Exemplo n.º 1
0
bool
_mongoc_convert_array (mongoc_client_t *client,
                       const bson_iter_t *iter,
                       bson_t *doc,
                       bson_error_t *error)
{
   uint32_t len;
   const uint8_t *data;
   bson_t value;

   if (!BSON_ITER_HOLDS_ARRAY (iter)) {
      CONVERSION_ERR ("Invalid field \"%s\" in opts, should contain array,"
                      " not %s",
                      bson_iter_key (iter),
                      _mongoc_bson_type_to_str (bson_iter_type (iter)));
   }

   bson_iter_array (iter, &len, &data);
   if (!bson_init_static (&value, data, len)) {
      BSON_ERR ("Corrupt BSON in field \"%s\" in opts", bson_iter_key (iter));
   }

   bson_destroy (doc);
   bson_copy_to (&value, doc);

   return true;
}
Exemplo n.º 2
0
int monary_load_size_value(const bson_iter_t* bsonit,
                           monary_column_item* citem,
                           int idx)
{
    bson_type_t type;
    const uint8_t* discard;
    uint32_t size;
    uint32_t* dest;

    type = bson_iter_type(bsonit);
    switch (type) {
        case BSON_TYPE_UTF8:
        case BSON_TYPE_CODE:
            bson_iter_utf8(bsonit, &size);
            break;
        case BSON_TYPE_BINARY:
            bson_iter_binary(bsonit, NULL, &size, &discard);
            break;
        case BSON_TYPE_DOCUMENT:
            bson_iter_document(bsonit, &size, &discard);
            break;
        case BSON_TYPE_ARRAY:
            bson_iter_array(bsonit, &size, &discard);
            break;
        default:
            return 0;
    }
    dest = ((uint32_t*) citem->storage) + idx;
    memcpy(dest, &size, sizeof(uint32_t));
    return 1;
}
Exemplo n.º 3
0
types::b_array element::get_array() const {
    CITER;

    const std::uint8_t* buf;
    std::uint32_t len;

    bson_iter_array(&iter, &len, &buf);

    return types::b_array{document::view{buf, len}};
}
Exemplo n.º 4
0
types::b_array element::get_array() const {
    BSONCXX_TYPE_CHECK(k_array);
    BSONCXX_CITER;

    const std::uint8_t* buf;
    std::uint32_t len;

    bson_iter_array(&iter, &len, &buf);

    return types::b_array{array::view{buf, len}};
}
/**
 * _mongoc_gridfs_file_new_from_bson:
 *
 * creates a gridfs file from a bson object
 *
 * This is only really useful for instantiating a gridfs file from a server
 * side object
 */
mongoc_gridfs_file_t *
_mongoc_gridfs_file_new_from_bson (mongoc_gridfs_t *gridfs,
                                   const bson_t    *data)
{
   mongoc_gridfs_file_t *file;
   const char *key;
   bson_iter_t iter;
   const uint8_t *buf;
   uint32_t buf_len;

   ENTRY;

   BSON_ASSERT (gridfs);
   BSON_ASSERT (data);

   file = bson_malloc0 (sizeof *file);

   file->gridfs = gridfs;
   bson_copy_to (data, &file->bson);

   bson_iter_init (&iter, &file->bson);

   while (bson_iter_next (&iter)) {
      key = bson_iter_key (&iter);

      if (0 == strcmp (key, "_id")) {
         bson_oid_copy (bson_iter_oid (&iter), &file->files_id);
      } else if (0 == strcmp (key, "length")) {
         file->length = bson_iter_int64 (&iter);
      } else if (0 == strcmp (key, "chunkSize")) {
         file->chunk_size = bson_iter_int32 (&iter);
      } else if (0 == strcmp (key, "uploadDate")) {
         file->upload_date = bson_iter_date_time (&iter);
      } else if (0 == strcmp (key, "md5")) {
         file->bson_md5 = bson_iter_utf8 (&iter, NULL);
      } else if (0 == strcmp (key, "filename")) {
         file->bson_filename = bson_iter_utf8 (&iter, NULL);
      } else if (0 == strcmp (key, "contentType")) {
         file->bson_content_type = bson_iter_utf8 (&iter, NULL);
      } else if (0 == strcmp (key, "aliases")) {
         bson_iter_array (&iter, &buf_len, &buf);
         bson_init_static (&file->bson_aliases, buf, buf_len);
      } else if (0 == strcmp (key, "metadata")) {
         bson_iter_document (&iter, &buf_len, &buf);
         bson_init_static (&file->bson_metadata, buf, buf_len);
      }
   }

