/* $OpenBSD: rcsparse.c,v 1.11 2014/12/01 21:58:46 deraadt Exp $ */ /* * Copyright (c) 2010 Tobias Stoeckmann * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include "log.h" #include "rcs.h" #include "rcsparse.h" #include "xmalloc.h" #define RCS_BUFSIZE 16384 #define RCS_BUFEXTSIZE 8192 /* RCS token types */ #define RCS_TOK_HEAD (1 << 0) #define RCS_TOK_BRANCH (1 << 1) #define RCS_TOK_ACCESS (1 << 2) #define RCS_TOK_SYMBOLS (1 << 3) #define RCS_TOK_LOCKS (1 << 4) #define RCS_TOK_STRICT (1 << 5) #define RCS_TOK_COMMENT (1 << 6) #define RCS_TOK_COMMITID (1 << 7) #define RCS_TOK_EXPAND (1 << 8) #define RCS_TOK_DESC (1 << 9) #define RCS_TOK_DATE (1 << 10) #define RCS_TOK_AUTHOR (1 << 11) #define RCS_TOK_STATE (1 << 12) #define RCS_TOK_BRANCHES (1 << 13) #define RCS_TOK_NEXT (1 << 14) #define RCS_TOK_LOG (1 << 15) #define RCS_TOK_TEXT (1 << 16) #define RCS_TOK_COLON (1 << 17) #define RCS_TOK_COMMA (1 << 18) #define RCS_TOK_SCOLON (1 << 19) #define RCS_TYPE_STRING (1 << 20) #define RCS_TYPE_NUMBER (1 << 21) #define RCS_TYPE_BRANCH (1 << 22) #define RCS_TYPE_REVISION (1 << 23) #define RCS_TYPE_LOGIN (1 << 24) #define RCS_TYPE_STATE (1 << 25) #define RCS_TYPE_SYMBOL (1 << 26) #define RCS_TYPE_DATE (1 << 27) #define RCS_TYPE_KEYWORD (1 << 28) #define RCS_TYPE_COMMITID (1 << 29) #define MANDATORY 0 #define OPTIONAL 1 /* opaque parse data */ struct rcs_pdata { char *rp_buf; size_t rp_blen; char *rp_bufend; size_t rp_tlen; struct rcs_delta *rp_delta; int rp_lineno; int rp_msglineno; int rp_token; union { RCSNUM *rev; char *str; struct tm date; } rp_value; }; struct rcs_keyword { const char *k_name; int k_val; }; struct rcs_section { int token; int (*parse)(RCSFILE *, struct rcs_pdata *); int opt; }; /* this has to be sorted always */ static const struct rcs_keyword keywords[] = { { "access", RCS_TOK_ACCESS}, { "author", RCS_TOK_AUTHOR}, { "branch", RCS_TOK_BRANCH}, { "branches", RCS_TOK_BRANCHES}, { "comment", RCS_TOK_COMMENT}, { "commitid", RCS_TOK_COMMITID}, { "date", RCS_TOK_DATE}, { "desc", RCS_TOK_DESC}, { "expand", RCS_TOK_EXPAND}, { "head", RCS_TOK_HEAD}, { "locks", RCS_TOK_LOCKS}, { "log", RCS_TOK_LOG}, { "next", RCS_TOK_NEXT}, { "state", RCS_TOK_STATE}, { "strict", RCS_TOK_STRICT}, { "symbols", RCS_TOK_SYMBOLS}, { "text", RCS_TOK_TEXT} }; /* parser functions specified in rcs_section structs */ static int rcsparse_head(RCSFILE *, struct rcs_pdata *); static int rcsparse_branch(RCSFILE *, struct rcs_pdata *); static int rcsparse_access(RCSFILE *, struct rcs_pdata *); static int rcsparse_symbols(RCSFILE *, struct rcs_pdata *); static int rcsparse_locks(RCSFILE *, struct rcs_pdata *); static int rcsparse_strict(RCSFILE *, struct rcs_pdata *); static int rcsparse_comment(RCSFILE *, struct rcs_pdata *); static int rcsparse_commitid(RCSFILE *, struct rcs_pdata *); static int rcsparse_expand(RCSFILE *, struct rcs_pdata *); static int rcsparse_deltarevision(RCSFILE *, struct rcs_pdata *); static int rcsparse_date(RCSFILE *, struct rcs_pdata *); static int rcsparse_author(RCSFILE *, struct rcs_pdata *); static int rcsparse_state(RCSFILE *, struct rcs_pdata *); static int rcsparse_branches(RCSFILE *, struct rcs_pdata *); static int rcsparse_next(RCSFILE *, struct rcs_pdata *); static int rcsparse_textrevision(RCSFILE *, struct rcs_pdata *); static int rcsparse_log(RCSFILE *, struct rcs_pdata *); static int rcsparse_text(RCSFILE *, struct rcs_pdata *); static int rcsparse_delta(RCSFILE *); static int rcsparse_deltatext(RCSFILE *); static int rcsparse_desc(RCSFILE *); static int kw_cmp(const void *, const void *); static int rcsparse(RCSFILE *, struct rcs_section *); static void rcsparse_growbuf(RCSFILE *); static int rcsparse_string(RCSFILE *, int); static int rcsparse_token(RCSFILE *, int); static void rcsparse_warnx(RCSFILE *, char *, ...); static int valid_login(char *); static int valid_commitid(char *); /* * head [REVISION]; * [branch BRANCH]; * access [LOGIN ...]; * symbols [SYMBOL:REVISION ...]; * locks [LOGIN:REVISION ...]; * [strict;] * [comment [@[...]@];] * [expand [@[...]@];] */ static struct rcs_section sec_admin[] = { { RCS_TOK_HEAD, rcsparse_head, MANDATORY }, { RCS_TOK_BRANCH, rcsparse_branch, OPTIONAL }, { RCS_TOK_ACCESS, rcsparse_access, MANDATORY }, { RCS_TOK_SYMBOLS, rcsparse_symbols, MANDATORY }, { RCS_TOK_LOCKS, rcsparse_locks, MANDATORY }, { RCS_TOK_STRICT, rcsparse_strict, OPTIONAL }, { RCS_TOK_COMMENT, rcsparse_comment, OPTIONAL }, { RCS_TOK_EXPAND, rcsparse_expand, OPTIONAL }, { 0, NULL, 0 } }; /* * REVISION * date [YY]YY.MM.DD.HH.MM.SS; * author LOGIN; * state STATE; * branches [REVISION ...]; * next [REVISION]; * [commitid ID;] */ static struct rcs_section sec_delta[] = { { RCS_TYPE_REVISION, rcsparse_deltarevision, MANDATORY }, { RCS_TOK_DATE, rcsparse_date, MANDATORY }, { RCS_TOK_AUTHOR, rcsparse_author, MANDATORY }, { RCS_TOK_STATE, rcsparse_state, MANDATORY }, { RCS_TOK_BRANCHES, rcsparse_branches, MANDATORY }, { RCS_TOK_NEXT, rcsparse_next, MANDATORY }, { RCS_TOK_COMMITID, rcsparse_commitid, OPTIONAL }, { 0, NULL, 0 } }; /* * REVISION * log @[...]@ * text @[...]@ */ static struct rcs_section sec_deltatext[] = { { RCS_TYPE_REVISION, rcsparse_textrevision, MANDATORY }, { RCS_TOK_LOG, rcsparse_log, MANDATORY }, { RCS_TOK_TEXT, rcsparse_text, MANDATORY }, { 0, NULL, 0 } }; /* * rcsparse_init() * * Initializes the parsing data structure and parses the admin section of * RCS file . * * Returns 0 on success or 1 on failure. */ int rcsparse_init(RCSFILE *rfp) { struct rcs_pdata *pdp; if (rfp->rf_flags & RCS_PARSED) return (0); pdp = xcalloc(1, sizeof(*pdp)); pdp->rp_buf = xmalloc(RCS_BUFSIZE); pdp->rp_blen = RCS_BUFSIZE; pdp->rp_bufend = pdp->rp_buf + pdp->rp_blen - 1; pdp->rp_token = -1; pdp->rp_lineno = 1; pdp->rp_msglineno = 1; /* ditch the strict lock */ rfp->rf_flags &= ~RCS_SLOCK; rfp->rf_pdata = pdp; if (rcsparse(rfp, sec_admin)) { rcsparse_free(rfp); return (1); } if ((rfp->rf_flags & RCS_PARSE_FULLY) && rcsparse_deltatexts(rfp, NULL)) { rcsparse_free(rfp); return (1); } rfp->rf_flags |= RCS_SYNCED; return (0); } /* * rcsparse_deltas() * * Parse deltas. If is not NULL, parse only as far as that * revision. If is NULL, parse all deltas. * * Returns 0 on success or 1 on error. */ int rcsparse_deltas(RCSFILE *rfp, RCSNUM *rev) { int ret; struct rcs_delta *enddelta; if ((rfp->rf_flags & PARSED_DELTAS) || (rfp->rf_flags & RCS_CREATE)) return (0); for (;;) { ret = rcsparse_delta(rfp); if (rev != NULL) { enddelta = TAILQ_LAST(&(rfp->rf_delta), rcs_dlist); if (enddelta == NULL) return (1); if (rcsnum_cmp(enddelta->rd_num, rev, 0) == 0) break; } if (ret == 0) { rfp->rf_flags |= PARSED_DELTAS; break; } else if (ret == -1) return (1); } return (0); } /* * rcsparse_deltatexts() * * Parse deltatexts. If is not NULL, parse only as far as that * revision. If is NULL, parse everything. * * Returns 0 on success or 1 on error. */ int rcsparse_deltatexts(RCSFILE *rfp, RCSNUM *rev) { int ret; struct rcs_delta *rdp; if ((rfp->rf_flags & PARSED_DELTATEXTS) || (rfp->rf_flags & RCS_CREATE)) return (0); if (!(rfp->rf_flags & PARSED_DESC)) if (rcsparse_desc(rfp)) return (1); rdp = (rev != NULL) ? rcs_findrev(rfp, rev) : NULL; for (;;) { if (rdp != NULL && rdp->rd_text != NULL) break; ret = rcsparse_deltatext(rfp); if (ret == 0) { rfp->rf_flags |= PARSED_DELTATEXTS; break; } else if (ret == -1) return (1); } return (0); } /* * rcsparse_free() * * Free the contents of the 's parser data structure. */ void rcsparse_free(RCSFILE *rfp) { struct rcs_pdata *pdp; pdp = rfp->rf_pdata; if (pdp->rp_buf != NULL) xfree(pdp->rp_buf); if (pdp->rp_token == RCS_TYPE_REVISION) rcsnum_free(pdp->rp_value.rev); xfree(pdp); } /* * rcsparse_desc() * * Parse desc of the RCS file . By calling rcsparse_desc, all deltas * will be parsed in order to proceed the reading cursor to the desc keyword. * * desc @[...]@; * * Returns 0 on success or 1 on error. */ static int rcsparse_desc(RCSFILE *rfp) { struct rcs_pdata *pdp; if (rfp->rf_flags & PARSED_DESC) return (0); if (!(rfp->rf_flags & PARSED_DELTAS) && rcsparse_deltas(rfp, NULL)) return (1); pdp = (struct rcs_pdata *)rfp->rf_pdata; if (rcsparse_token(rfp, RCS_TOK_DESC) != RCS_TOK_DESC || rcsparse_token(rfp, RCS_TYPE_STRING) != RCS_TYPE_STRING) return (1); rfp->rf_desc = pdp->rp_value.str; rfp->rf_flags |= PARSED_DESC; return (0); } /* * rcsparse_deltarevision() * * Called upon reaching a new REVISION entry in the delta section. * A new rcs_delta structure will be prepared in pdp->rp_delta for further * parsing. * * REVISION * * Always returns 0. */ static int rcsparse_deltarevision(RCSFILE *rfp, struct rcs_pdata *pdp) { struct rcs_delta *rdp; rdp = xcalloc(1, sizeof(*rdp)); TAILQ_INIT(&rdp->rd_branches); rdp->rd_num = pdp->rp_value.rev; pdp->rp_delta = rdp; return (0); } /* * rcsparse_date() * * Parses the specified date of current delta pdp->rp_delta. * * date YYYY.MM.DD.HH.MM.SS; * * Returns 0 on success or 1 on failure. */ static int rcsparse_date(RCSFILE *rfp, struct rcs_pdata *pdp) { if (rcsparse_token(rfp, RCS_TYPE_DATE) != RCS_TYPE_DATE) return (1); pdp->rp_delta->rd_date = pdp->rp_value.date; return (rcsparse_token(rfp, RCS_TOK_SCOLON) != RCS_TOK_SCOLON); } /* * rcsparse_author() * * Parses the specified author of current delta pdp->rp_delta. * * author LOGIN; * * Returns 0 on success or 1 on failure. */ static int rcsparse_author(RCSFILE *rfp, struct rcs_pdata *pdp) { if (rcsparse_token(rfp, RCS_TYPE_LOGIN) != RCS_TYPE_LOGIN) return (1); pdp->rp_delta->rd_author = pdp->rp_value.str; return (rcsparse_token(rfp, RCS_TOK_SCOLON) != RCS_TOK_SCOLON); } /* * rcsparse_state() * * Parses the specified state of current