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annotate src/zlib-1.2.7/examples/gzlog.c @ 89:8a15ff55d9af

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Add bzip2, zlib, liblo, portaudio sources
author Chris Cannam <cannam@all-day-breakfast.com>
date Wed, 20 Mar 2013 13:59:52 +0000
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cannam@89 1 /*
cannam@89 2 * gzlog.c
cannam@89 3 * Copyright (C) 2004, 2008 Mark Adler, all rights reserved
cannam@89 4 * For conditions of distribution and use, see copyright notice in gzlog.h
cannam@89 5 * version 2.0, 25 Apr 2008
cannam@89 6 */
cannam@89 7
cannam@89 8 /*
cannam@89 9 gzlog provides a mechanism for frequently appending short strings to a gzip
cannam@89 10 file that is efficient both in execution time and compression ratio. The
cannam@89 11 strategy is to write the short strings in an uncompressed form to the end of
cannam@89 12 the gzip file, only compressing when the amount of uncompressed data has
cannam@89 13 reached a given threshold.
cannam@89 14
cannam@89 15 gzlog also provides protection against interruptions in the process due to
cannam@89 16 system crashes. The status of the operation is recorded in an extra field
cannam@89 17 in the gzip file, and is only updated once the gzip file is brought to a
cannam@89 18 valid state. The last data to be appended or compressed is saved in an
cannam@89 19 auxiliary file, so that if the operation is interrupted, it can be completed
cannam@89 20 the next time an append operation is attempted.
cannam@89 21
cannam@89 22 gzlog maintains another auxiliary file with the last 32K of data from the
cannam@89 23 compressed portion, which is preloaded for the compression of the subsequent
cannam@89 24 data. This minimizes the impact to the compression ratio of appending.
cannam@89 25 */
cannam@89 26
cannam@89 27 /*
cannam@89 28 Operations Concept:
cannam@89 29
cannam@89 30 Files (log name "foo"):
cannam@89 31 foo.gz -- gzip file with the complete log
cannam@89 32 foo.add -- last message to append or last data to compress
cannam@89 33 foo.dict -- dictionary of the last 32K of data for next compression
cannam@89 34 foo.temp -- temporary dictionary file for compression after this one
cannam@89 35 foo.lock -- lock file for reading and writing the other files
cannam@89 36 foo.repairs -- log file for log file recovery operations (not compressed)
cannam@89 37
cannam@89 38 gzip file structure:
cannam@89 39 - fixed-length (no file name) header with extra field (see below)
cannam@89 40 - compressed data ending initially with empty stored block
cannam@89 41 - uncompressed data filling out originally empty stored block and
cannam@89 42 subsequent stored blocks as needed (16K max each)
cannam@89 43 - gzip trailer
cannam@89 44 - no junk at end (no other gzip streams)
cannam@89 45
cannam@89 46 When appending data, the information in the first three items above plus the
cannam@89 47 foo.add file are sufficient to recover an interrupted append operation. The
cannam@89 48 extra field has the necessary information to restore the start of the last
cannam@89 49 stored block and determine where to append the data in the foo.add file, as
cannam@89 50 well as the crc and length of the gzip data before the append operation.
cannam@89 51
cannam@89 52 The foo.add file is created before the gzip file is marked for append, and
cannam@89 53 deleted after the gzip file is marked as complete. So if the append
cannam@89 54 operation is interrupted, the data to add will still be there. If due to
cannam@89 55 some external force, the foo.add file gets deleted between when the append
cannam@89 56 operation was interrupted and when recovery is attempted, the gzip file will
cannam@89 57 still be restored, but without the appended data.
cannam@89 58
cannam@89 59 When compressing data, the information in the first two items above plus the
cannam@89 60 foo.add file are sufficient to recover an interrupted compress operation.
cannam@89 61 The extra field has the necessary information to find the end of the
cannam@89 62 compressed data, and contains both the crc and length of just the compressed
cannam@89 63 data and of the complete set of data including the contents of the foo.add
cannam@89 64 file.
cannam@89 65
cannam@89 66 Again, the foo.add file is maintained during the compress operation in case
cannam@89 67 of an interruption. If in the unlikely event the foo.add file with the data
cannam@89 68 to be compressed is missing due to some external force, a gzip file with
cannam@89 69 just the previous compressed data will be reconstructed. In this case, all
cannam@89 70 of the data that was to be compressed is lost (approximately one megabyte).
cannam@89 71 This will not occur if all that happened was an interruption of the compress
cannam@89 72 operation.
cannam@89 73
cannam@89 74 The third state that is marked is the replacement of the old dictionary with
cannam@89 75 the new dictionary after a compress operation. Once compression is
cannam@89 76 complete, the gzip file is marked as being in the replace state. This
cannam@89 77 completes the gzip file, so an interrupt after being so marked does not
cannam@89 78 result in recompression. Then the dictionary file is replaced, and the gzip
cannam@89 79 file is marked as completed. This state prevents the possibility of
cannam@89 80 restarting compression with the wrong dictionary file.
cannam@89 81
cannam@89 82 All three operations are wrapped by a lock/unlock procedure. In order to
cannam@89 83 gain exclusive access to the log files, first a foo.lock file must be
cannam@89 84 exclusively created. When all operations are complete, the lock is
cannam@89 85 released by deleting the foo.lock file. If when attempting to create the
cannam@89 86 lock file, it already exists and the modify time of the lock file is more
cannam@89 87 than five minutes old (set by the PATIENCE define below), then the old
cannam@89 88 lock file is considered stale and deleted, and the exclusive creation of
cannam@89 89 the lock file is retried. To assure that there are no false assessments
cannam@89 90 of the staleness of the lock file, the operations periodically touch the
cannam@89 91 lock file to update the modified date.
cannam@89 92
cannam@89 93 Following is the definition of the extra field with all of the information
cannam@89 94 required to enable the above append and compress operations and their
cannam@89 95 recovery if interrupted. Multi-byte values are stored little endian
cannam@89 96 (consistent with the gzip format). File pointers are eight bytes long.
cannam@89 97 The crc's and lengths for the gzip trailer are four bytes long. (Note that
cannam@89 98 the length at the end of a gzip file is used for error checking only, and
cannam@89 99 for large files is actually the length modulo 2^32.) The stored block
cannam@89 100 length is two bytes long. The gzip extra field two-byte identification is
cannam@89 101 "ap" for append. It is assumed that writing the extra field to the file is
cannam@89 102 an "atomic" operation. That is, either all of the extra field is written
cannam@89 103 to the file, or none of it is, if the operation is interrupted right at the
cannam@89 104 point of updating the extra field. This is a reasonable assumption, since
cannam@89 105 the extra field is within the first 52 bytes of the file, which is smaller
cannam@89 106 than any expected block size for a mass storage device (usually 512 bytes or
cannam@89 107 larger).
cannam@89 108
cannam@89 109 Extra field (35 bytes):
cannam@89 110 - Pointer to first stored block length -- this points to the two-byte length
cannam@89 111 of the first stored block, which is followed by the two-byte, one's
cannam@89 112 complement of that length. The stored block length is preceded by the
cannam@89 113 three-bit header of the stored block, which is the actual start of the
cannam@89 114 stored block in the deflate format. See the bit offset field below.
