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|
/*
* keyword-gen.c -- generate keyword scanner finite state machine and
* keyword_text array.
*
* This program is run to generate ntp_keyword.h
* After making a change here, two output files should be committed at
* the same time as keyword-gen.c:
* ntp_keyword.h
* keyword-gen-utd
*
* keyword-gen-utd is a sentinel used by Makefile.am to avoid compiling
* keyword_gen.c and generating ntp_keyword.h if the input keyword-gen.c
* has not changed. This is not solely an optimization, it also breaks
* a dependency chain that otherwise would cause programs to be compiled
* when running "make dist" or "make distdir". We want these to package
* the existing source without building anything but a tarball. See
* [Bug 1470].
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <ntp_stdlib.h>
#include <ntp_config.h>
#include <lib_strbuf.h>
#include "ntp_scanner.h"
#include "ntp_parser.h"
/* Define a structure to hold a (keyword, token) pair */
struct key_tok {
char * key; /* Keyword */
u_short token; /* Associated Token */
follby followedby; /* nonzero indicates the next token(s)
forced to be string(s) */
};
struct key_tok ntp_keywords[] = {
{ "...", T_Ellipsis, FOLLBY_TOKEN },
{ "allpeers", T_Allpeers, FOLLBY_TOKEN },
{ "automax", T_Automax, FOLLBY_TOKEN },
{ "broadcast", T_Broadcast, FOLLBY_STRING },
{ "broadcastclient", T_Broadcastclient, FOLLBY_TOKEN },
{ "broadcastdelay", T_Broadcastdelay, FOLLBY_TOKEN },
{ "ctl", T_Ctl, FOLLBY_TOKEN },
{ "disable", T_Disable, FOLLBY_TOKEN },
{ "driftfile", T_Driftfile, FOLLBY_STRING },
{ "enable", T_Enable, FOLLBY_TOKEN },
{ "end", T_End, FOLLBY_TOKEN },
{ "filegen", T_Filegen, FOLLBY_TOKEN },
{ "fudge", T_Fudge, FOLLBY_STRING },
{ "io", T_Io, FOLLBY_TOKEN },
{ "includefile", T_Includefile, FOLLBY_STRING },
{ "leapfile", T_Leapfile, FOLLBY_STRING },
{ "logconfig", T_Logconfig, FOLLBY_STRINGS_TO_EOC },
{ "logfile", T_Logfile, FOLLBY_STRING },
{ "manycastclient", T_Manycastclient, FOLLBY_STRING },
{ "manycastserver", T_Manycastserver, FOLLBY_STRINGS_TO_EOC },
{ "mem", T_Mem, FOLLBY_TOKEN },
{ "multicastclient", T_Multicastclient, FOLLBY_STRINGS_TO_EOC },
{ "peer", T_Peer, FOLLBY_STRING },
{ "phone", T_Phone, FOLLBY_STRINGS_TO_EOC },
{ "pidfile", T_Pidfile, FOLLBY_STRING },
{ "pool", T_Pool, FOLLBY_STRING },
{ "discard", T_Discard, FOLLBY_TOKEN },
