#ifdef HAVE_NETTLE
#include <nettle/md5.h>
+#include <nettle/ripemd160.h>
#include <nettle/sha.h>
#else
#include "md5.h"
#include "sha1.h"
#endif
+uint64_t fingerprint2keyid(struct openpgp_fingerprint *fingerprint)
+{
+ uint64_t keyid;
+ int i;
+
+ for (keyid = 0, i = 12; i < 20; i++) {
+ keyid <<= 8;
+ keyid += fingerprint->fp[i];
+ }
+
+ return keyid;
+}
+
/**
* get_keyid - Given a public key returns the keyid.
* which we've returned.
*/
onak_status_t get_fingerprint(struct openpgp_packet *packet,
- unsigned char *fingerprint,
- size_t *len)
+ struct openpgp_fingerprint *fingerprint)
{
struct sha1_ctx sha_ctx;
struct md5_ctx md5_context;
if (fingerprint == NULL)
return ONAK_E_INVALID_PARAM;
- if (len == NULL)
- return ONAK_E_INVALID_PARAM;
- *len = 0;
+ fingerprint->length = 0;
switch (packet->data[0]) {
case 2:
packet->data[11+modlen] + 7) >> 3;
md5_update(&md5_context, explen, &packet->data[12 + modlen]);
- *len = 16;
- md5_digest(&md5_context, *len, fingerprint);
+ fingerprint->length = 16;
+ md5_digest(&md5_context, fingerprint->length, fingerprint->fp);
break;
sha1_update(&sha_ctx, sizeof(c), &c);
sha1_update(&sha_ctx, packet->length,
packet->data);
- *len = 20;
- sha1_digest(&sha_ctx, *len, fingerprint);
+ fingerprint->length = 20;
+ sha1_digest(&sha_ctx, fingerprint->length, fingerprint->fp);
break;
default:
{
int offset = 0;
int i = 0;
- size_t length = 0;
- unsigned char buff[20];
+ struct openpgp_fingerprint fingerprint;
+#ifdef NETTLE_WITH_RIPEMD160
+ struct ripemd160_ctx ripemd160_context;
+ uint8_t data;
+#endif
if (packet == NULL)
return ONAK_E_INVALID_PARAM;
switch (packet->data[0]) {
case 2:
case 3:
+ /*
+ * Old versions of GnuPG would put Elgamal keys inside
+ * a V3 key structure, then generate the keyid using
+ * RIPED160.
+ */
+#ifdef NETTLE_WITH_RIPEMD160
+ if (packet->data[7] == 16) {
+ ripemd160_init(&ripemd160_context);
+ data = 0x99;
+ ripemd160_update(&ripemd160_context, 1, &data);
+ data = packet->length >> 8;
+ ripemd160_update(&ripemd160_context, 1, &data);
+ data = packet->length & 0xFF;
+ ripemd160_update(&ripemd160_context, 1, &data);
+ ripemd160_update(&ripemd160_context,
+ packet->length,
+ packet->data);
+
+ ripemd160_digest(&ripemd160_context,
+ RIPEMD160_DIGEST_SIZE,
+ fingerprint.fp);
+ fingerprint.length = RIPEMD160_DIGEST_SIZE;
+
+ *keyid = fingerprint2keyid(&fingerprint);
+
+ return ONAK_E_OK;
+ }
+#endif
+ /*
+ * Check for an RSA key; if not return an error.
+ * 1 == RSA
+ * 2 == RSA Encrypt-Only
+ * 3 == RSA Sign-Only
+ */
+ if (packet->data[7] < 1 || packet->data[7] > 3) {
+ return ONAK_E_INVALID_PKT;
+ }
+
/*
* For a type 2 or 3 key the keyid is the last 64 bits of the
* public modulus n, which is stored as an MPI from offset 8
*keyid <<= 8;
*keyid += packet->data[offset++];
}
- /*
- * Check for an RSA key; if not return an error.
- * 1 == RSA
- * 2 == RSA Encrypt-Only
- * 3 == RSA Sign-Only
- */
- if (packet->data[7] < 1 || packet->data[7] > 3) {
- return ONAK_E_INVALID_PKT;
- }
break;
case 4:
- get_fingerprint(packet, buff, &length);
-
- for (*keyid = 0, i = 12; i < 20; i++) {
- *keyid <<= 8;
- *keyid += buff[i];
- }
+ get_fingerprint(packet, &fingerprint);
+
+ *keyid = fingerprint2keyid(&fingerprint);
break;
default: