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Comparing IO-AIO/AIO.xs (file contents):
Revision 1.273 by root, Mon Mar 4 10:28:38 2019 UTC vs.
Revision 1.287 by root, Tue Dec 29 15:28:02 2020 UTC

84 84
85#else 85#else
86 86
87 #include <sys/time.h> 87 #include <sys/time.h>
88 #include <sys/select.h> 88 #include <sys/select.h>
89 #include <sys/wait.h>
89 #include <unistd.h> 90 #include <unistd.h>
90 #include <utime.h> 91 #include <utime.h>
91 #include <signal.h> 92 #include <signal.h>
92 93
93 #define EIO_STRUCT_STAT Stat_t 94 #define EIO_STRUCT_STAT Stat_t
115# include <sys/sysmacros.h> 116# include <sys/sysmacros.h>
116#endif 117#endif
117 118
118#if _POSIX_MEMLOCK || _POSIX_MEMLOCK_RANGE || _POSIX_MAPPED_FILES 119#if _POSIX_MEMLOCK || _POSIX_MEMLOCK_RANGE || _POSIX_MAPPED_FILES
119# include <sys/mman.h> 120# include <sys/mman.h>
121#endif
122
123#if HAVE_SYS_UIO_H
124# include <sys/uio.h>
120#endif 125#endif
121 126
122#if HAVE_ST_XTIMENSEC 127#if HAVE_ST_XTIMENSEC
123# define ATIMENSEC PL_statcache.st_atimensec 128# define ATIMENSEC PL_statcache.st_atimensec
124# define MTIMENSEC PL_statcache.st_mtimensec 129# define MTIMENSEC PL_statcache.st_mtimensec
222 227
223#if PAGESIZE <= 0 228#if PAGESIZE <= 0
224# define PAGESIZE sysconf (_SC_PAGESIZE) 229# define PAGESIZE sysconf (_SC_PAGESIZE)
225#endif 230#endif
226 231
232#if HAVE_SYSCALL
233#include <sys/syscall.h>
234#else
235# define syscall(nr,...) (errno = ENOSYS, -1)
236#endif
237
227/*****************************************************************************/ 238/*****************************************************************************/
228 239
229#if !_POSIX_MAPPED_FILES 240#if !_POSIX_MAPPED_FILES
230# define mmap(addr,length,prot,flags,fd,offs) (errno = ENOSYS, (void *)-1) 241# define mmap(addr,length,prot,flags,fd,offs) (errno = ENOSYS, (void *)-1)
231# define munmap(addr,length) EIO_ENOSYS () 242# define munmap(addr,length) EIO_ENOSYS ()
289}; 300};
290 301
291/*****************************************************************************/ 302/*****************************************************************************/
292 303
293/* helper: set scalar to foreign ptr with custom free */ 304/* helper: set scalar to foreign ptr with custom free */
305ecb_noinline
294static void 306static void
295sv_set_foreign (SV *sv, const MGVTBL *const vtbl, void *addr, IV length) 307sv_set_foreign (SV *sv, const MGVTBL *const vtbl, void *addr, IV length)
296{ 308{
297 sv_force_normal (sv); 309 sv_force_normal (sv);
298 310
339 int count = req->int3; 351 int count = req->int3;
340 352
341 req->flags |= EIO_FLAG_PTR1_FREE; 353 req->flags |= EIO_FLAG_PTR1_FREE;
342 354
343 /* heuristic: start with 512 bytes (8 extents), and if that isn't enough, */ 355 /* heuristic: start with 512 bytes (8 extents), and if that isn't enough, */
