static bool internal_set_cred(struct remctl *r, gss_cred_id_t *gss_cred) { krb5_error_code code; OM_uint32 major, minor; if (r->krb_ctx == NULL) { code = krb5_init_context(&r->krb_ctx); if (code != 0) { internal_krb5_error(r, "opening ticket cache", code); return false; } } if (r->krb_ccache != NULL) krb5_cc_close(r->krb_ctx, r->krb_ccache); code = krb5_cc_resolve(r->krb_ctx, r->ccache, &r->krb_ccache); if (code != 0) { internal_krb5_error(r, "opening ticket cache", code); return false; } major = gss_krb5_import_cred(&minor, r->krb_ccache, NULL, NULL, gss_cred); if (major != GSS_S_COMPLETE) { internal_gssapi_error(r, "importing ticket cache", major, minor); return false; } return true; }
/* * Given the remctl struct, the host to connect to, the principal name (which * may be NULL to use the default), and a pointer to a gss_name_t, import that * principal into a GSS-API name. We want to use a host-based name if * possible since that will trigger domain to realm mapping and name * canonicalization if desired, but given an arbitrary Kerberos principal, we * don't know whether it's host-based or not. Therefore, if the principal was * specified explicitly, always just use it. * * Returns true on success and false on failure. */ static bool internal_import_name(struct remctl *r, const char *host, const char *principal, gss_name_t *name) { gss_buffer_desc name_buffer; char *defprinc = NULL; OM_uint32 major, minor; gss_OID oid; /* * If principal is NULL, use host@<host>. Don't use xmalloc here since it * dies on failure and that's rude for a library. */ if (principal == NULL) { if (asprintf(&defprinc, "host@%s", host) < 0) { internal_set_error(r, "cannot allocate memory: %s", strerror(errno)); return false; } principal = defprinc; } /* * Import the name. If principal was null, we use a host-based OID; * otherwise, specify that the name is a Kerberos principal. */ name_buffer.value = (char *) principal; name_buffer.length = strlen(principal) + 1; if (defprinc == NULL) oid = GSS_C_NT_USER_NAME; else oid = GSS_C_NT_HOSTBASED_SERVICE; major = gss_import_name(&minor, &name_buffer, oid, name); if (defprinc != NULL) free(defprinc); if (major != GSS_S_COMPLETE) { internal_gssapi_error(r, "parsing name", major, minor); return false; } return true; }
/* * Open a new connection to a server. Returns true on success, false on * failure. On failure, sets the error message appropriately. */ bool internal_open(struct remctl *r, const char *host, unsigned short port, const char *principal) { int status, flags; bool port_fallback = false; socket_type fd = INVALID_SOCKET; gss_buffer_desc send_tok, recv_tok, *token_ptr; gss_buffer_desc empty_token = { 0, (void *) "" }; gss_name_t name = GSS_C_NO_NAME; gss_ctx_id_t gss_context = GSS_C_NO_CONTEXT; OM_uint32 major, minor, init_minor, gss_flags; static const OM_uint32 wanted_gss_flags = (GSS_C_MUTUAL_FLAG | GSS_C_CONF_FLAG | GSS_C_INTEG_FLAG | GSS_C_REPLAY_FLAG | GSS_C_SEQUENCE_FLAG); static const OM_uint32 req_gss_flags = (GSS_C_MUTUAL_FLAG | GSS_C_CONF_FLAG | GSS_C_INTEG_FLAG); /* * If port is 0, default to trying the standard port and then falling back * on the old port. */ if (port == 0) { port = REMCTL_PORT; port_fallback = true; } /* Make the network connection. */ fd = internal_connect(r, host, port); if (fd == INVALID_SOCKET && port_fallback) fd = internal_connect(r, host, REMCTL_PORT_OLD); if (fd == INVALID_SOCKET) goto fail; r->fd = fd; /* Import the name. */ if (!internal_import_name(r, host, principal, &name)) goto fail; /* * Default to protocol version two, but if some other protocol is already * set in the remctl struct, don't override. This facility is used only * for testing currently. */ if (r->protocol == 0) r->protocol = 2; /* Send the initial negotiation token. */ status = token_send(fd, TOKEN_NOOP | TOKEN_CONTEXT_NEXT | TOKEN_PROTOCOL, &empty_token, r->timeout); if (status != TOKEN_OK) { internal_token_error(r, "sending initial token", status, 0, 0); goto fail; } /* Perform the context-establishment loop. * * On each pass through the loop, token_ptr points to the token to send to * the server (or GSS_C_NO_BUFFER on the first pass). Every generated * token is stored in send_tok which is then transmitted to the server; * every received token is stored in recv_tok, which token_ptr is then set * to, to be processed by the next call to gss_init_sec_context. * * GSS-API guarantees that send_tok's length will be non-zero if and only * if the server is expecting another token from us, and that * gss_init_sec_context returns GSS_S_CONTINUE_NEEDED if and only if the * server has another token to send us. * * We start with the assumption that we're going to do protocol v2, but if * the server ever drops TOKEN_PROTOCOL from the response, we fall back to * v1. */ token_ptr = GSS_C_NO_BUFFER; do { major = gss_init_sec_context(&init_minor, GSS_C_NO_CREDENTIAL, &gss_context, name, (const gss_OID) GSS_KRB5_MECHANISM, wanted_gss_flags, 0, NULL, token_ptr, NULL, &send_tok, &gss_flags, NULL); if (token_ptr != GSS_C_NO_BUFFER) free(recv_tok.value); /* If we have anything more to say, send it. */ if (send_tok.length != 0) { flags = TOKEN_CONTEXT; if (r->protocol > 1) flags |= TOKEN_PROTOCOL; status = token_send(fd, flags, &send_tok, r->timeout); if (status != TOKEN_OK) { internal_token_error(r, "sending token", status, major, minor); gss_release_buffer(&minor, &send_tok); goto fail; } } gss_release_buffer(&minor, &send_tok); /* On error, report the error and abort. */ if (major != GSS_S_COMPLETE && major != GSS_S_CONTINUE_NEEDED) { internal_gssapi_error(r, "initializing context", major, init_minor); goto fail; } /* If we're still expecting more, retrieve it. */ if (major == GSS_S_CONTINUE_NEEDED) { status = token_recv(fd, &flags, &recv_tok, TOKEN_MAX_LENGTH, r->timeout); if (status != TOKEN_OK) { internal_token_error(r, "receiving token", status, major, minor); goto fail; } if (r->protocol > 1 && (flags & TOKEN_PROTOCOL) != TOKEN_PROTOCOL) r->protocol = 1; token_ptr = &recv_tok; } } while (major == GSS_S_CONTINUE_NEEDED); /* * If the flags we get back from the server are bad and we're doing * protocol v2, report an error and abort. This must be done after * establishing the context, since Heimdal doesn't report all flags until * context negotiation is complete. */ if (r->protocol > 1 && (gss_flags & req_gss_flags) != req_gss_flags) { internal_set_error(r, "server did not negotiate acceptable GSS-API" " flags"); goto fail; } /* Success. Set the context in the struct remctl object. */ r->context = gss_context; r->ready = 0; gss_release_name(&minor, &name); return true; fail: if (fd != INVALID_SOCKET) socket_close(fd); r->fd = INVALID_SOCKET; if (name != GSS_C_NO_NAME) gss_release_name(&minor, &name); if (gss_context != GSS_C_NO_CONTEXT) gss_delete_sec_context(&minor, &gss_context, GSS_C_NO_BUFFER); return false; }