Exemplo n.º 1
0
int rmnet_get_network_device_associated(rmnetctl_hndl_t *hndl,
					const char *dev_name,
					int *register_status,
					uint16_t *error_code) {
	struct rmnet_nl_msg_s request, response;
	int str_len = -1, return_code = RMNETCTL_LIB_ERR;
	do {
	if ((!hndl) || (!register_status) || (!error_code) ||
	_rmnetctl_check_dev_name(dev_name)) {
		return_code = RMNETCTL_INVALID_ARG;
		break;
	}

	request.message_type = RMNET_NETLINK_GET_NETWORK_DEVICE_ASSOCIATED;

	request.arg_length = RMNET_MAX_STR_LEN;
	str_len = strlcpy((char *)(request.data), dev_name, RMNET_MAX_STR_LEN);
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;

	if ((*error_code = rmnetctl_transact(hndl, &request, &response))
		!= RMNETCTL_SUCCESS)
		break;

	if (_rmnetctl_check_data(response.crd, error_code) != RMNETCTL_SUCCESS)
		break;

	*register_status = response.return_code;
	return_code = RMNETCTL_SUCCESS;
	} while(0);
	return return_code;
}
Exemplo n.º 2
0
int rmnet_associate_network_device(rmnetctl_hndl_t *hndl,
				   const char *dev_name,
				   uint16_t *error_code,
				   uint8_t assoc_dev)
{
	struct rmnet_nl_msg_s request, response;
	int str_len = -1, return_code = RMNETCTL_LIB_ERR;
	do {
	if ((!hndl) || (!error_code) || _rmnetctl_check_dev_name(dev_name) ||
		((assoc_dev != RMNETCTL_DEVICE_ASSOCIATE) &&
		(assoc_dev != RMNETCTL_DEVICE_UNASSOCIATE))) {
		return_code = RMNETCTL_INVALID_ARG;
		break;
	}

	if (assoc_dev == RMNETCTL_DEVICE_ASSOCIATE)
		request.message_type = RMNET_NETLINK_ASSOCIATE_NETWORK_DEVICE;
	else
		request.message_type = RMNET_NETLINK_UNASSOCIATE_NETWORK_DEVICE;

	request.arg_length = RMNET_MAX_STR_LEN;
	str_len = strlcpy((char *)(request.data), dev_name, RMNET_MAX_STR_LEN);
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;

	if ((*error_code = rmnetctl_transact(hndl, &request, &response))
		!= RMNETCTL_SUCCESS)
		break;
	if (_rmnetctl_check_code(response.crd, error_code) != RMNETCTL_SUCCESS)
		break;
	return_code = _rmnetctl_set_codes(response.return_code, error_code);
	} while(0);
	return return_code;
}
int rmnet_get_logical_ep_config(rmnetctl_hndl_t *hndl,
				int32_t ep_id,
				const char *dev_name,
				uint8_t *operating_mode,
				char **next_dev,
				uint32_t next_dev_len,
				uint16_t *error_code) {
	struct rmnet_nl_msg_s request, response;
	size_t str_len = 0;
	int return_code = RMNETCTL_LIB_ERR;
	do {
	if ((!hndl) || (!operating_mode) || (!error_code) || ((ep_id < -1) ||
	    (ep_id > 31)) || _rmnetctl_check_dev_name(dev_name) || (!next_dev)
	    || (0 == next_dev_len)) {
		return_code = RMNETCTL_INVALID_ARG;
		break;
	}

	request.message_type = RMNET_NETLINK_GET_LOGICAL_EP_CONFIG;

	request.arg_length = RMNET_MAX_STR_LEN + sizeof(int32_t);
	str_len = strlcpy((char *)(request.local_ep_config.dev),
			  dev_name,
			  RMNET_MAX_STR_LEN);
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;

	request.local_ep_config.ep_id = ep_id;

	if ((*error_code = rmnetctl_transact(hndl, &request, &response))
		!= RMNETCTL_SUCCESS)
		break;
	if (_rmnetctl_check_data(response.crd, error_code) != RMNETCTL_SUCCESS)
		break;

	str_len = strlcpy(*next_dev,
			  (char *)(response.local_ep_config.next_dev),
			  min(RMNET_MAX_STR_LEN, next_dev_len));
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;

