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heimdal/lib/asn1/gen.c
Nicolas Williams 07d4b1fc74 asn1: Add compiler --enum-prefix=PREFIX option 
C enum labels have to be globally unique.  ASN.1 module ENUMERATED and
INTEGER types with named values are not globally unique.  This means
that ASN.1 integer type value names and enumerations can cause conflicts
when compiled to C.

This new option allows the user to specify a prefix to apply to such
names.  Then this:

    Foo ::= ENUMERATED { v1 (0) }

can generate:

    typedef enum Foo {
      prefix_v1 = 0,
    } Foo;

instead of

    typedef enum Foo {
      v1 = 0,
    } Foo;

which is very likely to conflict.

TBD: Add option to use the type name as the prefix?
2021-01-13 20:17:58 -06:00

1137 lines
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/*
* 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 "gen_locl.h"
extern const char *enum_prefix;
extern int prefix_enum;
RCSID("$Id$");
FILE *privheaderfile, *headerfile, *oidsfile, *codefile, *logfile, *templatefile;
#define STEM "asn1"
static const char *orig_filename;
static char *privheader, *header, *template;
static const char *headerbase = STEM;
/*
* list of all IMPORTs
*/
struct import {
const char *module;
struct import *next;
};
static struct import *imports = NULL;
void
add_import (const char *module)
{
struct import *tmp = emalloc (sizeof(*tmp));
tmp->module = module;
tmp->next = imports;
imports = tmp;
fprintf (headerfile, "#include <%s_asn1.h>\n", module);
}
/*
* List of all exported symbols
*/
struct sexport {
const char *name;
int defined;
struct sexport *next;
};
static struct sexport *exports = NULL;
void
add_export (const char *name)
{
struct sexport *tmp = emalloc (sizeof(*tmp));
tmp->name = name;
tmp->next = exports;
exports = tmp;
}
int
is_export(const char *name)
{
struct sexport *tmp;
if (exports == NULL) /* no export list, all exported */
return 1;
for (tmp = exports; tmp != NULL; tmp = tmp->next) {
if (strcmp(tmp->name, name) == 0) {
tmp->defined = 1;
return 1;
}
}
return 0;
}
const char *
get_filename (void)
{
return orig_filename;
}
void
init_generate (const char *filename, const char *base)
{
char *fn = NULL;
orig_filename = filename;
if (base != NULL) {
headerbase = strdup(base);
if (headerbase == NULL)
errx(1, "strdup");
}
/* public header file */
if (asprintf(&header, "%s.h", headerbase) < 0 || header == NULL)
errx(1, "malloc");
if (asprintf(&fn, "%s.hx", headerbase) < 0 || fn == NULL)
errx(1, "malloc");
headerfile = fopen (fn, "w");
if (headerfile == NULL)
err (1, "open %s", fn);
free(fn);
fn = NULL;
/* private header file */
if (asprintf(&privheader, "%s-priv.h", headerbase) < 0 || privheader == NULL)
errx(1, "malloc");
if (asprintf(&fn, "%s-priv.hx", headerbase) < 0 || fn == NULL)
errx(1, "malloc");
privheaderfile = fopen (fn, "w");
if (privheaderfile == NULL)
err (1, "open %s", fn);
free(fn);
fn = NULL;
/* template file */
if (asprintf(&template, "%s-template.x", headerbase) < 0 || template == NULL)
errx(1, "malloc");
fprintf (headerfile,
