/*------------------------------------------------------------------------- * * buffile.c * Management of large buffered files, primarily temporary files. * * Copyright (c) 1994, Regents of the University of California * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/storage/file/buffile.c,v 1.1 1999/10/13 15:02:29 tgl Exp $ * * NOTES: * * BufFiles provide a very incomplete emulation of stdio atop virtual Files * (as managed by fd.c). Currently, we only support the buffered-I/O * aspect of stdio: a read or write of the low-level File occurs only * when the buffer is filled or emptied. This is an even bigger win * for virtual Files than for ordinary kernel files, since reducing the * frequency with which a virtual File is touched reduces "thrashing" * of opening/closing file descriptors. * * Note that BufFile structs are allocated with palloc(), and therefore * will go away automatically at transaction end. If the underlying * virtual File is made with OpenTemporaryFile, then all resources for * the file are certain to be cleaned up even if processing is aborted * by elog(ERROR). To avoid confusion, the caller should take care that * all calls for a single BufFile are made in the same palloc context. * * BufFile also supports temporary files that exceed the OS file size limit * (by opening multiple fd.c temporary files). This is an essential feature * for sorts and hashjoins on large amounts of data. It is possible to have * more than one BufFile reading/writing the same temp file, although the * caller is responsible for avoiding ill effects from buffer overlap when * this is done. *------------------------------------------------------------------------- */ #include #include "postgres.h" #include "storage/buffile.h" /* * The maximum safe file size is presumed to be RELSEG_SIZE * BLCKSZ. * Note we adhere to this limit whether or not LET_OS_MANAGE_FILESIZE * is defined, although md.c ignores it when that symbol is defined. */ #define MAX_PHYSICAL_FILESIZE (RELSEG_SIZE * BLCKSZ) /* * To handle multiple BufFiles on a single logical temp file, we use this * data structure representing a logical file (which can be made up of * multiple physical files to get around the OS file size limit). */ typedef struct LogicalFile { int refCount; /* number of BufFiles using me */ bool isTemp; /* can only add files if this is TRUE */ int numFiles; /* number of physical files in set */ /* all files except the last have length exactly MAX_PHYSICAL_FILESIZE */ File *files; /* palloc'd array with numFiles entries */ long *offsets; /* palloc'd array with numFiles entries */ /* offsets[i] is the current seek position of files[i]. We use this * to avoid making redundant FileSeek calls. */ } LogicalFile; /* * A single file buffer looks like this. */ struct BufFile { LogicalFile *logFile; /* the underlying LogicalFile */ bool dirty; /* does buffer need to be written? */ /* * "current pos" is position of start of buffer within LogicalFile. * Position as seen by user of BufFile is (curFile, curOffset + pos). */ int curFile; /* file index (0..n) part of current pos */ int curOffset; /* offset part of current pos */ int pos; /* next read/write position in buffer */ int nbytes; /* total # of valid bytes in buffer */ char buffer[BLCKSZ]; }; static LogicalFile *makeLogicalFile(File firstfile); static void extendLogicalFile(LogicalFile *file); static void deleteLogicalFile(LogicalFile *file); static void BufFileLoadBuffer(BufFile *file); static void BufFileDumpBuffer(BufFile *file); static int BufFileFlush(BufFile *file); /* * Create a LogicalFile with one component file and refcount 1. * NOTE: caller must set isTemp true if appropriate. */ static LogicalFile * makeLogicalFile(File firstfile) { LogicalFile *file = (LogicalFile *) palloc(sizeof(LogicalFile)); file->refCount = 1; file->isTemp = false; file->numFiles = 1; file->files = (File *) palloc(sizeof(File)); file->files[0] = firstfile; file->offsets = (long *) palloc(sizeof(long)); file->offsets[0] = 0L; return file; } /* * Add another component temp file. */ static void extendLogicalFile(LogicalFile *file) { File pfile; Assert(file->isTemp); pfile = OpenTemporaryFile(); Assert(pfile >= 0); file->files = (File *) repalloc(file->files, (file->numFiles+1) * sizeof(File)); file->offsets = (long *) repalloc(file->offsets, (file->numFiles+1) * sizeof(long)); file->files[file->numFiles] = pfile; file->offsets[file->numFiles] = 0L; file->numFiles++; } /* * Close and delete a LogicalFile when its refCount has gone to zero. */ static void