1*5570Svk199839 /* $OpenBSD: socks.c,v 1.17 2006/09/25 04:51:20 ray Exp $ */
2*5570Svk199839
3*5570Svk199839 /*
4*5570Svk199839 * Copyright (c) 1999 Niklas Hallqvist. All rights reserved.
5*5570Svk199839 * Copyright (c) 2004, 2005 Damien Miller. All rights reserved.
6*5570Svk199839 *
7*5570Svk199839 * Redistribution and use in source and binary forms, with or without
8*5570Svk199839 * modification, are permitted provided that the following conditions
9*5570Svk199839 * are met:
10*5570Svk199839 * 1. Redistributions of source code must retain the above copyright
11*5570Svk199839 * notice, this list of conditions and the following disclaimer.
12*5570Svk199839 * 2. Redistributions in binary form must reproduce the above copyright
13*5570Svk199839 * notice, this list of conditions and the following disclaimer in the
14*5570Svk199839 * documentation and/or other materials provided with the distribution.
15*5570Svk199839 *
16*5570Svk199839 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
17*5570Svk199839 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
18*5570Svk199839 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
19*5570Svk199839 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
20*5570Svk199839 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
21*5570Svk199839 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
22*5570Svk199839 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
23*5570Svk199839 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
24*5570Svk199839 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
25*5570Svk199839 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26*5570Svk199839 */
27*5570Svk199839
28*5570Svk199839 #pragma ident "%Z%%M% %I% %E% SMI"
29*5570Svk199839
30*5570Svk199839 #include <sys/types.h>
31*5570Svk199839 #include <sys/socket.h>
32*5570Svk199839 #include <netinet/in.h>
33*5570Svk199839 #include <arpa/inet.h>
34*5570Svk199839
35*5570Svk199839 #include <err.h>
36*5570Svk199839 #include <errno.h>
37*5570Svk199839 #include <netdb.h>
38*5570Svk199839 #include <stdio.h>
39*5570Svk199839 #include <stdlib.h>
40*5570Svk199839 #include <string.h>
41*5570Svk199839 #include <unistd.h>
42*5570Svk199839 #include <resolv.h>
43*5570Svk199839 #include <strings.h>
44*5570Svk199839 #include "atomicio.h"
45*5570Svk199839
46*5570Svk199839 #define SOCKS_PORT "1080"
47*5570Svk199839 #define HTTP_PROXY_PORT "3128"
48*5570Svk199839 #define HTTP_MAXHDRS 64
49*5570Svk199839 #define SOCKS_V5 5
50*5570Svk199839 #define SOCKS_V4 4
51*5570Svk199839 #define SOCKS_NOAUTH 0
52*5570Svk199839 #define SOCKS_NOMETHOD 0xff
53*5570Svk199839 #define SOCKS_CONNECT 1
54*5570Svk199839 #define SOCKS_IPV4 1
55*5570Svk199839 #define SOCKS_DOMAIN 3
56*5570Svk199839 #define SOCKS_IPV6 4
57*5570Svk199839
58*5570Svk199839 #define HTTP_10_407 "HTTP/1.0 407 "
59*5570Svk199839 #define HTTP_10_200 "HTTP/1.0 200 "
60*5570Svk199839 #define HTTP_11_200 "HTTP/1.1 200 "
61*5570Svk199839
62*5570Svk199839 int remote_connect(const char *, const char *, struct addrinfo);
63*5570Svk199839 int socks_connect(const char *, const char *,
64*5570Svk199839 const char *, const char *, struct addrinfo, int,
65*5570Svk199839 const char *);
66*5570Svk199839
67*5570Svk199839 /*
68*5570Svk199839 * Convert string representation of host (h) and service/port (p) into
69*5570Svk199839 * sockaddr structure and return 0 on success, -1 on failure.
70*5570Svk199839 * Indicate whether the host address is IPv4 (v4only) and numeric.
