usr.bin/db/db.c

1.8    seb /*	$NetBSD: db.c,v 1.8 2003/05/19 00:27:07 seb Exp $	*/
1.1  lukem
1.1  lukem /*-
1.1  lukem  * Copyright (c) 2002 The NetBSD Foundation, Inc.
1.1  lukem  * All rights reserved.
1.1  lukem  *
1.1  lukem  * This code is derived from software contributed to The NetBSD Foundation
1.1  lukem  * by Luke Mewburn of Wasabi Systems.
1.1  lukem  *
1.1  lukem  * Redistribution and use in source and binary forms, with or without
1.1  lukem  * modification, are permitted provided that the following conditions
1.1  lukem  * are met:
1.1  lukem  * 1. Redistributions of source code must retain the above copyright
1.1  lukem  *    notice, this list of conditions and the following disclaimer.
1.1  lukem  * 2. Redistributions in binary form must reproduce the above copyright
1.1  lukem  *    notice, this list of conditions and the following disclaimer in the
1.1  lukem  *    documentation and/or other materials provided with the distribution.
1.1  lukem  * 3. All advertising materials mentioning features or use of this software
1.1  lukem  *    must display the following acknowledgement:
1.1  lukem  *	This product includes software developed by the NetBSD
1.1  lukem  *	Foundation, Inc. and its contributors.
1.1  lukem  * 4. Neither the name of The NetBSD Foundation nor the names of its
1.1  lukem  *    contributors may be used to endorse or promote products derived
1.1  lukem  *    from this software without specific prior written permission.
1.1  lukem  *
1.1  lukem  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1  lukem  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  lukem  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  lukem  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1  lukem  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  lukem  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  lukem  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  lukem  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  lukem  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  lukem  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  lukem  * POSSIBILITY OF SUCH DAMAGE.
1.1  lukem  */
1.1  lukem
1.1  lukem #include <sys/cdefs.h>
1.1  lukem #ifndef lint
1.8    seb __RCSID("$NetBSD: db.c,v 1.8 2003/05/19 00:27:07 seb Exp $");
1.1  lukem #endif /* not lint */
1.1  lukem
1.1  lukem #include <db.h>
1.1  lukem #include <ctype.h>
1.1  lukem #include <err.h>
1.1  lukem #include <fcntl.h>
1.1  lukem #include <stdio.h>
1.1  lukem #include <stdlib.h>
1.1  lukem #include <string.h>
1.1  lukem #include <unistd.h>
1.8    seb #include <vis.h>
1.1  lukem
1.3  lukem
1.1  lukem typedef enum {
1.1  lukem 	F_WRITE		= 1<<0,
1.1  lukem 	F_DELETE	= 1<<1,
1.1  lukem 	F_SHOW_KEY	= 1<<2,
1.1  lukem 	F_SHOW_VALUE	= 1<<3,
1.1  lukem 	F_QUIET		= 1<<10,
1.1  lukem 	F_IGNORECASE	= 1<<11,
1.1  lukem 	F_ENDIAN_BIG	= 1<<12,
1.1  lukem 	F_ENDIAN_LITTLE	= 1<<13,
1.1  lukem 	F_NO_NUL	= 1<<14,
1.1  lukem 	F_CREATENEW	= 1<<20,
1.1  lukem 	F_DUPLICATES	= 1<<21,
1.1  lukem 	F_REPLACE	= 1<<22,