344 /* increase in 3.5kb steps */ 356 /* increase in fixed steps */
345 if (count < 0) 357 if (count < 0)
346 count = 8; 358 count = 8;
347 359
348 fiemap = malloc (sizeof (*fiemap) + sizeof (struct fiemap_extent) * count); 360 fiemap = malloc (sizeof (*fiemap) + sizeof (struct fiemap_extent) * count);
349 errno = ENOMEM; 361 errno = ENOMEM;
402 414
403 for (count = 0; count < incmap->fm_mapped_extents; ++count) 415 for (count = 0; count < incmap->fm_mapped_extents; ++count)
404 { 416 {
405 struct fiemap_extent *e = incmap->fm_extents + count; 417 struct fiemap_extent *e = incmap->fm_extents + count;
406 418
419 fiemap->fm_extents [fiemap->fm_mapped_extents++] = *e;
420
407 if (e->fe_logical + e->fe_length >= end_offset) 421 if (e->fe_logical >= end_offset)
408 goto done; 422 goto done;
409
410 fiemap->fm_extents [fiemap->fm_mapped_extents++] = *e;
411 423
412 if (e->fe_flags & FIEMAP_EXTENT_LAST) 424 if (e->fe_flags & FIEMAP_EXTENT_LAST)
413 goto done; 425 goto done;
414 426
415 } 427 }
424} 436}
425 437
426/*****************************************************************************/ 438/*****************************************************************************/
427 439
428static int close_fd; /* dummy fd to close fds via dup2 */ 440static int close_fd; /* dummy fd to close fds via dup2 */
441
442#if HAVE_STATX
443static struct statx stx;
444#define statx_offsetof(member) offsetof (struct statx, member)
445#define eio__statx statx
446#else
447#define statx_offsetof(member) 0
448#define eio__statx(dir,path,flags,mask,stx) EIO_ENOSYS()
449#endif
429 450
430enum { 451enum {
431 FLAG_SV2_RO_OFF = 0x40, /* data was set readonly */ 452 FLAG_SV2_RO_OFF = 0x40, /* data was set readonly */
432}; 453};
433 454
457 /* read any signals sent by the worker threads */ 478 /* read any signals sent by the worker threads */
458 s_epipe_drain (&respipe); 479 s_epipe_drain (&respipe);
459} 480}
460 481
461/* must be called at most once */ 482/* must be called at most once */
483ecb_noinline
462static SV * 484static SV *
463req_sv (aio_req req, HV *stash) 485req_sv (aio_req req, HV *stash)
464{ 486{
465 if (!req->self) 487 if (!req->self)
466 { 488 {
475newSVaio_wd (aio_wd wd) 497newSVaio_wd (aio_wd wd)
476{ 498{
477 return sv_bless (newRV_noinc (newSViv ((intptr_t)wd)), aio_wd_stash); 499 return sv_bless (newRV_noinc (newSViv ((intptr_t)wd)), aio_wd_stash);
478} 500}
479 501
502ecb_noinline
480static aio_req 503static aio_req
481SvAIO_REQ (SV *sv) 504SvAIO_REQ (SV *sv)
482{ 505{
483 MAGIC *mg; 506 MAGIC *mg;
484 507
547 FREETMPS; 570 FREETMPS;
548 LEAVE; 571 LEAVE;
549 } 572 }
550} 573}
551 574
575ecb_noinline
552static void 576static void
553req_submit (eio_req *req) 577req_submit (eio_req *req)
