1 /*
   2  * gzlog.c
   3  * Copyright (C) 2004, 2008, 2012 Mark Adler, all rights reserved
   4  * For conditions of distribution and use, see copyright notice in gzlog.h
   5  * version 2.2, 14 Aug 2012
   6  */
   7 
   8 /*
   9    gzlog provides a mechanism for frequently appending short strings to a gzip
  10    file that is efficient both in execution time and compression ratio.  The
  11    strategy is to write the short strings in an uncompressed form to the end of
  12    the gzip file, only compressing when the amount of uncompressed data has
  13    reached a given threshold.
  14 
  15    gzlog also provides protection against interruptions in the process due to
  16    system crashes.  The status of the operation is recorded in an extra field
  17    in the gzip file, and is only updated once the gzip file is brought to a
  18    valid state.  The last data to be appended or compressed is saved in an
  19    auxiliary file, so that if the operation is interrupted, it can be completed
  20    the next time an append operation is attempted.
  21 
  22    gzlog maintains another auxiliary file with the last 32K of data from the
  23    compressed portion, which is preloaded for the compression of the subsequent
  24    data.  This minimizes the impact to the compression ratio of appending.
  25  */
  26 
  27 /*
  28    Operations Concept:
  29 
  30    Files (log name "foo"):
  31    foo.gz -- gzip file with the complete log
  32    foo.add -- last message to append or last data to compress
  33    foo.dict -- dictionary of the last 32K of data for next compression
  34    foo.temp -- temporary dictionary file for compression after this one
  35    foo.lock -- lock file for reading and writing the other files
  36    foo.repairs -- log file for log file recovery operations (not compressed)
  37 
  38    gzip file structure:
  39    - fixed-length (no file name) header with extra field (see below)
  40    - compressed data ending initially with empty stored block
  41    - uncompressed data filling out originally empty stored block and
  42      subsequent stored blocks as needed (16K max each)
  43    - gzip trailer
  44    - no junk at end (no other gzip streams)
  45 
  46    When appending data, the information in the first three items above plus the
  47    foo.add file are sufficient to recover an interrupted append operation.  The
  48    extra field has the necessary information to restore the start of the last
  49    stored block and determine where to append the data in the foo.add file, as
  50    well as the crc and length of the gzip data before the append operation.
  51 
  52    The foo.add file is created before the gzip file is marked for append, and
  53    deleted after the gzip file is marked as complete.  So if the append
  54    operation is interrupted, the data to add will still be there.  If due to
  55    some external force, the foo.add file gets deleted between when the append
  56    operation was interrupted and when recovery is attempted, the gzip file will
  57    still be restored, but without the appended data.
  58 
  59    When compressing data, the information in the first two items above plus the
  60    foo.add file are sufficient to recover an interrupted compress operation.
  61    The extra field has the necessary information to find the end of the
  62    compressed data, and contains both the crc and length of just the compressed
  63    data and of the complete set of data including the contents of the foo.add
  64    file.
  65 
  66    Again, the foo.add file is maintained during the compress operation in case
  67    of an interruption.  If in the unlikely event the foo.add file with the data
  68    to be compressed is missing due to some external force, a gzip file with
  69    just the previous compressed data will be reconstructed.  In this case, all
  70    of the data that was to be compressed is lost (approximately one megabyte).
  71    This will not occur if all that happened was an interruption of the compress
  72    operation.
  73 
  74    The third state that is marked is the replacement of the old dictionary with
  75    the new dictionary after a compress operation.  Once compression is
  76    complete, the gzip file is marked as being in the replace state.  This
  77    completes the gzip file, so an interrupt after being so marked does not
  78    result in recompression.  Then the dictionary file is replaced, and the gzip
  79    file is marked as completed.  This state prevents the possibility of
  80    restarting compression with the wrong dictionary file.
  81 
  82    All three operations are wrapped by a lock/unlock procedure.  In order to
  83    gain exclusive access to the log files, first a foo.lock file must be
  84    exclusively created.  When all operations are complete, the lock is
  85    released by deleting the foo.lock file.  If when attempting to create the
  86    lock file, it already exists and the modify time of the lock file is more
  87    than five minutes old (set by the PATIENCE define below), then the old
  88    lock file is considered stale and deleted, and the exclusive creation of
  89    the lock file is retried.  To assure that there are no false assessments
  90    of the staleness of the lock file, the operations periodically touch the
  91    lock file to update the modified date.
  92 
  93    Following is the definition of the extra field with all of the information
  94    required to enable the above append and compress operations and their
  95    recovery if interrupted.  Multi-byte values are stored little endian
  96    (consistent with the gzip format).  File pointers are eight bytes long.
  97    The crc's and lengths for the gzip trailer are four bytes long.  (Note that
  98    the length at the end of a gzip file is used for error checking only, and
  99    for large files is actually the length modulo 2^32.)  The stored block
 100    length is two bytes long.  The gzip extra field two-byte identification is
 101    "ap" for append.  It is assumed that writing the extra field to the file is
 102    an "atomic" operation.  That is, either all of the extra field is written
 103    to the file, or none of it is, if the operation is interrupted right at the
 104    point of updating the extra field.  This is a reasonable assumption, since
 105    the extra field is within the first 52 bytes of the file, which is smaller
 106    than any expected block size for a mass storage device (usually 512 bytes or
 107    larger).
 108 
 109    Extra field (35 bytes):
 110    - Pointer to first stored block length -- this points to the two-byte length
 111      of the first stored block, which is followed by the two-byte, one's
 112      complement of that length.  The stored block length is preceded by the
 113      three-bit header of the stored block, which is the actual start of the
 114      stored block in the deflate format.  See the bit offset field below.