"/* Generated from %s */\n"
"/* Do not edit */\n\n",
filename);
fprintf (headerfile,
"#ifndef __%s_h__\n"
"#define __%s_h__\n\n", headerbase, headerbase);
fprintf (headerfile,
"#include <stddef.h>\n"
"#include <time.h>\n\n");
fprintf (headerfile,
"#ifndef __asn1_common_definitions__\n"
"#define __asn1_common_definitions__\n\n");
fprintf (headerfile,
"#ifndef __HEIM_BASE_DATA__\n"
"#define __HEIM_BASE_DATA__ 1\n"
"struct heim_base_data {\n"
" size_t length;\n"
" void *data;\n"
"};\n"
"typedef struct heim_base_data heim_octet_string;\n"
"#endif\n\n");
fprintf (headerfile,
"typedef struct heim_integer {\n"
" size_t length;\n"
" void *data;\n"
" int negative;\n"
"} heim_integer;\n\n");
fprintf (headerfile,
"typedef char *heim_general_string;\n\n"
);
fprintf (headerfile,
"typedef char *heim_utf8_string;\n\n"
);
fprintf (headerfile,
"typedef struct heim_base_data heim_printable_string;\n\n"
);
fprintf (headerfile,
"typedef struct heim_base_data heim_ia5_string;\n\n"
);
fprintf (headerfile,
"typedef struct heim_bmp_string {\n"
" size_t length;\n"
" uint16_t *data;\n"
"} heim_bmp_string;\n\n");
fprintf (headerfile,
"typedef struct heim_universal_string {\n"
" size_t length;\n"
" uint32_t *data;\n"
"} heim_universal_string;\n\n");
fprintf (headerfile,
"typedef char *heim_visible_string;\n\n"
);
fprintf (headerfile,
"typedef struct heim_oid {\n"
" size_t length;\n"
" unsigned *components;\n"
"} heim_oid;\n\n");
fprintf (headerfile,
"typedef struct heim_bit_string {\n"
" size_t length;\n"
" void *data;\n"
"} heim_bit_string;\n\n");
fprintf (headerfile,
"typedef struct heim_base_data heim_any;\n"
"typedef struct heim_base_data heim_any_set;\n\n");
fputs("#define ASN1_MALLOC_ENCODE(T, B, BL, S, L, R) \\\n"
" do { \\\n"
" (BL) = length_##T((S)); \\\n"
" (B) = malloc((BL)); \\\n"
" if((B) == NULL) { \\\n"
" (R) = ENOMEM; \\\n"
" } else { \\\n"
" (R) = encode_##T(((unsigned char*)(B)) + (BL) - 1, (BL), \\\n"
" (S), (L)); \\\n"
" if((R) != 0) { \\\n"
" free((B)); \\\n"
" (B) = NULL; \\\n"
" } \\\n"
" } \\\n"
" } while (0)\n\n",
headerfile);
fputs("#ifdef _WIN32\n"
"#ifndef ASN1_LIB\n"
"#define ASN1EXP __declspec(dllimport)\n"
"#else\n"
"#define ASN1EXP\n"
"#endif\n"
"#define ASN1CALL __stdcall\n"
"#else\n"
"#define ASN1EXP\n"
"#define ASN1CALL\n"
"#endif\n",
headerfile);
fprintf (headerfile, "struct units;\n\n");
fprintf (headerfile, "#endif\n\n");
if (asprintf(&fn, "%s_files", base) < 0 || fn == NULL)
errx(1, "malloc");
logfile = fopen(fn, "w");
if (logfile == NULL)
err (1, "open %s", fn);
free(fn);
fn = NULL;
if (asprintf(&fn, "%s_oids.x", base) < 0 || fn == NULL)
errx(1, "malloc");
oidsfile = fopen(fn, "w");
if (oidsfile == NULL)
err (1, "open %s", fn);
free(fn);
fn = NULL;
/* if one code file, write into the one codefile */
if (one_code_file)
return;
templatefile = fopen (template, "w");
if (templatefile == NULL)
err (1, "open %s", template);
fprintf (templatefile,
"/* Generated from %s */\n"
"/* Do not edit */\n\n"
"#include <stdio.h>\n"
"#include <stdlib.h>\n"
"#include <time.h>\n"