   /* TODO: is there are a minimal object we should be verifying that we
    * actually have here? */

   RETURN (file);
}
Exemplo n.º 6
0
void bsonToArray(bson_iter_t* iter, Array* output, bool isDocument) {
  bson_t bson;
  const uint8_t *document = NULL;
  uint32_t document_len = 0;

  if (isDocument) {
    bson_iter_document(iter, &document_len, &document);
  } else {
    bson_iter_array(iter, &document_len, &document);
  }

  bson_init_static(&bson, document, document_len);

  Array child = Array::Create();
  bsonToVariant(&bson, &child);

  output->add(
    String(bson_iter_key(iter)),
    child
  );   
}
/**
 * _mongoc_gridfs_file_new_from_bson:
 *
 * creates a gridfs file from a bson object
 *
 * This is only really useful for instantiating a gridfs file from a server
 * side object
 */
mongoc_gridfs_file_t *
_mongoc_gridfs_file_new_from_bson (mongoc_gridfs_t *gridfs,
                                   const bson_t    *data)
{
   mongoc_gridfs_file_t *file;
   const bson_value_t *value;
   const char *key;
   bson_iter_t iter;
   const uint8_t *buf;
   uint32_t buf_len;

   ENTRY;

   BSON_ASSERT (gridfs);
   BSON_ASSERT (data);

   file = (mongoc_gridfs_file_t *)bson_malloc0 (sizeof *file);

   file->gridfs = gridfs;
   bson_copy_to (data, &file->bson);

   bson_iter_init (&iter, &file->bson);

   while (bson_iter_next (&iter)) {
      key = bson_iter_key (&iter);

      if (0 == strcmp (key, "_id")) {
         value = bson_iter_value (&iter);
         bson_value_copy (value, &file->files_id);
      } else if (0 == strcmp (key, "length")) {
         if (!BSON_ITER_HOLDS_INT32 (&iter) &&
             !BSON_ITER_HOLDS_INT64 (&iter) &&
             !BSON_ITER_HOLDS_DOUBLE (&iter)) {
            GOTO (failure);
         }
         file->length = bson_iter_as_int64 (&iter);
      } else if (0 == strcmp (key, "chunkSize")) {
         if (!BSON_ITER_HOLDS_INT32 (&iter) &&
             !BSON_ITER_HOLDS_INT64 (&iter) &&
             !BSON_ITER_HOLDS_DOUBLE (&iter)) {
            GOTO (failure);
         }
         if (bson_iter_as_int64 (&iter) > INT32_MAX) {
            GOTO (failure);
         }
         file->chunk_size = (int32_t)bson_iter_as_int64 (&iter);
      } else if (0 == strcmp (key, "uploadDate")) {
         if (!BSON_ITER_HOLDS_DATE_TIME (&iter)){
            GOTO (failure);
         }
         file->upload_date = bson_iter_date_time (&iter);
      } else if (0 == strcmp (key, "md5")) {
         if (!BSON_ITER_HOLDS_UTF8 (&iter)) {
            GOTO (failure);
         }
         file->bson_md5 = bson_iter_utf8 (&iter, NULL);
      } else if (0 == strcmp (key, "filename")) {
         if (!BSON_ITER_HOLDS_UTF8 (&iter)) {
            GOTO (failure);
         }
         file->bson_filename = bson_iter_utf8 (&iter, NULL);
      } else if (0 == strcmp (key, "contentType")) {
         if (!BSON_ITER_HOLDS_UTF8 (&iter)) {
            GOTO (failure);
         }
         file->bson_content_type = bson_iter_utf8 (&iter, NULL);
      } else if (0 == strcmp (key, "aliases")) {
         if (!BSON_ITER_HOLDS_ARRAY (&iter)) {
            GOTO  (failure);
         }
         bson_iter_array (&iter, &buf_len, &buf);
         bson_init_static (&file->bson_aliases, buf, buf_len);
      } else if (0 == strcmp (key, "metadata")) {
         if (!BSON_ITER_HOLDS_DOCUMENT (&iter)) {
            GOTO (failure);
         }
         bson_iter_document (&iter, &buf_len, &buf);
         bson_init_static (&file->bson_metadata, buf, buf_len);
      }
   }

   /* TODO: is there are a minimal object we should be verifying that we
    * actually have here? */

   RETURN (file);

failure:
   bson_destroy (&file->bson);

