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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.
*/
#include <vnet/vnet.h>
#include <vnet/ip/ip.h>
#include <vnet/mpls/mpls.h>
/**
* @file
* @brief Feature Subgraph Ordering.
Dynamically compute feature subgraph ordering by performing a
topological sort across a set of "feature A before feature B" and
"feature C after feature B" constraints.
Use the topological sort result to set up vnet_config_main_t's for
use at runtime.
Feature subgraph arcs are simple enough. They start at specific
fixed nodes, and end at specific fixed nodes. In between, a
per-interface current feature configuration dictates which
additional nodes each packet visits. Each so-called feature node
can [of course] drop any specific packet.
See ip4_forward.c, ip6_forward.c in this directory to see the
current rx-unicast, rx-multicast, and tx feature subgraph arc
definitions.
Let's say that we wish to add a new feature to the ip4 unicast
feature subgraph arc, which needs to run before @c ip4-lookup. In
either base code or a plugin,
<CODE><PRE>
\#include <vnet/feature/feature.h>
</PRE></CODE>
and add the new feature as shown:
<CODE><PRE>
VNET_FEATURE_INIT (ip4_lookup, static) =
{
.arc_name = "ip4-unicast",
.node_name = "my-ip4-unicast-feature",
.runs_before = VLIB_FEATURES ("ip4-lookup")
};
</PRE></CODE>
Here's the standard coding pattern to enable / disable
@c my-ip4-unicast-feature on an interface:
<CODE><PRE>
sw_if_index = <interface-handle>
vnet_feature_enable_disable ("ip4-unicast", "my-ip4-unicast-feature",
sw_if_index, 1 );
</PRE></CODE>
Here's how to obtain the correct next node index in packet
processing code, aka in the implementation of @c my-ip4-unicast-feature:
<CODE><PRE>
vnet_feature_next (sw_if_index0, &next0, b0);
</PRE></CODE>
Nodes are free to drop or otherwise redirect packets. Packets
which "pass" should be enqueued via the next0 arc computed by
vnet_feature_next.
*/
static int
comma_split (u8 * s, u8 ** a, u8 ** b)
{
*a = s;
while (*s && *s != ',')
s++;
if (*s == ',')
*s = 0;
else
return 1;
*b = (u8 *) (s + 1);
return 0;
}
/**
* @brief Initialize a feature graph arc
* @param vm vlib main structure pointer
* @param vcm vnet config main structure pointer
* @param feature_start_nodes names of start-nodes which use this
* feature graph arc
* @param num_feature_start_nodes number of start-nodes
* @param first_reg first element in
* [an __attribute__((constructor)) function built, or
* otherwise created] singly-linked list of feature registrations
* @param first_const first element in
* [an __attribute__((constructor)) function built, or
* otherwise created] singly-linked list of bulk order constraints
* @param [out] in_feature_nodes returned vector of
* topologically-sorted feature node names, for use in
* show commands
* @returns 0 on success, otherwise an error message. Errors
* are fatal since they invariably involve mistyped node-names, or
* genuinely missing node-names
*/
clib_error_t *
vnet_feature_arc_init (vlib_main_t * vm,
vnet_config_main_t * vcm,
char **feature_start_nodes,
int num_feature_start_nodes,
char *last_in_arc,
vnet_feature_registration_t * first_reg,
vnet_feature_constraint_registration_t *
first_const_set, char ***in_feature_nodes)
{
uword *index_by_name;
uword *reg_by_index;
u8 **node_names = 0;
u8 *node_name;
char *prev_name;
char **these_constraints;
char *this_constraint_c;
u8 **constraints = 0;
u8 *constraint_tuple;
u8 *this_constraint;
u8 **orig, **closure;
uword *p;
int i, j, k;
u8 *a_name, *b_name;
int a_index, b_index;
int n_features;
u32 *result = 0;
vnet_feature_registration_t *this_reg = 0;
vnet_feature_constraint_registration_t *this_const_set = 0;
char **feature_nodes = 0;
hash_pair_t *hp;
u8 **keys_to_delete = 0;
index_by_name = hash_create_string (0, sizeof (uword));
reg_by_index = hash_create (0, sizeof (uword));
this_reg = first_reg;
/* Autogenerate <node> before <last-in-arc> constraints */
if (last_in_arc)
{
while (this_reg)
{
/* If this isn't the last node in the arc... */
if (clib_strcmp (this_reg->node_name, last_in_arc))
{
/*
* Add an explicit constraint so this feature will run
* before the last node in the arc
*/
constraint_tuple = format (0, "%s,%s%c", this_reg->node_name,
last_in_arc, 0);
vec_add1 (constraints, constraint_tuple);
}
this_reg = this_reg->next_in_arc;
}
this_reg = first_reg;
}
/* pass 1, collect feature node names, construct a before b pairs */
while (this_reg)
{
node_name = format (0, "%s%c", this_reg->node_name, 0);