 115    - Pointer to the last stored block length.  This is the same as above, but
 116      for the last stored block of the uncompressed data in the gzip file.
 117      Initially this is the same as the first stored block length pointer.
 118      When the stored block gets to 16K (see the MAX_STORE define), then a new
 119      stored block as added, at which point the last stored block length pointer
 120      is different from the first stored block length pointer.  When they are
 121      different, the first bit of the last stored block header is eight bits, or
 122      one byte back from the block length.
 123    - Compressed data crc and length.  This is the crc and length of the data
 124      that is in the compressed portion of the deflate stream.  These are used
 125      only in the event that the foo.add file containing the data to compress is
 126      lost after a compress operation is interrupted.
 127    - Total data crc and length.  This is the crc and length of all of the data
 128      stored in the gzip file, compressed and uncompressed.  It is used to
 129      reconstruct the gzip trailer when compressing, as well as when recovering
 130      interrupted operations.
 131    - Final stored block length.  This is used to quickly find where to append,
 132      and allows the restoration of the original final stored block state when
 133      an append operation is interrupted.
 134    - First stored block start as the number of bits back from the final stored
 135      block first length byte.  This value is in the range of 3..10, and is
 136      stored as the low three bits of the final byte of the extra field after
 137      subtracting three (0..7).  This allows the last-block bit of the stored
 138      block header to be updated when a new stored block is added, for the case
 139      when the first stored block and the last stored block are the same.  (When
 140      they are different, the numbers of bits back is known to be eight.)  This
 141      also allows for new compressed data to be appended to the old compressed
 142      data in the compress operation, overwriting the previous first stored
 143      block, or for the compressed data to be terminated and a valid gzip file
 144      reconstructed on the off chance that a compression operation was
 145      interrupted and the data to compress in the foo.add file was deleted.
 146    - The operation in process.  This is the next two bits in the last byte (the
 147      bits under the mask 0x18).  The are interpreted as 0: nothing in process,
 148      1: append in process, 2: compress in process, 3: replace in process.
 149    - The top three bits of the last byte in the extra field are reserved and
 150      are currently set to zero.
 151 
 152    Main procedure:
 153    - Exclusively create the foo.lock file using the O_CREAT and O_EXCL modes of
 154      the system open() call.  If the modify time of an existing lock file is
 155      more than PATIENCE seconds old, then the lock file is deleted and the
 156      exclusive create is retried.
 157    - Load the extra field from the foo.gz file, and see if an operation was in
 158      progress but not completed.  If so, apply the recovery procedure below.
 159    - Perform the append procedure with the provided data.
 160    - If the uncompressed data in the foo.gz file is 1MB or more, apply the
 161      compress procedure.
 162    - Delete the foo.lock file.
 163 
 164    Append procedure:
 165    - Put what to append in the foo.add file so that the operation can be
 166      restarted if this procedure is interrupted.
 167    - Mark the foo.gz extra field with the append operation in progress.
 168    + Restore the original last-block bit and stored block length of the last
 169      stored block from the information in the extra field, in case a previous
 170      append operation was interrupted.
 171    - Append the provided data to the last stored block, creating new stored
 172      blocks as needed and updating the stored blocks last-block bits and
 173      lengths.
 174    - Update the crc and length with the new data, and write the gzip trailer.
 175    - Write over the extra field (with a single write operation) with the new
 176      pointers, lengths, and crc's, and mark the gzip file as not in process.
 177      Though there is still a foo.add file, it will be ignored since nothing
 178      is in process.  If a foo.add file is leftover from a previously
 179      completed operation, it is truncated when writing new data to it.
 180    - Delete the foo.add file.
 181 
 182    Compress and replace procedures:
 183    - Read all of the uncompressed data in the stored blocks in foo.gz and write
 184      it to foo.add.  Also write foo.temp with the last 32K of that data to
 185      provide a dictionary for the next invocation of this procedure.
 186    - Rewrite the extra field marking foo.gz with a compression in process.
 187    * If there is no data provided to compress (due to a missing foo.add file
 188      when recovering), reconstruct and truncate the foo.gz file to contain
 189      only the previous compressed data and proceed to the step after the next
 190      one.  Otherwise ...
 191    - Compress the data with the dictionary in foo.dict, and write to the
 192      foo.gz file starting at the bit immediately following the last previously
 193      compressed block.  If there is no foo.dict, proceed anyway with the
 194      compression at slightly reduced efficiency.  (For the foo.dict file to be
 195      missing requires some external failure beyond simply the interruption of
 196      a compress operation.)  During this process, the foo.lock file is
 197      periodically touched to assure that that file is not considered stale by
 198      another process before we're done.  The deflation is terminated with a
 199      non-last empty static block (10 bits long), that is then located and
 200      written over by a last-bit-set empty stored block.
 201    - Append the crc and length of the data in the gzip file (previously
 202      calculated during the append operations).
 203    - Write over the extra field with the updated stored block offsets, bits
 204      back, crc's, and lengths, and mark foo.gz as in process for a replacement
 205      of the dictionary.
 206    @ Delete the foo.add file.
 207    - Replace foo.dict with foo.temp.
 208    - Write over the extra field, marking foo.gz as complete.
 209 
 210    Recovery procedure:
 211    - If not a replace recovery, read in the foo.add file, and provide that data
 212      to the appropriate recovery below.  If there is no foo.add file, provide
 213      a zero data length to the recovery.  In that case, the append recovery
 214      restores the foo.gz to the previous compressed + uncompressed data state.
 215      For the the compress recovery, a missing foo.add file results in foo.gz
 216      being restored to the previous compressed-only data state.