   RETURN (NULL);
}
Exemplo n.º 8
0
int be_mongo_aclcheck(void *conf, const char *clientid, const char *username, const char *topic, int acc)
{
	struct mongo_backend *handle = (struct mongo_backend *) conf;
	mongoc_collection_t *collection;
	mongoc_cursor_t *cursor;
	bson_error_t error;
	const bson_t *doc;
	bson_iter_t iter;

	bool check = false;
	int match = 0, foundFlag = 0;

	bson_t query;

	bson_init(&query);
	bson_append_utf8(&query, "username", -1, username, -1);

	collection = mongoc_client_get_collection(handle->client, dbName, colName);

	cursor = mongoc_collection_find(collection,
									MONGOC_QUERY_NONE,
									0,
									0,
									0,
									&query,
									NULL,
									NULL);
	
	while (!mongoc_cursor_error (cursor, &error) &&
			mongoc_cursor_more (cursor)) {
		if (foundFlag == 0 && mongoc_cursor_next (cursor, &doc)) {
				bson_iter_init(&iter, doc);
				bson_iter_find(&iter, topicLoc);

				int64_t topId = (int64_t) bson_iter_as_int64(&iter);//, NULL);

				bson_destroy(&query);
				mongoc_cursor_destroy(cursor);
				mongoc_collection_destroy(collection);
				
				bson_init(&query);
				bson_append_int64(&query, topicID, -1, topId);
				collection = mongoc_client_get_collection(handle->client, dbName, topicLoc);
				cursor = mongoc_collection_find(collection,
												MONGOC_QUERY_NONE,
												0,
												0,
												0,
												&query,
												NULL,
												NULL);		
				foundFlag = 1;
		}
		if (foundFlag == 1 && mongoc_cursor_next(cursor, &doc)) {
				
			bson_iter_init(&iter, doc);
			bson_iter_find(&iter, topicLoc);
			uint32_t len;
			const uint8_t *arr;
			bson_iter_array(&iter, &len, &arr);
			bson_t b;
			
			
			
			if (bson_init_static(&b, arr, len))	{
				bson_iter_init(&iter, &b);
				while (bson_iter_next(&iter)) {
			
					char *str = bson_iter_dup_utf8(&iter, &len);

					mosquitto_topic_matches_sub(str, topic, &check);
					if (check) {
							match = 1;
							bson_free(str);
							break;
					}
					bson_free(str);
				}
			}

		}

	}
	

	if (mongoc_cursor_error (cursor, &error)) {
			fprintf (stderr, "Cursor Failure: %s\n", error.message);
			return 0;
	}
	

	bson_destroy(&query);
	mongoc_cursor_destroy (cursor);
	mongoc_collection_destroy(collection);


	



	return match;
}
Exemplo n.º 9
0
struct transaction* transaction_from_bson(bson_t const* doc)
{
    char key[9];
    bson_iter_t iter;
    bson_iter_t subiter;
    struct transaction* tx = transaction_new();

    if(!bson_iter_init_find(&iter, doc, "version") || !BSON_ITER_HOLDS_INT32(&iter)) goto error;
    transaction_set_version(tx, bson_iter_int32(&iter));

    // Read Inputs
    if(!bson_iter_init_find(&iter, doc, "inputs") || !BSON_ITER_HOLDS_ARRAY(&iter)) goto error;

    uint32_t inputs_doc_length;
    uint8_t const* inputs_doc_data;
    bson_iter_array(&iter, &inputs_doc_length, &inputs_doc_data);

    bson_t inputs_doc;
    bson_init_static(&inputs_doc, inputs_doc_data, inputs_doc_length);

    size_t index = 0;
    for(;;) {
        bson_snprintf(key, sizeof(key), "%u", (unsigned int)index);
        key[sizeof(key) - 1] = '\0';

        // If the array key isn't found, then we reached the end of the array
        if(!bson_iter_init_find(&subiter, &inputs_doc, key)) break;

        // If it's not a document, then there's an error
        if(!BSON_ITER_HOLDS_DOCUMENT(&subiter)) goto error;

        struct transaction_input* input = transaction_input_new();
        struct transaction_output_reference* output_reference = transaction_input_output_reference(input);

        // Load the input document
        bson_t element_doc;
        uint32_t element_doc_length;
        uint8_t const* element_doc_data;
        bson_iter_document(&subiter, &element_doc_length, &element_doc_data);
        bson_init_static(&element_doc, element_doc_data, element_doc_length);

        bson_iter_t elementiter;

