/*------------------------------------------------------------------------- * * fd.c-- * Virtual file descriptor code. * * Copyright (c) 1994, Regents of the University of California * * IDENTIFICATION * $Id: fd.c,v 1.33 1998/09/01 03:25:06 momjian Exp $ * * NOTES: * * This code manages a cache of 'virtual' file descriptors (VFDs). * The server opens many file descriptors for a variety of reasons, * including base tables, scratch files (e.g., sort and hash spool * files), and random calls to C library routines like system(3); it * is quite easy to exceed system limits on the number of open files a * single process can have. (This is around 256 on many modern * operating systems, but can be as low as 32 on others.) * * VFDs are managed as an LRU pool, with actual OS file descriptors * being opened and closed as needed. Obviously, if a routine is * opened using these interfaces, all subsequent operations must also * be through these interfaces (the File type is not a real file * descriptor). * * For this scheme to work, most (if not all) routines throughout the * server should use these interfaces instead of calling the C library * routines (e.g., open(2) and fopen(3)) themselves. Otherwise, we * may find ourselves short of real file descriptors anyway. * * This file used to contain a bunch of stuff to support RAID levels 0 * (jbod), 1 (duplex) and 5 (xor parity). That stuff is all gone * because the parallel query processing code that called it is all * gone. If you really need it you could get it from the original * POSTGRES source. *------------------------------------------------------------------------- */ #include #include #include #include #include #include #include #include #include #include "postgres.h" #include "miscadmin.h" /* for DataDir */ #include "utils/palloc.h" #include "storage/fd.h" /* * Problem: Postgres does a system(ld...) to do dynamic loading. This * will open several extra files in addition to those used by * Postgres. We need to do this hack to guarentee that there are file * descriptors free for ld to use. * * The current solution is to limit the number of files descriptors * that this code will allocated at one time. (it leaves * RESERVE_FOR_LD free). * * (Even though most dynamic loaders now use dlopen(3) or the * equivalent, the OS must still open several files to perform the * dynamic loading. Keep this here.) */ #ifndef RESERVE_FOR_LD #define RESERVE_FOR_LD 10 #endif /* * We need to ensure that we have at least some file descriptors * available to postgreSQL after we've reserved the ones for LD, * so we set that value here. * * I think 10 is an apropriate value so that's what it'll be * for now. */ #ifndef FD_MINFREE #define FD_MINFREE 10 #endif /* Debugging.... */ #ifdef FDDEBUG #define DO_DB(A) A #else #define DO_DB(A) /* A */ #endif #define VFD_CLOSED -1 #include "storage/fd.h" #include "utils/elog.h" #define FileIsNotOpen(file) (VfdCache[file].fd == VFD_CLOSED) typedef struct vfd { signed short fd; unsigned short fdstate; #define FD_DIRTY (1 << 0) File nextFree; File lruMoreRecently; File lruLessRecently; long seekPos; char *fileName; int fileFlags; int fileMode; } Vfd; /* * Virtual File Descriptor array pointer and size. This grows as * needed. */ static Vfd *VfdCache; static Size SizeVfdCache = 0; /* * Number of file descriptors known to be open. */ static int nfile = 0; /* * Private Routines * * Delete - delete a file from the Lru ring * LruDelete - remove a file from the Lru ring and close * Insert - put