"#include <string.h>\n"
"#include <errno.h>\n"
"#include <limits.h>\n"
"#include <%s>\n",
filename,
type_file_string);
fprintf (templatefile,
"#include <%s>\n"
"#include <%s>\n"
"#include <der.h>\n"
"#include <asn1-template.h>\n",
header, privheader);
}
void
close_generate (void)
{
fprintf (headerfile, "#endif /* __%s_h__ */\n", headerbase);
if (headerfile && fclose(headerfile) == EOF)
err(1, "writes to public header file failed");
if (privheaderfile && fclose(privheaderfile) == EOF)
err(1, "writes to private header file failed");
if (templatefile && fclose(templatefile) == EOF)
err(1, "writes to template file failed");
if (logfile) {
fprintf(logfile, "\n");
if (fclose(logfile) == EOF)
err(1, "writes to log file failed");
}
}
void
gen_assign_defval(const char *var, struct value *val)
{
switch(val->type) {
case stringvalue:
fprintf(codefile, "if((%s = strdup(\"%s\")) == NULL)\nreturn ENOMEM;\n", var, val->u.stringvalue);
break;
case integervalue:
fprintf(codefile, "%s = %lld;\n",
var, (long long)val->u.integervalue);
break;
case booleanvalue:
if(val->u.booleanvalue)
fprintf(codefile, "%s = 1;\n", var);
else
fprintf(codefile, "%s = 0;\n", var);
break;
default:
abort();
}
}
void
gen_compare_defval(const char *var, struct value *val)
{
switch(val->type) {
case stringvalue:
fprintf(codefile, "if(strcmp(%s, \"%s\") != 0)\n", var, val->u.stringvalue);
break;
case integervalue:
fprintf(codefile, "if(%s != %lld)\n",
var, (long long)val->u.integervalue);
break;
case booleanvalue:
if(val->u.booleanvalue)
fprintf(codefile, "if(!%s)\n", var);
else
fprintf(codefile, "if(%s)\n", var);
break;
default:
abort();
}
}
void
generate_header_of_codefile(const char *name)
{
char *filename = NULL;
if (codefile != NULL)
abort();
if (asprintf (&filename, "%s_%s.x", STEM, name) < 0 || filename == NULL)
errx(1, "malloc");
codefile = fopen (filename, "w");
if (codefile == NULL)
err (1, "fopen %s", filename);
if (logfile)
fprintf(logfile, "%s ", filename);
free(filename);
filename = NULL;
fprintf (codefile,
"/* Generated from %s */\n"
"/* Do not edit */\n\n"
"#define ASN1_LIB\n\n"
"#include <stdio.h>\n"
"#include <stdlib.h>\n"
"#include <time.h>\n"
"#include <string.h>\n"
"#include <errno.h>\n"
"#include <limits.h>\n"
"#include <%s>\n",
orig_filename,
type_file_string);
fprintf (codefile,
"#include \"%s\"\n"
"#include \"%s\"\n",
header, privheader);
fprintf (codefile,
"#include <asn1_err.h>\n"
"#include <der.h>\n"
"#include <asn1-template.h>\n\n");
if (parse_units_flag)
fprintf (codefile,
"#include <parse_units.h>\n\n");
#ifdef _WIN32
fprintf(codefile, "#pragma warning(disable: 4101)\n\n");
#endif
}
void
close_codefile(void)
{
if (codefile == NULL)
abort();
if (fclose(codefile) == EOF)
err(1, "writes to source code file failed");
codefile = NULL;
}
void
generate_constant (const Symbol *s)
{
switch(s->value->type) {
case booleanvalue:
break;
case integervalue:
/*
* Work around the fact that OpenSSL defines macros for PKIX constants
* that we want to generate as enums, which causes conflicts for things
* like ub-name (ub_name).
