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#include "asn1fix_internal.h"
#include "asn1fix.h"
char const *
asn1f_printable_reference(asn1p_ref_t *ref) {
if(ref) {
asn1p_value_t v;
v.type = ATV_REFERENCED;
v.value.reference = ref;
return asn1f_printable_value(&v);
} else {
return "<no ref>";
}
}
char const *
asn1f_printable_value(asn1p_value_t *v) {
static char buf[128];
static char *managedptr;
static size_t managedptr_len;
int ret;
#define ENSURE(len) do { \
size_t tmp_len = (len); \
if(tmp_len >= managedptr_len) { \
free(managedptr); \
managedptr = malloc(tmp_len + 1); \
if(managedptr) { \
managedptr_len = tmp_len; \
} else { \
managedptr_len = 0; \
return "<memory allocation error>"; \
} \
} \
} while(0)
if(v == NULL)
return "<no value>";
switch(v->type) {
case ATV_NOVALUE:
return "<NO VALUE>";
case ATV_NULL:
return "NULL";
case ATV_REAL:
ret = snprintf(buf, sizeof(buf), "%f", v->value.v_double);
if(ret >= (ssize_t)sizeof(buf))
memcpy(buf + sizeof(buf) - 4, "...", 4);
return buf;
case ATV_INTEGER:
ret = snprintf(buf, sizeof(buf), "%" PRIdASN,
v->value.v_integer);
if(ret >= (ssize_t)sizeof(buf))
memcpy(buf + sizeof(buf) - 4, "...", 4);
return buf;
case ATV_MIN: return "MIN";
case ATV_MAX: return "MAX";
case ATV_FALSE: return "FALSE";
case ATV_TRUE: return "TRUE";
case ATV_TUPLE:
ret = snprintf(buf, sizeof(buf), "{%d, %d}",
(int)(v->value.v_integer >> 4),
(int)(v->value.v_integer & 0xff));
if(ret >= (ssize_t)sizeof(buf))
memcpy(buf + sizeof(buf) - 4, "...", 4);
return buf;
case ATV_QUADRUPLE:
ret = snprintf(buf, sizeof(buf), "{%d, %d, %d, %d}",
(int)((v->value.v_integer >> 24) & 0xff),
(int)((v->value.v_integer >> 16) & 0xff),
(int)((v->value.v_integer >> 8) & 0xff),
(int)(v->value.v_integer & 0xff));
if(ret >= (ssize_t)sizeof(buf))
memcpy(buf + sizeof(buf) - 4, "...", 4);
return buf;
case ATV_STRING:
case ATV_UNPARSED:
/* Buffer is guaranteed to be null-terminated */
assert(v->value.string.buf[v->value.string.size] == '\0');
return (char *)v->value.string.buf;
case ATV_TYPE:
return "<Type>";
case ATV_BITVECTOR:
{
uint8_t *bitvector;
char *ptr;
size_t len;
int i;
/*
* Compute number of bytes necessary
* to represend the binary value.
*/
int bits = v->value.binary_vector.size_in_bits;
len = ((bits%8)?bits:(bits >> 2)) + sizeof("''H");
/*
* Reallocate managed buffer
*/
ENSURE(len);
/*
* Fill the buffer.
*/
ptr = managedptr;
bitvector = v->value.binary_vector.bits;
*ptr++ = '\'';
if(bits%8) {
/*
* Dump bit by bit.
*/
for(i = 0; i < bits; i++) {
uint8_t uc;
uc = bitvector[i>>3];
*ptr++ = ((uc >> (7-(i%8)))&1)?'1':'0';
}
} else {
static const char *hextable="0123456789ABCDEF";
/*
* Dump byte by byte.
*/
for(i = 0; i < (bits >> 3); i++) {
*ptr++ = hextable[bitvector[i] >> 4];
*ptr++ = hextable[bitvector[i] & 0x0f];
}
}
*ptr++ = '\'';
*ptr++ = (bits%8)?'B':'H';
*ptr++ = 'H';
assert(len == (size_t)(ptr - managedptr));
return managedptr;
}
case ATV_REFERENCED:
{
asn1p_ref_t *ref;
size_t reflen;
char *ptr;
int i;
assert(v->value.reference);
ref = v->value.reference;
reflen = ref->comp_count; /* Number of dots */
for(i = 0; i < ref->comp_count; i++)
reflen += strlen(ref->components[i].name);
/*
* Make sure we have a buffer of this size.
*/
ENSURE(reflen);
/*
* Fill-up the buffer.
