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raw | patch | inline | side by side (parent: bf9335c)
raw | patch | inline | side by side (parent: bf9335c)
| author | oetiker <oetiker@a5681a0c-68f1-0310-ab6d-d61299d08faa> | |
| Sat, 14 Jan 2006 09:10:16 +0000 (09:10 +0000) | ||
| committer | oetiker <oetiker@a5681a0c-68f1-0310-ab6d-d61299d08faa> | |
| Sat, 14 Jan 2006 09:10:16 +0000 (09:10 +0000) |
git-svn-id: svn://svn.oetiker.ch/rrdtool/branches/1.2/program@742 a5681a0c-68f1-0310-ab6d-d61299d08faa
diff --git a/CONTRIBUTORS b/CONTRIBUTORS
index 71566c6fe141630a3d13495c606dd7c23c0c06bb..79c79ba5f508181a2fb4e9622fa6c665fc11883c 100644 (file)
--- a/CONTRIBUTORS
+++ b/CONTRIBUTORS
Philippe Simonet <philippe.simonet with swisscom.ch> (Windows Binaries)
Alexander Lucke (lucke with dns-net.de)
of DNS:NET Internet Services (www.dns-net.de) http://rrdtool.org
+Hedley Simons <heds@metahusky.net>
+Nicola Worthington <nicolaw@cpan.org>
index 1e116449b780adf9c62f0a743f868da63f03d627..77aafe7d9cbae307b4ea9412f3ff2830f59b9c13 100644 (file)
RRDs::fetch ...
RRDs::tune ...
RRDs::times(start, end)
+ RRDs::dump ...
+ RRDs::restore ...
=head1 DESCRIPTION
diff --git a/bindings/tcl/tclrrd.c b/bindings/tcl/tclrrd.c
index 6a5250c66632cb92f1ce62bd07937cb8dd6ee9e3..e9cff801294761d6c2ace0b6f12f79225a5c0b53 100644 (file)
--- a/bindings/tcl/tclrrd.c
+++ b/bindings/tcl/tclrrd.c
@@ -195,7 +195,7 @@ Rrd_Dump(ClientData clientData, Tcl_Interp *interp, int argc, CONST84 char *argv
return TCL_ERROR;
}
- rrd_dump_r(argv[1]);
+ rrd_dump_r(argv[1], NULL);
/* NOTE: rrd_dump() writes to stdout. No interaction with TCL. */
diff --git a/doc/rrddump.pod b/doc/rrddump.pod
index d38aef5a22341ff3a3fa19f828fa126659a2b065..aa2a7e707f1f48271f39c8244fdb3ad74a6c4313 100644 (file)
--- a/doc/rrddump.pod
+++ b/doc/rrddump.pod
B<rrdtool> B<dump> I<filename.rrd> E<gt> I<filename.xml>
+or
+
+B<rrdtool> B<dump> I<filename.rrd> I<filename.xml>
+
=head1 DESCRIPTION
-The B<dump> function prints the contents of an B<RRD> in human
-readable (?) XML format. This format can be read by rrdrestore.
-Together they allow you to transfer your files from one computer architecture
-to another as well to manipulate the contents of an B<RRD> file in a
-somewhat more convenient manner.
+The B<dump> function writes the contents of an B<RRD> in human
+readable (?) XML format to a file or to stdout. This format can
+be read by rrdrestore. Together they allow you to transfer your
+files from one computer architecture to another as well to
+manipulate the contents of an B<RRD> file in a somewhat more
+convenient manner.
The name of the B<RRD> you want to dump.
+=item I<filename.xml>
+
+The (optional) filename that you want to write the XML output to.
+If not specified, the XML will be printed to stdout.
