static int send_pubkey_ok(const char *algo, const char *pubkey_data,
uint32_t pubkey_len) {
struct ssh2_packet *pkt;
char *buf, *ptr;
uint32_t buflen, bufsz;
int res;
/* Make sure to allocate a buffer large enough to hold the publickey
* data we're sending back.
*/
bufsz = buflen = pubkey_len + 1024;
pkt = sftp_ssh2_packet_create(sftp_pool);
buflen = bufsz;
ptr = buf = palloc(pkt->pool, bufsz);
sftp_msg_write_byte(&buf, &buflen, SFTP_SSH2_MSG_USER_AUTH_PK_OK);
sftp_msg_write_string(&buf, &buflen, algo);
sftp_msg_write_data(&buf, &buflen, pubkey_data, pubkey_len, TRUE);
pkt->payload = ptr;
pkt->payload_len = (bufsz - buflen);
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION, "sending publickey OK");
res = sftp_ssh2_packet_write(sftp_conn->wfd, pkt);
if (res < 0) {
destroy_pool(pkt->pool);
return -1;
}
destroy_pool(pkt->pool);
return 0;
}
static int write_service_accept(struct ssh2_packet *pkt, const char *service) {
unsigned char *buf, *ptr;
uint32_t buflen, bufsz = 1024;
buflen = bufsz;
ptr = buf = palloc(pkt->pool, bufsz);
sftp_msg_write_byte(&buf, &buflen, SFTP_SSH2_MSG_SERVICE_ACCEPT);
sftp_msg_write_string(&buf, &buflen, service);
pkt->payload = ptr;
pkt->payload_len = (bufsz - buflen);
return 0;
}
int sftp_auth_hostbased(struct ssh2_packet *pkt, cmd_rec *pass_cmd,
const char *orig_user, const char *user, const char *service,
unsigned char **buf, uint32_t *buflen, int *send_userauth_fail) {
struct passwd *pw;
char *hostkey_algo, *host_fqdn, *host_user, *host_user_utf8;
const char *fp = NULL;
unsigned char *hostkey_data, *signature_data;
unsigned char *buf2, *ptr2;
const unsigned char *id;
uint32_t buflen2, bufsz2, hostkey_datalen, id_len, signature_len;
enum sftp_key_type_e pubkey_type;
if (pr_cmd_dispatch_phase(pass_cmd, PRE_CMD, 0) < 0) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"authentication request for user '%s' blocked by '%s' handler",
orig_user, (char *) pass_cmd->argv[0]);
pr_cmd_dispatch_phase(pass_cmd, POST_CMD_ERR, 0);
pr_cmd_dispatch_phase(pass_cmd, LOG_CMD_ERR, 0);
*send_userauth_fail = TRUE;
errno = EPERM;
return 0;
}
hostkey_algo = sftp_msg_read_string(pkt->pool, buf, buflen);
if (hostkey_algo == NULL) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"missing required host key algorithm, rejecting request");
*send_userauth_fail = TRUE;
errno = EINVAL;
return 0;
}
hostkey_datalen = sftp_msg_read_int(pkt->pool, buf, buflen);
hostkey_data = sftp_msg_read_data(pkt->pool, buf, buflen, hostkey_datalen);
host_fqdn = sftp_msg_read_string(pkt->pool, buf, buflen);
host_user_utf8 = sftp_msg_read_string(pkt->pool, buf, buflen);
host_user = sftp_utf8_decode_str(pkt->pool, host_user_utf8);
signature_len = sftp_msg_read_int(pkt->pool, buf, buflen);
signature_data = sftp_msg_read_data(pkt->pool, buf, buflen, signature_len);
pr_trace_msg(trace_channel, 9,
"client sent '%s' host key, FQDN %s, and remote user '%s'",
hostkey_algo, host_fqdn, host_user);
if (strncmp(hostkey_algo, "ssh-rsa", 8) == 0) {
pubkey_type = SFTP_KEY_RSA;
} else if (strncmp(hostkey_algo, "ssh-dss", 8) == 0) {
pubkey_type = SFTP_KEY_DSA;
#ifdef PR_USE_OPENSSL_ECC
} else if (strncmp(hostkey_algo, "ecdsa-sha2-nistp256", 20) == 0) {
pubkey_type = SFTP_KEY_ECDSA_256;
} else if (strncmp(hostkey_algo, "ecdsa-sha2-nistp256", 20) == 0) {
pubkey_type = SFTP_KEY_ECDSA_384;
} else if (strncmp(hostkey_algo, "ecdsa-sha2-nistp256", 20) == 0) {
pubkey_type = SFTP_KEY_ECDSA_521;
#endif /* PR_USE_OPENSSL_ECC */
/* XXX Need to support X509v3 certs here */
} else {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"unsupported host key algorithm '%s' requested, rejecting request",
hostkey_algo);
*send_userauth_fail = TRUE;
