Annotation of src/usr.bin/cvs/rcs.c, Revision 1.168
1.168 ! deraadt 1: /* $OpenBSD: rcs.c,v 1.167 2006/04/13 23:41:13 ray Exp $ */
1.1 jfb 2: /*
3: * Copyright (c) 2004 Jean-Francois Brousseau <jfb@openbsd.org>
1.15 tedu 4: * All rights reserved.
1.1 jfb 5: *
1.15 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: *
1.15 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
1.15 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
1.15 tedu 24: * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1 jfb 25: */
26:
1.123 xsa 27: #include "includes.h"
1.1 jfb 28:
1.94 joris 29: #include "cvs.h"
1.55 xsa 30: #include "log.h"
1.1 jfb 31: #include "rcs.h"
1.81 niallo 32: #include "diff.h"
1.1 jfb 33:
1.57 xsa 34: #define RCS_BUFSIZE 16384
35: #define RCS_BUFEXTSIZE 8192
1.117 niallo 36: #define RCS_KWEXP_SIZE 1024
1.1 jfb 37:
38:
39: /* RCS token types */
1.57 xsa 40: #define RCS_TOK_ERR -1
41: #define RCS_TOK_EOF 0
42: #define RCS_TOK_NUM 1
43: #define RCS_TOK_ID 2
44: #define RCS_TOK_STRING 3
45: #define RCS_TOK_SCOLON 4
46: #define RCS_TOK_COLON 5
47:
48:
49: #define RCS_TOK_HEAD 8
50: #define RCS_TOK_BRANCH 9
51: #define RCS_TOK_ACCESS 10
52: #define RCS_TOK_SYMBOLS 11
53: #define RCS_TOK_LOCKS 12
54: #define RCS_TOK_COMMENT 13
55: #define RCS_TOK_EXPAND 14
56: #define RCS_TOK_DATE 15
57: #define RCS_TOK_AUTHOR 16
58: #define RCS_TOK_STATE 17
59: #define RCS_TOK_NEXT 18
60: #define RCS_TOK_BRANCHES 19
61: #define RCS_TOK_DESC 20
62: #define RCS_TOK_LOG 21
63: #define RCS_TOK_TEXT 22
64: #define RCS_TOK_STRICT 23
1.1 jfb 65:
1.57 xsa 66: #define RCS_ISKEY(t) (((t) >= RCS_TOK_HEAD) && ((t) <= RCS_TOK_BRANCHES))
1.1 jfb 67:
68:
1.57 xsa 69: #define RCS_NOSCOL 0x01 /* no terminating semi-colon */
70: #define RCS_VOPT 0x02 /* value is optional */
1.1 jfb 71:
72:
73: /* opaque parse data */
74: struct rcs_pdata {
1.57 xsa 75: u_int rp_lines;
1.1 jfb 76:
1.57 xsa 77: char *rp_buf;
78: size_t rp_blen;
79: char *rp_bufend;
80: size_t rp_tlen;
1.1 jfb 81:
82: /* pushback token buffer */
1.57 xsa 83: char rp_ptok[128];
84: int rp_pttype; /* token type, RCS_TOK_ERR if no token */
1.1 jfb 85:
1.57 xsa 86: FILE *rp_file;
1.1 jfb 87: };
88:
89:
1.57 xsa 90: #define RCS_TOKSTR(rfp) ((struct rcs_pdata *)rfp->rf_pdata)->rp_buf
91: #define RCS_TOKLEN(rfp) ((struct rcs_pdata *)rfp->rf_pdata)->rp_tlen
1.1 jfb 92:
93:
1.47 jfb 94: /* invalid characters in RCS symbol names */
1.49 jfb 95: static const char rcs_sym_invch[] = RCS_SYM_INVALCHAR;
1.47 jfb 96:
1.51 jfb 97:
98: /* comment leaders, depending on the file's suffix */
99: static const struct rcs_comment {
1.57 xsa 100: const char *rc_suffix;
101: const char *rc_cstr;
1.51 jfb 102: } rcs_comments[] = {
103: { "1", ".\\\" " },
104: { "2", ".\\\" " },
105: { "3", ".\\\" " },
106: { "4", ".\\\" " },
107: { "5", ".\\\" " },
108: { "6", ".\\\" " },
109: { "7", ".\\\" " },
110: { "8", ".\\\" " },
111: { "9", ".\\\" " },
112: { "a", "-- " }, /* Ada */
113: { "ada", "-- " },
114: { "adb", "-- " },
115: { "asm", ";; " }, /* assembler (MS-DOS) */
116: { "ads", "-- " }, /* Ada */
117: { "bat", ":: " }, /* batch (MS-DOS) */
118: { "body", "-- " }, /* Ada */
119: { "c", " * " }, /* C */
120: { "c++", "// " }, /* C++ */
121: { "cc", "// " },
122: { "cpp", "// " },
123: { "cxx", "// " },
124: { "m", "// " }, /* Objective-C */
125: { "cl", ";;; " }, /* Common Lisp */
126: { "cmd", ":: " }, /* command (OS/2) */
127: { "cmf", "c " }, /* CM Fortran */
128: { "csh", "# " }, /* shell */
129: { "e", "# " }, /* efl */
130: { "epsf", "% " }, /* encapsulated postscript */
131: { "epsi", "% " }, /* encapsulated postscript */
132: { "el", "; " }, /* Emacs Lisp */
133: { "f", "c " }, /* Fortran */
134: { "for", "c " },
135: { "h", " * " }, /* C-header */
136: { "hh", "// " }, /* C++ header */
137: { "hpp", "// " },
138: { "hxx", "// " },
139: { "in", "# " }, /* for Makefile.in */
140: { "l", " * " }, /* lex */
141: { "mac", ";; " }, /* macro (DEC-10, MS-DOS, PDP-11, VMS, etc) */
142: { "mak", "# " }, /* makefile, e.g. Visual C++ */
143: { "me", ".\\\" " }, /* me-macros t/nroff */
144: { "ml", "; " }, /* mocklisp */
145: { "mm", ".\\\" " }, /* mm-macros t/nroff */
146: { "ms", ".\\\" " }, /* ms-macros t/nroff */
147: { "man", ".\\\" " }, /* man-macros t/nroff */
148: { "p", " * " }, /* pascal */
149: { "pas", " * " },
1.52 jfb 150: { "pl", "# " }, /* Perl (conflict with Prolog) */
151: { "pm", "# " }, /* Perl module */
1.51 jfb 152: { "ps", "% " }, /* postscript */
153: { "psw", "% " }, /* postscript wrap */
154: { "pswm", "% " }, /* postscript wrap */
155: { "r", "# " }, /* ratfor */
156: { "rc", " * " }, /* Microsoft Windows resource file */
157: { "red", "% " }, /* psl/rlisp */
158: { "sh", "# " }, /* shell */
159: { "sl", "% " }, /* psl */
160: { "spec", "-- " }, /* Ada */
161: { "tex", "% " }, /* tex */
162: { "y", " * " }, /* yacc */
163: { "ye", " * " }, /* yacc-efl */
164: { "yr", " * " }, /* yacc-ratfor */
165: };
166:
1.128 niallo 167: struct rcs_kw rcs_expkw[] = {
168: { "Author", RCS_KW_AUTHOR },
169: { "Date", RCS_KW_DATE },
170: { "Header", RCS_KW_HEADER },
171: { "Id", RCS_KW_ID },
172: { "Log", RCS_KW_LOG },
173: { "Name", RCS_KW_NAME },
174: { "RCSfile", RCS_KW_RCSFILE },
175: { "Revision", RCS_KW_REVISION },
176: { "Source", RCS_KW_SOURCE },
177: { "State", RCS_KW_STATE },
178: };
179:
1.57 xsa 180: #define NB_COMTYPES (sizeof(rcs_comments)/sizeof(rcs_comments[0]))
1.51 jfb 181:
1.33 jfb 182: #ifdef notyet
1.20 jfb 183: static struct rcs_kfl {
1.57 xsa 184: char rk_char;
185: int rk_val;
1.20 jfb 186: } rcs_kflags[] = {
187: { 'k', RCS_KWEXP_NAME },
188: { 'v', RCS_KWEXP_VAL },
189: { 'l', RCS_KWEXP_LKR },
190: { 'o', RCS_KWEXP_OLD },
191: { 'b', RCS_KWEXP_NONE },
192: };
1.33 jfb 193: #endif
1.20 jfb 194:
1.1 jfb 195: static struct rcs_key {
1.57 xsa 196: char rk_str[16];
197: int rk_id;
198: int rk_val;
199: int rk_flags;
1.1 jfb 200: } rcs_keys[] = {
201: { "access", RCS_TOK_ACCESS, RCS_TOK_ID, RCS_VOPT },
1.41 jfb 202: { "author", RCS_TOK_AUTHOR, RCS_TOK_ID, 0 },
1.1 jfb 203: { "branch", RCS_TOK_BRANCH, RCS_TOK_NUM, RCS_VOPT },
204: { "branches", RCS_TOK_BRANCHES, RCS_TOK_NUM, RCS_VOPT },
205: { "comment", RCS_TOK_COMMENT, RCS_TOK_STRING, RCS_VOPT },
206: { "date", RCS_TOK_DATE, RCS_TOK_NUM, 0 },
207: { "desc", RCS_TOK_DESC, RCS_TOK_STRING, RCS_NOSCOL },
208: { "expand", RCS_TOK_EXPAND, RCS_TOK_STRING, RCS_VOPT },
209: { "head", RCS_TOK_HEAD, RCS_TOK_NUM, RCS_VOPT },
210: { "locks", RCS_TOK_LOCKS, RCS_TOK_ID, 0 },
211: { "log", RCS_TOK_LOG, RCS_TOK_STRING, RCS_NOSCOL },
212: { "next", RCS_TOK_NEXT, RCS_TOK_NUM, RCS_VOPT },
1.41 jfb 213: { "state", RCS_TOK_STATE, RCS_TOK_ID, RCS_VOPT },
1.1 jfb 214: { "strict", RCS_TOK_STRICT, 0, 0, },
215: { "symbols", RCS_TOK_SYMBOLS, 0, 0 },
216: { "text", RCS_TOK_TEXT, RCS_TOK_STRING, RCS_NOSCOL },
217: };
218:
1.57 xsa 219: #define RCS_NKEYS (sizeof(rcs_keys)/sizeof(rcs_keys[0]))
1.1 jfb 220:
1.33 jfb 221:
1.32 jfb 222: static const char *rcs_errstrs[] = {
223: "No error",
224: "No such entry",
225: "Duplicate entry found",
226: "Bad RCS number",
1.48 jfb 227: "Invalid RCS symbol",
228: "Parse error",
1.32 jfb 229: };
230:
231: #define RCS_NERR (sizeof(rcs_errstrs)/sizeof(rcs_errstrs[0]))
232:
233:
234: int rcs_errno = RCS_ERR_NOERR;
1.134 joris 235: char *timezone_flag = NULL;
1.1 jfb 236:
1.167 ray 237: static void rcs_parse_init(RCSFILE *);
1.57 xsa 238: static int rcs_parse_admin(RCSFILE *);
239: static int rcs_parse_delta(RCSFILE *);
1.146 xsa 240: static void rcs_parse_deltas(RCSFILE *, RCSNUM *);
1.57 xsa 241: static int rcs_parse_deltatext(RCSFILE *);
1.146 xsa 242: static void rcs_parse_deltatexts(RCSFILE *, RCSNUM *);
1.148 xsa 243: static void rcs_parse_desc(RCSFILE *, RCSNUM *);
1.57 xsa 244:
245: static int rcs_parse_access(RCSFILE *);
246: static int rcs_parse_symbols(RCSFILE *);
247: static int rcs_parse_locks(RCSFILE *);
248: static int rcs_parse_branches(RCSFILE *, struct rcs_delta *);
249: static void rcs_freedelta(struct rcs_delta *);
250: static void rcs_freepdata(struct rcs_pdata *);
251: static int rcs_gettok(RCSFILE *);
252: static int rcs_pushtok(RCSFILE *, const char *, int);
1.151 xsa 253: static void rcs_growbuf(RCSFILE *);
1.155 ray 254: static void rcs_strprint(const u_char *, size_t, FILE *);
1.57 xsa 255:
1.131 niallo 256: static char* rcs_expand_keywords(char *, struct rcs_delta *, char *,
1.125 niallo 257: size_t, int);
1.26 jfb 258:
1.1 jfb 259: /*
260: * rcs_open()
261: *
262: * Open a file containing RCS-formatted information. The file's path is
1.26 jfb 263: * given in <path>, and the opening flags are given in <flags>, which is either
264: * RCS_READ, RCS_WRITE, or RCS_RDWR. If the open requests write access and
265: * the file does not exist, the RCS_CREATE flag must also be given, in which
266: * case it will be created with the mode specified in a third argument of
267: * type mode_t. If the file exists and RCS_CREATE is passed, the open will
268: * fail.
1.1 jfb 269: * Returns a handle to the opened file on success, or NULL on failure.
270: */
1.60 xsa 271: RCSFILE *
1.26 jfb 272: rcs_open(const char *path, int flags, ...)
1.1 jfb 273: {
1.159 joris 274: int ret, mode;
1.26 jfb 275: mode_t fmode;
1.1 jfb 276: RCSFILE *rfp;
277: struct stat st;
1.26 jfb 278: va_list vap;
1.109 joris 279: struct rcs_delta *rdp;
280: struct rcs_lock *lkr;
1.26 jfb 281:
1.152 niallo 282: fmode = S_IRUSR|S_IRGRP|S_IROTH;
1.26 jfb 283: flags &= 0xffff; /* ditch any internal flags */
1.1 jfb 284:
1.168 ! deraadt 285: if (((ret = stat(path, &st)) == -1) && errno == ENOENT) {
1.26 jfb 286: if (flags & RCS_CREATE) {
287: va_start(vap, flags);
1.159 joris 288: mode = va_arg(vap, int);
1.26 jfb 289: va_end(vap);
1.159 joris 290: fmode = (mode_t)mode;
1.26 jfb 291: } else {
1.105 joris 292: /* XXX, make this command dependant? */
293: #if 0
1.26 jfb 294: cvs_log(LP_ERR, "RCS file `%s' does not exist", path);
1.105 joris 295: #endif
1.127 xsa 296: rcs_errno = RCS_ERR_NOENT;
1.26 jfb 297: return (NULL);
298: }
1.168 ! deraadt 299: } else if (ret == 0 && (flags & RCS_CREATE)) {
1.26 jfb 300: cvs_log(LP_ERR, "RCS file `%s' exists", path);
1.1 jfb 301: return (NULL);
302: }
303:
1.161 ray 304: rfp = xcalloc(1, sizeof(*rfp));
1.1 jfb 305:
1.110 joris 306: rfp->rf_path = xstrdup(path);
1.142 niallo 307: rfp->rf_flags = flags | RCS_SLOCK | RCS_SYNCED;
1.26 jfb 308: rfp->rf_mode = fmode;
1.1 jfb 309:
310: TAILQ_INIT(&(rfp->rf_delta));
1.29 jfb 311: TAILQ_INIT(&(rfp->rf_access));
1.1 jfb 312: TAILQ_INIT(&(rfp->rf_symbols));
313: TAILQ_INIT(&(rfp->rf_locks));
314:
1.167 ray 315: if (!(rfp->rf_flags & RCS_CREATE))
316: rcs_parse_init(rfp);
1.1 jfb 317:
1.109 joris 318: /* fill in rd_locker */
319: TAILQ_FOREACH(lkr, &(rfp->rf_locks), rl_list) {
320: if ((rdp = rcs_findrev(rfp, lkr->rl_num)) == NULL) {
321: rcs_close(rfp);
322: return (NULL);
323: }
324:
1.110 joris 325: rdp->rd_locker = xstrdup(lkr->rl_name);
1.109 joris 326: }
327:
1.1 jfb 328: return (rfp);
329: }
330:
331: /*
332: * rcs_close()
333: *
334: * Close an RCS file handle.