 217    - Append recovery:
 218      - Pick up append at + step above
 219    - Compress recovery:
 220      - Pick up compress at * step above
 221    - Replace recovery:
 222      - Pick up compress at @ step above
 223    - Log the repair with a date stamp in foo.repairs
 224  */
 225 
 226 #include <sys/types.h>
 227 #include <stdio.h>      /* rename, fopen, fprintf, fclose */
 228 #include <stdlib.h>     /* malloc, free */
 229 #include <string.h>     /* strlen, strrchr, strcpy, strncpy, strcmp */
 230 #include <fcntl.h>      /* open */
 231 #include <unistd.h>     /* lseek, read, write, close, unlink, sleep, */
 232                         /* ftruncate, fsync */
 233 #include <errno.h>      /* errno */
 234 #include <time.h>       /* time, ctime */
 235 #include <sys/stat.h>   /* stat */
 236 #include <sys/time.h>   /* utimes */
 237 #include "zlib.h"       /* crc32 */
 238 
 239 #include "gzlog.h"      /* header for external access */
 240 
 241 #define local static
 242 typedef unsigned int uint;
 243 typedef unsigned long ulong;
 244 
 245 /* Macro for debugging to deterministically force recovery operations */
 246 #ifdef DEBUG
 247     #include <setjmp.h>         /* longjmp */
 248     jmp_buf gzlog_jump;         /* where to go back to */
 249     int gzlog_bail = 0;         /* which point to bail at (1..8) */
 250     int gzlog_count = -1;       /* number of times through to wait */
 251 #   define BAIL(n) do { if (n == gzlog_bail && gzlog_count-- == 0) \
 252                             longjmp(gzlog_jump, gzlog_bail); } while (0)
 253 #else
 254 #   define BAIL(n)
 255 #endif
 256 
 257 /* how old the lock file can be in seconds before considering it stale */
 258 #define PATIENCE 300
 259 
 260 /* maximum stored block size in Kbytes -- must be in 1..63 */
 261 #define MAX_STORE 16
 262 
 263 /* number of stored Kbytes to trigger compression (must be >= 32 to allow
 264    dictionary construction, and <= 204 * MAX_STORE, in order for >> 10 to
 265    discard the stored block headers contribution of five bytes each) */
 266 #define TRIGGER 1024
 267 
 268 /* size of a deflate dictionary (this cannot be changed) */
 269 #define DICT 32768U
 270 
 271 /* values for the operation (2 bits) */
 272 #define NO_OP 0
 273 #define APPEND_OP 1
 274 #define COMPRESS_OP 2
 275 #define REPLACE_OP 3
 276 
 277 /* macros to extract little-endian integers from an unsigned byte buffer */
 278 #define PULL2(p) ((p)[0]+((uint)((p)[1])<<8))
 279 #define PULL4(p) (PULL2(p)+((ulong)PULL2(p+2)<<16))
 280 #define PULL8(p) (PULL4(p)+((off_t)PULL4(p+4)<<32))
 281 
 282 /* macros to store integers into a byte buffer in little-endian order */
 283 #define PUT2(p,a) do {(p)[0]=a;(p)[1]=(a)>>8;} while(0)
 284 #define PUT4(p,a) do {PUT2(p,a);PUT2(p+2,a>>16);} while(0)
 285 #define PUT8(p,a) do {PUT4(p,a);PUT4(p+4,a>>32);} while(0)
 286 
 287 /* internal structure for log information */
 288 #define LOGID "\106\035\172"    /* should be three non-zero characters */
 289 struct log {
 290     char id[4];     /* contains LOGID to detect inadvertent overwrites */
 291     int fd;         /* file descriptor for .gz file, opened read/write */
 292     char *path;     /* allocated path, e.g. "/var/log/foo" or "foo" */
 293     char *end;      /* end of path, for appending suffices such as ".gz" */
 294     off_t first;    /* offset of first stored block first length byte */
 295     int back;       /* location of first block id in bits back from first */
 296     uint stored;    /* bytes currently in last stored block */
 297     off_t last;     /* offset of last stored block first length byte */
 298     ulong ccrc;     /* crc of compressed data */
 299     ulong clen;     /* length (modulo 2^32) of compressed data */
 300     ulong tcrc;     /* crc of total data */
 301     ulong tlen;     /* length (modulo 2^32) of total data */
 302     time_t lock;    /* last modify time of our lock file */
 303 };
 304 
 305 /* gzip header for gzlog */
 306 local unsigned char log_gzhead[] = {
 307     0x1f, 0x8b,                 /* magic gzip id */
 308     8,                          /* compression method is deflate */
 309     4,                          /* there is an extra field (no file name) */
 310     0, 0, 0, 0,                 /* no modification time provided */
 311     0, 0xff,                    /* no extra flags, no OS specified */
 312     39, 0, 'a', 'p', 35, 0      /* extra field with "ap" subfield */
 313                                 /* 35 is EXTRA, 39 is EXTRA + 4 */
 314 };
 315 
 316 #define HEAD sizeof(log_gzhead)     /* should be 16 */
 317 
 318 /* initial gzip extra field content (52 == HEAD + EXTRA + 1) */
 319 local unsigned char log_gzext[] = {
 320     52, 0, 0, 0, 0, 0, 0, 0,    /* offset of first stored block length */
 321     52, 0, 0, 0, 0, 0, 0, 0,    /* offset of last stored block length */
 322     0, 0, 0, 0, 0, 0, 0, 0,     /* compressed data crc and length */
 323     0, 0, 0, 0, 0, 0, 0, 0,     /* total data crc and length */
 324     0, 0,                       /* final stored block data length */
 325     5                           /* op is NO_OP, last bit 8 bits back */
 326 };
 327 
 328 #define EXTRA sizeof(log_gzext)     /* should be 35 */
 329 
 330 /* initial gzip data and trailer */
 331 local unsigned char log_gzbody[] = {
 332     1, 0, 0, 0xff, 0xff,        /* empty stored block (last) */