554{ 578{
555 eio_submit (req); 579 eio_submit (req);
556 580
883 grp->sv2 = 0; 907 grp->sv2 = 0;
884 908
885 eio_grp_cancel (grp); 909 eio_grp_cancel (grp);
886} 910}
887 911
888static void ecb_cold 912ecb_cold
913static void
889create_respipe (void) 914create_respipe (void)
890{ 915{
891 if (s_epipe_renew (&respipe)) 916 if (s_epipe_renew (&respipe))
892 croak ("IO::AIO: unable to initialize result pipe"); 917 croak ("IO::AIO: unable to initialize result pipe");
893} 918}
927 952
928 poll_wait (); 953 poll_wait ();
929 } 954 }
930} 955}
931 956
932static void ecb_cold 957ecb_cold
958static void
933reinit (void) 959reinit (void)
934{ 960{
935 create_respipe (); 961 create_respipe ();
936 962
937 if (eio_init (want_poll, done_poll) < 0) 963 if (eio_init (want_poll, done_poll) < 0)
945{ 971{
946 SvGETMAGIC (cb_sv); 972 SvGETMAGIC (cb_sv);
947 return SvOK (cb_sv) ? s_get_cv_croak (cb_sv) : 0; 973 return SvOK (cb_sv) ? s_get_cv_croak (cb_sv) : 0;
948} 974}
949 975
976ecb_noinline
950static aio_req ecb_noinline 977static aio_req ecb_noinline
951dreq (SV *callback) 978dreq (SV *callback)
952{ 979{
953 SV *cb_cv; 980 SV *cb_cv;
954 aio_req req; 981 aio_req req;
976 SPAGAIN; \ 1003 SPAGAIN; \
977 \ 1004 \
978 if (GIMME_V != G_VOID) \ 1005 if (GIMME_V != G_VOID) \
979 XPUSHs (req_sv (req, aio_req_stash)); 1006 XPUSHs (req_sv (req, aio_req_stash));
980 1007
1008/* *wdsv, *pathsv, *wd and *ptr must be 0-initialized */
981ecb_inline void 1009ecb_inline
1010void
982req_set_path (aio_req req, SV *path, SV **wdsv, SV **pathsv, eio_wd *wd, void **ptr) 1011req_set_path (SV *path, SV **wdsv, SV **pathsv, eio_wd *wd, void **ptr)
983{ 1012{
984 if (expect_false (SvROK (path))) 1013 if (expect_false (SvROK (path)))
985 { 1014 {
986 SV *rv = SvRV (path); 1015 SV *rv = SvRV (path);
987 SV *wdob; 1016 SV *wdob;
1012 1041
1013 *pathsv = newSVsv (path); 1042 *pathsv = newSVsv (path);
1014 *ptr = SvPVbyte_nolen (*pathsv); 1043 *ptr = SvPVbyte_nolen (*pathsv);
1015} 1044}
1016 1045
1017static void ecb_noinline 1046ecb_noinline
1047static void
1018req_set_path1 (aio_req req, SV *path) 1048req_set_path1 (aio_req req, SV *path)
1019{ 1049{
1020 req_set_path (req, path, &req->sv1, &req->sv3, &req->wd, &req->ptr1); 1050 req_set_path (path, &req->sv1, &req->sv3, &req->wd, &req->ptr1);
1021} 1051}
1022 1052
1023static void ecb_noinline 1053ecb_noinline
1054static void
1024req_set_fh_or_path (aio_req req, int type_path, int type_fh, SV *fh_or_path) 1055req_set_fh_or_path (aio_req req, int type_path, int type_fh, SV *fh_or_path)
1025{ 1056{
1026 SV *rv = SvROK (fh_or_path) ? SvRV (fh_or_path) : fh_or_path; 1057 SV *rv = SvROK (fh_or_path) ? SvRV (fh_or_path) : fh_or_path;
1027 1058
1028 switch (SvTYPE (rv)) 1059 switch (SvTYPE (rv))
