Cursors
Handling Cursor Failures
Cursors exist on a MongoDB server. However, the mongoc_cursor_t
structure gives the local process
a handle to the cursor. It is possible for errors to occur on the server while iterating a cursor on
the client. Even a network partition may occur. This means that applications should be robust in handling
cursor failures.
While iterating cursors, you should check to see if an error has occurred. See the following example for how to robustly check for errors.
static void print_all_documents (mongoc_collection_t *collection) { mongoc_cursor_t *cursor; const bson_t *doc; bson_error_t error; bson_t query = BSON_INITIALIZER; char *str; cursor = mongoc_collection_find_with_opts (collection, query, NULL, NULL); while (mongoc_cursor_next (cursor, &doc)) { str = bson_as_canonical_extended_json (doc, NULL); printf ("%s\n", str); bson_free (str); } if (mongoc_cursor_error (cursor, &error)) { fprintf (stderr, "Failed to iterate all documents: %s\n", error.message); } mongoc_cursor_destroy (cursor); }
Destroying Server-Side Cursors
The MongoDB C driver will automatically destroy a server-side cursor when mongoc_cursor_destroy is called. Failure to call this function when done with a cursor will leak memory client side as well as consume extra memory server side. If the cursor was configured to never timeout, it will become a memory leak on the server.
Tailable Cursors
Tailable cursors are cursors that remain open even after they've returned a final result. This way, if more documents are added to a collection (i.e., to the cursor's result set), then you can continue to call mongoc_cursor_next to retrieve those additional results.
Here's a complete test case that demonstrates the use of tailable cursors.
Note
Tailable cursors are for capped collections only.
An example to tail the oplog from a replica set.
static void print_bson (const bson_t *b) { char *str; str = bson_as_canonical_extended_json (b, NULL); fprintf (stdout, "%s\n", str); bson_free (str); } static mongoc_cursor_t * query_collection (mongoc_collection_t *collection, uint32_t last_time) { mongoc_cursor_t *cursor; bson_t query; bson_t gt; bson_t opts; BSON_ASSERT (collection); bson_init (&query); BSON_APPEND_DOCUMENT_BEGIN (&query, "ts", >); BSON_APPEND_TIMESTAMP (>, "$gt", last_time, 0); bson_append_document_end (&query, >); bson_init (&opts); BSON_APPEND_BOOL (&opts, "tailable", true); BSON_APPEND_BOOL (&opts, "awaitData", true); cursor = mongoc_collection_find_with_opts (collection, &query, &opts, NULL); bson_destroy (&query); bson_destroy (&opts); return cursor; } static void tail_collection (mongoc_collection_t *collection) { mongoc_cursor_t *cursor; uint32_t last_time; const bson_t *doc; bson_error_t error; bson_iter_t iter; BSON_ASSERT (collection); last_time = (uint32_t) time (NULL); while (true) { cursor = query_collection (collection, last_time); while (!mongoc_cursor_error (cursor, &error) && mongoc_cursor_more (cursor)) { if (mongoc_cursor_next (cursor, &doc)) { if (bson_iter_init_find (&iter, doc, "ts") && BSON_ITER_HOLDS_TIMESTAMP (&iter)) { bson_iter_timestamp (&iter, &last_time, NULL); } print_bson (doc); } } if (mongoc_cursor_error (cursor, &error)) { if (error.domain == MONGOC_ERROR_SERVER) { fprintf (stderr, "%s\n", error.message); exit (1); } } mongoc_cursor_destroy (cursor); sleep (1); } } int main (int argc, char *argv[]) { mongoc_collection_t *collection; mongoc_client_t *client; mongoc_uri_t *uri; bson_error_t error; if (argc != 2) { fprintf (stderr, "usage: %s MONGO_URI\n", argv[0]); return EXIT_FAILURE; } mongoc_init (); uri = mongoc_uri_new_with_error (argv[1], &error); if (!uri) { fprintf (stderr, "failed to parse URI: %s\n" "error message: %s\n", argv[1], error.message); return EXIT_FAILURE; } client = mongoc_client_new_from_uri (uri); if (!client) { return EXIT_FAILURE; } mongoc_client_set_error_api (client, 2); collection = mongoc_client_get_collection (client, "local", "oplog.rs"); tail_collection (collection); mongoc_collection_destroy (collection); mongoc_uri_destroy (uri); mongoc_client_destroy (client); return EXIT_SUCCESS; }
Let's compile and run this example against a replica set to see updates as they are made.
$ gcc -Wall -o mongoc-tail mongoc-tail.c $(pkg-config --cflags --libs libmongoc-1.0) $ ./mongoc-tail mongodb://example.com/?replicaSet=myReplSet { "h" : -8458503739429355503, "ns" : "test.test", "o" : { "_id" : { "$oid" : "5372ab0a25164be923d10d50" } }, "op" : "i", "ts" : { "$timestamp" : { "i" : 1, "t" : 1400023818 } }, "v" : 2 }
The line of output is a sample from performing db.test.insert({})
from the mongo shell on the replica set.