Mercurial > notdcc
view rrd-combine/rrd-combine.c @ 0:c7f6b056b673
First import of vendor version
author | Peter Gervai <grin@grin.hu> |
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date | Tue, 10 Mar 2009 13:49:58 +0100 |
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/* Distributed Checksum Clearinghouse * * combine RRD databases * * Copyright (c) 2008 by Rhyolite Software, LLC * * This agreement is not applicable to any entity which sells anti-spam * solutions to others or provides an anti-spam solution as part of a * security solution sold to other entities, or to a private network * which employs the DCC or uses data provided by operation of the DCC * but does not provide corresponding data to other users. * * Permission to use, copy, modify, and distribute this software without * changes for any purpose with or without fee is hereby granted, provided * that the above copyright notice and this permission notice appear in all * copies and any distributed versions or copies are either unchanged * or not called anything similar to "DCC" or "Distributed Checksum * Clearinghouse". * * Parties not eligible to receive a license under this agreement can * obtain a commercial license to use DCC by contacting Rhyolite Software * at sales@rhyolite.com. * * A commercial license would be for Distributed Checksum and Reputation * Clearinghouse software. That software includes additional features. This * free license for Distributed ChecksumClearinghouse Software does not in any * way grant permision to use Distributed Checksum and Reputation Clearinghouse * software * * THE SOFTWARE IS PROVIDED "AS IS" AND RHYOLITE SOFTWARE, LLC DISCLAIMS ALL * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL RHYOLITE SOFTWARE, LLC * BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES * OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, * WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, * ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS * SOFTWARE. * * Rhyolite Software DCC 1.3.103-1.8 $Revision$ */ #include "dcc_defs.h" #include <math.h> #define PROGNAME "rrd-combine: " /* *********************************************************************** */ /* copied from rrd.h and rrd_format.h */ typedef double rrd_value_t; typedef union unival { unsigned long u_cnt; rrd_value_t u_val; } unival; typedef struct stat_head_t { char cookie[4]; char version[5]; double float_cookie; unsigned long ds_cnt; unsigned long rra_cnt; unsigned long pdp_step; unival par[10]; } stat_head_t; #define DS_NAM_SIZE 20 #define DST_SIZE 20 typedef struct ds_def_t { char ds_nam[DS_NAM_SIZE]; char dst[DST_SIZE]; unival par[10]; } ds_def_t; #define CF_NAM_SIZE 20 #define MAX_RRA_PAR_EN 10 typedef struct rra_def_t { char cf_nam[CF_NAM_SIZE]; unsigned long row_cnt; unsigned long pdp_cnt; unival par[MAX_RRA_PAR_EN]; } rra_def_t; #define LAST_DS_LEN 30 typedef struct pdp_prep_t{ char last_ds[LAST_DS_LEN]; unival scratch[10]; } pdp_prep_t; #define MAX_CDP_PAR_EN 10 typedef struct cdp_prep_t{ unival scratch[MAX_CDP_PAR_EN]; } cdp_prep_t; typedef struct rra_ptr_t { unsigned long cur_row; } rra_ptr_t; typedef struct rrd_t { const char *fnm; int fd; struct stat sb; stat_head_t *stat_head; /* the static header */ ds_def_t *ds_def; /* list of data source definitions */ rra_def_t *rra_def; /* list of round robin archive def */ struct timeval last_update; pdp_prep_t *pdp_prep; /* pdp data prep area */ cdp_prep_t *cdp_prep; /* cdp prep area */ rra_ptr_t *rra_ptr; /* list of rra pointers */ rrd_value_t *rrd_value; /* list of rrd values */ } rrd_t; /* *********************************************************************** */ static DCC_EMSG dcc_emsg; static const char *ofile; static u_char