C
tarantool-c is the official C connector for Tarantool. You can find the full library documentation here: Documentation for tarantool-c.
Here follow two examples of using Tarantool’s high-level C API.
Here is a complete C program that inserts [99999,'B']
into
space examples
via the high-level C API.
#include <stdio.h>
#include <stdlib.h>
#include <tarantool/tarantool.h>
#include <tarantool/tnt_net.h>
#include <tarantool/tnt_opt.h>
void main() {
struct tnt_stream *tnt = tnt_net(NULL); /* See note = SETUP */
tnt_set(tnt, TNT_OPT_URI, "localhost:3301");
if (tnt_connect(tnt) < 0) { /* See note = CONNECT */
printf("Connection refused\n");
exit(-1);
}
struct tnt_stream *tuple = tnt_object(NULL); /* See note = MAKE REQUEST */
tnt_object_format(tuple, "[%d%s]", 99999, "B");
tnt_insert(tnt, 999, tuple); /* See note = SEND REQUEST */
tnt_flush(tnt);
struct tnt_reply reply; tnt_reply_init(&reply); /* See note = GET REPLY */
tnt->read_reply(tnt, &reply);
if (reply.code != 0) {
printf("Insert failed %lu.\n", reply.code);
}
tnt_close(tnt); /* See below = TEARDOWN */
tnt_stream_free(tuple);
tnt_stream_free(tnt);
}
Paste the code into a file named example.c
and install tarantool-c
.
One way to install tarantool-c
(using Ubuntu) is:
$ git clone git://github.com/tarantool/tarantool-c.git ~/tarantool-c
$ cd ~/tarantool-c
$ git submodule init
$ git submodule update
$ cmake .
$ make
$ make install
To compile and link the program, run:
$ # sometimes this is necessary:
$ export LD_LIBRARY_PATH=/usr/local/lib
$ gcc -o example example.c -ltarantool
Before trying to run,
check that a server instance is listening at localhost:3301
and that the space
examples
exists, as
described earlier.
To run the program, say ./example
. The program will connect
to the Tarantool instance, and will send the request.
If Tarantool is not running on localhost with listen address = 3301, the program
will print “Connection refused”.
If the insert fails, the program will print «Insert failed» and an error number
(see all error codes in the source file
/src/box/errcode.h).
Here are notes corresponding to comments in the example program.
The setup begins by creating a stream.
struct tnt_stream *tnt = tnt_net(NULL);
tnt_set(tnt, TNT_OPT_URI, "localhost:3301");
In this program, the stream will be named tnt
.
Before connecting on the tnt
stream, some options may have to be set.
The most important option is TNT_OPT_URI.
In this program, the URI is localhost:3301
, since that is where the
Tarantool instance is supposed to be listening.
Function description:
struct tnt_stream *tnt_net(struct tnt_stream *s)
int tnt_set(struct tnt_stream *s, int option, variant option-value)
Now that the stream named tnt
exists and is associated with a
URI, this example program can connect to a server instance.
if (tnt_connect(tnt) < 0)
{ printf("Connection refused\n"); exit(-1); }
Function description:
int tnt_connect(struct tnt_stream *s)
The connection might fail for a variety of reasons, such as: the server is not running, or the URI contains an invalid password. If the connection fails, the return value will be -1.
Most requests require passing a structured value, such as the contents of a tuple.
struct tnt_stream *tuple = tnt_object(NULL);
tnt_object_format(tuple, "[%d%s]", 99999, "B");
In this program, the request will
be an INSERT, and the tuple contents will be an integer
and a string. This is a simple serial set of values, that
is, there are no sub-structures or arrays. Therefore it
is easy in this case to format what will be passed using
the same sort of arguments that one would use with a C
printf()
function: %d
for the integer, %s
for the string,
then the integer value, then a pointer to the string value.
Function description:
ssize_t tnt_object_format(struct tnt_stream *s, const char *fmt, ...)
The database-manipulation requests are analogous to the requests in the box library.
tnt_insert(tnt, 999, tuple);
tnt_flush(tnt);
In this program, the choice is to do an INSERT request, so
the program passes the tnt_stream
that was used for connection
(tnt
) and the tnt_stream
that was set up with
tnt_object_format()
(tuple
).