1171 const_iv (MAP_STACK) 1202 const_iv (MAP_STACK)
1172 1203
1173 const_iv (MREMAP_MAYMOVE) 1204 const_iv (MREMAP_MAYMOVE)
1174 const_iv (MREMAP_FIXED) 1205 const_iv (MREMAP_FIXED)
1175 1206
1176 const_iv (F_DUPFD_CLOEXEC)
1177
1178 const_iv (MSG_CMSG_CLOEXEC) 1207 const_iv (MSG_CMSG_CLOEXEC)
1179 const_iv (SOCK_CLOEXEC) 1208 const_iv (SOCK_CLOEXEC)
1209
1210 const_iv (F_DUPFD_CLOEXEC)
1211
1212 const_iv (F_ADD_SEALS)
1213 const_iv (F_GET_SEALS)
1214 const_iv (F_SEAL_SEAL)
1215 const_iv (F_SEAL_SHRINK)
1216 const_iv (F_SEAL_GROW)
1217 const_iv (F_SEAL_WRITE)
1180 1218
1181 const_iv (F_OFD_GETLK) 1219 const_iv (F_OFD_GETLK)
1182 const_iv (F_OFD_SETLK) 1220 const_iv (F_OFD_SETLK)
1183 const_iv (F_OFD_GETLKW) 1221 const_iv (F_OFD_GETLKW)
1184 1222
1261 1299
1262 const_iv (EFD_CLOEXEC) 1300 const_iv (EFD_CLOEXEC)
1263 const_iv (EFD_NONBLOCK) 1301 const_iv (EFD_NONBLOCK)
1264 const_iv (EFD_SEMAPHORE) 1302 const_iv (EFD_SEMAPHORE)
1265 1303
1304 const_iv (MFD_CLOEXEC)
1305 const_iv (MFD_ALLOW_SEALING)
1306 const_iv (MFD_HUGETLB)
1307
1266 const_iv (CLOCK_REALTIME) 1308 const_iv (CLOCK_REALTIME)
1267 const_iv (CLOCK_MONOTONIC) 1309 const_iv (CLOCK_MONOTONIC)
1268 const_iv (CLOCK_BOOTTIME) 1310 const_iv (CLOCK_BOOTTIME)
1269 const_iv (CLOCK_REALTIME_ALARM) 1311 const_iv (CLOCK_REALTIME_ALARM)
1270 const_iv (CLOCK_BOOTTIME_ALARM) 1312 const_iv (CLOCK_BOOTTIME_ALARM)
1272 const_iv (TFD_NONBLOCK) 1314 const_iv (TFD_NONBLOCK)
1273 const_iv (TFD_CLOEXEC) 1315 const_iv (TFD_CLOEXEC)
1274 1316
1275 const_iv (TFD_TIMER_ABSTIME) 1317 const_iv (TFD_TIMER_ABSTIME)
1276 const_iv (TFD_TIMER_CANCEL_ON_SET) 1318 const_iv (TFD_TIMER_CANCEL_ON_SET)
1319
1320 const_iv (STATX_TYPE)
1321 const_iv (STATX_MODE)
1322 const_iv (STATX_NLINK)
1323 const_iv (STATX_UID)
1324 const_iv (STATX_GID)
1325 const_iv (STATX_ATIME)
1326 const_iv (STATX_MTIME)
1327 const_iv (STATX_CTIME)
1328 const_iv (STATX_INO)
1329 const_iv (STATX_SIZE)
1330 const_iv (STATX_BLOCKS)
1331 const_iv (STATX_BASIC_STATS)
1332 const_iv (STATX_ALL)
1333 const_iv (STATX_BTIME)
1334 const_iv (STATX_ATTR_COMPRESSED)
1335 const_iv (STATX_ATTR_IMMUTABLE)
1336 const_iv (STATX_ATTR_APPEND)
1337 const_iv (STATX_ATTR_NODUMP)
1338 const_iv (STATX_ATTR_ENCRYPTED)
1339 const_iv (STATX_ATTR_AUTOMOUNT)
1340
1341 const_iv (AT_FDCWD)
1342 const_iv (AT_SYMLINK_NOFOLLOW)
1343 const_iv (AT_EACCESS)
1344 const_iv (AT_REMOVEDIR)
1345 const_iv (AT_SYMLINK_FOLLOW)
1346 const_iv (AT_NO_AUTOMOUNT)
1347 const_iv (AT_EMPTY_PATH)
1348 const_iv (AT_STATX_SYNC_TYPE)
1349 const_iv (AT_STATX_AS_STAT)
1350 const_iv (AT_STATX_FORCE_SYNC)
1351 const_iv (AT_STATX_DONT_SYNC)
1352 const_iv (AT_RECURSIVE)
1353
1354 const_iv (OPEN_TREE_CLONE)
1355
1356 const_iv (FSOPEN_CLOEXEC)
1357
1358 const_iv (FSPICK_CLOEXEC)
1359 const_iv (FSPICK_SYMLINK_NOFOLLOW)
