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

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lfn serial ticket/834-toolchain-update topic/msim-upgrade topic/simplify-dev-export

Last change on this file since aadf01e was aadf01e, checked in by Lukas Mejdrech <lukasmejdrech@…>, 15 years ago
Coding style (no functional change)
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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 common core implementation.
35	*/
36
37	#include <limits.h>
38	#include <stdlib.h>
39
40	#include "../err.h"
41
42	#include "../include/in.h"
43	#include "../include/inet.h"
44
45	#include "../include/socket_codes.h"
46	#include "../include/socket_errno.h"
47
48	#include "../structures/dynamic_fifo.h"
49	#include "../structures/int_map.h"
50	#include "../structures/packet/packet.h"
51	#include "../structures/packet/packet_client.h"
52
53	#include "../modules.h"
54
55	#include "socket_core.h"
56
57	/** Maximum number of random attempts to find a new socket identifier before switching to the sequence.
58	*/
59	#define SOCKET_ID_TRIES 100
60
61	/** Bound port sockets.
62	*/
63	struct socket_port{
64	/** The bound sockets map.
65	*/
66	socket_port_map_t map;
67	/** The bound sockets count.
68	*/
69	int count;
70	};
71
72	/** Binds the socket to the port.
73	* The SOCKET_MAP_KEY_LISTENING key identifier is used.
74	* @param[in] global_sockets The global sockets to be updated.
75	* @param[in] socket The socket to be added.
76	* @param[in] port The port number to be bound to.
77	* @returns EOK on success.
78	* @returns ENOMEM if there is not enough memory left.
79	* @returns Other error codes as defined for the socket_ports_add() function.
80	*/
81	int socket_bind_insert(socket_ports_ref global_sockets, socket_core_ref socket, int port);
82
83	/** Destroys the socket.
84	* If the socket is bound, the port is released.
85	* Releases all buffered packets, calls the release function and removes the socket from the local sockets.
86	* @param[in] packet_phone The packet server phone to release buffered packets.
87	* @param[in] socket The socket to be destroyed.
88	* @param[in,out] local_sockets The local sockets to be updated.
89	* @param[in,out] global_sockets The global sockets to be updated.
90	* @param[in] socket_release The client release callback function.
91	*/
92	void socket_destroy_core(int packet_phone, socket_core_ref socket, socket_cores_ref local_sockets, socket_ports_ref global_sockets, void (*socket_release)(socket_core_ref socket));
93
94	/** Adds the socket to a socket port.
95	* @param[in,out] socket_port The socket port structure.
96	* @param[in] socket The socket to be added.
97	* @param[in] key The socket key identifier.
98	* @param[in] key_length The socket key length.
99	* @returns EOK on success.
100	* @returns ENOMEM if there is not enough memory left.
101	*/
102	int socket_port_add_core(socket_port_ref socket_port, socket_core_ref socket, const char * key, size_t key_length);
103
104	/** Tries to find a new free socket identifier.
105	* @param[in] local_sockets The local sockets to be searched.
106	* @param[in] positive A value indicating whether a positive identifier is requested. A negative identifier is requested if set to false.
107	* @returns The new socket identifier.
108	* @returns ELIMIT if there is no socket identifier available.