*/
fprintf(headerfile,
"#ifdef %s\n"
"#undef %s\n"
"#endif\n"
"enum { %s = %lld };\n\n",
s->gen_name, s->gen_name, s->gen_name,
(long long)s->value->u.integervalue);
break;
case nullvalue:
break;
case stringvalue:
break;
case objectidentifiervalue: {
struct objid *o, **list;
size_t i, len;
char *gen_upper;
if (!one_code_file)
generate_header_of_codefile(s->gen_name);
len = 0;
for (o = s->value->u.objectidentifiervalue; o != NULL; o = o->next)
len++;
if (len == 0) {
printf("s->gen_name: %s",s->gen_name);
fflush(stdout);
break;
}
list = emalloc(sizeof(*list) * len);
i = 0;
for (o = s->value->u.objectidentifiervalue; o != NULL; o = o->next)
list[i++] = o;
fprintf (headerfile, "/* OBJECT IDENTIFIER %s ::= { ", s->name);
for (i = len ; i > 0; i--) {
o = list[i - 1];
fprintf(headerfile, "%s(%d) ",
o->label ? o->label : "label-less", o->value);
}
fprintf (codefile, "static unsigned oid_%s_variable_num[%lu] = {",
s->gen_name, (unsigned long)len);
for (i = len ; i > 0; i--) {
fprintf(codefile, "%d%s ", list[i - 1]->value, i > 1 ? "," : "");
}
fprintf(codefile, "};\n");
fprintf (codefile, "const heim_oid asn1_oid_%s = "
"{ %lu, oid_%s_variable_num };\n\n",
s->gen_name, (unsigned long)len, s->gen_name);
fprintf(oidsfile, "DEFINE_OID_WITH_NAME(%s)\n", s->gen_name);
free(list);
/* header file */
gen_upper = strdup(s->gen_name);
len = strlen(gen_upper);
for (i = 0; i < len; i++)
gen_upper[i] = toupper((int)s->gen_name[i]);
fprintf (headerfile, "} */\n");
fprintf (headerfile,
"extern ASN1EXP const heim_oid asn1_oid_%s;\n"
"#define ASN1_OID_%s (&asn1_oid_%s)\n\n",
s->gen_name,
gen_upper,
s->gen_name);
free(gen_upper);
if (!one_code_file)
close_codefile();
break;
}
default:
abort();
}
}
int
is_primitive_type(int type)
{
switch(type) {
case TInteger:
case TBoolean:
case TOctetString:
case TBitString:
case TEnumerated:
case TGeneralizedTime:
case TGeneralString:
case TTeletexString:
case TOID:
case TUTCTime:
case TUTF8String:
case TPrintableString:
case TIA5String:
case TBMPString:
case TUniversalString:
case TVisibleString:
case TNull:
return 1;
default:
return 0;
}
}
static void
space(int level)
{
while(level-- > 0)
fprintf(headerfile, " ");
}
static const char *
last_member_p(struct member *m)
{
struct member *n = HEIM_TAILQ_NEXT(m, members);
if (n == NULL)
return "";
if (n->ellipsis && HEIM_TAILQ_NEXT(n, members) == NULL)
return "";
return ",";
}
static struct member *
have_ellipsis(Type *t)
{
struct member *m;
HEIM_TAILQ_FOREACH(m, t->members, members) {
if (m->ellipsis)
return m;
}
return NULL;
}
static void
define_asn1 (int level, Type *t)
{
switch (t->type) {
case TType:
fprintf (headerfile, "%s", t->symbol->name);
break;
case TInteger:
if(t->members == NULL) {
fprintf (headerfile, "INTEGER");
if (t->range)
fprintf (headerfile, " (%lld..%lld)",
(long long)t->range->min,
(long long)t->range->max);
} else {
Member *m;
fprintf (headerfile, "INTEGER {\n");
HEIM_TAILQ_FOREACH(m, t->members, members) {
space (level + 1);
fprintf(headerfile, "%s(%d)%s\n", m->gen_name, m->val,
last_member_p(m));
}
space(level);
fprintf (headerfile, "}");
}
break;