71*5570Svk199839 */
72*5570Svk199839 static int
decode_addrport(const char * h,const char * p,struct sockaddr * addr,socklen_t addrlen,int v4only,int numeric)73*5570Svk199839 decode_addrport(const char *h, const char *p, struct sockaddr *addr,
74*5570Svk199839 socklen_t addrlen, int v4only, int numeric)
75*5570Svk199839 {
76*5570Svk199839 int r;
77*5570Svk199839 struct addrinfo hints, *res;
78*5570Svk199839
79*5570Svk199839 bzero(&hints, sizeof (hints));
80*5570Svk199839 hints.ai_family = v4only ? PF_INET : PF_UNSPEC;
81*5570Svk199839 hints.ai_flags = numeric ? AI_NUMERICHOST : 0;
82*5570Svk199839 hints.ai_socktype = SOCK_STREAM;
83*5570Svk199839 r = getaddrinfo(h, p, &hints, &res);
84*5570Svk199839 /* Don't fatal when attempting to convert a numeric address */
85*5570Svk199839 if (r != 0) {
86*5570Svk199839 if (!numeric) {
87*5570Svk199839 errx(1, "getaddrinfo(\"%.64s\", \"%.64s\"): %s", h, p,
88*5570Svk199839 gai_strerror(r));
89*5570Svk199839 }
90*5570Svk199839 return (-1);
91*5570Svk199839 }
92*5570Svk199839 if (addrlen < res->ai_addrlen) {
93*5570Svk199839 freeaddrinfo(res);
94*5570Svk199839 errx(1, "internal error: addrlen < res->ai_addrlen");
95*5570Svk199839 }
96*5570Svk199839 (void) memcpy(addr, res->ai_addr, res->ai_addrlen);
97*5570Svk199839 freeaddrinfo(res);
98*5570Svk199839 return (0);
99*5570Svk199839 }
100*5570Svk199839
101*5570Svk199839 /*
102*5570Svk199839 * Read single line from a descriptor into buffer up to bufsz bytes,
103*5570Svk199839 * byte by byte. Returns length of the line (including ending NULL),
104*5570Svk199839 * exits upon failure.
105*5570Svk199839 */
106*5570Svk199839 static int
proxy_read_line(int fd,char * buf,size_t bufsz)107*5570Svk199839 proxy_read_line(int fd, char *buf, size_t bufsz)
108*5570Svk199839 {
109*5570Svk199839 size_t off;
110*5570Svk199839
111*5570Svk199839 for (off = 0; ; ) {
112*5570Svk199839 if (off >= bufsz)
113*5570Svk199839 errx(1, "proxy read too long");
114*5570Svk199839 if (atomicio(read, fd, buf + off, 1) != 1)
115*5570Svk199839 err(1, "proxy read");
116*5570Svk199839 /* Skip CR */
117*5570Svk199839 if (buf[off] == '\r')
118*5570Svk199839 continue;
119*5570Svk199839 if (buf[off] == '\n') {
120*5570Svk199839 buf[off] = '\0';
121*5570Svk199839 break;
122*5570Svk199839 }
123*5570Svk199839 /*
124*5570Svk199839 * we rewite \r\n to NULL since socks_connect() relies
125*5570Svk199839 * on *buf being zero in that case.
126*5570Svk199839 */
127*5570Svk199839 off++;
128*5570Svk199839 }
129*5570Svk199839 return (off);
130*5570Svk199839 }
131*5570Svk199839
132*5570Svk199839 /*
133*5570Svk199839 * Read proxy password from user and return it. The arguments are used
134*5570Svk199839 * only for prompt construction.
135*5570Svk199839 */
136*5570Svk199839 static const char *
getproxypass(const char * proxyuser,const char * proxyhost)137*5570Svk199839 getproxypass(const char *proxyuser, const char *proxyhost)
138*5570Svk199839 {
139*5570Svk199839 char prompt[512];
140*5570Svk199839 const char *pw;
141*5570Svk199839
142*5570Svk199839 (void) snprintf(prompt, sizeof (prompt), "Proxy password for %s@%s: ",
143*5570Svk199839 proxyuser, proxyhost);
144*5570Svk199839 if ((pw = getpassphrase(prompt)) == NULL)
