#include <vnet/dpo/classify_dpo.h>
#include <vnet/dpo/ip_null_dpo.h>
#include <vnet/dpo/replicate_dpo.h>
+#include <vnet/dpo/interface_rx_dpo.h>
+#include <vnet/dpo/interface_tx_dpo.h>
+#include <vnet/dpo/mpls_disposition.h>
+#include <vnet/dpo/dvr_dpo.h>
+#include <vnet/dpo/l3_proxy_dpo.h>
+#include <vnet/dpo/ip6_ll_dpo.h>
/**
* Array of char* names for the DPO types and protos
return (0);
}
+vnet_link_t
+dpo_proto_to_link (dpo_proto_t dp)
+{
+ switch (dp)
+ {
+ case DPO_PROTO_IP6:
+ return (VNET_LINK_IP6);
+ case DPO_PROTO_IP4:
+ return (VNET_LINK_IP4);
+ case DPO_PROTO_MPLS:
+ case DPO_PROTO_BIER:
+ return (VNET_LINK_MPLS);
+ case DPO_PROTO_ETHERNET:
+ return (VNET_LINK_ETHERNET);
+ case DPO_PROTO_NSH:
+ return (VNET_LINK_NSH);
+ }
+ return (~0);
+}
+
u8 *
format_dpo_type (u8 * s, va_list * args)
{
if (NULL != dpo_vfts[dpo->dpoi_type].dv_format)
{
- return (format(s, "%U",
- dpo_vfts[dpo->dpoi_type].dv_format,
- dpo->dpoi_index,
- indent));
+ s = format(s, "%U",
+ dpo_vfts[dpo->dpoi_type].dv_format,
+ dpo->dpoi_index,
+ indent);
}
-
- switch (dpo->dpoi_type)
+ else
{
- case DPO_FIRST:
- s = format(s, "unset");
- break;
- default:
- s = format(s, "unknown");
- break;
+ switch (dpo->dpoi_type)
+ {
+ case DPO_FIRST:
+ s = format(s, "unset");
+ break;
+ default:
+ s = format(s, "unknown");
+ break;
+ }
}
return (s);
}
case IP_LOOKUP_NEXT_MIDCHAIN:
dpo->dpoi_type = DPO_ADJACENCY_MIDCHAIN;
break;
+ case IP_LOOKUP_NEXT_MCAST_MIDCHAIN:
+ dpo->dpoi_type = DPO_ADJACENCY_MCAST_MIDCHAIN;
+ break;
+ case IP_LOOKUP_NEXT_MCAST:
+ dpo->dpoi_type = DPO_ADJACENCY_MCAST;
+ break;
+ case IP_LOOKUP_NEXT_GLEAN:
+ dpo->dpoi_type = DPO_ADJACENCY_GLEAN;
+ break;
default:
break;
}
(dpo->dpoi_type == DPO_ADJACENCY_GLEAN));
}
+static u32 *
+dpo_default_get_next_node (const dpo_id_t *dpo)
+{
+ u32 *node_indices = NULL;
+ const char *node_name;
+ u32 ii = 0;
+
+ node_name = dpo_nodes[dpo->dpoi_type][dpo->dpoi_proto][ii];
+ while (NULL != node_name)
+ {
+ vlib_node_t *node;
+
+ node = vlib_get_node_by_name(vlib_get_main(), (u8*) node_name);
+ ASSERT(NULL != node);
+ vec_add1(node_indices, node->index);
+
+ ++ii;
+ node_name = dpo_nodes[dpo->dpoi_type][dpo->dpoi_proto][ii];
+ }
+
+ return (node_indices);
+}
+
+/**
+ * A default variant of the make interpose function that just returns
+ * the original
+ */
+static void
+dpo_default_mk_interpose (const dpo_id_t *original,
+ const dpo_id_t *parent,
+ dpo_id_t *clone)
+{
+ dpo_copy(clone, original);
+}
+
void
dpo_register (dpo_type_t type,
const dpo_vft_t *vft,
{
vec_validate(dpo_vfts, type);
dpo_vfts[type] = *vft;
+ if (NULL == dpo_vfts[type].dv_get_next_node)
+ {
+ dpo_vfts[type].dv_get_next_node = dpo_default_get_next_node;
+ }
+ if (NULL == dpo_vfts[type].dv_mk_interpose)
+ {
+ dpo_vfts[type].dv_mk_interpose = dpo_default_mk_interpose;
+ }
vec_validate(dpo_nodes, type);
dpo_nodes[type] = nodes;
return (type);
}
+void
+dpo_mk_interpose (const dpo_id_t *original,
+ const dpo_id_t *parent,
+ dpo_id_t *clone)
+{
+ if (!dpo_id_is_valid(original))
+ return;
+
+ dpo_vfts[original->dpoi_type].dv_mk_interpose(original, parent, clone);
+}
+
void
dpo_lock (dpo_id_t *dpo)
{
dpo_vfts[dpo->dpoi_type].dv_unlock(dpo);
}
+u32
+dpo_get_urpf(const dpo_id_t *dpo)
+{
+ if (dpo_id_is_valid(dpo) &&
+ (NULL != dpo_vfts[dpo->dpoi_type].dv_get_urpf))
+ {
+ return (dpo_vfts[dpo->dpoi_type].dv_get_urpf(dpo));
+ }
+
+ return (~0);
+}
static u32
dpo_get_next_node (dpo_type_t child_type,
*/
if (~0 == dpo_edges[child_type][child_proto][parent_type][parent_proto])
{
- vlib_node_t *parent_node, *child_node;
+ vlib_node_t *child_node;
+ u32 *parent_indices;
vlib_main_t *vm;
- u32 edge ,pp, cc;
+ u32 edge, *pi, cc;
vm = vlib_get_main();
+ ASSERT(NULL != dpo_vfts[parent_type].dv_get_next_node);
ASSERT(NULL != dpo_nodes[child_type]);
ASSERT(NULL != dpo_nodes[child_type][child_proto]);
- ASSERT(NULL != dpo_nodes[parent_type]);
- ASSERT(NULL != dpo_nodes[parent_type][parent_proto]);
cc = 0;
+ parent_indices = dpo_vfts[parent_type].dv_get_next_node(parent_dpo);
+
+ vlib_worker_thread_barrier_sync(vm);
/*
- * create a graph arc from each of the parent's registered node types,
- * to each of the childs.
