src/vnet/flow/flow_api.c - fdio/vpp - Gitiles

 /*
  *------------------------------------------------------------------
  * flow_api.c - flow api
  *
  * Copyright (c) 2020 Intel and/or its affiliates.
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at:
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *------------------------------------------------------------------
  */

 #include <stddef.h>

 #include <vnet/vnet.h>
 #include <vlibmemory/api.h>
 #include <vnet/interface.h>
 #include <vnet/api_errno.h>
 #include <vnet/flow/flow.h>
 #include <vnet/fib/fib_table.h>
 #include <vnet/tunnel/tunnel_types_api.h>
 #include <vnet/ip/ip_types_api.h>
 #include <vnet/vnet_msg_enum.h>

 #define vl_typedefs		/* define message structures */
 #include <vnet/vnet_all_api_h.h>
 #undef vl_typedefs

 #define vl_endianfun		/* define message structures */
 #include <vnet/vnet_all_api_h.h>
 #undef vl_endianfun

 /* instantiate all the print functions we know about */
 #define vl_print(handle, ...) vlib_cli_output (handle, __VA_ARGS__)
 #define vl_printfun
 #include <vnet/vnet_all_api_h.h>
 #undef vl_printfun

 #include <vlibapi/api_helper_macros.h>

 #define foreach_vpe_api_msg         \
 _(FLOW_ADD, flow_add)               \
 _(FLOW_DEL, flow_del)               \
 _(FLOW_ENABLE, flow_enable)         \
 _(FLOW_DISABLE, flow_disable)

 static inline void
 ipv4_addr_and_mask_convert (vl_api_ip4_address_and_mask_t * vl_api_addr,
 			    ip4_address_and_mask_t * vnet_addr)
 {
   clib_memcpy (vnet_addr, vl_api_addr, sizeof (*vnet_addr));
 }

 static inline void
 ipv6_addr_and_mask_convert (vl_api_ip6_address_and_mask_t * vl_api_addr,
 			    ip6_address_and_mask_t * vnet_addr)
 {
   clib_memcpy (vnet_addr, vl_api_addr, sizeof (*vnet_addr));
 }

 static inline void
 port_and_mask_convert (vl_api_ip_port_and_mask_t * vl_api_port,
 		       ip_port_and_mask_t * vnet_port)
 {
   vnet_port->port = ntohs (vl_api_port->port);
   vnet_port->mask = ntohs (vl_api_port->mask);
 }

 static inline void
 ipv4_n_tuple_flow_convert (vl_api_flow_ip4_n_tuple_t * vl_api_flow,
 			   vnet_flow_ip4_n_tuple_t * f)
 {
   ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
   ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

   port_and_mask_convert (&vl_api_flow->src_port, &f->src_port);
   port_and_mask_convert (&vl_api_flow->dst_port, &f->dst_port);

   f->protocol = (ip_protocol_t) vl_api_flow->protocol;
 }

 static void
 ipv6_n_tuple_flow_convert (vl_api_flow_ip6_n_tuple_t * vl_api_flow,
 			   vnet_flow_ip6_n_tuple_t * f)
 {
   ipv6_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
   ipv6_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

   port_and_mask_convert (&vl_api_flow->src_port, &f->src_port);
   port_and_mask_convert (&vl_api_flow->dst_port, &f->dst_port);

   f->protocol = (ip_protocol_t) vl_api_flow->protocol;
 }

 static inline void
 ipv4_n_tuple_tagged_flow_convert (vl_api_flow_ip4_n_tuple_tagged_t *
 				  vl_api_flow,
 				  vnet_flow_ip4_n_tuple_tagged_t * f)
 {
   return ipv4_n_tuple_flow_convert ((vl_api_flow_ip4_n_tuple_t *) vl_api_flow,
 				    (vnet_flow_ip4_n_tuple_t *) f);
 }

 static inline void
 ipv6_n_tuple_tagged_flow_convert (vl_api_flow_ip6_n_tuple_tagged_t *
 				  vl_api_flow,
 				  vnet_flow_ip6_n_tuple_tagged_t * f)
 {
   return ipv6_n_tuple_flow_convert ((vl_api_flow_ip6_n_tuple_t *) vl_api_flow,
 				    (vnet_flow_ip6_n_tuple_t *) f);
 }

