", __func__);
315 	errno = ENOSYS;
316 	return -1;
317 }
318 
setsid(void)319 pid_t setsid(void)
320 {
321 	log_err("%s is not implemented\n", __func__);
322 	errno = ENOSYS;
323 	return -1;
324 }
325 
326 static HANDLE log_file = INVALID_HANDLE_VALUE;
327 
openlog(const char * ident,int logopt,int facility)328 void openlog(const char *ident, int logopt, int facility)
329 {
330 	if (log_file == INVALID_HANDLE_VALUE)
331 		log_file = CreateFileA("syslog.txt", GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_ALWAYS, 0, NULL);
332 }
333 
closelog(void)334 void closelog(void)
335 {
336 	CloseHandle(log_file);
337 	log_file = INVALID_HANDLE_VALUE;
338 }
339 
syslog(int priority,const char * message,...)340 void syslog(int priority, const char *message, ... /* argument */)
341 {
342 	va_list v;
343 	int len;
344 	char *output;
345 	DWORD bytes_written;
346 
347 	if (log_file == INVALID_HANDLE_VALUE) {
348 		log_file = CreateFileA("syslog.txt", GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_ALWAYS, 0, NULL);
349 	}
350 
351 	if (log_file == INVALID_HANDLE_VALUE) {
352 		log_err("syslog: failed to open log file\n");
353 		return;
354 	}
355 
356 	va_start(v, message);
357 	len = _vscprintf(message, v);
358 	output = malloc(len + sizeof(char));
359 	vsprintf(output, message, v);
360 	WriteFile(log_file, output, len, &bytes_written, NULL);
361 	va_end(v);
362 	free(output);
363 }
364 
kill(pid_t pid,int sig)365 int kill(pid_t pid, int sig)
366 {
367 	errno = ESRCH;
368 	return -1;
369 }
370 
371 /*
372  * This is assumed to be used only by the network code,
373  * and so doesn't try and handle any of the other cases
374  */
fcntl(int fildes,int cmd,...)375 int fcntl(int fildes, int cmd, ...)
376 {
377 	/*
378 	 * non-blocking mode doesn't work the same as in BSD sockets,
379 	 * so ignore it.
380 	 */
381 #if 0
382 	va_list ap;
383 	int val, opt, status;
384 
385 	if (cmd == F_GETFL)
386 		return 0;
387 	else if (cmd != F_SETFL) {
388 		errno = EINVAL;
389 		return -1;
390 	}
391 
392 	va_start(ap, 1);
393 
394 	opt = va_arg(ap, int);
395 	if (opt & O_NONBLOCK)
396 		val = 1;
397 	else
398 		val = 0;
399 
400 	status = ioctlsocket((SOCKET)fildes, opt, &val);
401 
402 	if (status == SOCKET_ERROR) {
403 		errno = EINVAL;
404 		val = -1;
405 	}
406 
407 	va_end(ap);
408 
409 	return val;
410 #endif
411 return 0;
412 }
413 
414 /*
415  * Get the value of a local clock source.
416  * This implementation supports 2 clocks: CLOCK_MONOTONIC provides high-accuracy
417  * relative time, while CLOCK_REALTIME provides a low-accuracy wall time.
418  */
clock_gettime(clockid_t clock_id,struct timespec * tp)419 int clock_gettime(clockid_t clock_id, struct timespec *tp)
420 {
421 	int rc = 0;
422 
423 	if (clock_id == CLOCK_MONOTONIC)
424 	{
425 		static LARGE_INTEGER freq = {{0,0}};
426 		LARGE_INTEGER counts;
427 		uint64_t t;
428 
429 		QueryPerformanceCounter(&counts);
430 		if (freq.QuadPart == 0)
431 			QueryPerformanceFrequency(&freq);
432 
433 		tp->tv_sec = counts.QuadPart / freq.QuadPart;
434 		/* Get the difference between the number of ns stored
435 		 * in 'tv_sec' and that stored in 'counts' */
436 		t = tp->tv_sec * freq.QuadPart;
437 		t = counts.QuadPart - t;
438 		/* 't' now contains the number of cycles since the last second.