cannam@89 115 - Pointer to the last stored block length. This is the same as above, but
cannam@89 116 for the last stored block of the uncompressed data in the gzip file.
cannam@89 117 Initially this is the same as the first stored block length pointer.
cannam@89 118 When the stored block gets to 16K (see the MAX_STORE define), then a new
cannam@89 119 stored block as added, at which point the last stored block length pointer
cannam@89 120 is different from the first stored block length pointer. When they are
cannam@89 121 different, the first bit of the last stored block header is eight bits, or
cannam@89 122 one byte back from the block length.
cannam@89 123 - Compressed data crc and length. This is the crc and length of the data
cannam@89 124 that is in the compressed portion of the deflate stream. These are used
cannam@89 125 only in the event that the foo.add file containing the data to compress is
cannam@89 126 lost after a compress operation is interrupted.
cannam@89 127 - Total data crc and length. This is the crc and length of all of the data
cannam@89 128 stored in the gzip file, compressed and uncompressed. It is used to
cannam@89 129 reconstruct the gzip trailer when compressing, as well as when recovering
cannam@89 130 interrupted operations.
cannam@89 131 - Final stored block length. This is used to quickly find where to append,
cannam@89 132 and allows the restoration of the original final stored block state when
cannam@89 133 an append operation is interrupted.
cannam@89 134 - First stored block start as the number of bits back from the final stored
cannam@89 135 block first length byte. This value is in the range of 3..10, and is
cannam@89 136 stored as the low three bits of the final byte of the extra field after
cannam@89 137 subtracting three (0..7). This allows the last-block bit of the stored
cannam@89 138 block header to be updated when a new stored block is added, for the case
cannam@89 139 when the first stored block and the last stored block are the same. (When
cannam@89 140 they are different, the numbers of bits back is known to be eight.) This
cannam@89 141 also allows for new compressed data to be appended to the old compressed
cannam@89 142 data in the compress operation, overwriting the previous first stored
cannam@89 143 block, or for the compressed data to be terminated and a valid gzip file
cannam@89 144 reconstructed on the off chance that a compression operation was
cannam@89 145 interrupted and the data to compress in the foo.add file was deleted.
cannam@89 146 - The operation in process. This is the next two bits in the last byte (the
cannam@89 147 bits under the mask 0x18). The are interpreted as 0: nothing in process,
cannam@89 148 1: append in process, 2: compress in process, 3: replace in process.
cannam@89 149 - The top three bits of the last byte in the extra field are reserved and
cannam@89 150 are currently set to zero.
cannam@89 151
cannam@89 152 Main procedure:
cannam@89 153 - Exclusively create the foo.lock file using the O_CREAT and O_EXCL modes of
cannam@89 154 the system open() call. If the modify time of an existing lock file is
cannam@89 155 more than PATIENCE seconds old, then the lock file is deleted and the
cannam@89 156 exclusive create is retried.
cannam@89 157 - Load the extra field from the foo.gz file, and see if an operation was in
cannam@89 158 progress but not completed. If so, apply the recovery procedure below.
cannam@89 159 - Perform the append procedure with the provided data.
cannam@89 160 - If the uncompressed data in the foo.gz file is 1MB or more, apply the
cannam@89 161 compress procedure.
cannam@89 162 - Delete the foo.lock file.
cannam@89 163
cannam@89 164 Append procedure:
cannam@89 165 - Put what to append in the foo.add file so that the operation can be
cannam@89 166 restarted if this procedure is interrupted.
cannam@89 167 - Mark the foo.gz extra field with the append operation in progress.
cannam@89 168 + Restore the original last-block bit and stored block length of the last
cannam@89 169 stored block from the information in the extra field, in case a previous
cannam@89 170 append operation was interrupted.
cannam@89 171 - Append the provided data to the last stored block, creating new stored
cannam@89 172 blocks as needed and updating the stored blocks last-block bits and
cannam@89 173 lengths.
cannam@89 174 - Update the crc and length with the new data, and write the gzip trailer.
cannam@89 175 - Write over the extra field (with a single write operation) with the new
cannam@89 176 pointers, lengths, and crc's, and mark the gzip file as not in process.
cannam@89 177 Though there is still a foo.add file, it will be ignored since nothing
cannam@89 178 is in process. If a foo.add file is leftover from a previously
cannam@89 179 completed operation, it is truncated when writing new data to it.
cannam@89 180 - Delete the foo.add file.
cannam@89 181
cannam@89 182 Compress and replace procedures:
cannam@89 183 - Read all of the uncompressed data in the stored blocks in foo.gz and write
cannam@89 184 it to foo.add. Also write foo.temp with the last 32K of that data to
cannam@89 185 provide a dictionary for the next invocation of this procedure.
cannam@89 186 - Rewrite the extra field marking foo.gz with a compression in process.
cannam@89 187 * If there is no data provided to compress (due to a missing foo.add file
cannam@89 188 when recovering), reconstruct and truncate the foo.gz file to contain
cannam@89 189 only the previous compressed data and proceed to the step after the next
cannam@89 190 one. Otherwise ...
cannam@89 191 - Compress the data with the dictionary in foo.dict, and write to the
cannam@89 192 foo.gz file starting at the bit immediately following the last previously
cannam@89 193 compressed block. If there is no foo.dict, proceed anyway with the
cannam@89 194 compression at slightly reduced efficiency. (For the foo.dict file to be
cannam@89 195 missing requires some external failure beyond simply the interruption of
cannam@89 196 a compress operation.) During this process, the foo.lock file is
cannam@89 197 periodically touched to assure that that file is not considered stale by
cannam@89 198 another process before we're done. The deflation is terminated with a
cannam@89 199 non-last empty static block (10 bits long), that is then located and
cannam@89 200 written over by a last-bit-set empty stored block.
cannam@89 201 - Append the crc and length of the data in the gzip file (previously
cannam@89 202 calculated during the append operations).
cannam@89 203 - Write over the extra field with the updated stored block offsets, bits
cannam@89 204 back, crc's, and lengths, and mark foo.gz as in process for a replacement
cannam@89 205 of the dictionary.
cannam@89 206 @ Delete the foo.add file.
cannam@89 207 - Replace foo.dict with foo.temp.
cannam@89 208 - Write over the extra field, marking foo.gz as complete.
cannam@89 209
cannam@89 210 Recovery procedure:
cannam@89 211 - If not a replace recovery, read in the foo.add file, and provide that data
cannam@89 212 to the appropriate recovery below. If there is no foo.add file, provide
cannam@89 213 a zero data length to the recovery. In that case, the append recovery
cannam@89 214 restores the foo.gz to the previous compressed + uncompressed data state.
cannam@89 215 For the the compress recovery, a missing foo.add file results in foo.gz
cannam@89 216 being restored to the previous compressed-only data state.