1.8    seb 	F_ENCODE_KEY	= 1<<23,
1.8    seb 	F_ENCODE_VAL	= 1<<24,
1.8    seb 	F_DECODE_KEY	= 1<<25,
1.8    seb 	F_DECODE_VAL	= 1<<26,
1.1  lukem } flags_t;
1.1  lukem
1.1  lukem int	main(int, char *[]);
1.1  lukem void	db_print(DBT *, DBT *);
1.1  lukem int	db_dump(void);
1.1  lukem int	db_del(char *);
1.1  lukem int	db_get(char *);
1.1  lukem int	db_put(char *, char *);
1.1  lukem int	parseline(FILE *, const char *, char **, char **);
1.8    seb int	encode_data(size_t, char *, char **);
1.8    seb int	decode_data(char *, char **);
1.8    seb void	parse_encode_decode_arg(const char *, int);
1.8    seb int	parse_encode_option(char **);
1.1  lukem void	usage(void);
1.1  lukem
1.8    seb flags_t	 flags = 0;
1.1  lukem DB	*db;
1.5    seb char	*outputsep = "\t";
1.8    seb int	encflags = 0;
1.8    seb char	*extra_echars = NULL;
1.1  lukem
1.1  lukem int
1.1  lukem main(int argc, char *argv[])
1.1  lukem {
1.1  lukem 	struct {
1.1  lukem 		char	*file;
1.1  lukem 		char	*type;
1.1  lukem 		DBTYPE	 dbtype;
1.1  lukem 		void	*info;
1.1  lukem 		int	 flags;
1.1  lukem 		mode_t	 mode;
1.1  lukem 	} oi;
1.1  lukem 	BTREEINFO	btreeinfo;
1.1  lukem 	HASHINFO	hashinfo;
1.1  lukem 	FILE		*infp;
1.1  lukem 	const char	*infile, *fieldsep;
1.1  lukem 	char		*p, *key, *val;
1.1  lukem 	int		ch, rv;
1.1  lukem
1.1  lukem 	setprogname(argv[0]);
1.1  lukem
1.1  lukem 	infile = NULL;
1.1  lukem 	fieldsep = " ";
1.1  lukem 	infp = NULL;
1.1  lukem 	memset(&oi, 0, sizeof(oi));
1.1  lukem 	oi.mode = 0644;
1.1  lukem
1.1  lukem 				/* parse arguments */
1.8    seb 	while ( (ch = getopt(argc, argv,
1.8    seb 			     "CDdE:F:f:iKm:NO:qRS:T:U:VwX:")) != -1) {
1.1  lukem 		switch (ch) {
1.1  lukem
1.1  lukem 		case 'C':
1.1  lukem 			flags |= F_CREATENEW;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'D':
1.1  lukem 			flags |= F_DUPLICATES;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'd':
1.1  lukem 			flags |= F_DELETE;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'E':
1.1  lukem 			if (! optarg[0] || optarg[1])
1.1  lukem 				goto badendian;
1.4  lukem 			switch (toupper((int)optarg[0])) {
1.1  lukem 			case 'B':
1.1  lukem 				flags |= F_ENDIAN_BIG;
1.1  lukem 				break;
1.1  lukem 			case 'L':
1.1  lukem 				flags |= F_ENDIAN_LITTLE;
1.1  lukem 				break;
1.1  lukem 			case 'H':
1.1  lukem 				flags &= ~(F_ENDIAN_BIG | F_ENDIAN_LITTLE);
1.1  lukem 				break;
1.1  lukem 			default:
1.1  lukem  badendian:
1.1  lukem 				errx(1, "Bad endian `%s'", optarg);
1.1  lukem 			}
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'F':
1.1  lukem 			if (! optarg[0] || optarg[1])
1.5    seb 				errx(1, "Invalid field separator `%s'",
1.5    seb 				    optarg);
1.1  lukem 			fieldsep = optarg;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'f':
1.1  lukem 			infile = optarg;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'i':
1.1  lukem 			flags |= F_IGNORECASE;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'K':
1.1  lukem 			flags |= F_SHOW_KEY;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'm':