 333     0, 0, 0, 0,                 /* crc */
 334     0, 0, 0, 0                  /* uncompressed length */
 335 };
 336 
 337 #define BODY sizeof(log_gzbody)
 338 
 339 /* Exclusively create foo.lock in order to negotiate exclusive access to the
 340    foo.* files.  If the modify time of an existing lock file is greater than
 341    PATIENCE seconds in the past, then consider the lock file to have been
 342    abandoned, delete it, and try the exclusive create again.  Save the lock
 343    file modify time for verification of ownership.  Return 0 on success, or -1
 344    on failure, usually due to an access restriction or invalid path.  Note that
 345    if stat() or unlink() fails, it may be due to another process noticing the
 346    abandoned lock file a smidge sooner and deleting it, so those are not
 347    flagged as an error. */
 348 local int log_lock(struct log *log)
 349 {
 350     int fd;
 351     struct stat st;
 352 
 353     strcpy(log->end, ".lock");
 354     while ((fd = open(log->path, O_CREAT | O_EXCL, 0644)) < 0) {
 355         if (errno != EEXIST)
 356             return -1;
 357         if (stat(log->path, &st) == 0 && time(NULL) - st.st_mtime > PATIENCE) {
 358             unlink(log->path);
 359             continue;
 360         }
 361         sleep(2);       /* relinquish the CPU for two seconds while waiting */
 362     }
 363     close(fd);
 364     if (stat(log->path, &st) == 0)
 365         log->lock = st.st_mtime;
 366     return 0;
 367 }
 368 
 369 /* Update the modify time of the lock file to now, in order to prevent another
 370    task from thinking that the lock is stale.  Save the lock file modify time
 371    for verification of ownership. */
 372 local void log_touch(struct log *log)
 373 {
 374     struct stat st;
 375 
 376     strcpy(log->end, ".lock");
 377     utimes(log->path, NULL);
 378     if (stat(log->path, &st) == 0)
 379         log->lock = st.st_mtime;
 380 }
 381 
 382 /* Check the log file modify time against what is expected.  Return true if
 383    this is not our lock.  If it is our lock, touch it to keep it. */
 384 local int log_check(struct log *log)
 385 {
 386     struct stat st;
 387 
 388     strcpy(log->end, ".lock");
 389     if (stat(log->path, &st) || st.st_mtime != log->lock)
 390         return 1;
 391     log_touch(log);
 392     return 0;
 393 }
 394 
 395 /* Unlock a previously acquired lock, but only if it's ours. */
 396 local void log_unlock(struct log *log)
 397 {
 398     if (log_check(log))
 399         return;
 400     strcpy(log->end, ".lock");
 401     unlink(log->path);
 402     log->lock = 0;
 403 }
 404 
 405 /* Check the gzip header and read in the extra field, filling in the values in
 406    the log structure.  Return op on success or -1 if the gzip header was not as
 407    expected.  op is the current operation in progress last written to the extra
 408    field.  This assumes that the gzip file has already been opened, with the
 409    file descriptor log->fd. */
 410 local int log_head(struct log *log)
 411 {
 412     int op;
 413     unsigned char buf[HEAD + EXTRA];
 414 
 415     if (lseek(log->fd, 0, SEEK_SET) < 0 ||
 416         read(log->fd, buf, HEAD + EXTRA) != HEAD + EXTRA ||
 417         memcmp(buf, log_gzhead, HEAD)) {
 418         return -1;
 419     }
 420     log->first = PULL8(buf + HEAD);
 421     log->last = PULL8(buf + HEAD + 8);
 422     log->ccrc = PULL4(buf + HEAD + 16);
 423     log->clen = PULL4(buf + HEAD + 20);
 424     log->tcrc = PULL4(buf + HEAD + 24);
 425     log->tlen = PULL4(buf + HEAD + 28);
 426     log->stored = PULL2(buf + HEAD + 32);
 427     log->back = 3 + (buf[HEAD + 34] & 7);
 428     op = (buf[HEAD + 34] >> 3) & 3;
 429     return op;
 430 }
 431 
 432 /* Write over the extra field contents, marking the operation as op.  Use fsync
 433    to assure that the device is written to, and in the requested order.  This
 434    operation, and only this operation, is assumed to be atomic in order to
 435    assure that the log is recoverable in the event of an interruption at any
 436    point in the process.  Return -1 if the write to foo.gz failed. */
 437 local int log_mark(struct log *log, int op)
 438 {
 439     int ret;
 440     unsigned char ext[EXTRA];
 441 
 442     PUT8(ext, log->first);
 443     PUT8(ext + 8, log->last);
 444     PUT4(ext + 16, log->ccrc);
 445     PUT4(ext + 20, log->clen);
 446     PUT4(ext + 24, log->tcrc);
 447     PUT4(ext + 28, log->tlen);
 448     PUT2(ext + 32, log->stored);
 449     ext[34] = log->back - 3 + (op << 3);
 450     fsync(log->fd);
 451     ret = lseek(log->fd, HEAD, SEEK_SET) < 0 ||
 452           write(log->fd, ext, EXTRA) != EXTRA ? -1 : 0;
 453     fsync(log->fd);
 454     return ret;
 455 }
 456 
 457 /* Rewrite the last block header bits and subsequent zero bits to get to a byte
 458    boundary, setting the last block bit if last is true, and then write the
 459    remainder of the stored block header (length and one's complement).  Leave
 460    the file pointer after the end of the last stored block data.  Return -1 if
 461    there is a read or write failure on the foo.gz file */
 462 local int log_last(struct log *log, int last)
 463 {
 464     int back, len, mask;
 465     unsigned char buf[6];
 466 
 467     /* determine the locations of the bytes and bits to modify */