errno = EINVAL;
return 0;
}
if (sftp_keys_verify_pubkey_type(pkt->pool, hostkey_data, hostkey_datalen,
pubkey_type) != TRUE) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"unable to verify that given host key matches given '%s' algorithm",
hostkey_algo);
*send_userauth_fail = TRUE;
errno = EINVAL;
return 0;
}
#ifdef OPENSSL_FIPS
if (FIPS_mode()) {
fp = sftp_keys_get_fingerprint(pkt->pool, hostkey_data, hostkey_datalen,
SFTP_KEYS_FP_DIGEST_SHA1);
if (fp != NULL) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"public key SHA1 fingerprint: %s", fp);
} else {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"error obtaining public key SHA1 fingerprint: %s", strerror(errno));
}
} else {
#endif /* OPENSSL_FIPS */
fp = sftp_keys_get_fingerprint(pkt->pool, hostkey_data, hostkey_datalen,
SFTP_KEYS_FP_DIGEST_MD5);
if (fp != NULL) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"public key MD5 fingerprint: %s", fp);
} else {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"error obtaining public key MD5 fingerprint: %s", strerror(errno));
}
#ifdef OPENSSL_FIPS
}
#endif /* OPENSSL_FIPS */
pw = pr_auth_getpwnam(pkt->pool, user);
if (pw == NULL) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"no account for user '%s' found", user);
pr_log_auth(PR_LOG_NOTICE,
"USER %s: no such user found from %s [%s] to %s:%d", user,
session.c->remote_name, pr_netaddr_get_ipstr(session.c->remote_addr),
pr_netaddr_get_ipstr(session.c->local_addr), session.c->local_port);
*send_userauth_fail = TRUE;
errno = ENOENT;
return 0;
}
/* XXX Should we check the given FQDN here against the client's actual
* DNS name and/or IP address? Or leave that up to the keystore's
* verify_host_key() function?
*/
if (sftp_blacklist_reject_key(pkt->pool, hostkey_data, hostkey_datalen)) {
*send_userauth_fail = TRUE;
errno = EACCES;
return 0;
}
/* The client signed the request as well; we need to authenticate the
* host with the given key now. If that succeeds, we use the signature to
* verify the request. And if that succeeds, then we're done authenticating.
*/
if (sftp_keystore_verify_host_key(pkt->pool, user, host_fqdn, host_user,
hostkey_data, hostkey_datalen) < 0) {
*send_userauth_fail = TRUE;
errno = EACCES;
return 0;
}
/* Make sure the signature matches as well. */
id_len = sftp_session_get_id(&id);
/* XXX Is this buffer large enough? Too large? */
bufsz2 = buflen2 = 2048;
ptr2 = buf2 = sftp_msg_getbuf(pkt->pool, bufsz2);
sftp_msg_write_data(&buf2, &buflen2, id, id_len, TRUE);
sftp_msg_write_byte(&buf2, &buflen2, SFTP_SSH2_MSG_USER_AUTH_REQUEST);
sftp_msg_write_string(&buf2, &buflen2, orig_user);
if (sftp_interop_supports_feature(SFTP_SSH2_FEAT_SERVICE_IN_HOST_SIG)) {
sftp_msg_write_string(&buf2, &buflen2, service);
} else {
sftp_msg_write_string(&buf2, &buflen2, "ssh-userauth");
}
sftp_msg_write_string(&buf2, &buflen2, "hostbased");
sftp_msg_write_string(&buf2, &buflen2, hostkey_algo);
sftp_msg_write_data(&buf2, &buflen2, hostkey_data, hostkey_datalen, TRUE);
sftp_msg_write_string(&buf2, &buflen2, host_fqdn);
sftp_msg_write_string(&buf2, &buflen2, host_user_utf8);
if (sftp_keys_verify_signed_data(pkt->pool, hostkey_algo, hostkey_data,
hostkey_datalen, signature_data, signature_len, (unsigned char *) ptr2,
(bufsz2 - buflen2)) < 0) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"failed to verify '%s' signature on hostbased auth request for "
"user '%s', host %s", hostkey_algo, orig_user, host_fqdn);
*send_userauth_fail = TRUE;
return 0;
}
/* Make sure the user is authorized to login. Normally this is checked
* as part of the password verification process, but in the case of
* hostbased authentication, there is no password to verify.