335: */
336: void
337: rcs_close(RCSFILE *rfp)
338: {
339: struct rcs_delta *rdp;
1.71 moritz 340: struct rcs_access *rap;
1.13 jfb 341: struct rcs_lock *rlp;
342: struct rcs_sym *rsp;
1.1 jfb 343:
1.26 jfb 344: if ((rfp->rf_flags & RCS_WRITE) && !(rfp->rf_flags & RCS_SYNCED))
345: rcs_write(rfp);
346:
1.1 jfb 347: while (!TAILQ_EMPTY(&(rfp->rf_delta))) {
348: rdp = TAILQ_FIRST(&(rfp->rf_delta));
349: TAILQ_REMOVE(&(rfp->rf_delta), rdp, rd_list);
350: rcs_freedelta(rdp);
1.71 moritz 351: }
352:
353: while (!TAILQ_EMPTY(&(rfp->rf_access))) {
354: rap = TAILQ_FIRST(&(rfp->rf_access));
355: TAILQ_REMOVE(&(rfp->rf_access), rap, ra_list);
1.110 joris 356: xfree(rap->ra_name);
357: xfree(rap);
1.1 jfb 358: }
359:
1.13 jfb 360: while (!TAILQ_EMPTY(&(rfp->rf_symbols))) {
361: rsp = TAILQ_FIRST(&(rfp->rf_symbols));
362: TAILQ_REMOVE(&(rfp->rf_symbols), rsp, rs_list);
363: rcsnum_free(rsp->rs_num);
1.110 joris 364: xfree(rsp->rs_name);
365: xfree(rsp);
1.13 jfb 366: }
367:
368: while (!TAILQ_EMPTY(&(rfp->rf_locks))) {
369: rlp = TAILQ_FIRST(&(rfp->rf_locks));
370: TAILQ_REMOVE(&(rfp->rf_locks), rlp, rl_list);
371: rcsnum_free(rlp->rl_num);
1.110 joris 372: xfree(rlp->rl_name);
373: xfree(rlp);
1.13 jfb 374: }
375:
1.1 jfb 376: if (rfp->rf_head != NULL)
377: rcsnum_free(rfp->rf_head);
1.11 joris 378: if (rfp->rf_branch != NULL)
379: rcsnum_free(rfp->rf_branch);
1.1 jfb 380:
381: if (rfp->rf_path != NULL)
1.110 joris 382: xfree(rfp->rf_path);
1.1 jfb 383: if (rfp->rf_comment != NULL)
1.110 joris 384: xfree(rfp->rf_comment);
1.1 jfb 385: if (rfp->rf_expand != NULL)
1.110 joris 386: xfree(rfp->rf_expand);
1.1 jfb 387: if (rfp->rf_desc != NULL)
1.110 joris 388: xfree(rfp->rf_desc);
1.118 joris 389: if (rfp->rf_pdata != NULL)
390: rcs_freepdata(rfp->rf_pdata);
1.110 joris 391: xfree(rfp);
1.1 jfb 392: }
393:
394: /*
395: * rcs_write()
396: *
397: * Write the contents of the RCS file handle <rfp> to disk in the file whose
398: * path is in <rf_path>.
399: * Returns 0 on success, or -1 on failure.
400: */
1.152 niallo 401: int
1.1 jfb 402: rcs_write(RCSFILE *rfp)
403: {
404: FILE *fp;
1.72 niallo 405: char buf[1024], numbuf[64], fn[19] = "";
406: void *bp;
1.29 jfb 407: struct rcs_access *ap;
1.1 jfb 408: struct rcs_sym *symp;
1.46 jfb 409: struct rcs_branch *brp;
1.1 jfb 410: struct rcs_delta *rdp;
1.75 joris 411: struct rcs_lock *lkp;
1.155 ray 412: ssize_t nread, nwritten;
1.100 xsa 413: size_t len;
1.72 niallo 414: int fd, from_fd, to_fd;
1.75 joris 415:
1.72 niallo 416: from_fd = to_fd = fd = -1;
1.1 jfb 417:
1.137 joris 418: if (rfp->rf_flags & RCS_SYNCED)
419: return (0);
420:
1.117 niallo 421: /* Write operations need the whole file parsed */
422: rcs_parse_deltatexts(rfp, NULL);
1.1 jfb 423:
1.72 niallo 424: strlcpy(fn, "/tmp/rcs.XXXXXXXXXX", sizeof(fn));
1.113 xsa 425: if ((fd = mkstemp(fn)) == -1)
426: fatal("mkstemp: `%s': %s", fn, strerror(errno));
427:
428: if ((fp = fdopen(fd, "w+")) == NULL) {
429: fd = errno;
430: unlink(fn);
431: fatal("fdopen: %s", strerror(fd));
1.1 jfb 432: }
433:
1.28 jfb 434: if (rfp->rf_head != NULL)
435: rcsnum_tostr(rfp->rf_head, numbuf, sizeof(numbuf));
436: else
437: numbuf[0] = '\0';
438:
1.1 jfb 439: fprintf(fp, "head\t%s;\n", numbuf);
1.35 jfb 440:
441: if (rfp->rf_branch != NULL) {
442: rcsnum_tostr(rfp->rf_branch, numbuf, sizeof(numbuf));
443: fprintf(fp, "branch\t%s;\n", numbuf);
444: }
445:
1.29 jfb 446: fputs("access", fp);
447: TAILQ_FOREACH(ap, &(rfp->rf_access), ra_list) {
448: fprintf(fp, "\n\t%s", ap->ra_name);
449: }
450: fputs(";\n", fp);
1.1 jfb 451:
1.85 joris 452: fprintf(fp, "symbols");
1.1 jfb 453: TAILQ_FOREACH(symp, &(rfp->rf_symbols), rs_list) {
454: rcsnum_tostr(symp->rs_num, numbuf, sizeof(numbuf));
1.126 xsa 455: strlcpy(buf, symp->rs_name, sizeof(buf));
456: strlcat(buf, ":", sizeof(buf));
457: strlcat(buf, numbuf, sizeof(buf));
1.85 joris 458: fprintf(fp, "\n\t%s", buf);
1.1 jfb 459: }
460: fprintf(fp, ";\n");
461:
1.75 joris 462: fprintf(fp, "locks");
463: TAILQ_FOREACH(lkp, &(rfp->rf_locks), rl_list) {
464: rcsnum_tostr(lkp->rl_num, numbuf, sizeof(numbuf));
465: fprintf(fp, "\n\t%s:%s", lkp->rl_name, numbuf);
466: }
467:
468: fprintf(fp, ";");
1.1 jfb 469:
1.26 jfb 470: if (rfp->rf_flags & RCS_SLOCK)
1.1 jfb 471: fprintf(fp, " strict;");
472: fputc('\n', fp);
473:
1.129 xsa 474: fputs("comment\t@", fp);
1.42 jfb 475: if (rfp->rf_comment != NULL) {
1.58 xsa 476: rcs_strprint((const u_char *)rfp->rf_comment,
477: strlen(rfp->rf_comment), fp);
1.42 jfb 478: fputs("@;\n", fp);
1.129 xsa 479: } else
480: fputs("# @;\n", fp);
1.1 jfb 481:
1.42 jfb 482: if (rfp->rf_expand != NULL) {
483: fputs("expand @", fp);
1.58 xsa 484: rcs_strprint((const u_char *)rfp->rf_expand,
485: strlen(rfp->rf_expand), fp);
1.42 jfb 486: fputs("@;\n", fp);
487: }
1.1 jfb 488:
1.46 jfb 489: fputs("\n\n", fp);
1.1 jfb 490:
491: TAILQ_FOREACH(rdp, &(rfp->rf_delta), rd_list) {
492: fprintf(fp, "%s\n", rcsnum_tostr(rdp->rd_num, numbuf,
493: sizeof(numbuf)));
494: fprintf(fp, "date\t%d.%02d.%02d.%02d.%02d.%02d;",
1.44 jfb 495: rdp->rd_date.tm_year + 1900, rdp->rd_date.tm_mon + 1,
1.1 jfb 496: rdp->rd_date.tm_mday, rdp->rd_date.tm_hour,
497: rdp->rd_date.tm_min, rdp->rd_date.tm_sec);
498: fprintf(fp, "\tauthor %s;\tstate %s;\n",
499: rdp->rd_author, rdp->rd_state);
1.46 jfb 500: fputs("branches", fp);
501: TAILQ_FOREACH(brp, &(rdp->rd_branches), rb_list) {
502: fprintf(fp, " %s", rcsnum_tostr(brp->rb_num, numbuf,
503: sizeof(numbuf)));
504: }
505: fputs(";\n", fp);
1.1 jfb 506: fprintf(fp, "next\t%s;\n\n", rcsnum_tostr(rdp->rd_next,
507: numbuf, sizeof(numbuf)));
508: }
509:
1.42 jfb 510: fputs("\ndesc\n@", fp);
1.141 ray 511: if (rfp->rf_desc != NULL && (len = strlen(rfp->rf_desc)) > 0) {
1.100 xsa 512: rcs_strprint((const u_char *)rfp->rf_desc, len, fp);
513: if (rfp->rf_desc[len-1] != '\n')
514: fputc('\n', fp);
515: }
516: fputs("@\n", fp);
1.1 jfb 517:
518: /* deltatexts */
519: TAILQ_FOREACH(rdp, &(rfp->rf_delta), rd_list) {
1.100 xsa 520: fprintf(fp, "\n\n%s\n", rcsnum_tostr(rdp->rd_num, numbuf,
1.1 jfb 521: sizeof(numbuf)));
1.42 jfb 522: fputs("log\n@", fp);
1.100 xsa 523: if (rdp->rd_log != NULL) {
524: len = strlen(rdp->rd_log);
525: rcs_strprint((const u_char *)rdp->rd_log, len, fp);
526: if (rdp->rd_log[len-1] != '\n')
527: fputc('\n', fp);
528: }
1.42 jfb 529: fputs("@\ntext\n@", fp);
1.100 xsa 530: if (rdp->rd_text != NULL) {
531: rcs_strprint(rdp->rd_text, rdp->rd_tlen, fp);
1.103 joris 532:
533: if (rdp->rd_tlen != 0) {
534: if (rdp->rd_text[rdp->rd_tlen-1] != '\n')
535: fputc('\n', fp);
536: }
1.100 xsa 537: }
538: fputs("@\n", fp);
1.1 jfb 539: }
540: fclose(fp);
1.73 joris 541:
1.72 niallo 542: /*
543: * We try to use rename() to atomically put the new file in place.
544: * If that fails, we try a copy.
545: */
546: if (rename(fn, rfp->rf_path) == -1) {
547: if (errno == EXDEV) {
548: /* rename() not supported so we have to copy. */
1.168 ! deraadt 549: if (chmod(rfp->rf_path, S_IWUSR) == -1 &&
! 550: !(rfp->rf_flags & RCS_CREATE)) {
1.113 xsa 551: fatal("chmod(%s, 0%o) failed",
552: rfp->rf_path, S_IWUSR);
1.72 niallo 553: }
1.73 joris 554:
1.72 niallo 555: if ((from_fd = open(fn, O_RDONLY)) == -1) {
556: cvs_log(LP_ERRNO, "failed to open `%s'",
557: rfp->rf_path);
558: return (-1);
559: }
1.73 joris 560:
1.80 reyk 561: if ((to_fd = open(rfp->rf_path,
562: O_WRONLY|O_TRUNC|O_CREAT)) == -1) {
1.73 joris 563: cvs_log(LP_ERRNO, "failed to open `%s'", fn);
1.72 niallo 564: close(from_fd);
565: return (-1);
566: }
1.73 joris 567:
1.110 joris 568: bp = xmalloc(MAXBSIZE);
1.155 ray 569: for (;;) {
570: if ((nread = read(from_fd, bp, MAXBSIZE)) == 0)
571: break;
572: if (nread == -1)
573: goto err;
574: nwritten = write(to_fd, bp, (size_t)nread);
575: if (nwritten == -1 || nwritten != nread)
1.72 niallo 576: goto err;
577: }
1.73 joris 578:
1.72 niallo 579: if (nread < 0) {
580: err: if (unlink(rfp->rf_path) == -1)
581: cvs_log(LP_ERRNO,
582: "failed to unlink `%s'",
583: rfp->rf_path);
584: close(from_fd);
585: close(to_fd);
1.110 joris 586: xfree(bp);
1.72 niallo 587: return (-1);
588: }
1.73 joris 589:
1.72 niallo 590: close(from_fd);
591: close(to_fd);
1.110 joris 592: xfree(bp);
1.73 joris 593:
1.72 niallo 594: if (unlink(fn) == -1) {
595: cvs_log(LP_ERRNO,
1.73 joris 596: "failed to unlink `%s'", fn);
1.72 niallo 597: return (-1);
598: }
599: } else {
600: cvs_log(LP_ERRNO,
601: "failed to access temp RCS output file");
602: return (-1);
603: }
604: }
1.73 joris 605:
1.168 ! deraadt 606: if (chmod(rfp->rf_path, rfp->rf_mode) == -1) {
1.72 niallo 607: cvs_log(LP_ERRNO, "failed to chmod `%s'",
608: rfp->rf_path);
609: return (-1);
610: }
1.73 joris 611:
1.26 jfb 612: rfp->rf_flags |= RCS_SYNCED;
1.1 jfb 613:
614: return (0);
615: }
616:
617: /*
1.43 jfb 618: * rcs_head_get()
619: *
620: * Retrieve the revision number of the head revision for the RCS file <file>.
621: */
1.60 xsa 622: const RCSNUM *
1.43 jfb 623: rcs_head_get(RCSFILE *file)
624: {
625: return (file->rf_head);
626: }
627:
628: /*
629: * rcs_head_set()
630: *
631: * Set the revision number of the head revision for the RCS file <file> to
632: * <rev>, which must reference a valid revision within the file.
633: */
634: int
1.117 niallo 635: rcs_head_set(RCSFILE *file, RCSNUM *rev)
1.43 jfb 636: {
1.167 ray 637: if (rcs_findrev(file, rev) == NULL)
1.43 jfb 638: return (-1);
639:
1.111 joris 640: if (file->rf_head == NULL)
641: file->rf_head = rcsnum_alloc();
1.43 jfb 642:
1.111 joris 643: rcsnum_cpy(rev, file->rf_head, 0);
1.70 moritz 644: file->rf_flags &= ~RCS_SYNCED;
1.43 jfb 645: return (0);
646: }
647:
648:
649: /*
1.35 jfb 650: * rcs_branch_get()
651: *
652: * Retrieve the default branch number for the RCS file <file>.
653: * Returns the number on success. If NULL is returned, then there is no
654: * default branch for this file.
655: */
1.60 xsa 656: const RCSNUM *
1.35 jfb 657: rcs_branch_get(RCSFILE *file)
658: {
659: return (file->rf_branch);
660: }
661:
662: /*
663: * rcs_branch_set()
664: *
665: * Set the default branch for the RCS file <file> to <bnum>.
666: * Returns 0 on success, -1 on failure.
667: */
668: int
669: rcs_branch_set(RCSFILE *file, const RCSNUM *bnum)
670: {
1.111 joris 671: if (file->rf_branch == NULL)
672: file->rf_branch = rcsnum_alloc();
1.35 jfb 673:
1.111 joris 674: rcsnum_cpy(bnum, file->rf_branch, 0);
1.70 moritz 675: file->rf_flags &= ~RCS_SYNCED;
1.35 jfb 676: return (0);
677: }
678:
679: /*
1.29 jfb 680: * rcs_access_add()
681: *
682: * Add the login name <login> to the access list for the RCS file <file>.
683: * Returns 0 on success, or -1 on failure.
684: */
685: int
686: rcs_access_add(RCSFILE *file, const char *login)
687: {
688: struct rcs_access *ap;
689:
690: /* first look for duplication */
691: TAILQ_FOREACH(ap, &(file->rf_access), ra_list) {
692: if (strcmp(ap->ra_name, login) == 0) {
1.32 jfb 693: rcs_errno = RCS_ERR_DUPENT;
1.29 jfb 694: return (-1);
695: }
696: }
697:
1.161 ray 698: ap = xmalloc(sizeof(*ap));
1.110 joris 699: ap->ra_name = xstrdup(login);
1.29 jfb 700: TAILQ_INSERT_TAIL(&(file->rf_access), ap, ra_list);
701:
702: /* not synced anymore */
703: file->rf_flags &= ~RCS_SYNCED;
704: return (0);
705: }
706:
707: /*
708: * rcs_access_remove()
709: *
710: * Remove an entry with login name <login> from the access list of the RCS
711: * file <file>.
712: * Returns 0 on success, or -1 on failure.
713: */
714: int
715: rcs_access_remove(RCSFILE *file, const char *login)
716: {
717: struct rcs_access *ap;
718:
719: TAILQ_FOREACH(ap, &(file->rf_access), ra_list)
720: if (strcmp(ap->ra_name, login) == 0)
721: break;
722:
723: if (ap == NULL) {
1.32 jfb 724: rcs_errno = RCS_ERR_NOENT;
1.29 jfb 725: return (-1);
726: }
727:
728: TAILQ_REMOVE(&(file->rf_access), ap, ra_list);
1.110 joris 729: xfree(ap->ra_name);
730: xfree(ap);
1.29 jfb 731:
732: /* not synced anymore */
733: file->rf_flags &= ~RCS_SYNCED;
734: return (0);
735: }
736:
737: /*
1.26 jfb 738: * rcs_sym_add()
1.1 jfb 739: *
740: * Add a symbol to the list of symbols for the RCS file <rfp>. The new symbol
741: * is named <sym> and is bound to the RCS revision <snum>.
