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|
/*
* Command format string parser for CLI backend.
*
* --
* Copyright (C) 2016 Cumulus Networks, Inc.
*
* This file is part of GNU Zebra.
*
* GNU Zebra is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2, or (at your option) any
* later version.
*
* GNU Zebra is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU Zebra; see the file COPYING. If not, write to the Free
* Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
* 02111-1307, USA.
*/
%{
typedef union CMD_YYSTYPE CMD_YYSTYPE;
#define YYSTYPE CMD_YYSTYPE
#include "command_lex.h"
// compile with debugging facilities
#define YYDEBUG 1
%}
%define api.pure full
%define api.prefix {cmd_yy}
/* names for generated header and parser files */
%defines "command_parse.h"
%output "command_parse.c"
/* required external units */
%code requires {
#include "stdlib.h"
#include "string.h"
#include "command.h"
#include "log.h"
#include "graph.h"
struct parser_ctx {
yyscan_t scanner;
struct cmd_element *el;
struct graph *graph;
struct graph_node *currnode, *startnode;
/* pointers to copy of command docstring */
char *docstr_start, *docstr;
};
extern void set_lexer_string (yyscan_t *scn, const char *string);
extern void cleanup_lexer (yyscan_t *scn);
}
/* functionality this unit exports */
%code provides {
/* maximum length of a number, lexer will not match anything longer */
#define DECIMAL_STRLEN_MAX 20
}
/* valid semantic types for tokens and rules */
%union {
long long number;
char *string;
struct graph_node *node;
struct subgraph *subgraph;
}
/* union types for lexed tokens */
%token <string> WORD
%token <string> IPV4
%token <string> IPV4_PREFIX
%token <string> IPV6
%token <string> IPV6_PREFIX
%token <string> VARIABLE
%token <string> RANGE
/* union types for parsed rules */
%type <node> start
%type <node> sentence_root
%type <node> literal_token
%type <node> placeholder_token
%type <node> simple_token
%type <subgraph> option
%type <subgraph> option_token
%type <subgraph> option_token_seq
%type <subgraph> selector
%type <subgraph> selector_token
%type <subgraph> selector_token_seq
%type <subgraph> selector_seq_seq
%type <subgraph> compound_token
%code {
/* bison declarations */
void
cmd_yyerror (struct parser_ctx *ctx, char const *msg);
/* subgraph semantic value */
struct subgraph {
struct graph_node *start, *end;
};
/* helper functions for parser */
static char *
doc_next (struct parser_ctx *ctx);
static struct graph_node *
node_adjacent (struct graph_node *, struct graph_node *);
static struct graph_node *
add_edge_dedup (struct graph_node *, struct graph_node *);
static int
cmp_token (struct cmd_token *, struct cmd_token *);
static struct graph_node *
new_token_node (struct parser_ctx *,
enum cmd_token_type type,
char *text,
char *doc);
static void
terminate_graph (struct parser_ctx *ctx,
struct graph_node *);
static void
cleanup (struct parser_ctx *ctx);
#define scanner ctx->scanner
}
/* yyparse parameters */
%lex-param {yyscan_t scanner}
%parse-param {struct parser_ctx *ctx}
/* called automatically before yyparse */
%initial-action {
/* clear state pointers */
ctx->currnode = ctx->startnode = NULL;
ctx->startnode = vector_slot (ctx->graph->nodes, 0);
/* copy docstring and keep a pointer to the copy */
if (ctx->el->doc)
{
// allocate a new buffer, making room for a flag
size_t length = (size_t) strlen (ctx->el->doc) + 2;
ctx->docstr = malloc (length);
memcpy (ctx->docstr, ctx->el->doc, strlen (ctx->el->doc));
// set the flag so doc_next knows when to print a warning
ctx->docstr[length - 2] = 0x03;
// null terminate
ctx->docstr[length - 1] = 0x00;
}
ctx->docstr_start = ctx->docstr;
}
%%
start:
sentence_root cmd_token_seq
{
// tack on the command element
terminate_graph (ctx, ctx->currnode);
}
| sentence_root cmd_token_seq placeholder_token '.' '.' '.'
