/* * Copyright (c) 1997 - 2005 Kungliga Tekniska Högskolan * (Royal Institute of Technology, Stockholm, Sweden). * All rights reserved. * * Portions Copyright (c) 2009 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 #include #include #include #include #include #include #include "cms_asn1.h" #include "digest_asn1.h" #include "krb5_asn1.h" #include "kx509_asn1.h" #include "ocsp_asn1.h" #include "pkcs10_asn1.h" #include "pkcs12_asn1.h" #include "pkcs8_asn1.h" #include "pkcs9_asn1.h" #include "pkinit_asn1.h" #include "rfc2459_asn1.h" #include "rfc4108_asn1.h" #ifdef ASN1_PRINT_SUPPORTED #include "x690sample_template_asn1.h" #else #include "x690sample_asn1.h" #endif static int quiet_flag = 0; static int print_flag = 1; static int test_copy_flag; static int test_encode_flag; static int sequence_flag; static int try_all_flag; static int indent_flag = 1; static int inner_flag; static unsigned long indefinite_form_loop; static unsigned long indefinite_form_loop_max = 10000; typedef size_t (*lengther)(void *); typedef int (*copyer)(const void *, void *); typedef int (*encoder)(unsigned char *, size_t, void *, size_t *); typedef int (*decoder)(const unsigned char *, size_t, void *, size_t *); typedef char *(*printer)(const void *, int); typedef void (*releaser)(void *); const struct types { const char *name; size_t sz; copyer cpy; lengther len; decoder decode; encoder encode; printer print; releaser release; } types[] = { #define ASN1_SYM_INTVAL(n, gn, gns, i) #define ASN1_SYM_OID(n, gn, gns) #ifdef ASN1_PRINT_SUPPORTED #define ASN1_SYM_TYPE(n, gn, gns) \ { \ n, \ sizeof(gns), \ (copyer)copy_ ## gns, \ (lengther)length_ ## gns, \ (decoder)decode_ ## gns, \ (encoder)encode_ ## gns, \ (printer)print_ ## gns, \ (releaser)free_ ## gns, \ }, #else #define ASN1_SYM_TYPE(n, gn, gns) \ { \ n, \ sizeof(gns), \ (copyer)copy_ ## gns, \ (lengther)length_ ## gns, \ (decoder)decode_ ## gns, \ (encoder)encode_ ## gns, \ 0, \ (releaser)free_ ## gns, \ }, #endif #include "cms_asn1_syms.c" #include "digest_asn1_syms.c" #include "krb5_asn1_syms.c" #include "kx509_asn1_syms.c" #include "ocsp_asn1_syms.c" #include "pkcs10_asn1_syms.c" #include "pkcs12_asn1_syms.c" #include "pkcs8_asn1_syms.c" #include "pkcs9_asn1_syms.c" #include "pkinit_asn1_syms.c" #include "rfc2459_asn1_syms.c" #include "rfc4108_asn1_syms.c" #ifdef ASN1_PRINT_SUPPORTED #include "x690sample_template_asn1_syms.c" #else #include "x690sample_asn1_syms.c" #endif }; struct types sorted_types[sizeof(types)/sizeof(types[0])]; static size_t loop (unsigned char *buf, size_t len, int indent) { unsigned char *start_buf = buf; while (len > 0) { int ret; Der_class class; Der_type type; unsigned int tag; size_t sz; size_t length; size_t loop_length = 0; int end_tag = 0; const char *tagname; ret = der_get_tag (buf, len, &class, &type, &tag, &sz); if (ret) errx (1, "der_get_tag: %s", error_message (ret)); if (sz > len) errx (1, "unreasonable length (%u) > %u", (unsigned)sz, (unsigned)len); buf += sz; len -= sz; if (indent_flag) { int i; for (i = 0; i < indent; ++i) printf (" "); } printf ("%s %s ", der_get_class_name(class), der_get_type_name(type)); tagname = der_get_tag_name(tag); if (class == ASN1_C_UNIV && tagname != NULL) printf ("%s = ", tagname); else printf ("tag %d = ", tag); ret = der_get_length (buf, len, &length, &sz); if (ret) errx (1, "der_get_tag: %s", error_message (ret)); if (sz > len) errx (1, "unreasonable tag length (%u) > %u", (unsigned)sz, (unsigned)len); buf += sz; len -= sz; if (length == ASN1_INDEFINITE) { if ((class == ASN1_C_UNIV && type == PRIM && tag == UT_OctetString) || (class == ASN1_C_CONTEXT && type == CONS) || (class == ASN1_C_UNIV && type == CONS && tag == UT_Sequence) || (class == ASN1_C_UNIV && type == CONS && tag == UT_Set)) { printf("*INDEFINITE FORM*"); } else { fflush(stdout); errx(1, "indef form used on unsupported object"); } end_tag = 1; if (indefinite_form_loop > indefinite_form_loop_max) errx(1, "indefinite