| version 1.33, 2001/10/04 14:34:16 |
version 1.33.2.5, 2002/10/11 14:53:06 |
|
|
| switch (k->type) { |
switch (k->type) { |
| case KEY_RSA1: |
case KEY_RSA1: |
| case KEY_RSA: |
case KEY_RSA: |
| rsa = RSA_new(); |
if ((rsa = RSA_new()) == NULL) |
| rsa->n = BN_new(); |
fatal("key_new: RSA_new failed"); |
| rsa->e = BN_new(); |
if ((rsa->n = BN_new()) == NULL) |
| |
fatal("key_new: BN_new failed"); |
| |
if ((rsa->e = BN_new()) == NULL) |
| |
fatal("key_new: BN_new failed"); |
| k->rsa = rsa; |
k->rsa = rsa; |
| break; |
break; |
| case KEY_DSA: |
case KEY_DSA: |
| dsa = DSA_new(); |
if ((dsa = DSA_new()) == NULL) |
| dsa->p = BN_new(); |
fatal("key_new: DSA_new failed"); |
| dsa->q = BN_new(); |
if ((dsa->p = BN_new()) == NULL) |
| dsa->g = BN_new(); |
fatal("key_new: BN_new failed"); |
| dsa->pub_key = BN_new(); |
if ((dsa->q = BN_new()) == NULL) |
| |
fatal("key_new: BN_new failed"); |
| |
if ((dsa->g = BN_new()) == NULL) |
| |
fatal("key_new: BN_new failed"); |
| |
if ((dsa->pub_key = BN_new()) == NULL) |
| |
fatal("key_new: BN_new failed"); |
| k->dsa = dsa; |
k->dsa = dsa; |
| break; |
break; |
| case KEY_UNSPEC: |
case KEY_UNSPEC: |
|
|
| } |
} |
| return k; |
return k; |
| } |
} |
| |
|
| Key * |
Key * |
| key_new_private(int type) |
key_new_private(int type) |
| { |
{ |
|
|
| switch (k->type) { |
switch (k->type) { |
| case KEY_RSA1: |
case KEY_RSA1: |
| case KEY_RSA: |
case KEY_RSA: |
| k->rsa->d = BN_new(); |
if ((k->rsa->d = BN_new()) == NULL) |
| k->rsa->iqmp = BN_new(); |
fatal("key_new_private: BN_new failed"); |
| k->rsa->q = BN_new(); |
if ((k->rsa->iqmp = BN_new()) == NULL) |
| k->rsa->p = BN_new(); |
fatal("key_new_private: BN_new failed"); |
| k->rsa->dmq1 = BN_new(); |
if ((k->rsa->q = BN_new()) == NULL) |
| k->rsa->dmp1 = BN_new(); |
fatal("key_new_private: BN_new failed"); |
| |
if ((k->rsa->p = BN_new()) == NULL) |
| |
fatal("key_new_private: BN_new failed"); |
| |
if ((k->rsa->dmq1 = BN_new()) == NULL) |
| |
fatal("key_new_private: BN_new failed"); |
| |
if ((k->rsa->dmp1 = BN_new()) == NULL) |
| |
fatal("key_new_private: BN_new failed"); |
| break; |
break; |
| case KEY_DSA: |
case KEY_DSA: |
| k->dsa->priv_key = BN_new(); |
if ((k->dsa->priv_key = BN_new()) == NULL) |
| |
fatal("key_new_private: BN_new failed"); |
| break; |
break; |
| case KEY_UNSPEC: |
case KEY_UNSPEC: |
| break; |
break; |
|
|
| } |
} |
| return k; |
return k; |
| } |
} |
| |
|
| void |
void |
| key_free(Key *k) |
key_free(Key *k) |
| { |
{ |
|
|
| return 0; |
return 0; |
| } |
} |
| |
|
| static u_char* |
static u_char * |
| key_fingerprint_raw(Key *k, enum fp_type dgst_type, size_t *dgst_raw_length) |
key_fingerprint_raw(Key *k, enum fp_type dgst_type, u_int *dgst_raw_length) |
| { |
{ |