1.1  lukem 			oi.mode = (int)strtol(optarg, &p, 8);
1.1  lukem 			if (p == optarg || *p != '\0')
1.1  lukem 				errx(1, "Invalid octal number `%s'", optarg);
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'N':
1.1  lukem 			flags |= F_NO_NUL;
1.1  lukem 			break;
1.1  lukem
1.6    seb 		case 'O':
1.6    seb 			outputsep = optarg;
1.6    seb 			break;
1.6    seb
1.1  lukem 		case 'q':
1.1  lukem 			flags |= F_QUIET;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'R':
1.1  lukem 			flags |= F_REPLACE;
1.1  lukem 			break;
1.1  lukem
1.8    seb 		case 'S':
1.8    seb 			parse_encode_decode_arg(optarg, 1 /* encode */);
1.8    seb 			if (! (flags & (F_ENCODE_KEY | F_ENCODE_VAL)))
1.8    seb 				errx(1, "Invalid encoding argument `%s'",
1.8    seb 				    optarg);
1.8    seb 			break;
1.8    seb
1.8    seb 		case 'T':
1.8    seb 			encflags = parse_encode_option(&optarg);
1.8    seb 			if (! encflags)
1.8    seb 				errx(1, "Invalid encoding option `%s'",
1.8    seb 				    optarg);
1.8    seb 			break;
1.8    seb
1.8    seb 		case 'U':
1.8    seb 			parse_encode_decode_arg(optarg, 0 /* decode */);
1.8    seb 			if (! (flags & (F_DECODE_KEY | F_DECODE_VAL)))
1.8    seb 				errx(1, "Invalid decoding argument `%s'",
1.8    seb 				    optarg);
1.8    seb 			break;
1.8    seb
1.1  lukem 		case 'V':
1.1  lukem 			flags |= F_SHOW_VALUE;
1.1  lukem 			break;
1.1  lukem
1.1  lukem 		case 'w':
1.1  lukem 			flags |= F_WRITE;
1.1  lukem 			break;
1.1  lukem
1.8    seb 		case 'X':
1.8    seb 			extra_echars = optarg;
1.8    seb 			break;
1.8    seb
1.1  lukem 		default:
1.1  lukem 			usage();
1.1  lukem
1.1  lukem 		}
1.1  lukem 	}
1.1  lukem 	argc -= optind;
1.1  lukem 	argv += optind;
1.1  lukem
1.1  lukem 				/* validate arguments */
1.1  lukem 	if (argc < 2)
1.1  lukem 		usage();
1.1  lukem 	oi.type = argv[0];
1.1  lukem 	oi.file = argv[1];
1.1  lukem 	argc -= 2;
1.1  lukem 	argv += 2;
1.1  lukem
1.1  lukem 	if (flags & F_WRITE) {
1.1  lukem 		if (flags & (F_SHOW_KEY | F_SHOW_VALUE | F_DELETE))
1.1  lukem 			usage();
1.1  lukem 		if ((!infile && argc < 2) || (argc % 2))
1.1  lukem 			usage();
1.1  lukem 		oi.flags = O_RDWR | O_CREAT | O_EXLOCK;
1.1  lukem 		if (flags & F_CREATENEW)
1.1  lukem 			flags |= O_TRUNC;
1.1  lukem 	} else if (flags & F_DELETE) {
1.1  lukem 		if (flags & (F_SHOW_KEY | F_SHOW_VALUE | F_WRITE))
1.1  lukem 			usage();
1.1  lukem 		if (!infile && argc < 1)
1.1  lukem 			usage();
1.1  lukem 		oi.flags = O_RDWR | O_CREAT | O_EXLOCK;
1.1  lukem 	} else {
1.1  lukem 		if (! (flags & (F_SHOW_KEY | F_SHOW_VALUE)))
1.1  lukem 			flags |= (F_SHOW_KEY | F_SHOW_VALUE);
1.1  lukem 		oi.flags = O_RDONLY | O_SHLOCK;
1.1  lukem 	}
1.1  lukem
1.1  lukem 				/* validate oi.type */
1.1  lukem 	if (strcmp(oi.type, "btree") == 0) {
1.1  lukem 		memset(&btreeinfo, 0, sizeof(btreeinfo));
1.1  lukem 		if (flags & F_ENDIAN_BIG)
1.1  lukem 			btreeinfo.lorder = 4321;
1.1  lukem 		else if (flags & F_ENDIAN_LITTLE)
1.1  lukem 			btreeinfo.lorder = 1234;
1.1  lukem 		if (flags & F_DUPLICATES)