{ "reset", T_Reset, FOLLBY_TOKEN },
{ "restrict", T_Restrict, FOLLBY_TOKEN },
{ "rlimit", T_Rlimit, FOLLBY_TOKEN },
{ "server", T_Server, FOLLBY_STRING },
{ "setvar", T_Setvar, FOLLBY_STRING },
{ "statistics", T_Statistics, FOLLBY_TOKEN },
{ "statsdir", T_Statsdir, FOLLBY_STRING },
{ "sys", T_Sys, FOLLBY_TOKEN },
{ "tick", T_Tick, FOLLBY_TOKEN },
{ "timer", T_Timer, FOLLBY_TOKEN },
{ "tinker", T_Tinker, FOLLBY_TOKEN },
{ "tos", T_Tos, FOLLBY_TOKEN },
{ "trap", T_Trap, FOLLBY_STRING },
{ "unconfig", T_Unconfig, FOLLBY_STRING },
{ "unpeer", T_Unpeer, FOLLBY_STRING },
/* authentication_command */
{ "controlkey", T_ControlKey, FOLLBY_TOKEN },
{ "crypto", T_Crypto, FOLLBY_TOKEN },
{ "keys", T_Keys, FOLLBY_STRING },
{ "keysdir", T_Keysdir, FOLLBY_STRING },
{ "ntpsigndsocket", T_NtpSignDsocket, FOLLBY_STRING },
{ "requestkey", T_Requestkey, FOLLBY_TOKEN },
{ "revoke", T_Revoke, FOLLBY_TOKEN },
{ "trustedkey", T_Trustedkey, FOLLBY_TOKEN },
/* IPv4/IPv6 protocol override flag */
{ "-4", T_Ipv4_flag, FOLLBY_TOKEN },
{ "-6", T_Ipv6_flag, FOLLBY_TOKEN },
/* option */
{ "autokey", T_Autokey, FOLLBY_TOKEN },
{ "burst", T_Burst, FOLLBY_TOKEN },
{ "iburst", T_Iburst, FOLLBY_TOKEN },
{ "key", T_Key, FOLLBY_TOKEN },
{ "maxpoll", T_Maxpoll, FOLLBY_TOKEN },
{ "mdnstries", T_Mdnstries, FOLLBY_TOKEN },
{ "minpoll", T_Minpoll, FOLLBY_TOKEN },
{ "mode", T_Mode, FOLLBY_TOKEN },
{ "noselect", T_Noselect, FOLLBY_TOKEN },
{ "preempt", T_Preempt, FOLLBY_TOKEN },
{ "true", T_True, FOLLBY_TOKEN },
{ "prefer", T_Prefer, FOLLBY_TOKEN },
{ "ttl", T_Ttl, FOLLBY_TOKEN },
{ "version", T_Version, FOLLBY_TOKEN },
{ "xleave", T_Xleave, FOLLBY_TOKEN },
/* crypto_command */
{ "host", T_Host, FOLLBY_STRING },
{ "ident", T_Ident, FOLLBY_STRING },
{ "pw", T_Pw, FOLLBY_STRING },
{ "randfile", T_Randfile, FOLLBY_STRING },
{ "digest", T_Digest, FOLLBY_STRING },
/*** MONITORING COMMANDS ***/
/* stat */
{ "clockstats", T_Clockstats, FOLLBY_TOKEN },
{ "cryptostats", T_Cryptostats, FOLLBY_TOKEN },
{ "loopstats", T_Loopstats, FOLLBY_TOKEN },
{ "peerstats", T_Peerstats, FOLLBY_TOKEN },
{ "rawstats", T_Rawstats, FOLLBY_TOKEN },
{ "sysstats", T_Sysstats, FOLLBY_TOKEN },
{ "protostats", T_Protostats, FOLLBY_TOKEN },
{ "timingstats", T_Timingstats, FOLLBY_TOKEN },
/* filegen_option */
{ "file", T_File, FOLLBY_STRING },
{ "link", T_Link, FOLLBY_TOKEN },
{ "nolink", T_Nolink, FOLLBY_TOKEN },
{ "type", T_Type, FOLLBY_TOKEN },