cannam@89 217 - Append recovery:
cannam@89 218 - Pick up append at + step above
cannam@89 219 - Compress recovery:
cannam@89 220 - Pick up compress at * step above
cannam@89 221 - Replace recovery:
cannam@89 222 - Pick up compress at @ step above
cannam@89 223 - Log the repair with a date stamp in foo.repairs
cannam@89 224 */
cannam@89 225
cannam@89 226 #include <sys/types.h>
cannam@89 227 #include <stdio.h> /* rename, fopen, fprintf, fclose */
cannam@89 228 #include <stdlib.h> /* malloc, free */
cannam@89 229 #include <string.h> /* strlen, strrchr, strcpy, strncpy, strcmp */
cannam@89 230 #include <fcntl.h> /* open */
cannam@89 231 #include <unistd.h> /* lseek, read, write, close, unlink, sleep, */
cannam@89 232 /* ftruncate, fsync */
cannam@89 233 #include <errno.h> /* errno */
cannam@89 234 #include <time.h> /* time, ctime */
cannam@89 235 #include <sys/stat.h> /* stat */
cannam@89 236 #include <sys/time.h> /* utimes */
cannam@89 237 #include "zlib.h" /* crc32 */
cannam@89 238
cannam@89 239 #include "gzlog.h" /* header for external access */
cannam@89 240
cannam@89 241 #define local static
cannam@89 242 typedef unsigned int uint;
cannam@89 243 typedef unsigned long ulong;
cannam@89 244
cannam@89 245 /* Macro for debugging to deterministically force recovery operations */
cannam@89 246 #ifdef DEBUG
cannam@89 247 #include <setjmp.h> /* longjmp */
cannam@89 248 jmp_buf gzlog_jump; /* where to go back to */
cannam@89 249 int gzlog_bail = 0; /* which point to bail at (1..8) */
cannam@89 250 int gzlog_count = -1; /* number of times through to wait */
cannam@89 251 # define BAIL(n) do { if (n == gzlog_bail && gzlog_count-- == 0) \
cannam@89 252 longjmp(gzlog_jump, gzlog_bail); } while (0)
cannam@89 253 #else
cannam@89 254 # define BAIL(n)
cannam@89 255 #endif
cannam@89 256
cannam@89 257 /* how old the lock file can be in seconds before considering it stale */
cannam@89 258 #define PATIENCE 300
cannam@89 259
cannam@89 260 /* maximum stored block size in Kbytes -- must be in 1..63 */
cannam@89 261 #define MAX_STORE 16
cannam@89 262
cannam@89 263 /* number of stored Kbytes to trigger compression (must be >= 32 to allow
cannam@89 264 dictionary construction, and <= 204 * MAX_STORE, in order for >> 10 to
cannam@89 265 discard the stored block headers contribution of five bytes each) */
cannam@89 266 #define TRIGGER 1024
cannam@89 267
cannam@89 268 /* size of a deflate dictionary (this cannot be changed) */
cannam@89 269 #define DICT 32768U
cannam@89 270
cannam@89 271 /* values for the operation (2 bits) */
cannam@89 272 #define NO_OP 0
cannam@89 273 #define APPEND_OP 1
cannam@89 274 #define COMPRESS_OP 2
cannam@89 275 #define REPLACE_OP 3
cannam@89 276
cannam@89 277 /* macros to extract little-endian integers from an unsigned byte buffer */
cannam@89 278 #define PULL2(p) ((p)[0]+((uint)((p)[1])<<8))
cannam@89 279 #define PULL4(p) (PULL2(p)+((ulong)PULL2(p+2)<<16))
cannam@89 280 #define PULL8(p) (PULL4(p)+((off_t)PULL4(p+4)<<32))
cannam@89 281
cannam@89 282 /* macros to store integers into a byte buffer in little-endian order */
cannam@89 283 #define PUT2(p,a) do {(p)[0]=a;(p)[1]=(a)>>8;} while(0)
cannam@89 284 #define PUT4(p,a) do {PUT2(p,a);PUT2(p+2,a>>16);} while(0)
cannam@89 285 #define PUT8(p,a) do {PUT4(p,a);PUT4(p+4,a>>32);} while(0)
cannam@89 286
cannam@89 287 /* internal structure for log information */
cannam@89 288 #define LOGID "\106\035\172" /* should be three non-zero characters */
cannam@89 289 struct log {
cannam@89 290 char id[4]; /* contains LOGID to detect inadvertent overwrites */
cannam@89 291 int fd; /* file descriptor for .gz file, opened read/write */
cannam@89 292 char *path; /* allocated path, e.g. "/var/log/foo" or "foo" */
cannam@89 293 char *end; /* end of path, for appending suffices such as ".gz" */
cannam@89 294 off_t first; /* offset of first stored block first length byte */
cannam@89 295 int back; /* location of first block id in bits back from first */
cannam@89 296 uint stored; /* bytes currently in last stored block */
cannam@89 297 off_t last; /* offset of last stored block first length byte */
cannam@89 298 ulong ccrc; /* crc of compressed data */
cannam@89 299 ulong clen; /* length (modulo 2^32) of compressed data */
cannam@89 300 ulong tcrc; /* crc of total data */
cannam@89 301 ulong tlen; /* length (modulo 2^32) of total data */
cannam@89 302 time_t lock; /* last modify time of our lock file */
cannam@89 303 };
cannam@89 304
cannam@89 305 /* gzip header for gzlog */
cannam@89 306 local unsigned char log_gzhead[] = {
cannam@89 307 0x1f, 0x8b, /* magic gzip id */
cannam@89 308 8, /* compression method is deflate */
cannam@89 309 4, /* there is an extra field (no file name) */
cannam@89 310 0, 0, 0, 0, /* no modification time provided */
cannam@89 311 0, 0xff, /* no extra flags, no OS specified */
cannam@89 312 39, 0, 'a', 'p', 35, 0 /* extra field with "ap" subfield */
cannam@89 313 /* 35 is EXTRA, 39 is EXTRA + 4 */
cannam@89 314 };
cannam@89 315
cannam@89 316 #define HEAD sizeof(log_gzhead) /* should be 16 */
cannam@89 317
cannam@89 318 /* initial gzip extra field content (52 == HEAD + EXTRA + 1) */
cannam@89 319 local unsigned char log_gzext[] = {
cannam@89 320 52, 0, 0, 0, 0, 0, 0, 0, /* offset of first stored block length */
cannam@89 321 52, 0, 0, 0, 0, 0, 0, 0, /* offset of last stored block length */
cannam@89 322 0, 0, 0, 0, 0, 0, 0, 0, /* compressed data crc and length */
cannam@89 323 0, 0, 0, 0, 0, 0, 0, 0, /* total data crc and length */
cannam@89 324 0, 0, /* final stored block data length */
cannam@89 325 5 /* op is NO_OP, last bit 8 bits back */
cannam@89 326 };
cannam@89 327
cannam@89 328 #define EXTRA sizeof(log_gzext) /* should be 35 */
cannam@89 329
cannam@89 330 /* initial gzip data and trailer */
cannam@89 331 local unsigned char log_gzbody[] = {
cannam@89 332 1, 0, 0, 0xff, 0xff, /* empty stored block (last) */
