librrd(3)                           rrdtool                          librrd(3)



NNAAMMEE
       librrd - RRD library functions

DDEESSCCRRIIPPTTIIOONN
       lliibbrrrrdd contains most of the functionality in RRRRDDTTooooll.  The command line
       utilities and language bindings are often just wrappers around the code
       contained in lliibbrrrrdd.

       This manual page documents the lliibbrrrrdd API.

       NNOOTTEE:: This document is a work in progress, and should be considered
       incomplete as long as this warning persists.  For more information
       about the lliibbrrrrdd functions, always consult the source code.

CCOORREE FFUUNNCCTTIIOONNSS
       rrrrdd__dduummpp__ccbb__rr((cchhaarr **ffiilleennaammee,, iinntt oopptt__hheeaaddeerr,, rrrrdd__oouuttppuutt__ccaallllbbaacckk__tt ccbb,,
       vvooiidd **uusseerr))
           In some situations it is necessary to get the output of "rrd_dump"
           without writing it to a file or the standard output. In such cases
           an application can ask rrrrdd__dduummpp__ccbb__rr to call an user-defined
           function each time there is output to be stored somewhere. This can
           be used, to e.g. directly feed an XML parser with the dumped output
           or transfer the resulting string in memory.

           The arguments for rrrrdd__dduummpp__ccbb__rr are the same as for rrrrdd__dduummpp__oopptt__rr
           except that the output filename parameter is replaced by the user-
           defined callback function and an additional parameter for the
           callback function that is passed untouched, i.e. to store
           information about the callback state needed for the user-defined
           callback to function properly.

           Recent versions of rrrrdd__dduummpp__oopptt__rr internally use this callback
           mechanism to write their output to the file provided by the user.

               size_t rrd_dump_opt_cb_fileout(
                   const void *data,
                   size_t len,
                   void *user)
               {
                   return fwrite(data, 1, len, (FILE *)user);
               }

           The associated call for rrrrdd__dduummpp__ccbb__rr looks like

               res = rrd_dump_cb_r(filename, opt_header,
                   rrd_dump_opt_cb_fileout, (void *)out_file);

           where the last parameter specifies the file handle
           rrrrdd__dduummpp__oopptt__ccbb__ffiilleeoouutt should write to. There's no specific
           condition for the callback to detect when it is called for the
           first time, nor for the last time. If you require this for
           initialization and cleanup you should do those tasks before and
           after calling rrrrdd__dduummpp__ccrr__rr respectively.

       rrrrdd__ffeettcchh__ccbb__rreeggiisstteerr((rrrrdd__ffeettcchh__ccbb__tt cc))
           If your data does not reside in rrd files, but you would like to
           draw charts using the rrd_graph functionality, you can supply your
           own rrd_fetch function and register it using the
           rrrrdd__ffeettcchh__ccbb__rreeggiisstteerr function.

           The argument signature and api must be the same of the callback
           function must be aequivalent to the on of rrrrdd__ffeettcchh__ffnn in
           _r_r_d___f_e_t_c_h_._c.

           To activate the callback function you can use the pseudo filename
           _c_b_/_/_f_r_e_e___f_o_r_m___t_e_x_t.

           Note that rrdtool graph will not ask the same rrd for data twice.
           It determines this by building a key out of the values supplied to
           the fetch function. If the values are the same, the previous answer
           will be used.

UUTTIILLIITTYY FFUUNNCCTTIIOONNSS
       _rr_rr_dd____rr_aa_nn_dd_oo_mm_((_))
           Generates random numbers just like _r_a_n_d_o_m_(_).  This further ensures
           that the random number generator is seeded exactly once per
           process.

       rrrrdd__ssttrrttooddbbll
           an rrd aware string to double converter which sets rrd_error in if
           there is a problem and uses the return code exclusively for
           conversion status reporting.

       rrrrdd__ssttrrttoodd
           works like normal strtod, but it is locale independent (and thread
           safe)

       rrrrdd__ssnnpprriinnttff
           works  like normal snprintf but it is locale independent (and
           thread safe)

       rrrrdd__aadddd__ppttrr((vvooiidd ******ddeesstt,, ssiizzee__tt **ddeesstt__ssiizzee,, vvooiidd **ssrrcc))
           Dynamically resize the array pointed to by "dest".  "dest_size" is
           a pointer to the current size of "dest".  Upon successful
           _r_e_a_l_l_o_c_(_), the "dest_size" is incremented by 1 and the "src"
           pointer is stored at the end of the new "dest".  Returns 1 on
           success, 0 on failure.

               type **arr = NULL;
               type *elem = "whatever";
               size_t arr_size = 0;
               if (!rrd_add_ptr(&arr, &arr_size, elem))
                   handle_failure();

       rrrrdd__aadddd__ppttrr__cchhuunnkk((vvooiidd ******ddeesstt,, ssiizzee__tt **ddeesstt__ssiizzee,, vvooiidd **ssrrcc,, ssiizzee__tt
       **aalllloocc,, ssiizzee__tt cchhuunnkk))
           Like "rrd_add_ptr", except the destination is allocated in chunks
           of "chunk".  "alloc" points to the number of entries allocated,
           whereas "dest_size" points to the number of valid pointers.  If
           more pointers are needed, "chunk" pointers are allocated and
           "alloc" is increased accordingly.  "alloc" must be >= "dest_size".

