Annotation of src/usr.bin/cvs/rcsnum.c, Revision 1.40
1.40 ! xsa 1: /* $OpenBSD: rcsnum.c,v 1.39 2006/07/27 03:28:36 ray Exp $ */
1.1 jfb 2: /*
3: * Copyright (c) 2004 Jean-Francois Brousseau <jfb@openbsd.org>
1.4 tedu 4: * All rights reserved.
1.1 jfb 5: *
1.4 tedu 6: * Redistribution and use in source and binary forms, with or without
7: * modification, are permitted provided that the following conditions
8: * are met:
1.1 jfb 9: *
1.4 tedu 10: * 1. Redistributions of source code must retain the above copyright
11: * notice, this list of conditions and the following disclaimer.
1.1 jfb 12: * 2. The name of the author may not be used to endorse or promote products
1.4 tedu 13: * derived from this software without specific prior written permission.
1.1 jfb 14: *
15: * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
16: * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
17: * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
18: * THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
19: * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
20: * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
21: * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
22: * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
23: * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
1.4 tedu 24: * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1 jfb 25: */
26:
1.22 xsa 27: #include "includes.h"
1.1 jfb 28:
1.15 joris 29: #include "cvs.h"
1.12 xsa 30: #include "log.h"
1.1 jfb 31: #include "rcs.h"
32:
1.33 xsa 33: static void rcsnum_setsize(RCSNUM *, u_int);
1.23 xsa 34: static char *rcsnum_itoa(u_int16_t, char *, size_t);
1.11 jfb 35:
1.36 niallo 36: int rcsnum_flags;
1.1 jfb 37:
38: /*
39: * rcsnum_alloc()
40: *
1.30 ray 41: * Allocate an RCS number structure and return a pointer to it.
1.1 jfb 42: */
1.14 xsa 43: RCSNUM *
1.1 jfb 44: rcsnum_alloc(void)
45: {
46: RCSNUM *rnp;
47:
1.32 ray 48: rnp = xmalloc(sizeof(*rnp));
1.1 jfb 49: rnp->rn_len = 0;
50: rnp->rn_id = NULL;
51:
52: return (rnp);
53: }
54:
55: /*
1.7 jfb 56: * rcsnum_parse()
57: *
58: * Parse a string specifying an RCS number and return the corresponding RCSNUM.
59: */
1.14 xsa 60: RCSNUM *
1.7 jfb 61: rcsnum_parse(const char *str)
62: {
63: char *ep;
64: RCSNUM *num;
65:
1.19 joris 66: num = rcsnum_alloc();
1.34 deraadt 67: if (rcsnum_aton(str, &ep, num) < 0 || *ep != '\0') {
1.7 jfb 68: rcsnum_free(num);
1.9 jfb 69: num = NULL;
70: if (*ep != '\0')
71: rcs_errno = RCS_ERR_BADNUM;
1.7 jfb 72: }
73:
74: return (num);
75: }
76:
77: /*
1.1 jfb 78: * rcsnum_free()
79: *
80: * Free an RCSNUM structure previously allocated with rcsnum_alloc().
81: */
82: void
83: rcsnum_free(RCSNUM *rn)
84: {
85: if (rn->rn_id != NULL)
1.18 joris 86: xfree(rn->rn_id);
87: xfree(rn);
1.1 jfb 88: }
89:
90: /*
91: * rcsnum_tostr()
1.10 jfb 92: *
93: * Format the RCS number <nump> into a human-readable dot-separated
94: * representation and store the resulting string in <buf>, which is of size
95: * <blen>.
1.25 ray 96: * Returns a pointer to the start of <buf>. On failure <buf> is set to
97: * an empty string.