742: * Returns 0 on success, or -1 on failure.
743: */
744: int
1.26 jfb 745: rcs_sym_add(RCSFILE *rfp, const char *sym, RCSNUM *snum)
1.1 jfb 746: {
747: struct rcs_sym *symp;
748:
1.47 jfb 749: if (!rcs_sym_check(sym)) {
750: rcs_errno = RCS_ERR_BADSYM;
1.69 moritz 751: return (-1);
1.47 jfb 752: }
753:
1.1 jfb 754: /* first look for duplication */
755: TAILQ_FOREACH(symp, &(rfp->rf_symbols), rs_list) {
756: if (strcmp(symp->rs_name, sym) == 0) {
1.32 jfb 757: rcs_errno = RCS_ERR_DUPENT;
1.1 jfb 758: return (-1);
759: }
760: }
761:
1.161 ray 762: symp = xmalloc(sizeof(*symp));
1.110 joris 763: symp->rs_name = xstrdup(sym);
1.111 joris 764: symp->rs_num = rcsnum_alloc();
1.1 jfb 765: rcsnum_cpy(snum, symp->rs_num, 0);
766:
767: TAILQ_INSERT_HEAD(&(rfp->rf_symbols), symp, rs_list);
768:
769: /* not synced anymore */
1.26 jfb 770: rfp->rf_flags &= ~RCS_SYNCED;
1.1 jfb 771: return (0);
772: }
773:
774: /*
1.27 jfb 775: * rcs_sym_remove()
776: *
777: * Remove the symbol with name <sym> from the symbol list for the RCS file
778: * <file>. If no such symbol is found, the call fails and returns with an
779: * error.
780: * Returns 0 on success, or -1 on failure.
781: */
782: int
783: rcs_sym_remove(RCSFILE *file, const char *sym)
784: {
785: struct rcs_sym *symp;
786:
1.47 jfb 787: if (!rcs_sym_check(sym)) {
788: rcs_errno = RCS_ERR_BADSYM;
1.69 moritz 789: return (-1);
1.47 jfb 790: }
791:
1.27 jfb 792: TAILQ_FOREACH(symp, &(file->rf_symbols), rs_list)
793: if (strcmp(symp->rs_name, sym) == 0)
794: break;
795:
796: if (symp == NULL) {
1.32 jfb 797: rcs_errno = RCS_ERR_NOENT;
1.27 jfb 798: return (-1);
799: }
800:
801: TAILQ_REMOVE(&(file->rf_symbols), symp, rs_list);
1.110 joris 802: xfree(symp->rs_name);
1.27 jfb 803: rcsnum_free(symp->rs_num);
1.110 joris 804: xfree(symp);
1.27 jfb 805:
806: /* not synced anymore */
807: file->rf_flags &= ~RCS_SYNCED;
808: return (0);
809: }
810:
811: /*
812: * rcs_sym_getrev()
813: *
814: * Retrieve the RCS revision number associated with the symbol <sym> for the
815: * RCS file <file>. The returned value is a dynamically-allocated copy and
816: * should be freed by the caller once they are done with it.
817: * Returns the RCSNUM on success, or NULL on failure.
818: */
1.60 xsa 819: RCSNUM *
1.27 jfb 820: rcs_sym_getrev(RCSFILE *file, const char *sym)
821: {
822: RCSNUM *num;
823: struct rcs_sym *symp;
824:
1.47 jfb 825: if (!rcs_sym_check(sym)) {
826: rcs_errno = RCS_ERR_BADSYM;
827: return (NULL);
828: }
829:
1.27 jfb 830: num = NULL;
831: TAILQ_FOREACH(symp, &(file->rf_symbols), rs_list)
832: if (strcmp(symp->rs_name, sym) == 0)
833: break;
834:
1.111 joris 835: if (symp == NULL) {
1.36 jfb 836: rcs_errno = RCS_ERR_NOENT;
1.111 joris 837: } else {
838: num = rcsnum_alloc();
839: rcsnum_cpy(symp->rs_num, num, 0);
1.27 jfb 840: }
841:
842: return (num);
1.47 jfb 843: }
844:
845: /*
846: * rcs_sym_check()
847: *
848: * Check the RCS symbol name <sym> for any unsupported characters.
849: * Returns 1 if the tag is correct, 0 if it isn't valid.
850: */
851: int
852: rcs_sym_check(const char *sym)
853: {
854: int ret;
855: const char *cp;
856:
857: ret = 1;
858: cp = sym;
859: if (!isalpha(*cp++))
860: return (0);
861:
862: for (; *cp != '\0'; cp++)
863: if (!isgraph(*cp) || (strchr(rcs_sym_invch, *cp) != NULL)) {
864: ret = 0;
865: break;
866: }
867:
868: return (ret);
1.30 jfb 869: }
870:
871: /*
872: * rcs_lock_getmode()
873: *
874: * Retrieve the locking mode of the RCS file <file>.
875: */
876: int
877: rcs_lock_getmode(RCSFILE *file)
878: {
879: return (file->rf_flags & RCS_SLOCK) ? RCS_LOCK_STRICT : RCS_LOCK_LOOSE;
880: }
881:
882: /*
883: * rcs_lock_setmode()
884: *
885: * Set the locking mode of the RCS file <file> to <mode>, which must either
886: * be RCS_LOCK_LOOSE or RCS_LOCK_STRICT.
887: * Returns the previous mode on success, or -1 on failure.
888: */
889: int
890: rcs_lock_setmode(RCSFILE *file, int mode)
891: {
892: int pmode;
893: pmode = rcs_lock_getmode(file);
894:
895: if (mode == RCS_LOCK_STRICT)
896: file->rf_flags |= RCS_SLOCK;
897: else if (mode == RCS_LOCK_LOOSE)
898: file->rf_flags &= ~RCS_SLOCK;
1.145 xsa 899: else
900: fatal("rcs_lock_setmode: invalid mode `%d'", mode);
1.30 jfb 901:
1.70 moritz 902: file->rf_flags &= ~RCS_SYNCED;
1.30 jfb 903: return (pmode);
1.27 jfb 904: }
905:
906: /*
1.40 jfb 907: * rcs_lock_add()
908: *
909: * Add an RCS lock for the user <user> on revision <rev>.
910: * Returns 0 on success, or -1 on failure.
911: */
912: int
913: rcs_lock_add(RCSFILE *file, const char *user, RCSNUM *rev)
914: {
915: struct rcs_lock *lkp;
916:
917: /* first look for duplication */
918: TAILQ_FOREACH(lkp, &(file->rf_locks), rl_list) {
1.168 ! deraadt 919: if (strcmp(lkp->rl_name, user) == 0 &&
! 920: rcsnum_cmp(rev, lkp->rl_num, 0) == 0) {
1.40 jfb 921: rcs_errno = RCS_ERR_DUPENT;
922: return (-1);
923: }
924: }
925:
1.161 ray 926: lkp = xmalloc(sizeof(*lkp));
1.110 joris 927: lkp->rl_name = xstrdup(user);
1.111 joris 928: lkp->rl_num = rcsnum_alloc();
1.68 moritz 929: rcsnum_cpy(rev, lkp->rl_num, 0);
1.40 jfb 930:
931: TAILQ_INSERT_TAIL(&(file->rf_locks), lkp, rl_list);
932:
933: /* not synced anymore */
934: file->rf_flags &= ~RCS_SYNCED;
935: return (0);
936: }
937:
938:
939: /*
940: * rcs_lock_remove()
941: *
942: * Remove the RCS lock on revision <rev>.
943: * Returns 0 on success, or -1 on failure.
944: */
945: int
1.109 joris 946: rcs_lock_remove(RCSFILE *file, const char *user, RCSNUM *rev)
1.40 jfb 947: {
948: struct rcs_lock *lkp;
949:
1.109 joris 950: TAILQ_FOREACH(lkp, &(file->rf_locks), rl_list) {
1.168 ! deraadt 951: if (strcmp(lkp->rl_name, user) == 0 &&
! 952: rcsnum_cmp(lkp->rl_num, rev, 0) == 0)
1.40 jfb 953: break;
1.109 joris 954: }
1.40 jfb 955:
956: if (lkp == NULL) {
957: rcs_errno = RCS_ERR_NOENT;
958: return (-1);
959: }
960:
961: TAILQ_REMOVE(&(file->rf_locks), lkp, rl_list);
962: rcsnum_free(lkp->rl_num);
1.110 joris 963: xfree(lkp->rl_name);
964: xfree(lkp);
1.40 jfb 965:
966: /* not synced anymore */
967: file->rf_flags &= ~RCS_SYNCED;
968: return (0);
969: }
970:
971: /*
1.27 jfb 972: * rcs_desc_get()
973: *
974: * Retrieve the description for the RCS file <file>.
975: */
1.57 xsa 976: const char *
1.27 jfb 977: rcs_desc_get(RCSFILE *file)
978: {
979: return (file->rf_desc);
980: }
981:
982: /*
983: * rcs_desc_set()
984: *
985: * Set the description for the RCS file <file>.
986: */
1.149 xsa 987: void
1.27 jfb 988: rcs_desc_set(RCSFILE *file, const char *desc)
989: {
990: char *tmp;
991:
1.110 joris 992: tmp = xstrdup(desc);
1.27 jfb 993: if (file->rf_desc != NULL)
1.110 joris 994: xfree(file->rf_desc);
1.27 jfb 995: file->rf_desc = tmp;
996: file->rf_flags &= ~RCS_SYNCED;
1.51 jfb 997: }
998:
999: /*
1000: * rcs_comment_lookup()
1001: *
1002: * Lookup the assumed comment leader based on a file's suffix.
1003: * Returns a pointer to the string on success, or NULL on failure.
1004: */
1.57 xsa 1005: const char *
1.51 jfb 1006: rcs_comment_lookup(const char *filename)
1007: {
1008: int i;
1009: const char *sp;
1010:
1011: if ((sp = strrchr(filename, '.')) == NULL) {
1012: rcs_errno = RCS_ERR_NOENT;
1013: return (NULL);
1014: }
1015: sp++;
1016:
1017: for (i = 0; i < (int)NB_COMTYPES; i++)
1018: if (strcmp(rcs_comments[i].rc_suffix, sp) == 0)
1019: return (rcs_comments[i].rc_cstr);
1020: return (NULL);
1.27 jfb 1021: }
1022:
1.33 jfb 1023: /*
1024: * rcs_comment_get()
1025: *
1026: * Retrieve the comment leader for the RCS file <file>.
1027: */
1.57 xsa 1028: const char *
1.33 jfb 1029: rcs_comment_get(RCSFILE *file)
1030: {
1031: return (file->rf_comment);
1032: }
1033:
1034: /*
1035: * rcs_comment_set()
1036: *
1037: * Set the comment leader for the RCS file <file>.
1038: */
1.150 xsa 1039: void
1.33 jfb 1040: rcs_comment_set(RCSFILE *file, const char *comment)
1041: {
1042: char *tmp;
1043:
1.110 joris 1044: tmp = xstrdup(comment);
1.33 jfb 1045: if (file->rf_comment != NULL)
1.110 joris 1046: xfree(file->rf_comment);
1.33 jfb 1047: file->rf_comment = tmp;
1048: file->rf_flags &= ~RCS_SYNCED;
1049: }
1.40 jfb 1050:
1051: /*
1052: * rcs_tag_resolve()
1053: *
1054: * Retrieve the revision number corresponding to the tag <tag> for the RCS
1055: * file <file>.
1056: */
1.60 xsa 1057: RCSNUM *
1.40 jfb 1058: rcs_tag_resolve(RCSFILE *file, const char *tag)
1059: {
1060: RCSNUM *num;
1061:
1062: if ((num = rcsnum_parse(tag)) == NULL) {
1063: num = rcs_sym_getrev(file, tag);
1064: }
1065:
1066: return (num);
1067: }
1068:
1.94 joris 1069: int
1070: rcs_patch_lines(struct cvs_lines *dlines, struct cvs_lines *plines)
1.5 vincent 1071: {
1072: char op, *ep;
1.94 joris 1073: struct cvs_line *lp, *dlp, *ndlp;
1.5 vincent 1074: int i, lineno, nbln;
1.1 jfb 1075:
1.94 joris 1076: dlp = TAILQ_FIRST(&(dlines->l_lines));
1077: lp = TAILQ_FIRST(&(plines->l_lines));
1.1 jfb 1078:
1079: /* skip first bogus line */
1.94 joris 1080: for (lp = TAILQ_NEXT(lp, l_list); lp != NULL;
1081: lp = TAILQ_NEXT(lp, l_list)) {
1082: op = *(lp->l_line);
1083: lineno = (int)strtol((lp->l_line + 1), &ep, 10);
1.168 ! deraadt 1084: if (lineno > dlines->l_nblines || lineno < 0 ||
! 1085: *ep != ' ')
1.132 niallo 1086: fatal("invalid line specification in RCS patch");
1.1 jfb 1087: ep++;
1088: nbln = (int)strtol(ep, &ep, 10);
1.168 ! deraadt 1089: if (nbln < 0 || *ep != '\0')
1.132 niallo 1090: fatal("invalid line number specification in RCS patch");
1.1 jfb 1091:
1092: /* find the appropriate line */
1093: for (;;) {
1094: if (dlp == NULL)
1095: break;
1.94 joris 1096: if (dlp->l_lineno == lineno)
1.1 jfb 1097: break;
1.94 joris 1098: if (dlp->l_lineno > lineno) {
1099: dlp = TAILQ_PREV(dlp, cvs_tqh, l_list);
1100: } else if (dlp->l_lineno < lineno) {
1.133 niallo 1101: if (((ndlp = TAILQ_NEXT(dlp, l_list)) == NULL) ||
1.168 ! deraadt 1102: ndlp->l_lineno > lineno)
1.1 jfb 1103: break;
1104: dlp = ndlp;
1105: }
1106: }
1.132 niallo 1107: if (dlp == NULL)
1108: fatal("can't find referenced line in RCS patch");
1.1 jfb 1109:
1110: if (op == 'd') {
1111: for (i = 0; (i < nbln) && (dlp != NULL); i++) {
1.94 joris 1112: ndlp = TAILQ_NEXT(dlp, l_list);
1113: TAILQ_REMOVE(&(dlines->l_lines), dlp, l_list);
1.1 jfb 1114: dlp = ndlp;
1.133 niallo 1115: /* last line is gone - reset dlp */
1116: if (dlp == NULL) {
1117: ndlp = TAILQ_LAST(&(dlines->l_lines),
1118: cvs_tqh);
1119: dlp = ndlp;
1120: }
1.1 jfb 1121: }
1.14 deraadt 1122: } else if (op == 'a') {
1.1 jfb 1123: for (i = 0; i < nbln; i++) {
1124: ndlp = lp;
1.94 joris 1125: lp = TAILQ_NEXT(lp, l_list);
1.132 niallo 1126: if (lp == NULL)
1127: fatal("truncated RCS patch");
1.94 joris 1128: TAILQ_REMOVE(&(plines->l_lines), lp, l_list);
1129: TAILQ_INSERT_AFTER(&(dlines->l_lines), dlp,
1130: lp, l_list);
1.1 jfb 1131: dlp = lp;
1132:
1133: /* we don't want lookup to block on those */
1.94 joris 1134: lp->l_lineno = lineno;
1.1 jfb 1135:
1136: lp = ndlp;
1137: }
1.132 niallo 1138: } else
1139: fatal("unknown RCS patch operation `%c'", op);
1.1 jfb 1140:
1141: /* last line of the patch, done */
1.94 joris 1142: if (lp->l_lineno == plines->l_nblines)
1.1 jfb 1143: break;
1144: }
1145:
1146: /* once we're done patching, rebuild the line numbers */
1.2 vincent 1147: lineno = 0;
1.94 joris 1148: TAILQ_FOREACH(lp, &(dlines->l_lines), l_list)
1149: lp->l_lineno = lineno++;
1150: dlines->l_nblines = lineno - 1;
1.1 jfb 1151:
1.5 vincent 1152: return (0);
1.1 jfb 1153: }
1154:
1155: /*
1156: * rcs_getrev()
1157: *
1158: * Get the whole contents of revision <rev> from the RCSFILE <rfp>. The
1.4 vincent 1159: * returned buffer is dynamically allocated and should be released using
1160: * cvs_buf_free() once the caller is done using it.