1.1  lukem 			btreeinfo.flags = R_DUP;
1.2  lukem 		btreeinfo.cachesize = 1024 * 1024;
1.1  lukem 		oi.info = &btreeinfo;
1.1  lukem 		oi.dbtype = DB_BTREE;
1.1  lukem 	} else if (strcmp(oi.type, "hash") == 0) {
1.1  lukem 		memset(&hashinfo, 0, sizeof(hashinfo));
1.1  lukem 		if (flags & F_ENDIAN_BIG)
1.1  lukem 			hashinfo.lorder = 4321;
1.1  lukem 		else if (flags & F_ENDIAN_LITTLE)
1.1  lukem 			hashinfo.lorder = 1234;
1.2  lukem 		hashinfo.cachesize = 1024 * 1024;
1.1  lukem 		oi.info = &hashinfo;
1.1  lukem 		oi.dbtype = DB_HASH;
1.1  lukem 	} else {
1.1  lukem 		warnx("Unknown database type `%s'", oi.type);
1.1  lukem 		usage();
1.1  lukem 	}
1.1  lukem
1.1  lukem 	if (infile) {
1.1  lukem 		if (strcmp(infile, "-") == 0)
1.1  lukem 			infp = stdin;
1.1  lukem 		else if ((infp = fopen(infile, "r")) == NULL)
1.1  lukem 			err(1, "Opening input file `%s'", infile);
1.1  lukem 	}
1.1  lukem
1.1  lukem 				/* open database */
1.1  lukem 	db = dbopen(oi.file, oi.flags, oi.mode, oi.dbtype, oi.info);
1.1  lukem 	if (db == NULL)
1.1  lukem 		err(1, "Opening database `%s'", oi.file);
1.1  lukem
1.1  lukem
1.1  lukem 				/* manipulate database */
1.1  lukem 	rv = 0;
1.1  lukem 	if (flags & F_WRITE) {			/* write entries */
1.1  lukem 		for (ch = 0; ch < argc; ch += 2)
1.1  lukem 			if ((rv = db_put(argv[ch], argv[ch+1])))
1.1  lukem 				goto cleanup;
1.1  lukem 		if (infp) {
1.1  lukem 			while (parseline(infp, fieldsep, &key, &val)) {
1.1  lukem 				if ((rv = db_put(key, val)))
1.1  lukem 					goto cleanup;
1.1  lukem 			}
1.1  lukem 			if (ferror(infp)) {
1.1  lukem 				warnx("Reading `%s'", infile);
1.1  lukem 				goto cleanup;
1.1  lukem 			}
1.1  lukem 		}
1.1  lukem 	} else if (!infp && argc == 0) {	/* read all */
1.1  lukem 		db_dump();
1.1  lukem 	} else {				/* read/delete specific */
1.1  lukem 		int	(*dbop)(char *);
1.1  lukem
1.1  lukem 		if (flags & F_DELETE)
1.1  lukem 			dbop = db_del;
1.1  lukem 		else
1.1  lukem 			dbop = db_get;
1.1  lukem 		for (ch = 0; ch < argc; ch++) {
1.1  lukem 			if ((rv = dbop(argv[ch])))
1.1  lukem 				goto cleanup;
1.1  lukem 		}
1.1  lukem 		if (infp) {
1.1  lukem 			while (parseline(infp, fieldsep, &key, NULL)) {
1.1  lukem 				if ((rv = dbop(key)))
1.1  lukem 					goto cleanup;
1.1  lukem 			}
1.1  lukem 			if (ferror(infp)) {
1.1  lukem 				warnx("Reading `%s'", infile);
1.1  lukem 				goto cleanup;
1.1  lukem 			}
1.1  lukem 		}
1.1  lukem 	}
1.1  lukem
1.1  lukem 				/* close database */
1.1  lukem  cleanup:
1.1  lukem 	if (db->close(db) == -1)
1.1  lukem 		err(1, "Closing database `%s'", oi.file);
1.1  lukem 	if (infp)
1.1  lukem 		fclose(infp);
1.1  lukem 	return (rv);
1.1  lukem }
1.1  lukem
1.1  lukem void
1.1  lukem db_print(DBT *key, DBT *val)
1.1  lukem {
1.1  lukem
1.8    seb 	int len;
1.8    seb 	char *data;
1.8    seb
1.8    seb 	if (flags & F_SHOW_KEY) {
1.8    seb 		if (flags & F_ENCODE_KEY)
1.8    seb 			len = encode_data(key->size - 1, (char *)key->data,
1.8    seb 					 &data);
1.8    seb 		else {
