/* * Copyright (c) Ian F. Darwin 1986-1995. * Software written by Ian F. Darwin and others; * maintained 1995-present by Christos Zoulas and others. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice immediately at the beginning of the file, without modification, * this list of conditions, and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* * softmagic - interpret variable magic from MAGIC */ #include "file.h" #include "magic.h" #include #include #include #include #include #ifndef lint FILE_RCSID("@(#)$Id: softmagic.c,v 1.72 2004/11/24 17:38:25 christos Exp $") #endif /* lint */ private int match(struct magic_set *, struct magic *, uint32_t, const unsigned char *, size_t); private int mget(struct magic_set *, union VALUETYPE *, const unsigned char *, struct magic *, size_t); private int mcheck(struct magic_set *, union VALUETYPE *, struct magic *); private int32_t mprint(struct magic_set *, union VALUETYPE *, struct magic *); private void mdebug(uint32_t, const char *, size_t); private int mcopy(struct magic_set *, union VALUETYPE *, int, int, const unsigned char *, size_t, size_t); private int mconvert(struct magic_set *, union VALUETYPE *, struct magic *); private int check_mem(struct magic_set *, unsigned int); /* * softmagic - lookup one file in database * (already read from MAGIC by apprentice.c). * Passed the name and FILE * of one file to be typed. */ /*ARGSUSED1*/ /* nbytes passed for regularity, maybe need later */ protected int file_softmagic(struct magic_set *ms, const unsigned char *buf, size_t nbytes) { struct mlist *ml; for (ml = ms->mlist->next; ml != ms->mlist; ml = ml->next) if (match(ms, ml->magic, ml->nmagic, buf, nbytes)) return 1; return 0; } /* * Go through the whole list, stopping if you find a match. Process all * the continuations of that match before returning. * * We support multi-level continuations: * * At any time when processing a successful top-level match, there is a * current continuation level; it represents the level of the last * successfully matched continuation. * * Continuations above that level are skipped as, if we see one, it * means that the continuation that controls them - i.e, the * lower-level continuation preceding them - failed to match. * * Continuations below that level are processed as, if we see one, * it means we've finished processing or skipping higher-level * continuations under the control of a successful or unsuccessful * lower-level continuation, and are now seeing the next lower-level * continuation and should process it. The current continuation * level reverts to the level of the one we're seeing. * * Continuations at the current level are processed as, if we see * one, there's no lower-level continuation that may have failed. * * If a continuation matches, we bump the current continuation level * so that higher-level continuations are processed. */ private int match(struct magic_set *ms, struct magic *magic, uint32_t nmagic, const unsigned char *s, size_t nbytes) { uint32_t magindex = 0; unsigned int cont_level = 0; int need_separator = 0; union VALUETYPE p; int32_t oldoff = 0; int returnval = 0; /* if a match is found it is set to 1*/ int firstline = 1; /* a flag to print X\n X\n- X */ if (check_mem(ms, cont_level) == -1) return -1; for (magindex = 0; magindex < nmagic; magindex++) { /* if main entry matches, print