+
=back
=head1 EXAMPLES
diff --git a/src/rrd.h b/src/rrd.h
index fc17a658c12c2c2f2746975d2e399460065ec12b..069ca2a1d4edace0967e63fc4cc78f359b26338f 100644 (file)
--- a/src/rrd.h
+++ b/src/rrd.h
specifications get used!!! */
int rrd_update_r(char *filename, char *_template,
int argc, char **argv);
-int rrd_dump_r(char *filename);
+int rrd_dump_r(char *filename, char *outname);
time_t rrd_last_r(const char *filename);
time_t rrd_first_r(const char *filename, int rraindex);
diff --git a/src/rrd_dump.c b/src/rrd_dump.c
index dfc776b839c0a675375b097ea9892c4d7d5bf8df..65697437aee52e3b663d969f877bddffb68f5c3e 100644 (file)
--- a/src/rrd_dump.c
+++ b/src/rrd_dump.c
* checkin
*
*****************************************************************************/
-
#include "rrd_tool.h"
#include "rrd_rpncalc.h"
return -1;
}
- rc = rrd_dump_r(argv[1]);
-
+ if (argc == 3)
+ {
+ rc = rrd_dump_r(argv[1], argv[2]);
+ }
+ else
+ {
+ rc = rrd_dump_r(argv[1], NULL);
+ }
+
return rc;
}
int
-rrd_dump_r(char *filename)
+rrd_dump_r(char *filename, char *outname)
{
unsigned int i,ii,ix,iii=0;
time_t now;
rrd_value_t my_cdp;
long rra_base, rra_start, rra_next;
FILE *in_file;
+ FILE *out_file;
rrd_t rrd;
rrd_value_t value;
struct tm tm;
return(-1);
}
- puts("<!-- Round Robin Database Dump -->");
- puts("<rrd>");
- printf("\t<version> %s </version>\n",RRD_VERSION);
- printf("\t<step> %lu </step> <!-- Seconds -->\n",rrd.stat_head->pdp_step);
+ out_file = NULL;
+ if (outname)
+ {
+ if (!(out_file = fopen(outname, "w")))
+ {
+ return (-1);
+ }
+ }
+ else
+ {
+ out_file = stdout;
+ }
+
+ fputs("<!-- Round Robin Database Dump -->", out_file);
+ fputs("<rrd>", out_file);
+ fprintf(out_file, "\t<version> %s </version>\n",RRD_VERSION);
+ fprintf(out_file, "\t<step> %lu </step> <!-- Seconds -->\n",rrd.stat_head->pdp_step);
#if HAVE_STRFTIME
localtime_r(&rrd.live_head->last_up, &tm);
strftime(somestring,200,"%Y-%m-%d %H:%M:%S %Z",
#else
# error "Need strftime"
#endif
- printf("\t<lastupdate> %ld </lastupdate> <!-- %s -->\n\n",
+ fprintf(out_file, "\t<lastupdate> %ld </lastupdate> <!-- %s -->\n\n",
rrd.live_head->last_up,somestring);
for(i=0;i<rrd.stat_head->ds_cnt;i++){
- printf("\t<ds>\n");
- printf("\t\t<name> %s </name>\n",rrd.ds_def[i].ds_nam);
- printf("\t\t<type> %s </type>\n",rrd.ds_def[i].dst);
+ fprintf(out_file, "\t<ds>\n");
+ fprintf(out_file, "\t\t<name> %s </name>\n",rrd.ds_def[i].ds_nam);
+ fprintf(out_file, "\t\t<type> %s </type>\n",rrd.ds_def[i].dst);
if (dst_conv(rrd.ds_def[i].dst) != DST_CDEF) {
- printf("\t\t<minimal_heartbeat> %lu </minimal_heartbeat>\n",rrd.ds_def[i].par[DS_mrhb_cnt].u_cnt);
+ fprintf(out_file, "\t\t<minimal_heartbeat> %lu </minimal_heartbeat>\n",rrd.ds_def[i].par[DS_mrhb_cnt].u_cnt);
if (isnan(rrd.ds_def[i].par[DS_min_val].u_val)){
- printf("\t\t<min> NaN </min>\n");
+ fprintf(out_file, "\t\t<min> NaN </min>\n");
} else {
- printf("\t\t<min> %0.10e </min>\n",rrd.ds_def[i].par[DS_min_val].u_val);
+ fprintf(out_file, "\t\t<min> %0.10e </min>\n",rrd.ds_def[i].par[DS_min_val].u_val);
}
if (isnan(rrd.ds_def[i].par[DS_max_val].u_val)){
- printf("\t\t<max> NaN </max>\n");
+ fprintf(out_file, "\t\t<max> NaN </max>\n");
} else {
- printf("\t\t<max> %0.10e </max>\n",rrd.ds_def[i].par[DS_max_val].u_val);
+ fprintf(out_file, "\t\t<max> %0.10e </max>\n",rrd.ds_def[i].par[DS_max_val].u_val);
}
} else { /* DST_CDEF */
char *str;
