From: oetiker Date: Fri, 7 Nov 2008 14:09:29 +0000 (+0000) Subject: extra file to make libdbi patch work X-Git-Url: https://git.tokkee.org/?a=commitdiff_plain;h=a20684ff194feae2de7ea2adfeee8558c9f3d08a;p=rrdtool.git extra file to make libdbi patch work git-svn-id: svn://svn.oetiker.ch/rrdtool/trunk/program@1651 a5681a0c-68f1-0310-ab6d-d61299d08faa --- diff --git a/src/rrd_fetch_libdbi.c b/src/rrd_fetch_libdbi.c new file mode 100644 index 0000000..c771026 --- /dev/null +++ b/src/rrd_fetch_libdbi.c @@ -0,0 +1,533 @@ +#include "rrd_tool.h" +#include +#include + +/* the structures */ +struct sql_table_helper { + dbi_conn conn; + int connected; + dbi_result result; + char const* filename; + char const* dbdriver; + char* table_start; + char* table_next; + char const* where; + char * timestamp; + char * value; +}; + +/* the prototypes */ +int _sql_setparam(struct sql_table_helper* th,char* key, char* value); +int _sql_fetchrow(struct sql_table_helper* th,time_t *timestamp, rrd_value_t *value); +char* _find_next_separator(char* start,char separator); +char* _find_next_separator_twice(char*start,char separator); +char _hexcharhelper(char c); +int _inline_unescape (char* string); +double rrd_fetch_dbi_double(dbi_result *result,int idx); +long rrd_fetch_dbi_long(dbi_result *result,int idx); + +/* the real code */ + +/* helpers to get correctly converted values from DB*/ +long rrd_fetch_dbi_long(dbi_result *result,int idx) { + char *ptmp=""; + switch (dbi_result_get_field_type_idx(result,idx)) { + case DBI_TYPE_STRING: + ptmp=(char*)dbi_result_get_string_idx(result,idx); + return atoi(ptmp); + default: + return dbi_result_get_longlong_idx(result,idx); + } +} + +double rrd_fetch_dbi_double(dbi_result *result,int idx) { + char *ptmp=""; + /* return NAN if NULL */ + if(dbi_result_field_is_null_idx(result,idx)) { return DNAN; } + /* do some conversions */ + switch (dbi_result_get_field_type_idx(result,idx)) { + case DBI_TYPE_STRING: + ptmp=(char*)dbi_result_get_string_idx(result,idx); + return strtod(ptmp,NULL); + default: + return dbi_result_get_double_idx(result,idx); + } +} + +int _sql_close(struct sql_table_helper* th) { + /* close only if connected */ + if (th->conn) { + /* shutdown dbi */ + dbi_conn_close(th->conn); + dbi_shutdown(); + /* and assign empty */ + th->conn=NULL; + } +} + +int _sql_setparam(struct sql_table_helper* th,char* key, char* value) { + char* dbi_errstr=NULL; + /* if not connected */ + if (! th->conn) { + /* initialize some stuff */ + th->table_next=th->table_start; + th->result=NULL; + th->connected=0; + /* initialize db */ + dbi_initialize(NULL); + th->conn=dbi_conn_new(th->dbdriver); + /* and handle errors */ + if (! th->conn) { + dbi_conn_error(th->conn,(const char**)&dbi_errstr); + rrd_set_error( "libdbi - no such driver: %s (possibly a dynamic link problem of the driver being linked without -ldbi)",dbi_errstr); + dbi_shutdown(); + return -1; + } + } + if (th->connected) { + rrd_set_error( "we are already connected - can not set parameter %s=%s",key,value); + _sql_close(th); + return -1; + } + if (dbi_conn_set_option(th->conn,key,value)) { + dbi_conn_error(th->conn,(const char**)&dbi_errstr); + rrd_set_error( "libdbi: problems setting %s to %s - %s",key,value,dbi_errstr); + _sql_close(th); + return -1; + } + return 0; +} + +int _sql_fetchrow(struct sql_table_helper* th,time_t *timestamp, rrd_value_t *value) { + char* dbi_errstr=NULL; + char sql[10240]; + time_t startt=0,endt=0; + /*connect to the database if needed */ + if (! th->conn) { + rrd_set_error( "libdbi no parameters set for libdbi",th->filename,dbi_errstr); + return -1; + } + if (! th->connected) { + /* and now connect */ + if (dbi_conn_connect(th->conn) <0) { + dbi_conn_error(th->conn,(const char**)&dbi_errstr); + rrd_set_error( "libdbi: problems connecting to db with