2 * Copyright (C) 1997 Andre Noll <maan@tuebingen.mpg.de>
4 * Licensed under the GPL v2. For licencing details see COPYING.
7 /** \file client_common.c Common functions of para_client and para_audiod. */
9 #include <netinet/in.h>
10 #include <sys/socket.h>
12 #include <sys/types.h>
13 #include <arpa/inet.h>
26 #include "client.cmdline.h"
28 #include "buffer_tree.h"
32 /** The size of the receiving buffer. */
33 #define CLIENT_BUFSIZE 4000
36 * Close the connection to para_server and free all resources.
38 * \param ct Pointer to the client data.
40 * \sa \ref client_open().
42 void client_close(struct client_task *ct)
47 free(ct->config_file);
49 client_cmdline_parser_free(&ct->conf);
50 free(ct->challenge_hash);
57 * The preselect hook for server commands.
59 * The task pointer must contain a pointer to the initialized client data
60 * structure as it is returned by client_open().
62 * This function checks the state of the connection and adds the file descriptor
63 * of the connection to the read or write fd set of s accordingly.
65 static void client_pre_select(struct sched *s, void *context)
68 struct client_task *ct = context;
75 case CL_SENT_CH_RESPONSE:
76 para_fd_set(ct->scc.fd, &s->rfds, &s->max_fileno);
79 case CL_RECEIVED_WELCOME:
80 case CL_RECEIVED_PROCEED:
81 case CL_RECEIVED_CHALLENGE:
82 para_fd_set(ct->scc.fd, &s->wfds, &s->max_fileno);
87 ret = btr_node_status(ct->btrn[1], 0, BTR_NT_LEAF);
91 para_fd_set(ct->scc.fd, &s->wfds, &s->max_fileno);
96 ret = btr_node_status(ct->btrn[0], 0, BTR_NT_ROOT);
100 para_fd_set(ct->scc.fd, &s->rfds, &s->max_fileno);
106 static int send_sb(struct client_task *ct, int channel, void *buf, size_t numbytes,
107 enum sb_designator band, bool dont_free)
109 int ret, fd = ct->scc.fd;
112 if (!ct->sbc[channel]) {
113 struct sb_buffer sbb;
114 sb_transformation trafo = ct->status < CL_RECEIVED_PROCEED?
116 sbb = (typeof(sbb))SBB_INIT(band, buf, numbytes);
117 ct->sbc[channel] = sb_new_send(&sbb, dont_free, trafo, ct->scc.send);
119 ret = sb_get_send_buffers(ct->sbc[channel], iov);
120 ret = xwritev(fd, iov, ret);
122 sb_free(ct->sbc[channel]);
123 ct->sbc[channel] = NULL;
126 if (sb_sent(ct->sbc[channel], ret)) {
127 ct->sbc[channel] = NULL;
133 static int recv_sb(struct client_task *ct, fd_set *rfds,
134 struct sb_buffer *result)
138 sb_transformation trafo;
142 if (!FD_ISSET(ct->scc.fd, rfds))
144 if (ct->status < CL_SENT_CH_RESPONSE)
145 trafo = trafo_context = NULL;
148 trafo_context = ct->scc.recv;
151 ct->sbc[0] = sb_new_recv(0, trafo, trafo_context);
153 sb_get_recv_buffer(ct->sbc[0], &iov);
154 ret = read_nonblock(ct->scc.fd, iov.iov_base, iov.iov_len, rfds, &n);
162 ret = sb_received(ct->sbc[0], n, result);
172 static char **parse_features(char *buf)