 static inline void
 ipv4_l2tpv3oip_flow_convert (vl_api_flow_ip4_l2tpv3oip_t * vl_api_flow,
 			     vnet_flow_ip4_l2tpv3oip_t * f)
 {
   ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
   ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

   f->protocol = (ip_protocol_t) vl_api_flow->protocol;
   f->session_id = ntohl (vl_api_flow->session_id);
 }

 static inline void
 ipv4_ipsec_esp_flow_convert (vl_api_flow_ip4_ipsec_esp_t * vl_api_flow,
 			     vnet_flow_ip4_ipsec_esp_t * f)
 {
   ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
   ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

   f->protocol = (ip_protocol_t) vl_api_flow->protocol;
   f->spi = ntohl (vl_api_flow->spi);
 }

 static inline void
 ipv4_ipsec_ah_flow_convert (vl_api_flow_ip4_ipsec_ah_t * vl_api_flow,
 			    vnet_flow_ip4_ipsec_ah_t * f)
 {
   ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
   ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

   f->protocol = (ip_protocol_t) vl_api_flow->protocol;
   f->spi = ntohl (vl_api_flow->spi);
 }

 static inline void
 ipv4_gtpu_flow_convert (vl_api_flow_ip4_gtpu_t * vl_api_flow,
 			vnet_flow_ip4_gtpu_t * f)
 {
   ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
   ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

   port_and_mask_convert (&vl_api_flow->src_port, &f->src_port);
   port_and_mask_convert (&vl_api_flow->dst_port, &f->dst_port);

   f->protocol = (ip_protocol_t) vl_api_flow->protocol;
   f->teid = ntohl (vl_api_flow->teid);
 }

 static inline void
 ipv4_gtpc_flow_convert (vl_api_flow_ip4_gtpc_t * vl_api_flow,
 			vnet_flow_ip4_gtpc_t * f)
 {
   ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
   ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

   port_and_mask_convert (&vl_api_flow->src_port, &f->src_port);
   port_and_mask_convert (&vl_api_flow->dst_port, &f->dst_port);

   f->protocol = (ip_protocol_t) vl_api_flow->protocol;
   f->teid = ntohl (vl_api_flow->teid);
 }

 static void
 vl_api_flow_add_t_handler (vl_api_flow_add_t * mp)
 {
   vl_api_flow_add_reply_t *rmp;
   int rv = 0;
   vnet_flow_t flow;
   u32 flow_index = ~0;
   vl_api_flow_rule_t *f = &mp->flow;

   vnet_main_t *vnm = vnet_get_main ();

   flow.type = ntohl (f->type);
   flow.actions = ntohl (f->actions);
   flow.mark_flow_id = ntohl (f->mark_flow_id);
   flow.redirect_node_index = ntohl (f->redirect_node_index);
   flow.redirect_device_input_next_index =
     ntohl (f->redirect_device_input_next_index);
   flow.redirect_queue = ntohl (f->redirect_queue);
   flow.buffer_advance = ntohl (f->buffer_advance);

   switch (flow.type)
     {
     case VNET_FLOW_TYPE_IP4_N_TUPLE:
       ipv4_n_tuple_flow_convert (&f->flow.ip4_n_tuple, &flow.ip4_n_tuple);
       break;
     case VNET_FLOW_TYPE_IP6_N_TUPLE:
       ipv6_n_tuple_flow_convert (&f->flow.ip6_n_tuple, &flow.ip6_n_tuple);
       break;
     case VNET_FLOW_TYPE_IP4_N_TUPLE_TAGGED:
       ipv4_n_tuple_tagged_flow_convert (&f->flow.ip4_n_tuple_tagged,
 					&flow.ip4_n_tuple_tagged);
       break;
     case VNET_FLOW_TYPE_IP6_N_TUPLE_TAGGED:
       ipv6_n_tuple_tagged_flow_convert (&f->flow.ip6_n_tuple_tagged,
 					&flow.ip6_n_tuple_tagged);
       break;
     case VNET_FLOW_TYPE_IP4_L2TPV3OIP:
       ipv4_l2tpv3oip_flow_convert (&f->flow.ip4_l2tpv3oip,
 				   &flow.ip4_l2tpv3oip);
       break;
     case VNET_FLOW_TYPE_IP4_IPSEC_ESP:
       ipv4_ipsec_esp_flow_convert (&f->flow.ip4_ipsec_esp,
 				   &flow.ip4_ipsec_esp);
       break;
     case VNET_FLOW_TYPE_IP4_IPSEC_AH:
       ipv4_ipsec_ah_flow_convert (&f->flow.ip4_ipsec_ah, &flow.ip4_ipsec_ah);
       break;
     case VNET_FLOW_TYPE_IP4_GTPU:
       ipv4_gtpu_flow_convert (&f->flow.ip4_gtpu, &flow.ip4_gtpu);
       break;
     case VNET_FLOW_TYPE_IP4_GTPC:
       ipv4_gtpc_flow_convert (&f->flow.ip4_gtpc, &flow.ip4_gtpc);
       break;
     default:
       rv = VNET_FLOW_ERROR_NOT_SUPPORTED;
       goto out;
       break;