1.1 jfb 1161: */
1162: BUF*
1.66 joris 1163: rcs_getrev(RCSFILE *rfp, RCSNUM *frev)
1.1 jfb 1164: {
1.156 joris 1165: u_int i, numlen;
1166: int isbranch, lookonbranch;
1.1 jfb 1167: size_t len;
1168: void *bp;
1.156 joris 1169: RCSNUM *crev, *rev, *brev;
1.125 niallo 1170: BUF *rbuf;
1.1 jfb 1171: struct rcs_delta *rdp = NULL;
1.156 joris 1172: struct rcs_branch *rb;
1.1 jfb 1173:
1.28 jfb 1174: if (rfp->rf_head == NULL)
1175: return (NULL);
1.66 joris 1176:
1177: if (frev == RCS_HEAD_REV)
1178: rev = rfp->rf_head;
1179: else
1180: rev = frev;
1.28 jfb 1181:
1.156 joris 1182: /* XXX rcsnum_cmp() */
1183: for (i = 0; i < rfp->rf_head->rn_len; i++) {
1184: if (rfp->rf_head->rn_id[i] < rev->rn_id[i]) {
1185: rcs_errno = RCS_ERR_NOENT;
1186: return (NULL);
1187: }
1.26 jfb 1188: }
1189:
1.117 niallo 1190: /* No matter what, we're going to need up the the description parsed */
1191: rcs_parse_desc(rfp, NULL);
1192:
1.26 jfb 1193: rdp = rcs_findrev(rfp, rfp->rf_head);
1194: if (rdp == NULL) {
1195: cvs_log(LP_ERR, "failed to get RCS HEAD revision");
1196: return (NULL);
1197: }
1.156 joris 1198:
1.117 niallo 1199: if (rdp->rd_tlen == 0)
1200: rcs_parse_deltatexts(rfp, rfp->rf_head);
1.156 joris 1201:
1.45 jfb 1202: len = rdp->rd_tlen;
1.115 niallo 1203: if (len == 0) {
1204: rbuf = cvs_buf_alloc(1, 0);
1205: cvs_buf_empty(rbuf);
1206: return (rbuf);
1207: }
1.26 jfb 1208:
1.116 joris 1209: rbuf = cvs_buf_alloc(len, BUF_AUTOEXT);
1.26 jfb 1210: cvs_buf_append(rbuf, rdp->rd_text, len);
1211:
1.156 joris 1212: isbranch = 0;
1213: brev = NULL;
1214:
1215: /*
1216: * If a branch was passed, get the latest revision on it.
1217: */
1218: if (RCSNUM_ISBRANCH(rev)) {
1219: brev = rev;
1220: rdp = rcs_findrev(rfp, rev);
1221: if (rdp == NULL)
1.158 joris 1222: return (NULL);
1.156 joris 1223:
1224: rev = rdp->rd_num;
1225: } else {
1226: if (RCSNUM_ISBRANCHREV(rev)) {
1227: brev = rcsnum_revtobr(rev);
1228: isbranch = 1;
1229: }
1230: }
1231:
1232: lookonbranch = 0;
1233: crev = NULL;
1234:
1235: /* Apply patches backwards to get the right version.
1236: */
1237: do {
1238: if (rcsnum_cmp(rfp->rf_head, rev, 0) == 0)
1239: break;
1240:
1.168 ! deraadt 1241: if (isbranch == 1 && rdp->rd_num->rn_len < rev->rn_len &&
! 1242: !TAILQ_EMPTY(&(rdp->rd_branches)))
1.156 joris 1243: lookonbranch = 1;
1244:
1245: if (isbranch && lookonbranch == 1) {
1246: lookonbranch = 0;
1247: TAILQ_FOREACH(rb, &(rdp->rd_branches), rb_list) {
1248: /* XXX rcsnum_cmp() is totally broken for
1249: * this purpose.
1250: */
1251: numlen = MIN(brev->rn_len, rb->rb_num->rn_len);
1252: for (i = 0; i < numlen; i++) {
1253: if (rb->rb_num->rn_id[i] !=
1254: brev->rn_id[i])
1255: break;
1256: }
1257:
1258: if (i == numlen) {
1259: crev = rb->rb_num;
1260: break;
1261: }
1262: }
1263: } else {
1.87 joris 1264: crev = rdp->rd_next;
1.156 joris 1265: }
1266:
1267: rdp = rcs_findrev(rfp, crev);
1268: if (rdp == NULL) {
1269: cvs_buf_free(rbuf);
1270: return (NULL);
1271: }
1272:
1273: cvs_buf_putc(rbuf, '\0');
1274:
1275: /* check if we have parsed this rev's deltatext */
1276: if (rdp->rd_tlen == 0)
1277: rcs_parse_deltatexts(rfp, rdp->rd_num);
1278:
1279: bp = cvs_buf_release(rbuf);
1280: rbuf = cvs_patchfile((char *)bp, (char *)rdp->rd_text,
1281: rcs_patch_lines);
1282: xfree(bp);
1283:
1284: if (rbuf == NULL)
1285: break;
1286: } while (rcsnum_cmp(crev, rev, 0) != 0);
1287:
1.168 ! deraadt 1288: if (cvs_buf_getc(rbuf, cvs_buf_len(rbuf)-1) != '\n' &&
! 1289: rbuf != NULL)
1.125 niallo 1290: cvs_buf_putc(rbuf, '\n');
1.156 joris 1291:
1.125 niallo 1292: return (rbuf);
1.1 jfb 1293: }
1294:
1295: /*
1.52 jfb 1296: * rcs_rev_add()
1297: *
1.53 jfb 1298: * Add a revision to the RCS file <rf>. The new revision's number can be
1299: * specified in <rev> (which can also be RCS_HEAD_REV, in which case the
1300: * new revision will have a number equal to the previous head revision plus
1301: * one). The <msg> argument specifies the log message for that revision, and
1302: * <date> specifies the revision's date (a value of -1 is
1303: * equivalent to using the current time).
1.96 xsa 1304: * If <username> is NULL, set the author for this revision to the current user.
1.90 niallo 1305: * Otherwise, set it to <username>.
1.52 jfb 1306: * Returns 0 on success, or -1 on failure.
1307: */
1308: int
1.90 niallo 1309: rcs_rev_add(RCSFILE *rf, RCSNUM *rev, const char *msg, time_t date,
1310: const char *username)
1.52 jfb 1311: {
1312: time_t now;
1313: struct passwd *pw;
1.83 joris 1314: struct rcs_delta *ordp, *rdp;
1315:
1.52 jfb 1316: if (rev == RCS_HEAD_REV) {
1.101 niallo 1317: if (rf->rf_flags & RCS_CREATE) {
1318: if ((rev = rcsnum_parse(RCS_HEAD_INIT)) == NULL)
1319: return (-1);
1.111 joris 1320: rf->rf_head = rcsnum_alloc();
1.101 niallo 1321: rcsnum_cpy(rev, rf->rf_head, 0);
1322: } else {
1323: rev = rcsnum_inc(rf->rf_head);
1324: }
1.83 joris 1325: } else {
1326: if ((rdp = rcs_findrev(rf, rev)) != NULL) {
1327: rcs_errno = RCS_ERR_DUPENT;
1328: return (-1);
1329: }
1.52 jfb 1330: }
1331:
1.112 xsa 1332: if ((pw = getpwuid(getuid())) == NULL)
1333: fatal("getpwuid failed");
1.52 jfb 1334:
1.161 ray 1335: rdp = xcalloc(1, sizeof(*rdp));
1.52 jfb 1336:
1337: TAILQ_INIT(&(rdp->rd_branches));
1338:
1.111 joris 1339: rdp->rd_num = rcsnum_alloc();
1.52 jfb 1340: rcsnum_cpy(rev, rdp->rd_num, 0);
1.83 joris 1341:
1.111 joris 1342: rdp->rd_next = rcsnum_alloc();
1.92 joris 1343:
1.143 niallo 1344: if (!(rf->rf_flags & RCS_CREATE)) {
1345: /* next should point to the previous HEAD */
1346: ordp = TAILQ_FIRST(&(rf->rf_delta));
1347: rcsnum_cpy(ordp->rd_num, rdp->rd_next, 0);
1348: }
1.101 niallo 1349:
1.52 jfb 1350:
1.90 niallo 1351: if (username == NULL)
1352: username = pw->pw_name;
1353:
1.110 joris 1354: rdp->rd_author = xstrdup(username);
1355: rdp->rd_state = xstrdup(RCS_STATE_EXP);
1356: rdp->rd_log = xstrdup(msg);
1.52 jfb 1357:
1.53 jfb 1358: if (date != (time_t)(-1))
1359: now = date;
1360: else
1361: time(&now);
1.52 jfb 1362: gmtime_r(&now, &(rdp->rd_date));
1363:
1364: TAILQ_INSERT_HEAD(&(rf->rf_delta), rdp, rd_list);
1365: rf->rf_ndelta++;
1.81 niallo 1366:
1.64 niallo 1367: /* not synced anymore */
1368: rf->rf_flags &= ~RCS_SYNCED;
1.52 jfb 1369:
1370: return (0);
1371: }
1372:
1373: /*
1374: * rcs_rev_remove()
1375: *
1376: * Remove the revision whose number is <rev> from the RCS file <rf>.
1377: */
1378: int
1379: rcs_rev_remove(RCSFILE *rf, RCSNUM *rev)
1380: {
1.166 joris 1381: size_t len;
1382: char *tmpdir;
1383: char *newdeltatext, path_tmp1[MAXPATHLEN], path_tmp2[MAXPATHLEN];
1384: struct rcs_delta *rdp, *prevrdp, *nextrdp;
1385: BUF *nextbuf, *prevbuf, *newdiff;
1386:
1387: #if defined(RCSPROG)
1388: tmpdir = rcs_tmpdir;
1389: #else
1390: tmpdir = cvs_tmpdir;
1391: #endif
1.52 jfb 1392:
1393: if (rev == RCS_HEAD_REV)
1394: rev = rf->rf_head;
1395:
1396: /* do we actually have that revision? */
1397: if ((rdp = rcs_findrev(rf, rev)) == NULL) {
1398: rcs_errno = RCS_ERR_NOENT;
1.166 joris 1399: return (-1);
1400: }
1401:
1402: /*
1403: * This is confusing, the previous delta is next in the TAILQ list.
1404: * the next delta is the previous one in the TAILQ list.
1405: *
1406: * When the HEAD revision got specified, nextrdp will be NULL.
1407: * When the first revision got specified, prevrdp will be NULL.
1408: */
1409: prevrdp = (struct rcs_delta *)TAILQ_NEXT(rdp, rd_list);
1410: nextrdp = (struct rcs_delta *)TAILQ_PREV(rdp, cvs_tqh, rd_list);
1411:
1412: newdeltatext = NULL;
1413: prevbuf = nextbuf = NULL;
1414:
1415: if (prevrdp != NULL) {
1416: if ((prevbuf = rcs_getrev(rf, prevrdp->rd_num)) == NULL)
1417: fatal("error getting revision");
1418: }
1419:
1.168 ! deraadt 1420: if (prevrdp != NULL && nextrdp != NULL) {
1.166 joris 1421: if ((nextbuf = rcs_getrev(rf, nextrdp->rd_num)) == NULL)
1422: fatal("error getting revision");
1423:
1424: newdiff = cvs_buf_alloc(64, BUF_AUTOEXT);
1425:
1426: /* calculate new diff */
1427: len = strlcpy(path_tmp1, tmpdir, sizeof(path_tmp1));
1428: if (len >= sizeof(path_tmp1))
1429: fatal("path truncation in rcs_rev_remove");
1430:
1431: len = strlcat(path_tmp1, "/diff1.XXXXXXXXXX",
1432: sizeof(path_tmp1));
1433: if (len >= sizeof(path_tmp1))
1434: fatal("path truncation in rcs_rev_remove");
1435:
1436: cvs_buf_write_stmp(nextbuf, path_tmp1, 0600);
1437: cvs_buf_free(nextbuf);
1438:
1439: len = strlcpy(path_tmp2, tmpdir, sizeof(path_tmp2));
1440: if (len >= sizeof(path_tmp2))
1441: fatal("path truncation in rcs_rev_remove");
1442:
1443: len = strlcat(path_tmp2, "/diff2.XXXXXXXXXX",
1444: sizeof(path_tmp2));
1445: if (len >= sizeof(path_tmp2))
1446: fatal("path truncation in rcs_rev_remove");
1447:
1448: cvs_buf_write_stmp(prevbuf, path_tmp2, 0600);
1449: cvs_buf_free(prevbuf);
1450:
1451: diff_format = D_RCSDIFF;
1452: cvs_diffreg(path_tmp1, path_tmp2, newdiff);
1453:
1454: newdeltatext = cvs_buf_release(newdiff);
1.168 ! deraadt 1455: } else if (nextrdp == NULL && prevrdp != NULL) {
1.166 joris 1456: newdeltatext = cvs_buf_release(prevbuf);
1457: }
1458:
1459: if (newdeltatext != NULL) {
1460: if (rcs_deltatext_set(rf, prevrdp->rd_num, newdeltatext) < 0)
1461: fatal("error setting new deltatext");
1462: }
1463:
1464: TAILQ_REMOVE(&(rf->rf_delta), rdp, rd_list);
1465:
1466: /* update pointers */
1.168 ! deraadt 1467: if (prevrdp != NULL && nextrdp != NULL) {
1.166 joris 1468: rcsnum_cpy(prevrdp->rd_num, nextrdp->rd_next, 0);
1469: } else if (prevrdp != NULL) {
1470: rcs_head_set(rf, prevrdp->rd_num);
1471: } else if (nextrdp != NULL) {
1472: rcsnum_free(nextrdp->rd_next);
1473: nextrdp->rd_next = rcsnum_alloc();
1.52 jfb 1474: } else {
1.166 joris 1475: rcsnum_free(rf->rf_head);
1476: rf->rf_head = NULL;
1.52 jfb 1477: }
1478:
1.166 joris 1479: rf->rf_ndelta--;
1480: rf->rf_flags &= ~RCS_SYNCED;
1481:
1482: rcs_freedelta(rdp);
1483:
1484: if (newdeltatext != NULL)
1485: xfree(newdeltatext);
1.52 jfb 1486:
1.166 joris 1487: return (0);
1.52 jfb 1488: }
1489:
1490: /*
1.1 jfb 1491: * rcs_findrev()
1492: *
1493: * Find a specific revision's delta entry in the tree of the RCS file <rfp>.
1494: * The revision number is given in <rev>.
1.156 joris 1495: *
1496: * If the given revision is a branch number, we translate it into the latest
1497: * revision on the branch.
1498: *
1.1 jfb 1499: * Returns a pointer to the delta on success, or NULL on failure.
1500: */
1.102 xsa 1501: struct rcs_delta *
1.117 niallo 1502: rcs_findrev(RCSFILE *rfp, RCSNUM *rev)
1.1 jfb 1503: {
1504: u_int cmplen;
1.156 joris 1505: struct rcs_delta *rdp;
1506: RCSNUM *brev, *frev;
1.26 jfb 1507:
1.117 niallo 1508: /*
1509: * We need to do more parsing if the last revision in the linked list
1510: * is greater than the requested revision.
1511: */
1.156 joris 1512: rdp = TAILQ_LAST(&(rfp->rf_delta), rcs_dlist);
1.168 ! deraadt 1513: if (rdp == NULL ||
! 1514: rcsnum_cmp(rdp->rd_num, rev, 0) == -1) {
1.117 niallo 1515: rcs_parse_deltas(rfp, rev);
1516: }
1517:
1.156 joris 1518: /*
1519: * Translate a branch into the latest revision on the branch itself.
1520: */
1521: if (RCSNUM_ISBRANCH(rev)) {
1522: brev = rcsnum_brtorev(rev);
1523: frev = brev;
1524: for (;;) {
1525: rdp = rcs_findrev(rfp, frev);
1526: if (rdp == NULL)
1.158 joris 1527: return (NULL);
1.1 jfb 1528:
1.156 joris 1529: if (rdp->rd_next->rn_len == 0)
1.6 vincent 1530: break;
1.156 joris 1531:
1532: frev = rdp->rd_next;
1.1 jfb 1533: }
1.156 joris 1534:
1535: rcsnum_free(brev);
1536: return (rdp);
1537: }
1538:
1539: cmplen = rev->rn_len;
1540:
1541: TAILQ_FOREACH(rdp, &(rfp->rf_delta), rd_list) {
1542: if (rcsnum_cmp(rdp->rd_num, rev, cmplen) == 0)
1543: return (rdp);
1544: }
1.1 jfb 1545:
1546: return (NULL);
1.20 jfb 1547: }
1548:
1549: /*
1.26 jfb 1550: * rcs_kwexp_set()
1551: *
1552: * Set the keyword expansion mode to use on the RCS file <file> to <mode>.
