/*
* 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"
#include "lex.h"
RCSID("$Id$");
static void
decode_primitive (const char *typename, const char *name, const char *forwstr)
{
#if 0
fprintf (codefile,
"e = decode_%s(p, len, %s, &l);\n"
"%s;\n",
typename,
name,
forwstr);
#else
fprintf (codefile,
"e = der_get_%s(p, len, %s, &l);\n"
"if(e) %s;\np += l; len -= l; ret += l;\n",
typename,
name,
forwstr);
#endif
}
static void
find_tag (const Type *t,
Der_class *cl, Der_type *ty, unsigned *tag)
{
switch (t->type) {
case TBitString:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_BitString;
break;
case TBoolean:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_Boolean;
break;
case TChoice:
errx(1, "Cannot have recursive CHOICE");
case TEnumerated:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_Enumerated;
break;
case TGeneralString:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_GeneralString;
break;
case TTeletexString:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_TeletexString;
break;
case TGeneralizedTime:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_GeneralizedTime;
break;
case TIA5String:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_IA5String;
break;
case TInteger:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_Integer;
break;
case TNull:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_Null;
break;
case TOID:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_OID;
break;
case TOctetString:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_OctetString;
break;
case TPrintableString:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_PrintableString;
break;
case TSequence:
case TSequenceOf:
*cl = ASN1_C_UNIV;
*ty = CONS;
*tag = UT_Sequence;
break;
case TSet:
case TSetOf:
*cl = ASN1_C_UNIV;
*ty = CONS;
*tag = UT_Set;
break;
case TTag:
*cl = t->tag.tagclass;
*ty = is_primitive_type(t->subtype->type) ? PRIM : CONS;
*tag = t->tag.tagvalue;
break;
case TType:
if ((t->symbol->stype == Stype && t->symbol->type == NULL)
|| t->symbol->stype == SUndefined) {
lex_error_message("%s is imported or still undefined, "
" can't generate tag checking data in CHOICE "
"without this information",
t->symbol->name);
exit(1);
}
find_tag(t->symbol->type, cl, ty, tag);
return;
case TUTCTime:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_UTCTime;
break;
case TUTF8String:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_UTF8String;
break;
case TBMPString:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_BMPString;
break;
case TUniversalString:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_UniversalString;
break;
case TVisibleString:
*cl = ASN1_C_UNIV;
*ty = PRIM;
*tag = UT_VisibleString;
break;
default:
abort();
}
}
static void
range_check(const char *name,
const char *length,
const char *forwstr,
struct range *r)
{
if (r->min == r->max + 2 || r->min < r->max)
fprintf (codefile,
"if ((%s)->%s > %d) {\n"
"e = ASN1_MAX_CONSTRAINT; %s;\n"
"}\n",
name, length, r->max, forwstr);
if (r->min - 1 == r->max || r->min < r->max)
fprintf (codefile,
"if ((%s)->%s < %d) {\n"
"e = ASN1_MIN_CONSTRAINT; %s;\n"
"}\n",
name, length, r->min, forwstr);
if (r->max == r->min)
fprintf (codefile,
"if ((%s)->%s != %d) {\n"
"e = ASN1_EXACT_CONSTRAINT; %s;\n"
"}\n",
name, length, r->min, forwstr);
}
static int
decode_type (const char *name, const Type *t, int optional,
const char *forwstr, const char *tmpstr, const char *dertype,
unsigned int depth)
{
switch (t->type) {
case TType: {
if (optional)
fprintf(codefile,
"%s = calloc(1, sizeof(*%s));\n"
"if (%s == NULL) %s;\n",
name, name, name, forwstr);
fprintf (codefile,
"e = decode_%s(p, len, %s, &l);\n",
