/* * Copyright (c) 2009 Kungliga Tekniska Högskolan * (Royal Institute of Technology, Stockholm, Sweden). * All rights reserved. * * Portions Copyright (c) 2009 - 2010 Apple Inc. All rights reserved. * * 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, 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. * * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE 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 INSTITUTE 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. */ #include "der_locl.h" #include enum trigger_method { FOFF, FRANDOM, FLINEAR, FLINEAR_SIZE }; #ifdef ASN1_FUZZER static enum trigger_method method = FOFF; /* FLINEAR */ static unsigned long fnum, fcur, fsize; #endif int asn1_fuzzer_method(const char *mode) { #ifdef ASN1_FUZZER if (mode == NULL || strcasecmp(mode, "off") == 0) { method = FOFF; } else if (strcasecmp(mode, "random") == 0) { method = FRANDOM; } else if (strcasecmp(mode, "linear") == 0) { method = FLINEAR; } else if (strcasecmp(mode, "linear-size") == 0) { method = FLINEAR_SIZE; } else return 1; return 0; #else return 1; #endif } void asn1_fuzzer_reset(void) { #ifdef ASN1_FUZZER fcur = 0; fsize = 0; fnum = 0; #endif } void asn1_fuzzer_next(void) { #ifdef ASN1_FUZZER fcur = 0; fsize = 0; fnum++; #endif } int asn1_fuzzer_done(void) { #ifndef ASN1_FUZZER abort(); #else /* since code paths */ return (fnum > 10000); #endif } #ifdef ASN1_FUZZER static int fuzzer_trigger(unsigned int chance) { switch(method) { case FOFF: return 0; case FRANDOM: if ((rk_random() % chance) != 1) return 0; return 1; case FLINEAR: if (fnum == fcur++) return 1; return 0; case FLINEAR_SIZE: return 0; } return 0; } static int fuzzer_size_trigger(unsigned long *cur) { if (method != FLINEAR_SIZE) return 0; if (fnum == (*cur)++) return 1; return 0; } static size_t fuzzer_length_len (size_t len) { if (fuzzer_size_trigger(&fsize)) { len = 0; } else if (fuzzer_size_trigger(&fsize)) { len = 129; } else if (fuzzer_size_trigger(&fsize)) { len = 0xffff; } if (len < 128) return 1; else { int ret = 0; do { ++ret; len /= 256; } while (len); return ret + 1; } } static int fuzzer_put_length (unsigned char *p, size_t len, size_t val, size_t *size) { if (len < 1) return ASN1_OVERFLOW; if (fuzzer_size_trigger(&fcur)) { val = 0; } else if (fuzzer_size_trigger(&fcur)) { val = 129; } else if (fuzzer_size_trigger(&fcur)) { val = 0xffff; } if (val < 128) { *p = val; *size = 1; } else { size_t l = 0; while(val > 0) { if(len < 2) return ASN1_OVERFLOW; *p-- = val % 256; val /= 256; len--; l++; } *p = 0x80 | l; if(size) *size = l + 1; } return 0; } static int fuzzer_put_tag (unsigned char *p, size_t len, Der_class class, Der_type type, unsigned int tag, size_t *size) { unsigned fcont = 0; if (tag <= 30) { if (len < 1) return ASN1_OVERFLOW; if (fuzzer_trigger(100)) *p = MAKE_TAG(class, type, 0x1f); else *p = MAKE_TAG(class, type, tag); *size = 1; } else { size_t ret = 0; unsigned int continuation = 0; do { if (len < 1) return ASN1_OVERFLOW; *p-- = tag % 128 | continuation; len--; ret++; tag /= 128; continuation = 0x80; } while(tag > 0); if (len < 1) return ASN1_OVERFLOW; if (fuzzer_trigger(100)) *p-- = MAKE_TAG(class, type, 0); else *p-- = MAKE_TAG(class, type, 0x1f); ret++; *size = ret; } return 0; } static int fuzzer_put_length_and_tag (unsigned char *p, size_t