1553: */
1.162 xsa 1554: void
1.26 jfb 1555: rcs_kwexp_set(RCSFILE *file, int mode)
1556: {
1557: int i;
1558: char *tmp, buf[8] = "";
1559:
1560: if (RCS_KWEXP_INVAL(mode))
1.162 xsa 1561: return;
1.26 jfb 1562:
1563: i = 0;
1564: if (mode == RCS_KWEXP_NONE)
1565: buf[0] = 'b';
1566: else if (mode == RCS_KWEXP_OLD)
1567: buf[0] = 'o';
1568: else {
1569: if (mode & RCS_KWEXP_NAME)
1570: buf[i++] = 'k';
1571: if (mode & RCS_KWEXP_VAL)
1572: buf[i++] = 'v';
1573: if (mode & RCS_KWEXP_LKR)
1574: buf[i++] = 'l';
1575: }
1576:
1.110 joris 1577: tmp = xstrdup(buf);
1.27 jfb 1578: if (file->rf_expand != NULL)
1.147 ray 1579: xfree(file->rf_expand);
1.26 jfb 1580: file->rf_expand = tmp;
1.64 niallo 1581: /* not synced anymore */
1582: file->rf_flags &= ~RCS_SYNCED;
1.26 jfb 1583: }
1584:
1585: /*
1586: * rcs_kwexp_get()
1587: *
1588: * Retrieve the keyword expansion mode to be used for the RCS file <file>.
1589: */
1590: int
1591: rcs_kwexp_get(RCSFILE *file)
1592: {
1593: return rcs_kflag_get(file->rf_expand);
1594: }
1595:
1596: /*
1.20 jfb 1597: * rcs_kflag_get()
1598: *
1599: * Get the keyword expansion mode from a set of character flags given in
1600: * <flags> and return the appropriate flag mask. In case of an error, the
1601: * returned mask will have the RCS_KWEXP_ERR bit set to 1.
1602: */
1603: int
1604: rcs_kflag_get(const char *flags)
1605: {
1606: int fl;
1607: size_t len;
1608: const char *fp;
1609:
1610: fl = 0;
1611: len = strlen(flags);
1612:
1613: for (fp = flags; *fp != '\0'; fp++) {
1614: if (*fp == 'k')
1615: fl |= RCS_KWEXP_NAME;
1616: else if (*fp == 'v')
1617: fl |= RCS_KWEXP_VAL;
1618: else if (*fp == 'l')
1619: fl |= RCS_KWEXP_LKR;
1620: else if (*fp == 'o') {
1621: if (len != 1)
1622: fl |= RCS_KWEXP_ERR;
1623: fl |= RCS_KWEXP_OLD;
1624: } else if (*fp == 'b') {
1625: if (len != 1)
1626: fl |= RCS_KWEXP_ERR;
1627: } else /* unknown letter */
1628: fl |= RCS_KWEXP_ERR;
1629: }
1630:
1631: return (fl);
1.32 jfb 1632: }
1633:
1634: /*
1635: * rcs_errstr()
1636: *
1637: * Get the error string matching the RCS error code <code>.
1638: */
1.57 xsa 1639: const char *
1.32 jfb 1640: rcs_errstr(int code)
1641: {
1.50 jfb 1642: const char *esp;
1643:
1.168 ! deraadt 1644: if (code < 0 || (code >= (int)RCS_NERR && code != RCS_ERR_ERRNO))
1.50 jfb 1645: esp = NULL;
1646: else if (code == RCS_ERR_ERRNO)
1647: esp = strerror(errno);
1648: else
1649: esp = rcs_errstrs[code];
1650: return (esp);
1.1 jfb 1651: }
1652:
1.117 niallo 1653: /* rcs_parse_deltas()
1654: *
1655: * Parse deltas. If <rev> is not NULL, parse only as far as that
1656: * revision. If <rev> is NULL, parse all deltas.
1657: */
1.146 xsa 1658: static void
1.117 niallo 1659: rcs_parse_deltas(RCSFILE *rfp, RCSNUM *rev)
1660: {
1661: int ret;
1662: struct rcs_delta *enddelta;
1.146 xsa 1663:
1664: if ((rfp->rf_flags & PARSED_DELTAS) || (rfp->rf_flags & RCS_CREATE))
1665: return;
1666:
1.117 niallo 1667: for (;;) {
1668: ret = rcs_parse_delta(rfp);
1669: if (rev != NULL) {
1670: enddelta = TAILQ_LAST(&(rfp->rf_delta), rcs_dlist);
1.155 ray 1671: if (rcsnum_cmp(enddelta->rd_num, rev, 0) == 0)
1.117 niallo 1672: break;
1673: }
1674: if (ret == 0) {
1675: rfp->rf_flags |= PARSED_DELTAS;
1676: break;
1677: }
1678: else if (ret == -1)
1679: fatal("error parsing deltas");
1680: }
1681: }
1682:
1683: /* rcs_parse_deltatexts()
1684: *
1685: * Parse deltatexts. If <rev> is not NULL, parse only as far as that
1686: * revision. If <rev> is NULL, parse everything.
1687: */
1.146 xsa 1688: static void
1.117 niallo 1689: rcs_parse_deltatexts(RCSFILE *rfp, RCSNUM *rev)
1690: {
1691: int ret;
1692: struct rcs_delta *rdp;
1.146 xsa 1693:
1.168 ! deraadt 1694: if ((rfp->rf_flags & PARSED_DELTATEXTS) ||
! 1695: (rfp->rf_flags & RCS_CREATE))
1.146 xsa 1696: return;
1697:
1.117 niallo 1698: if (!(rfp->rf_flags & PARSED_DESC))
1699: rcs_parse_desc(rfp, rev);
1700: for (;;) {
1701: if (rev != NULL) {
1702: rdp = rcs_findrev(rfp, rev);
1703: if (rdp->rd_text != NULL)
1704: break;
1705: else
1706: ret = rcs_parse_deltatext(rfp);
1707: } else
1708: ret = rcs_parse_deltatext(rfp);
1709: if (ret == 0) {
1710: rfp->rf_flags |= PARSED_DELTATEXTS;
1711: break;
1712: }
1.146 xsa 1713: else if (ret == -1)
1.117 niallo 1714: fatal("problem parsing deltatexts");
1715: }
1716: }
1717:
1718: /* rcs_parse_desc()
1719: *
1720: * Parse RCS description.
1721: */
1.148 xsa 1722: static void
1.117 niallo 1723: rcs_parse_desc(RCSFILE *rfp, RCSNUM *rev)
1724: {
1725: int ret = 0;
1.148 xsa 1726:
1727: if ((rfp->rf_flags & PARSED_DESC) || (rfp->rf_flags & RCS_CREATE))
1728: return;
1.122 reyk 1729: if (!(rfp->rf_flags & PARSED_DELTAS))
1.117 niallo 1730: rcs_parse_deltas(rfp, rev);
1731: /* do parsing */
1732: ret = rcs_gettok(rfp);
1.148 xsa 1733: if (ret != RCS_TOK_DESC)
1734: fatal("token `%s' found where RCS desc expected",
1.117 niallo 1735: RCS_TOKSTR(rfp));
1736:
1737: ret = rcs_gettok(rfp);
1.148 xsa 1738: if (ret != RCS_TOK_STRING)
1739: fatal("token `%s' found where RCS desc expected",
1.117 niallo 1740: RCS_TOKSTR(rfp));
1741:
1742: rfp->rf_desc = xstrdup(RCS_TOKSTR(rfp));
1743: rfp->rf_flags |= PARSED_DESC;
1744: }
1745:
1.1 jfb 1746: /*
1.117 niallo 1747: * rcs_parse_init()
1.1 jfb 1748: *
1.117 niallo 1749: * Initial parsing of file <path>, which are in the RCS format.
1.167 ray 1750: * Just does admin section.
1.1 jfb 1751: */
1.167 ray 1752: static void
1.117 niallo 1753: rcs_parse_init(RCSFILE *rfp)
1.1 jfb 1754: {
1755: struct rcs_pdata *pdp;
1756:
1.26 jfb 1757: if (rfp->rf_flags & RCS_PARSED)
1.167 ray 1758: return;
1.1 jfb 1759:
1.161 ray 1760: pdp = xcalloc(1, sizeof(*pdp));
1.1 jfb 1761:
1.18 jfb 1762: pdp->rp_lines = 0;
1.1 jfb 1763: pdp->rp_pttype = RCS_TOK_ERR;
1764:
1.113 xsa 1765: if ((pdp->rp_file = fopen(rfp->rf_path, "r")) == NULL)
1766: fatal("fopen: `%s': %s", rfp->rf_path, strerror(errno));
1.1 jfb 1767:
1.161 ray 1768: pdp->rp_buf = xmalloc((size_t)RCS_BUFSIZE);
1.1 jfb 1769: pdp->rp_blen = RCS_BUFSIZE;
1.18 jfb 1770: pdp->rp_bufend = pdp->rp_buf + pdp->rp_blen - 1;
1.1 jfb 1771:
1772: /* ditch the strict lock */
1.26 jfb 1773: rfp->rf_flags &= ~RCS_SLOCK;
1.1 jfb 1774: rfp->rf_pdata = pdp;
1775:
1.167 ray 1776: if (rcs_parse_admin(rfp) < 0) {
1.1 jfb 1777: rcs_freepdata(pdp);
1.117 niallo 1778: fatal("could not parse admin data");
1.1 jfb 1779: }
1780:
1.117 niallo 1781: if (rfp->rf_flags & RCS_PARSE_FULLY)
1782: rcs_parse_deltatexts(rfp, NULL);
1.1 jfb 1783:
1.117 niallo 1784: rfp->rf_flags |= RCS_SYNCED;
1.1 jfb 1785: }
1786:
1787: /*
1788: * rcs_parse_admin()
1789: *
1790: * Parse the administrative portion of an RCS file.
1.31 jfb 1791: * Returns the type of the first token found after the admin section on
1792: * success, or -1 on failure.
1.1 jfb 1793: */
1794: static int
1795: rcs_parse_admin(RCSFILE *rfp)
1796: {
1797: u_int i;
1798: int tok, ntok, hmask;
1799: struct rcs_key *rk;
1800:
1801: /* hmask is a mask of the headers already encountered */
1802: hmask = 0;
1803: for (;;) {
1804: tok = rcs_gettok(rfp);
1805: if (tok == RCS_TOK_ERR) {
1.50 jfb 1806: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1807: cvs_log(LP_ERR, "parse error in RCS admin section");
1.147 ray 1808: goto fail;
1.168 ! deraadt 1809: } else if (tok == RCS_TOK_NUM || tok == RCS_TOK_DESC) {
1.31 jfb 1810: /*
1811: * Assume this is the start of the first delta or
1812: * that we are dealing with an empty RCS file and
1813: * we just found the description.
1814: */
1.1 jfb 1815: rcs_pushtok(rfp, RCS_TOKSTR(rfp), tok);
1.31 jfb 1816: return (tok);
1.1 jfb 1817: }
1818:
1819: rk = NULL;
1.18 jfb 1820: for (i = 0; i < RCS_NKEYS; i++)
1.1 jfb 1821: if (rcs_keys[i].rk_id == tok)
1822: rk = &(rcs_keys[i]);
1823:
1824: if (hmask & (1 << tok)) {
1.50 jfb 1825: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1826: cvs_log(LP_ERR, "duplicate RCS key");
1.147 ray 1827: goto fail;
1.1 jfb 1828: }
1829: hmask |= (1 << tok);
1830:
1831: switch (tok) {
1832: case RCS_TOK_HEAD:
1833: case RCS_TOK_BRANCH:
1834: case RCS_TOK_COMMENT:
1835: case RCS_TOK_EXPAND:
1836: ntok = rcs_gettok(rfp);
1837: if (ntok == RCS_TOK_SCOLON)
1838: break;
1839: if (ntok != rk->rk_val) {
1.50 jfb 1840: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1841: cvs_log(LP_ERR,
1842: "invalid value type for RCS key `%s'",
1843: rk->rk_str);
1844: }
1845:
1846: if (tok == RCS_TOK_HEAD) {
1.111 joris 1847: if (rfp->rf_head == NULL)
1.28 jfb 1848: rfp->rf_head = rcsnum_alloc();
1.1 jfb 1849: rcsnum_aton(RCS_TOKSTR(rfp), NULL,
1850: rfp->rf_head);
1.14 deraadt 1851: } else if (tok == RCS_TOK_BRANCH) {
1.111 joris 1852: if (rfp->rf_branch == NULL)
1.35 jfb 1853: rfp->rf_branch = rcsnum_alloc();
1854: if (rcsnum_aton(RCS_TOKSTR(rfp), NULL,
1855: rfp->rf_branch) < 0)
1.147 ray 1856: goto fail;
1.14 deraadt 1857: } else if (tok == RCS_TOK_COMMENT) {
1.110 joris 1858: rfp->rf_comment = xstrdup(RCS_TOKSTR(rfp));
1.14 deraadt 1859: } else if (tok == RCS_TOK_EXPAND) {
1.110 joris 1860: rfp->rf_expand = xstrdup(RCS_TOKSTR(rfp));
1.1 jfb 1861: }
1862:
1863: /* now get the expected semi-colon */
1864: ntok = rcs_gettok(rfp);
1865: if (ntok != RCS_TOK_SCOLON) {
1.50 jfb 1866: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1867: cvs_log(LP_ERR,
1868: "missing semi-colon after RCS `%s' key",
1.26 jfb 1869: rk->rk_str);
1.147 ray 1870: goto fail;
1.1 jfb 1871: }
1872: break;
1873: case RCS_TOK_ACCESS:
1.29 jfb 1874: if (rcs_parse_access(rfp) < 0)
1.147 ray 1875: goto fail;
1.1 jfb 1876: break;
1877: case RCS_TOK_SYMBOLS:
1.29 jfb 1878: if (rcs_parse_symbols(rfp) < 0)
1.147 ray 1879: goto fail;
1.1 jfb 1880: break;
1881: case RCS_TOK_LOCKS:
1.29 jfb 1882: if (rcs_parse_locks(rfp) < 0)
1.147 ray 1883: goto fail;
1.1 jfb 1884: break;
1885: default:
1.50 jfb 1886: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1887: cvs_log(LP_ERR,
1888: "unexpected token `%s' in RCS admin section",
1889: RCS_TOKSTR(rfp));
1.147 ray 1890: goto fail;
1.1 jfb 1891: }
1892: }
1893:
1.147 ray 1894: fail:
1895: return (-1);
1.1 jfb 1896: }
1897:
1898: /*
1899: * rcs_parse_delta()
1900: *
1901: * Parse an RCS delta section and allocate the structure to store that delta's
1902: * information in the <rfp> delta list.
1903: * Returns 1 if the section was parsed OK, 0 if it is the last delta, and
1904: * -1 on error.
