/* * pageant.c: cross-platform code to implement Pageant. */ #include #include #include #include "putty.h" #include "mpint.h" #include "ssh.h" #include "sshcr.h" #include "pageant.h" /* * We need this to link with the RSA code, because rsa_ssh1_encrypt() * pads its data with random bytes. Since we only use rsa_ssh1_decrypt() * and the signing functions, which are deterministic, this should * never be called. * * If it _is_ called, there is a _serious_ problem, because it * won't generate true random numbers. So we must scream, panic, * and exit immediately if that should happen. */ void random_read(void *buf, size_t size) { modalfatalbox("Internal error: attempt to use random numbers in Pageant"); } static bool pageant_local = false; /* * rsakeys stores SSH-1 RSA keys. ssh2keys stores all SSH-2 keys. */ static tree234 *rsakeys, *ssh2keys; /* * Key comparison function for the 2-3-4 tree of RSA keys. */ static int cmpkeys_rsa(void *av, void *bv) { RSAKey *a = (RSAKey *) av; RSAKey *b = (RSAKey *) bv; return ((int)mp_cmp_hs(a->modulus, b->modulus) - (int)mp_cmp_hs(b->modulus, a->modulus)); } /* * Key comparison function for looking up a blob in the 2-3-4 tree * of SSH-2 keys. */ static int cmpkeys_ssh2_asymm(void *av, void *bv) { ptrlen *ablob = (ptrlen *) av; ssh2_userkey *b = (ssh2_userkey *) bv; strbuf *bblob; int i, c; /* * Compare purely by public blob. */ bblob = strbuf_new(); ssh_key_public_blob(b->key, BinarySink_UPCAST(bblob)); c = 0; for (i = 0; i < ablob->len && i < bblob->len; i++) { unsigned char abyte = ((unsigned char *)ablob->ptr)[i]; if (abyte < bblob->u[i]) { c = -1; break; } else if (abyte > bblob->u[i]) { c = +1; break; } } if (c == 0 && i < ablob->len) c = +1; /* a is longer */ if (c == 0 && i < bblob->len) c = -1; /* a is longer */ strbuf_free(bblob); return c; } /* * Main key comparison function for the 2-3-4 tree of SSH-2 keys. */ static int cmpkeys_ssh2(void *av, void *bv) { ssh2_userkey *a = (ssh2_userkey *) av; strbuf *ablob; ptrlen apl; int toret; ablob = strbuf_new(); ssh_key_public_blob(a->key, BinarySink_UPCAST(ablob)); apl.ptr = ablob->u; apl.len = ablob->len; toret = cmpkeys_ssh2_asymm(&apl, bv); strbuf_free(ablob); return toret; } void pageant_make_keylist1(BinarySink *bs) { int i; RSAKey *key; put_uint32(bs, count234(rsakeys)); for (i = 0; NULL != (key = index234(rsakeys, i)); i++) { rsa_ssh1_public_blob(bs, key, RSA_SSH1_EXPONENT_FIRST); put_stringz(bs, key->comment); } } void pageant_make_keylist2(BinarySink *bs) { int i; ssh2_userkey *key; put_uint32(bs, count234(ssh2keys)); for (i = 0; NULL != (key = index234(ssh2keys, i)); i++) { strbuf *blob = strbuf_new(); ssh_key_public_blob(key->key, BinarySink_UPCAST(blob)); put_stringsb(bs, blob); put_stringz(bs, key->comment); } } static void plog(void *logctx, pageant_logfn_t logfn, const char *fmt, ...) #ifdef __GNUC__ __attribute__ ((format (printf, 3, 4))) #endif ; static void plog(void *logctx, pageant_logfn_t logfn, const char *fmt, ...) { /* * This is the wrapper that takes a variadic argument list and * turns it into the va_list that the log function really expects. * It's safe to call this with logfn==NULL, because we * double-check that below; but if you're going to do lots of work * before getting here (such as looping, or hashing things) then * you should probably check logfn manually before doing that. */ if (logfn) { va_list ap; va_start(ap, fmt); logfn(logctx, fmt, ap); va_end(ap); } } void pageant_handle_msg(BinarySink *bs, const void *msgdata, int msglen, void *logctx, pageant_logfn_t logfn) { BinarySource msg[1]; int type; BinarySource_BARE_INIT(msg, msgdata, msglen); type = get_byte(msg); if (get_err(msg)) { pageant_failure_msg(bs, "message contained no type code", logctx, logfn); return; } switch (type) { case SSH1_AGENTC_REQUEST_RSA_IDENTITIES: /* * Reply with SSH1_AGENT_RSA_IDENTITIES_ANSWER. */ { plog(logctx, logfn, "request: SSH1_AGENTC_REQUEST_RSA_IDENTITIES"); put_byte(bs, SSH1_AGENT_RSA_IDENTITIES_ANSWER); pageant_make_keylist1(bs); plog(logctx, logfn, "reply: SSH1_AGENT_RSA_IDENTITIES_ANSWER"); if (logfn) { /* skip this loop if not logging */ int i; RSAKey *rkey; for (i = 0; NULL != (rkey = pageant_nth_ssh1_key(i)); i++) { char *fingerprint = rsa_ssh1_fingerprint(rkey); plog(logctx, logfn, "returned key: %s", fingerprint); sfree(fingerprint); } } } break; case SSH2_AGENTC_REQUEST_IDENTITIES: /* * Reply with SSH2_AGENT_IDENTITIES_ANSWER. */ { plog(logctx, logfn, "request: SSH2_AGENTC_REQUEST_IDENTITIES"); put_byte(bs, SSH2_AGENT_IDENTITIES_ANSWER); pageant_make_keylist2(bs); plog(logctx, logfn, "reply: SSH2_AGENT_IDENTITIES_ANSWER"); if (logfn) { /* skip this loop if not logging */ int i; ssh2_userkey *skey; for (i = 0; NULL != (skey = pageant_nth_ssh2_key(i)); i++) { char *fingerprint = ssh2_fingerprint(skey->key); plog(logctx, logfn, "returned key: %s %s", fingerprint, skey->comment); sfree(fingerprint); } } } break; case SSH1_AGENTC_RSA_CHALLENGE: /* * Reply with either SSH1_AGENT_RSA_RESPONSE or * SSH_AGENT_FAILURE, depending on whether we have that key * or not. */ { RSAKey reqkey, *key; mp_int *challenge, *response; ptrlen session_id; unsigned response_type; unsigned char response_md5[16]; int i; plog(logctx, logfn, "request: SSH1_AGENTC_RSA_CHALLENGE"); response = NULL; memset(&reqkey, 0, sizeof(reqkey)); get_rsa_ssh1_pub(msg, &reqkey, RSA_SSH1_EXPONENT_FIRST); challenge = get_mp_ssh1(msg); session_id = get_data(msg, 16); response_type = get_uint32(msg); if (get_err(msg)) { pageant_failure_msg(bs, "unable to decode request", logctx, logfn); goto challenge1_cleanup; } if (response_type != 1) { pageant_failure_msg( bs, "response type other than 1 not supported", logctx, logfn); goto challenge1_cleanup; } if (logfn) { char *fingerprint; reqkey.comment = NULL; fingerprint = rsa_ssh1_fingerprint(&reqkey); plog(logctx, logfn, "requested key: %s", fingerprint); sfree(fingerprint); } if ((key = find234(rsakeys, &reqkey, NULL)) == NULL) { pageant_failure_msg(bs, "key not found", logctx, logfn); goto challenge1_cleanup; } response = rsa_ssh1_decrypt(challenge, key); { ssh_hash *h = ssh_hash_new(&ssh_md5); for (i = 0; i < 32; i++) put_byte(h, mp_get_byte(response, 31 - i)); put_datapl(h, session_id); ssh_hash_final(h, response_md5); } put_byte(bs, SSH1_AGENT_RSA_RESPONSE); put_data(bs, response_md5, 16); plog(logctx, logfn, "reply: SSH1_AGENT_RSA_RESPONSE"); challenge1_cleanup: if (response) mp_free(response); mp_free(challenge); freersakey(&reqkey); } break; case SSH2_AGENTC_SIGN_REQUEST: /* * Reply with either SSH2_AGENT_SIGN_RESPONSE or * SSH_AGENT_FAILURE, depending on whether we have that key * or not. */ { ssh2_userkey *key; ptrlen keyblob, sigdata; strbuf *signature; uint32_t flags, supported_flags; plog(logctx, logfn, "request: SSH2_AGENTC_SIGN_REQUEST"); keyblob = get_string(msg); sigdata = get_string(msg); if (get_err(msg)) { pageant_failure_msg(bs, "unable to decode request", logctx, logfn); return; } /* * Later versions of the agent protocol added a flags word * on the end of the sign request. That hasn't always been * there, so we don't complain if we don't find it. * * get_uint32 will default to returning zero if no data is * available. */ bool have_flags = false; flags = get_uint32(msg); if (!get_err(msg)) have_flags = true; if (logfn) { char *fingerprint = ssh2_fingerprint_blob(keyblob); plog(logctx, logfn, "requested key: %s", fingerprint); sfree(fingerprint); } key = find234(ssh2keys, &keyblob, cmpkeys_ssh2_asymm); if (!key) { pageant_failure_msg(bs, "key not found", logctx, logfn); return; } if (have_flags) plog(logctx, logfn, "signature flags = 0x%08"PRIx32, flags); else plog(logctx, logfn, "no signature flags"); supported_flags = ssh_key_alg(key->key)->supported_flags; if (flags & ~supported_flags) { /* * We MUST reject any message containing flags we * don't understand. */ char *msg = dupprintf( "unsupported flag bits 0x%08"PRIx32, flags & ~supported_flags); pageant_failure_msg(bs, msg, logctx, logfn); sfree(msg); return; } char *invalid = ssh_key_invalid(key->key, flags); if (invalid) { char *msg = dupprintf("key invalid: %s", invalid); pageant_failure_msg(bs, msg, logctx, logfn); sfree(msg); sfree(invalid); return; } signature = strbuf_new(); ssh_key_sign(key->key, sigdata, flags, BinarySink_UPCAST(signature)); put_byte(bs, SSH2_AGENT_SIGN_RESPONSE); put_stringsb(bs, signature); plog(logctx, logfn, "reply: SSH2_AGENT_SIGN_RESPONSE"); } break; case SSH1_AGENTC_ADD_RSA_IDENTITY: /* * Add to the list and return SSH_AGENT_SUCCESS, or * SSH_AGENT_FAILURE if the key was malformed. */ { RSAKey *key; plog(logctx, logfn, "request: SSH1_AGENTC_ADD_RSA_IDENTITY"); key = snew(RSAKey); memset(key, 0, sizeof(RSAKey)); get_rsa_ssh1_pub(msg, key, RSA_SSH1_MODULUS_FIRST); get_rsa_ssh1_priv(msg, key); /* SSH-1 names p and q the other way round, i.e. we have * the inverse of p mod q and not of q mod p. We swap the * names, because our internal RSA wants iqmp. */ key->iqmp = get_mp_ssh1(msg); key->q = get_mp_ssh1(msg); key->p = get_mp_ssh1(msg); key->comment = mkstr(get_string(msg)); if (get_err(msg)) { pageant_failure_msg(bs, "unable to decode request", logctx, logfn); goto add1_cleanup; } if (!rsa_verify(key)) { pageant_failure_msg(bs, "key is invalid", logctx, logfn); goto add1_cleanup; } if (logfn) { char *fingerprint = rsa_ssh1_fingerprint(key); plog(logctx, logfn, "submitted key: %s", fingerprint); sfree(fingerprint); } if (add234(rsakeys, key) == key) { keylist_update(); put_byte(bs, SSH_AGENT_SUCCESS); plog(logctx, logfn, "reply: SSH_AGENT_SUCCESS"); key = NULL; /* don't free it in cleanup */ } else { pageant_failure_msg(bs, "key already present", logctx, logfn); } add1_cleanup: if (key) { freersakey(key); sfree(key); } } break; case SSH2_AGENTC_ADD_IDENTITY: /* * Add to the list and return SSH_AGENT_SUCCESS, or * SSH_AGENT_FAILURE if the key was malformed. */ { ssh2_userkey *key = NULL; ptrlen algpl; const ssh_keyalg *alg; plog(logctx, logfn, "request: SSH2_AGENTC_ADD_IDENTITY"); algpl = get_string(msg); key = snew(ssh2_userkey); key->key = NULL; key->comment = NULL; alg = find_pubkey_alg_len(algpl); if (!alg) { pageant_failure_msg(bs, "algorithm unknown", logctx, logfn); goto add2_cleanup; } key->key = ssh_key_new_priv_openssh(alg, msg); if (!key->key) { pageant_failure_msg(bs, "key setup failed", logctx, logfn); goto add2_cleanup; } key->comment = mkstr(get_string(msg)); if (get_err(msg)) { pageant_failure_msg(bs, "unable to decode request", logctx, logfn); goto add2_cleanup; } if (logfn) { char *fingerprint = ssh2_fingerprint(key->key); plog(logctx, logfn, "submitted key: %s %s", fingerprint, key->comment); sfree(fingerprint); } if (add234(ssh2keys, key) == key) { keylist_update(); put_byte(bs, SSH_AGENT_SUCCESS); plog(logctx, logfn, "reply: SSH_AGENT_SUCCESS"); key = NULL; /* don't clean it up */ } else { pageant_failure_msg(bs, "key already present", logctx, logfn); } add2_cleanup: if (key) { if (key->key) ssh_key_free(key->key); if (key->comment) sfree(key->comment); sfree(key); } } break; case SSH1_AGENTC_REMOVE_RSA_IDENTITY: /* * Remove from the list and return SSH_AGENT_SUCCESS, or * perhaps SSH_AGENT_FAILURE if it wasn't in the list to * start with. */ { RSAKey reqkey, *key; plog(logctx, logfn, "request: SSH1_AGENTC_REMOVE_RSA_IDENTITY"); memset(&reqkey, 0, sizeof(reqkey)); get_rsa_ssh1_pub(msg, &reqkey, RSA_SSH1_EXPONENT_FIRST); if (get_err(msg)) { pageant_failure_msg(bs, "unable to decode request", logctx, logfn); freersakey(&reqkey); return; } if (logfn) { char *fingerprint; reqkey.comment = NULL; fingerprint = rsa_ssh1_fingerprint(&reqkey); plog(logctx, logfn, "unwanted key: %s", fingerprint); sfree(fingerprint); } key = find234(rsakeys, &reqkey, NULL); freersakey(&reqkey); if (key) { plog(logctx, logfn, "found with comment: %s", key->comment); del234(rsakeys, key); keylist_update(); freersakey(key); sfree(key); put_byte(bs, SSH_AGENT_SUCCESS); plog(logctx, logfn, "reply: SSH_AGENT_SUCCESS"); } else { pageant_failure_msg(bs, "key not found", logctx, logfn); } } break; case SSH2_AGENTC_REMOVE_IDENTITY: /* * Remove from the list and return SSH_AGENT_SUCCESS, or * perhaps SSH_AGENT_FAILURE if it wasn't in the list to * start with. */ { ssh2_userkey *key; ptrlen blob; plog(logctx, logfn, "request: SSH2_AGENTC_REMOVE_IDENTITY"); blob = get_string(msg); if (get_err(msg)) { pageant_failure_msg(bs, "unable to decode request", logctx, logfn); return; } if (logfn) { char *fingerprint = ssh2_fingerprint_blob(blob); plog(logctx, logfn, "unwanted