connect string %s - error: %s",th->filename,dbi_errstr); + _sql_close(th); + return -1; + } + th->connected=1; + } + /* now find out regarding an existing result-set */ + if (! th->result) { + /* return if table_next is NULL */ + if (th->table_next==NULL) { + /* but first close connection */ + _sql_close(th); + /* and return with end of data */ + return 0; + } + /* calculate the table to use next */ + th->table_start=th->table_next; + th->table_next=_find_next_separator(th->table_start,'+'); + _inline_unescape(th->table_start); + /* and prepare FULL SQL Statement */ + snprintf(sql,sizeof(sql)-1,"SELECT %s as rrd_time, %s as rrd_value FROM %s WHERE %s GROUP BY rrd_time", + th->timestamp,th->value,th->table_start,th->where); + /* and execute sql */ + if (getenv("RRDDEBUGSQL")) { startt=time(NULL); fprintf(stderr,"RRDDEBUGSQL: %li: executing %s\n",startt,sql); } + th->result=dbi_conn_query(th->conn,sql); + if (startt) { endt=time(NULL);fprintf(stderr,"RRDDEBUGSQL: %li: timing %li\n",endt,endt-startt); } + /* handle error case */ + if (! th->result) { + dbi_conn_error(th->conn,(const char**)&dbi_errstr); + if (startt) { fprintf(stderr,"RRDDEBUGSQL: %li: error %s\n",endt,dbi_errstr); } + rrd_set_error("libdbi: problems with query: %s - errormessage: %s",sql,dbi_errstr); + _sql_close(th); + return -1; + } + } + /* and now fetch key and value */ + if (! dbi_result_next_row(th->result)) { + /* free result */ + dbi_result_free(th->result); + th->result=NULL; + /* and call recursively - this will open the next table or close connection as a whole*/ + return _sql_fetchrow(th,timestamp,value); + } + /* and return with flag for one value */ + *timestamp=rrd_fetch_dbi_long(th->result,1); + *value=rrd_fetch_dbi_double(th->result,2); + return 1; +} + +char* _find_next_separator(char* start,char separator) { + char* found=strchr(start,separator); + /* have we found it */ + if (found) { + /* then 0 terminate current string */ + *found=0; + /* and return the pointer past the separator */ + return (found+1); + } + /* not found, so return NULL */ + return NULL; +} + +char* _find_next_separator_twice(char*start,char separator) { + char *found=start; + /* find next separator in string*/ + while (found) { + /* if found and the next one is also a separator */ + if (found[1] == separator) { + /* then 0 terminate current string */ + *found=0; + /* and return the pointer past the current one*/ + return (found+2); + } + /* find next occurance */ + found=strchr(found+1,separator); + } + /* not found, so return NULL */ + return NULL; +} + +char _hexcharhelper(char c) { + switch (c) { + case '0': return 0 ; break; + case '1': return 1 ; break; + case '2': return 2 ; break; + case '3': return 3 ; break; + case '4': return 4 ; break; + case '5': return 5 ; break; + case '6': return 6 ; break; + case '7': return 7 ; break; + case '8': return 8 ; break; + case '9': return 9 ; break; + case 'a': return 10 ; break; + case 'b': return 11 ; break; + case 'c': return 12 ; break; + case 'd': return 13 ; break; + case 'e': return 14 ; break; + case 'f': return 15 ; break; + case 'A': return 10 ; break; + case 'B': return 11 ; break; + case 'C': return 12 ; break; + case 'D': return 13 ; break; + case 'E': return 14 ; break; + case 'F': return 15 ; break; + } + return -1; +} + +int _inline_unescape (char* string) { + char *src=string; + char *dst=string; + char c,h1,h2; + while((c= *src)) { + src++; + if (c == '%') { + if (*src == '%') { + /* increase src pointer by 1 skiping second % */ + src+=1; + } else { + /* try to calculate hex value from the next 2 values*/ + h1=_hexcharhelper(*src); + if (h1<0) { rrd_set_error( "string escape error at: %s\n",string);return(1); } + h2=_hexcharhelper(*(src+1)); + if (h2<0) { rrd_set_error( "string escape error at: %s\n",string);return(1); } + c=h2+(h1<<4); + /* increase src pointer by 2 skiping 2 chars */ + src+=2; + } + } + *dst=c; + dst++; + } + *dst=0; + return 0; +} + +int +rrd_fetch_fn_libdbi( + char *filename, /* name of the rrd */ + enum cf_en cf_idx, /* which consolidation function ?