/* filegen_type */
{ "age", T_Age, FOLLBY_TOKEN },
{ "day", T_Day, FOLLBY_TOKEN },
{ "month", T_Month, FOLLBY_TOKEN },
{ "none", T_None, FOLLBY_TOKEN },
{ "pid", T_Pid, FOLLBY_TOKEN },
{ "week", T_Week, FOLLBY_TOKEN },
{ "year", T_Year, FOLLBY_TOKEN },
/*** ORPHAN MODE COMMANDS ***/
/* tos_option */
{ "minclock", T_Minclock, FOLLBY_TOKEN },
{ "maxclock", T_Maxclock, FOLLBY_TOKEN },
{ "minsane", T_Minsane, FOLLBY_TOKEN },
{ "floor", T_Floor, FOLLBY_TOKEN },
{ "ceiling", T_Ceiling, FOLLBY_TOKEN },
{ "cohort", T_Cohort, FOLLBY_TOKEN },
{ "mindist", T_Mindist, FOLLBY_TOKEN },
{ "maxdist", T_Maxdist, FOLLBY_TOKEN },
{ "beacon", T_Beacon, FOLLBY_TOKEN },
{ "orphan", T_Orphan, FOLLBY_TOKEN },
{ "orphanwait", T_Orphanwait, FOLLBY_TOKEN },
{ "nonvolatile", T_Nonvolatile, FOLLBY_TOKEN },
/* access_control_flag */
{ "default", T_Default, FOLLBY_TOKEN },
{ "source", T_Source, FOLLBY_TOKEN },
{ "flake", T_Flake, FOLLBY_TOKEN },
{ "ignore", T_Ignore, FOLLBY_TOKEN },
{ "limited", T_Limited, FOLLBY_TOKEN },
{ "mssntp", T_Mssntp, FOLLBY_TOKEN },
{ "kod", T_Kod, FOLLBY_TOKEN },
{ "lowpriotrap", T_Lowpriotrap, FOLLBY_TOKEN },
{ "mask", T_Mask, FOLLBY_TOKEN },
{ "nomodify", T_Nomodify, FOLLBY_TOKEN },
{ "nomrulist", T_Nomrulist, FOLLBY_TOKEN },
{ "nopeer", T_Nopeer, FOLLBY_TOKEN },
{ "noquery", T_Noquery, FOLLBY_TOKEN },
{ "noserve", T_Noserve, FOLLBY_TOKEN },
{ "notrap", T_Notrap, FOLLBY_TOKEN },
{ "notrust", T_Notrust, FOLLBY_TOKEN },
{ "ntpport", T_Ntpport, FOLLBY_TOKEN },
/* discard_option */
{ "average", T_Average, FOLLBY_TOKEN },
{ "minimum", T_Minimum, FOLLBY_TOKEN },
{ "monitor", T_Monitor, FOLLBY_TOKEN },
/* mru_option */
{ "incalloc", T_Incalloc, FOLLBY_TOKEN },
{ "incmem", T_Incmem, FOLLBY_TOKEN },
{ "initalloc", T_Initalloc, FOLLBY_TOKEN },
{ "initmem", T_Initmem, FOLLBY_TOKEN },
{ "mindepth", T_Mindepth, FOLLBY_TOKEN },
{ "maxage", T_Maxage, FOLLBY_TOKEN },
{ "maxdepth", T_Maxdepth, FOLLBY_TOKEN },
{ "maxmem", T_Maxmem, FOLLBY_TOKEN },
{ "mru", T_Mru, FOLLBY_TOKEN },
/* fudge_factor */
{ "abbrev", T_Abbrev, FOLLBY_STRING },
{ "flag1", T_Flag1, FOLLBY_TOKEN },
{ "flag2", T_Flag2, FOLLBY_TOKEN },
{ "flag3", T_Flag3, FOLLBY_TOKEN },
{ "flag4", T_Flag4, FOLLBY_TOKEN },
{ "refid", T_Refid, FOLLBY_STRING },
{ "stratum", T_Stratum, FOLLBY_TOKEN },
{ "time1", T_Time1, FOLLBY_TOKEN },
{ "time2", T_Time2, FOLLBY_TOKEN },
/* system_option */