it... */ int flush = !mget(ms, &p, s, &magic[magindex], nbytes); switch (mcheck(ms, &p, &magic[magindex])) { case -1: return -1; case 0: flush++; break; default: break; } if (flush) { /* * main entry didn't match, * flush its continuations */ while (magindex < nmagic - 1 && magic[magindex + 1].cont_level != 0) magindex++; continue; } if (!firstline) { /* we found another match */ /* put a newline and '-' to do some simple formatting*/ if (file_printf(ms, "\n- ") == -1) return -1; } if ((ms->c.off[cont_level] = mprint(ms, &p, &magic[magindex])) == -1) return -1; /* * If we printed something, we'll need to print * a blank before we print something else. */ if (magic[magindex].desc[0]) need_separator = 1; /* and any continuations that match */ if (check_mem(ms, ++cont_level) == -1) return -1; while (magic[magindex+1].cont_level != 0 && ++magindex < nmagic) { if (cont_level < magic[magindex].cont_level) continue; if (cont_level > magic[magindex].cont_level) { /* * We're at the end of the level * "cont_level" continuations. */ cont_level = magic[magindex].cont_level; } if (magic[magindex].flag & OFFADD) { oldoff=magic[magindex].offset; magic[magindex].offset += ms->c.off[cont_level-1]; } if (!mget(ms, &p, s, &magic[magindex], nbytes)) goto done; switch (mcheck(ms, &p, &magic[magindex])) { case -1: return -1; case 0: break; default: /* * This continuation matched. * Print its message, with * a blank before it if * the previous item printed * and this item isn't empty. */ /* space if previous printed */ if (need_separator && (magic[magindex].nospflag == 0) && (magic[magindex].desc[0] != '\0')) { if (file_printf(ms, " ") == -1) return -1; need_separator = 0; } if ((ms->c.off[cont_level] = mprint(ms, &p, &magic[magindex])) == -1) return -1; if (magic[magindex].desc[0]) need_separator = 1; /* * If we see any continuations * at a higher level, * process them. */ if (check_mem(ms, ++cont_level) == -1) return -1; } done: if (magic[magindex].flag & OFFADD) { magic[magindex].offset = oldoff; } } firstline = 0; returnval = 1; if ((ms->flags & MAGIC_CONTINUE) == 0) { return 1; /* don't keep searching */ } } return returnval; /* This is hit if -k is set or there is no match */ } private int check_mem(struct magic_set *ms, unsigned int level) { size_t len; if (level < ms->c.len) return 0; len = (ms->c.len += 20) * sizeof(*ms->c.off); ms->c.off = (ms->c.off == NULL) ? malloc(len) : realloc(ms->c.off, len); if (ms->c.off != NULL) return 0; file_oomem(ms); return -1; } private int32_t mprint(struct magic_set *ms, union VALUETYPE *p, struct magic *m) { uint32_t v; int32_t t=0 ; switch (m->type) { case FILE_BYTE: v = file_signextend(ms, m, (size_t)p->b); if (file_printf(ms, m->desc, (unsigned char) v) == -1) return -1; t = m->offset + sizeof(char); break; case FILE_SHORT: case FILE_BESHORT: case FILE_LESHORT: v = file_signextend(ms, m, (size_t)p->h); if (file_printf(ms, m->desc, (unsigned short) v) == -1) return -1; t = m->offset + sizeof(short); break; case FILE_LONG: case FILE_BELONG: case FILE_LELONG: v = file_signextend(ms, m, p->l); if (file_printf(ms, m->desc, (uint32_t) v) == -1) return -1; t = m->offset + sizeof(int32_t); break; case FILE_STRING: case FILE_PSTRING: case FILE_BESTRING16: case FILE_LESTRING16: if (m->reln == '=') { if (file_printf(ms, m->desc, m->value.s) == -1) return -1; t = m->offset + strlen(m->value.s); } else { if (*m->value.s == '\0') { char *cp = strchr(p->s,'\n'); if (cp) *cp = '\0'; } if (file_printf(ms, m->desc, p->s) == -1) return -1; t = m->offset + strlen(p->s); } break; case FILE_DATE: case FILE_BEDATE: case FILE_LEDATE: if (file_printf(ms, m->desc, file_fmttime(p->l, 1)) == -1) return -1; t = m->offset + sizeof(time_t); break; case FILE_LDATE: case FILE_BELDATE: case FILE_LELDATE: if (file_printf(ms, m->desc, file_fmttime(p->l, 0)) == -1) return -1; t = m->offset + sizeof(time_t); break; case FILE_REGEX: if (file_printf(ms, m->desc, p->s) == -1) return -1; t = m->offset + strlen(p->s); break; default: file_error(ms, 0, "invalid m->type (%d) in mprint()", m->type); return -1; } return(t); } /* * Convert the byte order of the data we are looking at * While we're here, let's apply the mask operation * (unless you have a better idea) */ private int mconvert(struct magic_set *ms, union VALUETYPE *p, struct magic *m) { switch (m->type) { case FILE_BYTE: if (m->mask) switch (m->mask_op&0x7F) { case FILE_OPAND: p->b &= m->mask; break; case FILE_OPOR: p->b |= m->mask; break; case FILE_OPXOR: p->b ^= m->mask; break; case FILE_OPADD: p->b += m->mask; break; case FILE_OPMINUS: p->b -= m->mask; break; case FILE_OPMULTIPLY: p->b *= m->mask; break; case FILE_OPDIVIDE: p->b /= m->mask; break; case FILE_OPMODULO: p->b %= m->mask; break; } if (m->mask_op & FILE_OPINVERSE) p->b = ~p->b; return 1; case FILE_SHORT: if (m->mask) switch (m->mask_op&0x7F) { case FILE_OPAND: p->h &= m->mask; break; case FILE_OPOR: p->h |= m->mask; break; case FILE_OPXOR: p->h ^= m->mask; break; case FILE_OPADD: p->h += m->mask; break; case FILE_OPMINUS: p->h -= m->mask; break; case FILE_OPMULTIPLY: p->h *= m->mask; break; case FILE_OPDIVIDE: p->h /= m->mask; break; case FILE_OPMODULO: p->h %= m->mask; break; } if (m->mask_op & FILE_OPINVERSE) p->h = ~p->h; return 1; case FILE_LONG: case FILE_DATE: case FILE_LDATE: if (m->mask) switch (m->mask_op&0x7F) { case FILE_OPAND: p->l &= m->mask; break; case FILE_OPOR: p->l |= m->mask; break; case FILE_OPXOR: p->l ^= m->mask; break; case FILE_OPADD: p->l += m->mask; break; case FILE_OPMINUS: p->l -= m->mask; break; case FILE_OPMULTIPLY: p->l *= m->mask; break; case FILE_OPDIVIDE: p->l /= m->mask; break; case FILE_OPMODULO: p->l %= m->mask; break; } if (m->mask_op & FILE_OPINVERSE) p->l = ~p->l; return 1; case FILE_STRING: case FILE_BESTRING16: case FILE_LESTRING16: { size_t len; /* Null terminate and eat *trailing* return */ p->s[sizeof(p->s) - 1] = '\0'; len = strlen(p->s); if (len-- && p->s[len] == '\n') p->s[len] = '\0'; return 1; } case FILE_PSTRING: { char *ptr1 = p->s, *ptr2 = ptr1 + 1; size_t len = *p->s; if (len >= sizeof(p->s)) len = sizeof(p->s) - 1; while (len--) *ptr1++ = *ptr2++; *ptr1 = '\0'; len = strlen(p->s); if (len-- && p->s[len] == '\n') p->s[len] = '\0'; return 1; } case FILE_BESHORT: p->h = (short)((p->hs[0]<<8)|(p->hs[1])); if (m->mask) switch (m->mask_op&0x7F) { case FILE_OPAND: p->h &= m->mask; break; case FILE_OPOR: p->h |= m->mask; break; case FILE_OPXOR: p->h ^= m->mask; break; case FILE_OPADD: p->h += m->mask; break; case FILE_OPMINUS: p->h -= m->mask; break; case FILE_OPMULTIPLY: p->h *= m->mask; break; case FILE_OPDIVIDE: p->h /= m->mask; break; case FILE_OPMODULO: p->h %= m->mask; break; } if (m->mask_op & FILE_OPINVERSE) p->h = ~p->h; return 1; case FILE_BELONG: case FILE_BEDATE: case FILE_BELDATE: p->l = (int32_t) ((p->hl[0]<<24)|(p->hl[1]<<16)|(p->hl[2]<<8)|(p->hl[3])); if (m->mask) switch (m->mask_op&0x7F) { case FILE_OPAND: p->l &= m->mask; break; case FILE_OPOR: p->l |= m->mask; break; case FILE_OPXOR: p->l ^= m->mask; break; case FILE_OPADD: p->l += m->mask; break; case FILE_OPMINUS: p->l -= m->mask; break; case FILE_OPMULTIPLY: p->l *= m->mask; break; case FILE_OPDIVIDE: p->l /= m->mask; break; case FILE_OPMODULO: p->l %= m->mask; break; } if (m->mask_op & FILE_OPINVERSE) p->l = ~p->l; return 1; case FILE_LESHORT: p->h = (short)((p->hs[1]<<8)|(p->hs[0])); if (m->mask) switch (m->mask_op&0x7F) { case FILE_OPAND: p->h &= m->mask; break; case FILE_OPOR: p->h |= m->mask; break; case FILE_OPXOR: p->h ^= m->mask; break; case FILE_OPADD: p->h += m->mask; break; case FILE_OPMINUS: p->h -= m->mask; break; case FILE_OPMULTIPLY: p->h *= m->mask; break; case FILE_OPDIVIDE: p->h /= m->mask; break; case FILE_OPMODULO: p->h %= m->mask; break; } if (m->mask_op & FILE_OPINVERSE) p->h = ~p->h; return 1; case FILE_LELONG: case FILE_LEDATE: case FILE_LELDATE: p->l = (int32_t) ((p->hl[3]<<24)|(p->hl[2]<<16)|(p->hl[1]<<8)|(p->hl[0])); if (m->mask) switch (m->mask_op&0x7F) { case FILE_OPAND: p->l &= m->mask; break; case FILE_OPOR: p->l |= m->mask; break; case FILE_OPXOR: p->l ^= m->mask; break; case FILE_OPADD: p->l += m->mask; break; case FILE_OPMINUS: p->l -= m->mask; break; case FILE_OPMULTIPLY: p->l *= m->mask; break; case FILE_OPDIVIDE: p->l /= m->mask; break; case FILE_OPMODULO: p->l %= m->mask; break; } if (m->mask_op & FILE_OPINVERSE) p->l = ~p->l; return 1; case FILE_REGEX: return 1; default: file_error(ms, 0, "invalid type %d in mconvert()", m->type); return 0; } } private void mdebug(uint32_t offset, const char *str, size_t len) { (void) fprintf(stderr, "mget @%d: ", offset); file_showstr(stderr, str, len); (void) fputc('\n', stderr); (void) fputc('\n', stderr); } private int mcopy(struct magic_set *ms, union VALUETYPE *p, int type, int indir, const unsigned char *s, size_t offset, size_t nbytes) { if (type == FILE_REGEX && indir == 0) { /* * offset is interpreted as last line to search, * (starting at 1), not as bytes-from start-of-file */ unsigned char *b, *last = NULL; if ((p->buf = strdup((const char *)s)) == NULL) { file_oomem(ms); return -1; } for (b = (unsigned char *)p->buf; offset && (b = (unsigned char *)strchr((char *)b, '\n')) != NULL; offset--, s++) last = b; if (last != NULL) *last = '\0'; return 0; } if (indir == 0 && (type == FILE_BESTRING16 || type == FILE_LESTRING16)) { const char *src = s + offset; const char *esrc = s + nbytes; char *dst = p->s, *edst = &p->s[sizeof(p->s) - 1]; if (type == FILE_BESTRING16) src++; for (;src < esrc; src++, dst++) { if (dst < edst) *dst = *src++; else break; if (*dst == '\0') *dst = ' '; } *edst = '\0'; return 0; } if (offset >= nbytes) { (void)memset(p, '\0', sizeof(*p)); return 0; } if (nbytes - offset < sizeof(*p)) nbytes = nbytes - offset; else nbytes = sizeof(*p); (void)memcpy(p, s + offset, nbytes); /* * the usefulness of padding with zeroes eludes me, it * might even cause problems */ if (nbytes < sizeof(*p)) (void)memset(((char *)p) + nbytes, '\0', sizeof(*p) - nbytes); return 0; } private int mget(struct magic_set *ms, union VALUETYPE *p, const unsigned