1360 const_iv (FSPICK_NO_AUTOMOUNT)
1361 const_iv (FSPICK_EMPTY_PATH)
1362
1363 const_iv (MOVE_MOUNT_F_SYMLINKS)
1364 const_iv (MOVE_MOUNT_F_AUTOMOUNTS)
1365 const_iv (MOVE_MOUNT_F_EMPTY_PATH)
1366 const_iv (MOVE_MOUNT_T_SYMLINKS)
1367 const_iv (MOVE_MOUNT_T_AUTOMOUNTS)
1368 const_iv (MOVE_MOUNT_T_EMPTY_PATH)
1369
1370 /* waitid */
1371 const_iv (P_PID)
1372 const_iv (P_PIDFD)
1373 const_iv (P_PGID)
1374 const_iv (P_ALL)
1277 1375
1278 /* these are libeio constants, and are independent of gendef0 */ 1376 /* these are libeio constants, and are independent of gendef0 */
1279 const_eio (SEEK_SET) 1377 const_eio (SEEK_SET)
1280 const_eio (SEEK_CUR) 1378 const_eio (SEEK_CUR)
1281 const_eio (SEEK_END) 1379 const_eio (SEEK_END)
1848 eio_wd wd2 = 0; 1946 eio_wd wd2 = 0;
1849 dREQ; 1947 dREQ;
1850 1948
1851 req->type = ix; 1949 req->type = ix;
1852 req_set_path1 (req, oldpath); 1950 req_set_path1 (req, oldpath);
1853 req_set_path (req, newpath, &req->sv2, &req->sv4, &wd2, &req->ptr2); 1951 req_set_path (newpath, &req->sv2, &req->sv4, &wd2, &req->ptr2);
1854 req->int3 = (long)wd2; 1952 req->int3 = (long)wd2;
1855 1953
1856 REQ_SEND; 1954 REQ_SEND;
1857} 1955}
1858 1956
1863 eio_wd wd2 = 0; 1961 eio_wd wd2 = 0;
1864 dREQ; 1962 dREQ;
1865 1963
1866 req->type = EIO_RENAME; 1964 req->type = EIO_RENAME;
1867 req_set_path1 (req, oldpath); 1965 req_set_path1 (req, oldpath);
1868 req_set_path (req, newpath, &req->sv2, &req->sv4, &wd2, &req->ptr2); 1966 req_set_path (newpath, &req->sv2, &req->sv4, &wd2, &req->ptr2);
1869 req->int2 = flags; 1967 req->int2 = flags;
1870 req->int3 = (long)wd2; 1968 req->int3 = (long)wd2;
1871 1969
1872 REQ_SEND; 1970 REQ_SEND;
1873} 1971}
2295#endif 2393#endif
2296 OUTPUT: 2394 OUTPUT:
2297 RETVAL 2395 RETVAL
2298 2396
2299int 2397int
2398statx (SV8 *pathname, int flags, UV mask)
2399 CODE:
2400{
2401 /* undocumented, and might go away, and anyway, should use eio_statx */
2402 SV *wdsv = 0;
2403 SV *pathsv = 0;
2404 eio_wd wd = EIO_CWD;
2405 void *ptr;
2406 int res;
2407
2408 req_set_path (pathname, &wdsv, &pathsv, &wd, &ptr);
2409 RETVAL = eio__statx (!wd || wd->fd == EIO_CWD ? AT_FDCWD : wd->fd, ptr, flags, mask & STATX_ALL, &stx);
2410
2411 SvREFCNT_dec (pathsv);
2412 SvREFCNT_dec (wdsv);
2413}
2414 OUTPUT:
2415 RETVAL
2416
2417U32
2418stx_mode ()
2419 PROTOTYPE:
2420 CODE:
2421#if HAVE_STATX
2422 RETVAL = stx.stx_mode;
2423#else
2424 XSRETURN_UNDEF;
2425#endif
2426 OUTPUT:
2427 RETVAL
2428
2429#define STATX_OFFSET_mask statx_offsetof (stx_mask)
2430#define STATX_OFFSET_blksize statx_offsetof (stx_blksize)
2431#define STATX_OFFSET_nlink statx_offsetof (stx_nlink)
2432#define STATX_OFFSET_uid statx_offsetof (stx_uid)
2433#define STATX_OFFSET_gid statx_offsetof (stx_gid)
2434#define STATX_OFFSET_rdev_major statx_offsetof (stx_rdev_major)
