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source: mainline/uspace/srv/net/socket/socket_client.c@ aadf01e

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Last change on this file since aadf01e was aadf01e, checked in by Lukas Mejdrech <lukasmejdrech@…>, 15 years ago
Coding style (no functional change)
Property mode set to `100644`
File size: 27.1 KB

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[21580dd]	1	/*
	2	* Copyright (c) 2009 Lukas Mejdrech
	3	* All rights reserved.
	4	*
	5	* Redistribution and use in source and binary forms, with or without
	6	* modification, are permitted provided that the following conditions
	7	* are met:
	8	*
	9	* - Redistributions of source code must retain the above copyright
	10	* notice, this list of conditions and the following disclaimer.
	11	* - Redistributions in binary form must reproduce the above copyright
	12	* notice, this list of conditions and the following disclaimer in the
	13	* documentation and/or other materials provided with the distribution.
	14	* - The name of the author may not be used to endorse or promote products
	15	* derived from this software without specific prior written permission.
	16	*
	17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
	18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
	19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
	20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
	21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
	22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	27	*/
	28
	29	/** @addtogroup socket
	30	* @{
	31	*/
	32
	33	/** @file
	34	* Socket application program interface (API) implementation.
	35	* @see socket.h for more information.
	36	* This is a part of the network application library.
	37	*/
	38
	39	#include <assert.h>
	40	#include <async.h>
	41	#include <fibril_synch.h>
[ede63e4]	42	#include <limits.h>
	43	#include <stdlib.h>
[21580dd]	44
	45	#include <ipc/services.h>
	46
	47	#include "../err.h"
	48	#include "../modules.h"
	49
	50	#include "../include/in.h"
	51	#include "../include/socket.h"
	52	#include "../include/socket_errno.h"
	53
	54	#include "../structures/dynamic_fifo.h"
	55	#include "../structures/int_map.h"
	56
	57	#include "socket_messages.h"
	58
	59	/** Initial received packet queue size.
	60	*/
	61	#define SOCKET_INITIAL_RECEIVED_SIZE 4
	62
	63	/** Maximum received packet queue size.
	64	*/
	65	#define SOCKET_MAX_RECEIVED_SIZE 0
	66
	67	/** Initial waiting sockets queue size.
	68	*/
	69	#define SOCKET_INITIAL_ACCEPTED_SIZE 1
	70
	71	/** Maximum waiting sockets queue size.
	72	*/
	73	#define SOCKET_MAX_ACCEPTED_SIZE 0
	74
[1a0fb3f8]	75	/** Default timeout for connections in microseconds.
	76	*/
[aadf01e]	77	#define SOCKET_CONNECT_TIMEOUT (1 * 1000 * 1000)
[1a0fb3f8]	78
[ede63e4]	79	/** Maximum number of random attempts to find a new socket identifier before switching to the sequence.
	80	*/
	81	#define SOCKET_ID_TRIES 100
	82
[21580dd]	83	/** Type definition of the socket specific data.
	84	* @see socket
	85	*/
	86	typedef struct socket socket_t;
	87
	88	/** Type definition of the socket specific data pointer.
	89	* @see socket
	90	*/
	91	typedef socket_t * socket_ref;
	92
	93	/** Socket specific data.
	94	* Each socket lock locks only its structure part and any number of them may be locked simultaneously.
	95	*/
	96	struct socket{
	97	/** Socket identifier.
	98	*/
[aadf01e]	99	int socket_id;
[21580dd]	100	/** Parent module phone.
	101	*/
[aadf01e]	102	int phone;
[21580dd]	103	/** Parent module service.
	104	*/
[aadf01e]	105	services_t service;
[21580dd]	106	/** Underlying protocol header size.
	107	* Sending and receiving optimalization.
	108	*/
[aadf01e]	109	size_t header_size;
[21580dd]	110	/** Packet data fragment size.
	111	* Sending optimalization.
	112	*/
[aadf01e]	113	size_t data_fragment_size;
[21580dd]	114	/** Sending safety lock.
	115	* Locks the header_size and data_fragment_size attributes.
	116	*/
[aadf01e]	117	fibril_rwlock_t sending_lock;
[21580dd]	118	/** Received packets queue.
	119	*/
[aadf01e]	120	dyn_fifo_t received;
[21580dd]	121	/** Received packets safety lock.
	122	* Used for receiving and receive notifications.
	123	* Locks the received attribute.
	124	*/
[aadf01e]	125	fibril_mutex_t receive_lock;
[21580dd]	126	/** Received packets signaling.
	127	* Signaled upon receive notification.
	128	*/
[aadf01e]	129	fibril_condvar_t receive_signal;
[21580dd]	130	/** Waiting sockets queue.
	131	*/
[aadf01e]	132	dyn_fifo_t accepted;
[21580dd]	133	/** Waiting sockets safety lock.
	134	* Used for accepting and accept notifications.
	135	* Locks the accepted attribute.
	136	*/
[aadf01e]	137	fibril_mutex_t accept_lock;
[21580dd]	138	/** Waiting sockets signaling.
	139	* Signaled upon accept notification.
	140	*/
[aadf01e]	141	fibril_condvar_t accept_signal;
[21580dd]	142	/** The number of blocked functions called.
	143	* Used while waiting for the received packets or accepted sockets.
	144	*/
[aadf01e]	145	int blocked;
[21580dd]	146	};
	147
	148	/** Sockets map.
	149	* Maps socket identifiers to the socket specific data.
	150	* @see int_map.h
	151	*/
[aadf01e]	152	INT_MAP_DECLARE(sockets, socket_t);
[21580dd]	153
	154	/** Socket client library global data.
	155	*/
	156	static struct socket_client_globals {
	157	/** TCP module phone.
	158	*/
[aadf01e]	159	int tcp_phone;
[21580dd]	160	/** UDP module phone.
	161	*/
[aadf01e]	162	int udp_phone;
[ede63e4]	163	// /** The last socket identifier.
	164	// */
	165	// int last_id;
[21580dd]	166	/** Active sockets.
	167	*/
[aadf01e]	168	sockets_ref sockets;
[21580dd]	169	/** Safety lock.
	170	* Write lock is used only for adding or removing sockets.
	171	* When locked for writing, no other socket locks need to be locked.
	172	* When locked for reading, any other socket locks may be locked.
	173	* No socket lock may be locked if this lock is unlocked.
	174	*/
[aadf01e]	175	fibril_rwlock_t lock;
[21580dd]	176	} socket_globals = {
	177	.tcp_phone = -1,
	178	.udp_phone = -1,
[ede63e4]	179	// .last_id = 0,
[21580dd]	180	.sockets = NULL,
	181	.lock = {
	182	.readers = 0,
	183	.writers = 0,
	184	.waiters = {
[aadf01e]	185	.prev = &socket_globals.lock.waiters,
	186	.next = &socket_globals.lock.waiters
[21580dd]	187	}
	188	}
	189	};
	190
[aadf01e]	191	INT_MAP_IMPLEMENT(sockets, socket_t);
[21580dd]	192
	193	/** Returns the TCP module phone.
	194	* Connects to the TCP module if necessary.
	195	* @returns The TCP module phone.
[1a0fb3f8]	196	* @returns Other error codes as defined for the bind_service_timeout() function.
[21580dd]	197	*/
[aadf01e]	198	static int socket_get_tcp_phone(void);
[21580dd]	199
	200	/** Returns the UDP module phone.
	201	* Connects to the UDP module if necessary.
	202	* @returns The UDP module phone.
[1a0fb3f8]	203	* @returns Other error codes as defined for the bind_service_timeout() function.
[21580dd]	204	*/
[aadf01e]	205	static int socket_get_udp_phone(void);
[21580dd]	206
	207	/** Returns the active sockets.
	208	* @returns The active sockets.
	209	*/
[aadf01e]	210	static sockets_ref socket_get_sockets(void);
[21580dd]	211
[ede63e4]	212	/** Tries to find a new free socket identifier.
	213	* @returns The new socket identifier.
	214	* @returns ELIMIT if there is no socket identifier available.
	215	*/
[aadf01e]	216	static int socket_generate_new_id(void);
[ede63e4]	217
[21580dd]	218	/** Default thread for new connections.
	219	* @param[in] iid The initial message identifier.
	220	* @param[in] icall The initial message call structure.
	221	*/
[aadf01e]	222	void socket_connection(ipc_callid_t iid, ipc_call_t * icall);
[21580dd]	223
	224	/** Sends message to the socket parent module with specified data.
	225	* @param[in] socket_id Socket identifier.
	226	* @param[in] message The action message.
	227	* @param[in] arg2 The second message parameter.
	228	* @param[in] data The data to be sent.
	229	* @param[in] datalength The data length.
	230	* @returns EOK on success.
	231	* @returns ENOTSOCK if the socket is not found.
	232	* @returns EBADMEM if the data parameter is NULL.
	233	* @returns NO_DATA if the datalength parameter is zero (0).
	234	* @returns Other error codes as defined for the spcific message.
	235	*/
[aadf01e]	236	int socket_send_data(int socket_id, ipcarg_t message, ipcarg_t arg2, const void * data, size_t datalength);
[21580dd]	237
	238	/** Initializes a new socket specific data.
	239	* @param[in,out] socket The socket to be initialized.
	240	* @param[in] socket_id The new socket identifier.
	241	* @param[in] phone The parent module phone.
	242	* @param[in] service The parent module service.
	243	*/
[aadf01e]	244	void socket_initialize(socket_ref socket, int socket_id, int phone, services_t service);
[21580dd]	245
	246	/** Clears and destroys the socket.
	247	* @param[in] socket The socket to be destroyed.
	248	*/
[aadf01e]	249	void socket_destroy(socket_ref socket);
[21580dd]	250
	251	/** Receives data via the socket.
	252	* @param[in] message The action message.
	253	* @param[in] socket_id Socket identifier.
	254	* @param[out] data The data buffer to be filled.
	255	* @param[in] datalength The data length.
	256	* @param[in] flags Various receive flags.
	257	* @param[out] fromaddr The source address. May be NULL for connected sockets.
	258	* @param[in,out] addrlen The address length. The maximum address length is read. The actual address length is set. Used only if fromaddr is not NULL.
	259	* @returns EOK on success.
	260	* @returns ENOTSOCK if the socket is not found.
	261	* @returns EBADMEM if the data parameter is NULL.
	262	* @returns NO_DATA if the datalength or addrlen parameter is zero (0).
	263	* @returns Other error codes as defined for the spcific message.