force; static u_char keep_mtime; static u_char verbose; static void NRATTRIB usage(void) { dcc_logbad(EX_USAGE, "usage: [-fkv] [-d dir] -o ofile ifile1 ifile2 ..."); } static void unmap_rrd(rrd_t *rrd) { if (rrd->stat_head) { if (munmap(rrd->stat_head, rrd->sb.st_size) < 0) dcc_logbad(EX_IOERR, PROGNAME"munmap(%s, "OFF_DPAT"): %s", rrd->fnm, rrd->sb.st_size, strerror(errno)); } } static void rrd_close(rrd_t *rrd) { unmap_rrd(rrd); if (rrd->fd >= 0) { if (close(rrd->fd) < 0) dcc_logbad(EX_IOERR, PROGNAME"close(%s): %s", rrd->fnm, strerror(errno)); rrd->fd = -1; } } static void rrd_stat(rrd_t *rrd) { if (0 > fstat(rrd->fd, &rrd->sb)) dcc_logbad(EX_IOERR, PROGNAME"stat(%s): %s", rrd->fnm, strerror(errno)); if (rrd->sb.st_size <= ISZ(rrd->stat_head)) { dcc_logbad(EX_DATAERR, PROGNAME"%s has too small size "OFF_DPAT"", rrd->fnm, rrd->sb.st_size); } } static void map_rrd(rrd_t *rrd, u_char in) { struct timeval *tv; unmap_rrd(rrd); rrd_stat(rrd); rrd->stat_head = (stat_head_t *)mmap(0, rrd->sb.st_size, in ? PROT_READ :(PROT_READ | PROT_WRITE), MAP_SHARED, rrd->fd, 0); if (rrd->stat_head == (stat_head_t *)MAP_FAILED) dcc_logbad(EX_IOERR, PROGNAME"mmap(%s): %s", ofile, strerror(errno)); rrd->ds_def = (ds_def_t *)&rrd->stat_head[1]; rrd->rra_def = (rra_def_t *)&rrd->ds_def[rrd->stat_head->ds_cnt]; tv = (struct timeval *)&rrd->rra_def[rrd->stat_head->rra_cnt]; rrd->last_update.tv_sec = tv->tv_sec; if (!strcmp(rrd->stat_head->version, "0001")) { rrd->last_update.tv_usec = 0; rrd->pdp_prep = (pdp_prep_t *)(&tv->tv_sec + 1); } else { rrd->last_update.tv_usec = tv->tv_usec; rrd->pdp_prep = (pdp_prep_t *)(tv + 1); } rrd->cdp_prep = (cdp_prep_t *)&rrd->pdp_prep[rrd->stat_head->ds_cnt]; rrd->rra_ptr = (rra_ptr_t *)&rrd->cdp_prep[rrd->stat_head->rra_cnt * rrd->stat_head->ds_cnt]; rrd->rrd_value =(rrd_value_t*)&rrd->rra_ptr[rrd->stat_head->rra_cnt]; } static void map_ifile(rrd_t *rrd, const char *new_fnm, const rrd_t *o_rrd) { # define PAD 128 const rra_def_t *i_def, *o_def; const char *old_fnm; off_t old_len; u_long l; int i; old_fnm = rrd->fnm; old_len = rrd->sb.st_size; if (rrd->fd >= 0) rrd_close(rrd); rrd->fnm = new_fnm; rrd->fd = open(rrd->fnm, O_RDONLY, 0); if (rrd->fd < 0) dcc_logbad(EX_USAGE, PROGNAME"open(%s): %s", rrd->fnm, strerror(errno)); rrd_stat(rrd); if (old_fnm && rrd->sb.st_size >= old_len + PAD) dcc_logbad(EX_DATAERR, PROGNAME"%s has "OFF_DPAT" bytes, more than " OFF_DPAT" in %s", new_fnm, rrd->sb.st_size, old_len, old_fnm); map_rrd(rrd, 1); if (o_rrd) { if (rrd->stat_head->rra_cnt != o_rrd->stat_head->rra_cnt) dcc_logbad(EX_DATAERR, PROGNAME"%ld instead of %ld RRAs in %s", rrd->stat_head->rra_cnt, o_rrd->stat_head->rra_cnt, rrd->fnm); if (rrd->stat_head->ds_cnt != o_rrd->stat_head->ds_cnt) dcc_logbad(EX_DATAERR, PROGNAME"%ld instead of %ld DSs in %s", rrd->stat_head->ds_cnt, o_rrd->stat_head->ds_cnt, rrd->fnm); if (rrd->stat_head->pdp_step != o_rrd->stat_head->pdp_step) dcc_logbad(EX_DATAERR, PROGNAME"%ld instead of %ld step in %s", rrd->stat_head->pdp_step, o_rrd->stat_head->pdp_step, rrd->fnm); for (l = 0, i_def = rrd->rra_def, o_def = o_rrd->rra_def; l < o_rrd->stat_head->rra_cnt; ++l, ++i_def, ++o_def) { if (o_def->row_cnt != i_def->row_cnt) dcc_logbad(EX_DATAERR, PROGNAME"%ld instead of %ld" " rows in RRA #%d in %s", i_def->row_cnt, o_def->row_cnt, i, rrd->fnm); if (o_def->pdp_cnt != i_def->pdp_cnt) dcc_logbad(EX_DATAERR, PROGNAME"%ld instead of %ld" " data points in RRA #%d in %s", i_def->pdp_cnt, o_def->pdp_cnt, i, rrd->fnm); } } } int NRATTRIB main(int argc, char **argv) { rrd_t o_rrd, i_rrd; int fno, len; rrd_value_t *i_base, *o_base; u_long rrd; int rows, cols, row, i_row, o_row, col; rrd_value_t i_val, o_val; struct timeval tv; int newest; char