439 		 * We want the number of nanoseconds, so multiply out by 1,000,000,000
440 		 * and then divide by the frequency. */
441 		t *= 1000000000;
442 		tp->tv_nsec = t / freq.QuadPart;
443 	}
444 	else if (clock_id == CLOCK_REALTIME)
445 	{
446 		/* clock_gettime(CLOCK_REALTIME,...) is just an alias for gettimeofday with a
447 		 * higher-precision field. */
448 		struct timeval tv;
449 		gettimeofday(&tv, NULL);
450 		tp->tv_sec = tv.tv_sec;
451 		tp->tv_nsec = tv.tv_usec * 1000;
452 	} else {
453 		errno = EINVAL;
454 		rc = -1;
455 	}
456 
457 	return rc;
458 }
459 
mlock(const void * addr,size_t len)460 int mlock(const void * addr, size_t len)
461 {
462 	SIZE_T min, max;
463 	BOOL success;
464 	HANDLE process = GetCurrentProcess();
465 
466 	success = GetProcessWorkingSetSize(process, &min, &max);
467 	if (!success) {
468 		errno = win_to_posix_error(GetLastError());
469 		return -1;
470 	}
471 
472 	min += len;
473 	max += len;
474 	success = SetProcessWorkingSetSize(process, min, max);
475 	if (!success) {
476 		errno = win_to_posix_error(GetLastError());
477 		return -1;
478 	}
479 
480 	success = VirtualLock((LPVOID)addr, len);
481 	if (!success) {
482 		errno = win_to_posix_error(GetLastError());
483 		return -1;
484 	}
485 
486 	return 0;
487 }
488 
munlock(const void * addr,size_t len)489 int munlock(const void * addr, size_t len)
490 {
491 	BOOL success = VirtualUnlock((LPVOID)addr, len);
492 	if (!success) {
493 		errno = win_to_posix_error(GetLastError());
494 		return -1;
495 	}
496 
497 	return 0;
498 }
499 
waitpid(pid_t pid,int * stat_loc,int options)500 pid_t waitpid(pid_t pid, int *stat_loc, int options)
501 {
502 	log_err("%s is not implemented\n", __func__);
503 	errno = ENOSYS;
504 	return -1;
505 }
506 
usleep(useconds_t useconds)507 int usleep(useconds_t useconds)
508 {
509 	Sleep(useconds / 1000);
510 	return 0;
511 }
512 
basename(char * path)513 char *basename(char *path)
514 {
515 	static char name[MAX_PATH];
516 	int i;
517 
518 	if (path == NULL || strlen(path) == 0)
519 		return (char*)".";
520 
521 	i = strlen(path) - 1;
522 
523 	while (path[i] != '\\' && path[i] != '/' && i >= 0)
524 		i--;
525 
526 	strncpy(name, path + i + 1, MAX_PATH);
527 
528 	return name;
529 }
530 
fsync(int fildes)531 int fsync(int fildes)
532 {
533 	HANDLE hFile = (HANDLE)_get_osfhandle(fildes);
534 	if (!FlushFileBuffers(hFile)) {
535 		errno = win_to_posix_error(GetLastError());
536 		return -1;
537 	}
538 
539 	return 0;
540 }
541 
542 int nFileMappings = 0;
543 HANDLE fileMappings[1024];
544 
shmget(key_t key,size_t size,int shmflg)545 int shmget(key_t key, size_t size, int shmflg)
546 {
547 	int mapid = -1;
548 	uint32_t size_low = size & 0xFFFFFFFF;
549 	uint32_t size_high = ((uint64_t)size) >> 32;
550 	HANDLE hMapping = CreateFileMapping(INVALID_HANDLE_VALUE, NULL, (PAGE_EXECUTE_READWRITE | SEC_RESERVE), size_high, size_low, NULL);
551 	if (hMapping != NULL) {
552 		fileMappings[nFileMappings] = hMapping;
553 		mapid = nFileMappings;