175 const char id[] = "\nFeatures: ";
176 char *p, *q, **features;
186 create_argv(p, ",", &features);
187 for (i = 0; features[i]; i++)
188 PARA_INFO_LOG("server feature: %s\n", features[i]);
192 static int dispatch_sbb(struct client_task *ct, struct sb_buffer *sbb)
195 const char *designator[] = {SB_DESIGNATORS_ARRAY};
199 if (sbb->band < NUM_SB_DESIGNATORS)
200 PARA_DEBUG_LOG("band: %s\n", designator[sbb->band]);
203 case SBD_AWAITING_DATA:
204 ct->status = CL_SENDING;
208 if (iov_valid(&sbb->iov))
209 btr_add_output(sbb->iov.iov_base, sbb->iov.iov_len,
216 case SBD_WARNING_LOG:
220 if (iov_valid(&sbb->iov)) {
221 int ll = sbb->band - SBD_DEBUG_LOG;
222 para_log(ll, "remote: %s", (char *)sbb->iov.iov_base);
226 case SBD_EXIT__SUCCESS:
227 ret = -E_SERVER_CMD_SUCCESS;
229 case SBD_EXIT__FAILURE:
230 ret = -E_SERVER_CMD_FAILURE;
233 PARA_ERROR_LOG("invalid band %d\n", sbb->band);
238 free(sbb->iov.iov_base);
240 sbb->iov.iov_base = NULL;
244 static bool has_feature(const char *feature, struct client_task *ct)
246 return find_arg(feature, ct->features) >= 0? true : false;
249 static int send_sb_command(struct client_task *ct)
256 return send_sb(ct, 0, NULL, 0, 0, false);
258 for (i = 0; i < ct->conf.inputs_num; i++)
259 len += strlen(ct->conf.inputs[i]) + 1;
260 p = command = para_malloc(len);
261 for (i = 0; i < ct->conf.inputs_num; i++) {
262 strcpy(p, ct->conf.inputs[i]);
263 p += strlen(ct->conf.inputs[i]) + 1;
265 PARA_DEBUG_LOG("--> %s\n", command);
266 return send_sb(ct, 0, command, len, SBD_COMMAND, false);
270 * The post select hook for client commands.
272 * Depending on the current state of the connection and the status of the read
273 * and write fd sets of s, this function performs the necessary steps to
274 * authenticate the connection, to send the command given by t->private_data
275 * and to receive para_server's output, if any.
277 static int client_post_select(struct sched *s, void *context)
279 struct client_task *ct = context;
282 char buf[CLIENT_BUFSIZE];
284 ret = task_get_notification(ct->task);
289 switch (ct->status) {
290 case CL_CONNECTED: /* receive welcome message */
291 ret = read_nonblock(ct->scc.fd, buf, sizeof(buf), &s->rfds, &n);
292 if (ret < 0 || n == 0)
294 ct->features = parse_features(buf);
295 ct->status = CL_RECEIVED_WELCOME;
297 case CL_RECEIVED_WELCOME: /* send auth command */
298 if (!FD_ISSET(ct->scc.fd, &s->wfds))
300 sprintf(buf, AUTH_REQUEST_MSG "%s sideband%s", ct->user,
301 has_feature("aes_ctr128", ct)? ",aes_ctr128" : "");
302 PARA_INFO_LOG("--> %s\n", buf);
303 ret = write_buffer(ct->scc.fd, buf);
306 ct->status = CL_SENT_AUTH;
310 * Receive challenge and session keys, decrypt the challenge and
311 * send back the hash of the decrypted challenge.