rpn_compact2str((rpn_cdefds_t *) &(rrd.ds_def[i].par[DS_cdef]),rrd.ds_def,&str);
- printf("\t\t<cdef> %s </cdef>\n", str);
+ fprintf(out_file, "\t\t<cdef> %s </cdef>\n", str);
free(str);
}
- printf("\n\t\t<!-- PDP Status -->\n");
- printf("\t\t<last_ds> %s </last_ds>\n",rrd.pdp_prep[i].last_ds);
+ fprintf(out_file, "\n\t\t<!-- PDP Status -->\n");
+ fprintf(out_file, "\t\t<last_ds> %s </last_ds>\n",rrd.pdp_prep[i].last_ds);
if (isnan(rrd.pdp_prep[i].scratch[PDP_val].u_val)){
- printf("\t\t<value> NaN </value>\n");
+ fprintf(out_file, "\t\t<value> NaN </value>\n");
} else {
- printf("\t\t<value> %0.10e </value>\n",rrd.pdp_prep[i].scratch[PDP_val].u_val);
+ fprintf(out_file, "\t\t<value> %0.10e </value>\n",rrd.pdp_prep[i].scratch[PDP_val].u_val);
}
- printf("\t\t<unknown_sec> %lu </unknown_sec>\n",
+ fprintf(out_file, "\t\t<unknown_sec> %lu </unknown_sec>\n",
rrd.pdp_prep[i].scratch[PDP_unkn_sec_cnt].u_cnt);
- printf("\t</ds>\n\n");
+ fprintf(out_file, "\t</ds>\n\n");
}
- puts("<!-- Round Robin Archives -->");
+ fputs("<!-- Round Robin Archives -->", out_file);
rra_base=ftell(in_file);
rra_next = rra_base;
rra_next += ( rrd.stat_head->ds_cnt
* rrd.rra_def[i].row_cnt
* sizeof(rrd_value_t));
- printf("\t<rra>\n");
- printf("\t\t<cf> %s </cf>\n",rrd.rra_def[i].cf_nam);
- printf("\t\t<pdp_per_row> %lu </pdp_per_row> <!-- %lu seconds -->\n\n",
+ fprintf(out_file, "\t<rra>\n");
+ fprintf(out_file, "\t\t<cf> %s </cf>\n",rrd.rra_def[i].cf_nam);
+ fprintf(out_file, "\t\t<pdp_per_row> %lu </pdp_per_row> <!-- %lu seconds -->\n\n",
rrd.rra_def[i].pdp_cnt, rrd.rra_def[i].pdp_cnt
*rrd.stat_head->pdp_step);
/* support for RRA parameters */
- printf("\t\t<params>\n");
+ fprintf(out_file, "\t\t<params>\n");
switch(cf_conv(rrd.rra_def[i].cf_nam)) {
case CF_HWPREDICT:
- printf("\t\t<hw_alpha> %0.10e </hw_alpha>\n",
+ fprintf(out_file, "\t\t<hw_alpha> %0.10e </hw_alpha>\n",
rrd.rra_def[i].par[RRA_hw_alpha].u_val);
- printf("\t\t<hw_beta> %0.10e </hw_beta>\n",
+ fprintf(out_file, "\t\t<hw_beta> %0.10e </hw_beta>\n",
rrd.rra_def[i].par[RRA_hw_beta].u_val);
- printf("\t\t<dependent_rra_idx> %lu </dependent_rra_idx>\n",
+ fprintf(out_file, "\t\t<dependent_rra_idx> %lu </dependent_rra_idx>\n",
rrd.rra_def[i].par[RRA_dependent_rra_idx].u_cnt);
break;
case CF_SEASONAL:
case CF_DEVSEASONAL:
- printf("\t\t<seasonal_gamma> %0.10e </seasonal_gamma>\n",
+ fprintf(out_file, "\t\t<seasonal_gamma> %0.10e </seasonal_gamma>\n",
rrd.rra_def[i].par[RRA_seasonal_gamma].u_val);
- printf("\t\t<seasonal_smooth_idx> %lu </seasonal_smooth_idx>\n",
+ fprintf(out_file, "\t\t<seasonal_smooth_idx> %lu </seasonal_smooth_idx>\n",
rrd.rra_def[i].par[RRA_seasonal_smooth_idx].u_cnt);
- printf("\t\t<dependent_rra_idx> %lu </dependent_rra_idx>\n",
+ fprintf(out_file, "\t\t<dependent_rra_idx> %lu </dependent_rra_idx>\n",
rrd.rra_def[i].par[RRA_dependent_rra_idx].u_cnt);
break;
case CF_FAILURES:
- printf("\t\t<delta_pos> %0.10e </delta_pos>\n",
+ fprintf(out_file, "\t\t<delta_pos> %0.10e </delta_pos>\n",
rrd.rra_def[i].par[RRA_delta_pos].u_val);
- printf("\t\t<delta_neg> %0.10e </delta_neg>\n",
+ fprintf(out_file, "\t\t<delta_neg> %0.10e </delta_neg>\n",
rrd.rra_def[i].par[RRA_delta_neg].u_val);
- printf("\t\t<window_len> %lu </window_len>\n",
+ fprintf(out_file, "\t\t<window_len> %lu </window_len>\n",
rrd.rra_def[i].par[RRA_window_len].u_cnt);
- printf("\t\t<failure_threshold> %lu </failure_threshold>\n",