2435#define STATX_OFFSET_rdev_minor statx_offsetof (stx_rdev_minor)
2436#define STATX_OFFSET_dev_major statx_offsetof (stx_dev_major)
2437#define STATX_OFFSET_dev_minor statx_offsetof (stx_dev_minor)
2438#define STATX_OFFSET_attributes statx_offsetof (stx_attributes)
2439#define STATX_OFFSET_ino statx_offsetof (stx_ino)
2440#define STATX_OFFSET_size statx_offsetof (stx_size)
2441#define STATX_OFFSET_blocks statx_offsetof (stx_blocks)
2442#define STATX_OFFSET_attributes_mask statx_offsetof (stx_attributes_mask)
2443#define STATX_OFFSET_atime statx_offsetof (stx_atime)
2444#define STATX_OFFSET_btime statx_offsetof (stx_btime)
2445#define STATX_OFFSET_ctime statx_offsetof (stx_ctime)
2446#define STATX_OFFSET_mtime statx_offsetof (stx_mtime)
2447
2448U32
2449stx_mask ()
2450 PROTOTYPE:
2451 ALIAS:
2452 stx_mask = STATX_OFFSET_mask
2453 stx_blksize = STATX_OFFSET_blksize
2454 stx_nlink = STATX_OFFSET_nlink
2455 stx_uid = STATX_OFFSET_uid
2456 stx_gid = STATX_OFFSET_gid
2457 stx_rdev_major = STATX_OFFSET_rdev_major
2458 stx_rdev_minor = STATX_OFFSET_rdev_minor
2459 stx_dev_major = STATX_OFFSET_dev_major
2460 stx_dev_minor = STATX_OFFSET_dev_minor
2461 CODE:
2462#if HAVE_STATX
2463 RETVAL = *(__u32 *)((char *)&stx + ix);
2464#else
2465 XSRETURN_UNDEF;
2466#endif
2467 OUTPUT:
2468 RETVAL
2469
2470VAL64
2471stx_attributes ()
2472 PROTOTYPE:
2473 ALIAS:
2474 stx_attributes = STATX_OFFSET_attributes
2475 stx_ino = STATX_OFFSET_ino
2476 stx_size = STATX_OFFSET_size
2477 stx_blocks = STATX_OFFSET_blocks
2478 stx_attributes_mask = STATX_OFFSET_attributes_mask
2479 CODE:
2480#if HAVE_STATX
2481 RETVAL = *(__u64 *)((char *)&stx + ix);
2482#else
2483 XSRETURN_UNDEF;
2484#endif
2485 OUTPUT:
2486 RETVAL
2487
2488NV
2489stx_atime ()
2490 PROTOTYPE:
2491 ALIAS:
2492 stx_atime = STATX_OFFSET_atime
2493 stx_btime = STATX_OFFSET_btime
2494 stx_ctime = STATX_OFFSET_ctime
2495 stx_mtime = STATX_OFFSET_mtime
2496 CODE:
2497#if HAVE_STATX
2498 struct statx_timestamp *ts = (struct statx_timestamp *)((char *)&stx + ix);
2499 RETVAL = ts->tv_sec + ts->tv_nsec * 1e-9;
2500#else
2501 XSRETURN_UNDEF;
2502#endif
2503 OUTPUT:
2504 RETVAL
2505
2506VAL64
2507stx_atimesec ()
2508 PROTOTYPE:
2509 ALIAS:
2510 stx_atimesec = STATX_OFFSET_atime
2511 stx_btimesec = STATX_OFFSET_btime
2512 stx_ctimesec = STATX_OFFSET_ctime
2513 stx_mtimesec = STATX_OFFSET_mtime
2514 CODE:
2515#if HAVE_STATX
2516 struct statx_timestamp *ts = (struct statx_timestamp *)((char *)&stx + ix);
2517 RETVAL = ts->tv_sec;
2518#else
2519 XSRETURN_UNDEF;
2520#endif
2521 OUTPUT:
2522 RETVAL
2523
2524U32
2525stx_atimensec ()
2526 PROTOTYPE:
2527 ALIAS:
2528 stx_atimensec = STATX_OFFSET_atime
2529 stx_btimensec = STATX_OFFSET_btime
2530 stx_ctimensec = STATX_OFFSET_ctime