145*5570Svk199839 errx(1, "Unable to read proxy passphrase");
146*5570Svk199839 return (pw);
147*5570Svk199839 }
148*5570Svk199839
149*5570Svk199839 /* perform connection via proxy using SOCKSv[45] or HTTP proxy CONNECT */
150*5570Svk199839 int
socks_connect(const char * host,const char * port,const char * proxyhost,const char * proxyport,struct addrinfo proxyhints,int socksv,const char * proxyuser)151*5570Svk199839 socks_connect(const char *host, const char *port, const char *proxyhost,
152*5570Svk199839 const char *proxyport, struct addrinfo proxyhints, int socksv,
153*5570Svk199839 const char *proxyuser)
154*5570Svk199839 {
155*5570Svk199839 int proxyfd, r, authretry = 0;
156*5570Svk199839 size_t hlen, wlen;
157*5570Svk199839 char buf[1024];
158*5570Svk199839 size_t cnt;
159*5570Svk199839 struct sockaddr_storage addr;
160*5570Svk199839 struct sockaddr_in *in4 = (struct sockaddr_in *)&addr;
161*5570Svk199839 struct sockaddr_in6 *in6 = (struct sockaddr_in6 *)&addr;
162*5570Svk199839 in_port_t serverport;
163*5570Svk199839 const char *proxypass = NULL;
164*5570Svk199839
165*5570Svk199839 if (proxyport == NULL)
166*5570Svk199839 proxyport = (socksv == -1) ? HTTP_PROXY_PORT : SOCKS_PORT;
167*5570Svk199839
168*5570Svk199839 /* Abuse API to lookup port */
169*5570Svk199839 if (decode_addrport("0.0.0.0", port, (struct sockaddr *)&addr,
170*5570Svk199839 sizeof (addr), 1, 1) == -1)
171*5570Svk199839 errx(1, "unknown port \"%.64s\"", port);
172*5570Svk199839 serverport = in4->sin_port;
173*5570Svk199839
174*5570Svk199839 again:
175*5570Svk199839 if (authretry++ > 3)
176*5570Svk199839 errx(1, "Too many authentication failures");
177*5570Svk199839
178*5570Svk199839 proxyfd = remote_connect(proxyhost, proxyport, proxyhints);
179*5570Svk199839
180*5570Svk199839 if (proxyfd < 0)
181*5570Svk199839 return (-1);
182*5570Svk199839
183*5570Svk199839 if (socksv == 5) {
184*5570Svk199839 if (decode_addrport(host, port, (struct sockaddr *)&addr,
185*5570Svk199839 sizeof (addr), 0, 1) == -1)
186*5570Svk199839 addr.ss_family = 0; /* used in switch below */
187*5570Svk199839
188*5570Svk199839 /* Version 5, one method: no authentication */
189*5570Svk199839 buf[0] = SOCKS_V5;
190*5570Svk199839 buf[1] = 1;
191*5570Svk199839 buf[2] = SOCKS_NOAUTH;
192*5570Svk199839 cnt = atomicio(vwrite, proxyfd, buf, 3);
193*5570Svk199839 if (cnt != 3)
194*5570Svk199839 err(1, "write failed (%d/3)", cnt);
195*5570Svk199839
196*5570Svk199839 cnt = atomicio(read, proxyfd, buf, 2);
197*5570Svk199839 if (cnt != 2)
198*5570Svk199839 err(1, "read failed (%d/3)", cnt);
199*5570Svk199839
200*5570Svk199839 if ((unsigned char)buf[1] == SOCKS_NOMETHOD)
201*5570Svk199839 errx(1, "authentication method negotiation failed");
202*5570Svk199839
203*5570Svk199839 switch (addr.ss_family) {
204*5570Svk199839 case 0:
205*5570Svk199839 /* Version 5, connect: domain name */
206*5570Svk199839
207*5570Svk199839 /* Max domain name length is 255 bytes */
208*5570Svk199839 hlen = strlen(host);
209*5570Svk199839 if (hlen > 255)
210*5570Svk199839 errx(1, "host name too long for SOCKS5");
211*5570Svk199839 buf[0] = SOCKS_V5;
212*5570Svk199839 buf[1] = SOCKS_CONNECT;
213*5570Svk199839 buf[2] = 0;