deleteLogicalFile(LogicalFile *file) { int i; for (i = 0; i < file->numFiles; i++) FileClose(file->files[i]); pfree(file->files); pfree(file->offsets); pfree(file); } /* * Create a BufFile for a new temporary file (which will expand to become * multiple temporary files if more than MAX_PHYSICAL_FILESIZE bytes are * written to it). */ BufFile * BufFileCreateTemp(void) { BufFile *bfile = (BufFile *) palloc(sizeof(BufFile)); File pfile; LogicalFile *lfile; pfile = OpenTemporaryFile(); Assert(pfile >= 0); lfile = makeLogicalFile(pfile); lfile->isTemp = true; bfile->logFile = lfile; bfile->dirty = false; bfile->curFile = 0; bfile->curOffset = 0L; bfile->pos = 0; bfile->nbytes = 0; return bfile; } /* * Create a BufFile and attach it to an already-opened virtual File. * * This is comparable to fdopen() in stdio. This is the only way at present * to attach a BufFile to a non-temporary file. Note that BufFiles created * in this way CANNOT be expanded into multiple files. */ BufFile * BufFileCreate(File file) { BufFile *bfile = (BufFile *) palloc(sizeof(BufFile)); LogicalFile *lfile; lfile = makeLogicalFile(file); bfile->logFile = lfile; bfile->dirty = false; bfile->curFile = 0; bfile->curOffset = 0L; bfile->pos = 0; bfile->nbytes = 0; return bfile; } /* * Create an additional BufFile accessing the same underlying file as an * existing BufFile. This is useful for having multiple read/write access * positions in a single temporary file. Note the caller is responsible * for avoiding trouble due to overlapping buffer positions! (Caller may * assume that buffer size is BLCKSZ...) */ BufFile * BufFileReaccess(BufFile *file) { BufFile *bfile = (BufFile *) palloc(sizeof(BufFile)); bfile->logFile = file->logFile; bfile->logFile->refCount++; bfile->dirty = false; bfile->curFile = 0; bfile->curOffset = 0L; bfile->pos = 0; bfile->nbytes = 0; return bfile; } /* * Close a BufFile * * Like fclose(), this also implicitly FileCloses the underlying File. */ void BufFileClose(BufFile *file) { /* flush any unwritten data */ BufFileFlush(file); /* close the underlying (with delete if it's a temp file) */ if (--(file->logFile->refCount) <= 0) deleteLogicalFile(file->logFile); /* release the buffer space */ pfree(file); } /* BufFileLoadBuffer * * Load some data into buffer, if possible, starting from curOffset. * At call, must have dirty = false, pos and nbytes = 0. * On exit, nbytes is number of bytes loaded. */ static void BufFileLoadBuffer(BufFile *file) { LogicalFile *lfile = file->logFile; File thisfile; /* * Advance to next component file if necessary and possible. * * This path can only be taken if there is more than one component, * so it won't interfere with reading a non-temp file that is over * MAX_PHYSICAL_FILESIZE. */ if (file->curOffset >= MAX_PHYSICAL_FILESIZE && file->curFile+1 < lfile->numFiles) { file->curFile++; file->curOffset = 0L; } thisfile = lfile->files[file->curFile]; /* * May need to reposition physical file, if more than one BufFile * is using it. */ if (file->curOffset != lfile->offsets[file->curFile]) { if (FileSeek(thisfile, file->curOffset, SEEK_SET) != file->curOffset) return; /* seek failed, read nothing */ lfile->offsets[file->curFile] = file->curOffset; } file->nbytes = FileRead(thisfile, file->buffer, sizeof(file->buffer)); if (file->nbytes < 0) file->nbytes = 0; lfile->offsets[file->curFile] += file->nbytes; /* we choose not to advance curOffset here */ } /* BufFileDumpBuffer * * Dump buffer contents starting at curOffset. * At call, should have dirty = true, nbytes > 0. * On exit, dirty is cleared if successful write, and curOffset is advanced. */ static void BufFileDumpBuffer(BufFile *file) { LogicalFile *lfile = file->logFile; int wpos = 0; int bytestowrite; File thisfile; /* * Unlike BufFileLoadBuffer, we must dump the whole buffer even if * it crosses a component-file boundary; so we need a loop. */ while (wpos < file->nbytes) { /* * Advance to next component file if necessary and possible. */ if (file->curOffset >= MAX_PHYSICAL_FILESIZE && lfile->isTemp) { while (file->curFile+1 >= lfile->numFiles) extendLogicalFile(lfile); file->curFile++; file->curOffset = 0L; } /* * Enforce per-file size limit only for temp files, else just try * to write as much as asked... */ bytestowrite = file->nbytes - wpos; if (lfile->isTemp) { long availbytes = MAX_PHYSICAL_FILESIZE - file->curOffset; if ((long) bytestowrite > availbytes) bytestowrite = (int) availbytes; } thisfile = lfile->files[file->curFile]; /* * May need to reposition physical file, if more than one BufFile * is using it. */ if (file->curOffset != lfile->offsets[file->curFile]) { if (FileSeek(thisfile, file->curOffset, SEEK_SET) != file->curOffset) return; /* seek failed, give up */ lfile->offsets[file->curFile] = file->curOffset; } bytestowrite = FileWrite(thisfile, file->buffer, bytestowrite); if (bytestowrite <= 0) return; /* failed to write */ lfile->offsets[file->curFile] += bytestowrite; file->curOffset += bytestowrite; wpos += bytestowrite; } file->dirty = false; /* * At this point, curOffset has been advanced to the end of the buffer, * ie, its original value + nbytes. We need to make it point to the * logical file position, ie, original value + pos, in case that is less * (as could happen due to a small backwards seek in a dirty buffer!) */ file->curOffset -= (file->nbytes - file->pos); if (file->curOffset < 0) /* handle possible segment crossing */ { file->curFile--; Assert(file->curFile >= 0); file->curOffset += MAX_PHYSICAL_FILESIZE; } /* Now we can set the buffer empty without changing the logical position */ file->pos = 0; file->nbytes = 0; } /* BufFileRead * * Like fread() except we assume 1-byte element size. */ size_t BufFileRead(BufFile *file, void *ptr, size_t size) { size_t nread = 0; size_t nthistime; if (file->dirty) { if (BufFileFlush(file) != 0) return 0; /* could not flush... */ Assert(! file->dirty); } while (size > 0) { if (file->pos >= file->nbytes) { /* Try to load more data into buffer. */ file->curOffset += file->pos; file->pos = 0; file->nbytes = 0; BufFileLoadBuffer(file); if (file->nbytes <= 0) break; /* no more data available */ } nthistime = file->nbytes - file->pos; if (nthistime > size) nthistime = size; Assert(nthistime > 0); memcpy(ptr, file->buffer + file->pos, nthistime); file->pos += nthistime; ptr = (void *) ((char *) ptr + nthistime); size -= nthistime; nread += nthistime; } return nread; } /* BufFileWrite * * Like fwrite() except we assume 1-byte element size. */ size_t BufFileWrite(BufFile *file, void *ptr, size_t size) { size_t nwritten = 0; size_t nthistime; while (size > 0) { if (file->pos >= BLCKSZ) { /* Buffer full, dump it out */ if (file->dirty) { BufFileDumpBuffer(file); if (file->dirty) break; /* I/O error */ } else { /* Hmm, went directly from reading to writing? */ file->curOffset += file->pos; file->pos = 0; file->nbytes = 0; } } nthistime = BLCKSZ - file->pos; if (nthistime > size) nthistime = size; Assert(nthistime > 0); memcpy(file->buffer + file->pos, ptr, nthistime); file->dirty = true; file->pos += nthistime; if (file->nbytes < file->pos) file->nbytes = file->pos; ptr = (void *) ((char *) ptr + nthistime); size -= nthistime; nwritten += nthistime; } return nwritten; } /* BufFileFlush * * Like fflush() */ static int BufFileFlush(BufFile *file) { if (file->dirty) { BufFileDumpBuffer(file); if (file->dirty) return EOF; } return 0; } /* BufFileSeek * * Like fseek(). Result is 0 if OK, EOF if not. */ int BufFileSeek(BufFile *file, int fileno, long offset, int whence) { int newFile; long newOffset; switch (whence) { case SEEK_SET: if (fileno < 0 || fileno >= file->logFile->numFiles || offset < 0) return EOF; newFile = fileno; newOffset = offset; break; case SEEK_CUR: /* * Relative seek considers only the signed offset, ignoring fileno. * Note that large offsets (> 1 gig) risk overflow. */ newFile = file->curFile; newOffset = (file->curOffset + file->pos) + offset; break; #ifdef NOT_USED case SEEK_END: /* could be implemented, not needed currently */ break; #endif default: elog(ERROR, "BufFileSeek: invalid whence: %d", whence); return EOF; } while (newOffset < 0) { if (--newFile < 0) return EOF; newOffset += MAX_PHYSICAL_FILESIZE; } if (file->logFile->isTemp) { while (newOffset > MAX_PHYSICAL_FILESIZE) { if (++newFile >= file->logFile->numFiles) return EOF; newOffset -= MAX_PHYSICAL_FILESIZE; } } if (newFile == file->curFile && newOffset >= file->curOffset && newOffset <= file->curOffset + file->nbytes) { /* * Seek is to a point within existing buffer; we can just adjust * pos-within-buffer, without flushing buffer. Note this is OK * whether reading or writing, but buffer remains dirty if we * were writing. */ file->pos = (int) (newOffset - file->curOffset); return 0; } /* Otherwise, must reposition buffer, so flush any dirty data */ if (BufFileFlush(file) != 0) return EOF; file->curFile = newFile; file->curOffset = newOffset; file->pos = 0; file->nbytes = 0; return 0; } extern void BufFileTell(BufFile *file, int *fileno, long *offset) { *fileno = file->curFile; *offset = file->curOffset + file->pos; }