109	*/
110	static int socket_generate_new_id(socket_cores_ref local_sockets, int positive);
111
112	INT_MAP_IMPLEMENT(socket_cores, socket_core_t);
113
114	GENERIC_CHAR_MAP_IMPLEMENT(socket_port_map, socket_core_ref);
115
116	INT_MAP_IMPLEMENT(socket_ports, socket_port_t);
117
118	void socket_cores_release(int packet_phone, socket_cores_ref local_sockets, socket_ports_ref global_sockets, void (*socket_release)(socket_core_ref socket)){
119	if(socket_cores_is_valid(local_sockets)){
120	int index;
121
122	local_sockets->magic = 0;
123	for(index = 0; index < local_sockets->next; ++ index){
124	if(socket_cores_item_is_valid(&(local_sockets->items[index]))){
125	local_sockets->items[index].magic = 0;
126	if(local_sockets->items[index].value){
127	socket_destroy_core(packet_phone, local_sockets->items[index].value, local_sockets, global_sockets, socket_release);
128	free(local_sockets->items[index].value);
129	local_sockets->items[index].value = NULL;
130	}
131	}
132	}
133	free(local_sockets->items);
134	}
135	}
136
137	void socket_destroy_core(int packet_phone, socket_core_ref socket, socket_cores_ref local_sockets, socket_ports_ref global_sockets, void (*socket_release)(socket_core_ref socket)){
138	int packet_id;
139
140	// if bound
141	if(socket->port){
142	// release the port
143	socket_port_release(global_sockets, socket);
144	}
145	// release all received packets
146	while((packet_id = dyn_fifo_pop(&socket->received)) >= 0){
147	pq_release(packet_phone, packet_id);
148	}
149	dyn_fifo_destroy(&socket->received);
150	dyn_fifo_destroy(&socket->accepted);
151	if(socket_release){
152	socket_release(socket);
153	}
154	socket_cores_exclude(local_sockets, socket->socket_id);
155	}
156
157	int socket_bind(socket_cores_ref local_sockets, socket_ports_ref global_sockets, int socket_id, void * addr, size_t addrlen, int free_ports_start, int free_ports_end, int last_used_port){
158	socket_core_ref socket;
159	socket_port_ref socket_port;
160	struct sockaddr * address;
161	struct sockaddr_in * address_in;
162
163	if(addrlen < sizeof(struct sockaddr)){
164	return EINVAL;
165	}
166	address = (struct sockaddr *) addr;
167	switch(address->sa_family){
168	case AF_INET:
169	if(addrlen != sizeof(struct sockaddr_in)){
170	return EINVAL;
171	}
172	address_in = (struct sockaddr_in *) addr;
173	// find the socket
174	socket = socket_cores_find(local_sockets, socket_id);
175	if(! socket){
176	return ENOTSOCK;
177	}
178	// bind a free port?
179	if(address_in->sin_port <= 0){
180	return socket_bind_free_port(global_sockets, socket, free_ports_start, free_ports_end, last_used_port);
181	}
182	// try to find the port
183	socket_port = socket_ports_find(global_sockets, ntohs(address_in->sin_port));
184	if(socket_port){
185	// already used
186	return EADDRINUSE;
187	}
188	// if bound
189	if(socket->port){
190	// release the port
191	socket_port_release(global_sockets, socket);
192	}
193	socket->port = -1;
194	return socket_bind_insert(global_sockets, socket, ntohs(address_in->sin_port));
195	break;
196	// TODO IPv6
197	}
198	return EAFNOSUPPORT;
199	}
200
201	int socket_bind_free_port(socket_ports_ref global_sockets, socket_core_ref socket, int free_ports_start, int free_ports_end, int last_used_port){
202	int index;
203
204	// from the last used one
205	index = last_used_port;
206	do{
207	++ index;
208	// til the range end
209	if(index >= free_ports_end){
210	// start from the range beginning
211	index = free_ports_start - 1;
212	do{
213	++ index;
214	// til the last used one
215	if(index >= last_used_port){
216	// none found
217	return ENOTCONN;
218	}
219	}while(socket_ports_find(global_sockets, index) != NULL);
220	// found, break immediately
221	break;
222	}
223	}while(socket_ports_find(global_sockets, index) != NULL);
224	return socket_bind_insert(global_sockets, socket, index);
225	}
226
