blob: dd253c7702b037d97fdd96d50cd95dd473282426 [file] [log] [blame]
/** \file Encrypt.c
* Contains implementation of the functions related to HCOSE_ENVELOPED handle objects.
*/
#include <stdlib.h>
#include <memory.h>
#include <stdio.h>
#include <assert.h>
#include "cose.h"
#include "cose_int.h"
#include "configure.h"
#include "crypto.h"
void _COSE_Enveloped_Release(COSE_Enveloped * p);
byte RgbDontUse[8 * 1024]; // Remove this array when we can compute the size of a cbor serialization without this hack.
COSE * EnvelopedRoot = NULL;
bool IsValidEnvelopedHandle(HCOSE_ENVELOPED h)
{
COSE_Enveloped * p = (COSE_Enveloped *)h;
return _COSE_IsInList(EnvelopedRoot, (COSE *) p);
}
size_t COSE_Encode(HCOSE msg, byte * rgb, size_t ib, size_t cb)
{
if (rgb == NULL) return cn_cbor_encoder_write(RgbDontUse, 0, sizeof(RgbDontUse), ((COSE *)msg)->m_cbor) + ib;
return cn_cbor_encoder_write(rgb, ib, cb, ((COSE*)msg)->m_cbor);
}
HCOSE_ENVELOPED COSE_Enveloped_Init(CBOR_CONTEXT_COMMA cose_errback * perror)
{
COSE_Enveloped * pobj = (COSE_Enveloped *)COSE_CALLOC(1, sizeof(COSE_Enveloped), context);
if (pobj == NULL) {
if (perror != NULL) perror->err = COSE_ERR_OUT_OF_MEMORY;
return NULL;
}
if (!_COSE_Init(&pobj->m_message, COSE_enveloped_object, CBOR_CONTEXT_PARAM_COMMA perror)) {
_COSE_Enveloped_Release(pobj);
COSE_FREE(pobj, context);
return NULL;
}
_COSE_InsertInList(&EnvelopedRoot, &pobj->m_message);
return (HCOSE_ENVELOPED) pobj;
}
HCOSE_ENVELOPED _COSE_Enveloped_Init_From_Object(cn_cbor * cbor, COSE_Enveloped * pIn, CBOR_CONTEXT_COMMA cose_errback * perr)
{
COSE_Enveloped * pobj = pIn;
cn_cbor * pRecipients = NULL;
cose_errback error = { 0 };
if (perr == NULL) perr = &error;
if (pobj == NULL) pobj = (COSE_Enveloped *)COSE_CALLOC(1, sizeof(COSE_Enveloped), context);
if (pobj == NULL) {
perr->err = COSE_ERR_OUT_OF_MEMORY;
errorReturn:
if (pobj != NULL) {
_COSE_Enveloped_Release(pobj);
if (pIn == NULL) COSE_FREE(pobj, context);
}
return NULL;
}
if (!_COSE_Init_From_Object(&pobj->m_message, cbor, CBOR_CONTEXT_PARAM_COMMA perr)) {
goto errorReturn;
}
pRecipients = _COSE_arrayget_int(&pobj->m_message, INDEX_RECIPIENTS);
if (pRecipients != NULL) {
CHECK_CONDITION(pRecipients->type == CN_CBOR_ARRAY, COSE_ERR_INVALID_PARAMETER);
pRecipients = pRecipients->first_child;
while (pRecipients != NULL) {
COSE_RecipientInfo * pInfo = _COSE_Recipient_Init_From_Object(pRecipients, CBOR_CONTEXT_PARAM_COMMA perr);
CHECK_CONDITION(pInfo != NULL, COSE_ERR_OUT_OF_MEMORY);
pInfo->m_recipientNext = pobj->m_recipientFirst;
pobj->m_recipientFirst = pInfo;
pRecipients = pRecipients->next;
}
}
if (pIn == NULL) _COSE_InsertInList(&EnvelopedRoot, &pobj->m_message);
return(HCOSE_ENVELOPED) pobj;
}
bool COSE_Enveloped_Free(HCOSE_ENVELOPED h)
{
#ifdef USE_CBOR_CONTEXT
cn_cbor_context context;
#endif
COSE_Enveloped * p = (COSE_Enveloped *)h;
if (!IsValidEnvelopedHandle(h)) return false;
if (p->m_message.m_refCount > 1) {
p->m_message.m_refCount--;
return true;
}
#ifdef USE_CBOR_CONTEXT
context = ((COSE_Enveloped *)h)->m_message.m_allocContext;
#endif
_COSE_RemoveFromList(&EnvelopedRoot, &p->m_message);