delta pdp->rp_delta. * * state STATE; * * Returns 0 on success or 1 on failure. */ static int rcsparse_state(RCSFILE *rfp, struct rcs_pdata *pdp) { if (rcsparse_token(rfp, RCS_TYPE_STATE) != RCS_TYPE_STATE) return (1); pdp->rp_delta->rd_state = pdp->rp_value.str; return (rcsparse_token(rfp, RCS_TOK_SCOLON) != RCS_TOK_SCOLON); } /* * rcsparse_branches() * * Parses the specified branches of current delta pdp->rp_delta. * * branches [REVISION ...]; * * Returns 0 on success or 1 on failure. */ static int rcsparse_branches(RCSFILE *rfp, struct rcs_pdata *pdp) { struct rcs_branch *rb; int type; while ((type = rcsparse_token(rfp, RCS_TOK_SCOLON|RCS_TYPE_REVISION)) == RCS_TYPE_REVISION) { rb = xmalloc(sizeof(*rb)); rb->rb_num = pdp->rp_value.rev; TAILQ_INSERT_TAIL(&(pdp->rp_delta->rd_branches), rb, rb_list); } return (type != RCS_TOK_SCOLON); } /* * rcsparse_next() * * Parses the specified next revision of current delta pdp->rp_delta. * * next [REVISION]; * * Returns 0 on success or 1 on failure. */ static int rcsparse_next(RCSFILE *rfp, struct rcs_pdata *pdp) { int type; type = rcsparse_token(rfp, RCS_TYPE_REVISION|RCS_TOK_SCOLON); if (type == RCS_TYPE_REVISION) { pdp->rp_delta->rd_next = pdp->rp_value.rev; type = rcsparse_token(rfp, RCS_TOK_SCOLON); } else pdp->rp_delta->rd_next = rcsnum_alloc(); return (type != RCS_TOK_SCOLON); } /* * rcsparse_commitid() * * Parses the specified commit id of current delta pdp->rp_delta. The * commitid keyword is optional and can be omitted. * * [commitid ID;] * * Returns 0 on success or 1 on failure. */ static int rcsparse_commitid(RCSFILE *rfp, struct rcs_pdata *pdp) { if (rcsparse_token(rfp, RCS_TYPE_COMMITID) != RCS_TYPE_COMMITID) return (1); pdp->rp_delta->rd_commitid = pdp->rp_value.str; return (rcsparse_token(rfp, RCS_TOK_SCOLON) != RCS_TOK_SCOLON); } /* * rcsparse_textrevision() * * Called upon reaching a new REVISION entry in the delta text section. * pdp->rp_delta will be set to REVISION's delta (created in delta section) * for further parsing. * * REVISION * * Returns 0 on success or 1 on failure. */ static int rcsparse_textrevision(RCSFILE *rfp, struct rcs_pdata *pdp) { struct rcs_delta *rdp; TAILQ_FOREACH(rdp, &rfp->rf_delta, rd_list) { if (rcsnum_cmp(rdp->rd_num, pdp->rp_value.rev, 0) == 0) break; } if (rdp == NULL) { rcsparse_warnx(rfp, "delta for revision \"%s\" not found", pdp->rp_buf); rcsnum_free(pdp->rp_value.rev); return (1); } pdp->rp_delta = rdp; rcsnum_free(pdp->rp_value.rev); return (0); } /* * rcsparse_log() * * Parses the specified log of current deltatext pdp->rp_delta. * * log @[...]@ * * Returns 0 on success or 1 on failure. */ static int rcsparse_log(RCSFILE *rfp, struct rcs_pdata *pdp) { if (rcsparse_token(rfp, RCS_TYPE_STRING) != RCS_TYPE_STRING) return (1); pdp->rp_delta->rd_log = pdp->rp_value.str; return (0); } /* * rcsparse_text() * * Parses the specified text of current deltatext pdp->rp_delta. * * text @[...]