1.8    seb 			len = (int)key->size;
1.8    seb 			data = (char *)key->data;
1.8    seb 		}
1.8    seb 		printf("%.*s", len, data);
1.8    seb 	}
1.1  lukem 	if ((flags & F_SHOW_KEY) && (flags & F_SHOW_VALUE))
1.5    seb 		printf("%s", outputsep);
1.8    seb 	if (flags & F_SHOW_VALUE) {
1.8    seb 		if (flags & F_ENCODE_VAL)
1.8    seb 			len = encode_data(val->size - 1, (char *)val->data,
1.8    seb 					 &data);
1.8    seb 		else {
1.8    seb 			len = (int)val->size;
1.8    seb 			data = (char *)val->data;
1.8    seb 		}
1.8    seb 		printf("%.*s", len, data);
1.8    seb 	}
1.1  lukem 	printf("\n");
1.1  lukem }
1.1  lukem
1.1  lukem int
1.1  lukem db_dump(void)
1.1  lukem {
1.1  lukem 	DBT	key, val;
1.1  lukem 	int	rv;
1.1  lukem
1.1  lukem 	while ((rv = db->seq(db, &key, &val, R_NEXT)) == 0)
1.1  lukem 		db_print(&key, &val);
1.1  lukem 	if (rv == -1)
1.1  lukem 		warn("Error dumping database");
1.1  lukem 	return (rv == 1 ? 0 : 1);
1.1  lukem }
1.1  lukem
1.1  lukem static void
1.8    seb db_makekey(DBT *key, char *keystr, int downcase, int decode)
1.1  lukem {
1.8    seb 	char	*p, *ks;
1.8    seb 	int	klen;
1.1  lukem
1.1  lukem 	memset(key, 0, sizeof(*key));
1.8    seb 	if (decode) {
1.8    seb 		if ((klen = decode_data(keystr, &ks)) == -1)
1.8    seb 			errx(1, "Invalid escape sequence in `%s'",
1.8    seb 		  	  keystr);
1.8    seb 	} else {
1.8    seb 		klen = strlen(keystr);
1.8    seb 		ks = keystr;
1.8    seb 	}
1.8    seb 	key->data = ks;
1.8    seb 	key->size = klen + (flags & F_NO_NUL ? 0 : 1);
1.1  lukem 	if (downcase && flags & F_IGNORECASE) {
1.8    seb 		for (p = ks; *p; p++)
1.1  lukem 			if (isupper((int)*p))
1.1  lukem 				*p = tolower((int)*p);
1.1  lukem 	}
1.1  lukem }
1.1  lukem
1.1  lukem int
1.1  lukem db_del(char *keystr)
1.1  lukem {
1.1  lukem 	DBT	key;
1.8    seb 	int	r = 0;
1.1  lukem
1.8    seb 	db_makekey(&key, keystr, 1, (flags & F_DECODE_KEY ? 1 : 0));
1.1  lukem 	switch (db->del(db, &key, 0)) {
1.1  lukem 	case -1:
1.1  lukem 		warn("Error deleting key `%s'", keystr);
1.8    seb 		r = 1;
1.8    seb 		break;
1.1  lukem 	case 0:
1.1  lukem 		if (! (flags & F_QUIET))
1.1  lukem 			printf("Deleted key `%s'\n", keystr);
1.1  lukem 		break;
1.1  lukem 	case 1:
1.1  lukem 		warnx("Key `%s' does not exist", keystr);
1.8    seb 		r = 1;
1.8    seb 		break;
1.1  lukem 	}
1.8    seb 	if (flags & F_DECODE_KEY)
1.8    seb 		free(key.data);
1.8    seb 	return (r);
1.1  lukem }
1.1  lukem
1.1  lukem int
1.1  lukem db_get(char *keystr)
1.1  lukem {
1.1  lukem 	DBT	key, val;
1.8    seb 	int	r = 0;
1.1  lukem
1.8    seb 	db_makekey(&key, keystr, 1, (flags & F_DECODE_KEY ? 1 : 0));
1.1  lukem 	switch (db->get(db, &key, &val, 0)) {
1.1  lukem 	case -1:
1.1  lukem 		warn("Error reading key `%s'", keystr);
1.8    seb 		r = 1;
1.8    seb 		break;
1.1  lukem 	case 0:
1.1  lukem 		db_print(&key, &val);
1.1  lukem 		break;
1.1  lukem 	case 1:
1.1  lukem 		if (! (flags & F_QUIET)) {
1.1  lukem 			warnx("Unknown key `%s'", keystr);
1.8    seb 			r = 1;
1.1  lukem 		}
1.1  lukem 		break;
1.1  lukem 	}