form used recursively more then %lu " "times, aborting", indefinite_form_loop_max); indefinite_form_loop++; length = len; } else if (length > len) { printf("\n"); fflush(stdout); errx (1, "unreasonable inner length (%u) > %u", (unsigned)length, (unsigned)len); } if (class == ASN1_C_CONTEXT || class == ASN1_C_APPL) { printf ("%lu bytes [%u]", (unsigned long)length, tag); if (type == CONS) { printf("\n"); loop_length = loop (buf, length, indent + 2); } else { printf(" IMPLICIT content\n"); } } else if (class == ASN1_C_UNIV) { switch (tag) { case UT_EndOfContent: printf (" INDEFINITE length was %lu\n", (unsigned long)(buf - start_buf)); break; case UT_Set : case UT_Sequence : printf ("%lu bytes {\n", (unsigned long)length); loop_length = loop (buf, length, indent + 2); if (indent_flag) { int i; for (i = 0; i < indent; ++i) printf (" "); printf ("}\n"); } else printf ("} indent = %d\n", indent / 2); break; case UT_Integer : { int val; if (length <= sizeof(val)) { ret = der_get_integer (buf, length, &val, NULL); if (ret) errx (1, "der_get_integer: %s", error_message (ret)); printf ("integer %d\n", val); } else { heim_integer vali; char *p; ret = der_get_heim_integer(buf, length, &vali, NULL); if (ret) errx (1, "der_get_heim_integer: %s", error_message (ret)); ret = der_print_hex_heim_integer(&vali, &p); if (ret) errx (1, "der_print_hex_heim_integer: %s", error_message (ret)); printf ("BIG NUM integer: length %lu %s\n", (unsigned long)length, p); free(p); } break; } case UT_OctetString : { heim_octet_string str; size_t i; ret = der_get_octet_string (buf, length, &str, NULL); if (ret) errx (1, "der_get_octet_string: %s", error_message (ret)); printf ("(length %lu), ", (unsigned long)length); if (inner_flag) { Der_class class2; Der_type type2; unsigned int tag2; ret = der_get_tag(str.data, str.length, &class2, &type2, &tag2, &sz); if (ret || sz > str.length || type2 != CONS || tag2 != UT_Sequence) goto just_an_octet_string; printf("{\n"); loop (str.data, str.length, indent + 2); for (i = 0; i < indent; ++i) printf (" "); printf ("}\n"); } else { unsigned char *uc; just_an_octet_string: uc = (unsigned char *)str.data; for (i = 0; i < min(16,length); ++i) printf ("%02x", uc[i]); printf ("\n"); } free (str.data); break; } case UT_IA5String : case UT_PrintableString : { heim_printable_string str; unsigned char *s; size_t n; memset(&str, 0, sizeof(str)); ret = der_get_printable_string (buf, length, &str, NULL); if (ret) errx (1, "der_get_general_string: %s", error_message (ret)); s = str.data; printf("\""); for (n = 0; n < str.length; n++) { if (isprint(s[n])) printf ("%c", s[n]); else printf ("#%02x", s[n]); } printf("\"\n"); der_free_printable_string(&str); break; } case UT_GeneralizedTime : case UT_GeneralString : case UT_VisibleString : case UT_UTF8String : { heim_general_string str; ret = der_get_general_string (buf, length, &str, NULL); if (ret) errx (1, "der_get_general_string: %s", error_message (ret)); printf ("\"%s\"\n", str); free (str); break; } case UT_OID: { heim_oid o; char *p; ret = der_get_oid(buf, length, &o, NULL); if (ret) errx (1, "der_get_oid: %s", error_message (ret)); ret = der_print_heim_oid_sym(&o, '.', &p); der_free_oid(&o); if (ret) errx (1, "der_print_heim_oid_sym: %s", error_message (ret)); printf("%s\n", p); free(p); break; } case UT_Enumerated: { int num; ret = der_get_integer (buf, length, &num, NULL); if (ret) errx (1, "der_get_enum: %s", error_message (ret)); printf("%u\n", num); break; } default : printf ("%lu bytes\n", (unsigned long)length); break; } } if (end_tag) { if (loop_length == 0) errx(1, "zero length INDEFINITE data ? indent = %d\n", indent / 2); if (loop_length < length) length = loop_length; if (indefinite_form_loop == 0) errx(1, "internal error in indefinite form loop detection"); indefinite_form_loop--; } else if (loop_length) errx(1, "internal error for INDEFINITE form"); buf += length; len -= length; } return 0; } static int