_COSE_Enveloped_Release((COSE_Enveloped *)h);
COSE_FREE((COSE_Enveloped *)h, &context);
return true;
}
void _COSE_Enveloped_Release(COSE_Enveloped * p)
{
COSE_RecipientInfo * pRecipient1;
COSE_RecipientInfo * pRecipient2;
if (p->pbContent != NULL) COSE_FREE((void *) p->pbContent, &p->m_message.m_allocContext);
// if (p->pbIV != NULL) COSE_FREE(p->pbIV, &p->m_message.m_allocContext);
for (pRecipient1 = p->m_recipientFirst; pRecipient1 != NULL; pRecipient1 = pRecipient2) {
pRecipient2 = pRecipient1->m_recipientNext;
COSE_Recipient_Free((HCOSE_RECIPIENT)pRecipient1);
}
_COSE_Release(&p->m_message);
}
bool COSE_Enveloped_decrypt(HCOSE_ENVELOPED h, HCOSE_RECIPIENT hRecip, cose_errback * perr)
{
COSE_Enveloped * pcose = (COSE_Enveloped *)h;
COSE_RecipientInfo * pRecip = (COSE_RecipientInfo *)hRecip;
cose_errback error = { 0 };
bool f;
if (!IsValidEnvelopedHandle(h) || (!IsValidRecipientHandle(hRecip))) {
if (perr != NULL) perr->err = COSE_ERR_INVALID_PARAMETER;
return false;
}
f = _COSE_Enveloped_decrypt(pcose, pRecip, 0, NULL, &error);
if (perr != NULL) *perr = error;
return f;
}
bool _COSE_Enveloped_decrypt(COSE_Enveloped * pcose, COSE_RecipientInfo * pRecip, int cbitKey, byte *pbKeyIn, cose_errback * perr)
{
int alg;
const cn_cbor * cn = NULL;
byte * pbKey = pbKeyIn;
#ifdef USE_CBOR_CONTEXT
cn_cbor_context * context;
#endif
byte * pbAuthData = NULL;
size_t cbAuthData;
byte * pbProtected = NULL;
ssize_t cbProtected;
#ifdef USE_CBOR_CONTEXT
context = &pcose->m_message.m_allocContext;
#endif
cn = _COSE_map_get_int(&pcose->m_message, COSE_Header_Algorithm, COSE_BOTH, perr);
if (cn == NULL) {
error:
errorReturn:
if (pbProtected != NULL) COSE_FREE(pbProtected, context);
if (pbAuthData != NULL) COSE_FREE(pbAuthData, context);
if ((pbKey != NULL) && (pbKeyIn == NULL)) {
memset(pbKey, 0xff, cbitKey / 8);
COSE_FREE(pbKey, context);
}
return false;
}
CHECK_CONDITION((cn->type == CN_CBOR_UINT) || (cn->type == CN_CBOR_INT), COSE_ERR_INVALID_PARAMETER);
alg = (int) cn->v.uint;
switch (alg) {
#ifdef INCLUDE_AES_CCM
case COSE_Algorithm_AES_CCM_16_64_128:
case COSE_Algorithm_AES_CCM_16_128_128:
case COSE_Algorithm_AES_CCM_64_64_128:
case COSE_Algorithm_AES_CCM_64_128_128:
cbitKey = 128;
break;
case COSE_Algorithm_AES_CCM_64_64_256:
case COSE_Algorithm_AES_CCM_16_128_256:
case COSE_Algorithm_AES_CCM_64_128_256:
case COSE_Algorithm_AES_CCM_16_64_256:
cbitKey = 256;
break;
#endif // INCLUDE_AES_CCM
case COSE_Algorithm_AES_GCM_128:
cbitKey = 128;
break;
case COSE_Algorithm_AES_GCM_192:
cbitKey = 192;
break;
case COSE_Algorithm_AES_GCM_256:
cbitKey = 256;
break;
default:
FAIL_CONDITION(COSE_ERR_UNKNOWN_ALGORITHM);
break;
}
// Allocate the key if we have not already done so
if (pbKey == NULL) {
pbKey = COSE_CALLOC(cbitKey / 8, 1, context);
CHECK_CONDITION(pbKey != NULL, COSE_ERR_OUT_OF_MEMORY);
}
// If there is a recipient - ask it for the key
for (pRecip = pcose->m_recipientFirst; pRecip != NULL; pRecip = pRecip->m_recipientNext) {
if (_COSE_Recipient_decrypt(pRecip, alg, cbitKey, pbKey, perr)) break;
}
// Build protected headers
CHECK_CONDITION(pcose->m_message.m_protectedMap != NULL, COSE_ERR_INVALID_PARAMETER);
