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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* CLI graph handling
*
* --
* Copyright (C) 2016 Cumulus Networks, Inc.
* Copyright (C) 1997, 98, 99 Kunihiro Ishiguro
* Copyright (C) 2013 by Open Source Routing.
* Copyright (C) 2013 by Internet Systems Consortium, Inc. ("ISC")
*/
#include <zebra.h>
#include "command_graph.h"
DEFINE_MTYPE_STATIC(LIB, CMD_TOKENS, "Command Tokens");
DEFINE_MTYPE_STATIC(LIB, CMD_DESC, "Command Token Text");
DEFINE_MTYPE_STATIC(LIB, CMD_TEXT, "Command Token Help");
DEFINE_MTYPE(LIB, CMD_ARG, "Command Argument");
DEFINE_MTYPE_STATIC(LIB, CMD_VAR, "Command Argument Name");
struct cmd_token *cmd_token_new(enum cmd_token_type type, uint8_t attr,
const char *text, const char *desc)
{
struct cmd_token *token =
XCALLOC(MTYPE_CMD_TOKENS, sizeof(struct cmd_token));
token->type = type;
token->attr = attr;
token->text = text ? XSTRDUP(MTYPE_CMD_TEXT, text) : NULL;
token->desc = desc ? XSTRDUP(MTYPE_CMD_DESC, desc) : NULL;
token->refcnt = 1;
token->arg = NULL;
token->allowrepeat = false;
token->varname = NULL;
return token;
}
void cmd_token_del(struct cmd_token *token)
{
if (!token)
return;
XFREE(MTYPE_CMD_TEXT, token->text);
XFREE(MTYPE_CMD_DESC, token->desc);
XFREE(MTYPE_CMD_ARG, token->arg);
XFREE(MTYPE_CMD_VAR, token->varname);
XFREE(MTYPE_CMD_TOKENS, token);
}
struct cmd_token *cmd_token_dup(struct cmd_token *token)
{
struct cmd_token *copy =
cmd_token_new(token->type, token->attr, NULL, NULL);
copy->max = token->max;
copy->min = token->min;
copy->text = token->text ? XSTRDUP(MTYPE_CMD_TEXT, token->text) : NULL;
copy->desc = token->desc ? XSTRDUP(MTYPE_CMD_DESC, token->desc) : NULL;
copy->arg = token->arg ? XSTRDUP(MTYPE_CMD_ARG, token->arg) : NULL;
copy->varname =
token->varname ? XSTRDUP(MTYPE_CMD_VAR, token->varname) : NULL;
return copy;
}
static void cmd_token_varname_do(struct cmd_token *token, const char *varname,
uint8_t varname_src)
{
if (token->varname_src >= varname_src)
return;
XFREE(MTYPE_CMD_VAR, token->varname);
size_t len = strlen(varname), i;
token->varname = XMALLOC(MTYPE_CMD_VAR, len + 1);
token->varname_src = varname_src;
for (i = 0; i < len; i++)
switch (varname[i]) {
case '-':
case '+':
case '*':
case ':':
token->varname[i] = '_';
break;
default:
token->varname[i] = tolower((unsigned char)varname[i]);
}
token->varname[len] = '\0';
}
void cmd_token_varname_set(struct cmd_token *token, const char *varname)
{
if (varname) {
cmd_token_varname_do(token, varname, VARNAME_EXPLICIT);
return;
}
if (token->type == VARIABLE_TKN) {
if (strcmp(token->text, "WORD") && strcmp(token->text, "NAME"))
cmd_token_varname_do(token, token->text, VARNAME_TEXT);
}
}
static void cmd_token_varname_fork(struct graph_node *node,
struct cmd_token *prevtoken)
{
for (size_t i = 0; i < vector_active(node->to); i++) {
struct graph_node *next = vector_slot(node->to, i);
struct cmd_token *nexttoken = next->data;
if (nexttoken->type == FORK_TKN) {
cmd_token_varname_fork(next, prevtoken);
continue;
}
if (nexttoken->varname)
continue;
if (!IS_VARYING_TOKEN(nexttoken->type))
continue;
cmd_token_varname_do(nexttoken, prevtoken->text, VARNAME_TEXT);
}
}
void cmd_token_varname_join(struct graph_node *join, const char *varname)
{
if (!varname)
return;
for (size_t i = 0; i < vector_active(join->from); i++) {
struct graph_node *prev = vector_slot(join->from, i);
struct cmd_token *token = prev->data;
if (token->type == JOIN_TKN)
cmd_token_varname_join(prev, varname);
else if (token->type < SPECIAL_TKN)
cmd_token_varname_do(token, varname, VARNAME_EXPLICIT);
}
}
void cmd_token_varname_seqappend(struct graph_node *node)
{