        // Output reference
        if(!bson_iter_init_find(&elementiter, &element_doc, "output_reference") || !BSON_ITER_HOLDS_DOCUMENT(&elementiter)) goto error;
        bson_t output_reference_doc;
        uint32_t output_reference_doc_length;
        uint8_t const* output_reference_doc_data;
        bson_iter_document(&elementiter, &output_reference_doc_length, &output_reference_doc_data);
        bson_init_static(&output_reference_doc, output_reference_doc_data, output_reference_doc_length);

        bson_iter_t output_reference_iter;

        uint8_t const* hash;
        uint32_t hash_size;

        if(!bson_iter_init_find(&output_reference_iter, &output_reference_doc, "hash") || !BSON_ITER_HOLDS_BINARY(&output_reference_iter)) goto error;
        bson_iter_binary(&output_reference_iter, BSON_SUBTYPE_BINARY, &hash_size, &hash);
        assert(hash_size == 32);
        transaction_output_reference_set_hash(output_reference, (unsigned char const*)hash);

        if(!bson_iter_init_find(&output_reference_iter, &output_reference_doc, "index") || !BSON_ITER_HOLDS_INT32(&output_reference_iter)) goto error;
        transaction_output_reference_set_index(output_reference, bson_iter_int32(&output_reference_iter));

        // Script
        if(!bson_iter_init_find(&elementiter, &element_doc, "script") || !BSON_ITER_HOLDS_BINARY(&elementiter)) goto error;
        uint32_t script_size;
        uint8_t const* script_data;
        bson_iter_binary(&elementiter, BSON_SUBTYPE_BINARY, &script_size, &script_data);
        struct script* script;
        size_t script_size_result;
        script_size_result = unserialize_script((unsigned char const*)script_data, script_size, &script, script_size);
        assert(script_size_result == script_size);
        transaction_input_set_script(input, script);

        // Sequence
        if(!bson_iter_init_find(&elementiter, &element_doc, "sequence") || !BSON_ITER_HOLDS_INT32(&elementiter)) goto error;
        transaction_input_set_sequence(input, bson_iter_int32(&elementiter));

        transaction_add_input(tx, input);
        index += 1;
    }

    // Read Outputs
    if(!bson_iter_init_find(&iter, doc, "outputs") || !BSON_ITER_HOLDS_ARRAY(&iter)) goto error;

    uint32_t outputs_doc_length;
    uint8_t const* outputs_doc_data;
    bson_iter_array(&iter, &outputs_doc_length, &outputs_doc_data);

    bson_t outputs_doc;
    bson_init_static(&outputs_doc, outputs_doc_data, outputs_doc_length);

    index = 0;
    for(;;) {
        bson_snprintf(key, sizeof(key), "%u", (unsigned int)index);
        key[sizeof(key) - 1] = '\0';

        // If the array key isn't found, then we reached the end of the array
        if(!bson_iter_init_find(&subiter, &outputs_doc, key)) break;

        // If it's not a document, then there's an error
        if(!BSON_ITER_HOLDS_DOCUMENT(&subiter)) goto error;

        struct transaction_output* output = transaction_output_new();

        // Load the output document
        bson_t element_doc;
        uint32_t element_doc_length;
        uint8_t const* element_doc_data;
        bson_iter_document(&subiter, &element_doc_length, &element_doc_data);
        bson_init_static(&element_doc, element_doc_data, element_doc_length);

        bson_iter_t elementiter;

        // Value
        if(!bson_iter_init_find(&elementiter, &element_doc, "value") || !BSON_ITER_HOLDS_INT64(&elementiter)) goto error;
        transaction_output_set_value(output, bson_iter_int64(&elementiter));

        // Script
        if(!bson_iter_init_find(&elementiter, &element_doc, "script") || !BSON_ITER_HOLDS_BINARY(&elementiter)) goto error;
        uint32_t script_size;
        uint8_t const* script_data;
        bson_iter_binary(&elementiter, BSON_SUBTYPE_BINARY, &script_size, &script_data);
        struct script* script;
        size_t script_size_result;
        script_size_result = unserialize_script((unsigned char const*)script_data, script_size, &script, script_size);
        assert(script_size_result == script_size);
        transaction_output_set_script(output, script);

        transaction_add_output(tx, output);
        index += 1;
    }

    if(!bson_iter_init_find(&iter, doc, "lock_time") || !BSON_ITER_HOLDS_INT32(&iter)) goto error;
    transaction_set_lock_time(tx, bson_iter_int32(&iter));

    return tx;
error:
    return NULL;
}
void
mongoc_server_description_handle_ismaster (
   mongoc_server_description_t   *sd,
   const bson_t                  *ismaster_response,
   int64_t                        rtt_msec,
   bson_error_t                  *error)
{
   bson_iter_t iter;
   bool is_master = false;
   bool is_shard = false;
   bool is_secondary = false;
   bool is_arbiter = false;
   bool is_replicaset = false;
   bool is_hidden = false;
   const uint8_t *bytes;
   uint32_t len;
   int num_keys = 0;
   ENTRY;