314 /* decrypted challenge/session key buffer */
315 unsigned char crypt_buf[1024];
316 struct sb_buffer sbb;
319 ret = recv_sb(ct, &s->rfds, &sbb);
322 if (sbb.band != SBD_CHALLENGE) {
324 free(sbb.iov.iov_base);
328 PARA_INFO_LOG("<-- [challenge] (%zu bytes)\n", n);
329 ret = priv_decrypt(ct->key_file, crypt_buf,
330 sbb.iov.iov_base, n);
331 free(sbb.iov.iov_base);
334 ct->challenge_hash = para_malloc(HASH_SIZE);
335 hash_function((char *)crypt_buf, CHALLENGE_SIZE, ct->challenge_hash);
336 use_aes = has_feature("aes_ctr128", ct);
337 ct->scc.send = sc_new(crypt_buf + CHALLENGE_SIZE, SESSION_KEY_LEN, use_aes);
338 ct->scc.recv = sc_new(crypt_buf + CHALLENGE_SIZE + SESSION_KEY_LEN,
339 SESSION_KEY_LEN, use_aes);
340 hash_to_asc(ct->challenge_hash, buf);
341 PARA_INFO_LOG("--> %s\n", buf);
342 ct->status = CL_RECEIVED_CHALLENGE;
345 case CL_RECEIVED_CHALLENGE:
346 ret = send_sb(ct, 0, ct->challenge_hash, HASH_SIZE,
347 SBD_CHALLENGE_RESPONSE, false);
349 ct->challenge_hash = NULL;
352 ct->status = CL_SENT_CH_RESPONSE;
354 case CL_SENT_CH_RESPONSE: /* read server response */
356 struct sb_buffer sbb;
357 ret = recv_sb(ct, &s->rfds, &sbb);
360 free(sbb.iov.iov_base);
361 if (sbb.band != SBD_PROCEED)
364 ct->status = CL_RECEIVED_PROCEED;
367 case CL_RECEIVED_PROCEED: /* concat args and send command */
369 if (!FD_ISSET(ct->scc.fd, &s->wfds))
371 ret = send_sb_command(ct);
374 ct->status = CL_EXECUTING;
381 ret = btr_node_status(ct->btrn[1], 0, BTR_NT_LEAF);
382 if (ret == -E_BTR_EOF) {
383 /* empty blob data packet indicates EOF */
384 PARA_INFO_LOG("blob sent\n");
385 ret = send_sb(ct, 1, NULL, 0, SBD_BLOB_DATA, true);
391 if (ret > 0 && FD_ISSET(ct->scc.fd, &s->wfds)) {
392 sz = btr_next_buffer(ct->btrn[1], &buf2);
394 ret = send_sb(ct, 1, buf2, sz, SBD_BLOB_DATA, true);
398 btr_consume(ct->btrn[1], sz);
404 ret = btr_node_status(ct->btrn[0], 0, BTR_NT_ROOT);
407 if (ret > 0 && FD_ISSET(ct->scc.fd, &s->rfds)) {
408 struct sb_buffer sbb;
409 ret = recv_sb(ct, &s->rfds, &sbb);
413 ret = dispatch_sbb(ct, &sbb);
423 PARA_INFO_LOG("channel 1: %s\n", para_strerror(-ret));
424 btr_remove_node(&ct->btrn[1]);
429 PARA_INFO_LOG("channel 0: %s\n", para_strerror(-ret));
430 btr_remove_node(&ct->btrn[0]);
431 if (ct->btrn[1] && ct->status == CL_SENDING)
436 btr_remove_node(&ct->btrn[0]);
437 btr_remove_node(&ct->btrn[1]);
438 if (ret != -E_SERVER_CMD_SUCCESS && ret != -E_SERVER_CMD_FAILURE)
439 PARA_ERROR_LOG("%s\n", para_strerror(-ret));
440 if (ct->scc.fd >= 0) {
444 free_argv(ct->features);
446 sc_free(ct->scc.recv);
448 sc_free(ct->scc.send);
454 * Connect to para_server and register the client task.
456 * \param ct The initialized client task structure.
457 * \param s The scheduler instance to register the client task to.
458 * \param parent The parent node of the client btr node.
459 * \param child The child node of the client node.
461 * The client task structure given by \a ct must be allocated and initialized
462 * by \ref client_parse_config() before this function is called.