     }

   rv = vnet_flow_add (vnm, &flow, &flow_index);

   goto out;
 out:
   /* *INDENT-OFF* */
   REPLY_MACRO2(VL_API_FLOW_ADD_REPLY,
   ({
     rmp->flow_index = ntohl (flow_index);
   }));
 }

 static void
 vl_api_flow_del_t_handler (vl_api_flow_del_t * mp)
 {
   vl_api_flow_add_reply_t *rmp;
   int rv = 0;

   vnet_main_t *vnm = vnet_get_main();
   rv = vnet_flow_del(vnm, ntohl(mp->flow_index));

   REPLY_MACRO (VL_API_FLOW_DEL_REPLY);
 }

 static void
 vl_api_flow_enable_t_handler (vl_api_flow_enable_t * mp)
 {
   vl_api_flow_add_reply_t *rmp;
   int rv = 0;

   vnet_main_t *vnm = vnet_get_main();
   rv = vnet_flow_enable(vnm, ntohl(mp->flow_index), ntohl(mp->hw_if_index));

   REPLY_MACRO (VL_API_FLOW_ENABLE_REPLY);
 }

 static void
 vl_api_flow_disable_t_handler (vl_api_flow_disable_t * mp)
 {
   vl_api_flow_add_reply_t *rmp;
   int rv = 0;

   vnet_main_t *vnm = vnet_get_main();
   rv = vnet_flow_disable(vnm, ntohl(mp->flow_index), ntohl(mp->hw_if_index));

   REPLY_MACRO (VL_API_FLOW_DISABLE_REPLY);
 }

 #define vl_msg_name_crc_list
 #include <vnet/flow/flow.api.h>
 #undef vl_msg_name_crc_list

 /*
  * flow_api_hookup
  * Add vpe's API message handlers to the table.
  * vlib has already mapped shared memory and
  * added the client registration handlers.
  * See .../vlib-api/vlibmemory/memclnt_vlib.c:memclnt_process()
  */


 static void
 setup_message_id_table (api_main_t * am)
 {
 #define _(id,n,crc) vl_msg_api_add_msg_name_crc (am, #n "_" #crc, id);
   foreach_vl_msg_name_crc_flow;
 #undef _
 }

 static clib_error_t *
 hw_flow_api_hookup (vlib_main_t * vm)
 {
   api_main_t *am = vlibapi_get_main ();

 #define _(N,n)                                                  \
     vl_msg_api_set_handlers(VL_API_##N, #n,                     \
                            vl_api_##n##_t_handler,              \
                            vl_noop_handler,                     \
                            vl_api_##n##_t_endian,               \
                            vl_api_##n##_t_print,                \
                            sizeof(vl_api_##n##_t), 1);
   foreach_vpe_api_msg;
 #undef _

   /*
    * Set up the (msg_name, crc, message-id) table
    */
   setup_message_id_table (am);

   return 0;
 }

 VLIB_API_INIT_FUNCTION (hw_flow_api_hookup);

