/* * Copyright (c) 1997 - 2006 Kungliga Tekniska Högskolan * (Royal Institute of Technology, Stockholm, Sweden). * 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 "gen_locl.h" RCSID("$Id$"); static void encode_primitive (const char *typename, const char *name) { fprintf (codefile, "e = der_put_%s(p, len, %s, &l);\n" "if (e) return e;\np -= l; len -= l; ret += l;\n\n", typename, name); } const char * classname(Der_class class) { const char *cn[] = { "ASN1_C_UNIV", "ASN1_C_APPL", "ASN1_C_CONTEXT", "ASN1_C_PRIV" }; if(class < ASN1_C_UNIV || class > ASN1_C_PRIVATE) return "???"; return cn[class]; } const char * valuename(Der_class class, int value) { static char s[32]; struct { int value; const char *s; } *p, values[] = { #define X(Y) { Y, #Y } X(UT_BMPString), X(UT_BitString), X(UT_Boolean), X(UT_EmbeddedPDV), X(UT_Enumerated), X(UT_External), X(UT_GeneralString), X(UT_GeneralizedTime), X(UT_GraphicString), X(UT_IA5String), X(UT_Integer), X(UT_Null), X(UT_NumericString), X(UT_OID), X(UT_ObjectDescriptor), X(UT_OctetString), X(UT_PrintableString), X(UT_Real), X(UT_RelativeOID), X(UT_Sequence), X(UT_Set), X(UT_TeletexString), X(UT_UTCTime), X(UT_UTF8String), X(UT_UniversalString), X(UT_VideotexString), X(UT_VisibleString), #undef X { -1, NULL } }; if(class == ASN1_C_UNIV) { for(p = values; p->value != -1; p++) if(p->value == value) return p->s; } snprintf(s, sizeof(s), "%d", value); return s; } static int encode_type (const char *name, const Type *t, const char *tmpstr) { int constructed = 1; switch (t->type) { case TType: #if 0 encode_type (name, t->symbol->type); #endif fprintf (codefile, "e = encode_%s(p, len, %s, &l);\n" "if (e) return e;\np -= l; len -= l; ret += l;\n\n", t->symbol->gen_name, name); break; case TInteger: if(t->members) { fprintf(codefile, "{\n" "int enumint = (int)*%s;\n", name); encode_primitive ("integer", "&enumint"); fprintf(codefile, "}\n;"); } else if (t->range == NULL) { encode_primitive ("heim_integer", name); } else if (t->range->min == INT_MIN && t->range->max == INT_MAX) { encode_primitive ("integer", name); } else if (t->range->min == 0 && t->range->max == UINT_MAX) { encode_primitive ("unsigned", name); } else if (t->range->min == 0 && t->range->max == INT_MAX) { encode_primitive ("unsigned", name); } else errx(1, "%s: unsupported range %d -> %d", name, t->range->min, t->range->max); constructed = 0; break; case TBoolean: encode_primitive ("boolean", name); constructed = 0; break; case TOctetString: encode_primitive ("octet_string", name); constructed = 0; break; case TBitString: { Member *m; int pos; if (ASN1_TAILQ_EMPTY(t->members)) { encode_primitive("bit_string", name); constructed = 0; break; } fprintf (codefile, "{\n" "unsigned char c = 0;\n"); if (!rfc1510_bitstring) fprintf (codefile, "int rest = 0;\n" "int bit_set = 0;\n"); #if 0 pos = t->members->prev->val; /* fix for buggy MIT (and OSF?) code */ if (pos > 31) abort (); #endif /* * It seems that if we do not always set pos to 31 here, the MIT * code will do the wrong thing. * * I hate ASN.1 (and DER), but I hate it even more when everybody * has to screw it up differently. */ pos = ASN1_TAILQ_LAST(t->members, memhead)->val; if (rfc1510_bitstring) { if (pos < 31) pos = 31; } ASN1_TAILQ_FOREACH_REVERSE(m, t->members, memhead, members) { while (m->val / 8 < pos / 8) { if (!rfc1510_bitstring) fprintf (codefile, "if (c != 0 || bit_set) {\n"); fprintf (codefile, "if (len < 1) return ASN1_OVERFLOW;\n" "*p-- = c; len--; ret++;\n"); if (!rfc1510_bitstring) fprintf (codefile, "if (!bit_set) {\n" "rest = 0;\n" "while(c) { \n" "if (c & 1) break;\n" "c = c >> 1;\n" "rest++;\n" "}\n" "bit_set = 1;\n" "}\n" "}\n"); fprintf (codefile, "c = 0;\n"); pos -= 8; } fprintf (codefile, "if((%s)->%s) {\n" "c |= 1<<%d;\n", name, m->gen_name, 7 - m->val % 8); fprintf (codefile, "}\n"); } if (!rfc1510_bitstring) fprintf (codefile, "if (c != 0 || bit_set) {\n"); fprintf (codefile, "if (len < 1) return ASN1_OVERFLOW;\n" "*p-- = c; len--; ret++;\n"); if (!rfc1510_bitstring) fprintf (codefile, "if (!bit_set) {\n" "rest = 0;\n" "if(c) { \n" "while(c) { \n" "if (c & 1) break;\n" "c = c >> 1;\n" "rest++;\n" "}\n" "}\n" "}\n" "}\n"); fprintf (codefile, "if (len < 1) return ASN1_OVERFLOW;\n" "*p-- = %s;\n" "len -= 1;\n" "ret += 1;\n" "}\n\n", rfc1510_bitstring ? "0" : "rest"); constructed = 0; break; } case TEnumerated : { encode_primitive ("enumerated", name); constructed = 0; break; } case TSet: case TSequence: { Member *m; if (t->members == NULL) break; ASN1_TAILQ_FOREACH_REVERSE(m, t->members, memhead, members) { char *s = NULL; if (m->ellipsis) continue; if (asprintf (&s, "%s(%s)->%s", m->optional ? "" : "&", name, m->gen_name) < 0 || s == NULL) errx(1, "malloc"); fprintf(codefile, "/* %s */\n", m->name); if (m->optional) fprintf (codefile, "if(%s) ", s); else if(m->defval) gen_compare_defval(s + 1, m->defval); fprintf (codefile, "{\n"); fprintf (codefile, "size_t %s_oldret HEIMDAL_UNUSED_ATTRIBUTE = ret;\n", tmpstr); fprintf (codefile, "ret = 0;\n"); encode_type (s, m->type, m->gen_name); fprintf (codefile, "ret += %s_oldret;\n", tmpstr); fprintf (codefile, "}\n"); free (s); } break; } case TSetOf: { fprintf(codefile, "{\n" "struct heim_octet_string *val;\n" "size_t elen = 0, totallen = 0;\n" "int eret = 0;\n"); fprintf(codefile, "if ((%s)->len > UINT_MAX/sizeof(val[0]))\n" "return ERANGE;\n", name); fprintf(codefile, "val = malloc(sizeof(val[0]) * (%s)->len);\n" "if (val == NULL && (%s)->len != 0) return ENOMEM;\n", name, name); fprintf(codefile, "for(i = 0; i < (int)(%s)->len; i++) {\n", name); fprintf(codefile, "ASN1_MALLOC_ENCODE(%s, val[i].data, " "val[i].length, &(%s)->val[i], &elen, eret);\n", t->subtype->symbol->gen_name, name); fprintf(codefile, "if(eret) {\n" "i--;\n" "while (i >= 0) {\n" "free(val[i].data);\n" "i--;\n" "}\n" "free(val);\n" "return eret;\n" "}\n" "totallen += elen;\n" "}\n"); fprintf(codefile, "if (totallen > len) {\n" "for (i = 0; i < (int)(%s)->len; i++) {\n" "free(val[i].data);\n" "}\n" "free(val);\n" "return ASN1_OVERFLOW;\n" "}\n", name); fprintf(codefile, "qsort(val, (%s)->len, sizeof(val[0]), _heim_der_set_sort);\n", name); fprintf (codefile, "for(i = (int)(%s)->len - 1; i >= 0; --i) {\n" "p -= val[i].length;\n" "ret += val[i].length;\n" "memcpy(p + 1, val[i].data, val[i].length);\n" "free(val[i].data);\n" "}\n" "free(val);\n" "}\n", name); break; } case TSequenceOf: { char *sname = NULL; char *n = NULL; fprintf (codefile, "for(i = (int)(%s)->len - 1; i >= 0; --i) {\n" "size_t %s_for_oldret = ret;\n" "ret = 0;\n", name, tmpstr); if (asprintf (&n, "&(%s)->val[i]", name) < 0 || n == NULL) errx(1, "malloc"); if (asprintf (&sname, "%s_S_Of", tmpstr) < 0 || sname == NULL) errx(1, "malloc"); encode_type (n, t->subtype, sname); fprintf (codefile, "ret += %s_for_oldret;\n" "}\n", tmpstr); free (n); free (sname); break; } case TGeneralizedTime: encode_primitive ("generalized_time", name); constructed = 0; break; case TGeneralString: encode_primitive ("general_string", name); constructed = 0; break; case TTeletexString: encode_primitive ("general_string", name); constructed = 0; break; case TTag: { char *tname = NULL; int c; if (asprintf (&tname, "%s_tag", tmpstr) < 0 || tname == NULL) errx(1, "malloc"); c = encode_type (name, t->subtype, tname); fprintf (codefile, "e = der_put_length_and_tag (p, len, ret, %s, %s, %s, &l);\n" "if (e) return e;\np -= l; len -= l; ret += l;\n\n", classname(t->tag.tagclass), c ? "CONS" : "PRIM", valuename(t->tag.tagclass, t->tag.tagvalue)); free (tname); break; } case TChoice:{ Member *m, *have_ellipsis = NULL; char *s = NULL; if (t->members == NULL) break; fprintf(codefile, "\n"); if (asprintf (&s, "(%s)", name) < 0 || s == NULL) errx(1, "malloc"); fprintf(codefile, "switch(%s->element) {\n", s); ASN1_TAILQ_FOREACH_REVERSE(m, t->members, memhead, members) { char *s2 = NULL; if (m->ellipsis) { have_ellipsis = m; continue; } fprintf (codefile, "case %s: {", m->label); if (asprintf(&s2, "%s(%s)->u.%s", m->optional ? "" : "&", s, m->gen_name) < 0 || s2 == NULL) errx(1, "malloc"); if (m->optional) fprintf (codefile, "if(%s) {\n", s2); fprintf (codefile, "size_t %s_oldret = ret;\n", tmpstr); fprintf (codefile, "ret = 0;\n"); constructed = encode_type (s2, m->type, m->gen_name); fprintf (codefile, "ret += %s_oldret;\n", tmpstr); if(m->optional) fprintf (codefile, "}\n"); fprintf(codefile, "break;\n"); fprintf(codefile, "}\n"); free (s2); } free (s); if (have_ellipsis) { fprintf(codefile, "case %s: {\n" "if (len < (%s)->u.%s.length)\n" "return ASN1_OVERFLOW;\n" "p -= (%s)->u.%s.length;\n" "ret += (%s)->u.%s.length;\n" "memcpy(p + 1, (%s)->u.%s.data, (%s)->u.%s.length);\n" "break;\n" "}\n", have_ellipsis->label, name, have_ellipsis->gen_name, name, have_ellipsis->gen_name, name, have_ellipsis->gen_name, name, have_ellipsis->gen_name, name, have_ellipsis->gen_name); } fprintf(codefile, "};\n"); break; } case TOID: encode_primitive ("oid", name); constructed = 0; break; case TUTCTime: encode_primitive ("utctime", name); constructed = 0; break; case TUTF8String: encode_primitive ("utf8string", name); constructed = 0; break; case TPrintableString: encode_primitive ("printable_string", name); constructed = 0; break; case TIA5String: encode_primitive ("ia5_string", name); constructed = 0; break; case TBMPString: encode_primitive ("bmp_string", name); constructed = 0; break; case TUniversalString: encode_primitive ("universal_string", name); constructed = 0; break; case TVisibleString: encode_primitive ("visible_string", name); constructed = 0; break; case TNull: fprintf (codefile, "/* NULL */\n"); constructed = 0; break; default: abort (); } return constructed; } void generate_type_encode (const Symbol *s) { fprintf (codefile, "int ASN1CALL\n" "encode_%s(unsigned char *p HEIMDAL_UNUSED_ATTRIBUTE, size_t len HEIMDAL_UNUSED_ATTRIBUTE," " const %s *data, size_t *size)\n" "{\n", s->gen_name, s->gen_name); switch (s->type->type) { case TInteger: case TBoolean: case TOctetString: case TGeneralizedTime: case TGeneralString: case TTeletexString: case TUTCTime: case TUTF8String: case TPrintableString: case TIA5String: case TBMPString: case TUniversalString: case TVisibleString: case TNull: case TBitString: case TEnumerated: case TOID: case TSequence: case TSequenceOf: case TSet: case TSetOf: case TTag: case TType: case TChoice: fprintf (codefile, "size_t ret HEIMDAL_UNUSED_ATTRIBUTE = 0;\n" "size_t l HEIMDAL_UNUSED_ATTRIBUTE;\n" "int i HEIMDAL_UNUSED_ATTRIBUTE, e HEIMDAL_UNUSED_ATTRIBUTE;\n\n"); encode_type("data", s->type, "Top"); fprintf (codefile, "*size = ret;\n" "return 0;\n"); break; default: abort (); } fprintf (codefile, "}\n\n"); }