	*operating_mode = response.local_ep_config.operating_mode;
	return_code = RMNETCTL_SUCCESS;
	} while(0);
	return return_code;
}
int rmnet_set_logical_ep_config(rmnetctl_hndl_t *hndl,
				int32_t ep_id,
				uint8_t operating_mode,
				const char *dev_name,
				const char *next_dev,
				uint16_t *error_code) {
	struct rmnet_nl_msg_s request, response;
	size_t str_len = 0;
	int return_code = RMNETCTL_LIB_ERR;
	do {
	if ((!hndl) || ((ep_id < -1) || (ep_id > 31)) || (!error_code) ||
		_rmnetctl_check_dev_name(dev_name) ||
		_rmnetctl_check_dev_name(next_dev) ||
		operating_mode >= RMNET_EPMODE_LENGTH) {
		return_code = RMNETCTL_INVALID_ARG;
		break;
	}

	request.message_type = RMNET_NETLINK_SET_LOGICAL_EP_CONFIG;

	request.arg_length = RMNET_MAX_STR_LEN +
	RMNET_MAX_STR_LEN + sizeof(int32_t) + sizeof(uint8_t);
	str_len = strlcpy((char *)(request.local_ep_config.dev),
			  dev_name,
			  RMNET_MAX_STR_LEN);
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;

	str_len = strlcpy((char *)(request.local_ep_config.next_dev),
			  next_dev,
			  RMNET_MAX_STR_LEN);
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;
	request.local_ep_config.ep_id = ep_id;
	request.local_ep_config.operating_mode = operating_mode;

	if ((*error_code = rmnetctl_transact(hndl, &request, &response))
		!= RMNETCTL_SUCCESS)
		break;
	if (_rmnetctl_check_code(response.crd, error_code) != RMNETCTL_SUCCESS)
		break;

	return_code = _rmnetctl_set_codes(response.return_code, error_code);
	} while(0);
	return return_code;
}
Exemplo n.º 5
0
int rmnet_new_vnd_prefix(rmnetctl_hndl_t *hndl,
			 uint32_t id,
			 uint16_t *error_code,
			 uint8_t new_vnd,
			 const char *prefix)
{
	struct rmnet_nl_msg_s request, response;
	int return_code = RMNETCTL_LIB_ERR;
	int str_len = -1;
	do {
	if ((!hndl) || (!error_code) ||
	((new_vnd != RMNETCTL_NEW_VND) && (new_vnd != RMNETCTL_FREE_VND))) {
		return_code = RMNETCTL_INVALID_ARG;
		break;
	}

	memset(request.vnd.vnd_name, 0, RMNET_MAX_STR_LEN);
	if (new_vnd ==  RMNETCTL_NEW_VND) {
		if (prefix) {
			request.message_type =RMNET_NETLINK_NEW_VND_WITH_PREFIX;
			str_len = strlcpy((char *)request.vnd.vnd_name,
					  prefix, RMNET_MAX_STR_LEN);
			if (_rmnetctl_check_len(str_len, error_code)
						!= RMNETCTL_SUCCESS)
				break;
		} else {
			request.message_type = RMNET_NETLINK_NEW_VND;
		}
	} else {
		request.message_type = RMNET_NETLINK_FREE_VND;
	}

	request.arg_length = sizeof(uint32_t);
	request.vnd.id = id;

	if ((*error_code = rmnetctl_transact(hndl, &request, &response))
		!= RMNETCTL_SUCCESS)
		break;
	if (_rmnetctl_check_code(response.crd, error_code) != RMNETCTL_SUCCESS)
		break;

	return_code = _rmnetctl_set_codes(response.return_code, error_code);
	} while(0);
	return return_code;
}
int rmnet_get_link_ingress_data_format_tailspace(rmnetctl_hndl_t *hndl,
						 const char *dev_name,
						 uint32_t *ingress_flags,
						 uint8_t  *tail_spacing,
						 uint16_t *error_code) {
	struct rmnet_nl_msg_s request, response;
	size_t str_len = 0;
	int  return_code = RMNETCTL_LIB_ERR;
	do {
	if ((!hndl) || (!error_code) ||
		_rmnetctl_check_dev_name(dev_name)) {
		return_code = RMNETCTL_INVALID_ARG;
		break;
	}