key: %s", fingerprint); sfree(fingerprint); } key = find234(ssh2keys, &blob, cmpkeys_ssh2_asymm); if (!key) { pageant_failure_msg(bs, "key not found", logctx, logfn); return; } plog(logctx, logfn, "found with comment: %s", key->comment); del234(ssh2keys, key); keylist_update(); ssh_key_free(key->key); sfree(key->comment); sfree(key); put_byte(bs, SSH_AGENT_SUCCESS); plog(logctx, logfn, "reply: SSH_AGENT_SUCCESS"); } break; case SSH1_AGENTC_REMOVE_ALL_RSA_IDENTITIES: /* * Remove all SSH-1 keys. Always returns success. */ { RSAKey *rkey; plog(logctx, logfn, "request:" " SSH1_AGENTC_REMOVE_ALL_RSA_IDENTITIES"); while ((rkey = index234(rsakeys, 0)) != NULL) { del234(rsakeys, rkey); freersakey(rkey); sfree(rkey); } keylist_update(); put_byte(bs, SSH_AGENT_SUCCESS); plog(logctx, logfn, "reply: SSH_AGENT_SUCCESS"); } break; case SSH2_AGENTC_REMOVE_ALL_IDENTITIES: /* * Remove all SSH-2 keys. Always returns success. */ { ssh2_userkey *skey; plog(logctx, logfn, "request: SSH2_AGENTC_REMOVE_ALL_IDENTITIES"); while ((skey = index234(ssh2keys, 0)) != NULL) { del234(ssh2keys, skey); ssh_key_free(skey->key); sfree(skey->comment); sfree(skey); } keylist_update(); put_byte(bs, SSH_AGENT_SUCCESS); plog(logctx, logfn, "reply: SSH_AGENT_SUCCESS"); } break; default: plog(logctx, logfn, "request: unknown message type %d", type); pageant_failure_msg(bs, "unrecognised message", logctx, logfn); break; } } void pageant_failure_msg(BinarySink *bs, const char *log_reason, void *logctx, pageant_logfn_t logfn) { put_byte(bs, SSH_AGENT_FAILURE); plog(logctx, logfn, "reply: SSH_AGENT_FAILURE (%s)", log_reason); } void pageant_init(void) { pageant_local = true; rsakeys = newtree234(cmpkeys_rsa); ssh2keys = newtree234(cmpkeys_ssh2); } RSAKey *pageant_nth_ssh1_key(int i) { return index234(rsakeys, i); } ssh2_userkey *pageant_nth_ssh2_key(int i) { return index234(ssh2keys, i); } int pageant_count_ssh1_keys(void) { return count234(rsakeys); } int pageant_count_ssh2_keys(void) { return count234(ssh2keys); } bool pageant_add_ssh1_key(RSAKey *rkey) { return add234(rsakeys, rkey) == rkey; } bool pageant_add_ssh2_key(ssh2_userkey *skey) { return add234(ssh2keys, skey) == skey; } bool pageant_delete_ssh1_key(RSAKey *rkey) { RSAKey *deleted = del234(rsakeys, rkey); if (!deleted) return false; assert(deleted == rkey); return true; } bool pageant_delete_ssh2_key(ssh2_userkey *skey) { ssh2_userkey *deleted = del234(ssh2keys, skey); if (!deleted) return false; assert(deleted == skey); return true; } /* ---------------------------------------------------------------------- * The agent plug. */ /* * An extra coroutine macro, specific to this code which is consuming * 'const char *data'. */ #define crGetChar(c) do \ { \ while (len == 0) { \ *crLine =__LINE__; return; case __LINE__:; \ } \ len--; \ (c) = (unsigned char)*data++; \ } while (0) struct pageant_conn_state { Socket *connsock; void *logctx; pageant_logfn_t logfn; unsigned char lenbuf[4], pktbuf[AGENT_MAX_MSGLEN]; unsigned len, got; bool real_packet; int crLine; /* for coroutine in pageant_conn_receive */ Plug plug; }; static void pageant_conn_closing(Plug *plug, const char *error_msg, int error_code, bool calling_back) { struct pageant_conn_state *pc = container_of( plug, struct pageant_conn_state, plug); if (error_msg) plog(pc->logctx, pc->logfn, "%p: error: %s", pc, error_msg); else plog(pc->logctx, pc->logfn, "%p: connection closed", pc); sk_close(pc->connsock); sfree(pc); } static void pageant_conn_sent(Plug *plug, size_t bufsize) { /* struct pageant_conn_state *pc = container_of( plug, struct pageant_conn_state, plug); */ /* * We do nothing here, because we expect that there won't be a * need to throttle and unthrottle the connection to an agent - * clients will typically not send many requests, and will wait * until they receive each reply before sending a new request. */ } static void pageant_conn_log(void *logctx, const char *fmt, va_list ap) { /* Wrapper on pc->logfn that prefixes the connection identifier */ struct pageant_conn_state *pc = (struct pageant_conn_state *)logctx; char *formatted = dupvprintf(fmt, ap); plog(pc->logctx, pc->logfn, "%p: %s", pc, formatted); sfree(formatted); } static void pageant_conn_receive( Plug *plug, int urgent, const char *data, size_t len) { struct pageant_conn_state *pc = container_of( plug, struct pageant_conn_state, plug); char c; crBegin(pc->crLine); while (len > 0) { pc->got = 0; while (pc->got < 4) { crGetChar(c); pc->lenbuf[pc->got++] = c; } pc->len = GET_32BIT_MSB_FIRST(pc->lenbuf); pc->got = 0; pc->real_packet = (pc->len < AGENT_MAX_MSGLEN-4); while (pc->got < pc->len) { crGetChar(c); if (pc->real_packet) pc->pktbuf[pc->got] = c; pc->got++; } { strbuf *reply = strbuf_new(); put_uint32(reply, 0); /* length field to fill in later */ if (pc->real_packet) { pageant_handle_msg(BinarySink_UPCAST(reply), pc->pktbuf, pc->len, pc, pc->logfn ? pageant_conn_log : NULL); } else { plog(pc->logctx, pc->logfn, "%p: overlong message (%u)", pc, pc->len); pageant_failure_msg(BinarySink_UPCAST(reply), "message too long", pc, pc->logfn ? pageant_conn_log : NULL); } PUT_32BIT_MSB_FIRST(reply->s, reply->len - 4); sk_write(pc->connsock, reply->s, reply->len); strbuf_free(reply); } } crFinishV; } struct pageant_listen_state { Socket *listensock; void *logctx; pageant_logfn_t logfn; Plug plug; }; static void pageant_listen_closing(Plug *plug, const char *error_msg, int error_code, bool calling_back) { struct pageant_listen_state *pl = container_of( plug, struct pageant_listen_state, plug); if (error_msg) plog(pl->logctx, pl->logfn, "listening socket: error: %s", error_msg); sk_close(pl->listensock); pl->listensock = NULL; } static const PlugVtable pageant_connection_plugvt = { NULL, /* no log function, because that's for outgoing connections */ pageant_conn_closing, pageant_conn_receive, pageant_conn_sent, NULL /* no accepting function, because we've already done it */ }; static int pageant_listen_accepting(Plug *plug, accept_fn_t constructor, accept_ctx_t ctx) { struct pageant_listen_state *pl = container_of( plug, struct pageant_listen_state, plug); struct pageant_conn_state *pc; const char *err; SocketPeerInfo *peerinfo; pc = snew(struct pageant_conn_state); pc->plug.vt = &pageant_connection_plugvt; pc->logfn = pl->logfn; pc->logctx = pl->logctx; pc->crLine = 0; pc->connsock = constructor(ctx, &pc->plug); if ((err = sk_socket_error(pc->connsock)) != NULL) { sk_close(pc->connsock); sfree(pc); return 1; } sk_set_frozen(pc->connsock, 0); peerinfo = sk_peer_info(pc->connsock); if (peerinfo && peerinfo->log_text) { plog(pl->logctx, pl->logfn, "%p: new connection from %s", pc, peerinfo->log_text); } else { plog(pl->logctx, pl->logfn, "%p: new connection", pc); } sk_free_peer_info(peerinfo); return 0; } static const PlugVtable pageant_listener_plugvt = { NULL, /* no log function, because that's for outgoing connections */ pageant_listen_closing, NULL, /* no receive function on a listening socket */ NULL, /* no sent function on a listening socket */ pageant_listen_accepting }; struct pageant_listen_state *pageant_listener_new(Plug **plug) { struct pageant_listen_state *pl = snew(struct pageant_listen_state); pl->plug.vt = &pageant_listener_plugvt; pl->logctx = NULL; pl->logfn = NULL; pl->listensock = NULL; *plug = &pl->plug; return pl; } void pageant_listener_got_socket(struct pageant_listen_state *pl, Socket *sock) { pl->listensock = sock; } void pageant_listener_set_logfn(struct pageant_listen_state *pl, void *logctx, pageant_logfn_t logfn) { pl->logctx = logctx; pl->logfn = logfn; } void pageant_listener_free(struct pageant_listen_state *pl) { if (pl->listensock) sk_close(pl->listensock); sfree(pl); } /* ---------------------------------------------------------------------- * Code to perform agent operations either as a client, or within the * same process as the running agent. */ static tree234 *passphrases = NULL; /* * After processing a list of filenames, we want to forget the * passphrases. */ void pageant_forget_passphrases(void) { if (!passphrases) /* in case we never set it up at all */ return; while (count234(passphrases) > 0) { char *pp = index234(passphrases, 0); smemclr(pp, strlen(pp)); delpos234(passphrases, 0); free(pp); } } void *pageant_get_keylist1(int *length) { void *ret; if (!pageant_local) { strbuf *request; unsigned char *response; void *vresponse; int resplen; request = strbuf_new_for_agent_query(); put_byte(request, SSH1_AGENTC_REQUEST_RSA_IDENTITIES); agent_query_synchronous(request, &vresponse, &resplen); strbuf_free(request); response = vresponse; if (resplen < 5 || response[4] != SSH1_AGENT_RSA_IDENTITIES_ANSWER) { sfree(response); return NULL; } ret = snewn(resplen-5, unsigned char); memcpy(ret, response+5, resplen-5); sfree(response); if (length) *length = resplen-5; } else { strbuf *buf = strbuf_new(); pageant_make_keylist1(BinarySink_UPCAST(buf)); *length = buf->len; ret = strbuf_to_str(buf); } return ret; } void *pageant_get_keylist2(int *length) { void *ret; if (!pageant_local) { strbuf *request; unsigned char *response; void *vresponse; int resplen; request = strbuf_new_for_agent_query(); put_byte(request, SSH2_AGENTC_REQUEST_IDENTITIES); agent_query_synchronous(request, &vresponse, &resplen); strbuf_free(request); response = vresponse; if (resplen < 5 || response[4] != SSH2_AGENT_IDENTITIES_ANSWER) { sfree(response); return NULL; } ret = snewn(resplen-5, unsigned char); memcpy(ret, response+5, resplen-5); sfree(response); if (length) *length = resplen-5; } else { strbuf *buf = strbuf_new(); pageant_make_keylist2(BinarySink_UPCAST(buf)); *length = buf->len; ret = strbuf_to_str(buf); } return ret; } int pageant_add_keyfile(Filename *filename, const char *passphrase, char **retstr) { RSAKey *rkey = NULL; ssh2_userkey *skey = NULL; bool needs_pass; int ret; int attempts; char *comment; const char *this_passphrase; const char *error = NULL; int type; if (!passphrases) { passphrases = newtree234(NULL); } *retstr = NULL; type = key_type(filename); if (type != SSH_KEYTYPE_SSH1 && type != SSH_KEYTYPE_SSH2) { *retstr = dupprintf("Couldn't load this key (%s)", key_type_to_str(type)); return PAGEANT_ACTION_FAILURE; } /* * See if the key is already loaded (in the primary Pageant, * which may or may not be us). */ { strbuf *blob = strbuf_new(); unsigned char *keylist, *p; int i, nkeys, keylistlen; if (type == SSH_KEYTYPE_SSH1) { if (!rsa_ssh1_loadpub(filename, BinarySink_UPCAST(blob), NULL, &error)) { *retstr = dupprintf("Couldn't load private key (%s)", error); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } keylist = pageant_get_keylist1(&keylistlen); } else { /* For our purposes we want the blob prefixed with its * length, so add a placeholder here to fill in * afterwards */ put_uint32(blob, 0); if (!ssh2_userkey_loadpub(filename, NULL, BinarySink_UPCAST(blob), NULL, &error)) { *retstr = dupprintf("Couldn't load private key (%s)", error); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } PUT_32BIT_MSB_FIRST(blob->s, blob->len - 4); keylist = pageant_get_keylist2(&keylistlen); } if (keylist) { if (keylistlen < 4) { *retstr = dupstr("Received broken key list from agent"); sfree(keylist); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } nkeys = toint(GET_32BIT_MSB_FIRST(keylist)); if (nkeys < 0) { *retstr = dupstr("Received broken key list from agent"); sfree(keylist); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } p = keylist + 4; keylistlen -= 4; for (i = 0; i < nkeys; i++) { if (!memcmp(blob->s, p, blob->len)) { /* Key is already present; we can now leave. */ sfree(keylist); strbuf_free(blob); return PAGEANT_ACTION_OK; } /* Now skip over public blob */ if (type == SSH_KEYTYPE_SSH1) { int n = rsa_ssh1_public_blob_len( make_ptrlen(p, keylistlen)); if (n < 0) { *retstr = dupstr("Received broken key list from agent"); sfree(keylist); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } p += n; keylistlen -= n; } else { int n; if (keylistlen < 4) { *retstr = dupstr("Received broken key list from agent"); sfree(keylist); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } n = GET_32BIT_MSB_FIRST(p); p += 4; keylistlen -= 4; if (n < 0 || n > keylistlen) { *retstr = dupstr("Received broken key list from agent"); sfree(keylist); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } p += n; keylistlen -= n; } /* Now skip over comment field */ { int n; if (keylistlen < 4) { *retstr = dupstr("Received broken key list from