1.8    seb 	if (flags & F_DECODE_KEY)
1.8    seb 		free(key.data);
1.8    seb 	return (r);
1.1  lukem }
1.1  lukem
1.1  lukem int
1.1  lukem db_put(char *keystr, char *valstr)
1.1  lukem {
1.1  lukem 	DBT	key, val;
1.8    seb 	int	r = 0;
1.1  lukem
1.8    seb 	db_makekey(&key, keystr, 1, (flags & F_DECODE_KEY ? 1 : 0));
1.8    seb 	db_makekey(&val, valstr, 0, (flags & F_DECODE_VAL ? 1 : 0));
1.1  lukem 	switch (db->put(db, &key, &val,
1.1  lukem 	    (flags & F_REPLACE) ? 0 : R_NOOVERWRITE)) {
1.1  lukem 	case -1:
1.1  lukem 		warn("Error writing key `%s'", keystr);
1.8    seb 		r = 1;
1.8    seb 		break;
1.1  lukem 	case 0:
1.1  lukem 		if (! (flags & F_QUIET))
1.1  lukem 			printf("Added key `%s'\n", keystr);
1.1  lukem 		break;
1.1  lukem 	case 1:
1.1  lukem 		if (! (flags & F_QUIET))
1.1  lukem 			warnx("Key `%s' already exists", keystr);
1.8    seb 		r = 1;
1.8    seb 		break;
1.1  lukem 	}
1.8    seb 	if (flags & F_DECODE_KEY)
1.8    seb 		free(key.data);
1.8    seb 	if (flags & F_DECODE_VAL)
1.8    seb 		free(val.data);
1.8    seb 	return (r);
1.1  lukem }
1.1  lukem
1.1  lukem int
1.1  lukem parseline(FILE *fp, const char *sep, char **kp, char **vp)
1.1  lukem {
1.1  lukem 	size_t	len;
1.1  lukem 	char	*key, *val;
1.1  lukem
1.1  lukem 	key = fgetln(fp, &len);
1.1  lukem 	if (key == NULL)		/* end of file, or error */
1.1  lukem 		return (0);
1.1  lukem
1.1  lukem 	if (key[len-1] == '\n')		/* check for \n at EOL */
1.1  lukem 		key[--len] = '\0';
1.1  lukem 	else
1.1  lukem 		return (0);
1.1  lukem
1.1  lukem 	*kp = key;
1.1  lukem 	if (vp == NULL)			/* don't split if don't want value */
1.1  lukem 		return (1);
1.1  lukem 	if ((val = strchr(key, sep[0])) == NULL)
1.1  lukem 		val = key + len;
1.1  lukem 	else
1.1  lukem 		*val++ = '\0';
1.1  lukem 	*vp = val;
1.1  lukem 	return (1);
1.1  lukem }
1.1  lukem
1.8    seb int
1.8    seb encode_data(size_t len, char *data, char **edata)
1.8    seb {
1.8    seb 	static char	*buf = NULL;
1.8    seb 	static size_t	buflen = 0;
1.8    seb 	size_t		elen;
1.8    seb
1.8    seb 	elen = 1 + (len * 4);
1.8    seb 	if (elen > buflen) {
1.8    seb 		if ((buf = realloc(buf, elen)) == NULL)
1.8    seb 			err(1, "Cannot allocate encoding buffer");
1.8    seb 		buflen = elen;
1.8    seb 	}
1.8    seb 	*edata = buf;
1.8    seb 	if (extra_echars) {
1.8    seb 		return (strsvisx(buf, data, len, encflags, extra_echars));
1.8    seb 	} else {
1.8    seb 		return (strvisx(buf, data, len, encflags));
1.8    seb 	}
1.8    seb }
1.8    seb
1.8    seb int
1.8    seb decode_data(char *data, char **ddata)
1.8    seb {
1.8    seb 	char	*buf;
1.8    seb
1.8    seb 	if ((buf = malloc(strlen(data) + 1)) == NULL)
1.8    seb 		err(1, "Cannot allocate decoding buffer");
1.8    seb 	*ddata = buf;
1.8    seb 	return (strunvis(buf, data));
1.8    seb }
1.8    seb
1.8    seb void
1.8    seb parse_encode_decode_arg(const char *arg, int encode)
1.8    seb {
1.8    seb 	if (! arg[0] || arg[1])
1.8    seb 		return;
1.8    seb 	if (arg[0] == 'k' || arg[0] == 'b') {
1.8    seb 		if (encode)