@ * * Returns 0 on success or 1 on failure. */ static int rcsparse_text(RCSFILE *rfp, struct rcs_pdata *pdp) { if (rcsparse_token(rfp, RCS_TYPE_STRING) != RCS_TYPE_STRING) return (1); pdp->rp_delta->rd_tlen = pdp->rp_tlen - 1; if (pdp->rp_delta->rd_tlen == 0) { pdp->rp_delta->rd_text = xstrdup(""); } else { pdp->rp_delta->rd_text = xmalloc(pdp->rp_delta->rd_tlen); memcpy(pdp->rp_delta->rd_text, pdp->rp_buf, pdp->rp_delta->rd_tlen); } xfree(pdp->rp_value.str); return (0); } /* * rcsparse_head() * * Parses the head revision of RCS file . * * head [REVISION]; * * Returns 0 on success or 1 on failure. */ static int rcsparse_head(RCSFILE *rfp, struct rcs_pdata *pdp) { int type; type = rcsparse_token(rfp, RCS_TYPE_REVISION|RCS_TOK_SCOLON); if (type == RCS_TYPE_REVISION) { rfp->rf_head = pdp->rp_value.rev; type = rcsparse_token(rfp, RCS_TOK_SCOLON); } return (type != RCS_TOK_SCOLON); } /* * rcsparse_branch() * * Parses the default branch of RCS file . The branch keyword is * optional and can be omitted. * * [branch BRANCH;] * * Returns 0 on success or 1 on failure. */ static int rcsparse_branch(RCSFILE *rfp, struct rcs_pdata *pdp) { int type; type = rcsparse_token(rfp, RCS_TYPE_BRANCH|RCS_TOK_SCOLON); if (type == RCS_TYPE_BRANCH) { rfp->rf_branch = pdp->rp_value.rev; type = rcsparse_token(rfp, RCS_TOK_SCOLON); } return (type != RCS_TOK_SCOLON); } /* * rcsparse_access() * * Parses the access list of RCS file . * * access [LOGIN ...]; * * Returns 0 on success or 1 on failure. */ static int rcsparse_access(RCSFILE *rfp, struct rcs_pdata *pdp) { struct rcs_access *ap; int type; while ((type = rcsparse_token(rfp, RCS_TOK_SCOLON|RCS_TYPE_LOGIN)) == RCS_TYPE_LOGIN) { ap = xmalloc(sizeof(*ap)); ap->ra_name = pdp->rp_value.str; TAILQ_INSERT_TAIL(&(rfp->rf_access), ap, ra_list); } return (type != RCS_TOK_SCOLON); } /* * rcsparse_symbols() * * Parses the symbol list of RCS file . * * symbols [SYMBOL:REVISION ...]; * * Returns 0 on success or 1 on failure. */ static int rcsparse_symbols(RCSFILE *rfp, struct rcs_pdata *pdp) { struct rcs_sym *symp; char *name; int type; while ((type = rcsparse_token(rfp, RCS_TOK_SCOLON|RCS_TYPE_SYMBOL)) == RCS_TYPE_SYMBOL) { name = pdp->rp_value.str; if (rcsparse_token(rfp, RCS_TOK_COLON) != RCS_TOK_COLON || rcsparse_token(rfp, RCS_TYPE_NUMBER) != RCS_TYPE_NUMBER) { xfree(name); return (1); } symp = xmalloc(sizeof(*symp)); symp->rs_name = name; symp->rs_num = pdp->rp_value.rev; TAILQ_INSERT_TAIL(&(rfp->rf_symbols), symp, rs_list); } return (type != RCS_TOK_SCOLON); } /* * rcsparse_locks() * * Parses the lock list of RCS file . * * locks [SYMBOL:REVISION ...]; * * Returns 0 on success or 1 on failure. */ static int rcsparse_locks(RCSFILE *rfp, struct rcs_pdata *pdp) { struct rcs_lock *lkp; char *name; int type; while ((type = rcsparse_token(rfp, RCS_TOK_SCOLON|RCS_TYPE_LOGIN)) == RCS_TYPE_LOGIN) { name = pdp->rp_value.str; if (rcsparse_token(rfp, RCS_TOK_COLON) != RCS_TOK_COLON || rcsparse_token(rfp, RCS_TYPE_REVISION) != RCS_TYPE_REVISION) { xfree(name); return (1); } lkp = xmalloc(sizeof(*lkp)); lkp->rl_name = name; lkp->rl_num = pdp->rp_value.rev; TAILQ_INSERT_TAIL(&(rfp->rf_locks), lkp, rl_list); } return (type != RCS_TOK_SCOLON); } /* * rcsparse_locks() * * Parses the strict keyword of RCS file . The strict keyword is * optional and can be omitted. * * [strict;] * * Returns 0 on success or 1 on failure. */ static int rcsparse_strict(RCSFILE *rfp, struct rcs_pdata *pdp) { rfp->rf_flags |= RCS_SLOCK; return (rcsparse_token(rfp, RCS_TOK_SCOLON) != RCS_TOK_SCOLON); } /* * rcsparse_comment() * * Parses the comment of RCS file . The comment keyword is optional * and can be omitted. * * [comment [@[...]