554 		nFileMappings++;
555 	} else {
556 		errno = ENOSYS;
557 	}
558 
559 	return mapid;
560 }
561 
shmat(int shmid,const void * shmaddr,int shmflg)562 void *shmat(int shmid, const void *shmaddr, int shmflg)
563 {
564 	void* mapAddr;
565 	MEMORY_BASIC_INFORMATION memInfo;
566 	mapAddr = MapViewOfFile(fileMappings[shmid], FILE_MAP_ALL_ACCESS, 0, 0, 0);
567 	if (mapAddr == NULL) {
568 		errno = win_to_posix_error(GetLastError());
569 		return (void*)-1;
570 	}
571 
572 	if (VirtualQuery(mapAddr, &memInfo, sizeof(memInfo)) == 0) {
573 		errno = win_to_posix_error(GetLastError());
574 		return (void*)-1;
575 	}
576 
577 	mapAddr = VirtualAlloc(mapAddr, memInfo.RegionSize, MEM_COMMIT, PAGE_READWRITE);
578 	if (mapAddr == NULL) {
579 		errno = win_to_posix_error(GetLastError());
580 		return (void*)-1;
581 	}
582 
583 	return mapAddr;
584 }
585 
shmdt(const void * shmaddr)586 int shmdt(const void *shmaddr)
587 {
588 	if (!UnmapViewOfFile(shmaddr)) {
589 		errno = win_to_posix_error(GetLastError());
590 		return -1;
591 	}
592 
593 	return 0;
594 }
595 
shmctl(int shmid,int cmd,struct shmid_ds * buf)596 int shmctl(int shmid, int cmd, struct shmid_ds *buf)
597 {
598 	if (cmd == IPC_RMID) {
599 		fileMappings[shmid] = INVALID_HANDLE_VALUE;
600 		return 0;
601 	} else {
602 		log_err("%s is not implemented\n", __func__);
603 	}
604 	errno = ENOSYS;
605 	return -1;
606 }
607 
setuid(uid_t uid)608 int setuid(uid_t uid)
609 {
610 	log_err("%s is not implemented\n", __func__);
611 	errno = ENOSYS;
612 	return -1;
613 }
614 
setgid(gid_t gid)615 int setgid(gid_t gid)
616 {
617 	log_err("%s is not implemented\n", __func__);
618 	errno = ENOSYS;
619 	return -1;
620 }
621 
nice(int incr)622 int nice(int incr)
623 {
624 	if (incr != 0) {
625 		errno = EINVAL;
626 		return -1;
627 	}
628 
629 	return 0;
630 }
631 
getrusage(int who,struct rusage * r_usage)632 int getrusage(int who, struct rusage *r_usage)
633 {
634 	const uint64_t SECONDS_BETWEEN_1601_AND_1970 = 11644473600;
635 	FILETIME cTime, eTime, kTime, uTime;
636 	time_t time;
637 	HANDLE h;
638 
639 	memset(r_usage, 0, sizeof(*r_usage));
640 
641 	if (who == RUSAGE_SELF) {
642 		h = GetCurrentProcess();
643 		GetProcessTimes(h, &cTime, &eTime, &kTime, &uTime);
644 	} else if (who == RUSAGE_THREAD) {
645 		h = GetCurrentThread();
646 		GetThreadTimes(h, &cTime, &eTime, &kTime, &uTime);
647 	} else {
648 		log_err("fio: getrusage %d is not implemented\n", who);
649 		return -1;
650 	}
651 
652 	time = ((uint64_t)uTime.dwHighDateTime << 32) + uTime.dwLowDateTime;
653 	/* Divide by 10,000,000 to get the number of seconds and move the epoch from
654 	 * 1601 to 1970 */
655 	time = (time_t)(((time)/10000000) - SECONDS_BETWEEN_1601_AND_1970);
656 	r_usage->ru_utime.tv_sec = time;
657 	/* getrusage() doesn't care about anything other than seconds, so set tv_usec to 0 */
658 	r_usage->ru_utime.tv_usec = 0;
659 	time = ((uint64_t)kTime.dwHighDateTime << 32) + kTime.dwLowDateTime;
660 	/* Divide by 10,000,000 to get the number of seconds and move the epoch from