+ fprintf(out_file, "\t\t<failure_threshold> %lu </failure_threshold>\n",
rrd.rra_def[i].par[RRA_failure_threshold].u_cnt);
/* fall thru */
case CF_DEVPREDICT:
- printf("\t\t<dependent_rra_idx> %lu </dependent_rra_idx>\n",
+ fprintf(out_file, "\t\t<dependent_rra_idx> %lu </dependent_rra_idx>\n",
rrd.rra_def[i].par[RRA_dependent_rra_idx].u_cnt);
break;
case CF_AVERAGE:
case CF_MINIMUM:
case CF_LAST:
default:
- printf("\t\t<xff> %0.10e </xff>\n", rrd.rra_def[i].par[RRA_cdp_xff_val].u_val);
+ fprintf(out_file, "\t\t<xff> %0.10e </xff>\n", rrd.rra_def[i].par[RRA_cdp_xff_val].u_val);
break;
}
- printf("\t\t</params>\n");
- printf("\t\t<cdp_prep>\n");
+ fprintf(out_file, "\t\t</params>\n");
+ fprintf(out_file, "\t\t<cdp_prep>\n");
for(ii=0;ii<rrd.stat_head->ds_cnt;ii++){
unsigned long ivalue;
- printf("\t\t\t<ds>\n");
+ fprintf(out_file, "\t\t\t<ds>\n");
/* support for exporting all CDP parameters */
/* parameters common to all CFs */
/* primary_val and secondary_val do not need to be saved between updates
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt
+ii].scratch[CDP_primary_val].u_val;
if (isnan(value)) {
- printf("\t\t\t<primary_value> NaN </primary_value>\n");
+ fprintf(out_file, "\t\t\t<primary_value> NaN </primary_value>\n");
} else {
- printf("\t\t\t<primary_value> %0.10e </primary_value>\n", value);
+ fprintf(out_file, "\t\t\t<primary_value> %0.10e </primary_value>\n", value);
}
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_secondary_val].u_val;
if (isnan(value)) {
- printf("\t\t\t<secondary_value> NaN </secondary_value>\n");
+ fprintf(out_file, "\t\t\t<secondary_value> NaN </secondary_value>\n");
} else {
- printf("\t\t\t<secondary_value> %0.10e </secondary_value>\n", value);
+ fprintf(out_file, "\t\t\t<secondary_value> %0.10e </secondary_value>\n", value);
}
switch(cf_conv(rrd.rra_def[i].cf_nam)) {
case CF_HWPREDICT:
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_hw_intercept].u_val;
if (isnan(value)) {
- printf("\t\t\t<intercept> NaN </intercept>\n");
+ fprintf(out_file, "\t\t\t<intercept> NaN </intercept>\n");
} else {
- printf("\t\t\t<intercept> %0.10e </intercept>\n", value);
+ fprintf(out_file, "\t\t\t<intercept> %0.10e </intercept>\n", value);
}
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_hw_last_intercept].u_val;
if (isnan(value)) {
- printf("\t\t\t<last_intercept> NaN </last_intercept>\n");
+ fprintf(out_file, "\t\t\t<last_intercept> NaN </last_intercept>\n");
} else {
- printf("\t\t\t<last_intercept> %0.10e </last_intercept>\n", value);
+ fprintf(out_file, "\t\t\t<last_intercept> %0.10e </last_intercept>\n", value);
}
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_hw_slope].u_val;
if (isnan(value)) {
- printf("\t\t\t<slope> NaN </slope>\n");
+ fprintf(out_file, "\t\t\t<slope> NaN </slope>\n");
} else {
- printf("\t\t\t<slope> %0.10e </slope>\n", value);
+ fprintf(out_file, "\t\t\t<slope> %0.10e </slope>\n", value);
}
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_hw_last_slope].u_val;
if (isnan(value)) {
- printf("\t\t\t<last_slope> NaN </last_slope>\n");
+ fprintf(out_file, "\t\t\t<last_slope> NaN </last_slope>\n");
} else {
- printf("\t\t\t<last_slope> %0.10e </last_slope>\n", value);
+ fprintf(out_file, "\t\t\t<last_slope> %0.10e </last_slope>\n", value);
}
ivalue = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_null_count].u_cnt;