cannam@89 333 0, 0, 0, 0, /* crc */
cannam@89 334 0, 0, 0, 0 /* uncompressed length */
cannam@89 335 };
cannam@89 336
cannam@89 337 #define BODY sizeof(log_gzbody)
cannam@89 338
cannam@89 339 /* Exclusively create foo.lock in order to negotiate exclusive access to the
cannam@89 340 foo.* files. If the modify time of an existing lock file is greater than
cannam@89 341 PATIENCE seconds in the past, then consider the lock file to have been
cannam@89 342 abandoned, delete it, and try the exclusive create again. Save the lock
cannam@89 343 file modify time for verification of ownership. Return 0 on success, or -1
cannam@89 344 on failure, usually due to an access restriction or invalid path. Note that
cannam@89 345 if stat() or unlink() fails, it may be due to another process noticing the
cannam@89 346 abandoned lock file a smidge sooner and deleting it, so those are not
cannam@89 347 flagged as an error. */
cannam@89 348 local int log_lock(struct log *log)
cannam@89 349 {
cannam@89 350 int fd;
cannam@89 351 struct stat st;
cannam@89 352
cannam@89 353 strcpy(log->end, ".lock");
cannam@89 354 while ((fd = open(log->path, O_CREAT | O_EXCL, 0644)) < 0) {
cannam@89 355 if (errno != EEXIST)
cannam@89 356 return -1;
cannam@89 357 if (stat(log->path, &st) == 0 && time(NULL) - st.st_mtime > PATIENCE) {
cannam@89 358 unlink(log->path);
cannam@89 359 continue;
cannam@89 360 }
cannam@89 361 sleep(2); /* relinquish the CPU for two seconds while waiting */
cannam@89 362 }
cannam@89 363 close(fd);
cannam@89 364 if (stat(log->path, &st) == 0)
cannam@89 365 log->lock = st.st_mtime;
cannam@89 366 return 0;
cannam@89 367 }
cannam@89 368
cannam@89 369 /* Update the modify time of the lock file to now, in order to prevent another
cannam@89 370 task from thinking that the lock is stale. Save the lock file modify time
cannam@89 371 for verification of ownership. */
cannam@89 372 local void log_touch(struct log *log)
cannam@89 373 {
cannam@89 374 struct stat st;
cannam@89 375
cannam@89 376 strcpy(log->end, ".lock");
cannam@89 377 utimes(log->path, NULL);
cannam@89 378 if (stat(log->path, &st) == 0)
cannam@89 379 log->lock = st.st_mtime;
cannam@89 380 }
cannam@89 381
cannam@89 382 /* Check the log file modify time against what is expected. Return true if
cannam@89 383 this is not our lock. If it is our lock, touch it to keep it. */
cannam@89 384 local int log_check(struct log *log)
cannam@89 385 {
cannam@89 386 struct stat st;
cannam@89 387
cannam@89 388 strcpy(log->end, ".lock");
cannam@89 389 if (stat(log->path, &st) || st.st_mtime != log->lock)
cannam@89 390 return 1;
cannam@89 391 log_touch(log);
cannam@89 392 return 0;
cannam@89 393 }
cannam@89 394
cannam@89 395 /* Unlock a previously acquired lock, but only if it's ours. */
cannam@89 396 local void log_unlock(struct log *log)
cannam@89 397 {
cannam@89 398 if (log_check(log))
cannam@89 399 return;
cannam@89 400 strcpy(log->end, ".lock");
cannam@89 401 unlink(log->path);
cannam@89 402 log->lock = 0;
cannam@89 403 }
cannam@89 404
cannam@89 405 /* Check the gzip header and read in the extra field, filling in the values in
cannam@89 406 the log structure. Return op on success or -1 if the gzip header was not as
cannam@89 407 expected. op is the current operation in progress last written to the extra
cannam@89 408 field. This assumes that the gzip file has already been opened, with the
cannam@89 409 file descriptor log->fd. */
cannam@89 410 local int log_head(struct log *log)
cannam@89 411 {
cannam@89 412 int op;
cannam@89 413 unsigned char buf[HEAD + EXTRA];
cannam@89 414
cannam@89 415 if (lseek(log->fd, 0, SEEK_SET) < 0 ||
cannam@89 416 read(log->fd, buf, HEAD + EXTRA) != HEAD + EXTRA ||
cannam@89 417 memcmp(buf, log_gzhead, HEAD)) {
cannam@89 418 return -1;
cannam@89 419 }
cannam@89 420 log->first = PULL8(buf + HEAD);
cannam@89 421 log->last = PULL8(buf + HEAD + 8);
cannam@89 422 log->ccrc = PULL4(buf + HEAD + 16);
cannam@89 423 log->clen = PULL4(buf + HEAD + 20);
cannam@89 424 log->tcrc = PULL4(buf + HEAD + 24);
cannam@89 425 log->tlen = PULL4(buf + HEAD + 28);
cannam@89 426 log->stored = PULL2(buf + HEAD + 32);
cannam@89 427 log->back = 3 + (buf[HEAD + 34] & 7);
cannam@89 428 op = (buf[HEAD + 34] >> 3) & 3;
cannam@89 429 return op;
cannam@89 430 }
cannam@89 431
cannam@89 432 /* Write over the extra field contents, marking the operation as op. Use fsync
cannam@89 433 to assure that the device is written to, and in the requested order. This
cannam@89 434 operation, and only this operation, is assumed to be atomic in order to
cannam@89 435 assure that the log is recoverable in the event of an interruption at any
cannam@89 436 point in the process. Return -1 if the write to foo.gz failed. */
cannam@89 437 local int log_mark(struct log *log, int op)
cannam@89 438 {
cannam@89 439 int ret;
cannam@89 440 unsigned char ext[EXTRA];
cannam@89 441
cannam@89 442 PUT8(ext, log->first);
cannam@89 443 PUT8(ext + 8, log->last);
cannam@89 444 PUT4(ext + 16, log->ccrc);
cannam@89 445 PUT4(ext + 20, log->clen);
cannam@89 446 PUT4(ext + 24, log->tcrc);
cannam@89 447 PUT4(ext + 28, log->tlen);
cannam@89 448 PUT2(ext + 32, log->stored);
cannam@89 449 ext[34] = log->back - 3 + (op << 3);
cannam@89 450 fsync(log->fd);
cannam@89 451 ret = lseek(log->fd, HEAD, SEEK_SET) < 0 ||
cannam@89 452 write(log->fd, ext, EXTRA) != EXTRA ? -1 : 0;
cannam@89 453 fsync(log->fd);
cannam@89 454 return ret;
cannam@89 455 }
cannam@89 456
cannam@89 457 /* Rewrite the last block header bits and subsequent zero bits to get to a byte
cannam@89 458 boundary, setting the last block bit if last is true, and then write the
cannam@89 459 remainder of the stored block header (length and one's complement). Leave
cannam@89 460 the file pointer after the end of the last stored block data. Return -1 if
cannam@89 461 there is a read or write failure on the foo.gz file */