661 	 * 1601 to 1970 */
662 	time = (time_t)(((time)/10000000) - SECONDS_BETWEEN_1601_AND_1970);
663 	r_usage->ru_stime.tv_sec = time;
664 	r_usage->ru_stime.tv_usec = 0;
665 	return 0;
666 }
667 
posix_madvise(void * addr,size_t len,int advice)668 int posix_madvise(void *addr, size_t len, int advice)
669 {
670 	log_err("%s is not implemented\n", __func__);
671 	return ENOSYS;
672 }
673 
674 /* Windows doesn't support advice for memory pages. Just ignore it. */
msync(void * addr,size_t len,int flags)675 int msync(void *addr, size_t len, int flags)
676 {
677 	errno = ENOSYS;
678 	return -1;
679 }
680 
fdatasync(int fildes)681 int fdatasync(int fildes)
682 {
683 	return fsync(fildes);
684 }
685 
pwrite(int fildes,const void * buf,size_t nbyte,off_t offset)686 ssize_t pwrite(int fildes, const void *buf, size_t nbyte,
687 		off_t offset)
688 {
689 	int64_t pos = _telli64(fildes);
690 	ssize_t len = _write(fildes, buf, nbyte);
691 	_lseeki64(fildes, pos, SEEK_SET);
692 	return len;
693 }
694 
pread(int fildes,void * buf,size_t nbyte,off_t offset)695 ssize_t pread(int fildes, void *buf, size_t nbyte, off_t offset)
696 {
697 	int64_t pos = _telli64(fildes);
698 	ssize_t len = read(fildes, buf, nbyte);
699 	_lseeki64(fildes, pos, SEEK_SET);
700 	return len;
701 }
702 
readv(int fildes,const struct iovec * iov,int iovcnt)703 ssize_t readv(int fildes, const struct iovec *iov, int iovcnt)
704 {
705 	log_err("%s is not implemented\n", __func__);
706 	errno = ENOSYS;
707 	return -1;
708 }
709 
writev(int fildes,const struct iovec * iov,int iovcnt)710 ssize_t writev(int fildes, const struct iovec *iov, int iovcnt)
711 {
712 	int i;
713 	DWORD bytes_written = 0;
714 	for (i = 0; i < iovcnt; i++)
715 	{
716 		int len = send((SOCKET)fildes, iov[i].iov_base, iov[i].iov_len, 0);
717 		if (len == SOCKET_ERROR)
718 		{
719 			DWORD err = GetLastError();
720 			errno = win_to_posix_error(err);
721 			bytes_written = -1;
722 			break;
723 		}
724 		bytes_written += len;
725 	}
726 
727 	return bytes_written;
728 }
729 
strtoll(const char * restrict str,char ** restrict endptr,int base)730 long long strtoll(const char *restrict str, char **restrict endptr,
731 		int base)
732 {
733 	return _strtoi64(str, endptr, base);
734 }
735 
poll(struct pollfd fds[],nfds_t nfds,int timeout)736 int poll(struct pollfd fds[], nfds_t nfds, int timeout)
737 {
738 	struct timeval tv;
739 	struct timeval *to = NULL;
740 	fd_set readfds, writefds, exceptfds;
741 	int i;
742 	int rc;
743 
744 	if (timeout != -1) {
745 		to = &tv;
746 		to->tv_sec = timeout / 1000;
747 		to->tv_usec = (timeout % 1000) * 1000;
748 	}
749 
750 	FD_ZERO(&readfds);
751 	FD_ZERO(&writefds);
752 	FD_ZERO(&exceptfds);
753 
754 	for (i = 0; i < nfds; i++)
755 	{
756 		if (fds[i].fd < 0) {
757 			fds[i].revents = 0;
758 			continue;
759 		}
760 
761 		if (fds[i].events & POLLIN)
762 			FD_SET(fds[i].fd, &readfds);
763 
764 		if (fds[i].events & POLLOUT)
765 			FD_SET(fds[i].fd, &writefds);
766 