char *s, struct magic *m, size_t nbytes) { uint32_t offset = m->offset; if (mcopy(ms, p, m->type, m->flag & INDIR, s, offset, nbytes) == -1) return -1; /* Verify we have enough data to match magic type */ switch (m->type) { case FILE_BYTE: if (nbytes < (offset + 1)) /* should alway be true */ return 0; break; case FILE_SHORT: case FILE_BESHORT: case FILE_LESHORT: if (nbytes < (offset + 2)) return 0; break; case FILE_LONG: case FILE_BELONG: case FILE_LELONG: case FILE_DATE: case FILE_BEDATE: case FILE_LEDATE: case FILE_LDATE: case FILE_BELDATE: case FILE_LELDATE: if (nbytes < (offset + 4)) return 0; break; case FILE_STRING: case FILE_PSTRING: if (nbytes < (offset + m->vallen)) return 0; break; } if ((ms->flags & MAGIC_DEBUG) != 0) { mdebug(offset, (char *)(void *)p, sizeof(union VALUETYPE)); file_mdump(m); } if (m->flag & INDIR) { switch (m->in_type) { case FILE_BYTE: if (m->in_offset) { switch (m->in_op&0x7F) { case FILE_OPAND: offset = p->b & m->in_offset; break; case FILE_OPOR: offset = p->b | m->in_offset; break; case FILE_OPXOR: offset = p->b ^ m->in_offset; break; case FILE_OPADD: offset = p->b + m->in_offset; break; case FILE_OPMINUS: offset = p->b - m->in_offset; break; case FILE_OPMULTIPLY: offset = p->b * m->in_offset; break; case FILE_OPDIVIDE: offset = p->b / m->in_offset; break; case FILE_OPMODULO: offset = p->b % m->in_offset; break; } } else offset = p->b; if (m->in_op & FILE_OPINVERSE) offset = ~offset; break; case FILE_BESHORT: if (m->in_offset) { switch (m->in_op & 0x7F) { case FILE_OPAND: offset = (short)((p->hs[0]<<8)| (p->hs[1])) & m->in_offset; break; case FILE_OPOR: offset = (short)((p->hs[0]<<8)| (p->hs[1])) | m->in_offset; break; case FILE_OPXOR: offset = (short)((p->hs[0]<<8)| (p->hs[1])) ^ m->in_offset; break; case FILE_OPADD: offset = (short)((p->hs[0]<<8)| (p->hs[1])) + m->in_offset; break; case FILE_OPMINUS: offset = (short)((p->hs[0]<<8)| (p->hs[1])) - m->in_offset; break; case FILE_OPMULTIPLY: offset = (short)((p->hs[0]<<8)| (p->hs[1])) * m->in_offset; break; case FILE_OPDIVIDE: offset = (short)((p->hs[0]<<8)| (p->hs[1])) / m->in_offset; break; case FILE_OPMODULO: offset = (short)((p->hs[0]<<8)| (p->hs[1])) % m->in_offset; break; } } else offset = (short)((p->hs[0]<<8)| (p->hs[1])); if (m->in_op & FILE_OPINVERSE) offset = ~offset; break; case FILE_LESHORT: if (m->in_offset) { switch (m->in_op & 0x7F) { case FILE_OPAND: offset = (short)((p->hs[1]<<8)| (p->hs[0])) & m->in_offset; break; case FILE_OPOR: offset = (short)((p->hs[1]<<8)| (p->hs[0])) | m->in_offset; break; case FILE_OPXOR: offset = (short)((p->hs[1]<<8)| (p->hs[0])) ^ m->in_offset; break; case FILE_OPADD: offset = (short)((p->hs[1]<<8)| (p->hs[0])) + m->in_offset; break; case FILE_OPMINUS: offset = (short)((p->hs[1]<<8)| (p->hs[0])) - m->in_offset; break; case FILE_OPMULTIPLY: offset = (short)((p->hs[1]<<8)| (p->hs[0])) * m->in_offset; break; case FILE_OPDIVIDE: offset = (short)((p->hs[1]<<8)| (p->hs[0])) / m->in_offset; break; case FILE_OPMODULO: offset = (short)((p->hs[1]<<8)| (p->hs[0])) % m->in_offset; break; } } else offset = (short)((p->hs[1]<<8)| (p->hs[0])); if (m->in_op & FILE_OPINVERSE) offset = ~offset; break; case FILE_SHORT: if (m->in_offset) { switch (m->in_op & 0x7F) { case FILE_OPAND: offset = p->h & m->in_offset; break; case FILE_OPOR: offset = p->h | m->in_offset; break; case