	request.message_type = RMNET_NETLINK_GET_LINK_INGRESS_DATA_FORMAT;

	request.arg_length = RMNET_MAX_STR_LEN;
	str_len = strlcpy((char *)(request.data_format.dev),
			  dev_name,
			  RMNET_MAX_STR_LEN);
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;

	if ((*error_code = rmnetctl_transact(hndl, &request, &response))
		!= RMNETCTL_SUCCESS)
		break;

	if (_rmnetctl_check_data(response.crd, error_code) != RMNETCTL_SUCCESS)
		break;

	if (ingress_flags)
		*ingress_flags = response.data_format.flags;

	if (tail_spacing)
		*tail_spacing = response.data_format.tail_spacing;

	return_code = RMNETCTL_SUCCESS;
	} while(0);
	return return_code;
}
int rmnet_set_link_egress_data_format(rmnetctl_hndl_t *hndl,
				      uint32_t egress_flags,
				      uint16_t agg_size,
				      uint16_t agg_count,
				      const char *dev_name,
				      uint16_t *error_code) {
	struct rmnet_nl_msg_s request, response;
	size_t str_len = 0;
	int  return_code = RMNETCTL_LIB_ERR;
	do {
	if ((!hndl) || (!error_code) || _rmnetctl_check_dev_name(dev_name) ||
	    ((~EGRESS_FLAGS_MASK) & egress_flags)) {
		return_code = RMNETCTL_INVALID_ARG;
		break;
	}

	request.message_type = RMNET_NETLINK_SET_LINK_EGRESS_DATA_FORMAT;

	request.arg_length = RMNET_MAX_STR_LEN +
			 sizeof(uint32_t) + sizeof(uint16_t) + sizeof(uint16_t);
	str_len = strlcpy((char *)(request.data_format.dev),
			  dev_name,
			  RMNET_MAX_STR_LEN);
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;

	request.data_format.flags = egress_flags;
	request.data_format.agg_size = agg_size;
	request.data_format.agg_count = agg_count;

	if ((*error_code = rmnetctl_transact(hndl, &request, &response))
		!= RMNETCTL_SUCCESS)
		break;

	if (_rmnetctl_check_code(response.crd, error_code) != RMNETCTL_SUCCESS)
		break;

	return_code = _rmnetctl_set_codes(response.return_code, error_code);
	} while(0);
	return return_code;
}
Exemplo n.º 8
0
int rmnet_get_link_egress_data_format(rmnetctl_hndl_t *hndl,
				      const char *dev_name,
				      uint32_t *egress_flags,
				      uint16_t *agg_size,
				      uint16_t *agg_count,
				      uint16_t *error_code) {
	struct rmnet_nl_msg_s request, response;
	int str_len = -1, return_code = RMNETCTL_LIB_ERR;
	do {
	if ((!hndl) || (!egress_flags) || (!agg_size) || (!agg_count) ||
	(!error_code) || _rmnetctl_check_dev_name(dev_name)) {
		return_code = RMNETCTL_INVALID_ARG;
		break;
	}
	request.message_type = RMNET_NETLINK_GET_LINK_EGRESS_DATA_FORMAT;

	request.arg_length = RMNET_MAX_STR_LEN;
	str_len = strlcpy((char *)(request.data_format.dev),
			  dev_name,
			  RMNET_MAX_STR_LEN);
	if (_rmnetctl_check_len(str_len, error_code) != RMNETCTL_SUCCESS)
		break;

	if ((*error_code = rmnetctl_transact(hndl, &request, &response))
		!= RMNETCTL_SUCCESS)
		break;

	if (_rmnetctl_check_data(response.crd, error_code) != RMNETCTL_SUCCESS)
		break;

	*egress_flags = response.data_format.flags;
	*agg_size = response.data_format.agg_size;
	*agg_count = response.data_format.agg_count;
	return_code = RMNETCTL_SUCCESS;
	} while(0);
	return return_code;
}