227	int socket_bind_insert(socket_ports_ref global_sockets, socket_core_ref socket, int port){
228	ERROR_DECLARE;
229
230	socket_port_ref socket_port;
231
232	// create a wrapper
233	socket_port = malloc(sizeof(*socket_port));
234	if(! socket_port){
235	return ENOMEM;
236	}
237	socket_port->count = 0;
238	if(ERROR_OCCURRED(socket_port_map_initialize(&socket_port->map))
239	\|\| ERROR_OCCURRED(socket_port_add_core(socket_port, socket, SOCKET_MAP_KEY_LISTENING, 0))){
240	socket_port_map_destroy(&socket_port->map);
241	free(socket_port);
242	return ERROR_CODE;
243	}
244	// register the incomming port
245	ERROR_CODE = socket_ports_add(global_sockets, port, socket_port);
246	if(ERROR_CODE < 0){
247	socket_port_map_destroy(&socket_port->map);
248	free(socket_port);
249	return ERROR_CODE;
250	}
251	socket->port = port;
252	return EOK;
253	}
254
255
256	static int socket_generate_new_id(socket_cores_ref local_sockets, int positive){
257	int socket_id;
258	int count;
259
260	count = 0;
261	// socket_id = socket_globals.last_id;
262	do{
263	if(count < SOCKET_ID_TRIES){
264	socket_id = rand() % INT_MAX;
265	++ count;
266	}else if(count == SOCKET_ID_TRIES){
267	socket_id = 1;
268	++ count;
269	// only this branch for last_id
270	}else{
271	if(socket_id < INT_MAX){
272	++ socket_id;
273	/* }else if(socket_globals.last_id){
274	* socket_globals.last_id = 0;
275	* socket_id = 1;
276	*/ }else{
277	return ELIMIT;
278	}
279	}
280	}while(socket_cores_find(local_sockets, ((positive ? 1 : -1) * socket_id)));
281	// last_id = socket_id
282	return socket_id;
283	}
284
285	int socket_create(socket_cores_ref local_sockets, int app_phone, void * specific_data, int * socket_id){
286	ERROR_DECLARE;
287
288	socket_core_ref socket;
289	int res;
290	int positive;
291
292	if(! socket_id){
293	return EINVAL;
294	}
295	// store the socket
296	if(*socket_id <= 0){
297	positive = (*socket_id == 0);
298	*socket_id = socket_generate_new_id(local_sockets, positive);
299	if(*socket_id <= 0){
300	return * socket_id;
301	}
302	if(! positive){
303	socket_id = -1;
304	}
305	}else if(socket_cores_find(local_sockets, * socket_id)){
306	return EEXIST;
307	}
308	socket = (socket_core_ref) malloc(sizeof(*socket));
309	if(! socket){
310	return ENOMEM;
311	}
312	// initialize
313	socket->phone = app_phone;
314	socket->port = -1;
315	socket->key = NULL;
316	socket->key_length = 0;
317	socket->specific_data = specific_data;
318	if(ERROR_OCCURRED(dyn_fifo_initialize(&socket->received, SOCKET_INITIAL_RECEIVED_SIZE))){
319	free(socket);
320	return ERROR_CODE;
321	}
322	if(ERROR_OCCURRED(dyn_fifo_initialize(&socket->accepted, SOCKET_INITIAL_ACCEPTED_SIZE))){
323	dyn_fifo_destroy(&socket->received);
324	free(socket);
325	return ERROR_CODE;
326	}
327	socket->socket_id = * socket_id;
328	res = socket_cores_add(local_sockets, socket->socket_id, socket);
329	if(res < 0){
330	dyn_fifo_destroy(&socket->received);
331	dyn_fifo_destroy(&socket->accepted);
332	free(socket);
333	return res;
334	}
335	return EOK;
336	}
337
338	int socket_destroy(int packet_phone, int socket_id, socket_cores_ref local_sockets, socket_ports_ref global_sockets, void (*socket_release)(socket_core_ref socket)){
339	socket_core_ref socket;
340	int accepted_id;
341
342	// find the socket
343	socket = socket_cores_find(local_sockets, socket_id);
344	if(! socket){
345	return ENOTSOCK;
346	}
347	// destroy all accepted sockets
348	while((accepted_id = dyn_fifo_pop(&socket->accepted)) >= 0){
349	socket_destroy(packet_phone, accepted_id, local_sockets, global_sockets, socket_release);
350	}
351	socket_destroy_core(packet_phone, socket, local_sockets, global_sockets, socket_release);
352	return EOK;
353	}
354
355	int socket_reply_packets(packet_t packet, size_t * length){
356	ERROR_DECLARE;
357
358	packet_t next_packet;
359	size_t fragments;
360	size_t * lengths;
361	size_t index;
362
363	if(! length){
364	return EBADMEM;
365	}