	264	*/
[aadf01e]	265	int recvfrom_core(ipcarg_t message, int socket_id, void * data, size_t datalength, int flags, struct sockaddr * fromaddr, socklen_t * addrlen);
[21580dd]	266
	267	/** Sends data via the socket to the remote address.
	268	* Binds the socket to a free port if not already connected/bound.
	269	* @param[in] message The action message.
	270	* @param[in] socket_id Socket identifier.
	271	* @param[in] data The data to be sent.
	272	* @param[in] datalength The data length.
	273	* @param[in] flags Various send flags.
	274	* @param[in] toaddr The destination address. May be NULL for connected sockets.
	275	* @param[in] addrlen The address length. Used only if toaddr is not NULL.
	276	* @returns EOK on success.
	277	* @returns ENOTSOCK if the socket is not found.
	278	* @returns EBADMEM if the data or toaddr parameter is NULL.
	279	* @returns NO_DATA if the datalength or the addrlen parameter is zero (0).
	280	* @returns Other error codes as defined for the NET_SOCKET_SENDTO message.
	281	*/
[aadf01e]	282	int sendto_core(ipcarg_t message, int socket_id, const void * data, size_t datalength, int flags, const struct sockaddr * toaddr, socklen_t addrlen);
[21580dd]	283
[aadf01e]	284	static int socket_get_tcp_phone(void){
	285	if(socket_globals.tcp_phone < 0){
	286	socket_globals.tcp_phone = bind_service_timeout(SERVICE_TCP, 0, 0, SERVICE_TCP, socket_connection, SOCKET_CONNECT_TIMEOUT);
[21580dd]	287	}
	288	return socket_globals.tcp_phone;
	289	}
	290
[aadf01e]	291	static int socket_get_udp_phone(void){
	292	if(socket_globals.udp_phone < 0){
	293	socket_globals.udp_phone = bind_service_timeout(SERVICE_UDP, 0, 0, SERVICE_UDP, socket_connection, SOCKET_CONNECT_TIMEOUT);
[21580dd]	294	}
	295	return socket_globals.udp_phone;
	296	}
	297
[aadf01e]	298	static sockets_ref socket_get_sockets(void){
	299	if(! socket_globals.sockets){
	300	socket_globals.sockets = (sockets_ref) malloc(sizeof(sockets_t));
	301	if(! socket_globals.sockets){
	302	return NULL;
	303	}
	304	if(sockets_initialize(socket_globals.sockets) != EOK){
	305	free(socket_globals.sockets);
[21580dd]	306	socket_globals.sockets = NULL;
	307	}
[aadf01e]	308	srand(task_get_id());
[21580dd]	309	}
	310	return socket_globals.sockets;
	311	}
	312
[aadf01e]	313	static int socket_generate_new_id(void){
	314	sockets_ref sockets;
	315	int socket_id;
	316	int count;
[ede63e4]	317
	318	sockets = socket_get_sockets();
	319	count = 0;
	320	// socket_id = socket_globals.last_id;
	321	do{
[aadf01e]	322	if(count < SOCKET_ID_TRIES){
[ede63e4]	323	socket_id = rand() % INT_MAX;
	324	++ count;
[aadf01e]	325	}else if(count == SOCKET_ID_TRIES){
[ede63e4]	326	socket_id = 1;
	327	++ count;
	328	// only this branch for last_id
	329	}else{
[aadf01e]	330	if(socket_id < INT_MAX){
[ede63e4]	331	++ socket_id;
[aadf01e]	332	/* }else if(socket_globals.last_id){
[ede63e4]	333	* socket_globals.last_id = 0;
	334	* socket_id = 1;
	335	*/ }else{
	336	return ELIMIT;
	337	}
	338	}
[aadf01e]	339	}while(sockets_find(sockets, socket_id));
[ede63e4]	340	// last_id = socket_id
	341	return socket_id;
	342	}
	343
[aadf01e]	344	void socket_initialize(socket_ref socket, int socket_id, int phone, services_t service){
[21580dd]	345	socket->socket_id = socket_id;
	346	socket->phone = phone;
	347	socket->service = service;
[aadf01e]	348	dyn_fifo_initialize(&socket->received, SOCKET_INITIAL_RECEIVED_SIZE);
	349	dyn_fifo_initialize(&socket->accepted, SOCKET_INITIAL_ACCEPTED_SIZE);
	350	fibril_mutex_initialize(&socket->receive_lock);
	351	fibril_condvar_initialize(&socket->receive_signal);
	352	fibril_mutex_initialize(&socket->accept_lock);
	353	fibril_condvar_initialize(&socket->accept_signal);
	354	fibril_rwlock_initialize(&socket->sending_lock);
[21580dd]	355	}
	356
[aadf01e]	357	void socket_connection(ipc_callid_t iid, ipc_call_t * icall){
[21580dd]	358	ERROR_DECLARE;
	359
[aadf01e]	360	ipc_callid_t callid;
	361	ipc_call_t call;
	362	socket_ref socket;
[21580dd]	363
[aadf01e]	364	while(true){
[21580dd]	365
[aadf01e]	366	callid = async_get_call(&call);