| EVP_MD *md = NULL; |
const EVP_MD *md = NULL; |
| EVP_MD_CTX ctx; |
EVP_MD_CTX ctx; |
| u_char *blob = NULL; |
u_char *blob = NULL; |
| u_char *retval = NULL; |
u_char *retval = NULL; |
| int len = 0; |
u_int len = 0; |
| int nlen, elen; |
int nlen, elen; |
| |
|
| *dgst_raw_length = 0; |
*dgst_raw_length = 0; |
|
|
| retval = xmalloc(EVP_MAX_MD_SIZE); |
retval = xmalloc(EVP_MAX_MD_SIZE); |
| EVP_DigestInit(&ctx, md); |
EVP_DigestInit(&ctx, md); |
| EVP_DigestUpdate(&ctx, blob, len); |
EVP_DigestUpdate(&ctx, blob, len); |
| EVP_DigestFinal(&ctx, retval, NULL); |
EVP_DigestFinal(&ctx, retval, dgst_raw_length); |
| *dgst_raw_length = md->md_size; |
|
| memset(blob, 0, len); |
memset(blob, 0, len); |
| xfree(blob); |
xfree(blob); |
| } else { |
} else { |
|
|
| return retval; |
return retval; |
| } |
} |
| |
|
| static char* |
static char * |
| key_fingerprint_hex(u_char* dgst_raw, size_t dgst_raw_len) |
key_fingerprint_hex(u_char *dgst_raw, u_int dgst_raw_len) |
| { |
{ |
| char *retval; |
char *retval; |
| int i; |
int i; |
| |
|
| retval = xmalloc(dgst_raw_len * 3 + 1); |
retval = xmalloc(dgst_raw_len * 3 + 1); |
| retval[0] = '\0'; |
retval[0] = '\0'; |
| for(i = 0; i < dgst_raw_len; i++) { |
for (i = 0; i < dgst_raw_len; i++) { |
| char hex[4]; |
char hex[4]; |
| snprintf(hex, sizeof(hex), "%02x:", dgst_raw[i]); |
snprintf(hex, sizeof(hex), "%02x:", dgst_raw[i]); |
| strlcat(retval, hex, dgst_raw_len * 3); |
strlcat(retval, hex, dgst_raw_len * 3); |
|
|
| return retval; |
return retval; |
| } |
} |
| |
|
| static char* |
static char * |
| key_fingerprint_bubblebabble(u_char* dgst_raw, size_t dgst_raw_len) |
key_fingerprint_bubblebabble(u_char *dgst_raw, u_int dgst_raw_len) |
| { |
{ |
| char vowels[] = { 'a', 'e', 'i', 'o', 'u', 'y' }; |
char vowels[] = { 'a', 'e', 'i', 'o', 'u', 'y' }; |
| char consonants[] = { 'b', 'c', 'd', 'f', 'g', 'h', 'k', 'l', 'm', |
char consonants[] = { 'b', 'c', 'd', 'f', 'g', 'h', 'k', 'l', 'm', |
|
|
| return retval; |
return retval; |
| } |
} |
| |
|
| char* |
char * |
| key_fingerprint(Key *k, enum fp_type dgst_type, enum fp_rep dgst_rep) |
key_fingerprint(Key *k, enum fp_type dgst_type, enum fp_rep dgst_rep) |
| { |
{ |
| char *retval = NULL; |
char *retval = NULL; |
| u_char *dgst_raw; |
u_char *dgst_raw; |
| size_t dgst_raw_len; |
u_int dgst_raw_len; |
| |
|
| dgst_raw = key_fingerprint_raw(k, dgst_type, &dgst_raw_len); |
dgst_raw = key_fingerprint_raw(k, dgst_type, &dgst_raw_len); |
| if (!dgst_raw) |
if (!dgst_raw) |
| fatal("key_fingerprint: null from key_fingerprint_raw()"); |
fatal("key_fingerprint: null from key_fingerprint_raw()"); |
| switch(dgst_rep) { |
switch (dgst_rep) { |
| case SSH_FP_HEX: |
case SSH_FP_HEX: |