*/
if (pr_auth_authorize(pkt->pool, user) != PR_AUTH_OK) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"authentication for user '%s' failed: User not authorized", user);
pr_log_auth(PR_LOG_NOTICE, "USER %s (Login failed): User not authorized "
"for login", user);
*send_userauth_fail = TRUE;
errno = EACCES;
return 0;
}
return 1;
}
int sftp_kbdint_send_challenge(const char *user, const char *instruction,
unsigned int count, sftp_kbdint_challenge_t *challenges) {
register unsigned int i;
unsigned char *buf, *ptr;
uint32_t buflen, bufsz;
struct ssh2_packet *pkt;
int res;
if (count == 0 ||
challenges == NULL) {
errno = EINVAL;
return -1;
}
pkt = sftp_ssh2_packet_create(kbdint_pool);
/* XXX Is this large enough? Too large? */
buflen = bufsz = 3072;
buf = ptr = palloc(pkt->pool, bufsz);
/* See RFC4256, Section 3.2. */
sftp_msg_write_byte(&buf, &buflen, SFTP_SSH2_MSG_USER_AUTH_INFO_REQ);
if (user) {
sftp_msg_write_string(&buf, &buflen,
sftp_utf8_encode_str(pkt->pool, user));
} else {
/* Empty user strings are allowed. */
sftp_msg_write_string(&buf, &buflen, "");
}
if (instruction) {
sftp_msg_write_string(&buf, &buflen,
sftp_utf8_encode_str(pkt->pool, instruction));
} else {
/* Empty instruction strings are allowed. */
sftp_msg_write_string(&buf, &buflen, "");
}
/* Empty language string. */
sftp_msg_write_string(&buf, &buflen, "");
sftp_msg_write_int(&buf, &buflen, count);
for (i = 0; i < count; i++) {
sftp_msg_write_string(&buf, &buflen, challenges[i].challenge);
sftp_msg_write_bool(&buf, &buflen, challenges[i].display_response);
}
pkt->payload = ptr;
pkt->payload_len = (bufsz - buflen);
pr_trace_msg(trace_channel, 9,
"sending USER_AUTH_INFO_REQ message to client");
res = sftp_ssh2_packet_write(sftp_conn->wfd, pkt);
destroy_pool(pkt->pool);
return res;
}
int sftp_auth_publickey(struct ssh2_packet *pkt, cmd_rec *pass_cmd,
const char *orig_user, const char *user, const char *service, char **buf,
uint32_t *buflen, int *send_userauth_fail) {
int have_signature, pubkey_type;
char *pubkey_algo = NULL, *pubkey_data;
const char *fp = NULL;
uint32_t pubkey_len;
struct passwd *pw;
if (pr_cmd_dispatch_phase(pass_cmd, PRE_CMD, 0) < 0) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"authentication request for user '%s' blocked by '%s' handler",
orig_user, pass_cmd->argv[0]);
pr_cmd_dispatch_phase(pass_cmd, POST_CMD_ERR, 0);
pr_cmd_dispatch_phase(pass_cmd, LOG_CMD_ERR, 0);
*send_userauth_fail = TRUE;
errno = EPERM;
return 0;
}
have_signature = sftp_msg_read_bool(pkt->pool, buf, buflen);
if (sftp_interop_supports_feature(SFTP_SSH2_FEAT_HAVE_PUBKEY_ALGO)) {
pubkey_algo = sftp_msg_read_string(pkt->pool, buf, buflen);
}
pubkey_len = sftp_msg_read_int(pkt->pool, buf, buflen);
pubkey_data = sftp_msg_read_data(pkt->pool, buf, buflen, pubkey_len);
if (pubkey_algo == NULL) {
/* The client did not send the string identifying the public key algorithm.
* Thus we need to extract the algorithm string from the public key data.