1905: */
1906: static int
1907: rcs_parse_delta(RCSFILE *rfp)
1908: {
1909: int ret, tok, ntok, hmask;
1910: u_int i;
1911: char *tokstr;
1.3 vincent 1912: RCSNUM *datenum;
1.1 jfb 1913: struct rcs_delta *rdp;
1914: struct rcs_key *rk;
1915:
1.161 ray 1916: rdp = xcalloc(1, sizeof(*rdp));
1.1 jfb 1917:
1918: rdp->rd_num = rcsnum_alloc();
1919: rdp->rd_next = rcsnum_alloc();
1920:
1921: TAILQ_INIT(&(rdp->rd_branches));
1922:
1923: tok = rcs_gettok(rfp);
1.154 ray 1924: if (tok == RCS_TOK_DESC) {
1925: rcs_pushtok(rfp, RCS_TOKSTR(rfp), tok);
1926: return (0);
1927: } else if (tok != RCS_TOK_NUM) {
1.52 jfb 1928: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1929: cvs_log(LP_ERR, "unexpected token `%s' at start of delta",
1930: RCS_TOKSTR(rfp));
1931: rcs_freedelta(rdp);
1932: return (-1);
1933: }
1934: rcsnum_aton(RCS_TOKSTR(rfp), NULL, rdp->rd_num);
1935:
1936: hmask = 0;
1937: ret = 0;
1938: tokstr = NULL;
1939:
1940: for (;;) {
1941: tok = rcs_gettok(rfp);
1942: if (tok == RCS_TOK_ERR) {
1.50 jfb 1943: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1944: cvs_log(LP_ERR, "parse error in RCS delta section");
1945: rcs_freedelta(rdp);
1946: return (-1);
1.14 deraadt 1947: } else if (tok == RCS_TOK_NUM || tok == RCS_TOK_DESC) {
1.15 tedu 1948: rcs_pushtok(rfp, RCS_TOKSTR(rfp), tok);
1.1 jfb 1949: ret = (tok == RCS_TOK_NUM ? 1 : 0);
1950: break;
1951: }
1952:
1953: rk = NULL;
1.18 jfb 1954: for (i = 0; i < RCS_NKEYS; i++)
1.1 jfb 1955: if (rcs_keys[i].rk_id == tok)
1956: rk = &(rcs_keys[i]);
1957:
1958: if (hmask & (1 << tok)) {
1.50 jfb 1959: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1960: cvs_log(LP_ERR, "duplicate RCS key");
1961: rcs_freedelta(rdp);
1962: return (-1);
1963: }
1964: hmask |= (1 << tok);
1965:
1966: switch (tok) {
1967: case RCS_TOK_DATE:
1968: case RCS_TOK_AUTHOR:
1969: case RCS_TOK_STATE:
1970: case RCS_TOK_NEXT:
1971: ntok = rcs_gettok(rfp);
1972: if (ntok == RCS_TOK_SCOLON) {
1973: if (rk->rk_flags & RCS_VOPT)
1974: break;
1975: else {
1.50 jfb 1976: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1977: cvs_log(LP_ERR, "missing mandatory "
1978: "value to RCS key `%s'",
1979: rk->rk_str);
1980: rcs_freedelta(rdp);
1981: return (-1);
1982: }
1983: }
1984:
1985: if (ntok != rk->rk_val) {
1.50 jfb 1986: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 1987: cvs_log(LP_ERR,
1988: "invalid value type for RCS key `%s'",
1989: rk->rk_str);
1990: rcs_freedelta(rdp);
1991: return (-1);
1992: }
1993:
1994: if (tokstr != NULL)
1.110 joris 1995: xfree(tokstr);
1996: tokstr = xstrdup(RCS_TOKSTR(rfp));
1.1 jfb 1997: /* now get the expected semi-colon */
1998: ntok = rcs_gettok(rfp);
1999: if (ntok != RCS_TOK_SCOLON) {
1.50 jfb 2000: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2001: cvs_log(LP_ERR,
2002: "missing semi-colon after RCS `%s' key",
1.26 jfb 2003: rk->rk_str);
1.110 joris 2004: xfree(tokstr);
1.1 jfb 2005: rcs_freedelta(rdp);
2006: return (-1);
2007: }
2008:
2009: if (tok == RCS_TOK_DATE) {
1.25 jfb 2010: if ((datenum = rcsnum_parse(tokstr)) == NULL) {
1.110 joris 2011: xfree(tokstr);
1.11 joris 2012: rcs_freedelta(rdp);
2013: return (-1);
2014: }
1.3 vincent 2015: if (datenum->rn_len != 6) {
1.50 jfb 2016: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2017: cvs_log(LP_ERR,
2018: "RCS date specification has %s "
2019: "fields",
1.3 vincent 2020: (datenum->rn_len > 6) ? "too many" :
1.1 jfb 2021: "missing");
1.110 joris 2022: xfree(tokstr);
1.1 jfb 2023: rcs_freedelta(rdp);
1.37 tedu 2024: rcsnum_free(datenum);
2025: return (-1);
1.1 jfb 2026: }
1.3 vincent 2027: rdp->rd_date.tm_year = datenum->rn_id[0];
1.19 jfb 2028: if (rdp->rd_date.tm_year >= 1900)
2029: rdp->rd_date.tm_year -= 1900;
1.3 vincent 2030: rdp->rd_date.tm_mon = datenum->rn_id[1] - 1;
2031: rdp->rd_date.tm_mday = datenum->rn_id[2];
2032: rdp->rd_date.tm_hour = datenum->rn_id[3];
2033: rdp->rd_date.tm_min = datenum->rn_id[4];
2034: rdp->rd_date.tm_sec = datenum->rn_id[5];
2035: rcsnum_free(datenum);
1.14 deraadt 2036: } else if (tok == RCS_TOK_AUTHOR) {
1.1 jfb 2037: rdp->rd_author = tokstr;
2038: tokstr = NULL;
1.14 deraadt 2039: } else if (tok == RCS_TOK_STATE) {
1.1 jfb 2040: rdp->rd_state = tokstr;
2041: tokstr = NULL;
1.14 deraadt 2042: } else if (tok == RCS_TOK_NEXT) {
1.1 jfb 2043: rcsnum_aton(tokstr, NULL, rdp->rd_next);
2044: }
2045: break;
2046: case RCS_TOK_BRANCHES:
1.46 jfb 2047: if (rcs_parse_branches(rfp, rdp) < 0) {
2048: rcs_freedelta(rdp);
2049: return (-1);
2050: }
1.1 jfb 2051: break;
2052: default:
1.50 jfb 2053: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2054: cvs_log(LP_ERR,
2055: "unexpected token `%s' in RCS delta",
2056: RCS_TOKSTR(rfp));
2057: rcs_freedelta(rdp);
2058: return (-1);
2059: }
2060: }
2061:
1.13 jfb 2062: if (tokstr != NULL)
1.110 joris 2063: xfree(tokstr);
1.13 jfb 2064:
1.1 jfb 2065: TAILQ_INSERT_TAIL(&(rfp->rf_delta), rdp, rd_list);
1.26 jfb 2066: rfp->rf_ndelta++;
1.1 jfb 2067:
2068: return (ret);
2069: }
2070:
2071: /*
2072: * rcs_parse_deltatext()
2073: *
2074: * Parse an RCS delta text section and fill in the log and text field of the
2075: * appropriate delta section.
2076: * Returns 1 if the section was parsed OK, 0 if it is the last delta, and
2077: * -1 on error.
2078: */
2079: static int
2080: rcs_parse_deltatext(RCSFILE *rfp)
2081: {
2082: int tok;
2083: RCSNUM *tnum;
2084: struct rcs_delta *rdp;
2085:
2086: tok = rcs_gettok(rfp);
2087: if (tok == RCS_TOK_EOF)
2088: return (0);
2089:
2090: if (tok != RCS_TOK_NUM) {
1.50 jfb 2091: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2092: cvs_log(LP_ERR,
2093: "unexpected token `%s' at start of RCS delta text",
2094: RCS_TOKSTR(rfp));
2095: return (-1);
2096: }
1.13 jfb 2097:
2098: tnum = rcsnum_alloc();
1.1 jfb 2099: rcsnum_aton(RCS_TOKSTR(rfp), NULL, tnum);
2100:
2101: TAILQ_FOREACH(rdp, &(rfp->rf_delta), rd_list) {
2102: if (rcsnum_cmp(tnum, rdp->rd_num, 0) == 0)
2103: break;
2104: }
1.13 jfb 2105: rcsnum_free(tnum);
2106:
1.1 jfb 2107: if (rdp == NULL) {
2108: cvs_log(LP_ERR, "RCS delta text `%s' has no matching delta",
2109: RCS_TOKSTR(rfp));
2110: return (-1);
2111: }
2112:
2113: tok = rcs_gettok(rfp);
2114: if (tok != RCS_TOK_LOG) {
1.50 jfb 2115: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2116: cvs_log(LP_ERR, "unexpected token `%s' where RCS log expected",
2117: RCS_TOKSTR(rfp));
2118: return (-1);
2119: }
2120:
2121: tok = rcs_gettok(rfp);
2122: if (tok != RCS_TOK_STRING) {
1.50 jfb 2123: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2124: cvs_log(LP_ERR, "unexpected token `%s' where RCS log expected",
2125: RCS_TOKSTR(rfp));
2126: return (-1);
2127: }
1.110 joris 2128: rdp->rd_log = xstrdup(RCS_TOKSTR(rfp));
1.1 jfb 2129: tok = rcs_gettok(rfp);
2130: if (tok != RCS_TOK_TEXT) {
1.50 jfb 2131: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2132: cvs_log(LP_ERR, "unexpected token `%s' where RCS text expected",
2133: RCS_TOKSTR(rfp));
2134: return (-1);
2135: }
2136:
2137: tok = rcs_gettok(rfp);
2138: if (tok != RCS_TOK_STRING) {
1.50 jfb 2139: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2140: cvs_log(LP_ERR, "unexpected token `%s' where RCS text expected",
2141: RCS_TOKSTR(rfp));
2142: return (-1);
2143: }
2144:
1.161 ray 2145: rdp->rd_text = xmalloc(RCS_TOKLEN(rfp) + 1);
1.74 joris 2146: strlcpy(rdp->rd_text, RCS_TOKSTR(rfp), (RCS_TOKLEN(rfp) + 1));
1.42 jfb 2147: rdp->rd_tlen = RCS_TOKLEN(rfp);
1.1 jfb 2148:
2149: return (1);
2150: }
2151:
2152: /*
2153: * rcs_parse_access()
2154: *
2155: * Parse the access list given as value to the `access' keyword.
2156: * Returns 0 on success, or -1 on failure.
2157: */
2158: static int
2159: rcs_parse_access(RCSFILE *rfp)
2160: {
2161: int type;
2162:
2163: while ((type = rcs_gettok(rfp)) != RCS_TOK_SCOLON) {
2164: if (type != RCS_TOK_ID) {
1.50 jfb 2165: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2166: cvs_log(LP_ERR, "unexpected token `%s' in access list",
2167: RCS_TOKSTR(rfp));
2168: return (-1);
2169: }
1.29 jfb 2170:
2171: if (rcs_access_add(rfp, RCS_TOKSTR(rfp)) < 0)
2172: return (-1);
1.1 jfb 2173: }
2174:
2175: return (0);
2176: }
2177:
2178: /*
2179: * rcs_parse_symbols()
2180: *
2181: * Parse the symbol list given as value to the `symbols' keyword.
2182: * Returns 0 on success, or -1 on failure.
2183: */
2184: static int
2185: rcs_parse_symbols(RCSFILE *rfp)
2186: {
2187: int type;
2188: struct rcs_sym *symp;
2189:
2190: for (;;) {
2191: type = rcs_gettok(rfp);
2192: if (type == RCS_TOK_SCOLON)
2193: break;
2194:
1.41 jfb 2195: if (type != RCS_TOK_ID) {
1.50 jfb 2196: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2197: cvs_log(LP_ERR, "unexpected token `%s' in symbol list",
2198: RCS_TOKSTR(rfp));
2199: return (-1);
2200: }
2201:
1.161 ray 2202: symp = xmalloc(sizeof(*symp));
1.110 joris 2203: symp->rs_name = xstrdup(RCS_TOKSTR(rfp));
1.1 jfb 2204: symp->rs_num = rcsnum_alloc();
2205:
2206: type = rcs_gettok(rfp);
2207: if (type != RCS_TOK_COLON) {
1.50 jfb 2208: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2209: cvs_log(LP_ERR, "unexpected token `%s' in symbol list",
2210: RCS_TOKSTR(rfp));
1.11 joris 2211: rcsnum_free(symp->rs_num);
1.110 joris 2212: xfree(symp->rs_name);
2213: xfree(symp);
1.1 jfb 2214: return (-1);
2215: }
2216:
2217: type = rcs_gettok(rfp);
2218: if (type != RCS_TOK_NUM) {
1.50 jfb 2219: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2220: cvs_log(LP_ERR, "unexpected token `%s' in symbol list",
2221: RCS_TOKSTR(rfp));
1.11 joris 2222: rcsnum_free(symp->rs_num);
1.110 joris 2223: xfree(symp->rs_name);
2224: xfree(symp);
1.1 jfb 2225: return (-1);
2226: }
2227:
2228: if (rcsnum_aton(RCS_TOKSTR(rfp), NULL, symp->rs_num) < 0) {
2229: cvs_log(LP_ERR, "failed to parse RCS NUM `%s'",
2230: RCS_TOKSTR(rfp));
1.11 joris 2231: rcsnum_free(symp->rs_num);
1.110 joris 2232: xfree(symp->rs_name);
2233: xfree(symp);
1.1 jfb 2234: return (-1);
2235: }
2236:
1.43 jfb 2237: TAILQ_INSERT_TAIL(&(rfp->rf_symbols), symp, rs_list);
1.1 jfb 2238: }
2239:
2240: return (0);
2241: }
2242:
2243: /*
2244: * rcs_parse_locks()
2245: *
2246: * Parse the lock list given as value to the `locks' keyword.
2247: * Returns 0 on success, or -1 on failure.
2248: */
2249: static int
2250: rcs_parse_locks(RCSFILE *rfp)
2251: {
2252: int type;
2253: struct rcs_lock *lkp;
2254:
2255: for (;;) {
2256: type = rcs_gettok(rfp);
2257: if (type == RCS_TOK_SCOLON)
2258: break;
2259:
2260: if (type != RCS_TOK_ID) {
1.50 jfb 2261: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2262: cvs_log(LP_ERR, "unexpected token `%s' in lock list",
2263: RCS_TOKSTR(rfp));
2264: return (-1);
2265: }
2266:
1.161 ray 2267: lkp = xmalloc(sizeof(*lkp));
1.110 joris 2268: lkp->rl_name = xstrdup(RCS_TOKSTR(rfp));
1.1 jfb 2269: lkp->rl_num = rcsnum_alloc();
2270:
2271: type = rcs_gettok(rfp);
2272: if (type != RCS_TOK_COLON) {
1.50 jfb 2273: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2274: cvs_log(LP_ERR, "unexpected token `%s' in symbol list",
2275: RCS_TOKSTR(rfp));
1.37 tedu 2276: rcsnum_free(lkp->rl_num);
1.110 joris 2277: xfree(lkp->rl_name);
2278: xfree(lkp);
1.1 jfb 2279: return (-1);
2280: }
2281:
2282: type = rcs_gettok(rfp);
2283: if (type != RCS_TOK_NUM) {
1.50 jfb 2284: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2285: cvs_log(LP_ERR, "unexpected token `%s' in symbol list",
2286: RCS_TOKSTR(rfp));
1.37 tedu 2287: rcsnum_free(lkp->rl_num);
1.110 joris 2288: xfree(lkp->rl_name);
2289: xfree(lkp);
1.1 jfb 2290: return (-1);
2291: }
2292:
2293: if (rcsnum_aton(RCS_TOKSTR(rfp), NULL, lkp->rl_num) < 0) {
2294: cvs_log(LP_ERR, "failed to parse RCS NUM `%s'",
2295: RCS_TOKSTR(rfp));
1.37 tedu 2296: rcsnum_free(lkp->rl_num);
1.110 joris 2297: xfree(lkp->rl_name);
2298: xfree(lkp);
1.1 jfb 2299: return (-1);
2300: }
2301:
2302: TAILQ_INSERT_HEAD(&(rfp->rf_locks), lkp, rl_list);
2303: }
2304:
2305: /* check if we have a `strict' */
2306: type = rcs_gettok(rfp);
2307: if (type != RCS_TOK_STRICT) {
2308: rcs_pushtok(rfp, RCS_TOKSTR(rfp), type);
1.14 deraadt 2309: } else {
1.26 jfb 2310: rfp->rf_flags |= RCS_SLOCK;
1.1 jfb 2311:
2312: type = rcs_gettok(rfp);
2313: if (type != RCS_TOK_SCOLON) {
1.50 jfb 2314: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2315: cvs_log(LP_ERR,
2316: "missing semi-colon after `strict' keyword");
2317: return (-1);
2318: }
2319: }
2320:
2321: return (0);
2322: }
2323:
2324: /*
2325: * rcs_parse_branches()
2326: *
2327: * Parse the list of branches following a `branches' keyword in a delta.
2328: * Returns 0 on success, or -1 on failure.
2329: */
2330: static int
2331: rcs_parse_branches(RCSFILE *rfp, struct rcs_delta *rdp)
2332: {
2333: int type;
2334: struct rcs_branch *brp;
2335:
2336: for (;;) {
2337: type = rcs_gettok(rfp);
2338: if (type == RCS_TOK_SCOLON)
2339: break;
2340:
2341: if (type != RCS_TOK_NUM) {
1.50 jfb 2342: rcs_errno = RCS_ERR_PARSE;
1.1 jfb 2343: cvs_log(LP_ERR,
2344: "unexpected token `%s' in list of branches",
2345: RCS_TOKSTR(rfp));
2346: return (-1);
2347: }
2348:
1.161 ray 2349: brp = xmalloc(sizeof(*brp));
1.46 jfb 2350: brp->rb_num = rcsnum_parse(RCS_TOKSTR(rfp));
1.11 joris 2351: if (brp->rb_num == NULL) {
1.110 joris 2352: xfree(brp);
1.11 joris 2353: return (-1);
2354: }
1.1 jfb 2355:
2356: TAILQ_INSERT_TAIL(&(rdp->rd_branches), brp, rb_list);
2357: }
2358:
2359: return (0);
2360: }
2361:
2362: /*
2363: * rcs_freedelta()
2364: *
2365: * Free the contents of a delta structure.
