ref: 220dfb87f561f73ec1d154e08511332a660d1119
dir: /sys/src/ape/cmd/pax/buffer.c/
/* $Source: /u/mark/src/pax/RCS/buffer.c,v $ * * $Revision: 1.2 $ * * buffer.c - Buffer management functions * * DESCRIPTION * * These functions handle buffer manipulations for the archiving * formats. Functions are provided to get memory for buffers, * flush buffers, read and write buffers and de-allocate buffers. * Several housekeeping functions are provided as well to get some * information about how full buffers are, etc. * * AUTHOR * * Mark H. Colburn, NAPS International (mark@jhereg.mn.org) * * Sponsored by The USENIX Association for public distribution. * * Copyright (c) 1989 Mark H. Colburn. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice is duplicated in all such * forms and that any documentation, advertising materials, and other * materials related to such distribution and use acknowledge that the * software was developed * by Mark H. Colburn and sponsored by The * USENIX Association. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. * * $Log: buffer.c,v $ * Revision 1.2 89/02/12 10:04:02 mark * 1.2 release fixes * * Revision 1.1 88/12/23 18:02:01 mark * Initial revision * */ #ifndef lint static char *ident = "$Id: buffer.c,v 1.2 89/02/12 10:04:02 mark Exp $"; static char *copyright = "Copyright (c) 1989 Mark H. Colburn.\nAll rights reserved.\n"; #endif /* ! lint */ /* Headers */ #include "pax.h" /* Function Prototypes */ #ifdef __STDC__ static int ar_write(int, char *, uint); static void buf_pad(OFFSET); static int indata(int, OFFSET, char *); static void outflush(void); static void buf_use(uint); static int buf_in_avail(char **, uint *); static uint buf_out_avail(char **); #else /* !__STDC__ */ static int ar_write(); static void buf_pad(); static int indata(); static void outflush(); static void buf_use(); static int buf_in_avail(); static uint buf_out_avail(); #endif /* __STDC__ */ /* inentry - install a single archive entry * * DESCRIPTION * * Inentry reads an archive entry from the archive file and writes it * out the the named file. If we are in PASS mode during archive * processing, the pass() function is called, otherwise we will * extract from the archive file. * * Inentry actaully calls indata to process the actual data to the * file. * * PARAMETERS * * char *name - name of the file to extract from the archive * Stat *asb - stat block of the file to be extracted from the * archive. * * RETURNS * * Returns zero if successful, -1 otherwise. */ #ifdef __STDC__ int inentry(char *name, Stat *asb) #else int inentry(name, asb) char *name; Stat *asb; #endif { Link *linkp; int ifd; int ofd; time_t tstamp[2]; if ((ofd = openout(name, asb, linkp = linkfrom(name, asb), 0)) > 0) { if (asb->sb_size || linkp == (Link *)NULL || linkp->l_size == 0) { close(indata(ofd, asb->sb_size, name)); } else if ((ifd = open(linkp->l_path->p_name, O_RDONLY)) < 0) { warn(linkp->l_path->p_name, strerror()); } else { passdata(linkp->l_path->p_name, ifd, name, ofd); close(ifd); close(ofd); } } else { return(buf_skip((OFFSET) asb->sb_size) >= 0); } tstamp[0] = (!f_pass && f_access_time) ? asb->sb_atime : time((time_t *) 0); tstamp[1] = f_mtime ? asb->sb_mtime : time((time_t *) 0); utime(name, tstamp); return (0); } /* outdata - write archive data * * DESCRIPTION * * Outdata transfers data from the named file to the archive buffer. * It knows about the file padding which is required by tar, but no * by cpio. Outdata continues after file read errors, padding with * null characters if neccessary. Closes the input file descriptor * when finished. * * PARAMETERS * * int fd - file descriptor of file to read data from * char *name - name of file * OFFSET size - size of the file * */ #ifdef __STDC__ void outdata(int fd, char *name, OFFSET size) #else void