	367	switch(IPC_GET_METHOD(call)){
[21580dd]	368	case NET_SOCKET_RECEIVED:
	369	case NET_SOCKET_ACCEPTED:
[ede63e4]	370	case NET_SOCKET_DATA_FRAGMENT_SIZE:
[aadf01e]	371	fibril_rwlock_read_lock(&socket_globals.lock);
[21580dd]	372	// find the socket
[aadf01e]	373	socket = sockets_find(socket_get_sockets(), SOCKET_GET_SOCKET_ID(call));
	374	if(! socket){
[21580dd]	375	ERROR_CODE = ENOTSOCK;
	376	}else{
[aadf01e]	377	switch(IPC_GET_METHOD(call)){
[ede63e4]	378	case NET_SOCKET_RECEIVED:
[aadf01e]	379	fibril_mutex_lock(&socket->receive_lock);
[ede63e4]	380	// push the number of received packet fragments
[aadf01e]	381	if(! ERROR_OCCURRED(dyn_fifo_push(&socket->received, SOCKET_GET_DATA_FRAGMENTS(call), SOCKET_MAX_RECEIVED_SIZE))){
[ede63e4]	382	// signal the received packet
[aadf01e]	383	fibril_condvar_signal(&socket->receive_signal);
[ede63e4]	384	}
[aadf01e]	385	fibril_mutex_unlock(&socket->receive_lock);
[ede63e4]	386	break;
	387	case NET_SOCKET_ACCEPTED:
[21580dd]	388	// push the new socket identifier
[aadf01e]	389	fibril_mutex_lock(&socket->accept_lock);
	390	if(! ERROR_OCCURRED(dyn_fifo_push(&socket->accepted, 1, SOCKET_MAX_ACCEPTED_SIZE))){
[21580dd]	391	// signal the accepted socket
[aadf01e]	392	fibril_condvar_signal(&socket->accept_signal);
[21580dd]	393	}
[aadf01e]	394	fibril_mutex_unlock(&socket->accept_lock);
[ede63e4]	395	break;
	396	default:
	397	ERROR_CODE = ENOTSUP;
	398	}
[aadf01e]	399	if((SOCKET_GET_DATA_FRAGMENT_SIZE(call) > 0)
	400	&& (SOCKET_GET_DATA_FRAGMENT_SIZE(call) != socket->data_fragment_size)){
	401	fibril_rwlock_write_lock(&socket->sending_lock);
[ede63e4]	402	// set the data fragment size
[aadf01e]	403	socket->data_fragment_size = SOCKET_GET_DATA_FRAGMENT_SIZE(call);
	404	fibril_rwlock_write_unlock(&socket->sending_lock);
[21580dd]	405	}
	406	}
[aadf01e]	407	fibril_rwlock_read_unlock(&socket_globals.lock);
[d510c0fe]	408	break;
[21580dd]	409	default:
	410	ERROR_CODE = ENOTSUP;
	411	}
[aadf01e]	412	ipc_answer_0(callid, (ipcarg_t) ERROR_CODE);
[21580dd]	413	}
	414	}
	415
[aadf01e]	416	int socket(int domain, int type, int protocol){
[21580dd]	417	ERROR_DECLARE;
	418
[aadf01e]	419	socket_ref socket;
	420	int phone;
	421	int socket_id;
	422	services_t service;
[21580dd]	423
	424	// find the appropriate service
[aadf01e]	425	switch(domain){
[21580dd]	426	case PF_INET:
[aadf01e]	427	switch(type){
[21580dd]	428	case SOCK_STREAM:
[aadf01e]	429	if(! protocol){
	430	protocol = IPPROTO_TCP;
	431	}
	432	switch(protocol){
[21580dd]	433	case IPPROTO_TCP:
	434	phone = socket_get_tcp_phone();
	435	service = SERVICE_TCP;
	436	break;
	437	default:
	438	return EPROTONOSUPPORT;
	439	}
	440	break;
	441	case SOCK_DGRAM:
[aadf01e]	442	if(! protocol){
	443	protocol = IPPROTO_UDP;
	444	}
	445	switch(protocol){
[21580dd]	446	case IPPROTO_UDP:
	447	phone = socket_get_udp_phone();
	448	service = SERVICE_UDP;
	449	break;
	450	default:
	451	return EPROTONOSUPPORT;
	452	}
	453	break;
	454	case SOCK_RAW:
	455	default:
	456	return ESOCKTNOSUPPORT;
	457	}
	458	break;
	459	// TODO IPv6
	460	default:
	461	return EPFNOSUPPORT;
	462	}
[aadf01e]	463	if(phone < 0){
	464	return phone;
	465	}
[21580dd]	466	// create a new socket structure
[aadf01e]	467	socket = (socket_ref) malloc(sizeof(socket_t));
	468	if(! socket){
	469	return ENOMEM;
	470	}
	471	bzero(socket, sizeof(*socket));
	472	fibril_rwlock_write_lock(&socket_globals.lock);
[21580dd]	473	// request a new socket
[ede63e4]	474	socket_id = socket_generate_new_id();
[aadf01e]	475	if(socket_id <= 0){
	476	fibril_rwlock_write_unlock(&socket_globals.lock);
	477	free(socket);
[ede63e4]	478	return socket_id;
	479	}
[aadf01e]	480	if(ERROR_OCCURRED((int) async_req_3_3(phone, NET_SOCKET, socket_id, 0, service, NULL, (ipcarg_t ) &socket->data_fragment_size, (ipcarg_t ) &socket->header_size))){
	481	fibril_rwlock_write_unlock(&socket_globals.lock);
	482	free(socket);
[21580dd]	483	return ERROR_CODE;
	484	}
	485	// finish the new socket initialization
[aadf01e]	486	socket_initialize(socket, socket_id, phone, service);