case TBoolean:
fprintf (headerfile, "BOOLEAN");
break;
case TOctetString:
fprintf (headerfile, "OCTET STRING");
break;
case TEnumerated :
case TBitString: {
Member *m;
space(level);
if(t->type == TBitString)
fprintf (headerfile, "BIT STRING {\n");
else
fprintf (headerfile, "ENUMERATED {\n");
HEIM_TAILQ_FOREACH(m, t->members, members) {
space(level + 1);
fprintf (headerfile, "%s(%d)%s\n", m->name, m->val,
last_member_p(m));
}
space(level);
fprintf (headerfile, "}");
break;
}
case TChoice:
case TSet:
case TSequence: {
Member *m;
size_t max_width = 0;
if(t->type == TChoice)
fprintf(headerfile, "CHOICE {\n");
else if(t->type == TSet)
fprintf(headerfile, "SET {\n");
else
fprintf(headerfile, "SEQUENCE {\n");
HEIM_TAILQ_FOREACH(m, t->members, members) {
if(strlen(m->name) > max_width)
max_width = strlen(m->name);
}
max_width += 3;
if(max_width < 16) max_width = 16;
HEIM_TAILQ_FOREACH(m, t->members, members) {
size_t width = max_width;
space(level + 1);
if (m->ellipsis) {
fprintf (headerfile, "...");
} else {
width -= fprintf(headerfile, "%s", m->name);
fprintf(headerfile, "%*s", (int)width, "");
define_asn1(level + 1, m->type);
if(m->optional)
fprintf(headerfile, " OPTIONAL");
}
if(last_member_p(m))
fprintf (headerfile, ",");
fprintf (headerfile, "\n");
}
space(level);
fprintf (headerfile, "}");
break;
}
case TSequenceOf:
fprintf (headerfile, "SEQUENCE OF ");
define_asn1 (0, t->subtype);
break;
case TSetOf:
fprintf (headerfile, "SET OF ");
define_asn1 (0, t->subtype);
break;
case TGeneralizedTime:
fprintf (headerfile, "GeneralizedTime");
break;
case TGeneralString:
fprintf (headerfile, "GeneralString");
break;
case TTeletexString:
fprintf (headerfile, "TeletexString");
break;
case TTag: {
const char *classnames[] = { "UNIVERSAL ", "APPLICATION ",
"" /* CONTEXT */, "PRIVATE " };
if(t->tag.tagclass != ASN1_C_UNIV)
fprintf (headerfile, "[%s%d] ",
classnames[t->tag.tagclass],
t->tag.tagvalue);
if(t->tag.tagenv == TE_IMPLICIT)
fprintf (headerfile, "IMPLICIT ");
define_asn1 (level, t->subtype);
break;
}
case TUTCTime:
fprintf (headerfile, "UTCTime");
break;
case TUTF8String:
space(level);
fprintf (headerfile, "UTF8String");
break;
case TPrintableString:
space(level);
fprintf (headerfile, "PrintableString");
break;
case TIA5String:
space(level);
fprintf (headerfile, "IA5String");
break;
case TBMPString:
space(level);
fprintf (headerfile, "BMPString");
break;
case TUniversalString:
space(level);
fprintf (headerfile, "UniversalString");
break;
case TVisibleString:
space(level);
fprintf (headerfile, "VisibleString");
break;
case TOID :
space(level);
fprintf(headerfile, "OBJECT IDENTIFIER");
break;
case TNull:
space(level);
fprintf (headerfile, "NULL");
break;
default:
abort ();
}
}
static void
getnewbasename(char **newbasename, int typedefp, const char *basename, const char *name)
{
if (typedefp)
*newbasename = strdup(name);
else {
if (name[0] == '*')
name++;
if (asprintf(newbasename, "%s_%s", basename, name) < 0)
errx(1, "malloc");
}
if (*newbasename == NULL)
err(1, "malloc");
}
static void
define_type (int level, const char *name, const char *basename, Type *t, int typedefp, int preservep)