{ "auth", T_Auth, FOLLBY_TOKEN },
{ "bclient", T_Bclient, FOLLBY_TOKEN },
{ "calibrate", T_Calibrate, FOLLBY_TOKEN },
{ "kernel", T_Kernel, FOLLBY_TOKEN },
{ "ntp", T_Ntp, FOLLBY_TOKEN },
{ "mode7", T_Mode7, FOLLBY_TOKEN },
{ "stats", T_Stats, FOLLBY_TOKEN },
/* rlimit_option */
{ "memlock", T_Memlock, FOLLBY_TOKEN },
{ "stacksize", T_Stacksize, FOLLBY_TOKEN },
{ "filenum", T_Filenum, FOLLBY_TOKEN },
/* tinker_option */
{ "step", T_Step, FOLLBY_TOKEN },
{ "panic", T_Panic, FOLLBY_TOKEN },
{ "dispersion", T_Dispersion, FOLLBY_TOKEN },
{ "stepout", T_Stepout, FOLLBY_TOKEN },
{ "allan", T_Allan, FOLLBY_TOKEN },
{ "huffpuff", T_Huffpuff, FOLLBY_TOKEN },
{ "freq", T_Freq, FOLLBY_TOKEN },
/* miscellaneous_command */
{ "port", T_Port, FOLLBY_TOKEN },
{ "interface", T_Interface, FOLLBY_TOKEN },
{ "saveconfigdir", T_Saveconfigdir, FOLLBY_STRING },
/* interface_command (ignore and interface already defined) */
{ "nic", T_Nic, FOLLBY_TOKEN },
{ "all", T_All, FOLLBY_TOKEN },
{ "ipv4", T_Ipv4, FOLLBY_TOKEN },
{ "ipv6", T_Ipv6, FOLLBY_TOKEN },
{ "wildcard", T_Wildcard, FOLLBY_TOKEN },
{ "listen", T_Listen, FOLLBY_TOKEN },
{ "drop", T_Drop, FOLLBY_TOKEN },
/* simulator commands */
{ "simulate", T_Simulate, FOLLBY_TOKEN },
{ "simulation_duration",T_Sim_Duration, FOLLBY_TOKEN },
{ "beep_delay", T_Beep_Delay, FOLLBY_TOKEN },
{ "duration", T_Duration, FOLLBY_TOKEN },
{ "server_offset", T_Server_Offset, FOLLBY_TOKEN },
{ "freq_offset", T_Freq_Offset, FOLLBY_TOKEN },
{ "wander", T_Wander, FOLLBY_TOKEN },
{ "jitter", T_Jitter, FOLLBY_TOKEN },
{ "prop_delay", T_Prop_Delay, FOLLBY_TOKEN },
{ "proc_delay", T_Proc_Delay, FOLLBY_TOKEN },
};
typedef struct big_scan_state_tag {
char ch; /* Character this state matches on */
char followedby; /* Forces next token(s) to T_String */
u_short finishes_token; /* nonzero ID if last keyword char */
u_short match_next_s; /* next state to check matching ch */
u_short other_next_s; /* next state to check if not ch */
} big_scan_state;
/*
* Note: to increase MAXSTATES beyond 2048, be aware it is currently
* crammed into 11 bits in scan_state form. Raising to 4096 would be
* relatively easy by storing the followedby value in a separate
* array with one entry per token, and shrinking the char value to
* 7 bits to free a bit for accepting/non-accepting. More than 4096
* states will require expanding scan_state beyond 32 bits each.