outdata(fd, name, size) int fd; char *name; OFFSET size; #endif { uint chunk; int got; int oops; uint avail; int pad; char *buf; oops = got = 0; if (pad = (size % BLOCKSIZE)) { pad = (BLOCKSIZE - pad); } while (size) { avail = buf_out_avail(&buf); size -= (chunk = size < avail ? (uint) size : avail); if (oops == 0 && (got = read(fd, buf, (unsigned int) chunk)) < 0) { oops = -1; warn(name, strerror()); got = 0; } if (got < chunk) { if (oops == 0) { oops = -1; } warn(name, "Early EOF"); while (got < chunk) { buf[got++] = '\0'; } } buf_use(chunk); } close(fd); if (ar_format == TAR) { buf_pad((OFFSET) pad); } } /* write_eot - write the end of archive record(s) * * DESCRIPTION * * Write out an End-Of-Tape record. We actually zero at least one * record, through the end of the block. Old tar writes garbage after * two zeroed records -- and PDtar used to. */ #ifdef __STDC__ void write_eot(void) #else void write_eot() #endif { OFFSET pad; char header[M_STRLEN + H_STRLEN + 1]; if (ar_format == TAR) { /* write out two zero blocks for trailer */ pad = 2 * BLOCKSIZE; } else { if (pad = (total + M_STRLEN + H_STRLEN + TRAILZ) % BLOCKSIZE) { pad = BLOCKSIZE - pad; } strcpy(header, M_ASCII); sprintf(header + M_STRLEN, H_PRINT, 0, 0, 0, 0, 0, 1, 0, (time_t) 0, TRAILZ, pad); outwrite(header, M_STRLEN + H_STRLEN); outwrite(TRAILER, TRAILZ); } buf_pad((OFFSET) pad); outflush(); } /* outwrite - write archive data * * DESCRIPTION * * Writes out data in the archive buffer to the archive file. The * buffer index and the total byte count are incremented by the number * of data bytes written. * * PARAMETERS * * char *idx - pointer to data to write * uint len - length of the data to write */ #ifdef __STDC__ void outwrite(char *idx, uint len) #else void outwrite(idx, len) char *idx; /* pointer to data to write */ uint len; /* length of data to write */ #endif { uint have; uint want; char *endx; endx = idx + len; while (want = endx - idx) { if (bufend - bufidx < 0) { fatal("Buffer overlow in out_write\n"); } if ((have = bufend - bufidx) == 0) { outflush(); } if (have > want) { have = want; } memcpy(bufidx, idx, (int) have); bufidx += have; idx += have; total += have; } } /* passdata - copy data to one file * * DESCRIPTION * * Copies a file from one place to another. Doesn't believe in input * file descriptor zero (see description of kludge in openin() comments). * Closes the provided output file descriptor. * * PARAMETERS * * char *from - input file name (old file) * int ifd - input file descriptor * char *to - output file name (new file) * int ofd - output file descriptor */ #ifdef __STDC__ void passdata(char *from, int ifd, char *to, int ofd) #else void passdata(from, ifd, to, ofd) char *from; int ifd; char *to; int ofd; #endif { int got; int sparse; char block[BUFSIZ]; if (ifd) { lseek(ifd, (OFFSET) 0, 0); sparse = 0; while ((got = read(ifd, block, sizeof(block))) > 0 && (sparse = ar_write(ofd, block, (uint) got)) >= 0) { total += got; } if (got) { warn(got < 0 ? from : to, strerror()); } else if (sparse > 0 && (lseek(ofd, (OFFSET)(-sparse), 1) < 0 || write(ofd, block, (uint) sparse) != sparse)) { warn(to, strerror()); } } close(ofd); } /* buf_allocate - get space for the I/O buffer * * DESCRIPTION * * buf_allocate allocates an I/O buffer using malloc. The resulting * buffer is used for all data buffering throughout the program. * Buf_allocate must be called prior to any use of the buffer or any * of the buffering calls. * * PARAMETERS * * int size - size of the I/O buffer to request * * ERRORS * * If an invalid size is given for a buffer or if a buffer of the * required size cannot be allocated, then the function prints out an * error message and returns a non-zero exit status to the calling * process, terminating the program. * */ #ifdef __STDC__ void buf_allocate(OFFSET