   BSON_ASSERT (sd);

   mongoc_server_description_reset (sd);
   if (!ismaster_response) {
      EXIT;
   }

   bson_destroy (&sd->last_is_master);
   bson_copy_to (ismaster_response, &sd->last_is_master);
   sd->has_is_master = true;

   bson_iter_init (&iter, &sd->last_is_master);

   while (bson_iter_next (&iter)) {
      num_keys++;
      if (strcmp ("ok", bson_iter_key (&iter)) == 0) {
         /* ismaster responses never have ok: 0, but spec requires we check */
         if (! bson_iter_as_bool (&iter)) goto failure;
      } else if (strcmp ("ismaster", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_BOOL (&iter)) goto failure;
         is_master = bson_iter_bool (&iter);
      } else if (strcmp ("maxMessageSizeBytes", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_INT32 (&iter)) goto failure;
         sd->max_msg_size = bson_iter_int32 (&iter);
      } else if (strcmp ("maxBsonObjectSize", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_INT32 (&iter)) goto failure;
         sd->max_bson_obj_size = bson_iter_int32 (&iter);
      } else if (strcmp ("maxWriteBatchSize", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_INT32 (&iter)) goto failure;
         sd->max_write_batch_size = bson_iter_int32 (&iter);
      } else if (strcmp ("minWireVersion", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_INT32 (&iter)) goto failure;
         sd->min_wire_version = bson_iter_int32 (&iter);
      } else if (strcmp ("maxWireVersion", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_INT32 (&iter)) goto failure;
         sd->max_wire_version = bson_iter_int32 (&iter);
      } else if (strcmp ("msg", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_UTF8 (&iter)) goto failure;
         is_shard = !!bson_iter_utf8 (&iter, NULL);
      } else if (strcmp ("setName", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_UTF8 (&iter)) goto failure;
         sd->set_name = bson_iter_utf8 (&iter, NULL);
      } else if (strcmp ("secondary", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_BOOL (&iter)) goto failure;
         is_secondary = bson_iter_bool (&iter);
      } else if (strcmp ("hosts", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_ARRAY (&iter)) goto failure;
         bson_iter_array (&iter, &len, &bytes);
         bson_init_static (&sd->hosts, bytes, len);
      } else if (strcmp ("passives", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_ARRAY (&iter)) goto failure;
         bson_iter_array (&iter, &len, &bytes);
         bson_init_static (&sd->passives, bytes, len);
      } else if (strcmp ("arbiters", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_ARRAY (&iter)) goto failure;
         bson_iter_array (&iter, &len, &bytes);
         bson_init_static (&sd->arbiters, bytes, len);
      } else if (strcmp ("primary", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_UTF8 (&iter)) goto failure;
         sd->current_primary = bson_iter_utf8 (&iter, NULL);
      } else if (strcmp ("arbiterOnly", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_BOOL (&iter)) goto failure;
         is_arbiter = bson_iter_bool (&iter);
      } else if (strcmp ("isreplicaset", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_BOOL (&iter)) goto failure;
         is_replicaset = bson_iter_bool (&iter);
      } else if (strcmp ("tags", bson_iter_key (&iter)) == 0) {
         if (! BSON_ITER_HOLDS_DOCUMENT (&iter)) goto failure;
         bson_iter_document (&iter, &len, &bytes);
         bson_init_static (&sd->tags, bytes, len);
      } else if (strcmp ("hidden", bson_iter_key (&iter)) == 0) {
         is_hidden = bson_iter_bool (&iter);
      }
   }

   if (is_shard) {
      sd->type = MONGOC_SERVER_MONGOS;
   } else if (sd->set_name) {
      if (is_hidden) {
         sd->type = MONGOC_SERVER_RS_OTHER;
      } else if (is_master) {
         sd->type = MONGOC_SERVER_RS_PRIMARY;
      } else if (is_secondary) {
         sd->type = MONGOC_SERVER_RS_SECONDARY;
      } else if (is_arbiter) {
         sd->type = MONGOC_SERVER_RS_ARBITER;
      } else {
         sd->type = MONGOC_SERVER_RS_OTHER;
      }
   } else if (is_replicaset) {
      sd->type = MONGOC_SERVER_RS_GHOST;
   } else if (num_keys > 0) {
      sd->type = MONGOC_SERVER_STANDALONE;
   } else {
      sd->type = MONGOC_SERVER_UNKNOWN;
   }

   mongoc_server_description_update_rtt(sd, rtt_msec);

   EXIT;

failure:
   sd->type = MONGOC_SERVER_UNKNOWN;
   sd->round_trip_time = -1;

