/* * Copyright (c) 1997 - 2002 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("$KTH: gen.c,v 1.50 2003/04/17 07:09:18 lha Exp $"); */ FILE *headerfile, *codefile, *logfile; #define STEM "asn1" static const char *orig_filename; static char *header; static 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 = malloc (sizeof(*tmp)); if(tmp == NULL) errx(1, "Out of memory"); tmp->module = module; tmp->next = imports; imports = tmp; } const char * filename (void) { return orig_filename; } void init_generate (const char *filename, const char *base) { orig_filename = filename; if(base) asprintf(&headerbase, "%s", base); asprintf(&header, "%s.h", headerbase); headerfile = fopen (header, "w"); if (headerfile == NULL) err (1, "open %s", header); 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 \n" "#include \n\n"); #ifndef HAVE_TIMEGM fprintf (headerfile, "time_t timegm (struct tm*);\n\n"); #endif fprintf (headerfile, "#ifndef __asn1_common_definitions__\n" "#define __asn1_common_definitions__\n\n"); fprintf (headerfile, "typedef struct octet_string {\n" " size_t length;\n" " void *data;\n" "} octet_string;\n\n"); fprintf (headerfile, "typedef char *general_string;\n\n" ); fprintf (headerfile, "typedef struct oid {\n" " size_t length;\n" " unsigned *components;\n" "} oid;\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); fprintf (headerfile, "#endif\n\n"); logfile = fopen(STEM "_files", "w"); if (logfile == NULL) err (1, "open " STEM "_files"); } void close_generate (void) { fprintf (headerfile, "#endif /* __%s_h__ */\n", headerbase); fclose (headerfile); fprintf (logfile, "\n"); fclose (logfile); } void generate_constant (const Symbol *s) { fprintf (headerfile, "enum { %s = %d };\n\n", s->gen_name, s->constant); } static void space(int level) { while(level-- > 0) fprintf(headerfile, " "); } static void define_asn1 (int level, Type *t) { switch (t->type) { case TType: space(level); fprintf (headerfile, "%s", t->symbol->name); break; case TInteger: space(level); fprintf (headerfile, "INTEGER"); break; case TUInteger: space(level); fprintf (headerfile, "UNSIGNED INTEGER"); break; case TOctetString: space(level); fprintf (headerfile, "OCTET STRING"); break; case TOID : space(level); fprintf(headerfile, "OBJECT IDENTIFIER"); break; case TBitString: { Member *m; int tag = -1; space(level); fprintf (headerfile, "BIT STRING {\n"); for (m = t->members; m && m->val != tag; m = m->next) { if (tag == -1) tag = m->val; space(level + 1); fprintf (headerfile, "%s(%d)%s\n", m->name, m->val, m->next->val == tag?"":","); } space(level); fprintf (headerfile, "}"); break; } case TEnumerated : { Member *m; int tag = -1; space(level); fprintf (headerfile, "ENUMERATED {\n"); for (m = t->members; m && m->val != tag; m = m->next) { if (tag == -1) tag = m->val; space(level + 1); fprintf (headerfile, "%s(%d)%s\n", m->name, m->val, m->next->val == tag?"":","); } space(level); fprintf (headerfile, "}"); break; } case TSequence: { Member *m; int tag; int max_width = 0; space(level); fprintf (headerfile, "SEQUENCE {\n"); for (m = t->members, tag = -1; m && m->val != tag; m = m->next) { if (tag == -1) tag = m->val; if(strlen(m->name) + (m->val > 9) > max_width) max_width = strlen(m->name) + (m->val > 9); } max_width += 3 + 2; if(max_width < 16) max_width = 16; for (m = t->members, tag = -1 ; m && m->val != tag; m = m->next) { int width; if (tag == -1) tag = m->val; space(level + 1); fprintf(headerfile, "%s[%d]", m->name, m->val); width = max_width - strlen(m->name) - 3 - (m->val > 9) - 2; fprintf(headerfile, "%*s", width, ""); define_asn1(level + 1, m->type); if(m->optional) fprintf(headerfile, " OPTIONAL"); if(m->next->val != tag) fprintf (headerfile, ","); fprintf (headerfile, "\n"); } space(level); fprintf (headerfile, "}"); break; } case TSequenceOf: { space(level); fprintf (headerfile, "SEQUENCE OF "); define_asn1 (0, t->subtype); break; } case TGeneralizedTime: space(level); fprintf (headerfile, "GeneralizedTime"); break; case TGeneralString: space(level); fprintf (headerfile, "GeneralString"); break; case TApplication: fprintf (headerfile, "[APPLICATION %d] ", t->application); define_asn1 (level, t->subtype); break; default: abort (); } } static void define_type (int level, char *name, Type *t, int typedefp) { 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 == NULL) { fprintf (headerfile, "int %s;\n", name); } else { Member *m; int tag = -1; fprintf (headerfile, "enum %s {\n", typedefp ? name : ""); for (m = t->members; m && m->val != tag; m = m->next) { if(tag == -1) tag = m->val; space (level + 1); fprintf(headerfile, "%s = %d%s\n", m->gen_name, m->val, m->next->val == tag ? "" : ","); } fprintf (headerfile, "} %s;\n", name); } break; case TUInteger: space(level); fprintf (headerfile, "unsigned int %s;\n", name); break; case TOctetString: space(level); fprintf (headerfile, "octet_string %s;\n", name); break; case TOID : space(level); fprintf (headerfile, "oid %s;\n", name); break; case TBitString: { Member *m; Type i; int tag = -1; i.type = TUInteger; space(level); fprintf (headerfile, "struct %s {\n", typedefp ? name : ""); for (m = t->members; m && m->val != tag; m = m->next) { char *n; asprintf (&n, "%s:1", m->gen_name); define_type (level + 1, n, &i, FALSE); free (n); if (tag == -1) tag = m->val; } space(level); fprintf (headerfile, "} %s;\n\n", name); break; } case TEnumerated: { Member *m; int tag = -1; space(level); fprintf (headerfile, "enum %s {\n", typedefp ? name : ""); for (m = t->members; m && m->val != tag; m = m->next) { if (tag == -1) tag = m->val; space(level + 1); fprintf (headerfile, "%s = %d%s\n", m->gen_name, m->val, m->next->val == tag ? "" : ","); } space(level); fprintf (headerfile, "} %s;\n\n", name); break; } case TSequence: { Member *m; int tag = -1; space(level); fprintf (headerfile, "struct %s {\n", typedefp ? name : ""); for (m = t->members; m && m->val != tag; m = m->next) { if (m->optional) { char *n; asprintf (&n, "*%s", m->gen_name); define_type (level + 1, n, m->type, FALSE); free (n); } else define_type (level + 1, m->gen_name, m->type, FALSE); if (tag == -1) tag = m->val; } space(level); fprintf (headerfile, "} %s;\n", name); break; } case TSequenceOf: { Type i; i.type = TUInteger; i.application = 0; space(level); fprintf (headerfile, "struct %s {\n", typedefp ? name : ""); define_type (level + 1, "len", &i, FALSE); define_type (level + 1, "*val", t->subtype, 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, "general_string %s;\n", name); break; case TApplication: define_type (level, name, t->subtype, FALSE); break; default: abort (); } } static void generate_type_header (const Symbol *s) { 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->type, TRUE); fprintf (headerfile, "\n"); } void generate_type (const Symbol *s) { struct import *i; char *filename; asprintf (&filename, "%s_%s.x", STEM, s->gen_name); codefile = fopen (filename, "w"); if (codefile == NULL) err (1, "fopen %s", filename); fprintf(logfile, "%s ", filename); free(filename); fprintf (codefile, "/* Generated from %s */\n" "/* Do not edit */\n\n" "#include \n" "#include \n" "#include \n" "#include \n" "#include \n", orig_filename); for (i = imports; i != NULL; i = i->next) fprintf (codefile, "#include <%s_asn1.h>\n", i->module); fprintf (codefile, "#include <%s.h>\n", headerbase); fprintf (codefile, "#include \n" "#include \n" "#include \n\n"); generate_type_header (s); generate_type_encode (s); generate_type_decode (s); generate_type_free (s); generate_type_length (s); generate_type_copy (s); generate_glue (s); fprintf(headerfile, "\n\n"); fclose(codefile); }