@];] * * Returns 0 on success or 1 on failure. */ static int rcsparse_comment(RCSFILE *rfp, struct rcs_pdata *pdp) { int type; type = rcsparse_token(rfp, RCS_TYPE_STRING|RCS_TOK_SCOLON); if (type == RCS_TYPE_STRING) { rfp->rf_comment = pdp->rp_value.str; type = rcsparse_token(rfp, RCS_TOK_SCOLON); } return (type != RCS_TOK_SCOLON); } /* * rcsparse_expand() * * Parses expand of RCS file . The expand keyword is optional and * can be omitted. * * [expand [@[...]@];] * * Returns 0 on success or 1 on failure. */ static int rcsparse_expand(RCSFILE *rfp, struct rcs_pdata *pdp) { int type; type = rcsparse_token(rfp, RCS_TYPE_STRING|RCS_TOK_SCOLON); if (type == RCS_TYPE_STRING) { rfp->rf_expand = pdp->rp_value.str; type = rcsparse_token(rfp, RCS_TOK_SCOLON); } return (type != RCS_TOK_SCOLON); } #define RBUF_PUTC(ch) \ do { \ if (bp == pdp->rp_bufend - 1) { \ len = bp - pdp->rp_buf; \ rcsparse_growbuf(rfp); \ bp = pdp->rp_buf + len; \ } \ *(bp++) = (ch); \ pdp->rp_tlen++; \ } while (0); static int rcsparse_string(RCSFILE *rfp, int allowed) { struct rcs_pdata *pdp; int c; size_t len; char *bp; pdp = (struct rcs_pdata *)rfp->rf_pdata; bp = pdp->rp_buf; pdp->rp_tlen = 0; *bp = '\0'; for (;;) { c = getc(rfp->rf_file); if (c == '@') { c = getc(rfp->rf_file); if (c == EOF) { return (EOF); } else if (c != '@') { ungetc(c, rfp->rf_file); break; } } if (c == EOF) { return (EOF); } else if (c == '\n') pdp->rp_lineno++; RBUF_PUTC(c); } bp = pdp->rp_buf + pdp->rp_tlen; RBUF_PUTC('\0'); if (!(allowed & RCS_TYPE_STRING)) { rcsparse_warnx(rfp, "unexpected RCS string"); return (0); } pdp->rp_value.str = xstrdup(pdp->rp_buf); return (RCS_TYPE_STRING); } static int rcsparse_token(RCSFILE *rfp, int allowed) { const struct rcs_keyword *p; struct rcs_pdata *pdp; int c, pre, ret, type; char *bp; size_t len; RCSNUM *datenum; pdp = (struct rcs_pdata *)rfp->rf_pdata; if (pdp->rp_token != -1) { /* no need to check for allowed here */ type = pdp->rp_token; pdp->rp_token = -1; return (type); } /* skip whitespaces */ c = EOF; do { pre = c; c = getc(rfp->rf_file); if (c == EOF) { if (ferror(rfp->rf_file)) { rcsparse_warnx(rfp, "error during parsing"); return (0); } if (pre != '\n') rcsparse_warnx(rfp, "no newline at end of file"); return (EOF); } else if (c == '\n') pdp->rp_lineno++; } while (isspace(c)); pdp->rp_msglineno = pdp->rp_lineno; type = 0; switch (c) { case '@': ret = rcsparse_string(rfp, allowed); if (ret == EOF && ferror(rfp->rf_file)) { rcsparse_warnx(rfp, "error during parsing"); return (0); } return (ret); /* NOTREACHED */ case ':': type = RCS_TOK_COLON; if (type & allowed) return (type); rcsparse_warnx(rfp, "unexpected token \"%c\"", c); return (0); /* NOTREACHED */ case ';': type = RCS_TOK_SCOLON; if (type & allowed) return (type); rcsparse_warnx(rfp, "unexpected token \"%c\"", c); return (0); /* NOTREACHED */ case ',': type = RCS_TOK_COMMA; if (type & allowed) return (type); rcsparse_warnx(rfp, "unexpected token \"%c\"", c); return (0); /* NOTREACHED */ default: if (!isgraph(c)) { rcsparse_warnx(rfp, "unexpected character 0x%.2X", c); return (0); } break; } allowed &= ~(RCS_TOK_COLON|RCS_TOK_SCOLON|RCS_TOK_COMMA); bp = pdp->rp_buf; pdp->rp_tlen = 0; *bp = '\0'; for (;;) { if (c == EOF) { if (ferror(rfp->rf_file)) rcsparse_warnx(rfp, "error during parsing"); else rcsparse_warnx(rfp, "unexpected end of file"); return (0); } else if (c == '\n') pdp->rp_lineno++; RBUF_PUTC(c); c = getc(rfp->rf_file); if (isspace(c)) { if (c == '\n') pdp->rp_lineno++; RBUF_PUTC('\0'); break; } else if (c == ';' || c == ':' || c == ',') { ungetc(c, rfp->rf_file); RBUF_PUTC('\0'); break; } else if (!isgraph(c)) { rcsparse_warnx(rfp, "unexpected character 0x%.2X", c); return (0); } } switch (allowed) { case RCS_TYPE_COMMITID: if (!valid_commitid(pdp->rp_buf)) { rcsparse_warnx(rfp, "invalid commitid \"%s\"", pdp->rp_buf); return (0); } pdp->rp_value.str = xstrdup(pdp->rp_buf); break; case RCS_TYPE_LOGIN: if (!valid_login(pdp->rp_buf)) { rcsparse_warnx(rfp, "invalid login \"%s\"", pdp->rp_buf); return (0); } pdp->rp_value.str = xstrdup(pdp->rp_buf); break; case RCS_TYPE_SYMBOL: if (!rcs_sym_check(pdp->rp_buf)) { rcsparse_warnx(rfp, "invalid symbol \"%s\"", pdp->rp_buf); return (0); } pdp->rp_value.str = xstrdup(pdp->rp_buf); break; /* FALLTHROUGH */ case RCS_TYPE_STATE: if (rcs_state_check(pdp->rp_buf)) { rcsparse_warnx(rfp, "invalid state \"%s\"", pdp->rp_buf); return (0); } pdp->rp_value.str = xstrdup(pdp->rp_buf); break; case RCS_TYPE_DATE: if ((datenum = rcsnum_parse(pdp->rp_buf)) == NULL) { rcsparse_warnx(rfp, "invalid date \"%s\"", pdp->rp_buf); return (0); } if (datenum->rn_len != 6) { rcsnum_free(datenum); rcsparse_warnx(rfp, "invalid date \"%s\"", pdp->rp_buf); return (0); } pdp->rp_value.date.tm_year = datenum->rn_id[0]; if (pdp->rp_value.date.tm_year >= 1900) pdp->rp_value.date.tm_year -= 1900; pdp->rp_value.date.tm_mon = datenum->rn_id[1] - 1; pdp->rp_value.date.tm_mday = datenum->rn_id[2]; pdp->rp_value.date.tm_hour = datenum->rn_id[3]; pdp->rp_value.date.tm_min = datenum->rn_id[4]; pdp->rp_value.date.tm_sec = datenum->rn_id[5]; rcsnum_free(datenum); break; case RCS_TYPE_NUMBER: pdp->rp_value.rev = rcsnum_parse(pdp->rp_buf); if (pdp->rp_value.rev == NULL) { rcsparse_warnx(rfp, "invalid number \"%s\"", pdp->rp_buf); return (0); } break; case RCS_TYPE_BRANCH: pdp->rp_value.rev = rcsnum_parse(pdp->rp_buf); if (pdp->rp_value.rev == NULL) { rcsparse_warnx(rfp, "invalid branch \"%s\"", pdp->rp_buf); return (0); } if (!RCSNUM_ISBRANCH(pdp->rp_value.rev)) { rcsnum_free(pdp->rp_value.rev); rcsparse_warnx(rfp, "expected branch, got \"%s\"", pdp->rp_buf); return (0); } break; case RCS_TYPE_KEYWORD: if (islower(*pdp->rp_buf)) { p = bsearch(pdp->rp_buf, keywords, sizeof(keywords) / sizeof(keywords[0]), sizeof(keywords[0]), kw_cmp); if (p != NULL) return (p->k_val); } allowed = RCS_TYPE_REVISION; /* FALLTHROUGH */ case RCS_TYPE_REVISION: pdp->rp_value.rev = rcsnum_parse(pdp->rp_buf); if (pdp->rp_value.rev != NULL) { if (RCSNUM_ISBRANCH(pdp->rp_value.rev)) { rcsnum_free(pdp->rp_value.rev); rcsparse_warnx(rfp, "expected revision, got \"%s\"", pdp->rp_buf); return (0); } break; } /* FALLTHROUGH */ default: RBUF_PUTC('\0'); rcsparse_warnx(rfp, "unexpected token \"%s\"", pdp->rp_buf); return (0); /* NOTREACHED */ } return (allowed); } static int rcsparse(RCSFILE *rfp, struct rcs_section *sec) { struct rcs_pdata *pdp; int i, token; pdp = (struct rcs_pdata *)rfp->rf_pdata; i = 0; token = 0; for (i = 0; sec[i].token != 0; i++) { token = rcsparse_token(rfp, RCS_TYPE_KEYWORD); if (token == 0) return (1); while (token != sec[i].token) { if (sec[i].parse == NULL) goto end; if (sec[i].opt) { i++; continue; } if (token == EOF || (!