767 		FD_SET(fds[i].fd, &exceptfds);
768 	}
769 	rc = select(nfds, &readfds, &writefds, &exceptfds, to);
770 
771 	if (rc != SOCKET_ERROR) {
772 		for (i = 0; i < nfds; i++)
773 		{
774 			if (fds[i].fd < 0) {
775 				continue;
776 			}
777 
778 			if ((fds[i].events & POLLIN) && FD_ISSET(fds[i].fd, &readfds))
779 				fds[i].revents |= POLLIN;
780 
781 			if ((fds[i].events & POLLOUT) && FD_ISSET(fds[i].fd, &writefds))
782 				fds[i].revents |= POLLOUT;
783 
784 			if (FD_ISSET(fds[i].fd, &exceptfds))
785 				fds[i].revents |= POLLHUP;
786 		}
787 	}
788 	return rc;
789 }
790 
nanosleep(const struct timespec * rqtp,struct timespec * rmtp)791 int nanosleep(const struct timespec *rqtp, struct timespec *rmtp)
792 {
793 	struct timeval tv;
794 	DWORD ms_remaining;
795 	DWORD ms_total = (rqtp->tv_sec * 1000) + (rqtp->tv_nsec / 1000000.0);
796 
797 	if (ms_total == 0)
798 		ms_total = 1;
799 
800 	ms_remaining = ms_total;
801 
802 	/* Since Sleep() can sleep for less than the requested time, add a loop to
803 	   ensure we only return after the requested length of time has elapsed */
804 	do {
805 		fio_gettime(&tv, NULL);
806 		Sleep(ms_remaining);
807 		ms_remaining = ms_total - mtime_since_now(&tv);
808 	} while (ms_remaining > 0 && ms_remaining < ms_total);
809 
810 	/* this implementation will never sleep for less than the requested time */
811 	if (rmtp != NULL) {
812 		rmtp->tv_sec = 0;
813 		rmtp->tv_nsec = 0;
814 	}
815 
816 	return 0;
817 }
818 
opendir(const char * dirname)819 DIR *opendir(const char *dirname)
820 {
821 	struct dirent_ctx *dc = NULL;
822 
823 	/* See if we can open it. If not, we'll return an error here */
824 	HANDLE file = CreateFileA(dirname, 0, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL);
825 	if (file != INVALID_HANDLE_VALUE) {
826 		CloseHandle(file);
827 		dc = (struct dirent_ctx*)malloc(sizeof(struct dirent_ctx));
828 		StringCchCopyA(dc->dirname, MAX_PATH, dirname);
829 		dc->find_handle = INVALID_HANDLE_VALUE;
830 	} else {
831 		DWORD error = GetLastError();
832 		if (error == ERROR_FILE_NOT_FOUND)
833 			errno = ENOENT;
834 
835 		else if (error == ERROR_PATH_NOT_FOUND)
836 			errno = ENOTDIR;
837 		else if (error == ERROR_TOO_MANY_OPEN_FILES)
838 			errno = ENFILE;
839 		else if (error == ERROR_ACCESS_DENIED)
840 			errno = EACCES;
841 		else
842 			errno = error;
843 	}
844 
845 	return dc;
846 }
847 
closedir(DIR * dirp)848 int closedir(DIR *dirp)
849 {
850 	if (dirp != NULL && dirp->find_handle != INVALID_HANDLE_VALUE)
851 		FindClose(dirp->find_handle);
852 
853 	free(dirp);
854 	return 0;
855 }
856 
readdir(DIR * dirp)857 struct dirent *readdir(DIR *dirp)
858 {
859 	static struct dirent de;
860 	WIN32_FIND_DATA find_data;
861 
862 	if (dirp == NULL)
863 		return NULL;
864 
865 	if (dirp->find_handle == INVALID_HANDLE_VALUE) {
866 		char search_pattern[MAX_PATH];
867 		StringCchPrintfA(search_pattern, MAX_PATH, "%s\\*", dirp->dirname);
868 		dirp->find_handle = FindFirstFileA(search_pattern, &find_data);