[21580dd]	487	// store the new socket
[aadf01e]	488	ERROR_CODE = sockets_add(socket_get_sockets(), socket_id, socket);
	489	fibril_rwlock_write_unlock(&socket_globals.lock);
	490	if(ERROR_CODE < 0){
	491	dyn_fifo_destroy(&socket->received);
	492	dyn_fifo_destroy(&socket->accepted);
	493	free(socket);
	494	async_msg_3(phone, NET_SOCKET_CLOSE, (ipcarg_t) socket_id, 0, service);
[21580dd]	495	return ERROR_CODE;
	496	}
	497
	498	return socket_id;
	499	}
	500
[aadf01e]	501	int socket_send_data(int socket_id, ipcarg_t message, ipcarg_t arg2, const void * data, size_t datalength){
	502	socket_ref socket;
	503	aid_t message_id;
	504	ipcarg_t result;
[21580dd]	505
[aadf01e]	506	if(! data){
	507	return EBADMEM;
	508	}
	509	if(! datalength){
	510	return NO_DATA;
	511	}
[21580dd]	512
[aadf01e]	513	fibril_rwlock_read_lock(&socket_globals.lock);
[21580dd]	514	// find the socket
[aadf01e]	515	socket = sockets_find(socket_get_sockets(), socket_id);
	516	if(! socket){
	517	fibril_rwlock_read_unlock(&socket_globals.lock);
[21580dd]	518	return ENOTSOCK;
	519	}
	520	// request the message
[aadf01e]	521	message_id = async_send_3(socket->phone, message, (ipcarg_t) socket->socket_id, arg2, socket->service, NULL);
[21580dd]	522	// send the address
[aadf01e]	523	async_data_write_start(socket->phone, data, datalength);
	524	fibril_rwlock_read_unlock(&socket_globals.lock);
	525	async_wait_for(message_id, &result);
	526	return (int) result;
[21580dd]	527	}
	528
[aadf01e]	529	int bind(int socket_id, const struct sockaddr * my_addr, socklen_t addrlen){
	530	if(addrlen <= 0){
	531	return EINVAL;
	532	}
[21580dd]	533	// send the address
[aadf01e]	534	return socket_send_data(socket_id, NET_SOCKET_BIND, 0, my_addr, (size_t) addrlen);
[21580dd]	535	}
	536
[aadf01e]	537	int listen(int socket_id, int backlog){
	538	socket_ref socket;
	539	int result;
[21580dd]	540
[aadf01e]	541	if(backlog <= 0){
	542	return EINVAL;
	543	}
	544	fibril_rwlock_read_lock(&socket_globals.lock);
[21580dd]	545	// find the socket
[aadf01e]	546	socket = sockets_find(socket_get_sockets(), socket_id);
	547	if(! socket){
	548	fibril_rwlock_read_unlock(&socket_globals.lock);
[21580dd]	549	return ENOTSOCK;
	550	}
	551	// request listen backlog change
[aadf01e]	552	result = (int) async_req_3_0(socket->phone, NET_SOCKET_LISTEN, (ipcarg_t) socket->socket_id, (ipcarg_t) backlog, socket->service);
	553	fibril_rwlock_read_unlock(&socket_globals.lock);
[21580dd]	554	return result;
	555	}
	556
[aadf01e]	557	int accept(int socket_id, struct sockaddr * cliaddr, socklen_t * addrlen){
	558	socket_ref socket;
	559	socket_ref new_socket;
	560	aid_t message_id;
	561	ipcarg_t ipc_result;
	562	int result;
	563	ipc_call_t answer;
[21580dd]	564
[aadf01e]	565	if((! cliaddr) \|\| (! addrlen)){
	566	return EBADMEM;
	567	}
[21580dd]	568
[aadf01e]	569	fibril_rwlock_write_lock(&socket_globals.lock);
[21580dd]	570	// find the socket
[aadf01e]	571	socket = sockets_find(socket_get_sockets(), socket_id);
	572	if(! socket){
	573	fibril_rwlock_write_unlock(&socket_globals.lock);
[21580dd]	574	return ENOTSOCK;
	575	}
[aadf01e]	576	fibril_mutex_lock(&socket->accept_lock);
[21580dd]	577	// wait for an accepted socket
	578	++ socket->blocked;
[aadf01e]	579	while(dyn_fifo_value(&socket->accepted) <= 0){
	580	fibril_rwlock_write_unlock(&socket_globals.lock);
	581	fibril_condvar_wait(&socket->accept_signal, &socket->accept_lock);
	582	fibril_rwlock_write_lock(&socket_globals.lock);
[21580dd]	583	}
	584	-- socket->blocked;
[ede63e4]	585
	586	// create a new scoket
[aadf01e]	587	new_socket = (socket_ref) malloc(sizeof(socket_t));
	588	if(! new_socket){
	589	fibril_mutex_unlock(&socket->accept_lock);
	590	fibril_rwlock_write_unlock(&socket_globals.lock);
[ede63e4]	591	return ENOMEM;
	592	}
[aadf01e]	593	bzero(new_socket, sizeof(*new_socket));
[ede63e4]	594	socket_id = socket_generate_new_id();
[aadf01e]	595	if(socket_id <= 0){
	596	fibril_mutex_unlock(&socket->accept_lock);
	597	fibril_rwlock_write_unlock(&socket_globals.lock);
	598	free(new_socket);
