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/*
* Copyright (c) 2016 Cisco 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.
*/
/**
* @brief
* A Data-Path Object is an object that represents actions that are
* applied to packets are they are switched through VPP.
*
* The DPO is a base class that is specialised by other objects to provide
* concreate actions
*
* The VLIB graph nodes are graph of types, the DPO graph is a graph of instances.
*/
#include <vnet/dpo/dpo.h>
#include <vnet/ip/lookup.h>
#include <vnet/ip/format.h>
#include <vnet/adj/adj.h>
#include <vnet/dpo/load_balance.h>
#include <vnet/dpo/mpls_label_dpo.h>
#include <vnet/dpo/lookup_dpo.h>
#include <vnet/dpo/drop_dpo.h>
#include <vnet/dpo/receive_dpo.h>
#include <vnet/dpo/punt_dpo.h>
#include <vnet/dpo/classify_dpo.h>
#include <vnet/dpo/ip_null_dpo.h>
/**
* Array of char* names for the DPO types and protos
*/
static const char* dpo_type_names[] = DPO_TYPES;
static const char* dpo_proto_names[] = DPO_PROTOS;
/**
* @brief Vector of virtual function tables for the DPO types
*
* This is a vector so we can dynamically register new DPO types in plugins.
*/
static dpo_vft_t *dpo_vfts;
/**
* @brief vector of graph node names associated with each DPO type and protocol.
*
* dpo_nodes[child_type][child_proto][node_X] = node_name;
* i.e.
* dpo_node[DPO_LOAD_BALANCE][DPO_PROTO_IP4][0] = "ip4-lookup"
* dpo_node[DPO_LOAD_BALANCE][DPO_PROTO_IP4][1] = "ip4-load-balance"
*
* This is a vector so we can dynamically register new DPO types in plugins.
*/
static const char* const * const ** dpo_nodes;
/**
* @brief Vector of edge indicies from parent DPO nodes to child
*
* dpo_edges[child_type][child_proto][parent_type][parent_proto] = edge_index
*
* This array is derived at init time from the dpo_nodes above. Note that
* the third dimension in dpo_nodes is lost, hence, the edge index from each
* node MUST be the same.
* Including both the child and parent protocol is required to support the
* case where it changes as the grapth is traversed, most notablly when an
* MPLS label is popped.
*
* Note that this array is child type specific, not child instance specific.
*/
static u32 ****dpo_edges;
/**
* @brief The DPO type value that can be assigend to the next dynamic
* type registration.
*/
static dpo_type_t dpo_dynamic = DPO_LAST;
dpo_proto_t
vnet_link_to_dpo_proto (vnet_link_t linkt)
{
switch (linkt)
{
case VNET_LINK_IP6:
return (DPO_PROTO_IP6);
case VNET_LINK_IP4:
return (DPO_PROTO_IP4);
case VNET_LINK_MPLS:
return (DPO_PROTO_MPLS);
case VNET_LINK_ETHERNET:
return (DPO_PROTO_ETHERNET);
case VNET_LINK_ARP:
break;
}
ASSERT(0);
return (0);
}
u8 *
format_dpo_type (u8 * s, va_list * args)
{
dpo_type_t type = va_arg (*args, int);
s = format(s, "%s", dpo_type_names[type]);
return (s);
}
u8 *
format_dpo_id (u8 * s, va_list * args)
{
dpo_id_t *dpo = va_arg (*args, dpo_id_t*);
u32 indent = va_arg (*args, u32);
s = format(s, "[@%d]: ", dpo->dpoi_next_node);
if (NULL != dpo_vfts[dpo->dpoi_type].dv_format)
{
return (format(s, "%U",
dpo_vfts[dpo->dpoi_type].dv_format,
dpo->dpoi_index,
indent));
}
switch (dpo->dpoi_type)
{
case DPO_FIRST:
s = format(s, "unset");
break;
default:
s = format(s, "unknown");
break;
}
return (s);
}
u8 *
format_dpo_proto (u8 * s, va_list * args)
{
dpo_proto_t proto = va_arg (*args, int);
return (format(s, "%s", dpo_proto_names[proto]));
}
void
dpo_set (dpo_id_t *dpo,
dpo_type_t type,
dpo_proto_t proto,
index_t index)
{
dpo_id_t tmp = *dpo;
dpo->dpoi_type = type;
dpo->dpoi_proto = proto,
dpo->dpoi_index = index;
if (DPO_ADJACENCY == type)
{
/*
* set the adj subtype
*/
ip_adjacency_t *adj;
adj = adj_get(index);
switch (adj->lookup_next_index)
{
case IP_LOOKUP_NEXT_ARP:
dpo->dpoi_type = DPO_ADJACENCY_INCOMPLETE;
break;
case IP_LOOKUP_NEXT_MIDCHAIN:
dpo->dpoi_type = DPO_ADJACENCY_MIDCHAIN;
break;
default:
break;
}
}
dpo_lock(dpo);
dpo_unlock(&tmp);
}
void
dpo_reset (dpo_id_t *dpo)
{
dpo_id_t tmp = DPO_INVALID;
/*
* use the atomic copy operation.