- printf("\t\t\t<nan_count> %lu </nan_count>\n", ivalue);
+ fprintf(out_file, "\t\t\t<nan_count> %lu </nan_count>\n", ivalue);
ivalue = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_last_null_count].u_cnt;
- printf("\t\t\t<last_nan_count> %lu </last_nan_count>\n", ivalue);
+ fprintf(out_file, "\t\t\t<last_nan_count> %lu </last_nan_count>\n", ivalue);
break;
case CF_SEASONAL:
case CF_DEVSEASONAL:
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_hw_seasonal].u_val;
if (isnan(value)) {
- printf("\t\t\t<seasonal> NaN </seasonal>\n");
+ fprintf(out_file, "\t\t\t<seasonal> NaN </seasonal>\n");
} else {
- printf("\t\t\t<seasonal> %0.10e </seasonal>\n", value);
+ fprintf(out_file, "\t\t\t<seasonal> %0.10e </seasonal>\n", value);
}
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_hw_last_seasonal].u_val;
if (isnan(value)) {
- printf("\t\t\t<last_seasonal> NaN </last_seasonal>\n");
+ fprintf(out_file, "\t\t\t<last_seasonal> NaN </last_seasonal>\n");
} else {
- printf("\t\t\t<last_seasonal> %0.10e </last_seasonal>\n", value);
+ fprintf(out_file, "\t\t\t<last_seasonal> %0.10e </last_seasonal>\n", value);
}
ivalue = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_init_seasonal].u_cnt;
- printf("\t\t\t<init_flag> %lu </init_flag>\n", ivalue);
+ fprintf(out_file, "\t\t\t<init_flag> %lu </init_flag>\n", ivalue);
break;
case CF_DEVPREDICT:
break;
unsigned short vidx;
char *violations_array = (char *) ((void*)
rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch);
- printf("\t\t\t<history> ");
+ fprintf(out_file, "\t\t\t<history> ");
for (vidx = 0; vidx < rrd.rra_def[i].par[RRA_window_len].u_cnt; ++vidx)
{
- printf("%d",violations_array[vidx]);
+ fprintf(out_file, "%d",violations_array[vidx]);
}
- printf(" </history>\n");
+ fprintf(out_file, " </history>\n");
}
break;
case CF_AVERAGE:
default:
value = rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_val].u_val;
if (isnan(value)) {
- printf("\t\t\t<value> NaN </value>\n");
+ fprintf(out_file, "\t\t\t<value> NaN </value>\n");
} else {
- printf("\t\t\t<value> %0.10e </value>\n", value);
+ fprintf(out_file, "\t\t\t<value> %0.10e </value>\n", value);
}
- printf("\t\t\t<unknown_datapoints> %lu </unknown_datapoints>\n",
+ fprintf(out_file, "\t\t\t<unknown_datapoints> %lu </unknown_datapoints>\n",
rrd.cdp_prep[i*rrd.stat_head->ds_cnt+ii].scratch[CDP_unkn_pdp_cnt].u_cnt);
break;
}
- printf("\t\t\t</ds>\n");
+ fprintf(out_file, "\t\t\t</ds>\n");
}
- printf("\t\t</cdp_prep>\n");
+ fprintf(out_file, "\t\t</cdp_prep>\n");
- printf("\t\t<database>\n");
+ fprintf(out_file, "\t\t<database>\n");
fseek(in_file,(rra_start
+(rrd.rra_ptr[i].cur_row+1)
* rrd.stat_head->ds_cnt
#else
# error "Need strftime"
#endif
- printf("\t\t\t<!-- %s / %d --> <row>",somestring,(int)now);
+ fprintf(out_file, "\t\t\t<!-- %s / %d --> <row>",somestring,(int)now);
for(iii=0;iii<rrd.stat_head->ds_cnt;iii++){
fread(&my_cdp,sizeof(rrd_value_t),1,in_file);
if (isnan(my_cdp)){
- printf("<v> NaN </v>");
+ fprintf(out_file, "<v> NaN </v>");
} else {
- printf("<v> %0.10e </v>",my_cdp);
+ fprintf(out_file, "<v> %0.10e </v>",my_cdp);
};
}
- printf("</row>\n");
+ fprintf(out_file, "</row>\n");
}
- printf("\t\t</database>\n\t</rra>\n");
+ fprintf(out_file, "\t\t</database>\n\t</rra>\n");
}
- printf("</rrd>\n");
+ fprintf(out_file, "</rrd>\n");
rrd_free(&rrd);
fclose(in_file);
+ if (out_file != stdout)
+ {
+ fclose(out_file);
+ }
return(0);
}