ceph/doc/rados/api/librados.rst
Bryan Stillwell 791b00daa1 doc: Multiple spelling fixes
I ran a lot of the docs through aspell and found a number of spelling problems.

Signed-off-by: Bryan Stillwell <bstillwell@godaddy.com>
2018-08-09 14:51:25 -06:00

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==============
Librados (C)
==============
.. highlight:: c
`librados` provides low-level access to the RADOS service. For an
overview of RADOS, see :doc:`../../architecture`.
Example: connecting and writing an object
=========================================
To use `Librados`, you instantiate a :c:type:`rados_t` variable (a cluster handle) and
call :c:func:`rados_create()` with a pointer to it::
int err;
rados_t cluster;
err = rados_create(&cluster, NULL);
if (err < 0) {
fprintf(stderr, "%s: cannot create a cluster handle: %s\n", argv[0], strerror(-err));
exit(1);
}
Then you configure your :c:type:`rados_t` to connect to your cluster,
either by setting individual values (:c:func:`rados_conf_set()`),
using a configuration file (:c:func:`rados_conf_read_file()`), using
command line options (:c:func:`rados_conf_parse_argv`), or an
environment variable (:c:func:`rados_conf_parse_env()`)::
err = rados_conf_read_file(cluster, "/path/to/myceph.conf");
if (err < 0) {
fprintf(stderr, "%s: cannot read config file: %s\n", argv[0], strerror(-err));
exit(1);
}
Once the cluster handle is configured, you can connect to the cluster with :c:func:`rados_connect()`::
err = rados_connect(cluster);
if (err < 0) {
fprintf(stderr, "%s: cannot connect to cluster: %s\n", argv[0], strerror(-err));
exit(1);
}
Then you open an "IO context", a :c:type:`rados_ioctx_t`, with :c:func:`rados_ioctx_create()`::
rados_ioctx_t io;
char *poolname = "mypool";
err = rados_ioctx_create(cluster, poolname, &io);
if (err < 0) {
fprintf(stderr, "%s: cannot open rados pool %s: %s\n", argv[0], poolname, strerror(-err));
rados_shutdown(cluster);
exit(1);
}
Note that the pool you try to access must exist.
Then you can use the RADOS data manipulation functions, for example
write into an object called ``greeting`` with
:c:func:`rados_write_full()`::
err = rados_write_full(io, "greeting", "hello", 5);
if (err < 0) {
fprintf(stderr, "%s: cannot write pool %s: %s\n", argv[0], poolname, strerror(-err));
rados_ioctx_destroy(io);
rados_shutdown(cluster);
exit(1);
}
In the end, you will want to close your IO context and connection to RADOS with :c:func:`rados_ioctx_destroy()` and :c:func:`rados_shutdown()`::
rados_ioctx_destroy(io);
rados_shutdown(cluster);
Asynchronous IO
===============
When doing lots of IO, you often don't need to wait for one operation
to complete before starting the next one. `Librados` provides
asynchronous versions of several operations:
* :c:func:`rados_aio_write`
* :c:func:`rados_aio_append`
* :c:func:`rados_aio_write_full`
* :c:func:`rados_aio_read`
For each operation, you must first create a
:c:type:`rados_completion_t` that represents what to do when the
operation is safe or complete by calling
:c:func:`rados_aio_create_completion`. If you don't need anything
special to happen, you can pass NULL::
rados_completion_t comp;
err = rados_aio_create_completion(NULL, NULL, NULL, &comp);
if (err < 0) {
fprintf(stderr, "%s: could not create aio completion: %s\n", argv[0], strerror(-err));
rados_ioctx_destroy(io);
rados_shutdown(cluster);
exit(1);
}
Now you can call any of the aio operations, and wait for it to
be in memory or on disk on all replicas::
err = rados_aio_write(io, "foo", comp, "bar", 3, 0);
if (err < 0) {
fprintf(stderr, "%s: could not schedule aio write: %s\n", argv[0], strerror(-err));
rados_aio_release(comp);
rados_ioctx_destroy(io);
rados_shutdown(cluster);
exit(1);
}
rados_aio_wait_for_complete(comp); // in memory
rados_aio_wait_for_safe(comp); // on disk
Finally, we need to free the memory used by the completion with :c:func:`rados_aio_release`::
rados_aio_release(comp);
You can use the callbacks to tell your application when writes are
durable, or when read buffers are full. For example, if you wanted to
measure the latency of each operation when appending to several
objects, you could schedule several writes and store the ack and
commit time in the corresponding callback, then wait for all of them
to complete using :c:func:`rados_aio_flush` before analyzing the
latencies::
typedef struct {
struct timeval start;
struct timeval ack_end;
struct timeval commit_end;
} req_duration;
void ack_callback(rados_completion_t comp, void *arg) {
req_duration *dur = (req_duration *) arg;
gettimeofday(&dur->ack_end, NULL);
}
void commit_callback(rados_completion_t comp, void *arg) {
req_duration *dur = (req_duration *) arg;
gettimeofday(&dur->commit_end, NULL);
}
int output_append_latency(rados_ioctx_t io, const char *data, size_t len, size_t num_writes) {
req_duration times[num_writes];
rados_completion_t comps[num_writes];
for (size_t i = 0; i < num_writes; ++i) {
gettimeofday(&times[i].start, NULL);
int err = rados_aio_create_completion((void*) &times[i], ack_callback, commit_callback, &comps[i]);
if (err < 0) {
fprintf(stderr, "Error creating rados completion: %s\n", strerror(-err));
return err;
}
char obj_name[100];
snprintf(obj_name, sizeof(obj_name), "foo%ld", (unsigned long)i);
err = rados_aio_append(io, obj_name, comps[i], data, len);
if (err < 0) {
fprintf(stderr, "Error from rados_aio_append: %s", strerror(-err));
return err;
}
}
// wait until all requests finish *and* the callbacks complete
rados_aio_flush(io);
// the latencies can now be analyzed
printf("Request # | Ack latency (s) | Commit latency (s)\n");
for (size_t i = 0; i < num_writes; ++i) {
// don't forget to free the completions
rados_aio_release(comps[i]);
struct timeval ack_lat, commit_lat;
timersub(&times[i].ack_end, &times[i].start, &ack_lat);
timersub(&times[i].commit_end, &times[i].start, &commit_lat);
printf("%9ld | %8ld.%06ld | %10ld.%06ld\n", (unsigned long) i, ack_lat.tv_sec, ack_lat.tv_usec, commit_lat.tv_sec, commit_lat.tv_usec);
}
return 0;
}
Note that all the :c:type:`rados_completion_t` must be freed with :c:func:`rados_aio_release` to avoid leaking memory.
API calls
=========
.. autodoxygenfile:: rados_types.h
.. autodoxygenfile:: librados.h