*/
dpo_copy(dpo, &tmp);
}
/**
* \brief
* Compare two Data-path objects
*
* like memcmp, return 0 is matching, !0 otherwise.
*/
int
dpo_cmp (const dpo_id_t *dpo1,
const dpo_id_t *dpo2)
{
int res;
res = dpo1->dpoi_type - dpo2->dpoi_type;
if (0 != res) return (res);
return (dpo1->dpoi_index - dpo2->dpoi_index);
}
void
dpo_copy (dpo_id_t *dst,
const dpo_id_t *src)
{
dpo_id_t tmp = *dst;
/*
* the destination is written in a single u64 write - hence atomically w.r.t
* any packets inflight.
*/
*((u64*)dst) = *(u64*)src;
dpo_lock(dst);
dpo_unlock(&tmp);
}
int
dpo_is_adj (const dpo_id_t *dpo)
{
return ((dpo->dpoi_type == DPO_ADJACENCY) ||
(dpo->dpoi_type == DPO_ADJACENCY_INCOMPLETE) ||
(dpo->dpoi_type == DPO_ADJACENCY_MIDCHAIN) ||
(dpo->dpoi_type == DPO_ADJACENCY_GLEAN));
}
void
dpo_register (dpo_type_t type,
const dpo_vft_t *vft,
const char * const * const * nodes)
{
vec_validate(dpo_vfts, type);
dpo_vfts[type] = *vft;
vec_validate(dpo_nodes, type);
dpo_nodes[type] = nodes;
}
dpo_type_t
dpo_register_new_type (const dpo_vft_t *vft,
const char * const * const * nodes)
{
dpo_type_t type = dpo_dynamic++;
dpo_register(type, vft, nodes);
return (type);
}
void
dpo_lock (dpo_id_t *dpo)
{
if (!dpo_id_is_valid(dpo))
return;
dpo_vfts[dpo->dpoi_type].dv_lock(dpo);
}
void
dpo_unlock (dpo_id_t *dpo)
{
if (!dpo_id_is_valid(dpo))
return;
dpo_vfts[dpo->dpoi_type].dv_unlock(dpo);
}
static u32
dpo_get_next_node (dpo_type_t child_type,
dpo_proto_t child_proto,
const dpo_id_t *parent_dpo)
{
dpo_proto_t parent_proto;
dpo_type_t parent_type;
parent_type = parent_dpo->dpoi_type;
parent_proto = parent_dpo->dpoi_proto;
vec_validate(dpo_edges, child_type);
vec_validate(dpo_edges[child_type], child_proto);
vec_validate(dpo_edges[child_type][child_proto], parent_type);
vec_validate_init_empty(
dpo_edges[child_type][child_proto][parent_type],
parent_proto, ~0);
/*
* if the edge index has not yet been created for this node to node transistion
*/
if (~0 == dpo_edges[child_type][child_proto][parent_type][parent_proto])
{
vlib_node_t *parent_node, *child_node;
vlib_main_t *vm;
u32 edge ,pp, cc;
vm = vlib_get_main();
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;
/*
* create a graph arc from each of the parent's registered node types,
* to each of the childs.
