/* $Id: read.c,v 1.215 2020/03/13 15:32:28 schwarze Exp $ */ /* * Copyright (c) 2010-2019 Ingo Schwarze * Copyright (c) 2008, 2009, 2010, 2011 Kristaps Dzonsons * Copyright (c) 2010, 2012 Joerg Sonnenberger * * 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 AUTHORS DISCLAIM ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS 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. * * Top-level functions of the mandoc(3) parser: * Parser and input encoding selection, decompression, * handling of input bytes, characters, lines, and files, * handling of roff(7) loops and file inclusion, * and steering of the various parsers. */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "mandoc_aux.h" #include "mandoc.h" #include "roff.h" #include "tag.h" #include "mdoc.h" #include "man.h" #include "mandoc_parse.h" #include "libmandoc.h" #include "roff_int.h" #define REPARSE_LIMIT 1000 struct mparse { struct roff *roff; /* roff parser (!NULL) */ struct roff_man *man; /* man parser */ struct buf *primary; /* buffer currently being parsed */ struct buf *secondary; /* copy of top level input */ struct buf *loop; /* open .while request line */ const char *os_s; /* default operating system */ int options; /* parser options */ int gzip; /* current input file is gzipped */ int filenc; /* encoding of the current file */ int reparse_count; /* finite interp. stack */ int line; /* line number in the file */ }; static void choose_parser(struct mparse *); static void free_buf_list(struct buf *); static void resize_buf(struct buf *, size_t); static int mparse_buf_r(struct mparse *, struct buf, size_t, int); static int read_whole_file(struct mparse *, int, struct buf *, int *); static void mparse_end(struct mparse *); static void resize_buf(struct buf *buf, size_t initial) { buf->sz = buf->sz > initial/2 ? 2 * buf->sz : initial; buf->buf = mandoc_realloc(buf->buf, buf->sz); } static void free_buf_list(struct buf *buf) { struct buf *tmp; while (buf != NULL) { tmp = buf; buf = tmp->next; free(tmp->buf); free(tmp); } } static void choose_parser(struct mparse *curp) { char *cp, *ep; int format; /* * If neither command line arguments -mdoc or -man select * a parser nor the roff parser found a .Dd or .TH macro * yet, look ahead in the main input buffer. */ if ((format = roff_getformat(curp->roff)) == 0) { cp = curp->primary->buf; ep = cp + curp->primary->sz; while (cp < ep) { if (*cp == '.' || *cp == '\'') { cp++; if (cp[0] == 'D' && cp[1] == 'd') { format = MPARSE_MDOC; break; } if (cp[0] == 'T' && cp[1] == 'H') { format = MPARSE_MAN; break; } } cp = memchr(cp, '\n', ep - cp); if (cp == NULL) break; cp++; } } if (format == MPARSE_MDOC) { curp->man->meta.macroset = MACROSET_MDOC; if (curp->man->mdocmac == NULL) curp->man->mdocmac = roffhash_alloc(MDOC_Dd, MDOC_MAX); } else { curp->man->meta.macroset = MACROSET_MAN; if (curp->man->manmac == NULL) curp->man->manmac = roffhash_alloc(MAN_TH, MAN_MAX); } curp->man->meta.first->tok = TOKEN_NONE; } /* * Main parse routine for a buffer. * It assumes encoding and line numbering are already set up. * It can recurse directly (for invocations of user-defined * macros, inline equations, and input line traps) * and indirectly (for .so file inclusion). */ static int mparse_buf_r(struct mparse *curp, struct buf blk, size_t i, int start) { struct buf ln; struct buf *firstln, *lastln, *thisln, *loop; char *cp; size_t pos; /* byte number in the ln buffer */ int line_result, result; int of; int lnn; /* line number in the real file */ int fd; int inloop; /* Saw .while on this level. */ unsigned char c; ln.sz = 256; ln.buf = mandoc_malloc(ln.sz); ln.next = NULL; firstln = lastln = loop = NULL; lnn = curp->line; pos = 