windows-nt/Source/XPSP1/NT/enduser/msasn1/compare.c

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2020-09-26 03:20:57 -05:00
/* Copyright (C) Boris Nikolaus, Germany, 1996-1997. All rights reserved. */
/* Copyright (C) Microsoft Corporation, 1997-1998. All rights reserved. */
#include "precomp.h"
#if defined(ENABLE_COMPARE) || defined(ENABLE_BER)
/* compare two object identifiers; return 0 iff equal */
int ASN1objectidentifier_cmp(ASN1objectidentifier_t *v1, ASN1objectidentifier_t *v2)
{
ASN1uint32_t l, l1, l2, i;
ASN1objectidentifier_t p1 = *v1;
ASN1objectidentifier_t p2 = *v2;
l1 = GetObjectIdentifierCount(p1);
l2 = GetObjectIdentifierCount(p2);
l = (l1 > l2) ? l2 : l1; // min(l1,l2)
for (i = 0; i < l; i++) {
if (p1->value != p2->value)
return p1->value - p2->value;
p1 = p1->next;
p2 = p2->next;
}
return l1 - l2;
}
int ASN1objectidentifier2_cmp(ASN1objectidentifier2_t *v1, ASN1objectidentifier2_t *v2)
{
ASN1uint16_t len, i;
len = (v1->count > v2->count) ? v2->count : v1->count; // min(l1,l2)
for (i = 0; i < len; i++)
{
if (v1->value[i] != v2->value[i])
{
return ((int) v1->value[i] - (int) v2->value[i]);
}
}
return ((int) v1->count - (int) v2->count);
}
static const ASN1uint8_t c_aBitMask2[] = {
0x00, 0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe
};
/* compare two bit strings; return 0 iff equal */
int ASN1bitstring_cmp(ASN1bitstring_t *v1, ASN1bitstring_t *v2, int ignorezero)
{
ASN1uint32_t l, l1, l2;
ASN1octet_t o1, o2;
int ret;
l1 = v1->length;
l2 = v2->length;
l = l1;
if (l > l2)
l = l2;
if (ignorezero) {
if (l1 > l)
ASN1PEREncRemoveZeroBits(&l1, v1->value, l);
if (l2 > l)
ASN1PEREncRemoveZeroBits(&l2, v2->value, l);
}
if (l > 7) {
ret = memcmp(v1->value, v2->value, l / 8);
if (ret)
return ret;
}
if (l & 7) {
o1 = v1->value[l / 8] & c_aBitMask2[l & 7];
o2 = v2->value[l / 8] & c_aBitMask2[l & 7];
ret = o1 - o2;
if (ret)
return ret;
}
return l1 - l2;
}
/* compare two octet strings; return 0 iff equal */
int ASN1octetstring_cmp(ASN1octetstring_t *v1, ASN1octetstring_t *v2)
{
ASN1uint32_t l, l1, l2;
int ret;
l1 = v1->length;
l2 = v2->length;
l = l1;
if (l > l2)
l = l2;
if (l) {
ret = memcmp(v1->value, v2->value, l);
if (ret)
return ret;
}
return l1 - l2;
}
#ifdef ENABLE_EXTERNAL
/* compare two external; return 0 iff equal */
int ASN1external_cmp(ASN1external_t *v1, ASN1external_t *v2)
{
int ret;
if ((ret = (v1->identification.o - v2->identification.o)))
return ret;
switch (v1->identification.o) {
case ASN1external_identification_syntax_o:
if ((ret = ASN1objectidentifier_cmp(&v1->identification.u.syntax,
&v2->identification.u.syntax)))
return ret;
break;
case ASN1external_identification_presentation_context_id_o:
if ((ret = (v1->identification.u.presentation_context_id -
v2->identification.u.presentation_context_id)))
return ret;
break;
case ASN1external_identification_context_negotiation_o:
if ((ret = (
v1->identification.u.context_negotiation.presentation_context_id -
v2->identification.u.context_negotiation.presentation_context_id)))
return ret;
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.context_negotiation.transfer_syntax,
&v2->identification.u.context_negotiation.transfer_syntax)))
return ret;
break;
}
if (ASN1BITTEST(v1->o, ASN1external_data_value_descriptor_o)) {