struct graph_node *prevnode = node;
struct cmd_token *token = node->data;
struct cmd_token *prevtoken;
if (token->type == WORD_TKN)
return;
do {
if (vector_active(prevnode->from) != 1)
return;
prevnode = vector_slot(prevnode->from, 0);
prevtoken = prevnode->data;
} while (prevtoken->type == FORK_TKN);
if (prevtoken->type != WORD_TKN)
return;
if (token->type == FORK_TKN)
cmd_token_varname_fork(node, prevtoken);
else
cmd_token_varname_do(token, prevtoken->text, VARNAME_TEXT);
}
static bool cmd_nodes_link(struct graph_node *from, struct graph_node *to)
{
for (size_t i = 0; i < vector_active(from->to); i++)
if (vector_slot(from->to, i) == to)
return true;
return false;
}
static bool cmd_nodes_equal(struct graph_node *ga, struct graph_node *gb);
/* returns a single node to be excluded as "next" from iteration
* - for JOIN_TKN, never continue back to the FORK_TKN
* - in all other cases, don't try the node itself (in case of "...")
*/
static inline struct graph_node *cmd_loopstop(struct graph_node *gn)
{
struct cmd_token *tok = gn->data;
if (tok->type == JOIN_TKN)
return tok->forkjoin;
else
return gn;
}
static bool cmd_subgraph_equal(struct graph_node *ga, struct graph_node *gb,
struct graph_node *a_join)
{
size_t i, j;
struct graph_node *a_fork, *b_fork;
a_fork = cmd_loopstop(ga);
b_fork = cmd_loopstop(gb);
if (vector_active(ga->to) != vector_active(gb->to))
return false;
for (i = 0; i < vector_active(ga->to); i++) {
struct graph_node *cga = vector_slot(ga->to, i);
for (j = 0; j < vector_active(gb->to); j++) {
struct graph_node *cgb = vector_slot(gb->to, i);
if (cga == a_fork && cgb != b_fork)
continue;
if (cga == a_fork && cgb == b_fork)
break;
if (cmd_nodes_equal(cga, cgb)) {
if (cga == a_join)
break;
if (cmd_subgraph_equal(cga, cgb, a_join))
break;
}
}
if (j == vector_active(gb->to))
return false;
}
return true;
}
/* deep compare -- for FORK_TKN, the entire subgraph is compared.
* this is what's needed since we're not currently trying to partially
* merge subgraphs */
static bool cmd_nodes_equal(struct graph_node *ga, struct graph_node *gb)
{
struct cmd_token *a = ga->data, *b = gb->data;
if (a->type != b->type || a->allowrepeat != b->allowrepeat)
return false;
if (a->type < SPECIAL_TKN && strcmp(a->text, b->text))
return false;
/* one a ..., the other not. */
if (cmd_nodes_link(ga, ga) != cmd_nodes_link(gb, gb))
return false;
if (!a->varname != !b->varname)
return false;
if (a->varname && strcmp(a->varname, b->varname))
return false;
switch (a->type) {
case RANGE_TKN:
return a->min == b->min && a->max == b->max;
case FORK_TKN:
/* one is keywords, the other just option or selector ... */
if (cmd_nodes_link(a->forkjoin, ga)
!= cmd_nodes_link(b->forkjoin, gb))
return false;
if (cmd_nodes_link(ga, a->forkjoin)
!= cmd_nodes_link(gb, b->forkjoin))
return false;
return cmd_subgraph_equal(ga, gb, a->forkjoin);
case VARIABLE_TKN:
case IPV4_TKN:
case IPV4_PREFIX_TKN:
case IPV6_PREFIX_TKN:
case IPV6_TKN:
case MAC_TKN:
case MAC_PREFIX_TKN:
case JOIN_TKN:
case START_TKN:
case END_TKN:
case NEG_ONLY_TKN:
case WORD_TKN:
case ASNUM_TKN:
return true;
}
assert(!"Reached end of function we should never hit");
}
static void cmd_fork_bump_attr(struct graph_node *gn, struct graph_node *join,
uint8_t attr)
{
size_t i;
struct cmd_token *tok = gn->data;
struct graph_node *stop = cmd_loopstop(gn);
tok->attr = attr;
for (i = 0; i < vector_active(gn->to); i++) {
struct graph_node *next = vector_slot(gn->to, i);
if (next == stop || next == join)
continue;
cmd_fork_bump_attr(next, join, attr);
}
}
/* move an entire subtree from the temporary graph resulting from
* parse() into the permanent graph for the command node.
