Provided by: libsystemd-dev_252.5-2ubuntu3_amd64 bug

NAME
       sd-id128, SD_ID128_ALLF, SD_ID128_CONST_STR, SD_ID128_FORMAT_STR, SD_ID128_FORMAT_VAL,
       SD_ID128_MAKE, SD_ID128_MAKE_STR, SD_ID128_MAKE_UUID_STR, SD_ID128_NULL,
       SD_ID128_UUID_FORMAT_STR, sd_id128_equal, sd_id128_string_equal, sd_id128_in_set,
       sd_id128_in_set_sentinel, sd_id128_in_setv, sd_id128_is_allf, sd_id128_is_null, sd_id128_t
       - APIs for processing 128-bit IDs


SYNOPSIS
       #include <systemd/sd-id128.h>

       SD_ID128_ALLF

       SD_ID128_NULL

       SD_ID128_CONST_STR(id)

       SD_ID128_FORMAT_STR

       SD_ID128_FORMAT_VAL(id)

       SD_ID128_MAKE(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, vA, vB, vC, vD, vE, vF)

       SD_ID128_MAKE_STR(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, vA, vB, vC, vD, vE, vF)

       SD_ID128_MAKE_UUID_STR(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, vA, vB, vC, vD, vE, vF)

       SD_ID128_UUID_FORMAT_STR

       int sd_id128_equal(sd_id128_t a, sd_id128_t b);

       int sd_id128_string_equal(const char *a, sd_id128_t b);

       int sd_id128_is_null(sd_id128_t id);

       int sd_id128_is_allf(sd_id128_t id);

       int sd_id128_in_setv(sd_id128_t id, va_list ap);

       int sd_id128_in_set_sentinel(sd_id128_t id, ..., SD_ID128_NULL);

       int sd_id128_in_set(sd_id128_t id, ...);

       pkg-config --cflags --libs libsystemd


DESCRIPTION
       sd-id128.h provides APIs to generate, convert, and compare 128-bit ID values. The 128-bit
       ID values processed and generated by these APIs are a generalization of OSF UUIDs as
       defined by RFC 4122[1] but use a simpler string format. These functions impose no
       structure on the used IDs, much unlike OSF UUIDs or Microsoft GUIDs, but are mostly
       compatible with those types of IDs.

       A 128-bit ID is implemented as the following union type:

           typedef union sd_id128 {
             uint8_t bytes[16];
             uint64_t qwords[2];
           } sd_id128_t;

       This union type allows accessing the 128-bit ID as 16 separate bytes or two 64-bit words.
       It is generally safer to access the ID components by their 8-bit array to avoid endianness
       issues. This union is intended to be passed by value (as opposed to pass-by-reference) and
       may be directly manipulated by clients.

       A couple of macros are defined to denote and decode 128-bit IDs:

       SD_ID128_MAKE() is used to write a constant ID in source code. A commonly used idiom is to
       assign a name to an ID using this macro:

           #define SD_MESSAGE_COREDUMP SD_ID128_MAKE(fc,2e,22,bc,6e,e6,47,b6,b9,07,29,ab,34,a2,50,b1)

       SD_ID128_NULL defines an ID consisting of only NUL bytes (i.e. all bits off).

       SD_ID128_ALLF defines an ID consisting of only 0xFF bytes (i.e. all bits on).

       SD_ID128_MAKE_STR() is similar to SD_ID128_MAKE(), but creates a const char* expression
       that can be conveniently used in message formats and such:

           #include <stdio.h>
           #define SD_MESSAGE_COREDUMP_STR SD_ID128_MAKE_STR(fc,2e,22,bc,6e,e6,47,b6,b9,07,29,ab,34,a2,50,b1)

           int main(int argc, char **argv) {
             puts("Match for coredumps: MESSAGE_ID=" SD_MESSAGE_COREDUMP_STR);
           }

       SD_ID128_CONST_STR() converts constant IDs into constant strings for output. The following
       example code will output the string "fc2e22bc6ee647b6b90729ab34a250b1":

           int main(int argc, char *argv[]) {
             puts("Match for coredumps: %s", SD_ID128_CONST_STR(SD_MESSAGE_COREDUMP));
           }