1.8    seb 			flags |= F_ENCODE_KEY;
1.8    seb 		else
1.8    seb 			flags |= F_DECODE_KEY;
1.8    seb 	}
1.8    seb 	if (arg[0] == 'v' || arg[0] == 'b') {
1.8    seb 		if (encode)
1.8    seb 			flags |= F_ENCODE_VAL;
1.8    seb 		else
1.8    seb 			flags |= F_DECODE_VAL;
1.8    seb 	}
1.8    seb 	return;
1.8    seb }
1.8    seb
1.8    seb int
1.8    seb parse_encode_option(char **arg)
1.8    seb {
1.8    seb 	int	r = 0;
1.8    seb
1.8    seb 	for(; **arg; (*arg)++) {
1.8    seb 		switch (**arg) {
1.8    seb 			case 'b':
1.8    seb 				r |= VIS_NOSLASH;
1.8    seb 				break;
1.8    seb 			case 'c':
1.8    seb 				r |= VIS_CSTYLE;
1.8    seb 				break;
1.8    seb 			case 'o':
1.8    seb 				r |= VIS_OCTAL;
1.8    seb 				break;
1.8    seb 			case 's':
1.8    seb 				r |= VIS_SAFE;
1.8    seb 				break;
1.8    seb 			case 't':
1.8    seb 				r |= VIS_TAB;
1.8    seb 				break;
1.8    seb 			case 'w':
1.8    seb 				r |= VIS_WHITE;
1.8    seb 				break;
1.8    seb 			default:
1.8    seb 				return (0);
1.8    seb 				break;
1.8    seb 		}
1.8    seb 	}
1.8    seb 	return (r);
1.8    seb }
1.8    seb
1.1  lukem void
1.1  lukem usage(void)
1.1  lukem {
1.1  lukem 	const char *p = getprogname();
1.1  lukem
1.1  lukem 	fprintf(stderr,
1.8    seb     "Usage: %s [-KV] [-Niq] [-S chr] [-T str] [-X str] [-E end] [-f inf] [-O str] type dbfile [key [...]]\n"
1.8    seb     "       %s -d [-Niq] [-U chr] [-E end] [-f inf] type dbfile [key [...]]\n"
1.8    seb     "       %s -w [-Niq] [-U chr] [-E end] [-f inf] [-CDR] [-F sep] [-m mod]\n"
1.1  lukem     "             type dbfile [key val [...]]\n"
1.1  lukem 	    ,p ,p ,p );
1.1  lukem 	fprintf(stderr,
1.1  lukem 	    "Supported modes:\n"
1.1  lukem 	    "\t\tread keys  [default]\n"
1.1  lukem 	    "\t-d\tdelete keys\n"
1.1  lukem 	    "\t-w\twrite (add) keys/values\n"
1.1  lukem 	    "Supported options:\n"
1.1  lukem 	    "\t-C\tcreate empty (truncated) database\n"
1.1  lukem 	    "\t-D\tallow duplicates\n"
1.1  lukem 	    "\t-E end\tdatabase endian: `B'ig, `L'ittle, `H'ost  [default: H]\n"
1.1  lukem 	    "\t-F sep\tfield separator character  [default: ' ']\n"
1.1  lukem 	    "\t-K\tprint key\n"
1.1  lukem 	    "\t-N\tdon't NUL terminate key\n"
1.1  lukem 	    "\t-R\treplace existing keys\n"
1.8    seb 	    "\t-S chr\titems to strvis(3) encode: 'k'ey, 'v'alue, 'b'oth\n"
1.8    seb 	    "\t-T str\toptions to control -S encoding like vis(1) options\n"
1.8    seb 	    "\t-U chr\titems to strunvis(3) decode: 'k'ey, 'v'alue, 'b'oth\n"
1.1  lukem 	    "\t-V\tprint value\n"
1.8    seb 	    "\t-X str\textra characters to encode with -S\n"
1.1  lukem 	    "\t-f inf\tfile of keys (read|delete) or keys/vals (write)\n"
1.1  lukem 	    "\t-i\tignore case of key by converting to lower case\n"
1.1  lukem 	    "\t-m mod\tmode of created database  [default: 0644]\n"
1.1  lukem 	    "\t-q\tquiet operation (missing keys aren't errors)\n"
1.7    seb 	    "\t-O str\toutput field separator string [default: '\\t']\n"
1.1  lukem 	    );
1.1  lukem 	exit(1);
1.1  lukem }