2531 stx_mtimensec = STATX_OFFSET_mtime
2532 CODE:
2533#if HAVE_STATX
2534 struct statx_timestamp *ts = (struct statx_timestamp *)((char *)&stx + ix);
2535 RETVAL = ts->tv_nsec;
2536#else
2537 RETVAL = 0;
2538#endif
2539 OUTPUT:
2540 RETVAL
2541
2542void
2543accept4 (aio_rfd rfh, SV *sockaddr, int salen, int flags)
2544 PPCODE:
2545{
2546 SV *retval;
2547#if HAVE_ACCEPT4
2548 socklen_t salen_ = salen ? salen + 1 : 0;
2549
2550 if (salen)
2551 {
2552 sv_upgrade (sockaddr, SVt_PV);
2553 sv_grow (sockaddr, salen_);
2554 }
2555
2556 int res = accept4 (rfh, salen ? (struct sockaddr *)SvPVX (sockaddr) : 0, salen ? &salen_ : 0, flags);
2557
2558 retval = newmortalFH (res, O_RDWR);
2559
2560 if (res >= 0 && salen > 0)
2561 {
2562 if (salen_ > salen + 1)
2563 salen_ = salen + 1;
2564
2565 SvPOK_only (sockaddr);
2566 SvCUR_set (sockaddr, salen_);
2567 }
2568#else
2569 errno = ENOSYS;
2570 retval = &PL_sv_undef;
2571#endif
2572 XPUSHs (retval);
2573}
2574
2575ssize_t
2300splice (aio_rfd rfh, SV *off_in, aio_wfd wfh, SV *off_out, size_t length, unsigned int flags) 2576splice (aio_rfd rfh, SV *off_in, aio_wfd wfh, SV *off_out, size_t length, unsigned int flags)
2301 CODE: 2577 CODE:
2302{ 2578{
2303#if HAVE_LINUX_SPLICE 2579#if HAVE_LINUX_SPLICE
2304 loff_t off_in_, off_out_; 2580 loff_t off_in_, off_out_;
2312#endif 2588#endif
2313} 2589}
2314 OUTPUT: 2590 OUTPUT:
2315 RETVAL 2591 RETVAL
2316 2592
2317int 2593ssize_t
2318tee (aio_rfd rfh, aio_wfd wfh, size_t length, unsigned int flags) 2594tee (aio_rfd rfh, aio_wfd wfh, size_t length, unsigned int flags)
2319 CODE: 2595 CODE:
2320#if HAVE_LINUX_SPLICE 2596#if HAVE_LINUX_SPLICE
2321 RETVAL = tee (rfh, wfh, length, flags); 2597 RETVAL = tee (rfh, wfh, length, flags);
2322#else 2598#else
2365 PUSHs (newmortalFH (fd[1], O_WRONLY)); 2641 PUSHs (newmortalFH (fd[1], O_WRONLY));
2366 } 2642 }
2367} 2643}
2368 2644
2369void 2645void
2646pidfd_open (int pid, unsigned int flags = 0)
2647 PPCODE:
2648{
2649 /*GENDEF0_SYSCALL(pidfd_open,434)*/
2650 int fd = syscall (SYS_pidfd_open, pid, flags);
2651 XPUSHs (newmortalFH (fd, O_RDWR));
2652}
2653
2654int
2655pidfd_send_signal (SV *pidfh, int sig, SV *siginfo = &PL_sv_undef, unsigned int flags = 0)
2656 PPCODE:
2657{
2658 int res;
2659 siginfo_t si = { 0 };
2660
2661 if (SvOK (siginfo))
2662 {
2663 HV *hv;
2664 SV **svp;
2665
2666 if (!SvROK (siginfo) || SvTYPE (SvRV (siginfo)) != SVt_PVHV)
2667 croak ("siginfo argument must be a hashref code, pid, uid and value_int or value_ptr members, caught");
2668
2669 hv = (HV *)SvRV (siginfo);
2670
2671 if ((svp = hv_fetchs (hv, "code" , 0))) si.si_code = SvIV (*svp);
2672 if ((svp = hv_fetchs (hv, "pid" , 0))) si.si_pid = SvIV (*svp);
2673 if ((svp = hv_fetchs (hv, "uid" , 0))) si.si_uid = SvIV (*svp);