*
* this touches rather deeply into the graph code unfortunately.
*/
static void cmd_reparent_tree(struct graph *fromgraph, struct graph *tograph,
struct graph_node *node)
{
struct graph_node *stop = cmd_loopstop(node);
size_t i;
for (i = 0; i < vector_active(fromgraph->nodes); i++)
if (vector_slot(fromgraph->nodes, i) == node) {
/* agressive iteration punching through subgraphs - may
* hit some
* nodes twice. reparent only if found on old graph */
vector_unset(fromgraph->nodes, i);
vector_set(tograph->nodes, node);
break;
}
for (i = 0; i < vector_active(node->to); i++) {
struct graph_node *next = vector_slot(node->to, i);
if (next != stop)
cmd_reparent_tree(fromgraph, tograph, next);
}
}
static void cmd_free_recur(struct graph *graph, struct graph_node *node,
struct graph_node *stop)
{
struct graph_node *next, *nstop;
for (size_t i = vector_active(node->to); i; i--) {
next = vector_slot(node->to, i - 1);
if (next == stop)
continue;
nstop = cmd_loopstop(next);
if (nstop != next)
cmd_free_recur(graph, next, nstop);
cmd_free_recur(graph, nstop, stop);
}
graph_delete_node(graph, node);
}
static void cmd_free_node(struct graph *graph, struct graph_node *node)
{
struct cmd_token *tok = node->data;
if (tok->type == JOIN_TKN)
cmd_free_recur(graph, tok->forkjoin, node);
graph_delete_node(graph, node);
}
/* recursive graph merge. call with
* old ~= new
* (which holds true for old == START_TKN, new == START_TKN)
*/
static void cmd_merge_nodes(struct graph *oldgraph, struct graph *newgraph,
struct graph_node *old, struct graph_node *new,
int direction)
{
struct cmd_token *tok;
struct graph_node *old_skip, *new_skip;
old_skip = cmd_loopstop(old);
new_skip = cmd_loopstop(new);
assert(direction == 1 || direction == -1);
tok = old->data;
tok->refcnt += direction;
size_t j, i;
for (j = 0; j < vector_active(new->to); j++) {
struct graph_node *cnew = vector_slot(new->to, j);
if (cnew == new_skip)
continue;
for (i = 0; i < vector_active(old->to); i++) {
struct graph_node *cold = vector_slot(old->to, i);
if (cold == old_skip)
continue;
if (cmd_nodes_equal(cold, cnew)) {
struct cmd_token *told = cold->data,
*tnew = cnew->data;
if (told->type == END_TKN) {
if (direction < 0) {
graph_delete_node(
oldgraph,
vector_slot(cold->to,
0));
graph_delete_node(oldgraph,
cold);
} else
/* force no-match handling to
* install END_TKN */
i = vector_active(old->to);
break;
}
/* the entire fork compared as equal, we
* continue after it. */
if (told->type == FORK_TKN) {
if (tnew->attr < told->attr
&& direction > 0)
cmd_fork_bump_attr(
cold, told->forkjoin,
tnew->attr);
/* XXX: no reverse bump on uninstall */
told = (cold = told->forkjoin)->data;
tnew = (cnew = tnew->forkjoin)->data;
}
if (tnew->attr < told->attr)
told->attr = tnew->attr;
cmd_merge_nodes(oldgraph, newgraph, cold, cnew,
direction);
break;
}
}
/* nothing found => add new to old */
if (i == vector_active(old->to) && direction > 0) {
graph_remove_edge(new, cnew);
cmd_reparent_tree(newgraph, oldgraph, cnew);
graph_add_edge(old, cnew);
}
}
if (!tok->refcnt)
cmd_free_node(oldgraph, old);
}
void cmd_graph_merge(struct graph *old, struct graph *new, int direction)
{
assert(vector_active(old->nodes) >= 1);
assert(vector_active(new->nodes) >= 1);
cmd_merge_nodes(old, new, vector_slot(old->nodes, 0),
vector_slot(new->nodes, 0), direction);
}