type_cmp(const void *va, const void *vb) { const struct types *ta = (const struct types *)va; const struct types *tb = (const struct types *)vb; return strcmp(ta->name, tb->name); } static int dotype(unsigned char *buf, size_t len, char **argv, size_t *size) { const char *typename = ""; size_t matches = 0; size_t sz; size_t tried = 0; size_t i = 0; void *v; int ret = 0; *size = len; memcpy(sorted_types, types, sizeof(types)); qsort(sorted_types, sizeof(types)/sizeof(types[0]), sizeof(types[0]), type_cmp); while ((try_all_flag && i < sizeof(types)/sizeof(types[0])) || (typename = (argv++)[0])) { if (try_all_flag) { typename = sorted_types[i].name; } else { size_t right = sizeof(types)/sizeof(types[0]) - 1; size_t left = 0; size_t mid = (left + right) >> 1; int c = -1; while (left <= right) { mid = (left + right) >> 1; c = strcmp(sorted_types[mid].name, typename); if (c < 0) left = mid + 1; else if (c > 0) right = mid - 1; else break; } if (c != 0) errx(1, "Type %s not found", typename); i = mid; } v = ecalloc(1, sorted_types[i].sz); ret = sorted_types[i].decode(buf, len, v, &sz); if (ret == 0) { matches++; if (!quiet_flag && sz == len) { fprintf(stderr, "Match: %s\n", typename); } else if (sequence_flag) { *size = sz; } else if (!quiet_flag) { fprintf(stderr, "Prefix match: %s\n", typename); } if (print_flag) { static int warned = 0; if (!sorted_types[i].print) { if (!warned) warnx("Missing print support; try enabling / not " "disabling ASN.1 templating in build " "configuration"); warned = 1; } else { char *s; s = sorted_types[i].print(v, indent_flag ? ASN1_PRINT_INDENT : 0); if (!s) err(1, "Could not print %s\n", typename); if (!quiet_flag) printf("%s\n", s); free(s); } } if (test_encode_flag) { unsigned char *der = emalloc(sz); size_t wants = sorted_types[i].len(v); if (wants != sz) errx(1, "Encoding will not round trip"); ret = sorted_types[i].encode(der + (sz - 1), sz, v, &sz); if (ret != 0) errx(1, "Encoding failed"); if (memcmp(buf, der, sz) != 0) errx(1, "Encoding did not round trip"); free(der); } if (test_copy_flag) { void *vcpy = ecalloc(1, sorted_types[i].sz); ret = sorted_types[i].cpy(v, vcpy); if (ret != 0) errx(1, "Copy function failed"); if (test_encode_flag) { unsigned char *der = emalloc(sz); size_t wants = sorted_types[i].len(vcpy); if (wants != sz) errx(1, "Encoding of copy will not round trip"); ret = sorted_types[i].encode(der + (sz - 1), sz, vcpy, &sz); if (ret != 0) errx(1, "Encoding of copy failed"); if (memcmp(buf, der, sz) != 0) errx(1, "Encoding of copy did not round trip"); free(der); } sorted_types[i].release(vcpy); free(vcpy); } } sorted_types[i].release(v); free(v); tried++; i++; if (ret == 0 && !try_all_flag && !argv[0]) return 0; if (!try_all_flag && argv[0]) continue; if (try_all_flag) { if (i < sizeof(types)/sizeof(types[0])) continue; if (matches) break; } if (tried > 1) errx(1, "No type matched the input value"); /* XXX Use com_err */ switch (ret) { case ASN1_BAD_TIMEFORMAT: errx(1, "Could not decode and print data as type %s: " "Bad time format", typename); case ASN1_MISSING_FIELD: errx(1, "Could not decode and print data as type %s: " "Missing required field", typename); case ASN1_MISPLACED_FIELD: errx(1, "Could not decode and print data as type %s: " "Fields out of order", typename); case ASN1_TYPE_MISMATCH: errx(1, "Could not decode and print data as type %s: " "Type mismatch", typename); case ASN1_OVERFLOW: errx(1, "Could not decode and print data as type %s: " "DER value too large", typename); case ASN1_OVERRUN: errx(1, "Could not decode and print data as type %s: " "DER value too short", typename); case ASN1_BAD_ID: errx(1, "Could not decode and print data as type %s: " "DER tag is unexpected", typename); case ASN1_BAD_LENGTH: errx(1, "Could not decode and print data as type %s: " "DER length does not match value", typename); case ASN1_BAD_FORMAT: case ASN1_PARSE_ERROR: errx(1, "Could not decode and print data as type %s: " "DER