| retval = key_fingerprint_hex(dgst_raw, dgst_raw_len); |
retval = key_fingerprint_hex(dgst_raw, dgst_raw_len); |
| break; |
break; |
|
|
| *cpp = cp; |
*cpp = cp; |
| return 1; |
return 1; |
| } |
} |
| |
|
| static int |
static int |
| write_bignum(FILE *f, BIGNUM *num) |
write_bignum(FILE *f, BIGNUM *num) |
| { |
{ |
|
|
| |
|
| cp = *cpp; |
cp = *cpp; |
| |
|
| switch(ret->type) { |
switch (ret->type) { |
| case KEY_RSA1: |
case KEY_RSA1: |
| /* Get number of bits. */ |
/* Get number of bits. */ |
| if (*cp < '0' || *cp > '9') |
if (*cp < '0' || *cp > '9') |
|
|
| n = uudecode(cp, blob, len); |
n = uudecode(cp, blob, len); |
| if (n < 0) { |
if (n < 0) { |
| error("key_read: uudecode %s failed", cp); |
error("key_read: uudecode %s failed", cp); |
| |
xfree(blob); |
| return -1; |
return -1; |
| } |
} |
| k = key_from_blob(blob, n); |
k = key_from_blob(blob, n); |
| |
xfree(blob); |
| if (k == NULL) { |
if (k == NULL) { |
| error("key_read: key_from_blob %s failed", cp); |
error("key_read: key_from_blob %s failed", cp); |
| return -1; |
return -1; |
| } |
} |
| xfree(blob); |
|
| if (k->type != type) { |
if (k->type != type) { |
| error("key_read: type mismatch: encoding error"); |
error("key_read: type mismatch: encoding error"); |
| key_free(k); |
key_free(k); |
|
|
| #endif |
#endif |
| } |
} |
| /*XXXX*/ |
/*XXXX*/ |
| |
key_free(k); |
| if (success != 1) |
if (success != 1) |
| break; |
break; |
| key_free(k); |
|
| /* advance cp: skip whitespace and data */ |
/* advance cp: skip whitespace and data */ |
| while (*cp == ' ' || *cp == '\t') |
while (*cp == ' ' || *cp == '\t') |
| cp++; |
cp++; |
|
|
| } |
} |
| return success; |
return success; |
| } |
} |
| |
|
| int |
int |
| key_write(Key *key, FILE *f) |
key_write(Key *key, FILE *f) |
| { |
{ |
| int success = 0; |
int n, success = 0; |
| u_int bits = 0; |
u_int len, bits = 0; |
| |
u_char *blob; |
| |
char *uu; |
| |
|
| if (key->type == KEY_RSA1 && key->rsa != NULL) { |
if (key->type == KEY_RSA1 && key->rsa != NULL) { |
| /* size of modulus 'n' */ |
/* size of modulus 'n' */ |
|
|
| } |
} |
| } else if ((key->type == KEY_DSA && key->dsa != NULL) || |
} else if ((key->type == KEY_DSA && key->dsa != NULL) || |
| (key->type == KEY_RSA && key->rsa != NULL)) { |
(key->type == KEY_RSA && key->rsa != NULL)) { |
| int len, n; |
|
| u_char *blob, *uu; |
|
| key_to_blob(key, &blob, &len); |
key_to_blob(key, &blob, &len); |
| uu = xmalloc(2*len); |
uu = xmalloc(2*len); |
| n = uuencode(blob, len, uu, 2*len); |
n = uuencode(blob, len, uu, 2*len); |
|
|
| } |
} |
| return success; |
return success; |
| } |
} |
| |
|
| char * |
char * |
| key_type(Key *k) |
key_type(Key *k) |
| { |
{ |
|
|
| } |
} |
| return "unknown"; |
return "unknown"; |
| } |
} |
| |
|
| char * |