{
const char *label_prefix = NULL;
const char *label_prefix_sep = NULL;
char *newbasename = NULL;
switch (t->type) {
case TType:
space(level);
fprintf (headerfile, "%s %s;\n", t->symbol->gen_name, name);
break;
case TInteger:
space(level);
if(t->members) {
Member *m;
label_prefix = prefix_enum ? name : (enum_prefix ? enum_prefix : "");
label_prefix_sep = prefix_enum ? "_" : "";
fprintf (headerfile, "enum %s {\n", typedefp ? name : "");
HEIM_TAILQ_FOREACH(m, t->members, members) {
space (level + 1);
fprintf(headerfile, "%s%s%s = %d%s\n",
label_prefix, label_prefix_sep,
m->gen_name, m->val, last_member_p(m));
}
fprintf (headerfile, "} %s;\n", name);
} else if (t->range == NULL) {
fprintf (headerfile, "heim_integer %s;\n", name);
} else if (t->range->min < INT_MIN && t->range->max <= INT64_MAX) {
fprintf (headerfile, "int64_t %s;\n", name);
} else if (t->range->min >= 0 && t->range->max > UINT_MAX) {
fprintf (headerfile, "uint64_t %s;\n", name);
} else if (t->range->min >= INT_MIN && t->range->max <= INT_MAX) {
fprintf (headerfile, "int %s;\n", name);
} else if (t->range->min >= 0 && t->range->max <= UINT_MAX) {
fprintf (headerfile, "unsigned int %s;\n", name);
} else
errx(1, "%s: unsupported range %lld -> %lld",
name, (long long)t->range->min, (long long)t->range->max);
break;
case TBoolean:
space(level);
fprintf (headerfile, "int %s;\n", name);
break;
case TOctetString:
space(level);
fprintf (headerfile, "heim_octet_string %s;\n", name);
break;
case TBitString: {
Member *m;
Type i;
struct range range = { 0, UINT_MAX };
size_t max_memno = 0;
size_t bitset_size;
/*
* range.max implies the size of the base unsigned integer used for the
* bitfield members. If it's less than or equal to UINT_MAX, then that
* will be unsigned int, otherwise it will be uint64_t.
*
* We could just use uint64_t, yes, but for now, and in case that any
* projects were exposing the BIT STRING types' C representations in
* ABIs prior to this compiler supporting BIT STRING with larger
* members, we stick to this.
*/
HEIM_TAILQ_FOREACH(m, t->members, members) {
if (m->val > max_memno)
max_memno = m->val;
}
if (max_memno > 63)
range.max = INT64_MAX;
else
range.max = 1ULL << max_memno;
i.type = TInteger;
i.range = &range;
i.members = NULL;
i.constraint = NULL;
space(level);
if(HEIM_TAILQ_EMPTY(t->members))
fprintf (headerfile, "heim_bit_string %s;\n", name);
else {
int pos = 0;
getnewbasename(&newbasename, typedefp, basename, name);
fprintf (headerfile, "struct %s {\n", newbasename);
HEIM_TAILQ_FOREACH(m, t->members, members) {
char *n = NULL;
/*
* pad unused bits beween declared members (hopefully this
* forces the compiler to give us an obvious layout)
*/
while (pos < m->val) {
if (asprintf (&n, "_unused%d:1", pos) < 0 || n == NULL)
err(1, "malloc");
define_type (level + 1, n, newbasename, &i, FALSE, FALSE);
free(n);
pos++;
}
n = NULL;
if (asprintf (&n, "%s:1", m->gen_name) < 0 || n == NULL)
errx(1, "malloc");
define_type (level + 1, n, newbasename, &i, FALSE, FALSE);
free (n);
n = NULL;
pos++;
}
/* pad unused tail (ditto) */