t->symbol->gen_name, name);
if (optional) {
fprintf (codefile,
"if(e) {\n"
"free(%s);\n"
"%s = NULL;\n"
"} else {\n"
"p += l; len -= l; ret += l;\n"
"}\n",
name, name);
} else {
fprintf (codefile,
"if(e) %s;\n",
forwstr);
fprintf (codefile,
"p += l; len -= l; ret += l;\n");
}
break;
}
case TInteger:
if(t->members) {
fprintf(codefile,
"{\n"
"int enumint;\n");
decode_primitive ("integer", "&enumint", forwstr);
fprintf(codefile,
"*%s = enumint;\n"
"}\n",
name);
} else if (t->range == NULL) {
decode_primitive ("heim_integer", name, forwstr);
} else if (t->range->min == INT_MIN && t->range->max == INT_MAX) {
decode_primitive ("integer", name, forwstr);
} else if (t->range->min == 0 && t->range->max == UINT_MAX) {
decode_primitive ("unsigned", name, forwstr);
} else if (t->range->min == 0 && t->range->max == INT_MAX) {
decode_primitive ("unsigned", name, forwstr);
} else
errx(1, "%s: unsupported range %d -> %d",
name, t->range->min, t->range->max);
break;
case TBoolean:
decode_primitive ("boolean", name, forwstr);
break;
case TEnumerated:
decode_primitive ("enumerated", name, forwstr);
break;
case TOctetString:
if (dertype) {
fprintf(codefile,
"if (%s == CONS) {\n",
dertype);
decode_primitive("octet_string_ber", name, forwstr);
fprintf(codefile,
"} else {\n");
}
decode_primitive ("octet_string", name, forwstr);
if (dertype)
fprintf(codefile, "}\n");
if (t->range)
range_check(name, "length", forwstr, t->range);
break;
case TBitString: {
Member *m;
int pos = 0;
if (ASN1_TAILQ_EMPTY(t->members)) {
decode_primitive ("bit_string", name, forwstr);
break;
}
fprintf(codefile,
"if (len < 1) return ASN1_OVERRUN;\n"
"p++; len--; ret++;\n");
fprintf(codefile,
"do {\n"
"if (len < 1) break;\n");
ASN1_TAILQ_FOREACH(m, t->members, members) {
while (m->val / 8 > pos / 8) {
fprintf (codefile,
"p++; len--; ret++;\n"
"if (len < 1) break;\n");
pos += 8;
}
fprintf (codefile,
"(%s)->%s = (*p >> %d) & 1;\n",
name, m->gen_name, 7 - m->val % 8);
}
fprintf(codefile,
"} while(0);\n");
fprintf (codefile,
"p += len; ret += len;\n");
break;
}
case TSequence: {
Member *m;
if (t->members == NULL)
break;
ASN1_TAILQ_FOREACH(m, t->members, 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");
decode_type (s, m->type, m->optional, forwstr, m->gen_name, NULL,
depth + 1);
free (s);
}
break;
}
case TSet: {
Member *m;
unsigned int memno;
if(t->members == NULL)
break;
fprintf(codefile, "{\n");
fprintf(codefile, "unsigned int members = 0;\n");
fprintf(codefile, "while(len > 0) {\n");
fprintf(codefile,
"Der_class class;\n"
"Der_type type;\n"
"int tag;\n"
"e = der_get_tag (p, len, &class, &type, &tag, NULL);\n"
"if(e) %s;\n", forwstr);
fprintf(codefile, "switch (MAKE_TAG(class, type, tag)) {\n");
memno = 0;
ASN1_TAILQ_FOREACH(m, t->members, members) {
char *s;
assert(m->type->type == TTag);
fprintf(codefile, "case MAKE_TAG(%s, %s, %s):\n",
classname(m->type->tag.tagclass),
is_primitive_type(m->type->subtype->type) ? "PRIM" : "CONS",
valuename(m->type->tag.tagclass, m->type->tag.tagvalue));
if (asprintf (&s, "%s(%s)->%s", m->optional ? "" : "&", name, m->gen_name) < 0 || s == NULL)
errx(1, "malloc");
if(m->optional)
fprintf(codefile,
"%s = calloc(1, sizeof(*%s));\n"
"if (%s == NULL) { e = ENOMEM; %s; }\n",
s, s, s, forwstr);
decode_type (s, m->type, 0, forwstr, m->gen_name, NULL, depth + 1);
free (s);
fprintf(codefile, "members |= (1 << %d);\n", memno);
memno++;
fprintf(codefile, "break;\n");
}
fprintf(codefile,
"default:\n"
"return ASN1_MISPLACED_FIELD;\n"
"break;\n");
fprintf(codefile, "}\n");
fprintf(codefile, "}\n");
memno = 0;
ASN1_TAILQ_FOREACH(m, t->members, members) {
char *s;
if (asprintf (&s, "%s->%s", name, m->gen_name) < 0 || s == NULL)