2674 if ((svp = hv_fetchs (hv, "value_int", 0))) si.si_value.sival_int = SvIV (*svp);
2675 if ((svp = hv_fetchs (hv, "value_ptr", 0))) si.si_value.sival_ptr = (void *)SvIV (*svp);
2676 }
2677
2678 /*GENDEF0_SYSCALL(pidfd_send_signal,424)*/
2679 res = syscall (SYS_pidfd_send_signal, s_fileno_croak (pidfh, 0), sig, SvOK (siginfo) ? &si : 0, flags);
2680
2681 XPUSHs (sv_2mortal (newSViv (res)));
2682}
2683
2684void
2685pidfd_getfd (SV *pidfh, int targetfd, unsigned int flags = 0)
2686 PPCODE:
2687{
2688 /*GENDEF0_SYSCALL(pidfd_getfd,438)*/
2689 int fd = syscall (SYS_pidfd_getfd, s_fileno_croak (pidfh, 0), targetfd, flags);
2690 XPUSHs (newmortalFH (fd, O_RDWR));
2691}
2692
2693void
2370eventfd (unsigned int initval = 0, int flags = 0) 2694eventfd (unsigned int initval = 0, int flags = 0)
2371 PPCODE: 2695 PPCODE:
2372{ 2696{
2373 int fd; 2697 int fd;
2374#if HAVE_EVENTFD 2698#if HAVE_EVENTFD
2437#else 2761#else
2438 errno = ENOSYS; 2762 errno = ENOSYS;
2439#endif 2763#endif
2440} 2764}
2441 2765
2766void
2767memfd_create (SV8 *pathname, int flags = 0)
2768 PPCODE:
2769{
2770 int fd;
2771#if HAVE_MEMFD_CREATE
2772 fd = memfd_create (SvPVbyte_nolen (pathname), flags);
2773#else
2774 fd = (errno = ENOSYS, -1);
2775#endif
2776
2777 XPUSHs (newmortalFH (fd, O_RDWR));
2778}
2779
2442UV 2780UV
2443get_fdlimit () 2781get_fdlimit ()
2444 CODE: 2782 CODE:
2445#if HAVE_RLIMITS 2783#if HAVE_RLIMITS
2446 struct rlimit rl; 2784 struct rlimit rl;
2479 if (0 == setrlimit (RLIMIT_NOFILE, &rl)) 2817 if (0 == setrlimit (RLIMIT_NOFILE, &rl))
2480 XSRETURN_YES; 2818 XSRETURN_YES;
2481 2819
2482 if (errno == EPERM) 2820 if (errno == EPERM)
2483 { 2821 {
2484 /* setlimit failed with EPERM - maybe we can't raise the hardlimit, or maybe */ 2822 /* setrlimit failed with EPERM - maybe we can't raise the hardlimit, or maybe */
2485 /* our limit overflows a system-wide limit */ 2823 /* our limit overflows a system-wide limit */
2486 /* try an adaptive algorithm, but do not lower the hardlimit */ 2824 /* try an adaptive algorithm, but do not lower the hardlimit */
2487 rl.rlim_max = 0; 2825 rl.rlim_max = 0;
2488 for (bit = 0x40000000U; bit; bit >>= 1) 2826 for (bit = 0x40000000U; bit; bit >>= 1)
2489 { 2827 {
2490 rl.rlim_max |= bit; 2828 rl.rlim_max |= bit;
2491 rl.rlim_cur = rl.rlim_max; 2829 rl.rlim_cur = rl.rlim_max;
2492 2830
2493 /* nevr decrease the hard limit */ 2831 /* never decrease the hard limit */
2494 if (rl.rlim_max < orig_rlim_max) 2832 if (rl.rlim_max < orig_rlim_max)
2495 break; 2833 break;
2496 2834
2497 if (0 != setrlimit (RLIMIT_NOFILE, &rl)) 2835 if (0 != setrlimit (RLIMIT_NOFILE, &rl))
2498 rl.rlim_max &= ~bit; /* too high, remove bit again */ 2836 rl.rlim_max &= ~bit; /* too high, remove bit again */

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