bitset_size = max_memno;
if (max_memno > 31)
bitset_size += 64 - (max_memno % 64);
else
bitset_size = 32;
while (pos < bitset_size) {
char *n = NULL;
if (asprintf (&n, "_unused%d:1", pos) < 0 || n == NULL)
errx(1, "malloc");
define_type (level + 1, n, newbasename, &i, FALSE, FALSE);
free(n);
pos++;
}
space(level);
fprintf (headerfile, "} %s;\n\n", name);
}
break;
}
case TEnumerated: {
Member *m;
label_prefix = prefix_enum ? name : (enum_prefix ? enum_prefix : "");
label_prefix_sep = prefix_enum ? "_" : "";
space(level);
fprintf (headerfile, "enum %s {\n", typedefp ? name : "");
HEIM_TAILQ_FOREACH(m, t->members, members) {
space(level + 1);
if (m->ellipsis)
fprintf (headerfile, "/* ... */\n");
else
fprintf(headerfile, "%s%s%s = %d%s\n",
label_prefix, label_prefix_sep,
m->gen_name, m->val, last_member_p(m));
}
space(level);
fprintf (headerfile, "} %s;\n\n", name);
break;
}
case TSet:
case TSequence: {
Member *m;
getnewbasename(&newbasename, typedefp, basename, name);
space(level);
fprintf (headerfile, "struct %s {\n", newbasename);
if (t->type == TSequence && preservep) {
space(level + 1);
fprintf(headerfile, "heim_octet_string _save;\n");
}
HEIM_TAILQ_FOREACH(m, t->members, members) {
if (m->ellipsis) {
;
} else if (m->optional) {
char *n = NULL;
if (asprintf (&n, "*%s", m->gen_name) < 0 || n == NULL)
errx(1, "malloc");
define_type (level + 1, n, newbasename, m->type, FALSE, FALSE);
free (n);
} else
define_type (level + 1, m->gen_name, newbasename, m->type, FALSE, FALSE);
}
space(level);
fprintf (headerfile, "} %s;\n", name);
break;
}
case TSetOf:
case TSequenceOf: {
Type i;
struct range range = { 0, UINT_MAX };
getnewbasename(&newbasename, typedefp, basename, name);
i.type = TInteger;
i.range = &range;
i.members = NULL;
i.constraint = NULL;
space(level);
fprintf (headerfile, "struct %s {\n", newbasename);
define_type (level + 1, "len", newbasename, &i, FALSE, FALSE);
define_type (level + 1, "*val", newbasename, t->subtype, FALSE, FALSE);
space(level);
fprintf (headerfile, "} %s;\n", name);
break;
}
case TGeneralizedTime:
space(level);
fprintf (headerfile, "time_t %s;\n", name);
break;
case TGeneralString:
space(level);
fprintf (headerfile, "heim_general_string %s;\n", name);
break;
case TTeletexString:
space(level);
fprintf (headerfile, "heim_general_string %s;\n", name);
break;
case TTag:
define_type (level, name, basename, t->subtype, typedefp, preservep);
break;
case TChoice: {
int first = 1;
Member *m;
getnewbasename(&newbasename, typedefp, basename, name);
space(level);
fprintf (headerfile, "struct %s {\n", newbasename);
if (preservep) {
space(level + 1);
fprintf(headerfile, "heim_octet_string _save;\n");
}
space(level + 1);
fprintf (headerfile, "enum %s_enum {\n", newbasename);
m = have_ellipsis(t);
if (m) {
space(level + 2);
fprintf (headerfile, "%s = 0,\n", m->label);
first = 0;
}
HEIM_TAILQ_FOREACH(m, t->members, members) {
space(level + 2);
if (m->ellipsis)
fprintf (headerfile, "/* ... */\n");
else
fprintf (headerfile, "%s%s%s\n", m->label,
first ? " = 1" : "",
last_member_p(m));
first = 0;
}
space(level + 1);