+ * create a graph arc from each of the child's registered node types,
+ * to each of the parent's.
*/
while (NULL != dpo_nodes[child_type][child_proto][cc])
{
vlib_get_node_by_name(vm,
(u8*) dpo_nodes[child_type][child_proto][cc]);
- pp = 0;
-
- while (NULL != dpo_nodes[parent_type][parent_proto][pp])
+ vec_foreach(pi, parent_indices)
{
- parent_node =
- vlib_get_node_by_name(vm,
- (u8*) dpo_nodes[parent_type][parent_proto][pp]);
-
- edge = vlib_node_add_next(vm,
- child_node->index,
- parent_node->index);
+ edge = vlib_node_add_next(vm, child_node->index, *pi);
if (~0 == dpo_edges[child_type][child_proto][parent_type][parent_proto])
{
{
ASSERT(dpo_edges[child_type][child_proto][parent_type][parent_proto] == edge);
}
- pp++;
}
cc++;
}
+
+ vlib_worker_thread_barrier_release(vm);
+ vec_free(parent_indices);
}
return (dpo_edges[child_type][child_proto][parent_type][parent_proto]);
}
+/**
+ * @brief return already stacked up next node index for a given
+ * child_type/child_proto and parent_type/patent_proto.
+ * The VLIB graph arc used is taken from the parent and child types
+ * passed.
+ */
+u32
+dpo_get_next_node_by_type_and_proto (dpo_type_t child_type,
+ dpo_proto_t child_proto,
+ dpo_type_t parent_type,
+ dpo_proto_t parent_proto)
+{
+ return (dpo_edges[child_type][child_proto][parent_type][parent_proto]);
+}
+
/**
* @brief Stack one DPO object on another, and thus establish a child parent
* relationship. The VLIB graph arc used is taken from the parent and child types
dpo_id_t *dpo,
const dpo_id_t *parent)
{
- dpo_proto_t parent_proto;
- vlib_node_t *parent_node;
dpo_type_t parent_type;
+ u32 *parent_indices;
vlib_main_t *vm;
- u32 edge;
+ u32 edge, *pi;
+ edge = 0;
parent_type = parent->dpoi_type;
- parent_proto = parent->dpoi_proto;
-
vm = vlib_get_main();
- ASSERT(NULL != dpo_nodes[parent_type]);
- ASSERT(NULL != dpo_nodes[parent_type][parent_proto]);
+ ASSERT(NULL != dpo_vfts[parent_type].dv_get_next_node);
+ parent_indices = dpo_vfts[parent_type].dv_get_next_node(parent);
+ ASSERT(parent_indices);
- parent_node =
- vlib_get_node_by_name(vm, (u8*) dpo_nodes[parent_type][parent_proto][0]);
+ /*
+ * This loop is purposefully written with the worker thread lock in the
+ * inner loop because;
+ * 1) the likelihood that the edge does not exist is smaller
+ * 2) the likelihood there is more than one node is even smaller
+ * so we are optimising for not need to take the lock
+ */
+ vec_foreach(pi, parent_indices)
+ {
+ edge = vlib_node_get_next(vm, child_node_index, *pi);
+
+ if (~0 == edge)
+ {
+ vlib_worker_thread_barrier_sync(vm);
- edge = vlib_node_add_next(vm,
- child_node_index,
- parent_node->index);
+ edge = vlib_node_add_next(vm, child_node_index, *pi);
+ vlib_worker_thread_barrier_release(vm);
+ }
+ }
dpo_stack_i(edge, dpo, parent);
+
+ /* should free this local vector to avoid memory leak */
+ vec_free(parent_indices);
}
static clib_error_t *
classify_dpo_module_init();
lookup_dpo_module_init();
ip_null_dpo_module_init();
+ ip6_ll_dpo_module_init();
replicate_module_init();
+ interface_rx_dpo_module_init();
+ interface_tx_dpo_module_init();
+ mpls_disp_dpo_module_init();
+ dvr_dpo_module_init();
+ l3_proxy_dpo_module_init();
return (NULL);
}