if (ASN1BITTEST(v2->o, ASN1external_data_value_descriptor_o)) {
if ((ret = ASN1ztcharstring_cmp(
v1->data_value_descriptor, v2->data_value_descriptor)))
return ret;
} else {
return 1;
}
} else {
return 1;
}
if ((ret = (v1->data_value.o - v2->data_value.o)))
return ret;
switch (v1->data_value.o) {
case ASN1external_data_value_notation_o:
if ((ret = ASN1open_cmp(&v1->data_value.u.notation,
&v2->data_value.u.notation)))
return ret;
break;
case ASN1external_data_value_encoded_o:
if ((ret = ASN1bitstring_cmp(&v1->data_value.u.encoded,
&v2->data_value.u.encoded, 0)))
return ret;
break;
}
return 0;
}
#endif // ENABLE_EXTERNAL
#ifdef ENABLE_REAL
/* compare two reals; return 0 iff equal */
int ASN1real_cmp(ASN1real_t *v1, ASN1real_t *v2)
{
ASN1intx_t e, e1, e2, m1, m2, h;
int ret = 0;
ZeroMemory(&e1, sizeof(e1));
ZeroMemory(&e2, sizeof(e2));
ZeroMemory(&m1, sizeof(m1));
ZeroMemory(&m2, sizeof(m2));
if (v1->type == eReal_PlusInfinity || v2->type == eReal_MinusInfinity)
return 1;
if (v2->type == eReal_PlusInfinity || v1->type == eReal_MinusInfinity)
return -1;
if (v1->type != eReal_Normal || v2->type != eReal_Normal)
return 0;
switch (v1->base) {
case 2:
if (! ASN1intx_dup(&e1, &v1->exponent))
{
ret = -1;
goto MyExit;
}
break;
case 8:
ASN1intx_muloctet(&e1, &v1->exponent, 3);
break;
case 16:
ASN1intx_muloctet(&e1, &v1->exponent, 4);
break;
}
switch (v2->base) {
case 2:
if (! ASN1intx_dup(&e2, &v2->exponent))
{
ret = 1;
goto MyExit;
}
break;
case 8:
ASN1intx_muloctet(&e2, &v2->exponent, 3);
break;
case 16:
ASN1intx_muloctet(&e2, &v2->exponent, 4);
break;
}
if (! ASN1intx_dup(&m1, &v1->mantissa))
{
ret = -1;
goto MyExit;
}
if (! ASN1intx_dup(&m2, &v2->mantissa))
{
ret = 1;
goto MyExit;
}
ASN1intx_sub(&e, &e1, &e2);
for (;;) {
ret = ASN1intx_cmp(&e, &ASN1intx_0);
if (!ret)
break;
if (ret > 0) {
ASN1intx_muloctet(&h, &m1, 2);
ASN1intx_free(&m1);
m1 = h;
ASN1intx_dec(&e);
} else {
ASN1intx_muloctet(&h, &m2, 2);
ASN1intx_free(&m2);
m2 = h;
ASN1intx_inc(&e);
}
}
// lonchanc: what happened to the memory allocated for e,
// should we call ASN1intx_free(&e)?
ret = ASN1intx_cmp(&m1, &m2);
MyExit:
ASN1intx_free(&m1);
ASN1intx_free(&m2);
ASN1intx_free(&e1);
ASN1intx_free(&e2);
return ret;
}
#endif // ENABLE_REAL
/* compare two doubles; return 0 iff equal */
int ASN1double_cmp(double d1, double d2)
{
return d1 < d2 ? -1 : d1 > d2 ? 1 : 0;
}
#ifdef ENABLE_EMBEDDED_PDV
/* compare two embedded pdvs; return 0 iff equal */
int ASN1embeddedpdv_cmp(ASN1embeddedpdv_t *v1, ASN1embeddedpdv_t *v2)
{
int ret;
if ((ret = (v1->identification.o - v2->identification.o)))
return ret;
switch (v1->identification.o) {
case ASN1embeddedpdv_identification_syntaxes_o:
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.syntaxes.abstract,
&v2->identification.u.syntaxes.abstract)))
return ret;
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.syntaxes.transfer,
&v2->identification.u.syntaxes.transfer)))
return ret;
break;
case ASN1embeddedpdv_identification_syntax_o:
if ((ret = ASN1objectidentifier_cmp(&v1->identification.u.syntax,
&v2->identification.u.syntax)))
return ret;
break;
case ASN1embeddedpdv_identification_presentation_context_id_o:
if ((ret = (v1->identification.u.presentation_context_id -
v2->identification.u.presentation_context_id)))
return ret;