char * |
| key_ssh_name(Key *k) |
key_ssh_name(Key *k) |
| { |
{ |
|
|
| } |
} |
| return "ssh-unknown"; |
return "ssh-unknown"; |
| } |
} |
| |
|
| u_int |
u_int |
| key_size(Key *k){ |
key_size(Key *k) |
| |
{ |
| switch (k->type) { |
switch (k->type) { |
| case KEY_RSA1: |
case KEY_RSA1: |
| case KEY_RSA: |
case KEY_RSA: |
|
|
| int |
int |
| key_type_from_name(char *name) |
key_type_from_name(char *name) |
| { |
{ |
| if (strcmp(name, "rsa1") == 0){ |
if (strcmp(name, "rsa1") == 0) { |
| return KEY_RSA1; |
return KEY_RSA1; |
| } else if (strcmp(name, "rsa") == 0){ |
} else if (strcmp(name, "rsa") == 0) { |
| return KEY_RSA; |
return KEY_RSA; |
| } else if (strcmp(name, "dsa") == 0){ |
} else if (strcmp(name, "dsa") == 0) { |
| return KEY_DSA; |
return KEY_DSA; |
| } else if (strcmp(name, "ssh-rsa") == 0){ |
} else if (strcmp(name, "ssh-rsa") == 0) { |
| return KEY_RSA; |
return KEY_RSA; |
| } else if (strcmp(name, "ssh-dss") == 0){ |
} else if (strcmp(name, "ssh-dss") == 0) { |
| return KEY_DSA; |
return KEY_DSA; |
| } |
} |
| debug2("key_type_from_name: unknown key type '%s'", name); |
debug2("key_type_from_name: unknown key type '%s'", name); |
|
|
| return 0; |
return 0; |
| s = cp = xstrdup(names); |
s = cp = xstrdup(names); |
| for ((p = strsep(&cp, ",")); p && *p != '\0'; |
for ((p = strsep(&cp, ",")); p && *p != '\0'; |
| (p = strsep(&cp, ","))) { |
(p = strsep(&cp, ","))) { |
| switch (key_type_from_name(p)) { |
switch (key_type_from_name(p)) { |
| case KEY_RSA1: |
case KEY_RSA1: |
| case KEY_UNSPEC: |
case KEY_UNSPEC: |
|
|
| ktype = buffer_get_string(&b, NULL); |
ktype = buffer_get_string(&b, NULL); |
| type = key_type_from_name(ktype); |
type = key_type_from_name(ktype); |
| |
|
| switch(type){ |
switch (type) { |
| case KEY_RSA: |
case KEY_RSA: |
| key = key_new(type); |
key = key_new(type); |
| buffer_get_bignum2(&b, key->rsa->e); |
buffer_get_bignum2(&b, key->rsa->e); |
|
|
| { |
{ |
| Buffer b; |
Buffer b; |
| int len; |
int len; |
| u_char *buf; |
|
| |
|
| if (key == NULL) { |
if (key == NULL) { |
| error("key_to_blob: key == NULL"); |
error("key_to_blob: key == NULL"); |
| return 0; |
return 0; |
| } |
} |
| buffer_init(&b); |
buffer_init(&b); |
| switch(key->type){ |
switch (key->type) { |
| case KEY_DSA: |
case KEY_DSA: |
| buffer_put_cstring(&b, key_ssh_name(key)); |
buffer_put_cstring(&b, key_ssh_name(key)); |
| buffer_put_bignum2(&b, key->dsa->p); |
buffer_put_bignum2(&b, key->dsa->p); |
|
|
| return 0; |
return 0; |
| } |
} |
| len = buffer_len(&b); |
len = buffer_len(&b); |
| buf = xmalloc(len); |
|
| memcpy(buf, buffer_ptr(&b), len); |
|
| memset(buffer_ptr(&b), 0, len); |
|
| buffer_free(&b); |
|
| if (lenp != NULL) |
if (lenp != NULL) |
| *lenp = len; |