errx(1, "malloc");
fprintf(codefile, "if((members & (1 << %d)) == 0)\n", memno);
if(m->optional)
fprintf(codefile, "%s = NULL;\n", s);
else if(m->defval)
gen_assign_defval(s, m->defval);
else
fprintf(codefile, "return ASN1_MISSING_FIELD;\n");
free(s);
memno++;
}
fprintf(codefile, "}\n");
break;
}
case TSetOf:
case TSequenceOf: {
char *n = NULL;
char *sname = NULL;
fprintf (codefile,
"{\n"
"size_t %s_origlen = len;\n"
"size_t %s_oldret = ret;\n"
"size_t %s_olen = 0;\n"
"void *%s_tmp;\n"
"ret = 0;\n"
"(%s)->len = 0;\n"
"(%s)->val = NULL;\n",
tmpstr,
tmpstr,
tmpstr,
tmpstr,
name,
name);
fprintf (codefile,
"while(ret < %s_origlen) {\n"
"size_t %s_nlen = %s_olen + sizeof(*((%s)->val));\n"
"if (%s_olen > %s_nlen) { e = ASN1_OVERFLOW; %s; }\n"
"%s_olen = %s_nlen;\n"
"%s_tmp = realloc((%s)->val, %s_olen);\n"
"if (%s_tmp == NULL) { e = ENOMEM; %s; }\n"
"(%s)->val = %s_tmp;\n",
tmpstr,
tmpstr, tmpstr, name,
tmpstr, tmpstr, forwstr,
tmpstr, tmpstr,
tmpstr, name, tmpstr,
tmpstr, forwstr,
name, tmpstr);
if (asprintf (&n, "&(%s)->val[(%s)->len]", name, name) < 0 || n == NULL)
errx(1, "malloc");
if (asprintf (&sname, "%s_s_of", tmpstr) < 0 || sname == NULL)
errx(1, "malloc");
decode_type (n, t->subtype, 0, forwstr, sname, NULL, depth + 1);
fprintf (codefile,
"(%s)->len++;\n"
"len = %s_origlen - ret;\n"
"}\n"
"ret += %s_oldret;\n"
"}\n",
name,
tmpstr, tmpstr);
if (t->range)
range_check(name, "len", forwstr, t->range);
free (n);
free (sname);
break;
}
case TGeneralizedTime:
decode_primitive ("generalized_time", name, forwstr);
break;
case TGeneralString:
decode_primitive ("general_string", name, forwstr);
break;
case TTeletexString:
decode_primitive ("general_string", name, forwstr);
break;
case TTag:{
char *tname = NULL, *typestring = NULL;
char *ide = NULL;
if (asprintf(&typestring, "%s_type", tmpstr) < 0 || typestring == NULL)
errx(1, "malloc");
fprintf(codefile,
"{\n"
"size_t %s_datalen, %s_oldlen;\n"
"Der_type %s;\n",
tmpstr, tmpstr, typestring);
if(support_ber)
fprintf(codefile,
"int is_indefinite%u;\n", depth);
fprintf(codefile, "e = der_match_tag_and_length(p, len, %s, &%s, %s, "
"&%s_datalen, &l);\n",
classname(t->tag.tagclass),
typestring,
valuename(t->tag.tagclass, t->tag.tagvalue),
tmpstr);
/* XXX hardcode for now */
if (support_ber && t->subtype->type == TOctetString) {
ide = typestring;
} else {
fprintf(codefile,
"if (e == 0 && %s != %s) { e = ASN1_BAD_ID; }\n",
typestring,
is_primitive_type(t->subtype->type) ? "PRIM" : "CONS");
}
if(optional) {
fprintf(codefile,
"if(e) {\n"
"%s = NULL;\n"
"} else {\n"
"%s = calloc(1, sizeof(*%s));\n"
"if (%s == NULL) { e = ENOMEM; %s; }\n",
name, name, name, name, forwstr);
} else {
fprintf(codefile, "if(e) %s;\n", forwstr);
}
fprintf (codefile,
"p += l; len -= l; ret += l;\n"
"%s_oldlen = len;\n",
tmpstr);
if(support_ber)
fprintf (codefile,
"if((is_indefinite%u = _heim_fix_dce(%s_datalen, &len)) < 0)\n"
"{ e = ASN1_BAD_FORMAT; %s; }\n"
"if (is_indefinite%u) { if (len < 2) { e = ASN1_OVERRUN; %s; } len -= 2; }",
depth, tmpstr, forwstr, depth, forwstr);
else
fprintf(codefile,
"if (%s_datalen > len) { e = ASN1_OVERRUN; %s; }\n"
"len = %s_datalen;\n", tmpstr, forwstr, tmpstr);
if (asprintf (&tname, "%s_Tag", tmpstr) < 0 || tname == NULL)
errx(1, "malloc");
decode_type (name, t->subtype, 0, forwstr, tname, ide, depth + 1);
if(support_ber)
fprintf(codefile,
"if(is_indefinite%u){\n"
"len += 2;\n"
"e = der_match_tag_and_length(p, len, "
"(Der_class)0, &%s, UT_EndOfContent, "
"&%s_datalen, &l);\n"
"if(e) %s;\n"
"p += l; len -= l; ret += l;\n"
"if (%s != (Der_type)0) { e = ASN1_BAD_ID; %s; }\n"
"} else \n",
depth,
typestring,
tmpstr,
forwstr,
typestring, forwstr);