0; inloop = 0; result = ROFF_CONT; while (i < blk.sz && (blk.buf[i] != '\0' || pos != 0)) { if (start) { curp->line = lnn; curp->reparse_count = 0; if (lnn < 3 && curp->filenc & MPARSE_UTF8 && curp->filenc & MPARSE_LATIN1) curp->filenc = preconv_cue(&blk, i); } while (i < blk.sz && (start || blk.buf[i] != '\0')) { /* * When finding an unescaped newline character, * leave the character loop to process the line. * Skip a preceding carriage return, if any. */ if ('\r' == blk.buf[i] && i + 1 < blk.sz && '\n' == blk.buf[i + 1]) ++i; if ('\n' == blk.buf[i]) { ++i; ++lnn; break; } /* * Make sure we have space for the worst * case of 12 bytes: "\\[u10ffff]\n\0" */ if (pos + 12 > ln.sz) resize_buf(&ln, 256); /* * Encode 8-bit input. */ c = blk.buf[i]; if (c & 0x80) { if ( ! (curp->filenc && preconv_encode( &blk, &i, &ln, &pos, &curp->filenc))) { mandoc_msg(MANDOCERR_CHAR_BAD, curp->line, pos, "0x%x", c); ln.buf[pos++] = '?'; i++; } continue; } /* * Exclude control characters. */ if (c == 0x7f || (c < 0x20 && c != 0x09)) { mandoc_msg(c == 0x00 || c == 0x04 || c > 0x0a ? MANDOCERR_CHAR_BAD : MANDOCERR_CHAR_UNSUPP, curp->line, pos, "0x%x", c); i++; if (c != '\r') ln.buf[pos++] = '?'; continue; } ln.buf[pos++] = blk.buf[i++]; } ln.buf[pos] = '\0'; /* * Maintain a lookaside buffer of all lines. * parsed from this input source. */ thisln = mandoc_malloc(sizeof(*thisln)); thisln->buf = mandoc_strdup(ln.buf); thisln->sz = strlen(ln.buf) + 1; thisln->next = NULL; if (firstln == NULL) { firstln = lastln = thisln; if (curp->secondary == NULL) curp->secondary = firstln; } else { lastln->next = thisln; lastln = thisln; } /* XXX Ugly hack to mark the end of the input. */ if (i == blk.sz || blk.buf[i] == '\0') { if (pos + 2 > ln.sz) resize_buf(&ln, 256); ln.buf[pos++] = '\n'; ln.buf[pos] = '\0'; } /* * A significant amount of complexity is contained by * the roff preprocessor. It's line-oriented but can be * expressed on one line, so we need at times to * readjust our starting point and re-run it. The roff * preprocessor can also readjust the buffers with new * data, so we pass them in wholesale. */ of = 0; rerun: line_result = roff_parseln(curp->roff, curp->line, &ln, &of); /* Process options. */ if (line_result & ROFF_APPEND) assert(line_result == (ROFF_IGN | ROFF_APPEND)); if (line_result & ROFF_USERCALL) assert((line_result & ROFF_MASK) == ROFF_REPARSE); if (line_result & ROFF_USERRET) { assert(line_result == (ROFF_IGN | ROFF_USERRET)); if (start == 0) { /* Return from the current macro. */ result = ROFF_USERRET; goto out; } } switch (line_result & ROFF_LOOPMASK) { case ROFF_IGN: break; case ROFF_WHILE: if (curp->loop != NULL) { if (loop == curp->loop) break; mandoc_msg(MANDOCERR_WHILE_NEST, curp->line, pos, NULL); } curp->loop = thisln; loop = NULL; inloop = 1; break; case ROFF_LOOPCONT: case ROFF_LOOPEXIT: if (curp->loop == NULL) { mandoc_msg(MANDOCERR_WHILE_FAIL, curp->line, pos, NULL); break; } if (inloop == 0) { mandoc_msg(MANDOCERR_WHILE_INTO, curp->line, pos, NULL); curp->loop = loop = NULL; break; } if (line_result & ROFF_LOOPCONT) loop = curp->loop; else { curp->loop = loop = NULL; inloop = 0; } break; default: abort(); } /* Process the main instruction from the roff parser. */ switch (line_result & ROFF_MASK) { case ROFF_IGN: break; case ROFF_CONT: if (curp->man->meta.macroset == MACROSET_NONE) choose_parser(curp); if ((curp->man->meta.macroset == MACROSET_MDOC ? mdoc_parseln(curp->man, curp->line, ln.buf, of) : man_parseln(curp->man, curp->line, ln.buf, of) ) == 2) goto out; break; case ROFF_RERUN: goto rerun; case ROFF_REPARSE: if (++curp->reparse_count > REPARSE_LIMIT) { /* Abort and return to the top level. */ result = ROFF_IGN; mandoc_msg(MANDOCERR_ROFFLOOP, curp->line, pos, NULL); goto out; } result = mparse_buf_r(curp, ln, of, 0); if (line_result & ROFF_USERCALL) { roff_userret(curp->roff); /* Continue normally. */ if (result & ROFF_USERRET) result = ROFF_CONT; } if (start == 0 && result != ROFF_CONT) goto out; break; case ROFF_SO: if ( ! (curp->options & MPARSE_SO) && (i >= blk.sz || blk.buf[i] == '\0')) { curp->man->meta.sodest = mandoc_strdup(ln.buf + of); goto out; } if ((fd = mparse_open(curp, ln.buf + of)) != -1) { mparse_readfd(curp, fd, ln.buf + of); close(fd); } else { mandoc_msg(MANDOCERR_SO_FAIL, curp->line, of, ".so %s: %s", ln.buf + of, strerror(errno)); ln.sz = mandoc_asprintf(&cp, ".sp\nSee the file %s.\n.sp", ln.buf + of); free(ln.buf); ln.buf = cp; of = 0; mparse_buf_r(curp, ln, of, 0); } break; default: abort(); } /* Start the next input line. */ if (loop != NULL && (line_result & ROFF_LOOPMASK) == ROFF_IGN) loop = loop->next; if (loop != NULL) { if ((line_result & ROFF_APPEND) == 0) *ln.buf = '\0'; if (ln.sz < loop->sz) resize_buf(&ln, loop->sz); (void)strlcat(ln.buf, loop->buf, ln.sz); of = 0; goto rerun; } pos = (line_result & ROFF_APPEND) ? strlen(ln.buf) : 0; } out: if (inloop) { if (result != ROFF_USERRET) mandoc_msg(MANDOCERR_WHILE_OUTOF, curp->line, pos, NULL); curp->loop = NULL; } free(ln.buf); if (firstln != curp->secondary) free_buf_list(firstln); return result; } static int read_whole_file(struct mparse *curp, int fd, struct buf *fb, int *with_mmap) { struct stat st; gzFile gz; size_t off; ssize_t ssz; int gzerrnum, retval; if (fstat(fd, &st) == -1) { mandoc_msg(MANDOCERR_FSTAT, 0, 0, "%s", strerror(errno)); return -1; } /* * If we're a regular file, try just reading in the whole entry * via mmap(). This is faster than reading it into blocks, and * since each file is only a few bytes to begin with, I'm not * concerned that this is going to tank any machines. */ if (curp->gzip == 0 && S_ISREG(st.st_mode)) { if (st.st_size > 0x7fffffff) { mandoc_msg(MANDOCERR_TOOLARGE, 0, 0, NULL); return -1; } *with_mmap = 1; fb->sz = (size_t)st.st_size; fb->buf = mmap(NULL, fb->sz, PROT_READ, MAP_SHARED, fd, 0); if (fb->buf != MAP_FAILED) return 0; } if (curp->gzip) { /* * Duplicating the file descriptor is required * because we will have to call gzclose(3) * to free memory used internally by zlib, * but that will also close the file descriptor, * which this function must not do. */ if ((fd = dup(fd)) == -1) { mandoc_msg(MANDOCERR_DUP, 0, 0, "%s", strerror(errno)); return -1; } if ((gz = gzdopen(fd, "rb")) == NULL) { mandoc_msg(MANDOCERR_GZDOPEN, 0, 0, "%s", strerror(errno)); close(fd); return -1; } } else gz = NULL; /* * If this isn't a regular file (like, say, stdin), then we must * go the old way and just read things in bit by bit. */ *with_mmap = 0; off = 0; retval = -1; fb->sz = 0; fb->buf = NULL; for (;;) { if (off == fb->sz) { if (fb->sz == (1U << 31)) { mandoc_msg(MANDOCERR_TOOLARGE, 0, 0, NULL); break; } resize_buf(fb, 65536); } ssz = curp->gzip ? gzread(gz, fb->buf + (int)off, fb->sz - off) : read(fd, fb->buf + (int)off, fb->sz - off); if (ssz == 0) { fb->sz = off; retval = 0; break; } if (ssz == -1) { if (curp->gzip) (void)gzerror(gz, &gzerrnum); mandoc_msg(MANDOCERR_READ, 0, 0, "%s", curp->gzip && gzerrnum != Z_ERRNO ? zError(gzerrnum) : strerror(errno)); break; } off += (size_t)ssz; } if (curp->gzip && (gzerrnum = gzclose(gz)) != Z_OK) mandoc_msg(MANDOCERR_GZCLOSE, 0, 0, "%s", gzerrnum == Z_ERRNO ? strerror(errno) : zError(gzerrnum)); if (retval == -1) { free(fb->buf); fb->buf = NULL; } return retval; } static void mparse_end(struct mparse *curp) { if (curp->man->meta.macroset == MACROSET_NONE) curp->man->meta.macroset = MACROSET_MAN; if (curp->man->meta.macroset == MACROSET_MDOC) mdoc_endparse(curp->man); else man_endparse(curp->man); roff_endparse(curp->roff); } /* * Read the whole file into memory and call the parsers. * Called recursively when an .so request is encountered. */ void mparse_readfd(struct mparse *curp, int fd, const char *filename) { static int recursion_depth; struct buf blk; struct buf *save_primary; const char *save_filename; size_t offset; int save_filenc, save_lineno; int with_mmap; if (recursion_depth > 64) { mandoc_msg(MANDOCERR_ROFFLOOP, curp->line, 0, NULL); return; } if (read_whole_file(curp, fd, &blk, &with_mmap) == -1) return; /* * Save some properties of the parent file. */ save_primary = curp->primary; save_filenc = curp->filenc; save_lineno = curp->line; save_filename = mandoc_msg_getinfilename(); curp->primary = &blk; curp->filenc = curp->options & (MPARSE_UTF8 | MPARSE_LATIN1); curp->line = 1; mandoc_msg_setinfilename(filename); /* Skip an UTF-8 byte order mark. */ if (curp->filenc & MPARSE_UTF8 && blk.sz > 2 && (unsigned char)blk.buf[0] == 0xef && (unsigned char)blk.buf[1] == 0xbb && (unsigned char)blk.buf[2] == 0xbf) { offset = 3; curp->filenc &= ~MPARSE_LATIN1; } else offset = 0; recursion_depth++; mparse_buf_r(curp, blk, offset, 1); if (--recursion_depth == 0) mparse_end(curp); /* * Clean up and restore saved parent properties. */ if (with_mmap) munmap(blk.buf, blk.sz); else free(blk.buf); curp->primary = save_primary; curp->filenc = save_filenc; curp->line = save_lineno; if (save_filename != NULL) mandoc_msg_setinfilename(save_filename); } int mparse_open(struct mparse *curp, const char *file) { char *cp; int fd, save_errno; cp = strrchr(file, '.'); curp->gzip = (cp != NULL && ! strcmp(cp + 1, "gz")); /* First try to use the filename as it is. */ if ((fd = open(file, O_RDONLY)) != -1) return fd; /* * If that doesn't work and the filename doesn't * already end in .gz, try appending .gz. */ if ( ! curp->gzip) { save_errno = errno; mandoc_asprintf(&cp, "%s.gz", file); fd = open(cp, O_RDONLY); free(cp); errno = save_errno; if (fd != -1) { curp->gzip = 1; return fd; } } /* Neither worked, give up. */ return -1; } struct mparse * mparse_alloc(int options, enum mandoc_os os_e, const char *os_s) { struct mparse *curp; curp = mandoc_calloc(1, sizeof(struct mparse)); curp->options = options; curp->os_s = os_s; curp->roff = roff_alloc(options); curp->man = roff_man_alloc(curp->roff, curp->os_s, curp->options & MPARSE_QUICK ? 1 : 0); if (curp->options & MPARSE_MDOC) { curp->man->meta.macroset = MACROSET_MDOC; if (curp->man->mdocmac == NULL) curp->man->mdocmac = roffhash_alloc(MDOC_Dd, MDOC_MAX); } else if (curp->options & MPARSE_MAN) { curp->man->meta.macroset = MACROSET_MAN; if (curp->man->manmac == NULL) curp->man->manmac = roffhash_alloc(MAN_TH, MAN_MAX); } curp->man->meta.first->tok = TOKEN_NONE; curp->man->meta.os_e = os_e; tag_alloc(); return curp; } void mparse_reset(struct mparse *curp) { roff_reset(curp->roff); roff_man_reset(curp->man); free_buf_list(curp->secondary); curp->secondary = NULL; curp->gzip = 0; } void mparse_free(struct mparse *curp) { tag_free(); roffhash_free(curp->man->mdocmac); roffhash_free(curp->man->manmac); roff_man_free(curp->man); roff_free(curp->roff); free_buf_list(curp->secondary); free(curp); } struct roff_meta * mparse_result(struct mparse *curp) { roff_state_reset(curp->man); if (curp->options & MPARSE_VALIDATE) { if (curp->man->meta.macroset == MACROSET_MDOC) mdoc_validate(curp->man); else man_validate(curp->man); } return &curp->man->meta; } void mparse_copy(const struct mparse *p) { struct buf *buf; for (buf = p->secondary; buf != NULL; buf = buf->next) puts(buf->buf); }