2366: */
1.18 jfb 2367: static void
1.1 jfb 2368: rcs_freedelta(struct rcs_delta *rdp)
2369: {
1.12 jfb 2370: struct rcs_branch *rb;
1.1 jfb 2371:
1.12 jfb 2372: if (rdp->rd_num != NULL)
2373: rcsnum_free(rdp->rd_num);
2374: if (rdp->rd_next != NULL)
2375: rcsnum_free(rdp->rd_next);
2376:
1.1 jfb 2377: if (rdp->rd_author != NULL)
1.110 joris 2378: xfree(rdp->rd_author);
1.109 joris 2379: if (rdp->rd_locker != NULL)
1.110 joris 2380: xfree(rdp->rd_locker);
1.1 jfb 2381: if (rdp->rd_state != NULL)
1.110 joris 2382: xfree(rdp->rd_state);
1.1 jfb 2383: if (rdp->rd_log != NULL)
1.110 joris 2384: xfree(rdp->rd_log);
1.1 jfb 2385: if (rdp->rd_text != NULL)
1.110 joris 2386: xfree(rdp->rd_text);
1.12 jfb 2387:
2388: while ((rb = TAILQ_FIRST(&(rdp->rd_branches))) != NULL) {
2389: TAILQ_REMOVE(&(rdp->rd_branches), rb, rb_list);
2390: rcsnum_free(rb->rb_num);
1.110 joris 2391: xfree(rb);
1.1 jfb 2392: }
2393:
1.110 joris 2394: xfree(rdp);
1.1 jfb 2395: }
2396:
2397: /*
2398: * rcs_freepdata()
2399: *
2400: * Free the contents of the parser data structure.
2401: */
2402: static void
2403: rcs_freepdata(struct rcs_pdata *pd)
2404: {
2405: if (pd->rp_file != NULL)
2406: (void)fclose(pd->rp_file);
2407: if (pd->rp_buf != NULL)
1.110 joris 2408: xfree(pd->rp_buf);
2409: xfree(pd);
1.1 jfb 2410: }
2411:
2412: /*
2413: * rcs_gettok()
2414: *
2415: * Get the next RCS token from the string <str>.
2416: */
2417: static int
2418: rcs_gettok(RCSFILE *rfp)
2419: {
2420: u_int i;
2421: int ch, last, type;
1.18 jfb 2422: size_t len;
2423: char *bp;
1.1 jfb 2424: struct rcs_pdata *pdp = (struct rcs_pdata *)rfp->rf_pdata;
2425:
2426: type = RCS_TOK_ERR;
2427: bp = pdp->rp_buf;
1.42 jfb 2428: pdp->rp_tlen = 0;
1.1 jfb 2429: *bp = '\0';
2430:
2431: if (pdp->rp_pttype != RCS_TOK_ERR) {
2432: type = pdp->rp_pttype;
2433: strlcpy(pdp->rp_buf, pdp->rp_ptok, pdp->rp_blen);
2434: pdp->rp_pttype = RCS_TOK_ERR;
2435: return (type);
2436: }
2437:
2438: /* skip leading whitespace */
2439: /* XXX we must skip backspace too for compatibility, should we? */
2440: do {
2441: ch = getc(pdp->rp_file);
2442: if (ch == '\n')
1.18 jfb 2443: pdp->rp_lines++;
1.1 jfb 2444: } while (isspace(ch));
2445:
2446: if (ch == EOF) {
2447: type = RCS_TOK_EOF;
1.14 deraadt 2448: } else if (ch == ';') {
1.1 jfb 2449: type = RCS_TOK_SCOLON;
1.14 deraadt 2450: } else if (ch == ':') {
1.1 jfb 2451: type = RCS_TOK_COLON;
1.14 deraadt 2452: } else if (isalpha(ch)) {
1.31 jfb 2453: type = RCS_TOK_ID;
1.1 jfb 2454: *(bp++) = ch;
1.18 jfb 2455: for (;;) {
1.1 jfb 2456: ch = getc(pdp->rp_file);
1.160 joris 2457: if (!isalnum(ch) && ch != '_' && ch != '-' &&
2458: ch != '/') {
1.1 jfb 2459: ungetc(ch, pdp->rp_file);
2460: break;
2461: }
2462: *(bp++) = ch;
1.42 jfb 2463: pdp->rp_tlen++;
1.18 jfb 2464: if (bp == pdp->rp_bufend - 1) {
2465: len = bp - pdp->rp_buf;
1.151 xsa 2466: rcs_growbuf(rfp);
1.18 jfb 2467: bp = pdp->rp_buf + len;
2468: }
1.1 jfb 2469: }
2470: *bp = '\0';
2471:
1.18 jfb 2472: if (type != RCS_TOK_ERR) {
2473: for (i = 0; i < RCS_NKEYS; i++) {
2474: if (strcmp(rcs_keys[i].rk_str,
2475: pdp->rp_buf) == 0) {
2476: type = rcs_keys[i].rk_id;
2477: break;
2478: }
1.1 jfb 2479: }
2480: }
1.14 deraadt 2481: } else if (ch == '@') {
1.1 jfb 2482: /* we have a string */
1.18 jfb 2483: type = RCS_TOK_STRING;
1.1 jfb 2484: for (;;) {
2485: ch = getc(pdp->rp_file);
2486: if (ch == '@') {
2487: ch = getc(pdp->rp_file);
2488: if (ch != '@') {
2489: ungetc(ch, pdp->rp_file);
2490: break;
2491: }
1.14 deraadt 2492: } else if (ch == '\n')
1.18 jfb 2493: pdp->rp_lines++;
1.1 jfb 2494:
2495: *(bp++) = ch;
1.42 jfb 2496: pdp->rp_tlen++;
1.18 jfb 2497: if (bp == pdp->rp_bufend - 1) {
2498: len = bp - pdp->rp_buf;
1.151 xsa 2499: rcs_growbuf(rfp);
1.18 jfb 2500: bp = pdp->rp_buf + len;
2501: }
1.1 jfb 2502: }
2503:
2504: *bp = '\0';
1.14 deraadt 2505: } else if (isdigit(ch)) {
1.1 jfb 2506: *(bp++) = ch;
2507: last = ch;
2508: type = RCS_TOK_NUM;
2509:
2510: for (;;) {
2511: ch = getc(pdp->rp_file);
1.18 jfb 2512: if (bp == pdp->rp_bufend)
1.1 jfb 2513: break;
2514: if (!isdigit(ch) && ch != '.') {
2515: ungetc(ch, pdp->rp_file);
2516: break;
2517: }
2518:
2519: if (last == '.' && ch == '.') {
2520: type = RCS_TOK_ERR;
2521: break;
2522: }
2523: last = ch;
2524: *(bp++) = ch;
1.42 jfb 2525: pdp->rp_tlen++;
1.1 jfb 2526: }
1.18 jfb 2527: *bp = '\0';
1.1 jfb 2528: }
2529:
2530: return (type);
2531: }
2532:
2533: /*
2534: * rcs_pushtok()
2535: *
2536: * Push a token back in the parser's token buffer.
2537: */
2538: static int
2539: rcs_pushtok(RCSFILE *rfp, const char *tok, int type)
2540: {
2541: struct rcs_pdata *pdp = (struct rcs_pdata *)rfp->rf_pdata;
2542:
2543: if (pdp->rp_pttype != RCS_TOK_ERR)
2544: return (-1);
2545:
2546: pdp->rp_pttype = type;
2547: strlcpy(pdp->rp_ptok, tok, sizeof(pdp->rp_ptok));
2548: return (0);
2549: }
2550:
1.18 jfb 2551:
2552: /*
2553: * rcs_growbuf()
2554: *
2555: * Attempt to grow the internal parse buffer for the RCS file <rf> by
2556: * RCS_BUFEXTSIZE.
2557: * In case of failure, the original buffer is left unmodified.
2558: */
1.151 xsa 2559: static void
1.18 jfb 2560: rcs_growbuf(RCSFILE *rf)
2561: {
2562: void *tmp;
2563: struct rcs_pdata *pdp = (struct rcs_pdata *)rf->rf_pdata;
2564:
1.153 ray 2565: tmp = xrealloc(pdp->rp_buf, 1, pdp->rp_blen + RCS_BUFEXTSIZE);
1.161 ray 2566: pdp->rp_buf = tmp;
1.18 jfb 2567: pdp->rp_blen += RCS_BUFEXTSIZE;
2568: pdp->rp_bufend = pdp->rp_buf + pdp->rp_blen - 1;
1.42 jfb 2569: }
2570:
2571: /*
2572: * rcs_strprint()
2573: *
2574: * Output an RCS string <str> of size <slen> to the stream <stream>. Any
2575: * '@' characters are escaped. Otherwise, the string can contain arbitrary
2576: * binary data.
2577: */
1.155 ray 2578: static void
1.42 jfb 2579: rcs_strprint(const u_char *str, size_t slen, FILE *stream)
2580: {
2581: const u_char *ap, *ep, *sp;
1.52 jfb 2582:
2583: if (slen == 0)
1.155 ray 2584: return;
1.42 jfb 2585:
2586: ep = str + slen - 1;
2587:
2588: for (sp = str; sp <= ep;) {
2589: ap = memchr(sp, '@', ep - sp);
2590: if (ap == NULL)
2591: ap = ep;
1.155 ray 2592: (void)fwrite(sp, sizeof(u_char), ap - sp + 1, stream);
1.42 jfb 2593:
2594: if (*ap == '@')
2595: putc('@', stream);
2596: sp = ap + 1;
1.63 joris 2597: }
2598: }
2599:
2600: /*
2601: * rcs_expand_keywords()
2602: *
1.125 niallo 2603: * Return expansion any RCS keywords in <data>
2604: *
2605: * On error, return NULL.
1.63 joris 2606: */
1.125 niallo 2607: static char *
2608: rcs_expand_keywords(char *rcsfile, struct rcs_delta *rdp, char *data,
1.63 joris 2609: size_t len, int mode)
2610: {
1.155 ray 2611: ptrdiff_t c_offset, sizdiff, start_offset;
1.147 ray 2612: size_t i;
1.155 ray 2613: int kwtype;
2614: u_int j, found;
1.140 xsa 2615: char *c, *kwstr, *start, *end, *tbuf;
1.125 niallo 2616: char expbuf[256], buf[256];
1.165 joris 2617: struct tm tb;
1.134 joris 2618: char *fmt;
1.63 joris 2619:
1.65 niallo 2620: kwtype = 0;
2621: kwstr = NULL;
1.63 joris 2622: i = 0;
2623:
2624: /*
1.134 joris 2625: * -z support for RCS
2626: */
1.165 joris 2627: tb = rdp->rd_date;
1.140 xsa 2628: if (timezone_flag != NULL)
1.165 joris 2629: rcs_set_tz(timezone_flag, rdp, &tb);
1.134 joris 2630:
2631: /*
1.63 joris 2632: * Keyword formats:
2633: * $Keyword$
2634: * $Keyword: value$
2635: */
1.144 deraadt 2636: for (c = data; *c != '\0' && i < len; c++) {
1.63 joris 2637: if (*c == '$') {
2638: /* remember start of this possible keyword */
2639: start = c;
1.125 niallo 2640: start_offset = start - data;
1.63 joris 2641:
2642: /* first following character has to be alphanumeric */
1.144 deraadt 2643: c++;
1.63 joris 2644: if (!isalpha(*c)) {
2645: c = start;
2646: continue;
2647: }
2648:
2649: /* look for any matching keywords */
2650: found = 0;
2651: for (j = 0; j < RCS_NKWORDS; j++) {
2652: if (!strncmp(c, rcs_expkw[j].kw_str,
2653: strlen(rcs_expkw[j].kw_str))) {
2654: found = 1;
2655: kwstr = rcs_expkw[j].kw_str;
2656: kwtype = rcs_expkw[j].kw_type;
2657: break;
2658: }
2659: }
2660:
2661: /* unknown keyword, continue looking */
2662: if (found == 0) {
2663: c = start;
2664: continue;
2665: }
2666:
2667: /* next character has to be ':' or '$' */
2668: c += strlen(kwstr);
2669: if (*c != ':' && *c != '$') {
2670: c = start;
2671: continue;
2672: }
2673:
2674: /*
2675: * if the next character was ':' we need to look for
2676: * an '$' before the end of the line to be sure it is
2677: * in fact a keyword.
2678: */
2679: if (*c == ':') {
2680: while (*c++) {
2681: if (*c == '$' || *c == '\n')
2682: break;
2683: }
2684:
2685: if (*c != '$') {
2686: c = start;
2687: continue;
2688: }
2689: }
1.125 niallo 2690: c_offset = c - data;
2691: end = c + 1;
1.63 joris 2692:
2693: /* start constructing the expansion */
2694: expbuf[0] = '\0';
2695:
2696: if (mode & RCS_KWEXP_NAME) {
2697: strlcat(expbuf, "$", sizeof(expbuf));
2698: strlcat(expbuf, kwstr, sizeof(expbuf));
2699: if (mode & RCS_KWEXP_VAL)
2700: strlcat(expbuf, ": ", sizeof(expbuf));
2701: }
2702:
2703: /*
1.80 reyk 2704: * order matters because of RCS_KW_ID and
2705: * RCS_KW_HEADER here
1.63 joris 2706: */
2707: if (mode & RCS_KWEXP_VAL) {
2708: if (kwtype & RCS_KW_RCSFILE) {
2709: if (!(kwtype & RCS_KW_FULLPATH))
1.80 reyk 2710: strlcat(expbuf,
2711: basename(rcsfile),
1.63 joris 2712: sizeof(expbuf));
2713: else
2714: strlcat(expbuf, rcsfile,
2715: sizeof(expbuf));
2716: strlcat(expbuf, " ", sizeof(expbuf));
2717: }
2718:
2719: if (kwtype & RCS_KW_REVISION) {
1.80 reyk 2720: rcsnum_tostr(rdp->rd_num, buf,
2721: sizeof(buf));
1.63 joris 2722: strlcat(buf, " ", sizeof(buf));
2723: strlcat(expbuf, buf, sizeof(expbuf));
2724: }
2725:
2726: if (kwtype & RCS_KW_DATE) {
1.134 joris 2727: if (timezone_flag != NULL)
2728: fmt = "%Y/%m/%d %H:%M:%S%z ";
2729: else
2730: fmt = "%Y/%m/%d %H:%M:%S ";
2731:
1.165 joris 2732: strftime(buf, sizeof(buf), fmt, &tb);
1.63 joris 2733: strlcat(expbuf, buf, sizeof(expbuf));
2734: }
2735:
2736: if (kwtype & RCS_KW_AUTHOR) {
2737: strlcat(expbuf, rdp->rd_author,
2738: sizeof(expbuf));
2739: strlcat(expbuf, " ", sizeof(expbuf));
2740: }
2741:
2742: if (kwtype & RCS_KW_STATE) {
2743: strlcat(expbuf, rdp->rd_state,
2744: sizeof(expbuf));
2745: strlcat(expbuf, " ", sizeof(expbuf));
2746: }
2747:
2748: /* order does not matter anymore below */
2749: if (kwtype & RCS_KW_LOG)
2750: strlcat(expbuf, " ", sizeof(expbuf));
2751:
2752: if (kwtype & RCS_KW_SOURCE) {
1.80 reyk 2753: strlcat(expbuf, rcsfile,
2754: sizeof(expbuf));
1.63 joris 2755: strlcat(expbuf, " ", sizeof(expbuf));
2756: }
2757:
2758: if (kwtype & RCS_KW_NAME)
2759: strlcat(expbuf, " ", sizeof(expbuf));
2760: }
2761:
2762: /* end the expansion */
2763: if (mode & RCS_KWEXP_NAME)
2764: strlcat(expbuf, "$", sizeof(expbuf));
1.138 deraadt 2765:
1.125 niallo 2766: sizdiff = strlen(expbuf) - (end - start);
1.161 ray 2767: tbuf = xstrdup(end);
1.125 niallo 2768: /* only realloc if we have to */
2769: if (sizdiff > 0) {
1.161 ray 2770: char *newdata;
2771:
1.125 niallo 2772: len += sizdiff;
1.161 ray 2773: newdata = xrealloc(data, 1, len);
2774: data = newdata;
1.125 niallo 2775: /*
2776: * ensure string pointers are not invalidated
2777: * after realloc()
2778: */
2779: start = data + start_offset;
2780: c = data + c_offset;
2781: }
2782: strlcpy(start, expbuf, len);
2783: strlcat(data, tbuf, len);
2784: xfree(tbuf);
1.63 joris 2785: i += strlen(expbuf);
2786: }
1.42 jfb 2787: }
1.81 niallo 2788:
1.125 niallo 2789: return (data);
1.81 niallo 2790: }
2791:
2792: /*
2793: * rcs_deltatext_set()
2794: *
2795: * Set deltatext for <rev> in RCS file <rfp> to <dtext>
1.96 xsa 2796: * Returns -1 on error, 0 on success.