*/ + time_t *start, + time_t *end, /* which time frame do you want ? + * will be changed to represent reality */ + unsigned long *step, /* which stepsize do you want? + * will be changed to represent reality */ + unsigned long *ds_cnt, /* number of data sources in file */ + char ***ds_namv, /* names of data_sources */ + rrd_value_t **data) /* two dimensional array containing the data */ +{ + /* the separator used */ + char separator='/'; + /* a local copy of the filename - used for copying plus some pointer variables */ + char filenameworkcopy[10240]; + char *tmpptr=filenameworkcopy; + char *nextptr=NULL; + char *libdbiargs=NULL; + char *sqlargs=NULL; + /* the settings for the "works" of rrd */ + int fillmissing=0; + unsigned long minstepsize=300; + /* the result-set */ + long r_timestamp,l_timestamp,d_timestamp; + double r_value,l_value,d_value; + int r_status; + int rows; + long idx; + int derive=0; + /* the libdbi connection data and the table_help structure */ + struct sql_table_helper table_help; + char where[10240]; + table_help.conn=NULL; + table_help.where=where; + + /* some loop variables */ + int i=0; + + /* check header */ + if (strncmp("sql",filename,3)!=0) { + rrd_set_error( "formatstring wrong - %s",filename );return -1; + } + if (filename[3]!=filename[4]) { + rrd_set_error( "formatstring wrong - %s",filename );return -1; + } + + /* now make this the separator */ + separator=filename[3]; + + /* copy filename for local modifications during parsing */ + strncpy(filenameworkcopy,filename+5,sizeof(filenameworkcopy)); + + /* get the driver */ + table_help.dbdriver=tmpptr; + libdbiargs=_find_next_separator(tmpptr,separator); + if (! libdbiargs) { + /* error in argument */ + rrd_set_error( "formatstring wrong as we did not find \"%c\"- %s",separator,table_help.dbdriver); + return -1; + } + + /* now find the next double separator - this defines the args to the database */ + sqlargs=_find_next_separator_twice(libdbiargs,separator); + if (!sqlargs) { + rrd_set_error( "formatstring wrong for db arguments as we did not find \"%c%c\" in \"%s\"",separator,separator,libdbiargs); + return 1; + } + + /* now we can start with the SQL Statement - best to start with this first, + as then the error-handling is easier, as we do not have to handle libdbi shutdown as well */ + + /* parse the table(s) */ + table_help.table_start=sqlargs; + nextptr=_find_next_separator(table_help.table_start,separator); + if (! nextptr) { + /* error in argument */ + rrd_set_error( "formatstring wrong - %s",tmpptr); + return -1; + } + /* hex-unescape the value */ + if(_inline_unescape(table_help.table_start)) { return -1; } + + /* parse the unix timestamp column */ + table_help.timestamp=nextptr; + nextptr=_find_next_separator(nextptr,separator); + if (! nextptr) { + /* error in argument */ + rrd_set_error( "formatstring wrong - %s",tmpptr); + return -1; + } + /* hex-unescape the value */ + if(_inline_unescape(table_help.timestamp)) { return -1; } + + /* parse the value column */ + table_help.value=nextptr; + nextptr=_find_next_separator(nextptr,separator); + if (! nextptr) { + /* error in argument */ + rrd_set_error( "formatstring wrong - %s",tmpptr); + return -1; + } + /* hex-unescape the value */ + if(_inline_unescape(table_help.value)) { return -1; } + + /* now prepare WHERE clause as empty string*/ + where[0]=0; + + /* and the where clause */ + sqlargs=nextptr; + while(sqlargs) { + /* find next separator */ + nextptr=_find_next_separator(sqlargs,separator); + /* now handle fields */ + if (strcmp(sqlargs,"derive")==0) { /* the