tbuf[30]; int i; memset(&i_rrd, 0, sizeof(i_rrd)); i_rrd.fd = -1; memset(&o_rrd, 0, sizeof(o_rrd)); o_rrd.fd = -1; while ((i = getopt(argc, argv, "fkvd:o:")) != -1) { switch (i) { case 'f': force = 1; break; case 'k': keep_mtime = 1; break; case 'v': ++verbose; break; case 'd': if (0 > chdir(optarg)) dcc_logbad(EX_USAGE, "chdir(%s): %s", optarg, strerror(errno)); break; case 'o': ofile = optarg; break; default: usage(); } } argc -= optind; argv += optind; if (argc < 2 || !ofile) usage(); /* find the newest file */ map_ifile(&i_rrd, argv[0], 0); tv = i_rrd.last_update; newest = 0; if (verbose > 1) dcc_trace_msg(PROGNAME"%s last updated %s.%06d", argv[0], dcc_time2str(tbuf, sizeof(tbuf), "%X", tv.tv_sec), (int)tv.tv_usec); for (fno = 1; fno < argc; ++fno) { map_ifile(&i_rrd, argv[fno], 0); if (tv.tv_sec > i_rrd.last_update.tv_sec || (tv.tv_sec == i_rrd.last_update.tv_sec && tv.tv_usec > i_rrd.last_update.tv_usec)) continue; if (verbose > 1) dcc_trace_msg("%40s last updated %s.%06d", argv[fno], dcc_time2str(tbuf, sizeof(tbuf), "%X", i_rrd.last_update.tv_sec), (int)i_rrd.last_update.tv_usec); tv = i_rrd.last_update; newest = fno; } if (verbose > 1) dcc_trace_msg(" %s is newest", argv[newest]); /* create and mmap() the output file */ o_rrd.fd = open(ofile, O_RDWR | O_CREAT | (force ? O_TRUNC : O_EXCL), 0666); if (o_rrd.fd < 0) dcc_logbad(EX_IOERR, PROGNAME"open(%s): %s", ofile, strerror(errno)); /* copy the newest input file to the output file */ map_ifile(&i_rrd, argv[newest], 0); len = write(o_rrd.fd, i_rrd.stat_head, i_rrd.sb.st_size); if (len != i_rrd.sb.st_size) dcc_logbad(EX_IOERR, PROGNAME"write(%s, "OFF_DPAT") = %d: %s", o_rrd.fnm, i_rrd.sb.st_size, len, strerror(errno)); map_rrd(&o_rrd, 0); for (fno = 0; fno < argc; ++fno) { if (fno == newest) continue; map_ifile(&i_rrd, argv[fno], &o_rrd); i_base = i_rrd.rrd_value; o_base = o_rrd.rrd_value; for (rrd = 0; rrd < o_rrd.stat_head->rra_cnt; ++rrd) { rows = o_rrd.rra_def[rrd].row_cnt; cols = i_rrd.stat_head->ds_cnt; /* find last row in the two RRDs numbered as * data consolidation moments since the UNIX epoch */ i_row = (i_rrd.last_update.tv_sec / (i_rrd.rra_def[rrd].pdp_cnt * i_rrd.stat_head->pdp_step)); o_row = (o_rrd.last_update.tv_sec / (o_rrd.rra_def[rrd].pdp_cnt * o_rrd.stat_head->pdp_step)); /* Find the number of rows to combine. */ i = o_row - i_row; if (i >= 0) { /* If the output RRD is newer than the input, * then we will add only some of the input * rows. */ row = rows - i; } else { /* we have problems if the output is older */ dcc_error_msg(PROGNAME "%s newer than %s", argv[fno], argv[1]); dcc_error_msg(" i_rrd.last_update.tv_sec" " / (rra_def[%lu].pdp_cnt" " * stat_head->pdp_step)" "\n\t= %d / (%lu * %lu) = %d", rrd, i_rrd.last_update.tv_sec, i_rrd.rra_def[rrd].pdp_cnt, i_rrd.stat_head->pdp_step, i_row); dcc_logbad(EX_DATAERR, " o_rrd.last_update.tv_sec" " / (rra_def[%lu].pdp_cnt" " * stat_head->pdp_step)" "\n\t= %d / (%lu * %lu) = %d", rrd, o_rrd.last_update.tv_sec, o_rrd.rra_def[rrd].pdp_cnt, o_rrd.stat_head->pdp_step, o_row); } i_row = (i_rrd.rra_ptr[rrd].cur_row + 1) * cols; o_row = (o_rrd.rra_ptr[rrd].cur_row + 1) * cols; do { /* wrap to the start at the last row */ if (i_row >= rows*cols) i_row = 0; if (o_row >= rows*cols) o_row = 0; for (col = 0; col < cols; ++col, ++i_row, ++o_row) { i_val = i_base[i_row]; if (isnan(i_val)) continue; o_val = o_base[o_row]; if (isnan(o_val)) { o_val = i_val; } else { o_val += i_val; } o_base[o_row] = o_val; } } while (--row > 0); i_base += rows * cols; o_base += rows * cols; } } unmap_rrd(&o_rrd); fsync(o_rrd.fd); if (!keep_mtime && !dcc_set_mtime(dcc_emsg, ofile, o_rrd.fd, &o_rrd.last_update)) { dcc_logbad(EX_IOERR, PROGNAME"%s", dcc_emsg); exit(1); } exit(0); }