[ede63e4]	599	return socket_id;
	600	}
[aadf01e]	601	socket_initialize(new_socket, socket_id, socket->phone, socket->service);
	602	result = sockets_add(socket_get_sockets(), new_socket->socket_id, new_socket);
	603	if(result < 0){
	604	fibril_mutex_unlock(&socket->accept_lock);
	605	fibril_rwlock_write_unlock(&socket_globals.lock);
	606	free(new_socket);
[ede63e4]	607	return result;
	608	}
	609
[21580dd]	610	// request accept
[aadf01e]	611	message_id = async_send_5(socket->phone, NET_SOCKET_ACCEPT, (ipcarg_t) socket->socket_id, 0, socket->service, 0, new_socket->socket_id, &answer);
[21580dd]	612	// read address
[aadf01e]	613	ipc_data_read_start(socket->phone, cliaddr, * addrlen);
	614	fibril_rwlock_write_unlock(&socket_globals.lock);
	615	async_wait_for(message_id, &ipc_result);
[7fb2ce3]	616	result = (int) ipc_result;
[aadf01e]	617	if(result > 0){
	618	if(result != socket_id){
[ede63e4]	619	result = EINVAL;
	620	}
[21580dd]	621	// dequeue the accepted socket if successful
[aadf01e]	622	dyn_fifo_pop(&socket->accepted);
[21580dd]	623	// set address length
[aadf01e]	624	*addrlen = SOCKET_GET_ADDRESS_LENGTH(answer);
	625	new_socket->data_fragment_size = SOCKET_GET_DATA_FRAGMENT_SIZE(answer);
	626	}else if(result == ENOTSOCK){
[21580dd]	627	// empty the queue if no accepted sockets
[aadf01e]	628	while(dyn_fifo_pop(&socket->accepted) > 0);
[21580dd]	629	}
[aadf01e]	630	fibril_mutex_unlock(&socket->accept_lock);
[21580dd]	631	return result;
	632	}
	633
[aadf01e]	634	int connect(int socket_id, const struct sockaddr * serv_addr, socklen_t addrlen){
	635	if(! serv_addr){
	636	return EDESTADDRREQ;
	637	}
	638	if(! addrlen){
	639	return EDESTADDRREQ;
	640	}
[21580dd]	641	// send the address
[aadf01e]	642	return socket_send_data(socket_id, NET_SOCKET_CONNECT, 0, serv_addr, addrlen);
[21580dd]	643	}
	644
[aadf01e]	645	int closesocket(int socket_id){
[21580dd]	646	ERROR_DECLARE;
	647
[aadf01e]	648	socket_ref socket;
[21580dd]	649
[aadf01e]	650	fibril_rwlock_write_lock(&socket_globals.lock);
	651	socket = sockets_find(socket_get_sockets(), socket_id);
	652	if(! socket){
	653	fibril_rwlock_write_unlock(&socket_globals.lock);
[21580dd]	654	return ENOTSOCK;
	655	}
[aadf01e]	656	if(socket->blocked){
	657	fibril_rwlock_write_unlock(&socket_globals.lock);
[21580dd]	658	return EINPROGRESS;
	659	}
	660	// request close
[aadf01e]	661	ERROR_PROPAGATE((int) async_req_3_0(socket->phone, NET_SOCKET_CLOSE, (ipcarg_t) socket->socket_id, 0, socket->service));
[21580dd]	662	// free the socket structure
[aadf01e]	663	socket_destroy(socket);
	664	fibril_rwlock_write_unlock(&socket_globals.lock);
[21580dd]	665	return EOK;
	666	}
	667
[aadf01e]	668	void socket_destroy(socket_ref socket){
	669	int accepted_id;
[21580dd]	670
	671	// destroy all accepted sockets
[aadf01e]	672	while((accepted_id = dyn_fifo_pop(&socket->accepted)) >= 0){
	673	socket_destroy(sockets_find(socket_get_sockets(), accepted_id));
[21580dd]	674	}
[aadf01e]	675	dyn_fifo_destroy(&socket->received);
	676	dyn_fifo_destroy(&socket->accepted);
	677	sockets_exclude(socket_get_sockets(), socket->socket_id);
[21580dd]	678	}
	679
[aadf01e]	680	int send(int socket_id, void * data, size_t datalength, int flags){
[21580dd]	681	// without the address
[aadf01e]	682	return sendto_core(NET_SOCKET_SEND, socket_id, data, datalength, flags, NULL, 0);
[21580dd]	683	}
	684
[aadf01e]	685	int sendto(int socket_id, const void * data, size_t datalength, int flags, const struct sockaddr * toaddr, socklen_t addrlen){
	686	if(! toaddr){
	687	return EDESTADDRREQ;
	688	}
	689	if(! addrlen){
	690	return EDESTADDRREQ;
	691	}
[21580dd]	692	// with the address
[aadf01e]	693	return sendto_core(NET_SOCKET_SENDTO, socket_id, data, datalength, flags, toaddr, addrlen);
[21580dd]	694	}
	695
[aadf01e]	696	int sendto_core(ipcarg_t message, int socket_id, const void * data, size_t datalength, int flags, const struct sockaddr * toaddr, socklen_t addrlen){
	697	socket_ref socket;
	698	aid_t message_id;
	699	ipcarg_t result;
	700	size_t fragments;
	701	ipc_call_t answer;