size) #else void buf_allocate(size) OFFSET size; #endif { if (size <= 0) { fatal("invalid value for blocksize"); } if ((bufstart = malloc((unsigned) size)) == (char *)NULL) { fatal("Cannot allocate I/O buffer"); } bufend = bufidx = bufstart; bufend += size; } /* buf_skip - skip input archive data * * DESCRIPTION * * Buf_skip skips past archive data. It is used when the length of * the archive data is known, and we do not wish to process the data. * * PARAMETERS * * OFFSET len - number of bytes to skip * * RETURNS * * Returns zero under normal circumstances, -1 if unreadable data is * encountered. */ #ifdef __STDC__ int buf_skip(OFFSET len) #else int buf_skip(len) OFFSET len; #endif { uint chunk; int corrupt = 0; while (len) { if (bufend - bufidx < 0) { fatal("Buffer overlow in buf_skip\n"); } while ((chunk = bufend - bufidx) == 0) { corrupt |= ar_read(); } if (chunk > len) { chunk = len; } bufidx += chunk; len -= chunk; total += chunk; } return (corrupt); } /* buf_read - read a given number of characters from the input archive * * DESCRIPTION * * Reads len number of characters from the input archive and * stores them in the buffer pointed at by dst. * * PARAMETERS * * char *dst - pointer to buffer to store data into * uint len - length of data to read * * RETURNS * * Returns zero with valid data, -1 if unreadable portions were * replaced by null characters. */ #ifdef __STDC__ int buf_read(char *dst, uint len) #else int buf_read(dst, len) char *dst; uint len; #endif { int have; int want; int corrupt = 0; char *endx = dst + len; while (want = endx - dst) { if (bufend - bufidx < 0) { fatal("Buffer overlow in buf_read\n"); } while ((have = bufend - bufidx) == 0) { have = 0; corrupt |= ar_read(); } if (have > want) { have = want; } memcpy(dst, bufidx, have); bufidx += have; dst += have; total += have; } return (corrupt); } /* indata - install data from an archive * * DESCRIPTION * * Indata writes size bytes of data from the archive buffer to the output * file specified by fd. The filename which is being written, pointed * to by name is provided only for diagnostics. * * PARAMETERS * * int fd - output file descriptor * OFFSET size - number of bytes to write to output file * char *name - name of file which corresponds to fd * * RETURNS * * Returns given file descriptor. */ #ifdef __STDC__ static int indata(int fd, OFFSET size, char *name) #else static int indata(fd, size, name) int fd; OFFSET size; char *name; #endif { uint chunk; char *oops; int sparse; int corrupt; char *buf; uint avail; corrupt = sparse = 0; oops = (char *)NULL; while (size) { corrupt |= buf_in_avail(&buf, &avail); size -= (chunk = size < avail ? (uint) size : avail); if (oops == (char *)NULL && (sparse = ar_write(fd, buf, chunk)) < 0) { oops = strerror(); } buf_use(chunk); } if (corrupt) { warn(name, "Corrupt archive data"); } if (oops) { warn(name, oops); } else if (sparse > 0 && (lseek(fd, (OFFSET) - 1, 1) < 0 || write(fd, "", 1) != 1)) { warn(name, strerror()); } return (fd); } /* outflush - flush the output buffer * * DESCRIPTION * * The output buffer is written, if there is anything in it, to the * archive file. */ #ifdef __STDC__ static void outflush(void) #else static void outflush() #endif { char *buf; int got; uint len; /* if (bufidx - buf > 0) */ for (buf = bufstart; len = bufidx - buf;) { if ((got = write(archivefd, buf, MIN(len, blocksize))) > 0) { buf += got; } else if (got < 0) { next(AR_WRITE); } } bufend = (bufidx = bufstart) + blocksize; } /* ar_read - fill the archive buffer * * DESCRIPTION * * Remembers mid-buffer read failures and reports them the next time * through. Replaces unreadable data with null characters. Resets * the buffer pointers as appropriate. * * RETURNS * * Returns zero with valid data, -1 otherwise. */ #ifdef __STDC__ int