1.1 jfb 98: */
1.13 xsa 99: char *
1.1 jfb 100: rcsnum_tostr(const RCSNUM *nump, char *buf, size_t blen)
101: {
102: u_int i;
103: char tmp[8];
104:
1.34 deraadt 105: if (nump == NULL || nump->rn_len == 0) {
1.1 jfb 106: buf[0] = '\0';
107: return (buf);
108: }
109:
1.40 ! xsa 110: if (strlcpy(buf, rcsnum_itoa(nump->rn_id[0], buf, blen), blen) >= blen)
! 111: fatal("rcsnum_tostr: truncation");
1.1 jfb 112: for (i = 1; i < nump->rn_len; i++) {
1.40 ! xsa 113: const char *str;
! 114:
! 115: str = rcsnum_itoa(nump->rn_id[i], tmp, sizeof(tmp));
! 116: if (strlcat(buf, ".", blen) >= blen ||
! 117: strlcat(buf, str, blen) >= blen)
! 118: fatal("rcsnum_tostr: truncation");
1.1 jfb 119: }
120:
121: return (buf);
1.20 niallo 122: }
123:
124: static char *
125: rcsnum_itoa(u_int16_t num, char *buf, size_t len)
126: {
1.21 reyk 127: u_int16_t i;
128: char *p;
1.20 niallo 129:
1.26 niallo 130: if (num == 0)
131: return "0";
1.35 deraadt 132:
1.21 reyk 133: p = buf + len - 1;
134: i = num;
1.20 niallo 135: bzero(buf, len);
1.21 reyk 136: while (i) {
137: *--p = '0' + (i % 10);
138: i /= 10;
139: }
140: return (p);
1.1 jfb 141: }
142:
143: /*
144: * rcsnum_cpy()
145: *
146: * Copy the number stored in <nsrc> in the destination <ndst> up to <depth>
1.30 ray 147: * numbers deep. If <depth> is 0, there is no depth limit.
1.1 jfb 148: */
1.30 ray 149: void
1.1 jfb 150: rcsnum_cpy(const RCSNUM *nsrc, RCSNUM *ndst, u_int depth)
151: {
152: u_int len;
153: void *tmp;
154:
155: len = nsrc->rn_len;
1.34 deraadt 156: if (depth != 0 && len > depth)
1.1 jfb 157: len = depth;
158:
1.39 ray 159: tmp = xrealloc(ndst->rn_id, len, sizeof(*(nsrc->rn_id)));
1.32 ray 160: ndst->rn_id = tmp;
1.1 jfb 161: ndst->rn_len = len;
1.30 ray 162: /* Overflow checked in xrealloc(). */
1.39 ray 163: (void)memcpy(ndst->rn_id, nsrc->rn_id,
164: len * sizeof(*(nsrc->rn_id)));
1.1 jfb 165: }
166:
167: /*
168: * rcsnum_cmp()
169: *
170: * Compare the two numbers <n1> and <n2>. Returns -1 if <n1> is larger than
171: * <n2>, 0 if they are both the same, and 1 if <n2> is larger than <n1>.
172: * The <depth> argument specifies how many numbers deep should be checked for
173: * the result. A value of 0 means that the depth will be the minimum of the
174: * two numbers.
175: */
176: int
1.38 joris 177: rcsnum_cmp(RCSNUM *n1, RCSNUM *n2, u_int depth)
1.1 jfb 178: {
179: int res;
180: u_int i;
181: size_t slen;
182:
1.38 joris 183: if (!rcsnum_differ(n1, n2))
184: return (0);
185:
1.1 jfb 186: slen = MIN(n1->rn_len, n2->rn_len);
1.34 deraadt 187: if (depth != 0 && slen > depth)
1.1 jfb 188: slen = depth;
1.4 tedu 189:
1.1 jfb 190: for (i = 0; i < slen; i++) {
191: res = n1->rn_id[i] - n2->rn_id[i];
192: if (res < 0)
193: return (1);
194: else if (res > 0)
195: return (-1);
196: }
197:
198: if (n1->rn_len > n2->rn_len)
199: return (-1);
200: else if (n2->rn_len > n1->rn_len)
201: return (1);
202:
203: return (0);
204: }
205:
206: /*
207: * rcsnum_aton()
208: *
209: * Translate the string <str> containing a sequence of digits and periods into
210: * its binary representation, which is stored in <nump>. The address of the
211: * first byte not part of the number is stored in <ep> on return, if it is not
212: * NULL.