if ((pcose->m_message.m_protectedMap != NULL) && (pcose->m_message.m_protectedMap->first_child != NULL)) {
cbProtected = cn_cbor_encoder_write(RgbDontUse, 0, sizeof(RgbDontUse), pcose->m_message.m_protectedMap);
pbProtected = (byte *)COSE_CALLOC(cbProtected, 1, context);
if (pbProtected == NULL) goto error;
if (cn_cbor_encoder_write(pbProtected, 0, cbProtected, pcose->m_message.m_protectedMap) != cbProtected) goto error;
}
else {
pbProtected = NULL;
cbProtected = 0;
}
// Build authenticated data
if (!_COSE_Encrypt_Build_AAD(&pcose->m_message, &pbAuthData, &cbAuthData, "Enveloped", perr)) goto errorReturn;
cn = _COSE_arrayget_int(&pcose->m_message, INDEX_BODY);
CHECK_CONDITION(cn != NULL, COSE_ERR_INVALID_PARAMETER);
switch (alg) {
#ifdef INCLUDE_AES_CCM
case COSE_Algorithm_AES_CCM_16_64_128:
case COSE_Algorithm_AES_CCM_16_64_256:
if (!AES_CCM_Decrypt(pcose, 64, 16, pbKey, cbitKey / 8, cn->v.bytes, cn->length, pbAuthData, cbAuthData, perr)) goto error;
break;
case COSE_Algorithm_AES_CCM_16_128_128:
case COSE_Algorithm_AES_CCM_16_128_256:
if (!AES_CCM_Decrypt(pcose, 128, 16, pbKey, cbitKey / 8, cn->v.bytes, cn->length, pbAuthData, cbAuthData, perr)) goto error;
break;
case COSE_Algorithm_AES_CCM_64_64_128:
case COSE_Algorithm_AES_CCM_64_64_256:
if (!AES_CCM_Decrypt(pcose, 64, 64, pbKey, cbitKey / 8, cn->v.bytes, cn->length, pbAuthData, cbAuthData, perr)) goto error;
break;
case COSE_Algorithm_AES_CCM_64_128_128:
case COSE_Algorithm_AES_CCM_64_128_256:
if (!AES_CCM_Decrypt(pcose, 128, 64, pbKey, cbitKey / 8, cn->v.bytes, cn->length, pbAuthData, cbAuthData, perr)) goto error;
break;
#endif // INCLUDE_AES_CCM
case COSE_Algorithm_AES_GCM_128:
case COSE_Algorithm_AES_GCM_192:
case COSE_Algorithm_AES_GCM_256:
if (!AES_GCM_Decrypt(pcose, pbKey, cbitKey / 8, cn->v.bytes, cn->length, pbAuthData, cbAuthData, perr)) goto error;
break;
default:
FAIL_CONDITION(COSE_ERR_UNKNOWN_ALGORITHM);
break;
}
if (pbProtected != NULL) COSE_FREE(pbProtected, context);
if (pbAuthData != NULL) COSE_FREE(pbAuthData, context);
if ((pbKey != NULL) && (pbKeyIn == NULL)) COSE_FREE(pbKey, context);
if (perr != NULL) perr->err = COSE_ERR_NONE;
return true;
}
bool COSE_Enveloped_encrypt(HCOSE_ENVELOPED h, cose_errback * perr)
{
int alg;
int t;
COSE_RecipientInfo * pri;
const cn_cbor * cn_Alg = NULL;
byte * pbAuthData = NULL;
size_t cbitKey;
#ifdef USE_CBOR_CONTEXT
cn_cbor_context * context = NULL;
#endif
COSE_Enveloped * pcose = (COSE_Enveloped *) h;
bool fRet = false;
byte * pbKey = NULL;
size_t cbKey = 0;
CHECK_CONDITION(IsValidEnvelopedHandle(h), COSE_ERR_INVALID_PARAMETER);
#ifdef USE_CBOR_CONTEXT
context = &pcose->m_message.m_allocContext;
#endif // USE_CBOR_CONTEXT
cn_Alg = _COSE_map_get_int(&pcose->m_message, COSE_Header_Algorithm, COSE_BOTH, perr);
if (cn_Alg == NULL) goto errorReturn;
CHECK_CONDITION((cn_Alg->type == CN_CBOR_UINT) || (cn_Alg->type == CN_CBOR_INT), COSE_ERR_INVALID_PARAMETER);
alg = (int) cn_Alg->v.uint;
// Get the key size
switch (alg) {
#ifdef INCLUDE_AES_CCM
case COSE_Algorithm_AES_CCM_64_64_128:
case COSE_Algorithm_AES_CCM_16_128_128:
case COSE_Algorithm_AES_CCM_64_128_128:
case COSE_Algorithm_AES_CCM_16_64_128:
cbitKey = 128;
break;
case COSE_Algorithm_AES_CCM_64_64_256:
case COSE_Algorithm_AES_CCM_16_128_256:
case COSE_Algorithm_AES_CCM_64_128_256:
case COSE_Algorithm_AES_CCM_16_64_256:
cbitKey = 256;
break;
#endif // INCLUDE_AES_CCM
case COSE_Algorithm_AES_GCM_128: cbitKey = 128; break;
case COSE_Algorithm_AES_GCM_192: cbitKey = 192; break;
case COSE_Algorithm_AES_GCM_256: cbitKey = 256; break;
default:
FAIL_CONDITION(COSE_ERR_INVALID_PARAMETER);
}
// If we are doing direct encryption - then recipient generates the key
if (pbKey == NULL) {
t = 0;
for (pri = pcose->m_recipientFirst; pri != NULL; pri = pri->m_recipientNext) {
if (pri->m_encrypt.m_message.m_flags & 1) {
t |= 1;
pbKey = _COSE_RecipientInfo_generateKey(pri, alg, cbitKey, perr);
cbKey = cbitKey / 8;
if (pbKey == NULL) goto errorReturn;
}
else {
t |= 2;
}
}
CHECK_CONDITION(t != 3, COSE_ERR_INVALID_PARAMETER);
}
if (pbKey == NULL) {
pbKey = (byte *) COSE_CALLOC(cbitKey/8, 1, context);
CHECK_CONDITION(pbKey != NULL, COSE_ERR_OUT_OF_MEMORY);
cbKey = cbitKey / 8;
rand_bytes(pbKey, cbKey);
}
// Build protected headers
const cn_cbor * cbProtected = _COSE_encode_protected(&pcose->m_message, perr);
if (cbProtected == NULL) goto errorReturn;
// Build authenticated data
size_t cbAuthData = 0;
if (!_COSE_Encrypt_Build_AAD(&pcose->m_message, &pbAuthData, &cbAuthData, "Enveloped", perr)) goto errorReturn;
switch (alg) {
#ifdef INCLUDE_AES_CCM
case COSE_Algorithm_AES_CCM_16_64_128:
case COSE_Algorithm_AES_CCM_16_64_256:
if (!AES_CCM_Encrypt(pcose, 64, 16, pbKey, cbKey, pbAuthData, cbAuthData, perr)) goto errorReturn;
break;
case COSE_Algorithm_AES_CCM_16_128_128:
case COSE_Algorithm_AES_CCM_16_128_256:
if (!AES_CCM_Encrypt(pcose, 128, 16, pbKey, cbKey, pbAuthData, cbAuthData, perr)) goto errorReturn;
break;
case COSE_Algorithm_AES_CCM_64_64_128:
case COSE_Algorithm_AES_CCM_64_64_256:
if (!AES_CCM_Encrypt(pcose, 64, 64, pbKey, cbKey, pbAuthData, cbAuthData, perr)) goto errorReturn;
break;
case COSE_Algorithm_AES_CCM_64_128_128:
case COSE_Algorithm_AES_CCM_64_128_256:
if (!AES_CCM_Encrypt(pcose, 128, 64, pbKey, cbKey, pbAuthData, cbAuthData, perr)) goto errorReturn;
break;
#endif
case COSE_Algorithm_AES_GCM_128:
case COSE_Algorithm_AES_GCM_192:
case COSE_Algorithm_AES_GCM_256:
if (!AES_GCM_Encrypt(pcose, pbKey, cbKey, pbAuthData, cbAuthData, perr)) goto errorReturn;
break;
default:
FAIL_CONDITION(COSE_ERR_INVALID_PARAMETER);
}
for (pri = pcose->m_recipientFirst; pri != NULL; pri = pri->m_recipientNext) {
if (!_COSE_Recipient_encrypt(pri, pbKey, cbKey, perr)) goto errorReturn;
}
// Figure out the clean up
fRet = true;
errorReturn:
if (pbAuthData != NULL) COSE_FREE(pbAuthData, context);
if (pbKey != NULL) {
memset(pbKey, 0, cbKey);
COSE_FREE(pbKey, context);
}
return fRet;
}
bool COSE_Enveloped_SetContent(HCOSE_ENVELOPED h, const byte * rgb, size_t cb, cose_errback * perror)
{
if (!IsValidEnvelopedHandle(h) || (rgb == NULL)) {
if (perror != NULL) perror->err = COSE_ERR_INVALID_PARAMETER;
return false;
}
return _COSE_Enveloped_SetContent((COSE_Enveloped *)h, rgb, cb, perror);
}
/*!