*/
ptr = managedptr;
for(i = 0; i < ref->comp_count; i++) {
char *nc;
if(i) *ptr++ = '.';
for(nc = ref->components[i].name; *nc; nc++)
*ptr++ = *nc;
}
*ptr++ = '\0';
assert(reflen == (size_t)(ptr - managedptr));
return managedptr;
}
case ATV_VALUESET:
return "<ValueSet>";
case ATV_CHOICE_IDENTIFIER:
{
char *cid = v->value.choice_identifier.identifier;
char const *vptr = asn1f_printable_value(
v->value.choice_identifier.value);
char *val;
val = strdup(vptr);
if(!val) return "<memory allocation error>";
ENSURE(strlen(cid) + sizeof(": ") + strlen(val));
ret = snprintf(managedptr, managedptr_len + 1,
"%s: %s", cid, val);
assert(ret >= 0 && (size_t)ret <= managedptr_len);
free(val);
return managedptr;
}
}
return "<some complex value>";
}
/*
* Recursively invoke a given function over the given expr and all its
* children.
*/
int
asn1f_recurse_expr(arg_t *arg, int (*callback)(arg_t *arg)) {
asn1p_expr_t *expr = arg->expr;
int rvalue = 0;
int ret;
assert(expr);
if(expr->lhs_params && expr->spec_index == -1) {
int i;
for(i = 0; i < expr->specializations.pspecs_count; i++) {
arg->expr = expr->specializations.pspec[i].my_clone;
ret = asn1f_recurse_expr(arg, callback);
RET2RVAL(ret, rvalue);
}
arg->expr = expr; /* revert */
return rvalue;
}
/*
* Invoke the callback at this very level.
*/
ret = callback(arg);
RET2RVAL(ret, rvalue);
/*
* Recursively invoke myself
* to iterate over each element in the tree.
*/
TQ_FOR(arg->expr, &(expr->members), next) {
assert(arg->expr->expr_type != A1TC_INVALID);
assert(arg->expr->parent_expr == expr);
ret = asn1f_recurse_expr(arg, callback);
RET2RVAL(ret, rvalue);
}
arg->expr = expr; /* Restore original position */
return rvalue;
}
/*
* Check that every child of a given expr has unique name or does not have any.
*/
int
asn1f_check_unique_expr(arg_t *arg) {
asn1p_expr_t *expr;
int rvalue = 0;
TQ_FOR(expr, &(arg->expr->members), next) {
if(expr->Identifier) {
int ret = asn1f_check_unique_expr_child(arg, expr,
0, "identifier");
if(ret) rvalue = -1;
} else {
/*
* No point of comparing this child with any other:
* this one does not have a name.
*/
}
}
return rvalue;
}
/*
* Check that every preceeding child of the given expr is not
* having the name of the given one.
*/
int
asn1f_check_unique_expr_child(arg_t *arg, asn1p_expr_t *child,
int (*opt_compare)(asn1p_expr_t *a, asn1p_expr_t *b),
const char *opt_property_name) {
asn1p_expr_t *expr;
if(!opt_property_name) opt_property_name = "property";
assert(child);
assert(opt_compare || child->Identifier);
TQ_FOR(expr, &(arg->expr->members), next) {
int ret;
if(expr == child)
break;
/*
* Compare according to the custom rule or default
* names comparisons.
*/
if(opt_compare) {
ret = opt_compare(expr, child);
} else {
if(expr->Identifier == NULL
|| expr->expr_type == A1TC_EXTENSIBLE)
continue;
ret = strcmp(expr->Identifier, child->Identifier);
}
if(ret == 0) {
FATAL("Clash detected: "
"\"%s\" at line %d has similar %s with "
"\"%s\" at line %d",
expr->Identifier,
expr->_lineno,
opt_property_name,
child->Identifier,
child->_lineno
);
return -1;
}
}
return 0;
}
int
asn1f_count_children(asn1p_expr_t *expr) {
asn1p_expr_t *child;
int count = 0;
TQ_FOR(child, &(expr->members), next) {
count++;
}
return count;
}
static char **known_types;
static int known_types_count;
static int known_types_size;
static int _known_types_cmp(const void *ap, const void *bp) {
const char *a = *(const char * const *)ap;
const char *b = *(const char * const *)bp;
return strcmp(a, b);
}
int
asn1f_make_known_external_type(const char *type_name) {
char *tname;
/* Check for duplicates */
if(asn1f_check_known_external_type(type_name) == 0) {
errno = EEXIST;
return -1;
}
/* Ensure enough space */
if(known_types_count <= known_types_size) {
int n = known_types_size ? known_types_size << 1 : 4;
void *p;
p = realloc(known_types, n * sizeof(known_types[0]));
if(!p) return -1;
known_types = p;
known_types_size = n;
}
tname = strdup(type_name);
if(!tname) return -1;
known_types[known_types_count++] = tname;
#ifdef HAVE_MERGESORT
mergesort
#else
qsort
#endif
(known_types, known_types_count, sizeof(known_types[0]),
_known_types_cmp);
return 0;
}
int
asn1f_check_known_external_type(const char *type_name) {
if(known_types_count) {
void *p = bsearch(&type_name, known_types, known_types_count,
sizeof(known_types[0]), _known_types_cmp);
if(p) return 0;
}
errno = ESRCH;
return -1;
}
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