       SD_ID128_FORMAT_STR and SD_ID128_FORMAT_VAL() is used to format an ID in a printf(3)
       format string, as shown in the following example:

           int main(int argc, char *argv[]) {
             sd_id128_t id;
             id = SD_ID128_MAKE(ee,89,be,71,bd,6e,43,d6,91,e6,c5,5d,eb,03,02,07);
             printf("The ID encoded in this C file is " SD_ID128_FORMAT_STR ".\n", SD_ID128_FORMAT_VAL(id));
             return 0;
           }

       SD_ID128_UUID_FORMAT_STR and SD_ID128_MAKE_UUID_STR() are similar to SD_ID128_FORMAT_STR
       and SD_ID128_MAKE_STR(), but include separating hyphens to conform to the "canonical
       representation[2]". They format the string based on RFC4122[1] Variant 1 rules, i.e.
       converting from Big Endian byte order. This matches behaviour of most other Linux
       userspace infrastructure. It's probably best to avoid UUIDs of other variants, in order to
       avoid unnecessary ambiguities. All 128-bit IDs generated by the sd-id128 APIs strictly
       conform to Variant 1 Version 4 UUIDs, as per RFC 4122.

       sd_id128_equal() compares two 128-bit IDs:

           int main(int argc, char *argv[]) {
             sd_id128_t a, b, c;
             a = SD_ID128_MAKE(ee,89,be,71,bd,6e,43,d6,91,e6,c5,5d,eb,03,02,07);
             b = SD_ID128_MAKE(f2,28,88,9c,5f,09,44,15,9d,d7,04,77,58,cb,e7,3e);
             c = a;
             assert(sd_id128_equal(a, c));
             assert(!sd_id128_equal(a, b));
             return 0;
           }

       sd_id128_string_equal() is similar to sd_id128_equal(), but the first ID is formatted as
       const char*. The same restrictions apply as to the first argument of
       sd_id128_from_string().

       sd_id128_is_null() checks if an ID consists of only NUL bytes:

           assert(sd_id128_is_null(SD_ID128_NULL));

       Similarly, sd_id128_is_allf() checks if an ID consists of only 0xFF bytes (all bits on):

           assert(sd_id128_is_allf(SD_ID128_ALLF));

       sd_id128_in_set_sentinel() takes a list of IDs and returns true if the first argument is
       equal to any of the subsequent arguments. The argument list is terminated by an
       SD_ID128_NULL sentinel, which must be present.

       sd_id128_in_set() is a convenience function that takes a list of IDs and returns true if
       the first argument is equal to any of the subsequent arguments:

           int main(int argc, char *argv[]) {
             sd_id12_t a = SD_ID128_MAKE(ee,89,be,71,bd,6e,43,d6,91,e6,c5,5d,eb,03,02,07);
             assert(sd_id128_in_set(a, a));
             assert(sd_id128_in_set(a, a, a));
             assert(!sd_id128_in_set(a));
             assert(!sd_id128_in_set(a,
                                     SD_ID128_MAKE(f2,28,88,9c,5f,09,44,15,9d,d7,04,77,58,cb,e7,3e)
                                     SD_ID128_MAKE(2f,88,28,5f,9c,44,09,9d,d7,15,77,04,bc,85,7e,e3)
                                     SD_ID128_ALLF));
             return 0;
           }

       sd_id128_in_set() is defined as a macro over sd_id128_in_set_sentinel(), adding the
       SD_ID128_NULL sentinel automatically. Since sd_id128_in_set_sentinel() uses SD_ID128_NULL
       as the sentinel, SD_ID128_NULL cannot be otherwise placed in the argument list.

       sd_id128_in_setv() is similar to sd_id128_in_set_sentinel(), but takes a struct varargs
       argument.

       New randomized IDs may be generated with systemd-id128(1)'s new command.

       See sd_id128_to_string(3), sd_id128_randomize(3) and sd_id128_get_machine(3) for
       information about other implemented functions.


NOTES
       These APIs are implemented as a shared library, which can be compiled and linked to with
       the libsystemd pkg-config(1) file.


SEE ALSO
       systemd(1), sd_id128_to_string(3), sd_id128_randomize(3), sd_id128_get_machine(3),
       printf(3), journalctl(1), sd-journal(7), pkg-config(1), machine-id(5)


NOTES
        1. RFC 4122
           https://tools.ietf.org/html/rfc4122

        2. canonical representation
           https://en.wikipedia.org/wiki/Universally_unique_identifier#Format