* @brief Set the application external data for authentication
*
* Enveloped data objects support the authentication of external application
* supplied data. This function is provided to supply that data to the library.
*
* The external data is not copied, nor will be it freed when the handle is released.
*
* @param hcose Handle for the COSE Enveloped data object
* @param pbEternalData point to the external data
* @param cbExternalData size of the external data
* @param perr location to return errors
* @return result of the operation.
*/
bool COSE_Enveloped_SetExternal(HCOSE_ENVELOPED hcose, const byte * pbExternalData, size_t cbExternalData, cose_errback * perr)
{
if (!IsValidEnvelopedHandle(hcose)) {
if (perr != NULL) perr->err = COSE_ERR_INVALID_PARAMETER;
return false;
}
return _COSE_SetExternal(&((COSE_Enveloped *)hcose)->m_message, pbExternalData, cbExternalData, perr);
}
bool _COSE_Enveloped_SetContent(COSE_Enveloped * cose, const byte * rgb, size_t cb, cose_errback * perror)
{
byte * pb;
cose->pbContent = pb = (byte *)COSE_CALLOC(cb, 1, &cose->m_message.m_allocContext);
if (cose->pbContent == NULL) {
if (perror != NULL) perror->err = COSE_ERR_INVALID_PARAMETER;
return false;
}
memcpy(pb, rgb, cb);
cose->cbContent = cb;
return true;
}
cn_cbor * COSE_Enveloped_map_get_int(HCOSE_ENVELOPED h, int key, int flags, cose_errback * perror)
{
if (!IsValidEnvelopedHandle(h)) {
if (perror != NULL) perror->err = COSE_ERR_INVALID_PARAMETER;
return NULL;
}
return _COSE_map_get_int(&((COSE_Enveloped *)h)->m_message, key, flags, perror);
}
bool COSE_Enveloped_map_put_int(HCOSE_ENVELOPED h, int key, cn_cbor * value, int flags, cose_errback * perror)
{
if (!IsValidEnvelopedHandle(h) || (value == NULL)) {
if (perror != NULL) perror->err = COSE_ERR_INVALID_PARAMETER;
return false;
}
return _COSE_map_put(&((COSE_Enveloped *)h)->m_message, key, value, flags, perror);
}
bool COSE_Enveloped_AddRecipient(HCOSE_ENVELOPED hEnc, HCOSE_RECIPIENT hRecip, cose_errback * perr)
{
COSE_RecipientInfo * pRecip;
COSE_Enveloped * pEncrypt;
cn_cbor * pRecipients = NULL;
#ifdef USE_CBOR_CONTEXT
cn_cbor_context * context;
#endif
cn_cbor_errback cbor_error;
CHECK_CONDITION(IsValidEnvelopedHandle(hEnc), COSE_ERR_INVALID_PARAMETER);
CHECK_CONDITION(IsValidRecipientHandle(hRecip), COSE_ERR_INVALID_PARAMETER);
pEncrypt = (COSE_Enveloped *)hEnc;
pRecip = (COSE_RecipientInfo *)hRecip;
#ifdef USE_CBOR_CONTEXT
context = &pEncrypt->m_message.m_allocContext;
#endif // USE_CBOR_CONTEXT
pRecip->m_recipientNext = pEncrypt->m_recipientFirst;
pEncrypt->m_recipientFirst = pRecip;
pRecipients = _COSE_arrayget_int(&pEncrypt->m_message, INDEX_RECIPIENTS);
if (pRecipients == NULL) {
pRecipients = cn_cbor_array_create(CBOR_CONTEXT_PARAM_COMMA &cbor_error);
CHECK_CONDITION_CBOR(pRecipients != NULL, cbor_error);
if (!_COSE_array_replace(&pEncrypt->m_message, pRecipients, INDEX_RECIPIENTS, CBOR_CONTEXT_PARAM_COMMA &cbor_error)) {