Function description:
ssize_t tnt_insert(struct tnt_stream *s, uint32_t space, struct tnt_stream *tuple)
ssize_t tnt_replace(struct tnt_stream *s, uint32_t space, struct tnt_stream *tuple)
ssize_t tnt_select(struct tnt_stream *s, uint32_t space, uint32_t index,
uint32_t limit, uint32_t offset, uint8_t iterator,
struct tnt_stream *key)
ssize_t tnt_update(struct tnt_stream *s, uint32_t space, uint32_t index,
struct tnt_stream *key, struct tnt_stream *ops)
For most requests, the client will receive a reply containing some indication whether the result was successful, and a set of tuples.
struct tnt_reply reply; tnt_reply_init(&reply);
tnt->read_reply(tnt, &reply);
if (reply.code != 0)
{ printf("Insert failed %lu.\n", reply.code); }
This program checks for success but does not decode the rest of the reply.
Function description:
struct tnt_reply *tnt_reply_init(struct tnt_reply *r)
tnt->read_reply(struct tnt_stream *s, struct tnt_reply *r)
void tnt_reply_free(struct tnt_reply *r)
When a session ends, the connection that was made with
tnt_connect()
should be closed, and the objects that were
made in the setup should be destroyed.
tnt_close(tnt);
tnt_stream_free(tuple);
tnt_stream_free(tnt);
Function description:
void tnt_close(struct tnt_stream *s)
void tnt_stream_free(struct tnt_stream *s)
Here is a complete C program that selects, using index key [99999]
, from
space examples
via the high-level C API.
To display the results, the program uses functions in the
MsgPuck library which allow decoding of
MessagePack arrays.
#include <stdio.h>
#include <stdlib.h>
#include <tarantool/tarantool.h>
#include <tarantool/tnt_net.h>
#include <tarantool/tnt_opt.h>
#define MP_SOURCE 1
#include <msgpuck.h>
void main() {
struct tnt_stream *tnt = tnt_net(NULL);
tnt_set(tnt, TNT_OPT_URI, "localhost:3301");
if (tnt_connect(tnt) < 0) {
printf("Connection refused\n");
exit(1);
}
struct tnt_stream *tuple = tnt_object(NULL);
tnt_object_format(tuple, "[%d]", 99999); /* tuple = search key */
tnt_select(tnt, 999, 0, UINT32_MAX, 0, 0, tuple);
tnt_flush(tnt);
struct tnt_reply reply; tnt_reply_init(&reply);
tnt->read_reply(tnt, &reply);
if (reply.code != 0) {
printf("Select failed.\n");
exit(1);
}
char field_type;
field_type = mp_typeof(*reply.data);
if (field_type != MP_ARRAY) {
printf("no tuple array\n");
exit(1);
}
long unsigned int row_count;
uint32_t tuple_count = mp_decode_array(&reply.data);
printf("tuple count=%u\n", tuple_count);
unsigned int i, j;
for (i = 0; i < tuple_count; ++i) {
field_type = mp_typeof(*reply.data);
if (field_type != MP_ARRAY) {
printf("no field array\n");
exit(1);
}
uint32_t field_count = mp_decode_array(&reply.data);
printf(" field count=%u\n", field_count);
for (j = 0; j < field_count; ++j) {
field_type = mp_typeof(*reply.data);
if (field_type == MP_UINT) {
uint64_t num_value = mp_decode_uint(&reply.data);
printf(" value=%lu.\n", num_value);
} else if (field_type == MP_STR) {
const char *str_value;
uint32_t str_value_length;
str_value = mp_decode_str(&reply.data, &str_value_length);
printf(" value=%.*s.\n", str_value_length, str_value);
} else {
printf("wrong field type\n");
exit(1);
}
}
}
tnt_close(tnt);
tnt_stream_free(tuple);
tnt_stream_free(tnt);
}
Similarly to the first example, paste the code into a file named
example2.c
.
To compile and link the program, say:
$ gcc -o example2 example2.c -ltarantool
To run the program, say ./example2
.
The two example programs only show a few requests and do not show all that’s necessary for good practice. See more in the tarantool-c documentation at GitHub.