{
if ((ctx->currnode = add_edge_dedup (ctx->currnode, $3)) != $3)
graph_delete_node (ctx->graph, $3);
// adding a node as a child of itself accepts any number
// of the same token, which is what we want for variadics
add_edge_dedup (ctx->currnode, ctx->currnode);
// tack on the command element
terminate_graph (ctx, ctx->currnode);
}
;
sentence_root: WORD
{
struct graph_node *root =
new_token_node (ctx, WORD_TKN, strdup ($1), doc_next(ctx));
if ((ctx->currnode = add_edge_dedup (ctx->startnode, root)) != root)
graph_delete_node (ctx->graph, root);
free ($1);
$$ = ctx->currnode;
}
;
cmd_token_seq:
/* empty */
| cmd_token_seq cmd_token
;
cmd_token:
simple_token
{
if ((ctx->currnode = add_edge_dedup (ctx->currnode, $1)) != $1)
graph_delete_node (ctx->graph, $1);
}
| compound_token
{
graph_add_edge (ctx->currnode, $1->start);
ctx->currnode = $1->end;
free ($1);
}
;
simple_token:
literal_token
| placeholder_token
;
compound_token:
selector
| option
;
literal_token: WORD
{
$$ = new_token_node (ctx, WORD_TKN, strdup($1), doc_next(ctx));
free ($1);
}
;
placeholder_token:
IPV4
{
$$ = new_token_node (ctx, IPV4_TKN, strdup($1), doc_next(ctx));
free ($1);
}
| IPV4_PREFIX
{
$$ = new_token_node (ctx, IPV4_PREFIX_TKN, strdup($1), doc_next(ctx));
free ($1);
}
| IPV6
{
$$ = new_token_node (ctx, IPV6_TKN, strdup($1), doc_next(ctx));
free ($1);
}
| IPV6_PREFIX
{
$$ = new_token_node (ctx, IPV6_PREFIX_TKN, strdup($1), doc_next(ctx));
free ($1);
}
| VARIABLE
{
$$ = new_token_node (ctx, VARIABLE_TKN, strdup($1), doc_next(ctx));
free ($1);
}
| RANGE
{
$$ = new_token_node (ctx, RANGE_TKN, strdup($1), doc_next(ctx));
struct cmd_token *token = $$->data;
// get the numbers out
yylval.string++;
token->min = strtoll (yylval.string, &yylval.string, 10);
strsep (&yylval.string, "-");
token->max = strtoll (yylval.string, &yylval.string, 10);
// validate range
if (token->min > token->max) cmd_yyerror (ctx, "Invalid range.");
free ($1);
}
/* <selector|set> productions */
selector: '<' selector_seq_seq '>'
{
$$ = malloc (sizeof (struct subgraph));
$$->start = new_token_node (ctx, SELECTOR_TKN, NULL, NULL);
$$->end = new_token_node (ctx, NUL_TKN, NULL, NULL);
for (unsigned int i = 0; i < vector_active ($2->start->to); i++)
{
struct graph_node *sn = vector_slot ($2->start->to, i),
*en = vector_slot ($2->end->from, i);
graph_add_edge ($$->start, sn);
graph_add_edge (en, $$->end);
}
graph_delete_node (ctx->graph, $2->start);
graph_delete_node (ctx->graph, $2->end);
free ($2);
};
selector_seq_seq:
selector_seq_seq '|' selector_token_seq
{
$$ = malloc (sizeof (struct subgraph));
$$->start = graph_new_node (ctx->graph, NULL, NULL);
$$->end = graph_new_node (ctx->graph, NULL, NULL);
// link in last sequence
graph_add_edge ($$->start, $3->start);
graph_add_edge ($3->end, $$->end);
for (unsigned int i = 0; i < vector_active ($1->start->to); i++)
{
struct graph_node *sn = vector_slot ($1->start->to, i),
*en = vector_slot ($1->end->from, i);
graph_add_edge ($$->start, sn);
graph_add_edge (en, $$->end);
}
graph_delete_node (ctx->graph, $1->start);
graph_delete_node (ctx->graph, $1->end);
free ($1);
free ($3);
}
| selector_token_seq '|' selector_token_seq
{
$$ = malloc (sizeof (struct subgraph));
$$->start = graph_new_node (ctx->graph, NULL, NULL);
$$->end = graph_new_node (ctx->graph, NULL, NULL);
graph_add_edge ($$->start, $1->start);
graph_add_edge ($1->end, $$->end);
graph_add_edge ($$->start, $3->start);
graph_add_edge ($3->end, $$->end);
free ($1);
free ($3);
}
;
selector_token_seq:
simple_token
{
$$ = malloc (sizeof (struct subgraph));
$$->start = $$->end = $1;
}
| selector_token_seq selector_token
{
$$ = malloc (sizeof (struct subgraph));
graph_add_edge ($1->end, $2->start);
$$->start = $1->start;
$$->end = $2->end;
free ($1);
free ($2);
}
;
selector_token:
simple_token
{
$$ = malloc (sizeof (struct subgraph));
$$->start = $$->end = $1;
}
| option
| selector
;
/* [option] productions */
option: '[' option_token_seq ']'
{
// make a new option
$$ = malloc (sizeof (struct subgraph));
$$->start = new_token_node (ctx, OPTION_TKN, NULL, NULL);
$$->end = new_token_node (ctx, NUL_TKN, NULL, NULL);
// add a path through the sequence to the end
graph_add_edge ($$->start, $2->start);
graph_add_edge ($2->end, $$->end);
// add a path directly from the start to the end
graph_add_edge ($$->start, $$->end);
free ($2);
}
;
option_token_seq:
option_token
| option_token_seq option_token
{
$$ = malloc (sizeof (struct subgraph));
graph_add_edge ($1->end, $2->start);
$$->start = $1->start;