CN_CBOR_FREE(pRecipients, context);
if (perr != NULL) perr->err = _MapFromCBOR(cbor_error);
goto errorReturn;
}
}
CHECK_CONDITION_CBOR(cn_cbor_array_append(pRecipients, pRecip->m_encrypt.m_message.m_cbor, &cbor_error), cbor_error);
pRecip->m_encrypt.m_message.m_refCount++;
return true;
errorReturn:
return false;
}
bool _COSE_Encrypt_Build_AAD(COSE * pMessage, byte ** ppbAAD, size_t * pcbAAD, const char * szContext, cose_errback * perr)
{
#ifdef USE_CBOR_CONTEXT
cn_cbor_context * context = &pMessage->m_allocContext;
#endif
cn_cbor_errback cbor_error;
byte * pbAuthData;
size_t cbAuthData;
cn_cbor * pAuthData;
cn_cbor * pItem;
cn_cbor * ptmp = NULL;
// Build authenticated data
pbAuthData = NULL;
pAuthData = cn_cbor_array_create(CBOR_CONTEXT_PARAM_COMMA &cbor_error);
CHECK_CONDITION_CBOR(pAuthData != NULL, cbor_error);
ptmp = cn_cbor_string_create(szContext, CBOR_CONTEXT_PARAM_COMMA &cbor_error);
CHECK_CONDITION_CBOR(ptmp != NULL, cbor_error);
CHECK_CONDITION_CBOR(cn_cbor_array_append(pAuthData, ptmp, &cbor_error), cbor_error);
ptmp = NULL;
pItem = _COSE_arrayget_int(pMessage, INDEX_PROTECTED);
CHECK_CONDITION(pItem != NULL, COSE_ERR_INVALID_PARAMETER);
if ((pItem->length == 1) && (pItem->v.bytes[0] == 0xa0)) {
ptmp = cn_cbor_data_create(NULL, 0, CBOR_CONTEXT_PARAM_COMMA &cbor_error);
}
else {
ptmp = cn_cbor_data_create(pItem->v.bytes, (int)pItem->length, CBOR_CONTEXT_PARAM_COMMA &cbor_error);
}
CHECK_CONDITION_CBOR(ptmp != NULL, cbor_error);
CHECK_CONDITION_CBOR(cn_cbor_array_append(pAuthData, ptmp, &cbor_error), cbor_error);
ptmp = NULL;
ptmp = cn_cbor_data_create(pMessage->m_pbExternal, (int) pMessage->m_cbExternal, CBOR_CONTEXT_PARAM_COMMA &cbor_error);
CHECK_CONDITION_CBOR(ptmp != NULL, cbor_error);
CHECK_CONDITION_CBOR(cn_cbor_array_append(pAuthData, ptmp, &cbor_error), cbor_error);
ptmp = NULL;
cbAuthData = cn_cbor_encoder_write(RgbDontUse, 0, sizeof(RgbDontUse), pAuthData);
pbAuthData = (byte *)COSE_CALLOC(cbAuthData, 1, context);
CHECK_CONDITION(pbAuthData != NULL, COSE_ERR_OUT_OF_MEMORY);
CHECK_CONDITION((size_t)cn_cbor_encoder_write(pbAuthData, 0, cbAuthData, pAuthData) == cbAuthData, COSE_ERR_CBOR);
*ppbAAD = pbAuthData;
*pcbAAD = cbAuthData;
return true;
errorReturn:
if (pbAuthData != NULL) COSE_FREE(pbAuthData, context);
if (ptmp != NULL) CN_CBOR_FREE(ptmp, NULL);
if (pAuthData != NULL) CN_CBOR_FREE(pAuthData, context);
return false;
}
HCOSE_RECIPIENT COSE_Enveloped_GetRecipient(HCOSE_ENVELOPED cose, int iRecipient, cose_errback * perr)
{
int i;
COSE_RecipientInfo * p = NULL;
CHECK_CONDITION(IsValidEnvelopedHandle(cose), COSE_ERR_INVALID_PARAMETER);
p = ((COSE_Enveloped *)cose)->m_recipientFirst;
for (i = 0; i < iRecipient; i++) {
CHECK_CONDITION(p != NULL, COSE_ERR_INVALID_PARAMETER);
p = p->m_recipientNext;
}
if (p != NULL) p->m_encrypt.m_message.m_refCount++;
errorReturn:
return (HCOSE_RECIPIENT)p;
}