 468     back = log->last == log->first ? log->back : 8;
 469     len = back > 8 ? 2 : 1;                 /* bytes back from log->last */
 470     mask = 0x80 >> ((back - 1) & 7);        /* mask for block last-bit */
 471 
 472     /* get the byte to modify (one or two back) into buf[0] -- don't need to
 473        read the byte if the last-bit is eight bits back, since in that case
 474        the entire byte will be modified */
 475     buf[0] = 0;
 476     if (back != 8 && (lseek(log->fd, log->last - len, SEEK_SET) < 0 ||
 477                       read(log->fd, buf, 1) != 1))
 478         return -1;
 479 
 480     /* change the last-bit of the last stored block as requested -- note
 481        that all bits above the last-bit are set to zero, per the type bits
 482        of a stored block being 00 and per the convention that the bits to
 483        bring the stream to a byte boundary are also zeros */
 484     buf[1] = 0;
 485     buf[2 - len] = (*buf & (mask - 1)) + (last ? mask : 0);
 486 
 487     /* write the modified stored block header and lengths, move the file
 488        pointer to after the last stored block data */
 489     PUT2(buf + 2, log->stored);
 490     PUT2(buf + 4, log->stored ^ 0xffff);
 491     return lseek(log->fd, log->last - len, SEEK_SET) < 0 ||
 492            write(log->fd, buf + 2 - len, len + 4) != len + 4 ||
 493            lseek(log->fd, log->stored, SEEK_CUR) < 0 ? -1 : 0;
 494 }
 495 
 496 /* Append len bytes from data to the locked and open log file.  len may be zero
 497    if recovering and no .add file was found.  In that case, the previous state
 498    of the foo.gz file is restored.  The data is appended uncompressed in
 499    deflate stored blocks.  Return -1 if there was an error reading or writing
 500    the foo.gz file. */
 501 local int log_append(struct log *log, unsigned char *data, size_t len)
 502 {
 503     uint put;
 504     off_t end;
 505     unsigned char buf[8];
 506 
 507     /* set the last block last-bit and length, in case recovering an
 508        interrupted append, then position the file pointer to append to the
 509        block */
 510     if (log_last(log, 1))
 511         return -1;
 512 
 513     /* append, adding stored blocks and updating the offset of the last stored
 514        block as needed, and update the total crc and length */
 515     while (len) {
 516         /* append as much as we can to the last block */
 517         put = (MAX_STORE << 10) - log->stored;
 518         if (put > len)
 519             put = (uint)len;
 520         if (put) {
 521             if (write(log->fd, data, put) != put)
 522                 return -1;
 523             BAIL(1);
 524             log->tcrc = crc32(log->tcrc, data, put);
 525             log->tlen += put;
 526             log->stored += put;
 527             data += put;
 528             len -= put;
 529         }
 530 
 531         /* if we need to, add a new empty stored block */
 532         if (len) {
 533             /* mark current block as not last */
 534             if (log_last(log, 0))
 535                 return -1;
 536 
 537             /* point to new, empty stored block */
 538             log->last += 4 + log->stored + 1;
 539             log->stored = 0;
 540         }
 541 
 542         /* mark last block as last, update its length */
 543         if (log_last(log, 1))
 544             return -1;
 545         BAIL(2);
 546     }
 547 
 548     /* write the new crc and length trailer, and truncate just in case (could
 549        be recovering from partial append with a missing foo.add file) */
 550     PUT4(buf, log->tcrc);
 551     PUT4(buf + 4, log->tlen);
 552     if (write(log->fd, buf, 8) != 8 ||
 553         (end = lseek(log->fd, 0, SEEK_CUR)) < 0 || ftruncate(log->fd, end))
 554         return -1;
 555 
 556     /* write the extra field, marking the log file as done, delete .add file */
 557     if (log_mark(log, NO_OP))
 558         return -1;
 559     strcpy(log->end, ".add");
 560     unlink(log->path);          /* ignore error, since may not exist */
 561     return 0;
 562 }
 563 
 564 /* Replace the foo.dict file with the foo.temp file.  Also delete the foo.add
 565    file, since the compress operation may have been interrupted before that was
 566    done.  Returns 1 if memory could not be allocated, or -1 if reading or
 567    writing foo.gz fails, or if the rename fails for some reason other than
 568    foo.temp not existing.  foo.temp not existing is a permitted error, since
 569    the replace operation may have been interrupted after the rename is done,
 570    but before foo.gz is marked as complete. */
 571 local int log_replace(struct log *log)
 572 {
 573     int ret;
 574     char *dest;
 575 
 576     /* delete foo.add file */
 577     strcpy(log->end, ".add");
 578     unlink(log->path);         /* ignore error, since may not exist */
 579     BAIL(3);
 580 
 581     /* rename foo.name to foo.dict, replacing foo.dict if it exists */
 582     strcpy(log->end, ".dict");
 583     dest = malloc(strlen(log->path) + 1);
 584     if (dest == NULL)
 585         return -2;
 586     strcpy(dest, log->path);
 587     strcpy(log->end, ".temp");
 588     ret = rename(log->path, dest);
 589     free(dest);
 590     if (ret && errno != ENOENT)
 591         return -1;
 592     BAIL(4);
 593 
 594     /* mark the foo.gz file as done */
 595     return log_mark(log, NO_OP);