break;
case ASN1embeddedpdv_identification_context_negotiation_o:
if ((ret = (
v1->identification.u.context_negotiation.presentation_context_id -
v2->identification.u.context_negotiation.presentation_context_id)))
return ret;
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.context_negotiation.transfer_syntax,
&v2->identification.u.context_negotiation.transfer_syntax)))
return ret;
break;
case ASN1embeddedpdv_identification_transfer_syntax_o:
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.transfer_syntax,
&v2->identification.u.transfer_syntax)))
return ret;
break;
case ASN1embeddedpdv_identification_fixed_o:
break;
}
if ((ret = (v1->data_value.o - v2->data_value.o)))
return ret;
switch (v1->data_value.o) {
case ASN1embeddedpdv_data_value_notation_o:
if ((ret = ASN1open_cmp(&v1->data_value.u.notation,
&v2->data_value.u.notation)))
return ret;
break;
case ASN1embeddedpdv_data_value_encoded_o:
if ((ret = ASN1bitstring_cmp(&v1->data_value.u.encoded,
&v2->data_value.u.encoded, 0)))
return ret;
break;
}
return 0;
}
#endif // ENABLE_EMBEDDED_PDV
/* compare two zero-terminated strings; return 0 iff equal */
int ASN1ztcharstring_cmp(ASN1ztcharstring_t v1, ASN1ztcharstring_t v2)
{
if (v1 && v2)
{
return lstrcmpA(v1, v2);
}
return v1 ? 1 : -1;
}
/* compare two zero-terminated 16 bit strings; return 0 iff equal */
int ASN1ztchar16string_cmp(ASN1ztchar16string_t v1, ASN1ztchar16string_t v2)
{
for (;;) {
if (!*v1 || !*v2 || *v1 != *v2)
return *v1 - *v2;
v1++;
v2++;
}
}
/* compare two zero-terminated 32 bit strings; return 0 iff equal */
int ASN1ztchar32string_cmp(ASN1ztchar32string_t v1, ASN1ztchar32string_t v2)
{
for (;;) {
if (!*v1 || !*v2 || *v1 != *v2)
return *v1 - *v2;
v1++;
v2++;
}
}
/* compare two strings; return 0 iff equal */
int ASN1charstring_cmp(ASN1charstring_t *v1, ASN1charstring_t *v2)
{
ASN1uint32_t i, l;
l = v1->length;
if (v2->length > l)
l = v2->length;
for (i = 0; i < l; i++) {
if (v1->value[i] != v2->value[i])
return v1->value[i] - v2->value[i];
}
return v1->length - v2->length;
}
/* compare two 16 bit strings; return 0 iff equal */
int ASN1char16string_cmp(ASN1char16string_t *v1, ASN1char16string_t *v2)
{
ASN1uint32_t i, l;
l = v1->length;
if (v2->length > l)
l = v2->length;
for (i = 0; i < l; i++) {
if (v1->value[i] != v2->value[i])
return v1->value[i] - v2->value[i];
}
return v1->length - v2->length;
}
/* compare two 32 bit strings; return 0 iff equal */
int ASN1char32string_cmp(ASN1char32string_t *v1, ASN1char32string_t *v2)
{
ASN1uint32_t i, l;
l = v1->length;
if (v2->length > l)
l = v2->length;
for (i = 0; i < l; i++) {
if (v1->value[i] != v2->value[i])
return v1->value[i] - v2->value[i];
}
return v1->length - v2->length;
}
#ifdef ENABLE_GENERALIZED_CHAR_STR
/* compare two character strings; return 0 iff equal */
int ASN1characterstring_cmp(ASN1characterstring_t *v1, ASN1characterstring_t *v2)
{
int ret;
if ((ret = (v1->identification.o - v2->identification.o)))
return ret;
switch (v1->identification.o) {
case ASN1characterstring_identification_syntaxes_o:
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.syntaxes.abstract,
&v2->identification.u.syntaxes.abstract)))
return ret;
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.syntaxes.transfer,
&v2->identification.u.syntaxes.transfer)))
return ret;
break;
case ASN1characterstring_identification_syntax_o:
if ((ret = ASN1objectidentifier_cmp(&v1->identification.u.syntax,
&v2->identification.u.syntax)))
return ret;
break;
case ASN1characterstring_identification_presentation_context_id_o:
if ((ret = (v1->identification.u.presentation_context_id -
v2->identification.u.presentation_context_id)))
return ret;
break;
case ASN1characterstring_identification_context_negotiation_o:
if ((ret = (
v1->identification.u.context_negotiation.presentation_context_id -
v2->identification.u.context_negotiation.presentation_context_id)))
return ret;
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.context_negotiation.transfer_syntax,
&v2->identification.u.context_negotiation.transfer_syntax)))
return ret;
break;
case ASN1characterstring_identification_transfer_syntax_o:
if ((ret = ASN1objectidentifier_cmp(
&v1->identification.u.transfer_syntax,
&v2->identification.u.transfer_syntax)))
return ret;
break;
case ASN1characterstring_identification_fixed_o:
break;
}
if ((ret = (v1->data_value.o - v2->data_value.o)))
return ret;
switch (v1->data_value.o) {
case ASN1characterstring_data_value_notation_o:
if ((ret = ASN1open_cmp(&v1->data_value.u.notation,
&v2->data_value.u.notation)))
return ret;
break;
case ASN1characterstring_data_value_encoded_o:
if ((ret = ASN1octetstring_cmp(&v1->data_value.u.encoded,
&v2->data_value.u.encoded)))
return ret;
break;
}
return 0;
}
#endif // ENABLE_GENERALIZED_CHAR_STR
/* compare two utc times; return 0 iff equal */
int ASN1utctime_cmp(ASN1utctime_t *v1, ASN1utctime_t *v2)
{
if (v1->universal != v2->universal || v1->diff != v2->diff)
return 1;
if (v1->year != v2->year)
return v1->year - v2->year;
if (v1->month != v2->month)
return v1->month - v2->month;
if (v1->day != v2->day)
return v1->day - v2->day;
if (v1->hour != v2->hour)
return v1->hour - v2->hour;
if (v1->minute != v2->minute)
return v1->minute - v2->minute;
return v1->second - v2->second;
}
/* compare two generalized times; return 0 iff equal */
int ASN1generalizedtime_cmp(ASN1generalizedtime_t *v1, ASN1generalizedtime_t *v2)
{
if (v1->universal != v2->universal || v1->diff != v2->diff)
return 1;
if (v1->year != v2->year)
return v1->year - v2->year;
if (v1->month != v2->month)
return v1->month - v2->month;
if (v1->day != v2->day)
return v1->day - v2->day;
if (v1->hour != v2->hour)
return v1->hour - v2->hour;
if (v1->minute != v2->minute)
return v1->minute - v2->minute;
if (v1->second != v2->second)
return v1->second - v2->second;
return v1->millisecond - v2->millisecond;
}
/* compare two open type values; return 0 iff equal */
int ASN1open_cmp(ASN1open_t *v1, ASN1open_t *v2)
{
ASN1octetstring_t ostr1, ostr2;
ostr1.length = v1->length;
ostr1.value = v1->encoded;
ostr2.length = v2->length;
ostr2.value = v2->encoded;
return ASN1octetstring_cmp(&ostr1, &ostr2);
}
/* compare two sequence of values with length-pointer representation */
/* return 0 iff equal */
int ASN1sequenceoflengthpointer_cmp(ASN1uint32_t l1, void *v1, ASN1uint32_t l2, void *v2, ASN1uint32_t size, int (*cmpfn)(void *v1, void *v2))
{
int ret;
ASN1octet_t *p1, *p2;
if ((ret = (l1 - l2)))
return ret;
for (p1 = (ASN1octet_t *)v1, p2 = (ASN1octet_t *)v2; l1--;
p1 += size, p2 += size) {