fprintf (headerfile, "} element;\n");
space(level + 1);
fprintf (headerfile, "union {\n");
HEIM_TAILQ_FOREACH(m, t->members, members) {
if (m->ellipsis) {
space(level + 2);
fprintf(headerfile, "heim_octet_string asn1_ellipsis;\n");
} else if (m->optional) {
char *n = NULL;
if (asprintf (&n, "*%s", m->gen_name) < 0 || n == NULL)
errx(1, "malloc");
define_type (level + 2, n, newbasename, m->type, FALSE, FALSE);
free (n);
} else
define_type (level + 2, m->gen_name, newbasename, m->type, FALSE, FALSE);
}
space(level + 1);
fprintf (headerfile, "} u;\n");
space(level);
fprintf (headerfile, "} %s;\n", name);
break;
}
case TUTCTime:
space(level);
fprintf (headerfile, "time_t %s;\n", name);
break;
case TUTF8String:
space(level);
fprintf (headerfile, "heim_utf8_string %s;\n", name);
break;
case TPrintableString:
space(level);
fprintf (headerfile, "heim_printable_string %s;\n", name);
break;
case TIA5String:
space(level);
fprintf (headerfile, "heim_ia5_string %s;\n", name);
break;
case TBMPString:
space(level);
fprintf (headerfile, "heim_bmp_string %s;\n", name);
break;
case TUniversalString:
space(level);
fprintf (headerfile, "heim_universal_string %s;\n", name);
break;
case TVisibleString:
space(level);
fprintf (headerfile, "heim_visible_string %s;\n", name);
break;
case TOID :
space(level);
fprintf (headerfile, "heim_oid %s;\n", name);
break;
case TNull:
space(level);
fprintf (headerfile, "int %s;\n", name);
break;
default:
abort ();
}
if (newbasename)
free(newbasename);
}
static void
generate_type_header (const Symbol *s)
{
int preservep = preserve_type(s->name) ? TRUE : FALSE;
fprintf (headerfile, "/*\n");
fprintf (headerfile, "%s ::= ", s->name);
define_asn1 (0, s->type);
fprintf (headerfile, "\n*/\n\n");
fprintf (headerfile, "typedef ");
define_type (0, s->gen_name, s->gen_name, s->type, TRUE, preservep);
fprintf (headerfile, "\n");
}
void
generate_type (const Symbol *s)
{
FILE *h;
const char * exp;
if (!one_code_file)
generate_header_of_codefile(s->gen_name);
generate_type_header (s);
if (template_flag)
generate_template(s);
if (template_flag == 0 || is_template_compat(s) == 0) {
generate_type_encode (s);
generate_type_decode (s);
generate_type_free (s);
generate_type_length (s);
generate_type_copy (s);
}
generate_type_seq (s);
generate_glue (s->type, s->gen_name);
/* generate prototypes */
if (is_export(s->name)) {
h = headerfile;
exp = "ASN1EXP ";
} else {
h = privheaderfile;
exp = "";
}
fprintf (h,
"%sint ASN1CALL "
"decode_%s(const unsigned char *, size_t, %s *, size_t *);\n",
exp,
s->gen_name, s->gen_name);
fprintf (h,
"%sint ASN1CALL "
"encode_%s(unsigned char *, size_t, const %s *, size_t *);\n",
exp,
s->gen_name, s->gen_name);
fprintf (h,
"%ssize_t ASN1CALL length_%s(const %s *);\n",
exp,
s->gen_name, s->gen_name);
fprintf (h,
"%sint ASN1CALL copy_%s (const %s *, %s *);\n",
exp,
s->gen_name, s->gen_name, s->gen_name);
fprintf (h,
"%svoid ASN1CALL free_%s (%s *);\n",
exp,
s->gen_name, s->gen_name);
fprintf(h, "\n\n");
if (!one_code_file) {
fprintf(codefile, "\n\n");
close_codefile();
}
}
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