 596 }
 597 
 598 /* Compress the len bytes at data and append the compressed data to the
 599    foo.gz deflate data immediately after the previous compressed data.  This
 600    overwrites the previous uncompressed data, which was stored in foo.add
 601    and is the data provided in data[0..len-1].  If this operation is
 602    interrupted, it picks up at the start of this routine, with the foo.add
 603    file read in again.  If there is no data to compress (len == 0), then we
 604    simply terminate the foo.gz file after the previously compressed data,
 605    appending a final empty stored block and the gzip trailer.  Return -1 if
 606    reading or writing the log.gz file failed, or -2 if there was a memory
 607    allocation failure. */
 608 local int log_compress(struct log *log, unsigned char *data, size_t len)
 609 {
 610     int fd;
 611     uint got, max;
 612     ssize_t dict;
 613     off_t end;
 614     z_stream strm;
 615     unsigned char buf[DICT];
 616 
 617     /* compress and append compressed data */
 618     if (len) {
 619         /* set up for deflate, allocating memory */
 620         strm.zalloc = Z_NULL;
 621         strm.zfree = Z_NULL;
 622         strm.opaque = Z_NULL;
 623         if (deflateInit2(&strm, Z_DEFAULT_COMPRESSION, Z_DEFLATED, -15, 8,
 624                          Z_DEFAULT_STRATEGY) != Z_OK)
 625             return -2;
 626 
 627         /* read in dictionary (last 32K of data that was compressed) */
 628         strcpy(log->end, ".dict");
 629         fd = open(log->path, O_RDONLY, 0);
 630         if (fd >= 0) {
 631             dict = read(fd, buf, DICT);
 632             close(fd);
 633             if (dict < 0) {
 634                 deflateEnd(&strm);
 635                 return -1;
 636             }
 637             if (dict)
 638                 deflateSetDictionary(&strm, buf, (uint)dict);
 639         }
 640         log_touch(log);
 641 
 642         /* prime deflate with last bits of previous block, position write
 643            pointer to write those bits and overwrite what follows */
 644         if (lseek(log->fd, log->first - (log->back > 8 ? 2 : 1),
 645                 SEEK_SET) < 0 ||
 646             read(log->fd, buf, 1) != 1 || lseek(log->fd, -1, SEEK_CUR) < 0) {
 647             deflateEnd(&strm);
 648             return -1;
 649         }
 650         deflatePrime(&strm, (8 - log->back) & 7, *buf);
 651 
 652         /* compress, finishing with a partial non-last empty static block */
 653         strm.next_in = data;
 654         max = (((uint)0 - 1) >> 1) + 1; /* in case int smaller than size_t */
 655         do {
 656             strm.avail_in = len > max ? max : (uint)len;
 657             len -= strm.avail_in;
 658             do {
 659                 strm.avail_out = DICT;
 660                 strm.next_out = buf;
 661                 deflate(&strm, len ? Z_NO_FLUSH : Z_PARTIAL_FLUSH);
 662                 got = DICT - strm.avail_out;
 663                 if (got && write(log->fd, buf, got) != got) {
 664                     deflateEnd(&strm);
 665                     return -1;
 666                 }
 667                 log_touch(log);
 668             } while (strm.avail_out == 0);
 669         } while (len);
 670         deflateEnd(&strm);
 671         BAIL(5);
 672 
 673         /* find start of empty static block -- scanning backwards the first one
 674            bit is the second bit of the block, if the last byte is zero, then
 675            we know the byte before that has a one in the top bit, since an
 676            empty static block is ten bits long */
 677         if ((log->first = lseek(log->fd, -1, SEEK_CUR)) < 0 ||
 678             read(log->fd, buf, 1) != 1)
 679             return -1;
 680         log->first++;
 681         if (*buf) {
 682             log->back = 1;
 683             while ((*buf & ((uint)1 << (8 - log->back++))) == 0)
 684                 ;       /* guaranteed to terminate, since *buf != 0 */
 685         }
 686         else
 687             log->back = 10;
 688 
 689         /* update compressed crc and length */
 690         log->ccrc = log->tcrc;
 691         log->clen = log->tlen;
 692     }
 693     else {
 694         /* no data to compress -- fix up existing gzip stream */
 695         log->tcrc = log->ccrc;
 696         log->tlen = log->clen;
 697     }
 698 
 699     /* complete and truncate gzip stream */
 700     log->last = log->first;
 701     log->stored = 0;
 702     PUT4(buf, log->tcrc);
 703     PUT4(buf + 4, log->tlen);
 704     if (log_last(log, 1) || write(log->fd, buf, 8) != 8 ||
 705         (end = lseek(log->fd, 0, SEEK_CUR)) < 0 || ftruncate(log->fd, end))
 706         return -1;
 707     BAIL(6);
 708 
 709     /* mark as being in the replace operation */
 710     if (log_mark(log, REPLACE_OP))
 711         return -1;
 712 
 713     /* execute the replace operation and mark the file as done */
 714     return log_replace(log);
 715 }
 716 
 717 /* log a repair record to the .repairs file */
 718 local void log_log(struct log *log, int op, char *record)
 719 {
 720     time_t now;
 721     FILE *rec;
 722 
 723     now = time(NULL);
 724     strcpy(log->end, ".repairs");
 725     rec = fopen(log->path, "a");
 726     if (rec == NULL)
 727         return;
 728     fprintf(rec, "%.24s %s recovery: %s\n", ctime(&now), op == APPEND_OP ?