213: * Returns 0 on success, or -1 on failure.
214: */
215: int
216: rcsnum_aton(const char *str, char **ep, RCSNUM *nump)
217: {
1.6 jfb 218: u_int32_t val;
1.1 jfb 219: const char *sp;
220: void *tmp;
1.15 joris 221: char *s;
1.1 jfb 222:
1.18 joris 223: if (nump->rn_id == NULL)
1.32 ray 224: nump->rn_id = xmalloc(sizeof(*(nump->rn_id)));
1.1 jfb 225:
226: nump->rn_len = 0;
1.6 jfb 227: nump->rn_id[0] = 0;
1.1 jfb 228:
1.3 jfb 229: for (sp = str;; sp++) {
230: if (!isdigit(*sp) && (*sp != '.'))
1.1 jfb 231: break;
232:
233: if (*sp == '.') {
1.6 jfb 234: if (nump->rn_len >= RCSNUM_MAXLEN - 1) {
1.11 jfb 235: rcs_errno = RCS_ERR_BADNUM;
1.6 jfb 236: goto rcsnum_aton_failed;
237: }
238:
1.1 jfb 239: nump->rn_len++;
1.18 joris 240: tmp = xrealloc(nump->rn_id,
1.32 ray 241: nump->rn_len + 1, sizeof(*(nump->rn_id)));
242: nump->rn_id = tmp;
1.2 vincent 243: nump->rn_id[nump->rn_len] = 0;
1.1 jfb 244: continue;
245: }
246:
1.6 jfb 247: val = (nump->rn_id[nump->rn_len] * 10) + (*sp - 0x30);
1.24 niallo 248: if (val > RCSNUM_MAXNUM)
249: fatal("RCSNUM overflow!");
1.6 jfb 250:
251: nump->rn_id[nump->rn_len] = val;
1.1 jfb 252: }
253:
254: if (ep != NULL)
1.5 jfb 255: *(const char **)ep = sp;
1.15 joris 256:
257: /*
258: * Handle "magic" RCS branch numbers.
259: *
260: * What are they?
261: *
262: * Magic branch numbers have an extra .0. at the second farmost
263: * rightside of the branch number, so instead of having an odd
264: * number of dot-separated decimals, it will have an even number.
265: *
266: * Now, according to all the documentation i've found on the net
267: * about this, cvs does this for "efficiency reasons", i'd like
268: * to hear one.
269: *
270: * We just make sure we remove the .0. from in the branch number.
271: *
272: * XXX - for compatibility reasons with GNU cvs we _need_
273: * to skip this part for the 'log' command, apparently it does
274: * show the magic branches for an unknown and probably
275: * completely insane and not understandable reason in that output.
276: *
277: */
1.36 niallo 278: if (nump->rn_len > 2 && nump->rn_id[nump->rn_len - 1] == 0
279: && !(rcsnum_flags & RCSNUM_NO_MAGIC)) {
1.15 joris 280: /*
281: * Look for ".0.x" at the end of the branch number.
282: */
283: if ((s = strrchr(str, '.')) != NULL) {
1.27 deraadt 284: s--;
1.15 joris 285: while (*s != '.')
1.27 deraadt 286: s--;
1.15 joris 287:
288: /*
289: * If we have a "magic" branch, adjust it
290: * so the .0. is removed.
291: */
292: if (!strncmp(s, RCS_MAGIC_BRANCH,
293: strlen(RCS_MAGIC_BRANCH))) {
294: nump->rn_id[nump->rn_len - 1] =
295: nump->rn_id[nump->rn_len];
296: nump->rn_len--;
297: }
298: }
299: }
1.1 jfb 300:
1.26 niallo 301: /* We can't have a single-digit rcs number. */
302: if (nump->rn_len == 0) {
303: tmp = xrealloc(nump->rn_id,
1.32 ray 304: nump->rn_len + 1, sizeof(*(nump->rn_id)));
305: nump->rn_id = tmp;
1.26 niallo 306: nump->rn_id[nump->rn_len + 1] = 0;
307: nump->rn_len++;
308: }
1.31 joris 309:
1.1 jfb 310: nump->rn_len++;
311: return (nump->rn_len);
1.6 jfb 312:
313: rcsnum_aton_failed:
314: nump->rn_len = 0;
1.18 joris 315: xfree(nump->rn_id);
1.6 jfb 316: nump->rn_id = NULL;
317: return (-1);
1.11 jfb 318: }
319:
320: /*
321: * rcsnum_inc()
322: *
323: * Increment the revision number specified in <num>.