466 int client_connect(struct client_task *ct, struct sched *s,
467 struct btr_node *parent, struct btr_node *child)
471 PARA_NOTICE_LOG("connecting %s:%d\n", ct->conf.hostname_arg,
472 ct->conf.server_port_arg);
474 ret = para_connect_simple(IPPROTO_TCP, ct->conf.hostname_arg,
475 ct->conf.server_port_arg);
479 ret = mark_fd_nonblocking(ct->scc.fd);
482 ct->status = CL_CONNECTED;
483 ct->btrn[0] = btr_new_node(&(struct btr_node_description)
484 EMBRACE(.name = "client recv", .parent = NULL, .child = child));
485 ct->btrn[1] = btr_new_node(&(struct btr_node_description)
486 EMBRACE(.name = "client send", .parent = parent, .child = NULL));
488 ct->task = task_register(&(struct task_info) {
490 .pre_select = client_pre_select,
491 .post_select = client_post_select,
501 __noreturn static void print_help_and_die(struct client_task *ct)
503 struct ggo_help h = DEFINE_GGO_HELP(client);
504 bool d = ct->conf.detailed_help_given;
506 ggo_print_help(&h, d? GPH_STANDARD_FLAGS_DETAILED : GPH_STANDARD_FLAGS);
511 * Parse a client configuration.
513 * \param argc Usual argument count.
514 * \param argv Usual argument vector.
515 * \param ct_ptr Filled in by this function.
516 * \param loglevel If not \p NULL, the number of the loglevel is stored here.
518 * This checks the command line options given by \a argc and \a argv, sets
519 * default values for the user name and the name of the rsa key file and reads
520 * further options from the config file.
522 * Upon successful return, \a ct_ptr points to a dynamically allocated and
523 * initialized client task struct.
525 * \return The number of non-option arguments in \a argc/argv on success,
526 * negative on errors.
528 int client_parse_config(int argc, char *argv[], struct client_task **ct_ptr,
531 char *home = para_homedir();
533 struct client_task *ct = para_calloc(sizeof(struct client_task));
537 ret = -E_CLIENT_SYNTAX;
538 if (client_cmdline_parser(argc, argv, &ct->conf))
540 version_handle_flag("client", ct->conf.version_given);
541 if (ct->conf.help_given || ct->conf.detailed_help_given)
542 print_help_and_die(ct);
544 ct->config_file = ct->conf.config_file_given?
545 para_strdup(ct->conf.config_file_arg) :
546 make_message("%s/.paraslash/client.conf", home);
547 ret = file_exists(ct->config_file);
548 if (!ret && ct->conf.config_file_given) {
553 struct client_cmdline_parser_params params = {
557 .check_ambiguity = 0,
561 if (client_cmdline_parser_config_file(ct->config_file,
565 ct->user = ct->conf.user_given?
566 para_strdup(ct->conf.user_arg) : para_logname();
568 if (ct->conf.key_file_given)
569 ct->key_file = para_strdup(ct->conf.key_file_arg);
571 ct->key_file = make_message("%s/.paraslash/key.%s",
573 if (!file_exists(ct->key_file)) {
575 ct->key_file = make_message("%s/.ssh/id_rsa", home);
580 *loglevel = get_loglevel_by_name(ct->conf.loglevel_arg);
581 PARA_INFO_LOG("loglevel: %s\n", ct->conf.loglevel_arg);
582 PARA_INFO_LOG("config_file: %s\n", ct->config_file);
583 PARA_INFO_LOG("key_file: %s\n", ct->key_file);
584 ret = ct->conf.inputs_num;
588 PARA_ERROR_LOG("%s\n", para_strerror(-ret));
596 * Parse the client configuration and open a connection to para_server.
598 * \param argc See \ref client_parse_config.
599 * \param argv See \ref client_parse_config.
600 * \param ct_ptr See \ref client_parse_config.
601 * \param loglevel See \ref client_parse_config.
602 * \param parent See \ref client_connect().
603 * \param child See \ref client_connect().
604 * \param sched See \ref client_connect().
606 * This function combines client_parse_config() and client_connect(). It is
607 * considered a syntax error if no command was given, i.e. if the number
608 * of non-option arguments is zero.
612 int client_open(int argc, char *argv[], struct client_task **ct_ptr,
613 int *loglevel, struct btr_node *parent, struct btr_node *child,
616 int ret = client_parse_config(argc, argv, ct_ptr, loglevel);
621 ret = -E_CLIENT_SYNTAX;
624 ret = client_connect(*ct_ptr, sched, parent, child);
629 client_close(*ct_ptr);