a file at the front of the Lru ring * LruInsert - put a file at the front of the Lru ring and open * AssertLruRoom - make sure that there is a free fd. * * the Last Recently Used ring is a doubly linked list that begins and * ends on element zero. Element zero is special -- it doesn't represent * a file and its "fd" field always == VFD_CLOSED. Element zero is just an * anchor that shows us the beginning/end of the ring. * * example: * * /--less----\ /---------\ * v \ v \ * #0 --more---> LeastRecentlyUsed --more-\ \ * ^\ | | * \\less--> MostRecentlyUsedFile <---/ | * \more---/ \--less--/ * * AllocateVfd - grab a free (or new) file record (from VfdArray) * FreeVfd - free a file record * */ static void Delete(File file); static void LruDelete(File file); static void Insert(File file); static int LruInsert(File file); static void AssertLruRoom(void); static File AllocateVfd(void); static void FreeVfd(File file); static int FileAccess(File file); static File fileNameOpenFile(FileName fileName, int fileFlags, int fileMode); static char *filepath(char *filename); static long pg_nofile(void); int pg_fsync(int fd) { extern int fsyncOff; return fsyncOff ? 0 : fsync(fd); } #define fsync pg_fsync long pg_nofile(void) { static long no_files = 0; if (no_files == 0) { #ifndef HAVE_SYSCONF no_files = (long) NOFILE; #else no_files = sysconf(_SC_OPEN_MAX); if (no_files == -1) { elog(DEBUG, "pg_nofile: Unable to get _SC_OPEN_MAX using sysconf() using (%d)", NOFILE); no_files = (long) NOFILE; } #endif } if ((no_files - RESERVE_FOR_LD) < FD_MINFREE) elog(FATAL, "pg_nofile: insufficient File Descriptors in postmaster to start backend (%ld).\n" " O/S allows %ld, Postmaster reserves %d, We need %d (MIN) after that.", no_files - RESERVE_FOR_LD, no_files, RESERVE_FOR_LD, FD_MINFREE); return no_files - RESERVE_FOR_LD; } #if defined(FDDEBUG) static void _dump_lru() { int mru = VfdCache[0].lruLessRecently; Vfd *vfdP = &VfdCache[mru]; char buf[2048]; sprintf(buf, "LRU: MOST %d ", mru); while (mru != 0) { mru = vfdP->lruLessRecently; vfdP = &VfdCache[mru]; sprintf(buf + strlen(buf), "%d ", mru); } sprintf(buf + strlen(buf), "LEAST"); elog(DEBUG, buf); } #endif /* FDDEBUG */ static void Delete(File file) { Vfd *fileP; DO_DB(elog(DEBUG, "Delete %d (%s)", file, VfdCache[file].fileName)); DO_DB(_dump_lru()); Assert(file != 0); fileP = &VfdCache[file]; VfdCache[fileP->lruLessRecently].lruMoreRecently = VfdCache[file].lruMoreRecently; VfdCache[fileP->lruMoreRecently].lruLessRecently = VfdCache[file].lruLessRecently; DO_DB(_dump_lru()); } static void LruDelete(File file) { Vfd *fileP; int returnValue; DO_DB(elog(DEBUG, "LruDelete %d (%s)", file, VfdCache[file].fileName)); Assert(file != 0); fileP = &VfdCache[file]; /* delete the vfd record from the LRU ring */ Delete(file); /* save the seek position */ fileP->seekPos = (long) lseek(fileP->fd, 0L, SEEK_CUR); Assert(fileP->seekPos != -1); /* if we have written to the file, sync it */ if (fileP->fdstate & FD_DIRTY) { returnValue = fsync(fileP->fd); Assert(returnValue != -1); fileP->fdstate &= ~FD_DIRTY; } /* close the file */ returnValue = close(fileP->fd); Assert(returnValue != -1); --nfile; fileP->fd = VFD_CLOSED; } static void Insert(File file) { Vfd *vfdP; DO_DB(elog(DEBUG, "Insert %d (%s)", file, VfdCache[file].fileName)); DO_DB(_dump_lru()); vfdP = &VfdCache[file]; vfdP->lruMoreRecently = 0; vfdP->lruLessRecently = VfdCache[0].lruLessRecently; VfdCache[0].lruLessRecently = file; VfdCache[vfdP->lruLessRecently].lruMoreRecently = file; DO_DB(_dump_lru()); } static int LruInsert(File file) { Vfd *vfdP; int returnValue; DO_DB(elog(DEBUG, "LruInsert %d (%s)", file, VfdCache[file].fileName)); vfdP = &VfdCache[file]; if (FileIsNotOpen(file)) { if (nfile >= pg_nofile()) AssertLruRoom(); /* * Note, we check to see if there's a free file descriptor before * attempting to open a file. One general way to do this is to try * to open the null device which everybody should be able to open * all the time. If this fails, we assume this is because there's * no free file descriptors. */ tryAgain: vfdP->fd = open(vfdP->fileName, vfdP->fileFlags, vfdP->fileMode); if (vfdP->fd < 0 && (errno == EMFILE || errno == ENFILE)) { errno = 0; AssertLruRoom(); goto tryAgain; } if (vfdP->fd < 0) { DO_DB(elog(DEBUG, "RE_OPEN FAILED: %d", errno)); return vfdP->fd; } else { DO_DB(elog(DEBUG, "RE_OPEN SUCCESS")); ++nfile; } /* seek to the right position */ if (vfdP->seekPos != 0L) { returnValue = lseek(vfdP->fd, vfdP->seekPos, SEEK_SET); Assert(returnValue != -1); } /* init state on open */ vfdP->fdstate = 0x0; } /* * put it at the head of the Lru ring */ Insert(file); return 0; } static void AssertLruRoom() { DO_DB(elog(DEBUG, "AssertLruRoom. Opened %d", nfile)); if (nfile <= 0) elog(FATAL, "AssertLruRoom: No opened files - no one can be closed"); /* * There are opened files and so there should be at least one used vfd * in the ring. */ Assert(VfdCache[0].lruMoreRecently != 0); LruDelete(VfdCache[0].lruMoreRecently); } static File AllocateVfd() { Index i; File file; DO_DB(elog(DEBUG, "AllocateVfd. Size %d", SizeVfdCache)); if (SizeVfdCache == 0) { /* initialize */ VfdCache = (Vfd *) malloc(sizeof(Vfd)); VfdCache->nextFree = 0; VfdCache->lruMoreRecently = 0; VfdCache->lruLessRecently = 0; VfdCache->fd = VFD_CLOSED; VfdCache->fdstate = 0x0; SizeVfdCache = 1; } if (VfdCache[0].nextFree == 0) { /* * The free list is empty so it is time to increase the size of * the array */ VfdCache = (Vfd *) realloc(VfdCache, sizeof(Vfd) * SizeVfdCache * 2); Assert(VfdCache != NULL); /* * Set up the free list for the new entries */ for (i = SizeVfdCache; i < 2 * SizeVfdCache; i++) { MemSet((char *) &(VfdCache[i]), 0, sizeof(VfdCache[0])); VfdCache[i].nextFree = i + 1; VfdCache[i].fd = VFD_CLOSED; } /* * Element 0 is the first and last element of the free list */ VfdCache[0].nextFree = SizeVfdCache; VfdCache[2 * SizeVfdCache - 1].nextFree = 0; /* * Record the new size */ SizeVfdCache *= 2; } file = VfdCache[0].nextFree; VfdCache[0].nextFree = VfdCache[file].nextFree; return file; } static void FreeVfd(File file) { DO_DB(elog(DEBUG, "FreeVfd: %d (%s)", file, VfdCache[file].fileName)); VfdCache[file].nextFree = VfdCache[0].nextFree; VfdCache[0].nextFree = file; } /* filepath() * Open specified file name. * Fill in absolute path fields if necessary. * */ static char * filepath(char *filename) { char *buf; int len; /* Not an absolute path name? Then fill in with database path... */ if (*filename != SEP_CHAR) { len = strlen(DatabasePath) + strlen(filename) + 2; buf = (char *) palloc(len); sprintf(buf, "%s%c%s", DatabasePath, SEP_CHAR, filename); } else { buf = (char *) palloc(strlen(filename) + 1); strcpy(buf, filename); } #ifdef FILEDEBUG printf("filepath: path is %s\n", buf); #endif return buf; } static int FileAccess(File file) { int returnValue; DO_DB(elog(DEBUG, "FileAccess %d (%s)", file, VfdCache[file].fileName)); /* * Is the file open? If not, close the least recently used, then open * it and stick it at the head of the