 /*
  * fd.io coding-style-patch-verification: ON
  *
  * Local Variables:
  * eval: (c-set-style "gnu")
  * End:
  */
	/*
	*------------------------------------------------------------------
	* flow_api.c - flow api
	*
	* Copyright (c) 2020 Intel and/or its affiliates.
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at:
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*------------------------------------------------------------------
	*/

	#include <stddef.h>

	#include <vnet/vnet.h>
	#include <vlibmemory/api.h>
	#include <vnet/interface.h>
	#include <vnet/api_errno.h>
	#include <vnet/flow/flow.h>
	#include <vnet/fib/fib_table.h>
	#include <vnet/tunnel/tunnel_types_api.h>
	#include <vnet/ip/ip_types_api.h>
	#include <vnet/vnet_msg_enum.h>

	#define vl_typedefs /* define message structures */
	#include <vnet/vnet_all_api_h.h>
	#undef vl_typedefs

	#define vl_endianfun /* define message structures */
	#include <vnet/vnet_all_api_h.h>
	#undef vl_endianfun

	/* instantiate all the print functions we know about */
	#define vl_print(handle, ...) vlib_cli_output (handle, __VA_ARGS__)
	#define vl_printfun
	#include <vnet/vnet_all_api_h.h>
	#undef vl_printfun

	#include <vlibapi/api_helper_macros.h>

	#define foreach_vpe_api_msg \
	_(FLOW_ADD, flow_add) \
	_(FLOW_DEL, flow_del) \
	_(FLOW_ENABLE, flow_enable) \
	_(FLOW_DISABLE, flow_disable)

	static inline void
	ipv4_addr_and_mask_convert (vl_api_ip4_address_and_mask_t * vl_api_addr,
	ip4_address_and_mask_t * vnet_addr)
	{
	clib_memcpy (vnet_addr, vl_api_addr, sizeof (*vnet_addr));
	}

	static inline void
	ipv6_addr_and_mask_convert (vl_api_ip6_address_and_mask_t * vl_api_addr,
	ip6_address_and_mask_t * vnet_addr)
	{
	clib_memcpy (vnet_addr, vl_api_addr, sizeof (*vnet_addr));
	}

	static inline void
	port_and_mask_convert (vl_api_ip_port_and_mask_t * vl_api_port,
	ip_port_and_mask_t * vnet_port)
	{
	vnet_port->port = ntohs (vl_api_port->port);
	vnet_port->mask = ntohs (vl_api_port->mask);
	}

	static inline void
	ipv4_n_tuple_flow_convert (vl_api_flow_ip4_n_tuple_t * vl_api_flow,
	vnet_flow_ip4_n_tuple_t * f)
	{
	ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
	ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

	port_and_mask_convert (&vl_api_flow->src_port, &f->src_port);
	port_and_mask_convert (&vl_api_flow->dst_port, &f->dst_port);

	f->protocol = (ip_protocol_t) vl_api_flow->protocol;
	}

	static void
	ipv6_n_tuple_flow_convert (vl_api_flow_ip6_n_tuple_t * vl_api_flow,
	vnet_flow_ip6_n_tuple_t * f)
	{
	ipv6_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
	ipv6_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

	port_and_mask_convert (&vl_api_flow->src_port, &f->src_port);
	port_and_mask_convert (&vl_api_flow->dst_port, &f->dst_port);

	f->protocol = (ip_protocol_t) vl_api_flow->protocol;
	}

	static inline void
	ipv4_n_tuple_tagged_flow_convert (vl_api_flow_ip4_n_tuple_tagged_t *
	vl_api_flow,
	vnet_flow_ip4_n_tuple_tagged_t * f)
	{
	return ipv4_n_tuple_flow_convert ((vl_api_flow_ip4_n_tuple_t *) vl_api_flow,
	(vnet_flow_ip4_n_tuple_t *) f);
	}

	static inline void
	ipv6_n_tuple_tagged_flow_convert (vl_api_flow_ip6_n_tuple_tagged_t *
	vl_api_flow,
	vnet_flow_ip6_n_tuple_tagged_t * f)
	{
	return ipv6_n_tuple_flow_convert ((vl_api_flow_ip6_n_tuple_t *) vl_api_flow,
	(vnet_flow_ip6_n_tuple_t *) f);
	}