[21580dd]	702
[aadf01e]	703	if(! data){
	704	return EBADMEM;
	705	}
	706	if(! datalength){
	707	return NO_DATA;
	708	}
	709	fibril_rwlock_read_lock(&socket_globals.lock);
[21580dd]	710	// find socket
[aadf01e]	711	socket = sockets_find(socket_get_sockets(), socket_id);
	712	if(! socket){
	713	fibril_rwlock_read_unlock(&socket_globals.lock);
[21580dd]	714	return ENOTSOCK;
	715	}
[aadf01e]	716	fibril_rwlock_read_lock(&socket->sending_lock);
[21580dd]	717	// compute data fragment count
[aadf01e]	718	if(socket->data_fragment_size > 0){
	719	fragments = (datalength + socket->header_size) / socket->data_fragment_size;
	720	if((datalength + socket->header_size) % socket->data_fragment_size) ++ fragments;
[ede63e4]	721	}else{
	722	fragments = 1;
	723	}
[21580dd]	724	// request send
[aadf01e]	725	message_id = async_send_5(socket->phone, message, (ipcarg_t) socket->socket_id, (fragments == 1 ? datalength : socket->data_fragment_size), socket->service, (ipcarg_t) flags, fragments, &answer);
[21580dd]	726	// send the address if given
[aadf01e]	727	if((! toaddr) \|\| (async_data_write_start(socket->phone, toaddr, addrlen) == EOK)){
	728	if(fragments == 1){
[21580dd]	729	// send all if only one fragment
[aadf01e]	730	async_data_write_start(socket->phone, data, datalength);
[21580dd]	731	}else{
	732	// send the first fragment
[aadf01e]	733	async_data_write_start(socket->phone, data, socket->data_fragment_size - socket->header_size);
	734	data = ((const uint8_t *) data) + socket->data_fragment_size - socket->header_size;
[21580dd]	735	// send the middle fragments
[aadf01e]	736	while((-- fragments) > 1){
	737	async_data_write_start(socket->phone, data, socket->data_fragment_size);
	738	data = ((const uint8_t *) data) + socket->data_fragment_size;
[21580dd]	739	}
	740	// send the last fragment
[aadf01e]	741	async_data_write_start(socket->phone, data, (datalength + socket->header_size) % socket->data_fragment_size);
[21580dd]	742	}
	743	}
[aadf01e]	744	async_wait_for(message_id, &result);
	745	if((SOCKET_GET_DATA_FRAGMENT_SIZE(answer) > 0)
	746	&& (SOCKET_GET_DATA_FRAGMENT_SIZE(answer) != socket->data_fragment_size)){
[ede63e4]	747	// set the data fragment size
[aadf01e]	748	socket->data_fragment_size = SOCKET_GET_DATA_FRAGMENT_SIZE(answer);
[ede63e4]	749	}
[aadf01e]	750	fibril_rwlock_read_unlock(&socket->sending_lock);
	751	fibril_rwlock_read_unlock(&socket_globals.lock);
	752	return (int) result;
[21580dd]	753	}
	754
[aadf01e]	755	int recv(int socket_id, void * data, size_t datalength, int flags){
[21580dd]	756	// without the address
[aadf01e]	757	return recvfrom_core(NET_SOCKET_RECV, socket_id, data, datalength, flags, NULL, NULL);
[21580dd]	758	}
	759
[aadf01e]	760	int recvfrom(int socket_id, void * data, size_t datalength, int flags, struct sockaddr * fromaddr, socklen_t * addrlen){
	761	if(! fromaddr){
	762	return EBADMEM;
	763	}
	764	if(! addrlen){
	765	return NO_DATA;
	766	}
[21580dd]	767	// with the address
[aadf01e]	768	return recvfrom_core(NET_SOCKET_RECVFROM, socket_id, data, datalength, flags, fromaddr, addrlen);
[21580dd]	769	}
	770
[aadf01e]	771	int recvfrom_core(ipcarg_t message, int socket_id, void * data, size_t datalength, int flags, struct sockaddr * fromaddr, socklen_t * addrlen){
	772	socket_ref socket;
	773	aid_t message_id;
	774	ipcarg_t ipc_result;
	775	int result;
	776	size_t fragments;
	777	size_t * lengths;
	778	size_t index;
	779	ipc_call_t answer;
	780
	781	if(! data){
	782	return EBADMEM;
	783	}
	784	if(! datalength){
	785	return NO_DATA;
	786	}
	787	if(fromaddr && (! addrlen)){
	788	return EINVAL;
	789	}
	790	fibril_rwlock_read_lock(&socket_globals.lock);
[21580dd]	791	// find the socket
[aadf01e]	792	socket = sockets_find(socket_get_sockets(), socket_id);
	793	if(! socket){
	794	fibril_rwlock_read_unlock(&socket_globals.lock);
[21580dd]	795	return ENOTSOCK;
	796	}
[aadf01e]	797	fibril_mutex_lock(&socket->receive_lock);
[21580dd]	798	// wait for a received packet
	799	++ socket->blocked;
[aadf01e]	800	while((result = dyn_fifo_value(&socket->received)) <= 0){