(rfp->rf_flags & PARSED_DELTAS) && token == RCS_TOK_DESC)) goto end; rcsparse_warnx(rfp, "unexpected token \"%s\"", pdp->rp_buf); return (1); } if (sec[i].parse(rfp, pdp)) return (1); } end: if (token == RCS_TYPE_REVISION) pdp->rp_token = token; else if (token == RCS_TOK_DESC) pdp->rp_token = RCS_TOK_DESC; else if (token == EOF) rfp->rf_flags |= RCS_PARSED; return (0); } static int rcsparse_deltatext(RCSFILE *rfp) { int ret; if (rfp->rf_flags & PARSED_DELTATEXTS) return (0); if (!(rfp->rf_flags & PARSED_DESC)) if ((ret = rcsparse_desc(rfp))) return (ret); if (rcsparse(rfp, sec_deltatext)) return (-1); if (rfp->rf_flags & RCS_PARSED) rfp->rf_flags |= PARSED_DELTATEXTS; return (1); } static int rcsparse_delta(RCSFILE *rfp) { struct rcs_pdata *pdp; if (rfp->rf_flags & PARSED_DELTAS) return (0); pdp = (struct rcs_pdata *)rfp->rf_pdata; if (pdp->rp_token == RCS_TOK_DESC) { rfp->rf_flags |= PARSED_DELTAS; return (0); } if (rcsparse(rfp, sec_delta)) return (-1); if (pdp->rp_delta != NULL) { TAILQ_INSERT_TAIL(&rfp->rf_delta, pdp->rp_delta, rd_list); pdp->rp_delta = NULL; rfp->rf_ndelta++; return (1); } return (0); } /* * rcsparse_growbuf() * * Attempt to grow the internal parse buffer for the RCS file by * RCS_BUFEXTSIZE. * In case of failure, the original buffer is left unmodified. */ static void rcsparse_growbuf(RCSFILE *rfp) { struct rcs_pdata *pdp = (struct rcs_pdata *)rfp->rf_pdata; pdp->rp_buf = xreallocarray(pdp->rp_buf, 1, pdp->rp_blen + RCS_BUFEXTSIZE); pdp->rp_blen += RCS_BUFEXTSIZE; pdp->rp_bufend = pdp->rp_buf + pdp->rp_blen - 1; } /* * Borrowed from src/usr.sbin/user/user.c: * return 1 if `login' is a valid login name */ static int valid_login(char *login_name) { unsigned char *cp; /* The first character cannot be a hyphen */ if (*login_name == '-') return 0; for (cp = login_name ; *cp ; cp++) { /* We allow '$' as the last character for samba */ if (!isalnum(*cp) && *cp != '.' && *cp != '_' && *cp != '-' && !(*cp == '$' && *(cp + 1) == '\0')) { return 0; } } if ((char *)cp - login_name > _PW_NAME_LEN) return 0; return 1; } static int valid_commitid(char *commitid) { unsigned char *cp; /* A-Za-z0-9 */ for (cp = commitid; *cp ; cp++) { if (!isalnum(*cp)) return 0; } if ((char *)cp - commitid > RCS_COMMITID_MAXLEN) return 0; return 1; } static int kw_cmp(const void *k, const void *e) { return (strcmp(k, ((const struct rcs_keyword *)e)->k_name)); } static void rcsparse_warnx(RCSFILE *rfp, char *fmt, ...) { struct rcs_pdata *pdp; va_list ap; char *msg; pdp = (struct rcs_pdata *)rfp->rf_pdata; va_start(ap, fmt); if (vasprintf(&msg, fmt, ap) == -1) { cvs_log(LP_ERRNO, "vasprintf"); va_end(ap); return; } va_end(ap); cvs_log(LP_ERR, "%s:%d: %s", rfp->rf_path, pdp->rp_msglineno, msg); free(msg); }