   EXIT;
}
Exemplo n.º 11
0
QVariantMap TBson::fromBson(const TBsonObject *obj)
{
    QVariantMap ret;
    bson_iter_t it;
    const bson_t *bson = (const bson_t *)obj;

    bson_iter_init(&it, bson);
    while (bson_iter_next(&it)) {
        bson_type_t t = bson_iter_type(&it);
        QString key(bson_iter_key(&it));

        switch (t) {
        case BSON_TYPE_EOD:
            return ret;
            break;

        case BSON_TYPE_DOUBLE:
            ret[key] = bson_iter_double(&it);
            break;

        case BSON_TYPE_UTF8:
            ret[key] = QString::fromUtf8(bson_iter_utf8(&it, nullptr));
            break;

        case BSON_TYPE_ARRAY: {
            const uint8_t *docbuf = nullptr;
            uint32_t doclen = 0;
            bson_t sub[1];

            bson_iter_array(&it, &doclen, &docbuf);
            if (bson_init_static(sub, docbuf, doclen)) {
                ret[key] = fromBson(sub).values();
            }
            break; }

        case BSON_TYPE_DOCUMENT: {
            const uint8_t *docbuf = nullptr;
            uint32_t doclen = 0;
            bson_t sub[1];

            bson_iter_document(&it, &doclen, &docbuf);
            if (bson_init_static(sub, docbuf, doclen)) {
                ret[key] = fromBson(sub);
            }
            break; }

        case BSON_TYPE_BINARY: {
            const uint8_t *binary = nullptr;
            bson_subtype_t subtype = BSON_SUBTYPE_BINARY;
            uint32_t len = 0;

            bson_iter_binary(&it, &subtype, &len, &binary);
            if (binary) {
                ret[key] = QByteArray((char *)binary, len);
            }
            break; }

        case BSON_TYPE_UNDEFINED:
            ret[key] = QVariant();
            break;

        case BSON_TYPE_OID: {
            char oidhex[25];
            bson_oid_to_string(bson_iter_oid(&it), oidhex);
            ret[key] = QString(oidhex);
            break; }

        case BSON_TYPE_BOOL:
            ret[key] = (bool)bson_iter_bool(&it);
            break;

        case BSON_TYPE_DATE_TIME: {
#if QT_VERSION >= 0x040700
            QDateTime date;
            date.setMSecsSinceEpoch(bson_iter_date_time(&it));
#else
            qint64 val = bson_iter_date_time(&it);
            qint64 days = val / 86400000;  // 24*60*60*1000
            int msecs = val % 86400000;
            QDate dt = QDate(1970, 1, 1).addDays(days);
            QTime tm = QTime(0, 0, 0).addMSecs(msecs);
            QDateTime date(dt, tm, Qt::UTC);
#endif
            ret[key] = date;
            break; }

        case BSON_TYPE_NULL:
            ret[key] = QVariant();
            break;

        case BSON_TYPE_REGEX:
            ret[key] = QRegExp(QLatin1String(bson_iter_regex(&it, nullptr)));
            break;

        case BSON_TYPE_CODE:
            ret[key] = QString(bson_iter_code(&it, nullptr));
            break;

        case BSON_TYPE_SYMBOL:
            ret[key] = QString(bson_iter_symbol(&it, nullptr));
            break;

        case BSON_TYPE_INT32:
            ret[key] = bson_iter_int32(&it);
            break;

        case BSON_TYPE_INT64:
            ret[key] = (qint64)bson_iter_int64(&it);
            break;

        case BSON_TYPE_CODEWSCOPE: // FALL THROUGH
        case BSON_TYPE_TIMESTAMP:  // FALL THROUGH (internal use)
            // do nothing
            break;

        default:
            tError("fromBson() unknown type: %d", t);
            break;
        }
        //tSystemDebug("fromBson : t:%d key:%s = %s", t, qPrintable(key), qPrintable(ret[key].toString()));
    }
    return ret;
}
Exemplo n.º 12
0
static int mongo_read_realms_ip_lists(const char *kind, ip_range_list_t * list)
{
	int ret = 0;

	char field_name[129];
	sprintf(field_name, "%s_peer_ip", kind);

	mongoc_collection_t * collection = mongo_get_collection("realm");

	if (!collection)
		return ret;

	bson_t query;
	bson_init(&query);

	bson_t fields;
	bson_init(&fields);
	BSON_APPEND_INT32(&fields, "realm", 1);
	BSON_APPEND_INT32(&fields, field_name, 1);

	mongoc_cursor_t * cursor;
	cursor = mongoc_collection_find(collection, MONGOC_QUERY_NONE, 0, 0, 0,
			&query, &fields, NULL);

	if (!cursor) {
		TURN_LOG_FUNC(TURN_LOG_LEVEL_ERROR,
				"Error querying MongoDB collection 'realm'\n");
		ret = -1;
	} else {
		const bson_t * item;
		uint32_t length;
		bson_iter_t iter;
		char realm[513];

		while (mongoc_cursor_next(cursor, &item)) {

			if (bson_iter_init(&iter, item) && bson_iter_find(&iter, "realm")
					&& BSON_ITER_HOLDS_UTF8(&iter)) {