	801	fibril_rwlock_read_unlock(&socket_globals.lock);
	802	fibril_condvar_wait(&socket->receive_signal, &socket->receive_lock);
	803	fibril_rwlock_read_lock(&socket_globals.lock);
[21580dd]	804	}
	805	-- socket->blocked;
[aadf01e]	806	fragments = (size_t) result;
[21580dd]	807	// prepare lengths if more fragments
[aadf01e]	808	if(fragments > 1){
	809	lengths = (size_t ) malloc(sizeof(size_t) fragments + sizeof(size_t));
	810	if(! lengths){
	811	fibril_mutex_unlock(&socket->receive_lock);
	812	fibril_rwlock_read_unlock(&socket_globals.lock);
[21580dd]	813	return ENOMEM;
	814	}
	815	// request packet data
[aadf01e]	816	message_id = async_send_4(socket->phone, message, (ipcarg_t) socket->socket_id, 0, socket->service, (ipcarg_t) flags, &answer);
[21580dd]	817	// read the address if desired
[aadf01e]	818	if((! fromaddr) \|\| (async_data_read_start(socket->phone, fromaddr, * addrlen) == EOK)){
[21580dd]	819	// read the fragment lengths
[aadf01e]	820	if(async_data_read_start(socket->phone, lengths, sizeof(int) * (fragments + 1)) == EOK){
	821	if(lengths[fragments] <= datalength){
[21580dd]	822	// read all fragments if long enough
[aadf01e]	823	for(index = 0; index < fragments; ++ index){
	824	async_data_read_start(socket->phone, data, lengths[index]);
	825	data = ((uint8_t *) data) + lengths[index];
[21580dd]	826	}
	827	}
	828	}
	829	}
[aadf01e]	830	free(lengths);
[21580dd]	831	}else{
	832	// request packet data
[aadf01e]	833	message_id = async_send_4(socket->phone, message, (ipcarg_t) socket->socket_id, 0, socket->service, (ipcarg_t) flags, &answer);
[21580dd]	834	// read the address if desired
[aadf01e]	835	if((! fromaddr) \|\| (async_data_read_start(socket->phone, fromaddr, * addrlen) == EOK)){
[21580dd]	836	// read all if only one fragment
[aadf01e]	837	async_data_read_start(socket->phone, data, datalength);
[21580dd]	838	}
	839	}
[aadf01e]	840	async_wait_for(message_id, &ipc_result);
[7fb2ce3]	841	result = (int) ipc_result;
[21580dd]	842	// if successful
[aadf01e]	843	if(result == EOK){
[21580dd]	844	// dequeue the received packet
[aadf01e]	845	dyn_fifo_pop(&socket->received);
[21580dd]	846	// return read data length
[aadf01e]	847	result = SOCKET_GET_READ_DATA_LENGTH(answer);
[21580dd]	848	// set address length
[aadf01e]	849	if(fromaddr && addrlen){
	850	*addrlen = SOCKET_GET_ADDRESS_LENGTH(answer);
	851	}
[21580dd]	852	}
[aadf01e]	853	fibril_mutex_unlock(&socket->receive_lock);
	854	fibril_rwlock_read_unlock(&socket_globals.lock);
[21580dd]	855	return result;
	856	}
	857
[aadf01e]	858	int getsockopt(int socket_id, int level, int optname, void * value, size_t * optlen){
	859	socket_ref socket;
	860	aid_t message_id;
	861	ipcarg_t result;
[21580dd]	862
[aadf01e]	863	if(!(value && optlen)){
	864	return EBADMEM;
	865	}
	866	if(!(*optlen)){
	867	return NO_DATA;
	868	}
	869	fibril_rwlock_read_lock(&socket_globals.lock);
[21580dd]	870	// find the socket
[aadf01e]	871	socket = sockets_find(socket_get_sockets(), socket_id);
	872	if(! socket){
	873	fibril_rwlock_read_unlock(&socket_globals.lock);
[21580dd]	874	return ENOTSOCK;
	875	}
	876	// request option value
[aadf01e]	877	message_id = async_send_3(socket->phone, NET_SOCKET_GETSOCKOPT, (ipcarg_t) socket->socket_id, (ipcarg_t) optname, socket->service, NULL);
[21580dd]	878	// read the length
[aadf01e]	879	if(async_data_read_start(socket->phone, optlen, sizeof(*optlen)) == EOK){
[21580dd]	880	// read the value
[aadf01e]	881	async_data_read_start(socket->phone, value, * optlen);
[21580dd]	882	}
[aadf01e]	883	fibril_rwlock_read_unlock(&socket_globals.lock);
	884	async_wait_for(message_id, &result);
	885	return (int) result;
[21580dd]	886	}
	887
[aadf01e]	888	int setsockopt(int socket_id, int level, int optname, const void * value, size_t optlen){
[21580dd]	889	// send the value
[aadf01e]	890	return socket_send_data(socket_id, NET_SOCKET_SETSOCKOPT, (ipcarg_t) optname, value, optlen);
[21580dd]	891
	892	}
	893
	894	/** @}
	895	*/

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