*/
#define MAXSTATES 2048
#define MAX_TOK_LEN 63
const char * current_keyword;/* for error reporting */
big_scan_state sst[MAXSTATES]; /* scanner FSM state entries */
u_short sst_highwater; /* next entry index to consider */
char * symb[1024]; /* map token ID to symbolic name */
/* for libntp */
const char * progname = "keyword-gen";
int main (int, char **);
static void generate_preamble (void);
static void generate_fsm (void);
static void generate_token_text (void);
static u_short create_keyword_scanner (void);
static u_short create_scan_states (char *, u_short, follby, u_short);
int compare_key_tok_id (const void *, const void *);
int compare_key_tok_text (const void *, const void *);
void populate_symb (char *);
const char * symbname (u_short);
int main(int argc, char **argv)
{
if (argc < 2) {
fprintf(stderr, "Usage:\n%s t_header.h\n", argv[0]);
exit(1);
}
debug = 1;
populate_symb(argv[1]);
generate_preamble();
generate_token_text();
generate_fsm();
return 0;
}
static void
generate_preamble(void)
{
time_t now;
char timestamp[128];
char preamble[] =
"/*\n"
" * ntp_keyword.h\n"
" * \n"
" * NOTE: edit this file with caution, it is generated by keyword-gen.c\n"
" *\t Generated %s UTC diff_ignore_line\n"
" *\n"
" */\n"
"#include \"ntp_scanner.h\"\n"
"#include \"ntp_parser.h\"\n"
"\n";
time(&now);
if (!strftime(timestamp, sizeof(timestamp),
"%Y-%m-%d %H:%M:%S", gmtime(&now)))
timestamp[0] = '\0';
printf(preamble, timestamp);
}
static void
generate_fsm(void)
{
char rprefix[MAX_TOK_LEN + 1];
char prefix[MAX_TOK_LEN + 1];
char token_id_comment[16 + MAX_TOK_LEN + 1];
size_t prefix_len;
char *p;
char *r;
u_short initial_state;
u_short this_state;
u_short prev_state;
u_short state;
u_short i;
u_short token;
/*
* Sort ntp_keywords in alphabetical keyword order. This is
* not necessary, but minimizes nonfunctional changes in the
* generated finite state machine when keywords are modified.
*/
qsort(ntp_keywords, COUNTOF(ntp_keywords),
sizeof(ntp_keywords[0]), compare_key_tok_text);
/*
* To save space, reserve the state array entry matching each
* token number for its terminal state, so the token identifier
* does not need to be stored in each state, but can be
* recovered trivially. To mark the entry reserved,
* finishes_token is nonzero.
*/
for (i = 0; i < COUNTOF(ntp_keywords); i++) {
token = ntp_keywords[i].token;
if (1 > token || token >= COUNTOF(sst)) {
fprintf(stderr,
"keyword-gen sst[%u] too small "
"for keyword '%s' id %d\n",
(int)COUNTOF(sst),
ntp_keywords[i].key,
token);
exit(4);
}
sst[token].finishes_token = token;
}
initial_state = create_keyword_scanner();
fprintf(stderr,
"%d keywords consumed %d states of %d max.\n",
(int)COUNTOF(ntp_keywords),
sst_highwater - 1,
(int)COUNTOF(sst) - 1);
printf("#define SCANNER_INIT_S %d\n\n", initial_state);
printf("const scan_state sst[%d] = {\n"
"/*SS_T( ch,\tf-by, match, other ),\t\t\t\t */\n"
" 0,\t\t\t\t /* %5d %-17s */\n",
sst_highwater,
0, "");
for (i = 1; i < sst_highwater; i++) {
/* verify fields will fit */
if (sst[i].followedby & ~0x3) {
fprintf(stderr,
"keyword-gen internal error "
"sst[%d].followedby %d too big\n",
i, sst[i].followedby);
exit(7);
}
if (sst_highwater <= sst[i].match_next_s
|| sst[i].match_next_s & ~0x7ff) {
fprintf(stderr,
"keyword-gen internal error "
"sst[%d].match_next_s %d too big\n",
i, sst[i].match_next_s);
exit(8);
}
if (sst_highwater <= sst[i].other_next_s
|| sst[i].other_next_s & ~0x7ff) {
fprintf(stderr,
"keyword-gen internal error "
"sst[%d].other_next_s %d too big\n",
i, sst[i].other_next_s);
exit(9);
}
if (sst[i].finishes_token) {
snprintf(token_id_comment,
sizeof(token_id_comment), "%5d %-17s",
i, symbname(sst[i].finishes_token));
if (i != sst[i].finishes_token) {
fprintf(stderr,
"keyword-gen internal error "
"entry %d finishes token %d\n",
i, sst[i].finishes_token);
exit(5);
}
} else {
/*
* Determine the keyword prefix that leads to this
* state. This is expensive but keyword-gen is run
* only when it changes. Distributing keyword-gen-utd
* achieves that, which is why it must be committed
* at the same time as keyword-gen.c and ntp_keyword.h.