214*5570Svk199839 buf[3] = SOCKS_DOMAIN;
215*5570Svk199839 buf[4] = hlen;
216*5570Svk199839 (void) memcpy(buf + 5, host, hlen);
217*5570Svk199839 (void) memcpy(buf + 5 + hlen, &serverport,
218*5570Svk199839 sizeof (serverport));
219*5570Svk199839 wlen = 5 + hlen + sizeof (serverport);
220*5570Svk199839 break;
221*5570Svk199839 case AF_INET:
222*5570Svk199839 /* Version 5, connect: IPv4 address */
223*5570Svk199839 buf[0] = SOCKS_V5;
224*5570Svk199839 buf[1] = SOCKS_CONNECT;
225*5570Svk199839 buf[2] = 0;
226*5570Svk199839 buf[3] = SOCKS_IPV4;
227*5570Svk199839 (void) memcpy(buf + 4, &in4->sin_addr,
228*5570Svk199839 sizeof (in4->sin_addr));
229*5570Svk199839 (void) memcpy(buf + 8, &in4->sin_port,
230*5570Svk199839 sizeof (in4->sin_port));
231*5570Svk199839 wlen = 4 + sizeof (in4->sin_addr) +
232*5570Svk199839 sizeof (in4->sin_port);
233*5570Svk199839 break;
234*5570Svk199839 case AF_INET6:
235*5570Svk199839 /* Version 5, connect: IPv6 address */
236*5570Svk199839 buf[0] = SOCKS_V5;
237*5570Svk199839 buf[1] = SOCKS_CONNECT;
238*5570Svk199839 buf[2] = 0;
239*5570Svk199839 buf[3] = SOCKS_IPV6;
240*5570Svk199839 (void) memcpy(buf + 4, &in6->sin6_addr,
241*5570Svk199839 sizeof (in6->sin6_addr));
242*5570Svk199839 (void) memcpy(buf + 20, &in6->sin6_port,
243*5570Svk199839 sizeof (in6->sin6_port));
244*5570Svk199839 wlen = 4 + sizeof (in6->sin6_addr) +
245*5570Svk199839 sizeof (in6->sin6_port);
246*5570Svk199839 break;
247*5570Svk199839 default:
248*5570Svk199839 errx(1, "internal error: silly AF");
249*5570Svk199839 }
250*5570Svk199839
251*5570Svk199839 cnt = atomicio(vwrite, proxyfd, buf, wlen);
252*5570Svk199839 if (cnt != wlen)
253*5570Svk199839 err(1, "write failed (%d/%d)", cnt, wlen);
254*5570Svk199839
255*5570Svk199839 /*
256*5570Svk199839 * read proxy reply which is 4 byte "header", BND.ADDR
257*5570Svk199839 * and BND.PORT according to RFC 1928, section 6. BND.ADDR
258*5570Svk199839 * is 4 bytes in case of IPv4 which gives us 10 bytes in sum.
259*5570Svk199839 */
260*5570Svk199839 cnt = atomicio(read, proxyfd, buf, 10);
261*5570Svk199839 if (cnt != 10)
262*5570Svk199839 err(1, "read failed (%d/10)", cnt);
263*5570Svk199839 if (buf[1] != 0)
264*5570Svk199839 errx(1, "connection failed, SOCKS error %d", buf[1]);
265*5570Svk199839 } else if (socksv == 4) {
266*5570Svk199839 /* This will exit on lookup failure */
267*5570Svk199839 (void) decode_addrport(host, port, (struct sockaddr *)&addr,
268*5570Svk199839 sizeof (addr), 1, 0);
269*5570Svk199839
270*5570Svk199839 /* Version 4 */
271*5570Svk199839 buf[0] = SOCKS_V4;
272*5570Svk199839 buf[1] = SOCKS_CONNECT; /* connect */
273*5570Svk199839 (void) memcpy(buf + 2, &in4->sin_port, sizeof (in4->sin_port));
274*5570Svk199839 (void) memcpy(buf + 4, &in4->sin_addr, sizeof (in4->sin_addr));
275*5570Svk199839 buf[8] = 0; /* empty username */
276*5570Svk199839 wlen = 9;
277*5570Svk199839
278*5570Svk199839 cnt = atomicio(vwrite, proxyfd, buf, wlen);
279*5570Svk199839 if (cnt != wlen)
280*5570Svk199839 err(1, "write failed (%d/%d)", cnt, wlen);
281*5570Svk199839
282*5570Svk199839 /*
283*5570Svk199839 * SOCKSv4 proxy replies consists of 2 byte "header",
284*5570Svk199839 * port number and numeric IPv4 address which gives 8 bytes.