hash_set (reg_by_index, vec_len (node_names), (uword) this_reg);
hash_set_mem (index_by_name, node_name, vec_len (node_names));
vec_add1 (node_names, node_name);
these_constraints = this_reg->runs_before;
while (these_constraints && these_constraints[0])
{
this_constraint_c = these_constraints[0];
constraint_tuple = format (0, "%s,%s%c", node_name,
this_constraint_c, 0);
vec_add1 (constraints, constraint_tuple);
these_constraints++;
}
these_constraints = this_reg->runs_after;
while (these_constraints && these_constraints[0])
{
this_constraint_c = these_constraints[0];
constraint_tuple = format (0, "%s,%s%c",
this_constraint_c, node_name, 0);
vec_add1 (constraints, constraint_tuple);
these_constraints++;
}
this_reg = this_reg->next_in_arc;
}
/* pass 2, collect bulk "a then b then c then d" constraints */
this_const_set = first_const_set;
while (this_const_set)
{
these_constraints = this_const_set->node_names;
prev_name = 0;
/* Across the list of constraints */
while (these_constraints && these_constraints[0])
{
this_constraint_c = these_constraints[0];
p = hash_get_mem (index_by_name, this_constraint_c);
if (p == 0)
{
clib_warning
("bulk constraint feature node '%s' not found for arc '%s'",
this_constraint_c);
these_constraints++;
continue;
}
if (prev_name == 0)
{
prev_name = this_constraint_c;
these_constraints++;
continue;
}
constraint_tuple = format (0, "%s,%s%c", prev_name,
this_constraint_c, 0);
vec_add1 (constraints, constraint_tuple);
prev_name = this_constraint_c;
these_constraints++;
}
this_const_set = this_const_set->next_in_arc;
}
n_features = vec_len (node_names);
orig = clib_ptclosure_alloc (n_features);
for (i = 0; i < vec_len (constraints); i++)
{
this_constraint = constraints[i];
if (comma_split (this_constraint, &a_name, &b_name))
return clib_error_return (0, "comma_split failed!");
p = hash_get_mem (index_by_name, a_name);
/*
* Note: the next two errors mean that something is
* b0rked. As in: if you code "A depends on B," and you forget
* to define a FEATURE_INIT macro for B, you lose.
* Nonexistent graph nodes are tolerated.
*/
if (p == 0)
{
clib_warning ("feature node '%s' not found (before '%s', arc '%s')",
a_name, b_name, first_reg->arc_name);
continue;
}
a_index = p[0];
p = hash_get_mem (index_by_name, b_name);
if (p == 0)
{
clib_warning ("feature node '%s' not found (after '%s', arc '%s')",
b_name, a_name, first_reg->arc_name);
continue;
}
b_index = p[0];
/* add a before b to the original set of constraints */
orig[a_index][b_index] = 1;
vec_free (this_constraint);
}
/* Compute the positive transitive closure of the original constraints */
closure = clib_ptclosure (orig);
/* Compute a partial order across feature nodes, if one exists. */
again:
for (i = 0; i < n_features; i++)
{
for (j = 0; j < n_features; j++)
{
if (closure[i][j])
goto item_constrained;
}
/* Item i can be output */
vec_add1 (result, i);
{
for (k = 0; k < n_features; k++)
closure[k][i] = 0;
/*
* Add a "Magic" a before a constraint.
* This means we'll never output it again
*/
closure[i][i] = 1;
goto again;
}
item_constrained:
;
}
/* see if we got a partial order... */
if (vec_len (result) != n_features)
return clib_error_return
(0, "Arc '%s': failed to find a suitable feature order!",
first_reg->arc_name);
/*
* We win.
* Bind the index variables, and output the feature node name vector
* using the partial order we just computed. Result is in stack
* order, because the entry with the fewest constraints (e.g. none)
* is output first, etc.
*/
for (i = n_features - 1; i >= 0; i--)
{
p = hash_get (reg_by_index, result[i]);
ASSERT (p != 0);
this_reg = (vnet_feature_registration_t *) p[0];
if (this_reg->feature_index_ptr)
*this_reg->feature_index_ptr = n_features - (i + 1);
this_reg->feature_index = n_features - (i + 1);
vec_add1 (feature_nodes, this_reg->node_name);
}
/* Set up the config infrastructure */
vnet_config_init (vm, vcm,
feature_start_nodes,
num_feature_start_nodes,
feature_nodes, vec_len (feature_nodes));
/* Save a copy for show command */
*in_feature_nodes = feature_nodes;
/* Finally, clean up all the shit we allocated */
hash_foreach_pair (hp, index_by_name,
({
vec_add1 (keys_to_delete, (u8 *)hp->key);
}));
hash_free (index_by_name);
for (i = 0; i < vec_len (keys_to_delete); i++)
vec_free (keys_to_delete[i]);
vec_free (keys_to_delete);
hash_free (reg_by_index);
vec_free (result);
clib_ptclosure_free (orig);
clib_ptclosure_free (closure);
return 0;
}
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
|