$$->end = $2->end;
free ($1);
free ($2);
}
;
option_token:
simple_token
{
$$ = malloc (sizeof (struct subgraph));
$$->start = $$->end = $1;
}
| compound_token
;
%%
#undef scanner
void
command_parse_format (struct graph *graph, struct cmd_element *cmd)
{
struct parser_ctx ctx = { .graph = graph, .el = cmd };
// set to 1 to enable parser traces
yydebug = 0;
set_lexer_string (&ctx.scanner, cmd->string);
// parse command into DFA
cmd_yyparse (&ctx);
/* cleanup lexer */
cleanup_lexer (&ctx.scanner);
// cleanup
cleanup (&ctx);
}
/* parser helper functions */
void
yyerror (struct parser_ctx *ctx, char const *msg)
{
zlog_err ("%s: FATAL parse error: %s", __func__, msg);
zlog_err ("while parsing this command definition: \n\t%s\n", ctx->el->string);
//exit(EXIT_FAILURE);
}
static void
cleanup (struct parser_ctx *ctx)
{
/* free resources */
free (ctx->docstr_start);
/* clear state pointers */
ctx->currnode = NULL;
ctx->docstr_start = ctx->docstr = NULL;
}
static void
terminate_graph (struct parser_ctx *ctx, struct graph_node *finalnode)
{
// end of graph should look like this
// * -> finalnode -> END_TKN -> cmd_element
struct cmd_element *element = ctx->el;
struct graph_node *end_token_node =
new_token_node (ctx,
END_TKN,
strdup (CMD_CR_TEXT),
strdup (""));
struct graph_node *end_element_node =
graph_new_node (ctx->graph, element, NULL);
if (node_adjacent (finalnode, end_token_node))
cmd_yyerror (ctx, "Duplicate command.");
graph_add_edge (finalnode, end_token_node);
graph_add_edge (end_token_node, end_element_node);
}
static char *
doc_next (struct parser_ctx *ctx)
{
const char *piece = ctx->docstr ? strsep (&ctx->docstr, "\n") : "";
if (*piece == 0x03)
{
zlog_debug ("Ran out of docstring while parsing '%s'", ctx->el->string);
piece = "";
}
return strdup (piece);
}
static struct graph_node *
new_token_node (struct parser_ctx *ctx, enum cmd_token_type type,
char *text, char *doc)
{
struct cmd_token *token = new_cmd_token (type, ctx->el->attr, text, doc);
return graph_new_node (ctx->graph, token, (void (*)(void *)) &del_cmd_token);
}
/**
* Determines if there is an out edge from the first node to the second
*/
static struct graph_node *
node_adjacent (struct graph_node *first, struct graph_node *second)
{
struct graph_node *adj;
for (unsigned int i = 0; i < vector_active (first->to); i++)
{
adj = vector_slot (first->to, i);
struct cmd_token *ftok = adj->data,
*stok = second->data;
if (cmp_token (ftok, stok))
return adj;
}
return NULL;
}
/**
* Creates an edge betwen two nodes, unless there is already an edge to an
* equivalent node.
*
* The first node's out edges are searched to see if any of them point to a
* node that is equivalent to the second node. If such a node exists, it is
* returned. Otherwise an edge is created from the first node to the second.
*
* @param from start node for edge
* @param to end node for edge
* @return the node which the new edge points to
*/
static struct graph_node *
add_edge_dedup (struct graph_node *from, struct graph_node *to)
{
struct graph_node *existing = node_adjacent (from, to);
if (existing)
{
struct cmd_token *ex_tok = existing->data;
struct cmd_token *to_tok = to->data;
// NORMAL takes precedence over DEPRECATED takes precedence over HIDDEN
ex_tok->attr = (ex_tok->attr < to_tok->attr) ? ex_tok->attr : to_tok->attr;
return existing;
}
else
return graph_add_edge (from, to);
}
/**
* Compares two cmd_token's for equality,
*
* As such, this function is the working definition of token equality
* for parsing purposes and determines overall graph structure.
*/
static int
cmp_token (struct cmd_token *first, struct cmd_token *second)
{
// compare types
if (first->type != second->type) return 0;
switch (first->type) {
case WORD_TKN:
case VARIABLE_TKN:
if (first->text && second->text)
{
if (strcmp (first->text, second->text))
return 0;
}
else if (first->text != second->text) return 0;
break;
case RANGE_TKN:
if (first->min != second->min || first->max != second->max)
return 0;
break;
/* selectors and options should be equal if their subgraphs are equal,
* but the graph isomorphism problem is not known to be solvable in
* polynomial time so we consider selectors and options inequal in all
* cases; ultimately this forks the graph, but the matcher can handle
* this regardless
*/
case SELECTOR_TKN:
case OPTION_TKN:
return 0;
/* end nodes are always considered equal, since each node may only
* have one END_TKN child at a time
*/
case START_TKN:
case END_TKN:
case NUL_TKN:
default:
break;
}
return 1;
}
|