*
* Scan the state array iteratively looking for a state
* which leads to the current one, collecting matching
* characters along the way. There is only one such
* path back to the starting state given the way our
* scanner state machine is built and the practice of
* using the spelling of the keyword as its T_* token
* identifier, which results in never having two
* spellings result in the same T_* value.
*/
prefix_len = 0;
prev_state = 0;
this_state = i;
do {
for (state = 1; state < sst_highwater; state++)
if (sst[state].other_next_s == this_state) {
this_state = state;
break;
} else if (sst[state].match_next_s == this_state) {
this_state = state;
rprefix[prefix_len] = sst[state].ch;
prefix_len++;
break;
}
} while (this_state != initial_state);
if (prefix_len) {
/* reverse rprefix into prefix */
p = prefix + prefix_len;
r = rprefix;
while (r < rprefix + prefix_len)
*--p = *r++;
}
prefix[prefix_len] = '\0';
snprintf(token_id_comment,
sizeof(token_id_comment), "%5d %-17s",
i, (initial_state == i)
? "[initial state]"
: prefix);
}
printf(" S_ST( '%c',\t%d, %5u, %5u )%s /* %s */\n",
sst[i].ch,
sst[i].followedby,
sst[i].match_next_s,
sst[i].other_next_s,
(i + 1 < sst_highwater)
? ","
: " ",
token_id_comment);
}
printf("};\n\n");
}
/* Define a function to create the states of the scanner. This function
* is used by the create_keyword_scanner function below.
*
* This function takes a suffix of a keyword, the token to be returned on
* recognizing the complete keyword, and any pre-existing state that exists
* for some other keyword that has the same prefix as the current one.
*/
static u_short
create_scan_states(
char * text,
u_short token,
follby followedby,
u_short prev_state
)
{
u_short my_state;
u_short return_state;
u_short prev_char_s;
u_short curr_char_s;
return_state = prev_state;
curr_char_s = prev_state;
prev_char_s = 0;
/* Find the correct position to insert the state.
* All states should be in alphabetical order
*/
while (curr_char_s && (text[0] < sst[curr_char_s].ch)) {
prev_char_s = curr_char_s;
curr_char_s = sst[curr_char_s].other_next_s;
}
/*
* Check if a previously seen keyword has the same prefix as
* the current keyword. If so, simply use the state for that
* keyword as my_state, otherwise, allocate a new state.
*/
if (curr_char_s && (text[0] == sst[curr_char_s].ch)) {
my_state = curr_char_s;
if ('\0' == text[1]) {
fprintf(stderr,
"Duplicate entries for keyword '%s' in"
" keyword_gen.c ntp_keywords[].\n",
current_keyword);
exit(2);
}
} else {
do
my_state = sst_highwater++;
while (my_state < COUNTOF(sst)
&& sst[my_state].finishes_token);
if (my_state >= COUNTOF(sst)) {
fprintf(stderr,
"fatal, keyword scanner state array "
"sst[%d] is too small, modify\n"
"keyword-gen.c to increase.\n",
(int)COUNTOF(sst));
exit(3);
}
/* Store the next character of the keyword */
sst[my_state].ch = text[0];
sst[my_state].other_next_s = curr_char_s;
sst[my_state].followedby = FOLLBY_NON_ACCEPTING;
if (prev_char_s)
sst[prev_char_s].other_next_s = my_state;
else
return_state = my_state;
}
/* Check if the next character is '\0'.
* If yes, we are done with the recognition and this is an accepting
* state.