*lenp = len; |
| if (blobp != NULL) |
if (blobp != NULL) { |
| *blobp = buf; |
*blobp = xmalloc(len); |
| |
memcpy(*blobp, buffer_ptr(&b), len); |
| |
} |
| |
memset(buffer_ptr(&b), 0, len); |
| |
buffer_free(&b); |
| return len; |
return len; |
| } |
} |
| |
|
| int |
int |
| key_sign( |
key_sign( |
| Key *key, |
Key *key, |
| u_char **sigp, int *lenp, |
u_char **sigp, u_int *lenp, |
| u_char *data, int datalen) |
u_char *data, u_int datalen) |
| { |
{ |
| switch(key->type){ |
switch (key->type) { |
| case KEY_DSA: |
case KEY_DSA: |
| return ssh_dss_sign(key, sigp, lenp, data, datalen); |
return ssh_dss_sign(key, sigp, lenp, data, datalen); |
| break; |
break; |
|
|
| } |
} |
| } |
} |
| |
|
| |
/* |
| |
* key_verify returns 1 for a correct signature, 0 for an incorrect signature |
| |
* and -1 on error. |
| |
*/ |
| int |
int |
| key_verify( |
key_verify( |
| Key *key, |
Key *key, |
| u_char *signature, int signaturelen, |
u_char *signature, u_int signaturelen, |
| u_char *data, int datalen) |
u_char *data, u_int datalen) |
| { |
{ |
| if (signaturelen == 0) |
if (signaturelen == 0) |
| return -1; |
return -1; |
| |
|
| switch(key->type){ |
switch (key->type) { |
| case KEY_DSA: |
case KEY_DSA: |
| return ssh_dss_verify(key, signature, signaturelen, data, datalen); |
return ssh_dss_verify(key, signature, signaturelen, data, datalen); |
| break; |
break; |
|
|
| return -1; |
return -1; |
| break; |
break; |
| } |
} |
| |
} |
| |
|
| |
/* Converts a private to a public key */ |
| |
Key * |
| |
key_demote(Key *k) |
| |
{ |
| |
Key *pk; |
| |
|
| |
pk = xmalloc(sizeof(*pk)); |
| |
pk->type = k->type; |
| |
pk->flags = k->flags; |
| |
pk->dsa = NULL; |
| |
pk->rsa = NULL; |
| |
|
| |
switch (k->type) { |
| |
case KEY_RSA1: |
| |
case KEY_RSA: |
| |
if ((pk->rsa = RSA_new()) == NULL) |
| |
fatal("key_demote: RSA_new failed"); |
| |
if ((pk->rsa->e = BN_dup(k->rsa->e)) == NULL) |
| |
fatal("key_demote: BN_dup failed"); |
| |
if ((pk->rsa->n = BN_dup(k->rsa->n)) == NULL) |
| |
fatal("key_demote: BN_dup failed"); |
| |
break; |
| |
case KEY_DSA: |
| |
if ((pk->dsa = DSA_new()) == NULL) |
| |
fatal("key_demote: DSA_new failed"); |
| |
if ((pk->dsa->p = BN_dup(k->dsa->p)) == NULL) |
| |
fatal("key_demote: BN_dup failed"); |
| |
if ((pk->dsa->q = BN_dup(k->dsa->q)) == NULL) |
| |
fatal("key_demote: BN_dup failed"); |
| |
if ((pk->dsa->g = BN_dup(k->dsa->g)) == NULL) |
| |
fatal("key_demote: BN_dup failed"); |
| |
if ((pk->dsa->pub_key = BN_dup(k->dsa->pub_key)) == NULL) |
| |
fatal("key_demote: BN_dup failed"); |
| |
break; |
| |
default: |
| |
fatal("key_free: bad key type %d", k->type); |
| |
break; |
| |
} |
| |
|
| |
return (pk); |
| } |
} |
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