ar_read(void) #else int ar_read() #endif { int got; static int failed; bufend = bufidx = bufstart; if (!failed) { if (areof) { if (total == 0) { fatal("No input"); } else { next(AR_READ); } } while (!failed && !areof && bufstart + blocksize - bufend >= blocksize) { if ((got = read(archivefd, bufend, (unsigned int) blocksize)) > 0) { bufend += got; } else if (got < 0) { failed = -1; warnarch(strerror(), (OFFSET) 0 - (bufend - bufidx)); } else { ++areof; } } } if (failed && bufend == bufstart) { failed = 0; for (got = 0; got < blocksize; ++got) { *bufend++ = '\0'; } return (-1); } return (0); } /* ar_write - write a filesystem block * * DESCRIPTION * * Writes len bytes of data data from the specified buffer to the * specified file. Seeks past sparse blocks. * * PARAMETERS * * int fd - file to write to * char *buf - buffer to get data from * uint len - number of bytes to transfer * * RETURNS * * Returns 0 if the block was written, the given length for a sparse * block or -1 if unsuccessful. */ #ifdef __STDC__ static int ar_write(int fd, char *buf, uint len) #else static int ar_write(fd, buf, len) int fd; char *buf; uint len; #endif { char *bidx; char *bend; bend = (bidx = buf) + len; while (bidx < bend) { if (*bidx++) { return (write(fd, buf, len) == len ? 0 : -1); } } return (lseek(fd, (OFFSET) len, 1) < 0 ? -1 : len); } /* buf_pad - pad the archive buffer * * DESCRIPTION * * Buf_pad writes len zero bytes to the archive buffer in order to * pad it. * * PARAMETERS * * OFFSET pad - number of zero bytes to pad * */ #ifdef __STDC__ static void buf_pad(OFFSET pad) #else static void buf_pad(pad) OFFSET pad; #endif { int idx; int have; while (pad) { if ((have = bufend - bufidx) > pad) { have = pad; } for (idx = 0; idx < have; ++idx) { *bufidx++ = '\0'; } total += have; pad -= have; if (bufend - bufidx == 0) { outflush(); } } } /* buf_use - allocate buffer space * * DESCRIPTION * * Buf_use marks space in the buffer as being used; advancing both the * buffer index (bufidx) and the total byte count (total). * * PARAMETERS * * uint len - Amount of space to allocate in the buffer */ #ifdef __STDC__ static void buf_use(uint len) #else static void buf_use(len) uint len; #endif { bufidx += len; total += len; } /* buf_in_avail - index available input data within the buffer * * DESCRIPTION * * Buf_in_avail fills the archive buffer, and points the bufp * parameter at the start of the data. The lenp parameter is * modified to contain the number of bytes which were read. * * PARAMETERS * * char **bufp - pointer to the buffer to read data into * uint *lenp - pointer to the number of bytes which were read * (returned to the caller) * * RETURNS * * Stores a pointer to the data and its length in given locations. * Returns zero with valid data, -1 if unreadable portions were * replaced with nulls. * * ERRORS * * If an error occurs in ar_read, the error code is returned to the * calling function. * */ #ifdef __STDC__ static int buf_in_avail(char **bufp, uint *lenp) #else static int buf_in_avail(bufp, lenp) char **bufp; uint *lenp; #endif { uint have; int corrupt = 0; while ((have = bufend - bufidx) == 0) { corrupt |= ar_read(); } *bufp = bufidx; *lenp = have; return (corrupt); } /* buf_out_avail - index buffer space for archive output * * DESCRIPTION * * Stores a buffer pointer at a given location. Returns the number * of bytes available. * * PARAMETERS * * char **bufp - pointer to the buffer which is to be stored * * RETURNS * * The number of bytes which are available in the buffer. * */ #ifdef __STDC__ static uint buf_out_avail(char **bufp) #else static uint buf_out_avail(bufp) char **bufp; #endif { int have; if (bufend - bufidx < 0) { fatal("Buffer overlow in buf_out_avail\n"); } if ((have = bufend - bufidx) == 0) { outflush(); } *bufp = bufidx; return (have); }