if ((ret = cmpfn(p1, p2)))
return ret;
}
return 0;
}
/* compare two sequence of values with singly-linked-list representation */
/* return 0 iff equal */
int ASN1sequenceofsinglylinkedlist_cmp(void *v1, void *v2, ASN1uint32_t off, int (*cmpfn)(void *, void *))
{
int ret;
ASN1octet_t *p1, *p2;
for (p1 = (ASN1octet_t *)v1, p2 = (ASN1octet_t *)v2; p1 && p2;
p1 = *(ASN1octet_t **)p1, p2 = *(ASN1octet_t **)p2) {
if ((ret = cmpfn(p1 + off, p2 + off)))
return ret;
}
return 0;
}
/* compare two sequence of values with doubly-linked-list representation */
/* return 0 iff equal */
int ASN1sequenceofdoublylinkedlist_cmp(void *v1, void *v2, ASN1uint32_t off, int (*cmpfn)(void *, void *))
{
int ret;
ASN1octet_t *p1, *p2;
for (p1 = (ASN1octet_t *)v1, p2 = (ASN1octet_t *)v2; p1 && p2;
p1 = *(ASN1octet_t **)p1, p2 = *(ASN1octet_t **)p2) {
if ((ret = cmpfn(p1 + off, p2 + off)))
return ret;
}
return 0;
}
/* compare two set of values with length-pointer representation */
/* return 0 iff equal */
int ASN1setoflengthpointer_cmp(ASN1uint32_t l1, void *v1, ASN1uint32_t l2, void *v2, ASN1uint32_t size, int (*cmpfn)(void *v1, void *v2))
{
int ret;
ASN1octet_t *p1, *p2, *found, *f;
ASN1uint32_t l;
if ((ret = (l1 - l2)))
return ret;
if (!l1)
return 0;
found = (ASN1octet_t *)MemAlloc(l1, UNKNOWN_MODULE);
if (found)
{
memset(found, 0, l1);
for (p1 = (ASN1octet_t *)v1; l1--; p1 += size) {
for (p2 = (ASN1octet_t *)v2, l = l2, f = found; l; p2 += size, f++, l--) {
if (!*f && !cmpfn(p1, p2)) {
*f = 1;
break;
}
}
if (!l) {
MemFree(found);
return 1;
}
}
MemFree(found);
}
return 0;
}
/* compare two set of values with singly-linked-list representation */
/* return 0 iff equal */
int ASN1setofsinglylinkedlist_cmp(void *v1, void *v2, ASN1uint32_t off, int (*cmpfn)(void *, void *))
{
int ret;
ASN1octet_t *p1, *p2, *found, *f;
ASN1uint32_t l1, l2;
for (p1 = (ASN1octet_t *)v1, l1 = 0; p1; p1 = *(ASN1octet_t **)p1)
l1++;
for (p2 = (ASN1octet_t *)v2, l2 = 0; p2; p2 = *(ASN1octet_t **)p2)
l2++;
if ((ret = (l1 - l2)))
return ret;
if (!l1)
return 0;
found = (ASN1octet_t *)MemAlloc(l1, UNKNOWN_MODULE);
if (found)
{
memset(found, 0, l1);
for (p1 = (ASN1octet_t *)v1; p1; p1 = *(ASN1octet_t **)p1) {
for (p2 = (ASN1octet_t *)v2, f = found; p2; p2 = *(ASN1octet_t **)p2, f++) {
if (!*f && !cmpfn(p1 + off, p2 + off)) {
*f = 1;
break;
}
}
if (!p2) {
MemFree(found);
return 1;
}
}
MemFree(found);
}
return 0;
}
/* compare two set of values with doubly-linked-list representation */
/* return 0 iff equal */
int ASN1setofdoublylinkedlist_cmp(void *v1, void *v2, ASN1uint32_t off, int (*cmpfn)(void *, void *))
{
int ret;
ASN1octet_t *p1, *p2, *found, *f;
ASN1uint32_t l1, l2;
for (p1 = (ASN1octet_t *)v1, l1 = 0; p1; p1 = *(ASN1octet_t **)p1)
l1++;
for (p2 = (ASN1octet_t *)v2, l2 = 0; p2; p2 = *(ASN1octet_t **)p2)
l2++;
if ((ret = (l1 - l2)))
return ret;
if (!l1)
return 0;
found = (ASN1octet_t *)MemAlloc(l1, UNKNOWN_MODULE);
if (found)
{
memset(found, 0, l1);
for (p1 = (ASN1octet_t *)v1; p1; p1 = *(ASN1octet_t **)p1) {
for (p2 = (ASN1octet_t *)v2, f = found; p2; p2 = *(ASN1octet_t **)p2, f++) {
if (!*f && !cmpfn(p1 + off, p2 + off)) {
*f = 1;
break;
}
}
if (!p2) {
MemFree(found);
return 1;
}
}
MemFree(found);
}
return 0;
}
#endif // defined(ENABLE_COMPARE) || defined(ENABLE_BER)