fprintf(codefile,
"len = %s_oldlen - %s_datalen;\n",
tmpstr, tmpstr);
if(optional)
fprintf(codefile,
"}\n");
fprintf(codefile,
"}\n");
free(tname);
free(typestring);
break;
}
case TChoice: {
Member *m, *have_ellipsis = NULL;
const char *els = "";
if (t->members == NULL)
break;
ASN1_TAILQ_FOREACH(m, t->members, members) {
const Type *tt = m->type;
char *s = NULL;
Der_class cl;
Der_type ty;
unsigned tag;
if (m->ellipsis) {
have_ellipsis = m;
continue;
}
find_tag(tt, &cl, &ty, &tag);
fprintf(codefile,
"%sif (der_match_tag(p, len, %s, %s, %s, NULL) == 0) {\n",
els,
classname(cl),
ty ? "CONS" : "PRIM",
valuename(cl, tag));
if (asprintf (&s, "%s(%s)->u.%s", m->optional ? "" : "&",
name, m->gen_name) < 0 || s == NULL)
errx(1, "malloc");
decode_type (s, m->type, m->optional, forwstr, m->gen_name, NULL,
depth + 1);
fprintf(codefile,
"(%s)->element = %s;\n",
name, m->label);
free(s);
fprintf(codefile,
"}\n");
els = "else ";
}
if (have_ellipsis) {
fprintf(codefile,
"else {\n"
"(%s)->u.%s.data = calloc(1, len);\n"
"if ((%s)->u.%s.data == NULL) {\n"
"e = ENOMEM; %s;\n"
"}\n"
"(%s)->u.%s.length = len;\n"
"memcpy((%s)->u.%s.data, p, len);\n"
"(%s)->element = %s;\n"
"p += len;\n"
"ret += len;\n"
"len = 0;\n"
"}\n",
name, have_ellipsis->gen_name,
name, have_ellipsis->gen_name,
forwstr,
name, have_ellipsis->gen_name,
name, have_ellipsis->gen_name,
name, have_ellipsis->label);
} else {
fprintf(codefile,
"else {\n"
"e = ASN1_PARSE_ERROR;\n"
"%s;\n"
"}\n",
forwstr);
}
break;
}
case TUTCTime:
decode_primitive ("utctime", name, forwstr);
break;
case TUTF8String:
decode_primitive ("utf8string", name, forwstr);
break;
case TPrintableString:
decode_primitive ("printable_string", name, forwstr);
break;
case TIA5String:
decode_primitive ("ia5_string", name, forwstr);
break;
case TBMPString:
decode_primitive ("bmp_string", name, forwstr);
break;
case TUniversalString:
decode_primitive ("universal_string", name, forwstr);
break;
case TVisibleString:
decode_primitive ("visible_string", name, forwstr);
break;
case TNull:
fprintf (codefile, "/* NULL */\n");
break;
case TOID:
decode_primitive ("oid", name, forwstr);
break;
default :
abort ();
}
return 0;
}
void
generate_type_decode (const Symbol *s)
{
int preserve = preserve_type(s->name) ? TRUE : FALSE;
fprintf (codefile, "int ASN1CALL\n"
"decode_%s(const unsigned char *p HEIMDAL_UNUSED_ATTRIBUTE,"
" size_t len HEIMDAL_UNUSED_ATTRIBUTE, %s *data, size_t *size)\n"
"{\n",
s->gen_name, s->gen_name);
switch (s->type->type) {
case TInteger:
case TBoolean:
case TOctetString:
case TOID:
case TGeneralizedTime:
case TGeneralString:
case TTeletexString:
case TUTF8String:
case TPrintableString:
case TIA5String:
case TBMPString:
case TUniversalString:
case TVisibleString:
case TUTCTime:
case TNull:
case TEnumerated:
case TBitString:
case TSequence:
case TSequenceOf:
case TSet:
case TSetOf:
case TTag:
case TType:
case TChoice:
fprintf (codefile,
"size_t ret = 0;\n"
"size_t l HEIMDAL_UNUSED_ATTRIBUTE;\n"
"int e HEIMDAL_UNUSED_ATTRIBUTE;\n");
if (preserve)
fprintf (codefile, "const unsigned char *begin = p;\n");
fprintf (codefile, "\n");
fprintf (codefile, "memset(data, 0, sizeof(*data));\n"); /* hack to avoid `unused variable' */
decode_type ("data", s->type, 0, "goto fail", "Top", NULL, 1);
if (preserve)
fprintf (codefile,
"data->_save.data = calloc(1, ret);\n"
"if (data->_save.data == NULL) { \n"
"e = ENOMEM; goto fail; \n"
"}\n"
"data->_save.length = ret;\n"
"memcpy(data->_save.data, begin, ret);\n");
fprintf (codefile,
"if(size) *size = ret;\n"
"return 0;\n");
fprintf (codefile,
"fail:\n"
"free_%s(data);\n"
"return e;\n",
s->gen_name);
break;
default:
abort ();
}
fprintf (codefile, "}\n\n");
}