badly formatted", typename); case ASN1_EXTRA_DATA: errx(1, "Could not decode and print data as type %s: " "Extra data past end of end structure", typename); case ASN1_BAD_CHARACTER: errx(1, "Could not decode and print data as type %s: " "Invalid character encoding in string", typename); case ASN1_MIN_CONSTRAINT: errx(1, "Could not decode and print data as type %s: " "Too few elements", typename); case ASN1_MAX_CONSTRAINT: errx(1, "Could not decode and print data as type %s: " "Too many elements", typename); case ASN1_EXACT_CONSTRAINT: errx(1, "Could not decode and print data as type %s: " "Wrong count of elements", typename); case ASN1_INDEF_OVERRUN: errx(1, "Could not decode and print data as type %s: " "BER indefinte encoding overun", typename); case ASN1_INDEF_UNDERRUN: errx(1, "Could not decode and print data as type %s: " "BER indefinte encoding underrun", typename); case ASN1_GOT_BER: errx(1, "Could not decode and print data as type %s: " "BER encoding when DER expected", typename); case ASN1_INDEF_EXTRA_DATA: errx(1, "Could not decode and print data as type %s: " "End-of-contents tag contains data", typename); default: errx(1, "Could not decode and print data as type %s", typename); } } return 0; } static int doit(char **argv) { int fd = open(argv[0], O_RDONLY); struct stat sb; unsigned char *buf; size_t len; int ret; if(fd < 0) err(1, "opening %s for read", argv[0]); if (fstat (fd, &sb) < 0) err(1, "stat %s", argv[0]); len = sb.st_size; buf = emalloc(len); if (read(fd, buf, len) != len) errx(1, "read failed"); close(fd); argv++; if (argv[0] || try_all_flag) { size_t off = 0; size_t sz = 0; do { ret = dotype(buf + off, len - off, argv, &sz); off += sz; } while (ret == 0 && sequence_flag && off < len); } else { ret = loop(buf, len, 0); } free(buf); return ret; } static int list_types_flag; static int version_flag; static int help_flag; struct getargs args[] = { { "indent", 'i', arg_negative_flag, &indent_flag, "\tdo not indent dump", NULL }, { "inner", 'I', arg_flag, &inner_flag, "\ttry to parse inner structures of OCTET STRING", NULL }, { "list-types", 'l', arg_flag, &list_types_flag, "\tlist ASN.1 types known to this program", NULL }, { "try-all-types", 'A', arg_flag, &try_all_flag, "\ttry all known types", NULL }, { "raw-sequence", 'S', arg_flag, &sequence_flag, "\ttry parsing leftover data", NULL }, { "test-encode", 0, arg_flag, &test_encode_flag, "\ttest encode round trip (for memory debugging and fuzzing)", NULL }, { "test-copy", 0, arg_flag, &test_copy_flag, "\ttest copy operation (for memory debugging and fuzzing)", NULL }, { "print", 'n', arg_negative_flag, &print_flag, "\ttest copy operation (for memory debugging and fuzzing)", NULL }, { "quiet", 'q', arg_flag, &quiet_flag, "\tOutput nothing (exit status 0 means type matched)", NULL }, { "version", 'v', arg_flag, &version_flag, NULL, NULL }, { "help", 'h', arg_flag, &help_flag, NULL, NULL } }; int num_args = sizeof(args) / sizeof(args[0]); static void usage(int code) { arg_printusage(args, num_args, NULL, "dump-file [TypeName [TypeName ...]]"); exit(code); } int main(int argc, char **argv) { int optidx = 0; setprogname(argv[0]); initialize_asn1_error_table(); if (getarg(args, num_args, argc, argv, &optidx)) usage(1); if (help_flag) usage(0); if (version_flag) { print_version(NULL); exit(0); } argv += optidx; argc -= optidx; if (sequence_flag && try_all_flag) errx(1, "--raw-sequence and --try-all-types are mutually exclusive"); if (quiet_flag && !try_all_flag && argc < 2) errx(1, "--quiet requires --try-all-types or that a TypeName be given"); if (!print_flag && !try_all_flag && argc < 2) errx(1, "--no-print requires --try-all-types or that a TypeName be given"); if (list_types_flag) { size_t i; if (argc) errx(1, "--list-types is exclusive of other options or arguments"); for (i = 0; i < sizeof(types)/sizeof(types[0]); i++) printf("%s\n", types[i].name); exit(0); } if (argc < 1) usage(1); return doit(argv); }