void cmd_graph_names(struct graph *graph)
{
struct graph_node *start;
assert(vector_active(graph->nodes) >= 1);
start = vector_slot(graph->nodes, 0);
/* apply varname on initial "[no]" */
do {
if (vector_active(start->to) != 1)
break;
struct graph_node *first = vector_slot(start->to, 0);
struct cmd_token *tok = first->data;
/* looking for an option with 2 choices, nothing or "no" */
if (tok->type != FORK_TKN || vector_active(first->to) != 2)
break;
struct graph_node *next0 = vector_slot(first->to, 0);
struct graph_node *next1 = vector_slot(first->to, 1);
/* one needs to be empty */
if (next0 != tok->forkjoin && next1 != tok->forkjoin)
break;
struct cmd_token *tok0 = next0->data;
struct cmd_token *tok1 = next1->data;
/* the other one needs to be "no" (only one will match here) */
if ((tok0->type == WORD_TKN && !strcmp(tok0->text, "no")))
cmd_token_varname_do(tok0, "no", VARNAME_AUTO);
if ((tok1->type == WORD_TKN && !strcmp(tok1->text, "no")))
cmd_token_varname_do(tok1, "no", VARNAME_AUTO);
} while (0);
}
#ifndef BUILDING_CLIPPY
#include "command.h"
#include "log.h"
void cmd_graph_node_print_cb(struct graph_node *gn, struct buffer *buf)
{
static bool wasend;
char nbuf[512];
struct cmd_token *tok = gn->data;
const char *color = NULL;
if (wasend) {
wasend = false;
return;
}
if (tok->type == END_TKN) {
wasend = true;
return;
}
snprintf(nbuf, sizeof(nbuf), " n%p [ shape=box, label=<", gn);
buffer_putstr(buf, nbuf);
snprintf(nbuf, sizeof(nbuf), "<b>%s</b>",
lookup_msg(tokennames, tok->type, NULL));
buffer_putstr(buf, nbuf);
if (tok->attr & CMD_ATTR_DEPRECATED)
buffer_putstr(buf, " (d)");
/* DEPRECATED implies HIDDEN, don't print both */
else if (tok->attr & CMD_ATTR_HIDDEN)
buffer_putstr(buf, " (h)");
if (tok->text) {
if (tok->type == WORD_TKN)
snprintf(
nbuf, sizeof(nbuf),
"<br/>\"<font color=\"#0055ff\" point-size=\"11\"><b>%s</b></font>\"",
tok->text);
else
snprintf(nbuf, sizeof(nbuf), "<br/>%s", tok->text);
buffer_putstr(buf, nbuf);
}
switch (tok->type) {
case START_TKN:
color = "#ccffcc";
break;
case FORK_TKN:
color = "#aaddff";
break;
case JOIN_TKN:
color = "#ddaaff";
break;
case NEG_ONLY_TKN:
color = "#ffddaa";
break;
case WORD_TKN:
color = "#ffffff";
break;
case RANGE_TKN:
case IPV4_TKN:
case IPV4_PREFIX_TKN:
case IPV6_TKN:
case IPV6_PREFIX_TKN:
case MAC_TKN:
case MAC_PREFIX_TKN:
case END_TKN:
case VARIABLE_TKN:
case ASNUM_TKN:
color = "#ffffff";
break;
}
/*
* Some compilers have the mistaken belief that we can
* get here without initializing color.
*/
snprintf(nbuf, sizeof(nbuf),
">, style = filled, fillcolor = \"%s\" ];\n", color);
buffer_putstr(buf, nbuf);
for (unsigned int i = 0; i < vector_active(gn->to); i++) {
struct graph_node *adj = vector_slot(gn->to, i);
if (((struct cmd_token *)adj->data)->type == END_TKN) {
snprintf(nbuf, sizeof(nbuf), " n%p -> end%p;\n", gn,
adj);
buffer_putstr(buf, nbuf);
snprintf(
nbuf, sizeof(nbuf),
" end%p [ shape=box, label=<end>, style = filled, fillcolor = \"#ffddaa\" ];\n",
adj);
} else
snprintf(nbuf, sizeof(nbuf), " n%p -> n%p;\n", gn,
adj);
buffer_putstr(buf, nbuf);
}
}
char *cmd_graph_dump_dot(struct graph *cmdgraph)
{
struct graph_node *start = vector_slot(cmdgraph->nodes, 0);
return graph_dump_dot(cmdgraph, start, cmd_graph_node_print_cb);
}
#endif /* BUILDING_CLIPPY */
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