cannam@89 462 local int log_last(struct log *log, int last)
cannam@89 463 {
cannam@89 464 int back, len, mask;
cannam@89 465 unsigned char buf[6];
cannam@89 466
cannam@89 467 /* determine the locations of the bytes and bits to modify */
cannam@89 468 back = log->last == log->first ? log->back : 8;
cannam@89 469 len = back > 8 ? 2 : 1; /* bytes back from log->last */
cannam@89 470 mask = 0x80 >> ((back - 1) & 7); /* mask for block last-bit */
cannam@89 471
cannam@89 472 /* get the byte to modify (one or two back) into buf[0] -- don't need to
cannam@89 473 read the byte if the last-bit is eight bits back, since in that case
cannam@89 474 the entire byte will be modified */
cannam@89 475 buf[0] = 0;
cannam@89 476 if (back != 8 && (lseek(log->fd, log->last - len, SEEK_SET) < 0 ||
cannam@89 477 read(log->fd, buf, 1) != 1))
cannam@89 478 return -1;
cannam@89 479
cannam@89 480 /* change the last-bit of the last stored block as requested -- note
cannam@89 481 that all bits above the last-bit are set to zero, per the type bits
cannam@89 482 of a stored block being 00 and per the convention that the bits to
cannam@89 483 bring the stream to a byte boundary are also zeros */
cannam@89 484 buf[1] = 0;
cannam@89 485 buf[2 - len] = (*buf & (mask - 1)) + (last ? mask : 0);
cannam@89 486
cannam@89 487 /* write the modified stored block header and lengths, move the file
cannam@89 488 pointer to after the last stored block data */
cannam@89 489 PUT2(buf + 2, log->stored);
cannam@89 490 PUT2(buf + 4, log->stored ^ 0xffff);
cannam@89 491 return lseek(log->fd, log->last - len, SEEK_SET) < 0 ||
cannam@89 492 write(log->fd, buf + 2 - len, len + 4) != len + 4 ||
cannam@89 493 lseek(log->fd, log->stored, SEEK_CUR) < 0 ? -1 : 0;
cannam@89 494 }
cannam@89 495
cannam@89 496 /* Append len bytes from data to the locked and open log file. len may be zero
cannam@89 497 if recovering and no .add file was found. In that case, the previous state
cannam@89 498 of the foo.gz file is restored. The data is appended uncompressed in
cannam@89 499 deflate stored blocks. Return -1 if there was an error reading or writing
cannam@89 500 the foo.gz file. */
cannam@89 501 local int log_append(struct log *log, unsigned char *data, size_t len)
cannam@89 502 {
cannam@89 503 uint put;
cannam@89 504 off_t end;
cannam@89 505 unsigned char buf[8];
cannam@89 506
cannam@89 507 /* set the last block last-bit and length, in case recovering an
cannam@89 508 interrupted append, then position the file pointer to append to the
cannam@89 509 block */
cannam@89 510 if (log_last(log, 1))
cannam@89 511 return -1;
cannam@89 512
cannam@89 513 /* append, adding stored blocks and updating the offset of the last stored
cannam@89 514 block as needed, and update the total crc and length */
cannam@89 515 while (len) {
cannam@89 516 /* append as much as we can to the last block */
cannam@89 517 put = (MAX_STORE << 10) - log->stored;
cannam@89 518 if (put > len)
cannam@89 519 put = (uint)len;
cannam@89 520 if (put) {
cannam@89 521 if (write(log->fd, data, put) != put)
cannam@89 522 return -1;
cannam@89 523 BAIL(1);
cannam@89 524 log->tcrc = crc32(log->tcrc, data, put);
cannam@89 525 log->tlen += put;
cannam@89 526 log->stored += put;
cannam@89 527 data += put;
cannam@89 528 len -= put;
cannam@89 529 }
cannam@89 530
cannam@89 531 /* if we need to, add a new empty stored block */
cannam@89 532 if (len) {
cannam@89 533 /* mark current block as not last */
cannam@89 534 if (log_last(log, 0))
cannam@89 535 return -1;
cannam@89 536
cannam@89 537 /* point to new, empty stored block */
cannam@89 538 log->last += 4 + log->stored + 1;
cannam@89 539 log->stored = 0;
cannam@89 540 }
cannam@89 541
cannam@89 542 /* mark last block as last, update its length */
cannam@89 543 if (log_last(log, 1))
cannam@89 544 return -1;
cannam@89 545 BAIL(2);
cannam@89 546 }
cannam@89 547
cannam@89 548 /* write the new crc and length trailer, and truncate just in case (could
cannam@89 549 be recovering from partial append with a missing foo.add file) */
cannam@89 550 PUT4(buf, log->tcrc);
cannam@89 551 PUT4(buf + 4, log->tlen);
cannam@89 552 if (write(log->fd, buf, 8) != 8 ||
cannam@89 553 (end = lseek(log->fd, 0, SEEK_CUR)) < 0 || ftruncate(log->fd, end))
cannam@89 554 return -1;
cannam@89 555
cannam@89 556 /* write the extra field, marking the log file as done, delete .add file */
cannam@89 557 if (log_mark(log, NO_OP))
cannam@89 558 return -1;
cannam@89 559 strcpy(log->end, ".add");
cannam@89 560 unlink(log->path); /* ignore error, since may not exist */
cannam@89 561 return 0;
cannam@89 562 }
cannam@89 563
cannam@89 564 /* Replace the foo.dict file with the foo.temp file. Also delete the foo.add
cannam@89 565 file, since the compress operation may have been interrupted before that was
cannam@89 566 done. Returns 1 if memory could not be allocated, or -1 if reading or
cannam@89 567 writing foo.gz fails, or if the rename fails for some reason other than
cannam@89 568 foo.temp not existing. foo.temp not existing is a permitted error, since
cannam@89 569 the replace operation may have been interrupted after the rename is done,
cannam@89 570 but before foo.gz is marked as complete. */
cannam@89 571 local int log_replace(struct log *log)
cannam@89 572 {
cannam@89 573 int ret;
cannam@89 574 char *dest;
cannam@89 575
cannam@89 576 /* delete foo.add file */
cannam@89 577 strcpy(log->end, ".add");
cannam@89 578 unlink(log->path); /* ignore error, since may not exist */
cannam@89 579 BAIL(3);
cannam@89 580
cannam@89 581 /* rename foo.name to foo.dict, replacing foo.dict if it exists */
cannam@89 582 strcpy(log->end, ".dict");
cannam@89 583 dest = malloc(strlen(log->path) + 1);
cannam@89 584 if (dest == NULL)
cannam@89 585 return -2;
cannam@89 586 strcpy(dest, log->path);
cannam@89 587 strcpy(log->end, ".temp");