*/
pubkey_algo = sftp_msg_read_string(pkt->pool, &pubkey_data, &pubkey_len);
}
pr_trace_msg(trace_channel, 9, "client sent '%s' public key %s",
pubkey_algo, have_signature ? "with signature" : "without signature");
if (strncmp(pubkey_algo, "ssh-rsa", 8) == 0) {
pubkey_type = EVP_PKEY_RSA;
} else if (strncmp(pubkey_algo, "ssh-dss", 8) == 0) {
pubkey_type = EVP_PKEY_DSA;
/* XXX This is where we would add support for X509 public keys, e.g.:
*
* x509v3-ssh-dss
* x509v3-ssh-rsa
* x509v3-sign (older)
*
*/
} else {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"unsupported public key algorithm '%s' requested, rejecting request",
pubkey_algo);
*send_userauth_fail = TRUE;
errno = EINVAL;
return 0;
}
if (sftp_keys_verify_pubkey_type(pkt->pool, pubkey_data, pubkey_len,
pubkey_type) != TRUE) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"unable to verify that given public key matches given '%s' algorithm",
pubkey_algo);
*send_userauth_fail = TRUE;
errno = EINVAL;
return 0;
}
#ifdef OPENSSL_FIPS
if (FIPS_mode()) {
fp = sftp_keys_get_fingerprint(pkt->pool, pubkey_data, pubkey_len,
SFTP_KEYS_FP_DIGEST_SHA1);
if (fp != NULL) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"public key SHA1 fingerprint: %s", fp);
} else {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"error obtaining public key SHA1 fingerprint: %s", strerror(errno));
}
} else {
#endif /* OPENSSL_FIPS */
fp = sftp_keys_get_fingerprint(pkt->pool, pubkey_data, pubkey_len,
SFTP_KEYS_FP_DIGEST_MD5);
if (fp != NULL) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"public key MD5 fingerprint: %s", fp);
} else {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"error obtaining public key MD5 fingerprint: %s", strerror(errno));
}
#ifdef OPENSSL_FIPS
}
#endif /* OPENSSL_FIPS */
pw = pr_auth_getpwnam(pkt->pool, user);
if (pw == NULL) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"no account for user '%s' found", user);
pr_log_auth(PR_LOG_NOTICE,
"USER %s: no such user found from %s [%s] to %s:%d", user,
session.c->remote_name, pr_netaddr_get_ipstr(session.c->remote_addr),
pr_netaddr_get_ipstr(session.c->local_addr), session.c->local_port);
*send_userauth_fail = TRUE;
errno = ENOENT;
return 0;
}
if (!have_signature) {
/* We don't perform the actual authentication just yet; we need to
* let the client know that the pubkey algorithms are acceptable.
*/
if (send_pubkey_ok(pubkey_algo, pubkey_data, pubkey_len) < 0) {
return -1;
}
return 0;
} else {
const unsigned char *id;
char *buf2, *ptr2, *signature_data;
uint32_t buflen2, bufsz2, id_len, signature_len;
/* XXX This should become a more generic "is this key data
* usable/acceptable?" check (and take the pubkey_type parameter), so that
* that is where we would check the validity/usability of an X509v3 cert
* (if a cert), or if the key is on the blacklist (if a key).
*/
if (sftp_blacklist_reject_key(pkt->pool, pubkey_data, pubkey_len)) {
*send_userauth_fail = TRUE;
errno = EPERM;
return 0;
}
signature_len = sftp_msg_read_int(pkt->pool, buf, buflen);
signature_data = sftp_msg_read_data(pkt->pool, buf, buflen, signature_len);
/* The client signed the request as well; we need to authenticate the
* user with the given pubkey now. If that succeeds, we use the
* signature to verify the request. And if that succeeds, then we're
* done authenticating.
*/
/* XXX Need to pass the pubkey_type here as well, so that the
* verification routines can handle different databases of keys/certs.
*
* For X509v3 certs, we will want a way to enforce/restrict which
* user names can be used with the provided cert. Perhaps a database
* mapping cert fingerprints to user names/UIDs? Configurable callback
* check (HOOK?), for modules to enforce.
*/
if (sftp_keystore_verify_user_key(pkt->pool, user, pubkey_data,
pubkey_len) < 0) {
*send_userauth_fail = TRUE;
return 0;
}
/* Make sure the signature matches as well. */
id_len = sftp_session_get_id(&id);
/* Make sure to allocate a buffer large enough to hold the publickey
* signature and data we want to send back.