           This method improves performance on hosts with expensive
           "realloc()".

       rrrrdd__aadddd__ssttrrdduupp((cchhaarr ******ddeesstt,, ssiizzee__tt **ddeesstt__ssiizzee,, cchhaarr **ssrrcc))
           Like "rrd_add_ptr", except adds a "strdup" of the source string.

               char **arr = NULL;
               size_t arr_size = NULL;
               char *str  = "example text";
               if (!rrd_add_strdup(&arr, &arr_size, str))
                   handle_failure();

       rrrrdd__aadddd__ssttrrdduupp__cchhuunnkk((cchhaarr ******ddeesstt,, ssiizzee__tt **ddeesstt__ssiizzee,, cchhaarr **ssrrcc,, ssiizzee__tt
       **aalllloocc,, ssiizzee__tt cchhuunnkk))
           Like "rrd_add_strdup", except the destination is allocated in
           chunks of "chunk".  "alloc" points to the number of entries
           allocated, whereas "dest_size" points to the number of valid
           pointers.  If more pointers are needed, "chunk" pointers are
           allocated and "alloc" is increased accordingly.  "alloc" must be >=
           "dest_size".

       rrrrdd__ffrreeee__ppttrrss((vvooiidd ******ssrrcc,, ssiizzee__tt **ccnntt))
           Free an array of pointers allocated by "rrd_add_ptr" or
           "rrd_add_strdup".  Also frees the array pointer itself.  On return,
           the source pointer will be NULL and the count will be zero.

               /* created as above */
               rrd_free_ptrs(&arr, &arr_size);
               /* here, arr == NULL && arr_size == 0 */

       rrrrdd__mmkkddiirr__pp((ccoonnsstt cchhaarr **ppaatthhnnaammee,, mmooddee__tt mmooddee))
           Create the directory named "pathname" including all of its parent
           directories (similar to "mkdir -p" on the command line - see
           _m_k_d_i_r(1) for more information). The argument "mode" specifies the
           permissions to use. It is modified by the process's "umask". See
           _m_k_d_i_r(2) for more details.

           The function returns 0 on success, a negative value else. In case
           of an error, "errno" is set accordingly. Aside from the errors
           documented in _m_k_d_i_r(2), the function may fail with the following
           errors:

           EEIINNVVAALL
               "pathname" is "NULL" or the empty string.

           EENNOOMMEEMM
               Insufficient memory was available.

           aannyy eerrrroorr rreettuurrnneedd bbyy _ss_tt_aa_tt((22))

           In contrast to _m_k_d_i_r(2), the function does nnoott fail if "pathname"
           already exists and is a directory.

       rrrrdd__ssccaalleedd__dduurraattiioonn ((ccoonnsstt cchhaarr ** ttookkeenn,, uunnssiiggnneedd lloonngg ddiivviissoorr,,
       uunnssiiggnneedd lloonngg ** vvaalluueepp))
           Parse a token in a context where it contains a count (of seconds or
           PDP instances), or a duration that can be converted to a count by
           representing the duration in seconds and dividing by some scaling
           factor.  For example, if a user would natively express a 3 day
           archive of samples collected every 2 minutes, the sample interval
           can be represented by "2m" instead of 120, and the archive duration
           by "3d" (to be divided by 120) instead of 2160 (3*24*60*60 / 120).
           See more examples in "STEP, HEARTBEAT, and Rows As Durations" in
           rrdcreate.

           "token" must be a number with an optional single-character suffix
           encoding the scaling factor:

           "s" indicates seconds

           "m" indicates minutes.  The value is multipled by 60.

           "h" indicates hours.  The value is multipled by 3600 (or "60m").

           "d" indicates days.  The value is multipled by 86400 (or "24h").

           "w" indicates weeks.  The value is multipled by 604800 (or "7d").

           "M" indicates months.  The value is multipled by 2678400 (or
               "31d").  (Note this factor accommodates the maximum number of
               days in a month.)

           "y" indicates years.  The value is multipled by 31622400 (or
               "366d").  (Note this factor accommodates leap years.)

           "divisor" is a positive value representing the duration in seconds
           of an interval that the desired result counts.

           "valuep" is a pointer to where the decoded value will be stored if
           the conversion is successful.

           The initial characters of "token" must be the base-10
           representation of a positive integer, or the conversion fails.

           If the remainder "token" is empty (no suffix), it is a count and no
           scaling is performed.

           If "token" has one of the suffixes above, the count is multipled to
           convert it to a duration in seconds.  The resulting number of
           seconds is divided by "divisor" to produce a count of intervals
           each of duration "divisor" seconds.  If division would produce a
           remainder (e.g., "5m" (300 seconds) divided by "90s"), the
           conversion is invalid.

           If "token" has unrecognized trailing characters the conversion
           fails.

           The function returns a null pointer if the conversion was
           successful and "valuep" has been updated to the scaled value.  On
           failure, it returns a text diagnostic suitable for use in user
           error messages.

AAUUTTHHOORR
       RRD Contributors <rrd-developers@lists.oetiker.ch>



1.5.3                             2015-07-18                         librrd(3)