1.81 niallo 2797: */
2798: int
2799: rcs_deltatext_set(RCSFILE *rfp, RCSNUM *rev, const char *dtext)
2800: {
2801: size_t len;
2802: struct rcs_delta *rdp;
1.117 niallo 2803:
2804: /* Write operations require full parsing */
2805: rcs_parse_deltatexts(rfp, NULL);
1.81 niallo 2806:
2807: if ((rdp = rcs_findrev(rfp, rev)) == NULL)
2808: return (-1);
2809:
2810: if (rdp->rd_text != NULL)
1.110 joris 2811: xfree(rdp->rd_text);
1.81 niallo 2812:
2813: len = strlen(dtext);
1.103 joris 2814: if (len != 0) {
1.161 ray 2815: /* XXX - use xstrdup() if rd_text changes to char *. */
2816: rdp->rd_text = xmalloc(len + 1);
1.155 ray 2817: rdp->rd_tlen = len;
2818: (void)memcpy(rdp->rd_text, dtext, len + 1);
1.103 joris 2819: } else {
2820: rdp->rd_text = NULL;
2821: rdp->rd_tlen = 0;
2822: }
1.18 jfb 2823:
1.86 joris 2824: return (0);
2825: }
2826:
2827: /*
2828: * rcs_rev_setlog()
2829: *
2830: * Sets the log message of revision <rev> to <logtext>
2831: */
2832: int
2833: rcs_rev_setlog(RCSFILE *rfp, RCSNUM *rev, const char *logtext)
2834: {
2835: struct rcs_delta *rdp;
2836: char buf[16];
2837:
2838: rcsnum_tostr(rev, buf, sizeof(buf));
2839:
2840: if ((rdp = rcs_findrev(rfp, rev)) == NULL)
2841: return (-1);
2842:
2843: if (rdp->rd_log != NULL)
1.110 joris 2844: xfree(rdp->rd_log);
1.86 joris 2845:
1.110 joris 2846: rdp->rd_log = xstrdup(logtext);
1.86 joris 2847: rfp->rf_flags &= ~RCS_SYNCED;
1.95 niallo 2848: return (0);
2849: }
1.97 niallo 2850: /*
2851: * rcs_rev_getdate()
2852: *
2853: * Get the date corresponding to a given revision.
2854: * Returns the date on success, -1 on failure.
2855: */
2856: time_t
2857: rcs_rev_getdate(RCSFILE *rfp, RCSNUM *rev)
2858: {
2859: struct rcs_delta *rdp;
2860:
2861: if ((rdp = rcs_findrev(rfp, rev)) == NULL)
2862: return (-1);
2863:
2864: return (mktime(&rdp->rd_date));
2865: }
1.95 niallo 2866:
2867: /*
2868: * rcs_state_set()
2869: *
2870: * Sets the state of revision <rev> to <state>
2871: * NOTE: default state is 'Exp'. States may not contain spaces.
2872: *
2873: * Returns -1 on failure, 0 on success.
2874: */
2875: int
2876: rcs_state_set(RCSFILE *rfp, RCSNUM *rev, const char *state)
2877: {
2878: struct rcs_delta *rdp;
2879:
2880: if ((rdp = rcs_findrev(rfp, rev)) == NULL)
2881: return (-1);
2882:
2883: if (rdp->rd_state != NULL)
1.110 joris 2884: xfree(rdp->rd_state);
1.95 niallo 2885:
1.110 joris 2886: rdp->rd_state = xstrdup(state);
1.95 niallo 2887:
2888: rfp->rf_flags &= ~RCS_SYNCED;
2889:
2890: return (0);
2891: }
2892:
2893: /*
2894: * rcs_state_check()
2895: *
2896: * Check if string <state> is valid.
2897: *
1.96 xsa 2898: * Returns 0 if the string is valid, -1 otherwise.
1.95 niallo 2899: */
2900: int
2901: rcs_state_check(const char *state)
2902: {
2903: if (strchr(state, ' ') != NULL)
2904: return (-1);
2905:
1.18 jfb 2906: return (0);
1.1 jfb 2907: }
1.97 niallo 2908:
2909: /*
2910: * rcs_state_get()
2911: *
2912: * Get the state for a given revision of a specified RCSFILE.
2913: *
2914: * Returns NULL on failure.
2915: */
2916: const char *
2917: rcs_state_get(RCSFILE *rfp, RCSNUM *rev)
2918: {
2919: struct rcs_delta *rdp;
2920:
2921: if ((rdp = rcs_findrev(rfp, rev)) == NULL)
2922: return (NULL);
2923:
2924: return (rdp->rd_state);
2925: }
2926:
1.131 niallo 2927: /*
2928: * rcs_kwexp_buf()
2929: *
2930: * Do keyword expansion on a buffer if necessary
2931: *
2932: */
2933: BUF *
2934: rcs_kwexp_buf(BUF *bp, RCSFILE *rf, RCSNUM *rev)
2935: {
2936: struct rcs_delta *rdp;
2937: char *expanded, *tbuf;
2938: int expmode;
2939: size_t len;
2940:
2941: /*
2942: * Do keyword expansion if required.
2943: */
2944: if (rf->rf_expand != NULL)
2945: expmode = rcs_kwexp_get(rf);
2946: else
2947: expmode = RCS_KWEXP_DEFAULT;
2948:
2949: if (!(expmode & RCS_KWEXP_NONE)) {
2950: if ((rdp = rcs_findrev(rf, rev)) == NULL)
2951: fatal("could not fetch revision");
2952: cvs_buf_putc(bp, '\0');
2953: len = cvs_buf_len(bp);
2954: tbuf = cvs_buf_release(bp);
2955: expanded = rcs_expand_keywords(rf->rf_path, rdp,
2956: tbuf, len, expmode);
2957: bp = cvs_buf_alloc(len, BUF_AUTOEXT);
1.138 deraadt 2958: cvs_buf_set(bp, expanded, strlen(expanded), 0);
1.131 niallo 2959: xfree(expanded);
2960: }
2961: return (bp);
2962: }
1.105 joris 2963:
1.106 joris 2964: #if !defined(RCSPROG)
2965:
1.105 joris 2966: static char *month_tab[] = {
2967: "Jan",
2968: "Feb",
2969: "Mar",
2970: "Apr",
2971: "May",
2972: "Jun",
2973: "Jul",
2974: "Aug",
2975: "Sep",
2976: "Oct",
2977: "Nov",
2978: "Dec"
2979: };
2980:
1.163 xsa 2981: void
2982: rcs_kflag_usage(void)
2983: {
2984: (void)fprintf(stderr, "Valid expansion modes include:\n"
2985: "\t-kkv\tGenerate keywords using the default form.\n"
2986: "\t-kkvl\tLike -kkv, except locker's name inserted.\n"
2987: "\t-kk\tGenerate only keyword names in keyword strings.\n"
2988: "\t-kv\tGenerate only keyword values in keyword strings.\n"
2989: "\t-ko\tGenerate old keyword string "
2990: "(no changes from checked in file).\n"
2991: "\t-kb\tGenerate binary file unmodified (merges not allowed).\n");
2992: }
2993:
1.105 joris 2994: /*
2995: * Checkout a certain revision <rev> of RCS file <rf> to either standard
2996: * output when running in server mode, or to <fpath> when running in local mode.
2997: *
2998: * If type is CHECKOUT_REV_MERGED we have an extra argument, which
2999: * is the buffer containing the merged file.
3000: *
3001: * If type is CHECKOUT_REV_REMOVED, the file has been removed and we
3002: * need to do the same thing.
3003: */
3004: int
3005: cvs_checkout_rev(RCSFILE *rf, RCSNUM *rev, CVSFILE *cf, char *fpath,
3006: int local, int type, ...)
3007: {
3008: BUF *bp;
3009: int l, ret, fsize;
3010: char timebuf[32], entry[MAXPATHLEN], copyfile[MAXPATHLEN];
3011: char *content, *repo, buf[MAXPATHLEN], modestr[16];
3012: struct cvsroot *root;
3013: struct cvs_ent *ent;
3014: va_list ap;
3015: time_t rcstime;
3016: struct timeval tv[2];
3017: struct tm *tp;
3018: RCSNUM *oldrev;
3019:
3020: bp = NULL;
3021: ret = -1;
3022: content = NULL;
3023: oldrev = NULL;
3024:
1.168 ! deraadt 3025: if (type != CHECKOUT_REV_MERGED && type != CHECKOUT_REV_REMOVED) {
1.105 joris 3026: /* fetch the contents of the revision */
3027: if ((bp = rcs_getrev(rf, rev)) == NULL) {
3028: cvs_log(LP_ERR, "revision '%s' not found in file '%s'",
3029: rcsnum_tostr(rev, buf, sizeof(buf)), fpath);
3030: goto out;
3031: }
1.131 niallo 3032: bp = rcs_kwexp_buf(bp, rf, rev);
1.105 joris 3033: } else if (type != CHECKOUT_REV_REMOVED) {
3034: va_start(ap, type);
3035: bp = va_arg(ap, BUF *);
3036: va_end(ap);
3037: }
3038:
3039: if (type == CHECKOUT_REV_CREATED)
3040: rcstime = rcs_rev_getdate(rf, rev);
1.108 joris 3041: else if (type == CHECKOUT_REV_MERGED ||
3042: type == CHECKOUT_REV_UPDATED) {
1.105 joris 3043: time(&rcstime);
1.108 joris 3044: if ((rcstime = cvs_hack_time(rcstime, 1)) < 0)
3045: goto out;
3046: }
1.105 joris 3047:
1.108 joris 3048: if (type == CHECKOUT_REV_CREATED ||
1.130 niallo 3049: type == CHECKOUT_REV_MERGED ||
1.108 joris 3050: type == CHECKOUT_REV_UPDATED) {
1.105 joris 3051: ctime_r(&rcstime, timebuf);
3052: l = strlen(timebuf);
1.168 ! deraadt 3053: if (l > 0 && timebuf[l - 1] == '\n')
1.105 joris 3054: timebuf[--l] = '\0';
3055:
3056: l = snprintf(entry, sizeof(entry), "/%s/%s/%s/%s/", cf->cf_name,
3057: rcsnum_tostr(rev, buf, sizeof(buf)),
3058: (local == 1) ? timebuf : "",
3059: (type == CHECKOUT_REV_MERGED) ? "+=" : "");
3060: if (l == -1 || l >= (int)sizeof(buf))
3061: goto out;
3062: }
3063:
3064: if (type == CHECKOUT_REV_MERGED) {
1.111 joris 3065: oldrev = rcsnum_alloc();
3066: rcsnum_cpy(rev, oldrev, 0);
1.105 joris 3067:
1.143 niallo 3068: if (oldrev->rn_id[oldrev->rn_len - 1] <= 0)
1.105 joris 3069: goto out;
1.143 niallo 3070: oldrev = rcsnum_dec(oldrev);
1.105 joris 3071:
3072: l = snprintf(copyfile, sizeof(copyfile), ".#%s.%s",
3073: cf->cf_name, rcsnum_tostr(oldrev, buf, sizeof(buf)));
3074: if (l == -1 || l >= (int)sizeof(copyfile))
3075: goto out;
3076: }
3077:
3078: root = CVS_DIR_ROOT(cf);
3079: repo = CVS_DIR_REPO(cf);
3080:
3081: /*
3082: * In local mode, just copy the entire contents to fpath.
3083: * In server mode, we need to send it to the client together with
3084: * some responses.
3085: */
3086: if (local) {
3087: l = 0;
3088: if (cf->cf_entry == NULL) {
3089: l = 1;
3090: cf->cf_entry = cvs_ent_open(cf->cf_dir, O_RDWR);
3091: if (cf->cf_entry == NULL) {
1.122 reyk 3092: cvs_log(LP_ERR, "failed to open Entry "
3093: "file '%s'", cf->cf_dir);
1.105 joris 3094: goto out;
3095: }
3096: }
3097:
3098: cvs_ent_remove(cf->cf_entry, cf->cf_name, 1);
3099: if (type != CHECKOUT_REV_REMOVED) {
3100: cvs_ent_addln(cf->cf_entry, entry);
3101: ent = cvs_ent_get(cf->cf_entry, cf->cf_name);
3102: ent->processed = 1;
3103: }
3104:
3105: if (l == 1)
3106: cvs_ent_close(cf->cf_entry);
3107:
3108: switch (type) {
3109: case CHECKOUT_REV_REMOVED:
3110: if (cvs_unlink(fpath) < 0)
3111: goto out;
3112: break;
3113: case CHECKOUT_REV_MERGED:
3114: /* XXX move the old file when merging */
1.108 joris 3115: case CHECKOUT_REV_UPDATED:
1.105 joris 3116: case CHECKOUT_REV_CREATED:
1.114 xsa 3117: cvs_buf_write(bp, fpath, cf->cf_mode);
1.107 joris 3118: /*
3119: * correct the time first
3120: */
3121: if ((rcstime = cvs_hack_time(rcstime, 0)) == 0)
3122: goto out;
3123:
1.105 joris 3124: tv[0].tv_sec = rcstime;
3125: tv[0].tv_usec = 0;
3126: tv[1] = tv[0];
3127: if (utimes(fpath, tv) == -1)
3128: cvs_log(LP_ERRNO, "failed to set timestamps");
3129: break;
3130: }
3131: } else {
3132: /* sanity */
3133: if (cf->cf_type != DT_REG) {
3134: cvs_log(LP_ERR, "cvs_checkout_rev: none DT_REG file");
3135: goto out;
3136: }
3137:
3138: /*
3139: * if we are removing a file, we don't need this stuff.
3140: */
3141: if (type != CHECKOUT_REV_REMOVED) {
1.107 joris 3142: if ((rcstime = cvs_hack_time(rcstime, 0)) == 0)
3143: goto out;
3144:
1.105 joris 3145: tp = gmtime(&rcstime);
3146: l = snprintf(timebuf, sizeof(timebuf),
3147: "%02d %s %d %02d:%02d:%02d -0000",
3148: tp->tm_mday, month_tab[tp->tm_mon],
3149: tp->tm_year + 1900, tp->tm_hour,
3150: tp->tm_min, tp->tm_sec);
3151: if (l == -1 || l >= (int)sizeof(timebuf))
3152: goto out;
3153:
3154: fsize = cvs_buf_len(bp);
3155: cvs_modetostr(cf->cf_mode, modestr, sizeof(modestr));
1.114 xsa 3156: cvs_buf_putc(bp, '\0');
1.105 joris 3157: content = cvs_buf_release(bp);
3158: bp = NULL;
3159: }
3160:
3161: if (type == CHECKOUT_REV_MERGED) {
3162: printf("Copy-file %s/\n", (cf->cf_dir != NULL) ?
3163: cf->cf_dir : ".");
3164: printf("%s/%s/%s\n", root->cr_dir, repo, cf->cf_name);
3165: printf("%s\n", copyfile);
3166: }
3167:
3168: switch (type) {
3169: case CHECKOUT_REV_MERGED:
3170: printf("Merged");
3171: break;
3172: case CHECKOUT_REV_REMOVED:
3173: printf("Removed");
3174: break;
3175: case CHECKOUT_REV_CREATED:
3176: printf("Mod-time %s\n", timebuf);
3177: printf("Created");
3178: break;
3179: default:
3180: cvs_log(LP_ERR, "cvs_checkout_rev: bad type %d",
3181: type);
3182: goto out;
3183: }
3184:
3185: printf(" %s/\n", (cf->cf_dir != NULL) ? cf->cf_dir : ".");
3186: printf("%s/%s\n", repo, cf->cf_name);
3187:
3188: if (type != CHECKOUT_REV_REMOVED) {
3189: printf("%s\n", entry);
3190: printf("%s\n%d\n%s", modestr, fsize, content);
3191: }
3192: }
3193:
3194: ret = 0;
3195:
3196: out:
3197: if (oldrev != NULL)
3198: rcsnum_free(oldrev);
3199: if (bp != NULL)
3200: cvs_buf_free(bp);
3201: if (content != NULL)
1.110 joris 3202: xfree(content);
1.105 joris 3203:
3204: return (ret);
3205: }
1.106 joris 3206:
1.163 xsa 3207: #endif /* !RCSPROG */