used ring */ if (FileIsNotOpen(file)) { returnValue = LruInsert(file); if (returnValue != 0) return returnValue; } else { /* * We now know that the file is open and that it is not the last * one accessed, so we need to more it to the head of the Lru * ring. */ Delete(file); Insert(file); } return 0; } /* * Called when we get a shared invalidation message on some relation. */ #ifdef NOT_USED void FileInvalidate(File file) { Assert(file > 0); if (!FileIsNotOpen(file)) LruDelete(file); } #endif /* VARARGS2 */ static File fileNameOpenFile(FileName fileName, int fileFlags, int fileMode) { File file; Vfd *vfdP; DO_DB(elog(DEBUG, "fileNameOpenFile: %s %x %o", fileName, fileFlags, fileMode)); file = AllocateVfd(); vfdP = &VfdCache[file]; if (nfile >= pg_nofile()) AssertLruRoom(); tryAgain: vfdP->fd = open(fileName, fileFlags, fileMode); if (vfdP->fd < 0 && (errno == EMFILE || errno == ENFILE)) { DO_DB(elog(DEBUG, "fileNameOpenFile: not enough descs, retry, er= %d", errno)); errno = 0; AssertLruRoom(); goto tryAgain; } vfdP->fdstate = 0x0; if (vfdP->fd < 0) { FreeVfd(file); return -1; } ++nfile; DO_DB(elog(DEBUG, "fileNameOpenFile: success %d", vfdP->fd)); Insert(file); if (fileName == NULL) elog(ERROR, "fileNameOpenFile: NULL fname"); vfdP->fileName = malloc(strlen(fileName) + 1); strcpy(vfdP->fileName, fileName); vfdP->fileFlags = fileFlags & ~(O_TRUNC | O_EXCL); vfdP->fileMode = fileMode; vfdP->seekPos = 0; return file; } /* * open a file in the database directory ($PGDATA/base/...) */ File FileNameOpenFile(FileName fileName, int fileFlags, int fileMode) { File fd; char *fname; fname = filepath(fileName); fd = fileNameOpenFile(fname, fileFlags, fileMode); pfree(fname); return fd; } /* * open a file in an arbitrary directory */ File PathNameOpenFile(FileName fileName, int fileFlags, int fileMode) { return fileNameOpenFile(fileName, fileFlags, fileMode); } void FileClose(File file) { int returnValue; DO_DB(elog(DEBUG, "FileClose: %d (%s)", file, VfdCache[file].fileName)); if (!FileIsNotOpen(file)) { /* remove the file from the lru ring */ Delete(file); /* if we did any writes, sync the file before closing */ if (VfdCache[file].fdstate & FD_DIRTY) { returnValue = fsync(VfdCache[file].fd); Assert(returnValue != -1); VfdCache[file].fdstate &= ~FD_DIRTY; } /* close the file */ returnValue = close(VfdCache[file].fd); Assert(returnValue != -1); --nfile; VfdCache[file].fd = VFD_CLOSED; } /* * Add the Vfd slot to the free list */ FreeVfd(file); /* * Free the filename string */ free(VfdCache[file].fileName); } void FileUnlink(File file) { int returnValue; DO_DB(elog(DEBUG, "FileUnlink: %d (%s)", file, VfdCache[file].fileName)); if (!FileIsNotOpen(file)) { /* remove the file from the lru ring */ Delete(file); /* if we did any writes, sync the file before closing */ if (VfdCache[file].fdstate & FD_DIRTY) { returnValue = fsync(VfdCache[file].fd); Assert(returnValue != -1); VfdCache[file].fdstate &= ~FD_DIRTY; } /* close the file */ returnValue = close(VfdCache[file].fd); Assert(returnValue != -1); --nfile; VfdCache[file].fd = VFD_CLOSED; } /* add the Vfd slot to the free list */ FreeVfd(file); /* free the filename string */ unlink(VfdCache[file].fileName); free(VfdCache[file].fileName); } int FileRead(File file, char *buffer, int amount) { int returnCode; DO_DB(elog(DEBUG, "FileRead: %d (%s) %d %p", file, VfdCache[file].fileName, amount, buffer)); FileAccess(file); returnCode = read(VfdCache[file].fd, buffer, amount); if (returnCode > 0) VfdCache[file].seekPos += returnCode; return returnCode; } int FileWrite(File file, char *buffer, int amount) { int returnCode; DO_DB(elog(DEBUG, "FileWrite: %d (%s) %d %p", file, VfdCache[file].fileName, amount, buffer)); FileAccess(file); returnCode = write(VfdCache[file].fd, buffer, amount); if (returnCode > 0) { /* changed by Boris with Mao's advice */ VfdCache[file].seekPos += returnCode; } /* record the write */ VfdCache[file].fdstate |= FD_DIRTY; return returnCode; } long FileSeek(File file, long offset, int whence) { int returnCode; DO_DB(elog(DEBUG, "FileSeek: %d (%s) %ld %d", file, VfdCache[file].fileName, offset, whence)); if (FileIsNotOpen(file)) { switch (whence) { case SEEK_SET: VfdCache[file].seekPos = offset; return offset; case SEEK_CUR: VfdCache[file].seekPos = VfdCache[file].seekPos + offset; return VfdCache[file].seekPos; case SEEK_END: FileAccess(file); returnCode = VfdCache[file].seekPos = lseek(VfdCache[file].fd, offset, whence); return returnCode; default: elog(ERROR, "FileSeek: invalid whence: %d", whence); break; } } else { returnCode = VfdCache[file].seekPos = lseek(VfdCache[file].fd, offset, whence); return returnCode; } /* NOTREACHED */ return -1L; } /* * XXX not actually used but here for completeness */ #ifdef NOT_USED long FileTell(File file) { DO_DB(elog(DEBUG, "FileTell %d (%s)", file, VfdCache[file].fileName)); return VfdCache[file].seekPos; } #endif int FileTruncate(File file, int offset) { int returnCode; DO_DB(elog(DEBUG, "FileTruncate %d (%s)", file, VfdCache[file].fileName)); FileSync(file); FileAccess(file); returnCode = ftruncate(VfdCache[file].fd, offset); return returnCode; } int FileSync(File file) { int returnCode; /* * If the file isn't open, then we don't need to sync it; we always * sync files when we close them. Also, if we haven't done any writes * that we haven't already synced, we can ignore the request. */ if (VfdCache[file].fd < 0 || !(VfdCache[file].fdstate & FD_DIRTY)) returnCode = 0; else { returnCode = fsync(VfdCache[file].fd); VfdCache[file].fdstate &= ~FD_DIRTY; } return returnCode; } int FileNameUnlink(char *filename) { int retval; char *fname; fname = filepath(filename); retval = unlink(fname); pfree(fname); return retval; } /* * if we want to be sure that we have a real file descriptor available * (e.g., we want to know this in psort) we call AllocateFile to force * availability. when we are done we call FreeFile to deallocate the * descriptor. * * allocatedFiles keeps track of how many have been allocated so we * can give a warning if there are too few left. */ static int allocatedFiles = 0; FILE * AllocateFile(char *name, char *mode) { FILE *file; int fdleft; DO_DB(elog(DEBUG, "AllocateFile: Allocated %d.", allocatedFiles)); TryAgain: if ((file = fopen(name, mode)) == NULL) { if (errno == EMFILE || errno == ENFILE) { DO_DB(elog(DEBUG, "AllocateFile: not enough descs, retry, er= %d", errno)); errno = 0; AssertLruRoom(); goto TryAgain; } } else { ++allocatedFiles; fdleft = pg_nofile() - allocatedFiles; if (fdleft < 6) elog(NOTICE, "warning: few usable file descriptors left (%d)", fdleft); } return file; } /* * XXX What happens if FreeFile() is called without a previous * AllocateFile()? */ void FreeFile(FILE *file) { DO_DB(elog(DEBUG, "FreeFile: Allocated %d.", allocatedFiles)); Assert(allocatedFiles > 0); fclose(file); --allocatedFiles; } void closeAllVfds() { int i; Assert(FileIsNotOpen(0)); /* Make sure ring not corrupted */ for (i = 1; i < SizeVfdCache; i++) { if (!FileIsNotOpen(i)) LruDelete(i); } }