cannam@89 588 ret = rename(log->path, dest);
cannam@89 589 free(dest);
cannam@89 590 if (ret && errno != ENOENT)
cannam@89 591 return -1;
cannam@89 592 BAIL(4);
cannam@89 593
cannam@89 594 /* mark the foo.gz file as done */
cannam@89 595 return log_mark(log, NO_OP);
cannam@89 596 }
cannam@89 597
cannam@89 598 /* Compress the len bytes at data and append the compressed data to the
cannam@89 599 foo.gz deflate data immediately after the previous compressed data. This
cannam@89 600 overwrites the previous uncompressed data, which was stored in foo.add
cannam@89 601 and is the data provided in data[0..len-1]. If this operation is
cannam@89 602 interrupted, it picks up at the start of this routine, with the foo.add
cannam@89 603 file read in again. If there is no data to compress (len == 0), then we
cannam@89 604 simply terminate the foo.gz file after the previously compressed data,
cannam@89 605 appending a final empty stored block and the gzip trailer. Return -1 if
cannam@89 606 reading or writing the log.gz file failed, or -2 if there was a memory
cannam@89 607 allocation failure. */
cannam@89 608 local int log_compress(struct log *log, unsigned char *data, size_t len)
cannam@89 609 {
cannam@89 610 int fd;
cannam@89 611 uint got, max;
cannam@89 612 ssize_t dict;
cannam@89 613 off_t end;
cannam@89 614 z_stream strm;
cannam@89 615 unsigned char buf[DICT];
cannam@89 616
cannam@89 617 /* compress and append compressed data */
cannam@89 618 if (len) {
cannam@89 619 /* set up for deflate, allocating memory */
cannam@89 620 strm.zalloc = Z_NULL;
cannam@89 621 strm.zfree = Z_NULL;
cannam@89 622 strm.opaque = Z_NULL;
cannam@89 623 if (deflateInit2(&strm, Z_DEFAULT_COMPRESSION, Z_DEFLATED, -15, 8,
cannam@89 624 Z_DEFAULT_STRATEGY) != Z_OK)
cannam@89 625 return -2;
cannam@89 626
cannam@89 627 /* read in dictionary (last 32K of data that was compressed) */
cannam@89 628 strcpy(log->end, ".dict");
cannam@89 629 fd = open(log->path, O_RDONLY, 0);
cannam@89 630 if (fd >= 0) {
cannam@89 631 dict = read(fd, buf, DICT);
cannam@89 632 close(fd);
cannam@89 633 if (dict < 0) {
cannam@89 634 deflateEnd(&strm);
cannam@89 635 return -1;
cannam@89 636 }
cannam@89 637 if (dict)
cannam@89 638 deflateSetDictionary(&strm, buf, (uint)dict);
cannam@89 639 }
cannam@89 640 log_touch(log);
cannam@89 641
cannam@89 642 /* prime deflate with last bits of previous block, position write
cannam@89 643 pointer to write those bits and overwrite what follows */
cannam@89 644 if (lseek(log->fd, log->first - (log->back > 8 ? 2 : 1),
cannam@89 645 SEEK_SET) < 0 ||
cannam@89 646 read(log->fd, buf, 1) != 1 || lseek(log->fd, -1, SEEK_CUR) < 0) {
cannam@89 647 deflateEnd(&strm);
cannam@89 648 return -1;
cannam@89 649 }
cannam@89 650 deflatePrime(&strm, (8 - log->back) & 7, *buf);
cannam@89 651
cannam@89 652 /* compress, finishing with a partial non-last empty static block */
cannam@89 653 strm.next_in = data;
cannam@89 654 max = (((uint)0 - 1) >> 1) + 1; /* in case int smaller than size_t */
cannam@89 655 do {
cannam@89 656 strm.avail_in = len > max ? max : (uint)len;
cannam@89 657 len -= strm.avail_in;
cannam@89 658 do {
cannam@89 659 strm.avail_out = DICT;
cannam@89 660 strm.next_out = buf;
cannam@89 661 deflate(&strm, len ? Z_NO_FLUSH : Z_PARTIAL_FLUSH);
cannam@89 662 got = DICT - strm.avail_out;
cannam@89 663 if (got && write(log->fd, buf, got) != got) {
cannam@89 664 deflateEnd(&strm);
cannam@89 665 return -1;
cannam@89 666 }
cannam@89 667 log_touch(log);
cannam@89 668 } while (strm.avail_out == 0);
cannam@89 669 } while (len);
cannam@89 670 deflateEnd(&strm);
cannam@89 671 BAIL(5);
cannam@89 672
cannam@89 673 /* find start of empty static block -- scanning backwards the first one
cannam@89 674 bit is the second bit of the block, if the last byte is zero, then
cannam@89 675 we know the byte before that has a one in the top bit, since an
cannam@89 676 empty static block is ten bits long */
cannam@89 677 if ((log->first = lseek(log->fd, -1, SEEK_CUR)) < 0 ||
cannam@89 678 read(log->fd, buf, 1) != 1)
cannam@89 679 return -1;
cannam@89 680 log->first++;
cannam@89 681 if (*buf) {
cannam@89 682 log->back = 1;
cannam@89 683 while ((*buf & ((uint)1 << (8 - log->back++))) == 0)
cannam@89 684 ; /* guaranteed to terminate, since *buf != 0 */
cannam@89 685 }
cannam@89 686 else
cannam@89 687 log->back = 10;
cannam@89 688
cannam@89 689 /* update compressed crc and length */
cannam@89 690 log->ccrc = log->tcrc;
cannam@89 691 log->clen = log->tlen;
cannam@89 692 }
cannam@89 693 else {
cannam@89 694 /* no data to compress -- fix up existing gzip stream */
cannam@89 695 log->tcrc = log->ccrc;
cannam@89 696 log->tlen = log->clen;
cannam@89 697 }
cannam@89 698
cannam@89 699 /* complete and truncate gzip stream */
cannam@89 700 log->last = log->first;
cannam@89 701 log->stored = 0;
cannam@89 702 PUT4(buf, log->tcrc);
cannam@89 703 PUT4(buf + 4, log->tlen);
cannam@89 704 if (log_last(log, 1) || write(log->fd, buf, 8) != 8 ||
cannam@89 705 (end = lseek(log->fd, 0, SEEK_CUR)) < 0 || ftruncate(log->fd, end))
cannam@89 706 return -1;
cannam@89 707 BAIL(6);
cannam@89 708
cannam@89 709 /* mark as being in the replace operation */
cannam@89 710 if (log_mark(log, REPLACE_OP))
cannam@89 711 return -1;
cannam@89 712
cannam@89 713 /* execute the replace operation and mark the file as done */
cannam@89 714 return log_replace(log);
cannam@89 715 }
cannam@89 716
cannam@89 717 /* log a repair record to the .repairs file */
cannam@89 718 local void log_log(struct log *log, int op, char *record)
cannam@89 719 {
cannam@89 720 time_t now;
cannam@89 721 FILE *rec;
cannam@89 722
cannam@89 723 now = time(NULL);
cannam@89 724 strcpy(log->end, ".repairs");
cannam@89 725 rec = fopen(log->path, "a");
cannam@89 726 if (rec == NULL)
cannam@89 727 return;
cannam@89 728 fprintf(rec, "%.24s %s recovery: %s\n", ctime(&now), op == APPEND_OP ?