	static inline void
	ipv4_l2tpv3oip_flow_convert (vl_api_flow_ip4_l2tpv3oip_t * vl_api_flow,
	vnet_flow_ip4_l2tpv3oip_t * f)
	{
	ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
	ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

	f->protocol = (ip_protocol_t) vl_api_flow->protocol;
	f->session_id = ntohl (vl_api_flow->session_id);
	}

	static inline void
	ipv4_ipsec_esp_flow_convert (vl_api_flow_ip4_ipsec_esp_t * vl_api_flow,
	vnet_flow_ip4_ipsec_esp_t * f)
	{
	ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
	ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

	f->protocol = (ip_protocol_t) vl_api_flow->protocol;
	f->spi = ntohl (vl_api_flow->spi);
	}

	static inline void
	ipv4_ipsec_ah_flow_convert (vl_api_flow_ip4_ipsec_ah_t * vl_api_flow,
	vnet_flow_ip4_ipsec_ah_t * f)
	{
	ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
	ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

	f->protocol = (ip_protocol_t) vl_api_flow->protocol;
	f->spi = ntohl (vl_api_flow->spi);
	}

	static inline void
	ipv4_gtpu_flow_convert (vl_api_flow_ip4_gtpu_t * vl_api_flow,
	vnet_flow_ip4_gtpu_t * f)
	{
	ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
	ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

	port_and_mask_convert (&vl_api_flow->src_port, &f->src_port);
	port_and_mask_convert (&vl_api_flow->dst_port, &f->dst_port);

	f->protocol = (ip_protocol_t) vl_api_flow->protocol;
	f->teid = ntohl (vl_api_flow->teid);
	}

	static inline void
	ipv4_gtpc_flow_convert (vl_api_flow_ip4_gtpc_t * vl_api_flow,
	vnet_flow_ip4_gtpc_t * f)
	{
	ipv4_addr_and_mask_convert (&vl_api_flow->src_addr, &f->src_addr);
	ipv4_addr_and_mask_convert (&vl_api_flow->dst_addr, &f->dst_addr);

	port_and_mask_convert (&vl_api_flow->src_port, &f->src_port);
	port_and_mask_convert (&vl_api_flow->dst_port, &f->dst_port);

	f->protocol = (ip_protocol_t) vl_api_flow->protocol;
	f->teid = ntohl (vl_api_flow->teid);
	}

	static void
	vl_api_flow_add_t_handler (vl_api_flow_add_t * mp)
	{
	vl_api_flow_add_reply_t *rmp;
	int rv = 0;
	vnet_flow_t flow;
	u32 flow_index = ~0;
	vl_api_flow_rule_t *f = &mp->flow;

	vnet_main_t *vnm = vnet_get_main ();

	flow.type = ntohl (f->type);
	flow.actions = ntohl (f->actions);
	flow.mark_flow_id = ntohl (f->mark_flow_id);
	flow.redirect_node_index = ntohl (f->redirect_node_index);
	flow.redirect_device_input_next_index =
	ntohl (f->redirect_device_input_next_index);
	flow.redirect_queue = ntohl (f->redirect_queue);
	flow.buffer_advance = ntohl (f->buffer_advance);