 729             "append" : (op == COMPRESS_OP ? "compress" : "replace"), record);
 730     fclose(rec);
 731     return;
 732 }
 733 
 734 /* Recover the interrupted operation op.  First read foo.add for recovering an
 735    append or compress operation.  Return -1 if there was an error reading or
 736    writing foo.gz or reading an existing foo.add, or -2 if there was a memory
 737    allocation failure. */
 738 local int log_recover(struct log *log, int op)
 739 {
 740     int fd, ret = 0;
 741     unsigned char *data = NULL;
 742     size_t len = 0;
 743     struct stat st;
 744 
 745     /* log recovery */
 746     log_log(log, op, "start");
 747 
 748     /* load foo.add file if expected and present */
 749     if (op == APPEND_OP || op == COMPRESS_OP) {
 750         strcpy(log->end, ".add");
 751         if (stat(log->path, &st) == 0 && st.st_size) {
 752             len = (size_t)(st.st_size);
 753             if ((off_t)len != st.st_size ||
 754                     (data = malloc(st.st_size)) == NULL) {
 755                 log_log(log, op, "allocation failure");
 756                 return -2;
 757             }
 758             if ((fd = open(log->path, O_RDONLY, 0)) < 0) {
 759                 log_log(log, op, ".add file read failure");
 760                 return -1;
 761             }
 762             ret = (size_t)read(fd, data, len) != len;
 763             close(fd);
 764             if (ret) {
 765                 log_log(log, op, ".add file read failure");
 766                 return -1;
 767             }
 768             log_log(log, op, "loaded .add file");
 769         }
 770         else
 771             log_log(log, op, "missing .add file!");
 772     }
 773 
 774     /* recover the interrupted operation */
 775     switch (op) {
 776     case APPEND_OP:
 777         ret = log_append(log, data, len);
 778         break;
 779     case COMPRESS_OP:
 780         ret = log_compress(log, data, len);
 781         break;
 782     case REPLACE_OP:
 783         ret = log_replace(log);
 784     }
 785 
 786     /* log status */
 787     log_log(log, op, ret ? "failure" : "complete");
 788 
 789     /* clean up */
 790     if (data != NULL)
 791         free(data);
 792     return ret;
 793 }
 794 
 795 /* Close the foo.gz file (if open) and release the lock. */
 796 local void log_close(struct log *log)
 797 {
 798     if (log->fd >= 0)
 799         close(log->fd);
 800     log->fd = -1;
 801     log_unlock(log);
 802 }
 803 
 804 /* Open foo.gz, verify the header, and load the extra field contents, after
 805    first creating the foo.lock file to gain exclusive access to the foo.*
 806    files.  If foo.gz does not exist or is empty, then write the initial header,
 807    extra, and body content of an empty foo.gz log file.  If there is an error
 808    creating the lock file due to access restrictions, or an error reading or
 809    writing the foo.gz file, or if the foo.gz file is not a proper log file for
 810    this object (e.g. not a gzip file or does not contain the expected extra
 811    field), then return true.  If there is an error, the lock is released.
 812    Otherwise, the lock is left in place. */
 813 local int log_open(struct log *log)
 814 {
 815     int op;
 816 
 817     /* release open file resource if left over -- can occur if lock lost
 818        between gzlog_open() and gzlog_write() */
 819     if (log->fd >= 0)
 820         close(log->fd);
 821     log->fd = -1;
 822 
 823     /* negotiate exclusive access */
 824     if (log_lock(log) < 0)
 825         return -1;
 826 
 827     /* open the log file, foo.gz */
 828     strcpy(log->end, ".gz");
 829     log->fd = open(log->path, O_RDWR | O_CREAT, 0644);
 830     if (log->fd < 0) {
 831         log_close(log);
 832         return -1;
 833     }
 834 
 835     /* if new, initialize foo.gz with an empty log, delete old dictionary */
 836     if (lseek(log->fd, 0, SEEK_END) == 0) {
 837         if (write(log->fd, log_gzhead, HEAD) != HEAD ||
 838             write(log->fd, log_gzext, EXTRA) != EXTRA ||
 839             write(log->fd, log_gzbody, BODY) != BODY) {
 840             log_close(log);
 841             return -1;
 842         }
 843         strcpy(log->end, ".dict");
 844         unlink(log->path);
 845     }
 846 
 847     /* verify log file and load extra field information */
 848     if ((op = log_head(log)) < 0) {
 849         log_close(log);
 850         return -1;
 851     }
 852 
 853     /* check for interrupted process and if so, recover */
 854     if (op != NO_OP && log_recover(log, op)) {
 855         log_close(log);
 856         return -1;
 857     }
 858 
 859     /* touch the lock file to prevent another process from grabbing it */
 860     log_touch(log);
 861     return 0;
 862 }
 863 
 864 /* See gzlog.h for the description of the external methods below */
 865 gzlog *gzlog_open(char *path)
 866 {
 867     size_t n;
 868     struct log *log;
 869 
 870     /* check arguments */
 871     if (path == NULL || *path == 0)
 872         return NULL;
 873 
 874     /* allocate and initialize log structure */
 875     log = malloc(sizeof(struct log));
 876     if (log == NULL)
 877         return NULL;
 878     strcpy(log->id, LOGID);
 879     log->fd = -1;
 880 
 881     /* save path and end of path for name construction */
 882     n = strlen(path);
 883     log->path = malloc(n + 9);              /* allow for ".repairs" */
 884     if (log->path == NULL) {
 885         free(log);
 886         return NULL;
 887     }
 888     strcpy(log->path, path);