cannam@89 729 "append" : (op == COMPRESS_OP ? "compress" : "replace"), record);
cannam@89 730 fclose(rec);
cannam@89 731 return;
cannam@89 732 }
cannam@89 733
cannam@89 734 /* Recover the interrupted operation op. First read foo.add for recovering an
cannam@89 735 append or compress operation. Return -1 if there was an error reading or
cannam@89 736 writing foo.gz or reading an existing foo.add, or -2 if there was a memory
cannam@89 737 allocation failure. */
cannam@89 738 local int log_recover(struct log *log, int op)
cannam@89 739 {
cannam@89 740 int fd, ret = 0;
cannam@89 741 unsigned char *data = NULL;
cannam@89 742 size_t len = 0;
cannam@89 743 struct stat st;
cannam@89 744
cannam@89 745 /* log recovery */
cannam@89 746 log_log(log, op, "start");
cannam@89 747
cannam@89 748 /* load foo.add file if expected and present */
cannam@89 749 if (op == APPEND_OP || op == COMPRESS_OP) {
cannam@89 750 strcpy(log->end, ".add");
cannam@89 751 if (stat(log->path, &st) == 0 && st.st_size) {
cannam@89 752 len = (size_t)(st.st_size);
cannam@89 753 if (len != st.st_size || (data = malloc(st.st_size)) == NULL) {
cannam@89 754 log_log(log, op, "allocation failure");
cannam@89 755 return -2;
cannam@89 756 }
cannam@89 757 if ((fd = open(log->path, O_RDONLY, 0)) < 0) {
cannam@89 758 log_log(log, op, ".add file read failure");
cannam@89 759 return -1;
cannam@89 760 }
cannam@89 761 ret = read(fd, data, len) != len;
cannam@89 762 close(fd);
cannam@89 763 if (ret) {
cannam@89 764 log_log(log, op, ".add file read failure");
cannam@89 765 return -1;
cannam@89 766 }
cannam@89 767 log_log(log, op, "loaded .add file");
cannam@89 768 }
cannam@89 769 else
cannam@89 770 log_log(log, op, "missing .add file!");
cannam@89 771 }
cannam@89 772
cannam@89 773 /* recover the interrupted operation */
cannam@89 774 switch (op) {
cannam@89 775 case APPEND_OP:
cannam@89 776 ret = log_append(log, data, len);
cannam@89 777 break;
cannam@89 778 case COMPRESS_OP:
cannam@89 779 ret = log_compress(log, data, len);
cannam@89 780 break;
cannam@89 781 case REPLACE_OP:
cannam@89 782 ret = log_replace(log);
cannam@89 783 }
cannam@89 784
cannam@89 785 /* log status */
cannam@89 786 log_log(log, op, ret ? "failure" : "complete");
cannam@89 787
cannam@89 788 /* clean up */
cannam@89 789 if (data != NULL)
cannam@89 790 free(data);
cannam@89 791 return ret;
cannam@89 792 }
cannam@89 793
cannam@89 794 /* Close the foo.gz file (if open) and release the lock. */
cannam@89 795 local void log_close(struct log *log)
cannam@89 796 {
cannam@89 797 if (log->fd >= 0)
cannam@89 798 close(log->fd);
cannam@89 799 log->fd = -1;
cannam@89 800 log_unlock(log);
cannam@89 801 }
cannam@89 802
cannam@89 803 /* Open foo.gz, verify the header, and load the extra field contents, after
cannam@89 804 first creating the foo.lock file to gain exclusive access to the foo.*
cannam@89 805 files. If foo.gz does not exist or is empty, then write the initial header,
cannam@89 806 extra, and body content of an empty foo.gz log file. If there is an error
cannam@89 807 creating the lock file due to access restrictions, or an error reading or
cannam@89 808 writing the foo.gz file, or if the foo.gz file is not a proper log file for
cannam@89 809 this object (e.g. not a gzip file or does not contain the expected extra
cannam@89 810 field), then return true. If there is an error, the lock is released.
cannam@89 811 Otherwise, the lock is left in place. */
cannam@89 812 local int log_open(struct log *log)
cannam@89 813 {
cannam@89 814 int op;
cannam@89 815
cannam@89 816 /* release open file resource if left over -- can occur if lock lost
cannam@89 817 between gzlog_open() and gzlog_write() */
cannam@89 818 if (log->fd >= 0)
cannam@89 819 close(log->fd);
cannam@89 820 log->fd = -1;
cannam@89 821
cannam@89 822 /* negotiate exclusive access */
cannam@89 823 if (log_lock(log) < 0)
cannam@89 824 return -1;
cannam@89 825
cannam@89 826 /* open the log file, foo.gz */
cannam@89 827 strcpy(log->end, ".gz");
cannam@89 828 log->fd = open(log->path, O_RDWR | O_CREAT, 0644);
cannam@89 829 if (log->fd < 0) {
cannam@89 830 log_close(log);
cannam@89 831 return -1;
cannam@89 832 }
cannam@89 833
cannam@89 834 /* if new, initialize foo.gz with an empty log, delete old dictionary */
cannam@89 835 if (lseek(log->fd, 0, SEEK_END) == 0) {
cannam@89 836 if (write(log->fd, log_gzhead, HEAD) != HEAD ||
cannam@89 837 write(log->fd, log_gzext, EXTRA) != EXTRA ||
cannam@89 838 write(log->fd, log_gzbody, BODY) != BODY) {
cannam@89 839 log_close(log);
cannam@89 840 return -1;
cannam@89 841 }
cannam@89 842 strcpy(log->end, ".dict");
cannam@89 843 unlink(log->path);
cannam@89 844 }
cannam@89 845
cannam@89 846 /* verify log file and load extra field information */
cannam@89 847 if ((op = log_head(log)) < 0) {
cannam@89 848 log_close(log);
cannam@89 849 return -1;
cannam@89 850 }
cannam@89 851
cannam@89 852 /* check for interrupted process and if so, recover */
cannam@89 853 if (op != NO_OP && log_recover(log, op)) {
cannam@89 854 log_close(log);
cannam@89 855 return -1;
cannam@89 856 }
cannam@89 857
cannam@89 858 /* touch the lock file to prevent another process from grabbing it */
cannam@89 859 log_touch(log);
cannam@89 860 return 0;
cannam@89 861 }
cannam@89 862
cannam@89 863 /* See gzlog.h for the description of the external methods below */
cannam@89 864 gzlog *gzlog_open(char *path)
cannam@89 865 {
cannam@89 866 size_t n;
cannam@89 867 struct log *log;
cannam@89 868
cannam@89 869 /* check arguments */
cannam@89 870 if (path == NULL || *path == 0)
cannam@89 871 return NULL;
cannam@89 872
cannam@89 873 /* allocate and initialize log structure */
cannam@89 874 log = malloc(sizeof(struct log));
cannam@89 875 if (log == NULL)
cannam@89 876 return NULL;
cannam@89 877 strcpy(log->id, LOGID);
cannam@89 878 log->fd = -1;
cannam@89 879
cannam@89 880 /* save path and end of path for name construction */
cannam@89 881 n = strlen(path);
cannam@89 882 log->path = malloc(n + 9); /* allow for ".repairs" */
cannam@89 883 if (log->path == NULL) {
cannam@89 884 free(log);
cannam@89 885 return NULL;
cannam@89 886 }
cannam@89 887 strcpy(log->path, path);
cannam@89 888 log->end = log->path + n;
cannam@89 889