derive option with the default allowed max delta */ + derive=600; + } else if (strcmp(sqlargs,"prediction")==0) { + rrd_set_error("argument prediction is no longer supported in a VDEF - use new generic CDEF-functions instead"); + return -1; + } else if (strcmp(sqlargs,"sigma")==0) { + rrd_set_error("argument sigma is no longer supported in a VDEF - use new generic CDEF-functions instead"); + return -1; + } else if (*sqlargs==0) { /* ignore empty */ + } else { /* else add to where string */ + if (where[0]) {strcat(where," AND ");} + strcat(where,sqlargs); + } + /* and continue loop with next pointer */ + sqlargs=nextptr; + } + /* and unescape */ + if(_inline_unescape(where)) { return -1; } + + /* now parse LIBDBI options - this start initializing libdbi and beyond this point we need to reset the db as well in case of errors*/ + while (libdbiargs) { + /* find separator */ + nextptr=_find_next_separator(libdbiargs,separator); + /* now find =, separating key from value*/ + tmpptr=_find_next_separator(libdbiargs,'='); + if (! tmpptr) { + rrd_set_error( "formatstring wrong for db arguments as we did not find \"=\" in \"%s\"",libdbiargs); + _sql_close(&table_help); + return 1; + } + /* hex-unescape the value */ + if(_inline_unescape(tmpptr)) { return -1; } + /* now handle the key/value pair */ + if (strcmp(libdbiargs,"rrdminstepsize")==0) { /* allow override for minstepsize */ + i=atoi(tmpptr);if (i>0) { minstepsize=i; } + } else if (strcmp(libdbiargs,"rrdfillmissing")==0) { /* allow override for minstepsize */ + i=atoi(tmpptr);if (i>0) { fillmissing=i; } + } else if (strcmp(libdbiargs,"rrdderivemaxstep")==0) { /* allow override for minstepsize */ + i=atoi(tmpptr);if (i>0) { derive=i; } + } else { /* store in libdbi, as these are parameters */ + if (_sql_setparam(&table_help,libdbiargs,tmpptr)) { + _sql_close(&table_help); + return -1; + } + } + /* and continue loop with next pointer */ + libdbiargs=nextptr; + } + + /* and modify step if given */ + if (*step0) { + /* processing of value */ + /* calculate index for the timestamp */ + idx=(r_timestamp-(*start))/(*step); + /* some out of bounds checks on idx */ + if (idx<0) { idx=0;} + if (idx>rows) { idx=rows;} + /* and calculate derivative if necessary */ + if (derive) { + /* calc deltas */ + d_timestamp=r_timestamp-l_timestamp; + d_value=r_value-l_value; + /* assign current as last values */ + l_timestamp=r_timestamp; + l_value=r_value; + /* assign DNAN by default for value */ + r_value=DNAN; + /* check for timestamp delta to be within an acceptable range */ + if ((d_timestamp>0)&&(d_timestamp<2*derive)) { + /* only handle positive delta - avoid wrap-arrounds/counter resets showing up as spikes */ + if (d_value>0) { + /* and normalize to per second */ + r_value=d_value/d_timestamp; + } + } + } + /* only add value if we have a value that is not NAN */ + if (! isnan(r_value)) { + if ((*data)[idx*(*ds_cnt)+3]==0) { /* count is 0 so assign to overwrite DNAN */ + (*data)[idx*(*ds_cnt)+0]=r_value; /* MIN */ + (*data)[idx*(*ds_cnt)+1]=r_value; /* AVG */ + (*data)[idx*(*ds_cnt)+2]=r_value; /* MAX */ + (*data)[idx*(*ds_cnt)+3]=1; /* COUNT */ + (*data)[idx*(*ds_cnt)+4]=r_value; /* SIGMA */ + } else { + /* MIN */ + if ((*data)[idx*(*ds_cnt)+0]>r_value) { (*data)[idx*(*ds_cnt)+0]=r_value; } + /* AVG - at this moment still sum - corrected in post processing */ + (*data)[idx*(*ds_cnt)+1]+=r_value; + /* MAX */ + if ((*data)[idx*(*ds_cnt)+2]0) { + /* calc deviation first */ + if (count>2) { + r_value=count*(*data)[idx*(*ds_cnt)+4]-(*data)[idx*(*ds_cnt)+1]*(*data)[idx*(*ds_cnt)+1]; + if (r_value<0) { + r_value=DNAN; + } else { + r_value=sqrt(r_value/(count*(count-1))); + } + } + (*data)[idx*(*ds_cnt)+4]=r_value; + /* now the average */ + (*data)[idx*(*ds_cnt)+1]/=i; + } + } + + /* and return OK */ + return 0; +}