869 		if (dirp->find_handle == INVALID_HANDLE_VALUE)
870 			return NULL;
871 	} else {
872 		if (!FindNextFile(dirp->find_handle, &find_data))
873 			return NULL;
874 	}
875 
876 	StringCchCopyA(de.d_name, MAX_PATH, find_data.cFileName);
877 	de.d_ino = 0;
878 
879 	return &de;
880 }
881 
geteuid(void)882 uid_t geteuid(void)
883 {
884 	log_err("%s is not implemented\n", __func__);
885 	errno = ENOSYS;
886 	return -1;
887 }
888 
inet_network(const char * cp)889 in_addr_t inet_network(const char *cp)
890 {
891 	in_addr_t hbo;
892 	in_addr_t nbo = inet_addr(cp);
893 	hbo = ((nbo & 0xFF) << 24) + ((nbo & 0xFF00) << 8) + ((nbo & 0xFF0000) >> 8) + ((nbo & 0xFF000000) >> 24);
894 	return hbo;
895 }
896 
inet_ntop(int af,const void * restrict src,char * restrict dst,socklen_t size)897 const char* inet_ntop(int af, const void *restrict src,
898 		char *restrict dst, socklen_t size)
899 {
900 	INT status = SOCKET_ERROR;
901 	WSADATA wsd;
902 	char *ret = NULL;
903 
904 	if (af != AF_INET && af != AF_INET6) {
905 		errno = EAFNOSUPPORT;
906 		return NULL;
907 	}
908 
909 	WSAStartup(MAKEWORD(2,2), &wsd);
910 
911 	if (af == AF_INET) {
912 		struct sockaddr_in si;
913 		DWORD len = size;
914 		memset(&si, 0, sizeof(si));
915 		si.sin_family = af;
916 		memcpy(&si.sin_addr, src, sizeof(si.sin_addr));
917 		status = WSAAddressToString((struct sockaddr*)&si, sizeof(si), NULL, dst, &len);
918 	} else if (af == AF_INET6) {
919 		struct sockaddr_in6 si6;
920 		DWORD len = size;
921 		memset(&si6, 0, sizeof(si6));
922 		si6.sin6_family = af;
923 		memcpy(&si6.sin6_addr, src, sizeof(si6.sin6_addr));
924 		status = WSAAddressToString((struct sockaddr*)&si6, sizeof(si6), NULL, dst, &len);
925 	}
926 
927 	if (status != SOCKET_ERROR)
928 		ret = dst;
929 	else
930 		errno = ENOSPC;
931 
932 	WSACleanup();
933 
934 	return ret;
935 }
936 
inet_pton(int af,const char * restrict src,void * restrict dst)937 int inet_pton(int af, const char *restrict src, void *restrict dst)
938 {
939 	INT status = SOCKET_ERROR;
940 	WSADATA wsd;
941 	int ret = 1;
942 
943 	if (af != AF_INET && af != AF_INET6) {
944 		errno = EAFNOSUPPORT;
945 		return -1;
946 	}
947 
948 	WSAStartup(MAKEWORD(2,2), &wsd);
949 
950 	if (af == AF_INET) {
951 		struct sockaddr_in si;
952 		INT len = sizeof(si);
953 		memset(&si, 0, sizeof(si));
954 		si.sin_family = af;
955 		status = WSAStringToAddressA((char*)src, af, NULL, (struct sockaddr*)&si, &len);
956 		if (status != SOCKET_ERROR)
957 			memcpy(dst, &si.sin_addr, sizeof(si.sin_addr));
958 	} else if (af == AF_INET6) {
959 		struct sockaddr_in6 si6;
960 		INT len = sizeof(si6);
961 		memset(&si6, 0, sizeof(si6));
962 		si6.sin6_family = af;
963 		status = WSAStringToAddressA((char*)src, af, NULL, (struct sockaddr*)&si6, &len);
964 		if (status != SOCKET_ERROR)
965 			memcpy(dst, &si6.sin6_addr, sizeof(si6.sin6_addr));
966 	}
967 
968 	if (status == SOCKET_ERROR) {
969 		errno = ENOSPC;
970 		ret = 0;
971 	}
972 
973 	WSACleanup();
974 
975 	return ret;
976 }
977