* If not, we need to continue scanning
*/
if ('\0' == text[1]) {
sst[my_state].finishes_token = (u_short)token;
sst[my_state].followedby = (char)followedby;
if (sst[token].finishes_token != (u_short)token) {
fprintf(stderr,
"fatal, sst[%d] not reserved for %s.\n",
token, symbname(token));
exit(6);
}
/* relocate so token id is sst[] index */
if (my_state != token) {
sst[token] = sst[my_state];
ZERO(sst[my_state]);
do
sst_highwater--;
while (sst[sst_highwater].finishes_token);
my_state = token;
if (prev_char_s)
sst[prev_char_s].other_next_s = my_state;
else
return_state = my_state;
}
} else
sst[my_state].match_next_s =
create_scan_states(
&text[1],
token,
followedby,
sst[my_state].match_next_s);
return return_state;
}
/* Define a function that takes a list of (keyword, token) values and
* creates a keywords scanner out of it.
*/
static u_short
create_keyword_scanner(void)
{
u_short scanner;
u_short i;
sst_highwater = 1; /* index 0 invalid, unused */
scanner = 0;
for (i = 0; i < COUNTOF(ntp_keywords); i++) {
current_keyword = ntp_keywords[i].key;
scanner =
create_scan_states(
ntp_keywords[i].key,
ntp_keywords[i].token,
ntp_keywords[i].followedby,
scanner);
}
return scanner;
}
static void
generate_token_text(void)
{
u_short lowest_id;
u_short highest_id;
u_short id_count;
u_short id;
u_short i;
/* sort ntp_keywords in token ID order */
qsort(ntp_keywords, COUNTOF(ntp_keywords),
sizeof(ntp_keywords[0]), compare_key_tok_id);
lowest_id = ntp_keywords[0].token;
highest_id = ntp_keywords[COUNTOF(ntp_keywords) - 1].token;
id_count = highest_id - lowest_id + 1;
printf("#define LOWEST_KEYWORD_ID %d\n\n", lowest_id);
printf("const char * const keyword_text[%d] = {", id_count);
id = lowest_id;
i = 0;
while (i < COUNTOF(ntp_keywords)) {
while (id < ntp_keywords[i].token) {
printf(",\n\t/* %-5d %5d %20s */\tNULL",
id - lowest_id, id, symbname(id));
id++;
}
if (i > 0)
printf(",");
printf("\n\t/* %-5d %5d %20s */\t\"%s\"",
id - lowest_id, id, symbname(id),
ntp_keywords[i].key);
i++;
id++;
}
printf("\n};\n\n");
}
int
compare_key_tok_id(
const void *a1,
const void *a2
)
{
const struct key_tok *p1 = a1;
const struct key_tok *p2 = a2;
if (p1->token == p2->token)
return 0;
if (p1->token < p2->token)
return -1;
else
return 1;
}
int
compare_key_tok_text(
const void *a1,
const void *a2
)
{
const struct key_tok *p1 = a1;
const struct key_tok *p2 = a2;
return strcmp(p1->key, p2->key);
}
/*
* populate_symb() - populate symb[] lookup array with symbolic token
* names such that symb[T_Age] == "T_Age", etc.
*/
void
populate_symb(
char *header_file
)
{
FILE * yh;
char line[2 * MAX_TOK_LEN];
char name[2 * MAX_TOK_LEN];
int token;
yh = fopen(header_file, "r");
if (NULL == yh) {
perror("unable to open yacc/bison header file");
exit(4);
}
while (NULL != fgets(line, sizeof(line), yh))
if (2 == sscanf(line, "#define %s %d", name, &token)
&& 'T' == name[0] && '_' == name[1] && token >= 0
&& token < COUNTOF(symb)) {
symb[token] = estrdup(name);
if (strlen(name) > MAX_TOK_LEN) {
fprintf(stderr,
"MAX_TOK_LEN %d too small for '%s'\n"
"Edit keyword-gen.c to raise.\n",
MAX_TOK_LEN, name);
exit(10);
}
}
fclose(yh);
}
const char *
symbname(
u_short token
)
{
char *name;
if (token < COUNTOF(symb) && symb[token] != NULL) {
name = symb[token];
} else {
LIB_GETBUF(name);
snprintf(name, LIB_BUFLENGTH, "%d", token);
}
return name;
}
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