 889     log->end = log->path + n;
 890 
 891     /* gain exclusive access and verify log file -- may perform a
 892        recovery operation if needed */
 893     if (log_open(log)) {
 894         free(log->path);
 895         free(log);
 896         return NULL;
 897     }
 898 
 899     /* return pointer to log structure */
 900     return log;
 901 }
 902 
 903 /* gzlog_compress() return values:
 904     0: all good
 905    -1: file i/o error (usually access issue)
 906    -2: memory allocation failure
 907    -3: invalid log pointer argument */
 908 int gzlog_compress(gzlog *logd)
 909 {
 910     int fd, ret;
 911     uint block;
 912     size_t len, next;
 913     unsigned char *data, buf[5];
 914     struct log *log = logd;
 915 
 916     /* check arguments */
 917     if (log == NULL || strcmp(log->id, LOGID))
 918         return -3;
 919 
 920     /* see if we lost the lock -- if so get it again and reload the extra
 921        field information (it probably changed), recover last operation if
 922        necessary */
 923     if (log_check(log) && log_open(log))
 924         return -1;
 925 
 926     /* create space for uncompressed data */
 927     len = ((size_t)(log->last - log->first) & ~(((size_t)1 << 10) - 1)) +
 928           log->stored;
 929     if ((data = malloc(len)) == NULL)
 930         return -2;
 931 
 932     /* do statement here is just a cheap trick for error handling */
 933     do {
 934         /* read in the uncompressed data */
 935         if (lseek(log->fd, log->first - 1, SEEK_SET) < 0)
 936             break;
 937         next = 0;
 938         while (next < len) {
 939             if (read(log->fd, buf, 5) != 5)
 940                 break;
 941             block = PULL2(buf + 1);
 942             if (next + block > len ||
 943                 read(log->fd, (char *)data + next, block) != block)
 944                 break;
 945             next += block;
 946         }
 947         if (lseek(log->fd, 0, SEEK_CUR) != log->last + 4 + log->stored)
 948             break;
 949         log_touch(log);
 950 
 951         /* write the uncompressed data to the .add file */
 952         strcpy(log->end, ".add");
 953         fd = open(log->path, O_WRONLY | O_CREAT | O_TRUNC, 0644);
 954         if (fd < 0)
 955             break;
 956         ret = (size_t)write(fd, data, len) != len;
 957         if (ret | close(fd))
 958             break;
 959         log_touch(log);
 960 
 961         /* write the dictionary for the next compress to the .temp file */
 962         strcpy(log->end, ".temp");
 963         fd = open(log->path, O_WRONLY | O_CREAT | O_TRUNC, 0644);
 964         if (fd < 0)
 965             break;
 966         next = DICT > len ? len : DICT;
 967         ret = (size_t)write(fd, (char *)data + len - next, next) != next;
 968         if (ret | close(fd))
 969             break;
 970         log_touch(log);
 971 
 972         /* roll back to compressed data, mark the compress in progress */
 973         log->last = log->first;
 974         log->stored = 0;
 975         if (log_mark(log, COMPRESS_OP))
 976             break;
 977         BAIL(7);
 978 
 979         /* compress and append the data (clears mark) */
 980         ret = log_compress(log, data, len);
 981         free(data);
 982         return ret;
 983     } while (0);
 984 
 985     /* broke out of do above on i/o error */
 986     free(data);
 987     return -1;
 988 }
 989 
 990 /* gzlog_write() return values:
 991     0: all good
 992    -1: file i/o error (usually access issue)
 993    -2: memory allocation failure
 994    -3: invalid log pointer argument */
 995 int gzlog_write(gzlog *logd, void *data, size_t len)
 996 {
 997     int fd, ret;
 998     struct log *log = logd;
 999 
1000     /* check arguments */
1001     if (log == NULL || strcmp(log->id, LOGID))
1002         return -3;
1003     if (data == NULL || len <= 0)
1004         return 0;
1005 
1006     /* see if we lost the lock -- if so get it again and reload the extra
1007        field information (it probably changed), recover last operation if
1008        necessary */
1009     if (log_check(log) && log_open(log))
1010         return -1;
1011 
1012     /* create and write .add file */
1013     strcpy(log->end, ".add");
1014     fd = open(log->path, O_WRONLY | O_CREAT | O_TRUNC, 0644);
1015     if (fd < 0)
1016         return -1;
1017     ret = (size_t)write(fd, data, len) != len;
1018     if (ret | close(fd))
1019         return -1;
1020     log_touch(log);
1021 
1022     /* mark log file with append in progress */
1023     if (log_mark(log, APPEND_OP))
1024         return -1;
1025     BAIL(8);
1026 
1027     /* append data (clears mark) */
1028     if (log_append(log, data, len))
1029         return -1;
1030 
1031     /* check to see if it's time to compress -- if not, then done */
1032     if (((log->last - log->first) >> 10) + (log->stored >> 10) < TRIGGER)
1033         return 0;
1034 
1035     /* time to compress */
1036     return gzlog_compress(log);
1037 }
1038 
1039 /* gzlog_close() return values:
1040     0: ok
1041    -3: invalid log pointer argument */
1042 int gzlog_close(gzlog *logd)
1043 {
1044     struct log *log = logd;
1045 
1046     /* check arguments */
1047     if (log == NULL || strcmp(log->id, LOGID))
1048         return -3;
1049 
1050     /* close the log file and release the lock */
1051     log_close(log);
1052 
1053     /* free structure and return */
1054     if (log->path != NULL)
1055         free(log->path);
1056     strcpy(log->id, "bad");
1057     free(log);
1058     return 0;
1059 }