len, size_t len_val, Der_class class, Der_type type, unsigned int tag, size_t *size) { size_t ret = 0; size_t l; int e; e = fuzzer_put_length (p, len, len_val, &l); if(e) return e; p -= l; len -= l; ret += l; e = fuzzer_put_tag (p, len, class, type, tag, &l); if(e) return e; ret += l; *size = ret; return 0; } static int fuzzer_put_general_string (unsigned char *p, size_t len, const heim_general_string *str, size_t *size) { size_t slen = strlen(*str); if (len < slen) return ASN1_OVERFLOW; p -= slen; if (slen >= 2 && fuzzer_trigger(100)) { memcpy(p+1, *str, slen); memcpy(p+1, "%s", 2); } else if (slen >= 2 && fuzzer_trigger(100)) { memcpy(p+1, *str, slen); memcpy(p+1, "%n", 2); } else if (slen >= 4 && fuzzer_trigger(100)) { memcpy(p+1, *str, slen); memcpy(p+1, "%10n", 4); } else if (slen >= 10 && fuzzer_trigger(100)) { memcpy(p+1, *str, slen); memcpy(p+1, "%n%n%n%n%n", 10); } else if (slen >= 10 && fuzzer_trigger(100)) { memcpy(p+1, *str, slen); memcpy(p+1, "%n%p%s%d%x", 10); } else if (slen >= 7 && fuzzer_trigger(100)) { memcpy(p+1, *str, slen); memcpy(p+1, "%.1024d", 7); } else if (slen >= 7 && fuzzer_trigger(100)) { memcpy(p+1, *str, slen); memcpy(p+1, "%.2049d", 7); } else if (fuzzer_trigger(100)) { memset(p+1, 0, slen); } else if (fuzzer_trigger(100)) { memset(p+1, 0xff, slen); } else if (fuzzer_trigger(100)) { memset(p+1, 'A', slen); } else { memcpy(p+1, *str, slen); } *size = slen; return 0; } struct asn1_type_func fuzzerprim[A1T_NUM_ENTRY] = { #define fuzel(name, type) { \ (asn1_type_encode)fuzzer_put_##name, \ (asn1_type_decode)der_get_##name, \ (asn1_type_length)der_length_##name, \ (asn1_type_copy)der_copy_##name, \ (asn1_type_release)der_free_##name, \ sizeof(type) \ } #define el(name, type) { \ (asn1_type_encode)der_put_##name, \ (asn1_type_decode)der_get_##name, \ (asn1_type_length)der_length_##name, \ (asn1_type_copy)der_copy_##name, \ (asn1_type_release)der_free_##name, \ sizeof(type) \ } #define elber(name, type) { \ (asn1_type_encode)der_put_##name, \ (asn1_type_decode)der_get_##name##_ber, \ (asn1_type_length)der_length_##name, \ (asn1_type_copy)der_copy_##name, \ (asn1_type_release)der_free_##name, \ sizeof(type) \ } el(integer, int), el(integer64, int64_t), el(heim_integer, heim_integer), el(integer, int), el(unsigned, unsigned), el(uninteger64, uint64_t), fuzel(general_string, heim_general_string), el(octet_string, heim_octet_string), elber(octet_string, heim_octet_string), el(ia5_string, heim_ia5_string), el(bmp_string, heim_bmp_string), el(universal_string, heim_universal_string), el(printable_string, heim_printable_string), el(visible_string, heim_visible_string), el(utf8string, heim_utf8_string), el(generalized_time, time_t), el(utctime, time_t), el(bit_string, heim_bit_string), { (asn1_type_encode)der_put_boolean, (asn1_type_decode)der_get_boolean, (asn1_type_length)der_length_boolean, (asn1_type_copy)der_copy_integer, (asn1_type_release)der_free_integer, sizeof(int) }, el(oid, heim_oid), el(general_string, heim_general_string), #undef fuzel #undef el #undef elber }; int _asn1_encode_fuzzer(const struct asn1_template *t, unsigned char *p, size_t len, const void *data, size_t *size) { size_t elements = A1_HEADER_LEN(t); int ret = 0; size_t oldlen = len; t += A1_HEADER_LEN(t); while (elements) { switch (t->tt & A1_OP_MASK) { case A1_OP_TYPE: case A1_OP_TYPE_EXTERN: { size_t newsize; const void *el = DPOC(data, t->offset); if (t->tt & A1_FLAG_OPTIONAL) { void **pel = (void **)el; if (*pel == NULL) break; el = *pel; } if ((t->tt & A1_OP_MASK) == A1_OP_TYPE) { ret = _asn1_encode_fuzzer(t->ptr, p, len, el, &newsize); } else { const struct asn1_type_func *f = t->ptr; ret = (f->encode)(p, len, el, &newsize); } if (ret) return ret; p -= newsize; len -= newsize; break; } case A1_OP_TAG: { const void *olddata = data; size_t l, datalen; data = DPOC(data, t->offset); if (t->tt & A1_FLAG_OPTIONAL) { void **el = (void **)data; if (*el == NULL) { data = olddata; break; } data = *el; } ret = _asn1_encode_fuzzer(t->ptr, p, len, data, &datalen); if (ret) return ret; len -= datalen; p -= datalen; ret = fuzzer_put_length_and_tag(p, len, datalen, A1_TAG_CLASS(t->tt), A1_TAG_TYPE(t->tt), A1_TAG_TAG(t->tt), &l); if (ret) return ret; p -= l; len -= l; data = olddata; break; } case A1_OP_PARSE: { unsigned int type = A1_PARSE_TYPE(t->tt); size_t newsize; const void *el = DPOC(data, t->offset); if (type > sizeof(fuzzerprim)/sizeof(fuzzerprim[0])) { ABORT_ON_ERROR(); return ASN1_PARSE_ERROR; } ret = (fuzzerprim[type].encode)(p, len, el, &newsize); if (ret) return ret; p -= newsize; len -= newsize; break; } case A1_OP_SETOF: { const struct template_of *el = DPOC(data, t->offset); size_t ellen = _asn1_sizeofType(t->ptr); heim_octet_string *val; unsigned char *elptr = el->val; size_t i, totallen; if (el->len == 0) break; if (el->len > UINT_MAX/sizeof(val[0])) return ERANGE; val = malloc(sizeof(val[0]) * el->len); if (val == NULL) return ENOMEM; for(totallen = 0, i = 0; i < el->len; i++) { unsigned char *next; size_t l; val[i].length = _asn1_length(t->ptr, elptr); val[i].data = malloc(val[i].length); ret = _asn1_encode_fuzzer(t->ptr, DPO(val[i].data, val[i].length - 1), val[i].length, elptr, &l); if (ret) break; next = elptr + ellen; if (next < elptr) { ret = ASN1_OVERFLOW; break; } elptr = next; totallen += val[i].length; } if (ret == 0 && totallen > len) ret = ASN1_OVERFLOW; if (ret) { do { free(val[i].data); } while(i-- > 0); free(val); return ret; } len -= totallen; qsort(val, el->len, sizeof(val[0]), _heim_der_set_sort); i = el->len - 1; do { p -= val[i].length; memcpy(p + 1, val[i].data, val[i].length); free(val[i].data); } while(i-- > 0); free(val); break; } case A1_OP_SEQOF: { struct template_of *el = DPO(data, t->offset); size_t ellen = _asn1_sizeofType(t->ptr); size_t newsize; unsigned int i; unsigned char *elptr = el->val; if (el->len == 0) break; elptr += ellen * (el->len - 1); for (i = 0; i < el->len; i++) { ret = _asn1_encode_fuzzer(t->ptr, p, len, elptr, &newsize); if (ret) return ret; p -= newsize; len -= newsize; elptr -= ellen; } break; } case A1_OP_BMEMBER: { const struct asn1_template *bmember = t->ptr; size_t size = bmember->offset; size_t elements = A1_HEADER_LEN(bmember); size_t pos; unsigned char c = 0; unsigned int bitset = 0; int rfc1510 = (bmember->tt & A1_HBF_RFC1510); bmember += elements; if (rfc1510) pos = 31; else pos = bmember->offset; while (elements && len) { while (bmember->offset / 8 < pos / 8) { if (rfc1510 || bitset || c) { if (len < 1) return ASN1_OVERFLOW; *p-- = c; len--; } c = 0; pos -= 8; } _asn1_bmember_put_bit(&c, data, bmember->offset, size, &bitset); elements--; bmember--; } if (rfc1510 || bitset) { if (len < 1) return ASN1_OVERFLOW; *p-- = c; len--; } if (len < 1) return ASN1_OVERFLOW; if (rfc1510 || bitset == 0) *p-- = 0; else *p-- = bitset - 1; len--; break; } case A1_OP_CHOICE: { const struct asn1_template *choice = t->ptr; const unsigned int *element = DPOC(data, choice->offset); size_t datalen; const void *el; if (*element > A1_HEADER_LEN(choice)) { printf("element: %d\n", *element); return ASN1_PARSE_ERROR; } if (*element == 0) { ret += der_put_octet_string(p, len, DPOC(data, choice->tt), &datalen); } else { choice += *element; el = DPOC(data, choice->offset); ret = _asn1_encode_fuzzer(choice->ptr, p, len, el, &datalen); if (ret) return ret; } len -= datalen; p -= datalen; break; } default: ABORT_ON_ERROR(); } t--; elements--; } if (fuzzer_trigger(1000)) { memset(p + 1, 0, oldlen - len); } else if (fuzzer_trigger(1000)) { memset(p + 1, 0x41, oldlen - len); } else if (fuzzer_trigger(1000)) { memset(p + 1, 0xff, oldlen - len); } if (size) *size = oldlen - len; return 0; } size_t _asn1_length_fuzzer(const struct asn1_template *t, const void *data) { size_t elements = A1_HEADER_LEN(t); size_t ret = 0; t += A1_HEADER_LEN(t); while (elements) { switch (t->tt & A1_OP_MASK) { case A1_OP_TYPE: case A1_OP_TYPE_EXTERN: { const void *el = DPOC(data, t->offset); if (t->tt & A1_FLAG_OPTIONAL) { void **pel = (void **)el; if (*pel == NULL) break; el = *pel; } if ((t->tt & A1_OP_MASK) == A1_OP_TYPE) { ret += _asn1_length(t->ptr, el); } else { const struct asn1_type_func *f = t->ptr; ret += (f->length)(el); } break; } case A1_OP_TAG: { size_t datalen; const void *olddata = data; data = DPO(data, t->offset); if (t->tt & A1_FLAG_OPTIONAL) { void **el = (void **)data; if (*el == NULL) { data = olddata; break; } data = *el; } datalen = _asn1_length(t->ptr, data); ret += der_length_tag(A1_TAG_TAG(t->tt)) + fuzzer_length_len(datalen); ret += datalen; data = olddata; break; } case A1_OP_PARSE: { unsigned int type = A1_PARSE_TYPE(t->tt); const void *el = DPOC(data, t->offset); if (type >= sizeof(asn1_template_prim)/sizeof(asn1_template_prim[0])) { ABORT_ON_ERROR(); break; } ret += (asn1_template_prim[type].length)(el); break; } case A1_OP_SETOF: case A1_OP_SEQOF: { const struct template_of *el = DPOC(data, t->offset); size_t ellen = _asn1_sizeofType(t->ptr); const unsigned char *element = el->val; unsigned int i; for (i = 0; i < el->len; i++) { ret += _asn1_length(t->ptr, element); element += ellen; } break; } case A1_OP_BMEMBER: { const struct asn1_template *bmember = t->ptr; size_t size = bmember->offset; size_t elements = A1_HEADER_LEN(bmember); int rfc1510 = (bmember->tt & A1_HBF_RFC1510); if (rfc1510) { ret += 5; } else { ret += 1; bmember += elements; while (elements) { if (_asn1_bmember_isset_bit(data, bmember->offset, size)) { ret += (bmember->offset / 8) + 1; break; } elements--; bmember--; } } break; } case A1_OP_CHOICE: { const struct asn1_template *choice = t->ptr; const unsigned int *element = DPOC(data, choice->offset); if (*element > A1_HEADER_LEN(choice)) break; if (*element == 0) { ret += der_length_octet_string(DPOC(data, choice->tt)); } else { choice += *element; ret += _asn1_length(choice->ptr, DPOC(data, choice->offset)); } break; } default: ABORT_ON_ERROR(); break; } elements--; t--; } return ret; } #endif /* ASN1_FUZZER */