Current Path : /usr/src/usr.sbin/fifolog/lib/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/usr.sbin/fifolog/lib/fifolog_reader.c |
/*- * Copyright (c) 2005-2008 Poul-Henning Kamp * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD: release/9.1.0/usr.sbin/fifolog/lib/fifolog_reader.c 219027 2011-02-25 09:40:17Z phk $ */ #include <stdio.h> #include <unistd.h> #include <assert.h> #include <err.h> #include <time.h> #include <string.h> #include <stdlib.h> #include <zlib.h> #include <sys/endian.h> #include "fifolog.h" #include "libfifolog.h" #include "libfifolog_int.h" #include "miniobj.h" /*--------------------------------------------------------------------*/ struct fifolog_reader { unsigned magic; #define FIFOLOG_READER_MAGIC 0x1036d139 struct fifolog_file *ff; unsigned olen; unsigned char *obuf; time_t now; }; struct fifolog_reader * fifolog_reader_open(const char *fname) { const char *retval; struct fifolog_reader *fr; int i; fr = calloc(sizeof *fr, 1); if (fr == NULL) err(1, "Cannot malloc"); retval = fifolog_int_open(&fr->ff, fname, 0); if (retval != NULL) err(1, "%s", retval); fr->olen = fr->ff->recsize * 16; fr->obuf = calloc(fr->olen, 1); if (fr->obuf == NULL) err(1, "Cannot malloc"); i = inflateInit(fr->ff->zs); assert(i == Z_OK); fr->magic = FIFOLOG_READER_MAGIC; return (fr); } /* * Find the next SYNC block * * Return: * 0 - empty fifolog * 1 - found sync block * 2 - would have wrapped around * 3 - End of written log. */ static int fifolog_reader_findsync(const struct fifolog_file *ff, off_t *o) { int e; unsigned seq, seqs; assert(*o < ff->logsize); e = fifolog_int_read(ff, *o); if (e) err(1, "Read error (%d) while looking for SYNC", e); seq = be32dec(ff->recbuf); if (*o == 0 && seq == 0) return (0); if (ff->recbuf[4] & FIFOLOG_FLG_SYNC) return (1); /* That was easy... */ while(1) { assert(*o < ff->logsize); (*o)++; seq++; if (*o == ff->logsize) return (2); /* wraparound */ e = fifolog_int_read(ff, *o); if (e) err(1, "Read error (%d) while looking for SYNC", e); seqs = be32dec(ff->recbuf); if (seqs != seq) return (3); /* End of log */ if (ff->recbuf[4] & FIFOLOG_FLG_SYNC) return (1); /* Bingo! */ } } /* * Seek out a given timestamp */ off_t fifolog_reader_seek(const struct fifolog_reader *fr, time_t t0) { off_t o, s, st; time_t t, tt; unsigned seq, seqs; const char *retval; int e; CHECK_OBJ_NOTNULL(fr, FIFOLOG_READER_MAGIC); /* * First, find the first SYNC block */ o = 0; e = fifolog_reader_findsync(fr->ff, &o); if (e == 0) return (0); /* empty fifolog */ assert(e == 1); assert(fr->ff->recbuf[4] & FIFOLOG_FLG_SYNC); seq = be32dec(fr->ff->recbuf); t = be32dec(fr->ff->recbuf + 5); if (t > t0) { /* Check if there is a second older part we can use */ retval = fifolog_int_findend(fr->ff, &s); if (retval != NULL) err(1, "%s", retval); s++; e = fifolog_reader_findsync(fr->ff, &s); if (e == 0) return (0); /* empty fifolog */ if (e == 1) { o = s; seq = be32dec(fr->ff->recbuf); t = be32dec(fr->ff->recbuf + 5); } } /* Now do a binary search to find the sync block right before t0 */ s = st = (fr->ff->logsize - o) / 2; while (s > 1) { /* We know we shouldn't wrap */ if (o + st > fr->ff->logsize + 1) { s = st = s / 2; continue; } e = fifolog_int_read(fr->ff, o + st); if (e) { s = st = s / 2; continue; } /* If not in same part, sequence won't match */ seqs = be32dec(fr->ff->recbuf); if (seqs != seq + st) { s = st = s / 2; continue; } /* If not sync block, try next */ if (!