*/
while (NULL != dpo_nodes[child_type][child_proto][cc])
{
child_node =
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])
{
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);
if (~0 == dpo_edges[child_type][child_proto][parent_type][parent_proto])
{
dpo_edges[child_type][child_proto][parent_type][parent_proto] = edge;
}
else
{
ASSERT(dpo_edges[child_type][child_proto][parent_type][parent_proto] == edge);
}
pp++;
}
cc++;
}
}
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
* passed.
*/
static void
dpo_stack_i (u32 edge,
dpo_id_t *dpo,
const dpo_id_t *parent)
{
/*
* in order to get an atomic update of the parent we create a temporary,
* from a copy of the child, and add the next_node. then we copy to the parent
*/
dpo_id_t tmp = DPO_INVALID;
dpo_copy(&tmp, parent);
/*
* get the edge index for the parent to child VLIB graph transisition
*/
tmp.dpoi_next_node = edge;
/*
* this update is atomic.
*/
dpo_copy(dpo, &tmp);
dpo_reset(&tmp);
}
/**
* @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
* passed.
*/
void
dpo_stack (dpo_type_t child_type,
dpo_proto_t child_proto,
dpo_id_t *dpo,
const dpo_id_t *parent)
{
dpo_stack_i(dpo_get_next_node(child_type, child_proto, parent), dpo, parent);
}
/**
* @brief Stack one DPO object on another, and thus establish a child parent
* relationship. A new VLIB graph arc is created from the child node passed
* to the nodes registered by the parent. The VLIB infra will ensure this arc
* is added only once.
*/
void
dpo_stack_from_node (u32 child_node_index,
dpo_id_t *dpo,
const dpo_id_t *parent)
{
dpo_proto_t parent_proto;
vlib_node_t *parent_node;
dpo_type_t parent_type;
vlib_main_t *vm;
u32 edge;
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]);
parent_node =
vlib_get_node_by_name(vm, (u8*) dpo_nodes[parent_type][parent_proto][0]);
edge = vlib_node_add_next(vm,
child_node_index,
parent_node->index);
dpo_stack_i(edge, dpo, parent);
}
static clib_error_t *
dpo_module_init (vlib_main_t * vm)
{
drop_dpo_module_init();
punt_dpo_module_init();
receive_dpo_module_init();
load_balance_module_init();
mpls_label_dpo_module_init();
classify_dpo_module_init();
lookup_dpo_module_init();
ip_null_dpo_module_init();
return (NULL);
}
VLIB_INIT_FUNCTION(dpo_module_init);
static clib_error_t *
dpo_memory_show (vlib_main_t * vm,
unformat_input_t * input,
vlib_cli_command_t * cmd)
{
dpo_vft_t *vft;
vlib_cli_output (vm, "DPO memory");
vlib_cli_output (vm, "%=30s %=5s %=8s/%=9s totals",
"Name","Size", "in-use", "allocated");
vec_foreach(vft, dpo_vfts)
{
if (NULL != vft->dv_mem_show)
vft->dv_mem_show();
}
return (NULL);
}
/* *INDENT-OFF* */
/*?
* The '<em>sh dpo memory </em>' command displays the memory usage for each
* data-plane object type.
*
* @cliexpar
* @cliexstart{show dpo memory}
* DPO memory
* Name Size in-use /allocated totals
* load-balance 64 12 / 12 768/768
* Adjacency 256 1 / 1 256/256
* Receive 24 5 / 5 120/120
* Lookup 12 0 / 0 0/0
* Classify 12 0 / 0 0/0
* MPLS label 24 0 / 0 0/0
* @cliexend
?*/
VLIB_CLI_COMMAND (show_fib_memory, static) = {
.path = "show dpo memory",
.function = dpo_memory_show,
.short_help = "show dpo memory",
};
/* *INDENT-ON* */
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