285*5570Svk199839 */
286*5570Svk199839 cnt = atomicio(read, proxyfd, buf, 8);
287*5570Svk199839 if (cnt != 8)
288*5570Svk199839 err(1, "read failed (%d/8)", cnt);
289*5570Svk199839 if (buf[1] != 90)
290*5570Svk199839 errx(1, "connection failed, SOCKS error %d", buf[1]);
291*5570Svk199839 } else if (socksv == -1) {
292*5570Svk199839 /* HTTP proxy CONNECT according to RFC 2817, section 5 */
293*5570Svk199839
294*5570Svk199839 /* Disallow bad chars in hostname */
295*5570Svk199839 if (strcspn(host, "\r\n\t []:") != strlen(host))
296*5570Svk199839 errx(1, "Invalid hostname");
297*5570Svk199839
298*5570Svk199839 /* Try to be sane about numeric IPv6 addresses */
299*5570Svk199839 if (strchr(host, ':') != NULL) {
300*5570Svk199839 r = snprintf(buf, sizeof (buf),
301*5570Svk199839 "CONNECT [%s]:%d HTTP/1.0\r\n",
302*5570Svk199839 host, ntohs(serverport));
303*5570Svk199839 } else {
304*5570Svk199839 r = snprintf(buf, sizeof (buf),
305*5570Svk199839 "CONNECT %s:%d HTTP/1.0\r\n",
306*5570Svk199839 host, ntohs(serverport));
307*5570Svk199839 }
308*5570Svk199839 if (r == -1 || (size_t)r >= sizeof (buf))
309*5570Svk199839 errx(1, "hostname too long");
310*5570Svk199839 r = strlen(buf);
311*5570Svk199839
312*5570Svk199839 cnt = atomicio(vwrite, proxyfd, buf, r);
313*5570Svk199839 if (cnt != r)
314*5570Svk199839 err(1, "write failed (%d/%d)", cnt, r);
315*5570Svk199839
316*5570Svk199839 if (authretry > 1) {
317*5570Svk199839 char resp[1024];
318*5570Svk199839
319*5570Svk199839 proxypass = getproxypass(proxyuser, proxyhost);
320*5570Svk199839 r = snprintf(buf, sizeof (buf), "%s:%s",
321*5570Svk199839 proxyuser, proxypass);
322*5570Svk199839 free((void *)proxypass);
323*5570Svk199839 if (r == -1 || (size_t)r >= sizeof (buf) ||
324*5570Svk199839 b64_ntop((unsigned char *)buf, strlen(buf), resp,
325*5570Svk199839 sizeof (resp)) == -1)
326*5570Svk199839 errx(1, "Proxy username/password too long");
327*5570Svk199839 r = snprintf(buf, sizeof (buf), "Proxy-Authorization: "
328*5570Svk199839 "Basic %s\r\n", resp);
329*5570Svk199839 if (r == -1 || (size_t)r >= sizeof (buf))
330*5570Svk199839 errx(1, "Proxy auth response too long");
331*5570Svk199839 r = strlen(buf);
332*5570Svk199839 if ((cnt = atomicio(vwrite, proxyfd, buf, r)) != r)
333*5570Svk199839 err(1, "write failed (%d/%d)", cnt, r);
334*5570Svk199839 }
335*5570Svk199839
336*5570Svk199839 /* Terminate headers */
337*5570Svk199839 if ((r = atomicio(vwrite, proxyfd, "\r\n", 2)) != 2)
338*5570Svk199839 err(1, "write failed (2/%d)", r);
339*5570Svk199839
340*5570Svk199839 /* Read status reply */
341*5570Svk199839 (void) proxy_read_line(proxyfd, buf, sizeof (buf));
342*5570Svk199839 if (proxyuser != NULL &&
343*5570Svk199839 strncmp(buf, HTTP_10_407, strlen(HTTP_10_407)) == 0) {
344*5570Svk199839 if (authretry > 1) {
345*5570Svk199839 (void) fprintf(stderr, "Proxy authentication "
346*5570Svk199839 "failed\n");
347*5570Svk199839 }
348*5570Svk199839 (void) close(proxyfd);
349*5570Svk199839 goto again;
350*5570Svk199839 } else if (strncmp(buf, HTTP_10_200,
351*5570Svk199839 strlen(HTTP_10_200)) != 0 && strncmp(buf, HTTP_11_200,
352*5570Svk199839 strlen(HTTP_11_200)) != 0)
353*5570Svk199839 errx(1, "Proxy error: \"%s\"", buf);
354*5570Svk199839
355*5570Svk199839 /* Headers continue until we hit an empty line */
356*5570Svk199839 for (r = 0; r < HTTP_MAXHDRS; r++) {
357*5570Svk199839 (void) proxy_read_line(proxyfd, buf, sizeof (buf));
358*5570Svk199839 if (*buf == '\0')
359*5570Svk199839 break;
360*5570Svk199839 }
361*5570Svk199839 if (*buf != '\0')
362*5570Svk199839 errx(1, "Too many proxy headers received");
363*5570Svk199839 } else
364*5570Svk199839 errx(1, "Unknown proxy protocol %d", socksv);
365*5570Svk199839
366*5570Svk199839 return (proxyfd);
367*5570Svk199839 }
368