	switch (flow.type)
	{
	case VNET_FLOW_TYPE_IP4_N_TUPLE:
	ipv4_n_tuple_flow_convert (&f->flow.ip4_n_tuple, &flow.ip4_n_tuple);
	break;
	case VNET_FLOW_TYPE_IP6_N_TUPLE:
	ipv6_n_tuple_flow_convert (&f->flow.ip6_n_tuple, &flow.ip6_n_tuple);
	break;
	case VNET_FLOW_TYPE_IP4_N_TUPLE_TAGGED:
	ipv4_n_tuple_tagged_flow_convert (&f->flow.ip4_n_tuple_tagged,
	&flow.ip4_n_tuple_tagged);
	break;
	case VNET_FLOW_TYPE_IP6_N_TUPLE_TAGGED:
	ipv6_n_tuple_tagged_flow_convert (&f->flow.ip6_n_tuple_tagged,
	&flow.ip6_n_tuple_tagged);
	break;
	case VNET_FLOW_TYPE_IP4_L2TPV3OIP:
	ipv4_l2tpv3oip_flow_convert (&f->flow.ip4_l2tpv3oip,
	&flow.ip4_l2tpv3oip);
	break;
	case VNET_FLOW_TYPE_IP4_IPSEC_ESP:
	ipv4_ipsec_esp_flow_convert (&f->flow.ip4_ipsec_esp,
	&flow.ip4_ipsec_esp);
	break;
	case VNET_FLOW_TYPE_IP4_IPSEC_AH:
	ipv4_ipsec_ah_flow_convert (&f->flow.ip4_ipsec_ah, &flow.ip4_ipsec_ah);
	break;
	case VNET_FLOW_TYPE_IP4_GTPU:
	ipv4_gtpu_flow_convert (&f->flow.ip4_gtpu, &flow.ip4_gtpu);
	break;
	case VNET_FLOW_TYPE_IP4_GTPC:
	ipv4_gtpc_flow_convert (&f->flow.ip4_gtpc, &flow.ip4_gtpc);
	break;
	default:
	rv = VNET_FLOW_ERROR_NOT_SUPPORTED;
	goto out;
	break;

	}

	rv = vnet_flow_add (vnm, &flow, &flow_index);

	goto out;
	out:
	/* INDENT-OFF */
	REPLY_MACRO2(VL_API_FLOW_ADD_REPLY,
	({
	rmp->flow_index = ntohl (flow_index);
	}));
	}

	static void
	vl_api_flow_del_t_handler (vl_api_flow_del_t * mp)
	{
	vl_api_flow_add_reply_t *rmp;
	int rv = 0;

	vnet_main_t *vnm = vnet_get_main();
	rv = vnet_flow_del(vnm, ntohl(mp->flow_index));

	REPLY_MACRO (VL_API_FLOW_DEL_REPLY);
	}

	static void
	vl_api_flow_enable_t_handler (vl_api_flow_enable_t * mp)
	{
	vl_api_flow_add_reply_t *rmp;
	int rv = 0;

	vnet_main_t *vnm = vnet_get_main();
	rv = vnet_flow_enable(vnm, ntohl(mp->flow_index), ntohl(mp->hw_if_index));

	REPLY_MACRO (VL_API_FLOW_ENABLE_REPLY);
	}

	static void
	vl_api_flow_disable_t_handler (vl_api_flow_disable_t * mp)
	{
	vl_api_flow_add_reply_t *rmp;
	int rv = 0;

	vnet_main_t *vnm = vnet_get_main();
	rv = vnet_flow_disable(vnm, ntohl(mp->flow_index), ntohl(mp->hw_if_index));

	REPLY_MACRO (VL_API_FLOW_DISABLE_REPLY);
	}

	#define vl_msg_name_crc_list
	#include <vnet/flow/flow.api.h>
	#undef vl_msg_name_crc_list

	/*
	* flow_api_hookup
	* Add vpe's API message handlers to the table.
	* vlib has already mapped shared memory and
	* added the client registration handlers.
	* See .../vlib-api/vlibmemory/memclnt_vlib.c:memclnt_process()
	*/


	static void
	setup_message_id_table (api_main_t * am)
	{
	#define _(id,n,crc) vl_msg_api_add_msg_name_crc (am, #n "_" #crc, id);
	foreach_vl_msg_name_crc_flow;
	#undef _
	}

	static clib_error_t *
	hw_flow_api_hookup (vlib_main_t * vm)
	{
	api_main_t *am = vlibapi_get_main ();

	#define _(N,n) \
	vl_msg_api_set_handlers(VL_API_##N, #n, \
	vl_api_##n##_t_handler, \
	vl_noop_handler, \
	vl_api_##n##_t_endian, \
	vl_api_##n##_t_print, \
	sizeof(vl_api_##n##_t), 1);
	foreach_vpe_api_msg;
	#undef _

	/*
	* Set up the (msg_name, crc, message-id) table
	*/
	setup_message_id_table (am);

	return 0;
	}

	VLIB_API_INIT_FUNCTION (hw_flow_api_hookup);

	/*
	* fd.io coding-style-patch-verification: ON
	*
	* Local Variables:
	* eval: (c-set-style "gnu")
	* End:
	*/