(fr->ff->recbuf[4] & FIFOLOG_FLG_SYNC)) { st++; continue; } /* Check timestamp */ tt = be32dec(fr->ff->recbuf + 5); if (tt >= t0) { s = st = s / 2; continue; } o += st; seq = seqs; } fprintf(stderr, "Read from %jx\n", o * fr->ff->recsize); return (o); } static unsigned char * fifolog_reader_chop(struct fifolog_reader *fr, fifolog_reader_render_t *func, void *priv) { u_char *p, *q; uint32_t v, w, u; p = fr->obuf; q = fr->obuf + (fr->olen - fr->ff->zs->avail_out); while (1) { /* Make sure we have a complete header */ if (p + 5 >= q) return (p); w = 4; u = be32dec(p); if (u & FIFOLOG_TIMESTAMP) { fr->now = be32dec(p + 4); w += 4; } if (u & FIFOLOG_LENGTH) { v = p[w]; w++; if (p + w + v >= q) return (p); } else { for (v = 0; p + v + w < q && p[v + w] != '\0'; v++) continue; if (p + v + w >= q) return (p); v++; } func(priv, fr->now, u, p + w, v); p += w + v; } } /* * Process fifolog until end of written log or provided timestamp */ void fifolog_reader_process(struct fifolog_reader *fr, off_t from, fifolog_reader_render_t *func, void *priv, time_t end) { uint32_t seq, lseq; off_t o = from; int i, e; time_t t; u_char *p, *q; z_stream *zs; CHECK_OBJ_NOTNULL(fr, FIFOLOG_READER_MAGIC); zs = fr->ff->zs; lseq = 0; while (1) { e = fifolog_int_read(fr->ff, o); if (e) err(1, "Read error (%d)", e); if (++o >= fr->ff->logsize) o = 0; seq = be32dec(fr->ff->recbuf); if (lseq != 0 && seq != lseq + 1) break; lseq = seq; zs->avail_in = fr->ff->recsize - 5; zs->next_in = fr->ff->recbuf + 5; if (fr->ff->recbuf[4] & FIFOLOG_FLG_1BYTE) zs->avail_in -= fr->ff->recbuf[fr->ff->recsize - 1]; if (fr->ff->recbuf[4] & FIFOLOG_FLG_4BYTE) zs->avail_in -= be32dec(fr->ff->recbuf + fr->ff->recsize - 4); if (fr->ff->recbuf[4] & FIFOLOG_FLG_SYNC) { i = inflateReset(zs); assert(i == Z_OK); zs->next_out = fr->obuf; zs->avail_out = fr->olen; t = be32dec(fr->ff->recbuf + 5); if (t > end) break; zs->next_in += 4; zs->avail_in -= 4; } while(zs->avail_in > 0) { i = inflate(zs, 0); if (i == Z_BUF_ERROR) { #if 1 fprintf(stderr, "Z_BUF_ERROR [%d,%d] [%d,%d,%d]\n", (int)(zs->next_in - fr->ff->recbuf), zs->avail_in, (int)(zs->next_out - fr->obuf), zs->avail_out, fr->olen); exit (250); #else i = Z_OK; #endif } if (i == Z_STREAM_END) { i = inflateReset(zs); } if (i != Z_OK) { fprintf(stderr, "inflate = %d\n", i); exit (250); } assert(i == Z_OK); if (zs->avail_out != fr->olen) { q = fr->obuf + (fr->olen - zs->avail_out); p = fifolog_reader_chop(fr, func, priv); if (p < q) (void)memmove(fr->obuf, p, q - p); zs->avail_out = fr->olen - (q - p); zs->next_out = fr->obuf + (q - p); } } } }