366	next_packet = pq_next(packet);
367	if(! next_packet){
368	// write all if only one fragment
369	ERROR_PROPAGATE(data_reply(packet_get_data(packet), packet_get_data_length(packet)));
370	// store the total length
371	*length = packet_get_data_length(packet);
372	}else{
373	// count the packet fragments
374	fragments = 1;
375	next_packet = pq_next(packet);
376	while((next_packet = pq_next(next_packet))){
377	++ fragments;
378	}
379	// compute and store the fragment lengths
380	lengths = (size_t ) malloc(sizeof(size_t) fragments + sizeof(size_t));
381	if(! lengths){
382	return ENOMEM;
383	}
384	lengths[0] = packet_get_data_length(packet);
385	lengths[fragments] = lengths[0];
386	next_packet = pq_next(packet);
387	for(index = 1; index < fragments; ++ index){
388	lengths[index] = packet_get_data_length(next_packet);
389	lengths[fragments] += lengths[index];
390	next_packet = pq_next(packet);
391	}while(next_packet);
392	// write the fragment lengths
393	ERROR_PROPAGATE(data_reply(lengths, sizeof(int) * (fragments + 1)));
394	next_packet = packet;
395	// write the fragments
396	for(index = 0; index < fragments; ++ index){
397	ERROR_PROPAGATE(data_reply(packet_get_data(next_packet), lengths[index]));
398	next_packet = pq_next(next_packet);
399	}while(next_packet);
400	// store the total length
401	*length = lengths[fragments];
402	free(lengths);
403	}
404	return EOK;
405	}
406
407	socket_core_ref socket_port_find(socket_ports_ref global_sockets, int port, const char * key, size_t key_length){
408	socket_port_ref socket_port;
409	socket_core_ref * socket_ref;
410
411	socket_port = socket_ports_find(global_sockets, port);
412	if(socket_port && (socket_port->count > 0)){
413	socket_ref = socket_port_map_find(&socket_port->map, key, key_length);
414	if(socket_ref){
415	return * socket_ref;
416	}
417	}
418	return NULL;
419	}
420
421	void socket_port_release(socket_ports_ref global_sockets, socket_core_ref socket){
422	socket_port_ref socket_port;
423	socket_core_ref * socket_ref;
424
425	if(socket->port){
426	// find ports
427	socket_port = socket_ports_find(global_sockets, socket->port);
428	if(socket_port){
429	// find the socket
430	socket_ref = socket_port_map_find(&socket_port->map, socket->key, socket->key_length);
431	if(socket_ref){
432	-- socket_port->count;
433	// release if empty
434	if(socket_port->count <= 0){
435	// destroy the map
436	socket_port_map_destroy(&socket_port->map);
437	// release the port
438	socket_ports_exclude(global_sockets, socket->port);
439	}else{
440	// remove
441	socket_port_map_exclude(&socket_port->map, socket->key, socket->key_length);
442	}
443	}
444	}
445	socket->port = 0;
446	socket->key = NULL;
447	socket->key_length = 0;
448	}
449	}
450
451	int socket_port_add(socket_ports_ref global_sockets, int port, socket_core_ref socket, const char * key, size_t key_length){
452	ERROR_DECLARE;
453
454	socket_port_ref socket_port;
455
456	// find ports
457	socket_port = socket_ports_find(global_sockets, port);
458	if(! socket_port){
459	return ENOENT;
460	}
461	// add the socket
462	ERROR_PROPAGATE(socket_port_add_core(socket_port, socket, key, key_length));
463	socket->port = port;
464	return EOK;
465	}
466
467	int socket_port_add_core(socket_port_ref socket_port, socket_core_ref socket, const char * key, size_t key_length){
468	ERROR_DECLARE;
469
470	socket_core_ref * socket_ref;
471
472	// create a wrapper
473	socket_ref = malloc(sizeof(*socket_ref));
474	if(! socket_ref){
475	return ENOMEM;
476	}
477	*socket_ref = socket;
478	// add the wrapper
479	if(ERROR_OCCURRED(socket_port_map_add(&socket_port->map, key, key_length, socket_ref))){
480	free(socket_ref);
481	return ERROR_CODE;
482	}
483	++ socket_port->count;
484	socket->key = key;
485	socket->key_length = key_length;
486	return EOK;
487	}
488
489	/** @}
490	*/

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