				STRCPY(realm,bson_iter_utf8(&iter, &length));

				if (bson_iter_init(&iter, item) && bson_iter_find(&iter,
						field_name) && BSON_ITER_HOLDS_ARRAY(&iter)) {
					const uint8_t *docbuf = NULL;
					uint32_t doclen = 0;
					bson_t ip_range_array;
					bson_iter_t ip_range_iter;

					bson_iter_array(&iter, &doclen, &docbuf);
					bson_init_static(&ip_range_array, docbuf, doclen);

					if (bson_iter_init(&ip_range_iter, &ip_range_array)) {
						while (bson_iter_next(&ip_range_iter)) {
							if (BSON_ITER_HOLDS_UTF8(&ip_range_iter)) {
								const char* ip_range = bson_iter_utf8(&ip_range_iter, &length);
								add_ip_list_range(ip_range, realm, list);
							}
						}
					}
				}
			}
		}
		mongoc_cursor_destroy(cursor);
	}
	mongoc_collection_destroy(collection);
	bson_destroy(&query);
	bson_destroy(&fields);

	return ret;
}
Exemplo n.º 13
0
static int mongo_list_origins(u08bits *realm, secrets_list_t *origins, secrets_list_t *realms)
{
	mongoc_collection_t * collection = mongo_get_collection("realm");

	if(!collection)
		return -1;

	u08bits realm0[STUN_MAX_REALM_SIZE+1] = "\0";
	if(!realm) realm=realm0;

	bson_t query, child;
	bson_init(&query);
	bson_append_document_begin(&query, "$orderby", -1, &child);
	BSON_APPEND_INT32(&child, "realm", 1);
	bson_append_document_end(&query, &child);
	bson_append_document_begin(&query, "$query", -1, &child);
	if (realm && realm[0]) {
		BSON_APPEND_UTF8(&child, "realm", (const char *)realm);
	}
	bson_append_document_end(&query, &child);

	bson_t fields;
	bson_init(&fields);
	BSON_APPEND_INT32(&fields, "origin", 1);
	BSON_APPEND_INT32(&fields, "realm", 1);
  
	mongoc_cursor_t * cursor;
	cursor = mongoc_collection_find(collection, MONGOC_QUERY_NONE, 0, 0, 0, &query, &fields, NULL);

	int ret = -1;
  
	if (!cursor) {
		TURN_LOG_FUNC(TURN_LOG_LEVEL_ERROR, "Error querying MongoDB collection 'realm'\n");
	} else {
		const bson_t * item;
		uint32_t length;
		bson_iter_t iter;

		while (mongoc_cursor_next(cursor, &item)) {
			if (bson_iter_init(&iter, item) && bson_iter_find(&iter, "realm") && BSON_ITER_HOLDS_UTF8(&iter)) {
				const char * _realm = bson_iter_utf8(&iter, &length);

				if (bson_iter_init(&iter, item) && bson_iter_find(&iter, "origin") && BSON_ITER_HOLDS_ARRAY(&iter)) {
					const uint8_t *docbuf = NULL;
					uint32_t doclen = 0;
					bson_t origin_array;
					bson_iter_t origin_iter;

					bson_iter_array(&iter, &doclen, &docbuf);
					bson_init_static(&origin_array, docbuf, doclen);

					if (bson_iter_init(&origin_iter, &origin_array)) {
						while(bson_iter_next(&origin_iter)) {
							if (BSON_ITER_HOLDS_UTF8(&origin_iter)) {
								const char * _origin = bson_iter_utf8(&origin_iter, &length);
								if(origins) {
									add_to_secrets_list(origins,_origin);
									if(realms) {
										add_to_secrets_list(realms,_realm);
									}
								} else {
									printf("%s ==>> %s\n", _realm, _origin);
								}
							}
						}
					}
				}
			}
		}
		mongoc_cursor_destroy(cursor);
		ret = 0;
	}
	mongoc_collection_destroy(collection);
	bson_destroy(&query);
	bson_destroy(&fields);
	return ret;
}
Exemplo n.º 14
0
static void mongo_reread_realms(secrets_list_t * realms_list) {