324: * Returns a pointer to the <num> on success, or NULL on failure.
325: */
1.14 xsa 326: RCSNUM *
1.11 jfb 327: rcsnum_inc(RCSNUM *num)
328: {
329: if (num->rn_id[num->rn_len - 1] == RCSNUM_MAXNUM)
330: return (NULL);
331: num->rn_id[num->rn_len - 1]++;
1.17 joris 332: return (num);
333: }
334:
335: /*
336: * rcsnum_dec()
337: *
1.26 niallo 338: * Decreases the revision number specified in <num>, if doing so will not
339: * result in an ending value below 1. E.g. 4.2 will go to 4.1 but 4.1 will
340: * be returned as 4.1.
1.17 joris 341: */
342: RCSNUM *
343: rcsnum_dec(RCSNUM *num)
344: {
1.28 ray 345: /* XXX - Is it an error for the number to be 0? */
346: if (num->rn_id[num->rn_len - 1] <= 1)
1.26 niallo 347: return (num);
1.17 joris 348: num->rn_id[num->rn_len - 1]--;
1.11 jfb 349: return (num);
350: }
351:
352: /*
353: * rcsnum_revtobr()
354: *
355: * Retrieve the branch number associated with the revision number <num>.
356: * If <num> is a branch revision, the returned value will be the same
357: * number as the argument.
358: */
1.14 xsa 359: RCSNUM *
1.11 jfb 360: rcsnum_revtobr(const RCSNUM *num)
361: {
362: RCSNUM *brnum;
363:
364: if (num->rn_len < 2)
365: return (NULL);
366:
1.19 joris 367: brnum = rcsnum_alloc();
1.11 jfb 368: rcsnum_cpy(num, brnum, 0);
369:
370: if (!RCSNUM_ISBRANCH(brnum))
371: brnum->rn_len--;
372:
373: return (brnum);
374: }
375:
376: /*
377: * rcsnum_brtorev()
378: *
379: * Retrieve the initial revision number associated with the branch number <num>.
380: * If <num> is a revision number, an error will be returned.
381: */
1.14 xsa 382: RCSNUM *
1.11 jfb 383: rcsnum_brtorev(const RCSNUM *brnum)
384: {
385: RCSNUM *num;
386:
387: if (!RCSNUM_ISBRANCH(brnum)) {
388: return (NULL);
389: }
390:
1.19 joris 391: num = rcsnum_alloc();
1.33 xsa 392: rcsnum_setsize(num, brnum->rn_len + 1);
1.11 jfb 393: rcsnum_cpy(brnum, num, brnum->rn_len);
394: num->rn_id[num->rn_len++] = 1;
395:
396: return (num);
397: }
398:
1.33 xsa 399: static void
1.11 jfb 400: rcsnum_setsize(RCSNUM *num, u_int len)
401: {
402: void *tmp;
403:
1.32 ray 404: tmp = xrealloc(num->rn_id, len, sizeof(*(num->rn_id)));
405: num->rn_id = tmp;
1.11 jfb 406: num->rn_len = len;
1.38 joris 407: }
408:
409: int
410: rcsnum_differ(RCSNUM *r1, RCSNUM *r2)
411: {
412: int i, len;
413:
414: if (r1->rn_len != r2->rn_len)
415: return (1);
416:
417: len = MIN(r1->rn_len, r2->rn_len);
418: for (i = 0; i < len; i++) {
419: if (r1->rn_id[i] != r2->rn_id[i])
420: return (1);
421: }
422:
423: return (0);
1.1 jfb 424: }