cannam@89 890 /* gain exclusive access and verify log file -- may perform a
cannam@89 891 recovery operation if needed */
cannam@89 892 if (log_open(log)) {
cannam@89 893 free(log->path);
cannam@89 894 free(log);
cannam@89 895 return NULL;
cannam@89 896 }
cannam@89 897
cannam@89 898 /* return pointer to log structure */
cannam@89 899 return log;
cannam@89 900 }
cannam@89 901
cannam@89 902 /* gzlog_compress() return values:
cannam@89 903 0: all good
cannam@89 904 -1: file i/o error (usually access issue)
cannam@89 905 -2: memory allocation failure
cannam@89 906 -3: invalid log pointer argument */
cannam@89 907 int gzlog_compress(gzlog *logd)
cannam@89 908 {
cannam@89 909 int fd, ret;
cannam@89 910 uint block;
cannam@89 911 size_t len, next;
cannam@89 912 unsigned char *data, buf[5];
cannam@89 913 struct log *log = logd;
cannam@89 914
cannam@89 915 /* check arguments */
cannam@89 916 if (log == NULL || strcmp(log->id, LOGID) || len < 0)
cannam@89 917 return -3;
cannam@89 918
cannam@89 919 /* see if we lost the lock -- if so get it again and reload the extra
cannam@89 920 field information (it probably changed), recover last operation if
cannam@89 921 necessary */
cannam@89 922 if (log_check(log) && log_open(log))
cannam@89 923 return -1;
cannam@89 924
cannam@89 925 /* create space for uncompressed data */
cannam@89 926 len = ((size_t)(log->last - log->first) & ~(((size_t)1 << 10) - 1)) +
cannam@89 927 log->stored;
cannam@89 928 if ((data = malloc(len)) == NULL)
cannam@89 929 return -2;
cannam@89 930
cannam@89 931 /* do statement here is just a cheap trick for error handling */
cannam@89 932 do {
cannam@89 933 /* read in the uncompressed data */
cannam@89 934 if (lseek(log->fd, log->first - 1, SEEK_SET) < 0)
cannam@89 935 break;
cannam@89 936 next = 0;
cannam@89 937 while (next < len) {
cannam@89 938 if (read(log->fd, buf, 5) != 5)
cannam@89 939 break;
cannam@89 940 block = PULL2(buf + 1);
cannam@89 941 if (next + block > len ||
cannam@89 942 read(log->fd, (char *)data + next, block) != block)
cannam@89 943 break;
cannam@89 944 next += block;
cannam@89 945 }
cannam@89 946 if (lseek(log->fd, 0, SEEK_CUR) != log->last + 4 + log->stored)
cannam@89 947 break;
cannam@89 948 log_touch(log);
cannam@89 949
cannam@89 950 /* write the uncompressed data to the .add file */
cannam@89 951 strcpy(log->end, ".add");
cannam@89 952 fd = open(log->path, O_WRONLY | O_CREAT | O_TRUNC, 0644);
cannam@89 953 if (fd < 0)
cannam@89 954 break;
cannam@89 955 ret = write(fd, data, len) != len;
cannam@89 956 if (ret | close(fd))
cannam@89 957 break;
cannam@89 958 log_touch(log);
cannam@89 959
cannam@89 960 /* write the dictionary for the next compress to the .temp file */
cannam@89 961 strcpy(log->end, ".temp");
cannam@89 962 fd = open(log->path, O_WRONLY | O_CREAT | O_TRUNC, 0644);
cannam@89 963 if (fd < 0)
cannam@89 964 break;
cannam@89 965 next = DICT > len ? len : DICT;
cannam@89 966 ret = write(fd, (char *)data + len - next, next) != next;
cannam@89 967 if (ret | close(fd))
cannam@89 968 break;
cannam@89 969 log_touch(log);
cannam@89 970
cannam@89 971 /* roll back to compressed data, mark the compress in progress */
cannam@89 972 log->last = log->first;
cannam@89 973 log->stored = 0;
cannam@89 974 if (log_mark(log, COMPRESS_OP))
cannam@89 975 break;
cannam@89 976 BAIL(7);
cannam@89 977
cannam@89 978 /* compress and append the data (clears mark) */
cannam@89 979 ret = log_compress(log, data, len);
cannam@89 980 free(data);
cannam@89 981 return ret;
cannam@89 982 } while (0);
cannam@89 983
cannam@89 984 /* broke out of do above on i/o error */
cannam@89 985 free(data);
cannam@89 986 return -1;
cannam@89 987 }
cannam@89 988
cannam@89 989 /* gzlog_write() return values:
cannam@89 990 0: all good
cannam@89 991 -1: file i/o error (usually access issue)
cannam@89 992 -2: memory allocation failure
cannam@89 993 -3: invalid log pointer argument */
cannam@89 994 int gzlog_write(gzlog *logd, void *data, size_t len)
cannam@89 995 {
cannam@89 996 int fd, ret;
cannam@89 997 struct log *log = logd;
cannam@89 998
cannam@89 999 /* check arguments */
cannam@89 1000 if (log == NULL || strcmp(log->id, LOGID) || len < 0)
cannam@89 1001 return -3;
cannam@89 1002 if (data == NULL || len == 0)
cannam@89 1003 return 0;
cannam@89 1004
cannam@89 1005 /* see if we lost the lock -- if so get it again and reload the extra
cannam@89 1006 field information (it probably changed), recover last operation if
cannam@89 1007 necessary */
cannam@89 1008 if (log_check(log) && log_open(log))
cannam@89 1009 return -1;
cannam@89 1010
cannam@89 1011 /* create and write .add file */
cannam@89 1012 strcpy(log->end, ".add");
cannam@89 1013 fd = open(log->path, O_WRONLY | O_CREAT | O_TRUNC, 0644);
cannam@89 1014 if (fd < 0)
cannam@89 1015 return -1;
cannam@89 1016 ret = write(fd, data, len) != len;
cannam@89 1017 if (ret | close(fd))
cannam@89 1018 return -1;
cannam@89 1019 log_touch(log);
cannam@89 1020
cannam@89 1021 /* mark log file with append in progress */
cannam@89 1022 if (log_mark(log, APPEND_OP))
cannam@89 1023 return -1;
cannam@89 1024 BAIL(8);
cannam@89 1025
cannam@89 1026 /* append data (clears mark) */
cannam@89 1027 if (log_append(log, data, len))
cannam@89 1028 return -1;
cannam@89 1029
cannam@89 1030 /* check to see if it's time to compress -- if not, then done */
cannam@89 1031 if (((log->last - log->first) >> 10) + (log->stored >> 10) < TRIGGER)
cannam@89 1032 return 0;
cannam@89 1033
cannam@89 1034 /* time to compress */
cannam@89 1035 return gzlog_compress(log);
cannam@89 1036 }
cannam@89 1037
cannam@89 1038 /* gzlog_close() return values:
cannam@89 1039 0: ok
cannam@89 1040 -3: invalid log pointer argument */
cannam@89 1041 int gzlog_close(gzlog *logd)
cannam@89 1042 {
cannam@89 1043 struct log *log = logd;
cannam@89 1044
cannam@89 1045 /* check arguments */
cannam@89 1046 if (log == NULL || strcmp(log->id, LOGID))
cannam@89 1047 return -3;
cannam@89 1048
cannam@89 1049 /* close the log file and release the lock */
cannam@89 1050 log_close(log);
cannam@89 1051
cannam@89 1052 /* free structure and return */
cannam@89 1053 if (log->path != NULL)
cannam@89 1054 free(log->path);
cannam@89 1055 strcpy(log->id, "bad");
cannam@89 1056 free(log);
cannam@89 1057 return 0;
cannam@89 1058 }