	UNUSED_ARG(realms_list);

	mongoc_collection_t * collection = mongo_get_collection("realm");

	if (!collection)
		return;

	bson_t query;
	bson_init(&query);

	bson_t fields;
	bson_init(&fields);
	BSON_APPEND_INT32(&fields, "realm", 1);
	BSON_APPEND_INT32(&fields, "origin", 1);
	BSON_APPEND_INT32(&fields, "options", 1);

	mongoc_cursor_t * cursor;
	cursor = mongoc_collection_find(collection, MONGOC_QUERY_NONE, 0, 0, 0,
			&query, &fields, NULL);

	if (!cursor) {
		TURN_LOG_FUNC(TURN_LOG_LEVEL_ERROR,
				"Error querying MongoDB collection 'realm'\n");
	} else {
		ur_string_map *o_to_realm_new = ur_string_map_create(turn_free_simple);

		const bson_t * item;
		uint32_t length;
		bson_iter_t iter;

		while (mongoc_cursor_next(cursor, &item)) {

			if (bson_iter_init(&iter, item) && bson_iter_find(&iter, "realm")
					&& BSON_ITER_HOLDS_UTF8(&iter)) {

				char * _realm = turn_strdup(bson_iter_utf8(&iter, &length));

				get_realm(_realm);

				if (bson_iter_init(&iter, item) && bson_iter_find(&iter,
						"origin") && BSON_ITER_HOLDS_ARRAY(&iter)) {
					const uint8_t *docbuf = NULL;
					uint32_t doclen = 0;
					bson_t origin_array;
					bson_iter_t origin_iter;

					bson_iter_array(&iter, &doclen, &docbuf);
					bson_init_static(&origin_array, docbuf, doclen);

					if (bson_iter_init(&origin_iter, &origin_array)) {
						while (bson_iter_next(&origin_iter)) {
							if (BSON_ITER_HOLDS_UTF8(&origin_iter)) {
								char* _origin =	turn_strdup(bson_iter_utf8(&origin_iter, &length));
								char *rval = turn_strdup(_realm);
								ur_string_map_value_type value =
										(ur_string_map_value_type) (rval);
								ur_string_map_put(o_to_realm_new,
										(const ur_string_map_key_type) _origin,
										value);
								turn_free(_origin,strlen(_origin)+1);
							}
						}
					}
				}

				realm_params_t* rp = get_realm(_realm);
				lock_realms();
				rp->options.perf_options.max_bps = turn_params.max_bps;
				rp->options.perf_options.total_quota = turn_params.total_quota;
				rp->options.perf_options.user_quota = turn_params.user_quota;
				unlock_realms();

				if (bson_iter_init(&iter, item) && bson_iter_find(&iter,
						"options") && BSON_ITER_HOLDS_DOCUMENT(&iter)) {
					const uint8_t *docbuf = NULL;
					uint32_t doclen = 0;
					bson_t options;
					bson_iter_t options_iter;

					bson_iter_document(&iter, &doclen, &docbuf);
					bson_init_static(&options, docbuf, doclen);

					if (bson_iter_init(&options_iter, &options)) {
						while (bson_iter_next(&options_iter)) {
							const char * _k = bson_iter_key(&options_iter);
							uint64_t _v = 0;
							if (BSON_ITER_HOLDS_DOUBLE(&options_iter)) {
								_v = (uint64_t) bson_iter_double(&options_iter);
							} else if (BSON_ITER_HOLDS_INT32(&options_iter)) {
								_v = (uint64_t)bson_iter_int32(&options_iter);
							} else if (BSON_ITER_HOLDS_INT64(&options_iter)) {
								_v = (uint64_t) bson_iter_int64(&options_iter);
							}
							if (_v) {
								if (!strcmp(_k, "max-bps"))
									rp->options.perf_options.max_bps = (band_limit_t) _v;
								else if (!strcmp(_k, "total-quota"))
									rp->options.perf_options.total_quota = (vint) _v;
								else if (!strcmp(_k, "user-quota"))
									rp->options.perf_options.user_quota = (vint) _v;
								else {
									TURN_LOG_FUNC(TURN_LOG_LEVEL_ERROR,
											"Unknown realm option: %s\n", _k);
								}
							}
						}
					}
				}
				turn_free(_realm,strlen(_realm)+1);
			}
		}
		update_o_to_realm(o_to_realm_new);
		mongoc_cursor_destroy(cursor);
	}
	mongoc_collection_destroy(collection);
	bson_destroy(&query);
	bson_destroy(&fields);
}