agent"); sfree(keylist); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } n = GET_32BIT_MSB_FIRST(p); p += 4; keylistlen -= 4; if (n < 0 || n > keylistlen) { *retstr = dupstr("Received broken key list from agent"); sfree(keylist); strbuf_free(blob); return PAGEANT_ACTION_FAILURE; } p += n; keylistlen -= n; } } sfree(keylist); } strbuf_free(blob); } error = NULL; if (type == SSH_KEYTYPE_SSH1) needs_pass = rsa_ssh1_encrypted(filename, &comment); else needs_pass = ssh2_userkey_encrypted(filename, &comment); attempts = 0; if (type == SSH_KEYTYPE_SSH1) rkey = snew(RSAKey); /* * Loop round repeatedly trying to load the key, until we either * succeed, fail for some serious reason, or run out of * passphrases to try. */ while (1) { if (needs_pass) { /* * If we've been given a passphrase on input, try using * it. Otherwise, try one from our tree234 of previously * useful passphrases. */ if (passphrase) { this_passphrase = (attempts == 0 ? passphrase : NULL); } else { this_passphrase = (const char *)index234(passphrases, attempts); } if (!this_passphrase) { /* * Run out of passphrases to try. */ *retstr = comment; sfree(rkey); return PAGEANT_ACTION_NEED_PP; } } else this_passphrase = ""; if (type == SSH_KEYTYPE_SSH1) ret = rsa_ssh1_loadkey(filename, rkey, this_passphrase, &error); else { skey = ssh2_load_userkey(filename, this_passphrase, &error); if (skey == SSH2_WRONG_PASSPHRASE) ret = -1; else if (!skey) ret = 0; else ret = 1; } if (ret == 0) { /* * Failed to load the key file, for some reason other than * a bad passphrase. */ *retstr = dupstr(error); sfree(rkey); return PAGEANT_ACTION_FAILURE; } else if (ret == 1) { /* * Successfully loaded the key file. */ break; } else { /* * Passphrase wasn't right; go round again. */ attempts++; } } /* * If we get here, we've successfully loaded the key into * rkey/skey, but not yet added it to the agent. */ /* * If the key was successfully decrypted, save the passphrase for * use with other keys we try to load. */ { char *pp_copy = dupstr(this_passphrase); if (addpos234(passphrases, pp_copy, 0) != pp_copy) { /* No need; it was already there. */ smemclr(pp_copy, strlen(pp_copy)); sfree(pp_copy); } } if (comment) sfree(comment); if (type == SSH_KEYTYPE_SSH1) { if (!pageant_local) { strbuf *request; unsigned char *response; void *vresponse; int resplen; request = strbuf_new_for_agent_query(); put_byte(request, SSH1_AGENTC_ADD_RSA_IDENTITY); put_uint32(request, mp_get_nbits(rkey->modulus)); put_mp_ssh1(request, rkey->modulus); put_mp_ssh1(request, rkey->exponent); put_mp_ssh1(request, rkey->private_exponent); put_mp_ssh1(request, rkey->iqmp); put_mp_ssh1(request, rkey->q); put_mp_ssh1(request, rkey->p); put_stringz(request, rkey->comment); agent_query_synchronous(request, &vresponse, &resplen); strbuf_free(request); response = vresponse; if (resplen < 5 || response[4] != SSH_AGENT_SUCCESS) { *retstr = dupstr("The already running Pageant " "refused to add the key."); freersakey(rkey); sfree(rkey); sfree(response); return PAGEANT_ACTION_FAILURE; } freersakey(rkey); sfree(rkey); sfree(response); } else { if (!pageant_add_ssh1_key(rkey)) { freersakey(rkey); sfree(rkey); /* already present, don't waste RAM */ } } } else { if (!pageant_local) { strbuf *request; unsigned char *response; void *vresponse; int resplen; request = strbuf_new_for_agent_query(); put_byte(request, SSH2_AGENTC_ADD_IDENTITY); put_stringz(request, ssh_key_ssh_id(skey->key)); ssh_key_openssh_blob(skey->key, BinarySink_UPCAST(request)); put_stringz(request, skey->comment); agent_query_synchronous(request, &vresponse, &resplen); strbuf_free(request); response = vresponse; if (resplen < 5 || response[4] != SSH_AGENT_SUCCESS) { *retstr = dupstr("The already running Pageant " "refused to add the key."); sfree(response); return PAGEANT_ACTION_FAILURE; } sfree(response); } else { if (!pageant_add_ssh2_key(skey)) { ssh_key_free(skey->key); sfree(skey); /* already present, don't waste RAM */ } } } return PAGEANT_ACTION_OK; } int pageant_enum_keys(pageant_key_enum_fn_t callback, void *callback_ctx, char **retstr) { unsigned char *keylist; int i, nkeys, keylistlen; ptrlen comment; struct pageant_pubkey cbkey; BinarySource src[1]; keylist = pageant_get_keylist1(&keylistlen); if (!keylist) { *retstr = dupstr("Did not receive an SSH-1 key list from agent"); return PAGEANT_ACTION_FAILURE; } BinarySource_BARE_INIT(src, keylist, keylistlen); nkeys = toint(get_uint32(src)); for (i = 0; i < nkeys; i++) { RSAKey rkey; char *fingerprint; /* public blob and fingerprint */ memset(&rkey, 0, sizeof(rkey)); get_rsa_ssh1_pub(src, &rkey, RSA_SSH1_EXPONENT_FIRST); comment = get_string(src); if (get_err(src)) { *retstr = dupstr("Received broken SSH-1 key list from agent"); freersakey(&rkey); sfree(keylist); return PAGEANT_ACTION_FAILURE; } fingerprint = rsa_ssh1_fingerprint(&rkey); cbkey.blob = strbuf_new(); rsa_ssh1_public_blob(BinarySink_UPCAST(cbkey.blob), &rkey, RSA_SSH1_EXPONENT_FIRST); cbkey.comment = mkstr(comment); cbkey.ssh_version = 1; callback(callback_ctx, fingerprint, cbkey.comment, &cbkey); strbuf_free(cbkey.blob); freersakey(&rkey); sfree(cbkey.comment); sfree(fingerprint); } sfree(keylist); if (get_err(src) || get_avail(src) != 0) { *retstr = dupstr("Received broken SSH-1 key list from agent"); return PAGEANT_ACTION_FAILURE; } keylist = pageant_get_keylist2(&keylistlen); if (!keylist) { *retstr = dupstr("Did not receive an SSH-2 key list from agent"); return PAGEANT_ACTION_FAILURE; } BinarySource_BARE_INIT(src, keylist, keylistlen); nkeys = toint(get_uint32(src)); for (i = 0; i < nkeys; i++) { ptrlen pubblob; char *fingerprint; pubblob = get_string(src); comment = get_string(src); if (get_err(src)) { *retstr = dupstr("Received broken SSH-2 key list from agent"); sfree(keylist); return PAGEANT_ACTION_FAILURE; } fingerprint = ssh2_fingerprint_blob(pubblob); cbkey.blob = strbuf_new(); put_datapl(cbkey.blob, pubblob); cbkey.ssh_version = 2; cbkey.comment = mkstr(comment); callback(callback_ctx, fingerprint, cbkey.comment, &cbkey); sfree(fingerprint); sfree(cbkey.comment); } sfree(keylist); if (get_err(src) || get_avail(src) != 0) { *retstr = dupstr("Received broken SSH-2 key list from agent"); return PAGEANT_ACTION_FAILURE; } return PAGEANT_ACTION_OK; } int pageant_delete_key(struct pageant_pubkey *key, char **retstr) { strbuf *request; unsigned char *response; int resplen, ret; void *vresponse; request = strbuf_new_for_agent_query(); if (key->ssh_version == 1) { put_byte(request, SSH1_AGENTC_REMOVE_RSA_IDENTITY); put_data(request, key->blob->s, key->blob->len); } else { put_byte(request, SSH2_AGENTC_REMOVE_IDENTITY); put_string(request, key->blob->s, key->blob->len); } agent_query_synchronous(request, &vresponse, &resplen); strbuf_free(request); response = vresponse; if (resplen < 5 || response[4] != SSH_AGENT_SUCCESS) { *retstr = dupstr("Agent failed to delete key"); ret = PAGEANT_ACTION_FAILURE; } else { *retstr = NULL; ret = PAGEANT_ACTION_OK; } sfree(response); return ret; } int pageant_delete_all_keys(char **retstr) { strbuf *request; unsigned char *response; int resplen; bool success; void *vresponse; request = strbuf_new_for_agent_query(); put_byte(request, SSH2_AGENTC_REMOVE_ALL_IDENTITIES); agent_query_synchronous(request, &vresponse, &resplen); strbuf_free(request); response = vresponse; success = (resplen >= 4 && response[4] == SSH_AGENT_SUCCESS); sfree(response); if (!success) { *retstr = dupstr("Agent failed to delete SSH-2 keys"); return PAGEANT_ACTION_FAILURE; } request = strbuf_new_for_agent_query(); put_byte(request, SSH1_AGENTC_REMOVE_ALL_RSA_IDENTITIES); agent_query_synchronous(request, &vresponse, &resplen); strbuf_free(request); response = vresponse; success = (resplen >= 4 && response[4] == SSH_AGENT_SUCCESS); sfree(response); if (!success) { *retstr = dupstr("Agent failed to delete SSH-1 keys"); return PAGEANT_ACTION_FAILURE; } *retstr = NULL; return PAGEANT_ACTION_OK; } struct pageant_pubkey *pageant_pubkey_copy(struct pageant_pubkey *key) { struct pageant_pubkey *ret = snew(struct pageant_pubkey); ret->blob = strbuf_new(); put_data(ret->blob, key->blob->s, key->blob->len); ret->comment = key->comment ? dupstr(key->comment) : NULL; ret->ssh_version = key->ssh_version; return ret; } void pageant_pubkey_free(struct pageant_pubkey *key) { sfree(key->comment); strbuf_free(key->blob); sfree(key); }