*/
bufsz2 = buflen2 = pubkey_len + 1024;
ptr2 = buf2 = sftp_msg_getbuf(pkt->pool, bufsz2);
sftp_msg_write_data(&buf2, &buflen2, (char *) id, id_len, TRUE);
sftp_msg_write_byte(&buf2, &buflen2, SFTP_SSH2_MSG_USER_AUTH_REQUEST);
sftp_msg_write_string(&buf2, &buflen2, orig_user);
if (sftp_interop_supports_feature(SFTP_SSH2_FEAT_SERVICE_IN_PUBKEY_SIG)) {
sftp_msg_write_string(&buf2, &buflen2, service);
} else {
sftp_msg_write_string(&buf2, &buflen2, "ssh-userauth");
}
if (sftp_interop_supports_feature(SFTP_SSH2_FEAT_HAVE_PUBKEY_ALGO)) {
sftp_msg_write_string(&buf2, &buflen2, "publickey");
sftp_msg_write_bool(&buf2, &buflen2, TRUE);
sftp_msg_write_string(&buf2, &buflen2, pubkey_algo);
} else {
sftp_msg_write_bool(&buf2, &buflen2, TRUE);
}
sftp_msg_write_data(&buf2, &buflen2, pubkey_data, pubkey_len, TRUE);
if (sftp_keys_verify_signed_data(pkt->pool, pubkey_algo, pubkey_data,
pubkey_len, signature_data, signature_len, (unsigned char *) ptr2,
(bufsz2 - buflen2)) < 0) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"failed to verify '%s' signature on public key auth request for "
"user '%s'", pubkey_algo, orig_user);
*send_userauth_fail = TRUE;
return 0;
}
}
/* Make sure the user is authorized to login. Normally this is checked
* as part of the password verification process, but in the case of
* publickey authentication, there is no password to verify.
*/
if (pr_auth_authorize(pkt->pool, user) != PR_AUTH_OK) {
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"authentication for user '%s' failed: User not authorized", user);
pr_log_auth(PR_LOG_NOTICE, "USER %s (Login failed): User not authorized "
"for login", user);
*send_userauth_fail = TRUE;
errno = EACCES;
return 0;
}
return 1;
}
void sftp_disconnect_send(uint32_t reason, const char *explain,
const char *file, int lineno, const char *func) {
struct ssh2_packet *pkt;
const pr_netaddr_t *remote_addr;
const char *lang = "en-US";
unsigned char *buf, *ptr;
uint32_t buflen, bufsz;
int sockfd;
/* Send the client a DISCONNECT mesg. */
pkt = sftp_ssh2_packet_create(sftp_pool);
remote_addr = pr_netaddr_get_sess_remote_addr();
buflen = bufsz = 1024;
ptr = buf = palloc(pkt->pool, bufsz);
if (explain == NULL) {
register unsigned int i;
for (i = 0; explanations[i].explain; i++) {
if (explanations[i].code == reason) {
explain = explanations[i].explain;
lang = explanations[i].lang;
if (lang == NULL) {
lang = "en-US";
}
break;
}
}
if (explain == NULL) {
explain = "Unknown reason";
}
} else {
lang = "en-US";
}
if (strlen(func) > 0) {
pr_trace_msg(trace_channel, 9, "disconnecting (%s) [at %s:%d:%s()]",
explain, file, lineno, func);
} else {
pr_trace_msg(trace_channel, 9, "disconnecting (%s) [at %s:%d]", explain,
file, lineno);
}
sftp_msg_write_byte(&buf, &buflen, SFTP_SSH2_MSG_DISCONNECT);
sftp_msg_write_int(&buf, &buflen, reason);
sftp_msg_write_string(&buf, &buflen, explain);
sftp_msg_write_string(&buf, &buflen, lang);
pkt->payload = ptr;
pkt->payload_len = (bufsz - buflen);
(void) pr_log_writefile(sftp_logfd, MOD_SFTP_VERSION,
"disconnecting %s (%s)", pr_netaddr_get_ipstr(remote_addr), explain);
/* If we are called very early in the connection lifetime, then the
* sftp_conn variable may not have been set yet, thus the conditional here.
*/
if (sftp_conn != NULL) {
sockfd = sftp_conn->wfd;
} else {
sockfd = session.c->wfd;
}
/* Explicitly set a short poll timeout of 5 secs. */
sftp_ssh2_packet_set_poll_timeout(5);
if (sftp_ssh2_packet_write(sockfd, pkt) < 0) {
int xerrno = errno;
pr_trace_msg(trace_channel, 12,
"error writing DISCONNECT message: %s", strerror(xerrno));
}
destroy_pool(pkt->pool);
}