FILE_OPXOR: offset = p->h ^ m->in_offset; break; case FILE_OPADD: offset = p->h + m->in_offset; break; case FILE_OPMINUS: offset = p->h - m->in_offset; break; case FILE_OPMULTIPLY: offset = p->h * m->in_offset; break; case FILE_OPDIVIDE: offset = p->h / m->in_offset; break; case FILE_OPMODULO: offset = p->h % m->in_offset; break; } } else offset = p->h; if (m->in_op & FILE_OPINVERSE) offset = ~offset; break; case FILE_BELONG: if (m->in_offset) { switch (m->in_op & 0x7F) { case FILE_OPAND: offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])) & m->in_offset; break; case FILE_OPOR: offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])) | m->in_offset; break; case FILE_OPXOR: offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])) ^ m->in_offset; break; case FILE_OPADD: offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])) + m->in_offset; break; case FILE_OPMINUS: offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])) - m->in_offset; break; case FILE_OPMULTIPLY: offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])) * m->in_offset; break; case FILE_OPDIVIDE: offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])) / m->in_offset; break; case FILE_OPMODULO: offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])) % m->in_offset; break; } } else offset = (int32_t)((p->hl[0]<<24)| (p->hl[1]<<16)| (p->hl[2]<<8)| (p->hl[3])); if (m->in_op & FILE_OPINVERSE) offset = ~offset; break; case FILE_LELONG: if (m->in_offset) { switch (m->in_op & 0x7F) { case FILE_OPAND: offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])) & m->in_offset; break; case FILE_OPOR: offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])) | m->in_offset; break; case FILE_OPXOR: offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])) ^ m->in_offset; break; case FILE_OPADD: offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])) + m->in_offset; break; case FILE_OPMINUS: offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])) - m->in_offset; break; case FILE_OPMULTIPLY: offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])) * m->in_offset; break; case FILE_OPDIVIDE: offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])) / m->in_offset; break; case FILE_OPMODULO: offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])) % m->in_offset; break; } } else offset = (int32_t)((p->hl[3]<<24)| (p->hl[2]<<16)| (p->hl[1]<<8)| (p->hl[0])); if (m->in_op & FILE_OPINVERSE) offset = ~offset; break; case FILE_LONG: if (m->in_offset) { switch (m->in_op & 0x7F) { case FILE_OPAND: offset = p->l & m->in_offset; break; case FILE_OPOR: offset = p->l | m->in_offset; break; case FILE_OPXOR: offset = p->l ^ m->in_offset; break; case FILE_OPADD: offset = p->l + m->in_offset; break; case FILE_OPMINUS: offset = p->l - m->in_offset; break; case FILE_OPMULTIPLY: offset = p->l * m->in_offset; break; case FILE_OPDIVIDE: offset = p->l / m->in_offset; break; case FILE_OPMODULO: offset = p->l % m->in_offset; break; /* case TOOMANYSWITCHBLOCKS: * ugh = p->eye % m->strain; * rub; * case BEER: * off = p->tab & m->in_gest; * sleep; */ } } else offset = p->l; if (m->in_op & FILE_OPINVERSE) offset = ~offset; break; } if (mcopy(ms, p, m->type, 0, s, offset, nbytes) == -1) return -1; if ((ms->flags & MAGIC_DEBUG) != 0) { mdebug(offset, (char *)(void *)p, sizeof(union VALUETYPE)); file_mdump(m); } } if (!mconvert(ms, p, m)) return 0; return 1; } private int mcheck(struct magic_set *ms, union VALUETYPE *p, struct magic *m) { uint32_t l = m->value.l; uint32_t v; int matched; if ( (m->value.s[0] == 'x') && (m->value.s[1] == '\0') ) { return 1; } switch (m->type) { case FILE_BYTE: v = p->b; break; case FILE_SHORT: case FILE_BESHORT: case FILE_LESHORT: v = p->h; break; case FILE_LONG: case FILE_BELONG: case FILE_LELONG: case FILE_DATE: case FILE_BEDATE: case FILE_LEDATE: case FILE_LDATE: case FILE_BELDATE: case FILE_LELDATE: v = p->l; break; case FILE_STRING: case FILE_BESTRING16: case FILE_LESTRING16: case FILE_PSTRING: { /* * What we want here is: * v = strncmp(m->value.s, p->s, m->vallen); * but ignoring any nulls. bcmp doesn't give -/+/0 * and isn't universally available anyway. */ unsigned char *a = (unsigned char*)m->value.s; unsigned char *b = (unsigned char*)p->s; int len = m->vallen; l = 0; v = 0; if (0L == m->mask) { /* normal string: do it fast */ while (--len >= 0) if ((v = *b++ - *a++) != '\0') break; } else { /* combine the others */ while (--len >= 0) { if ((m->mask & STRING_IGNORE_LOWERCASE) && islower(*a)) { if ((v = tolower(*b++) - *a++) != '\0') break; } else if ((m->mask & STRING_COMPACT_BLANK) && isspace(*a)) { a++; if (isspace(*b++)) { while (isspace(*b)) b++; } else { v = 1; break; } } else if (isspace(*a) && (m->mask & STRING_COMPACT_OPTIONAL_BLANK)) { a++; while (isspace(*b)) b++; } else { if ((v = *b++ - *a++) != '\0') break; } } } break; } case FILE_REGEX: { int rc; regex_t rx; char errmsg[512]; rc = regcomp(&rx, m->value.s, REG_EXTENDED|REG_NOSUB); if (rc) { free(p->buf); regerror(rc, &rx, errmsg, sizeof(errmsg)); file_error(ms, 0, "regex error %d, (%s)", rc, errmsg); return -1; } else { rc = regexec(&rx, p->buf, 0, 0, 0); regfree(&rx); free(p->buf); return !rc; } } default: file_error(ms, 0, "invalid type %d in mcheck()", m->type); return -1; } if (m->type != FILE_STRING && m->type != FILE_PSTRING) v = file_signextend(ms, m, v); switch (m->reln) { case 'x': if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "%u == *any* = 1\n", v); matched = 1; break; case '!': matched = v != l; if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "%u != %u = %d\n", v, l, matched); break; case '=': matched = v == l; if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "%u == %u = %d\n", v, l, matched); break; case '>': if (m->flag & UNSIGNED) { matched = v > l; if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "%u > %u = %d\n", v, l, matched); } else { matched = (int32_t) v > (int32_t) l; if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "%d > %d = %d\n", v, l, matched); } break; case '<': if (m->flag & UNSIGNED) { matched = v < l; if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "%u < %u = %d\n", v, l, matched); } else { matched = (int32_t) v < (int32_t) l; if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "%d < %d = %d\n", v, l, matched); } break; case '&': matched = (v & l) == l; if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "((%x & %x) == %x) = %d\n", v, l, l, matched); break; case '^': matched = (v & l) != l; if ((ms->flags & MAGIC_DEBUG) != 0) (void) fprintf(stderr, "((%x & %x) != %x) = %d\n", v, l, l, matched); break; default: matched = 0; file_error(ms, 0, "cannot happen: invalid relation `%c'", m->reln); return -1; } return matched; }