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psyced/world/net/socks/protocol.c

224 lines
5 KiB
C

// vim:syntax=lpc:ts=8
/* implementation of the socks5 protocl
* http://tools.ietf.org/html/rfc1928
*/
#include <net.h>
#include <input_to.h>
#include "socks.h"
volatile int state;
volatile int addrtype;
volatile string buffer;
volatile mapping authmechs = ([ AUTHMECH_ANON : 1, AUTHMECH_USERPASS :1 ]);
volatile mapping addresstypes = ([ ADDR_IPV4 : 1, ADDR_DOMAINNAME : 1 ]);
volatile mapping commands = ([ CMD_CONNECT : 1, CMD_BIND : 1 ]);
void connectResult(string ho, int po, int result) {
array(int) repl = ({ SOCKS5_VER, REPLY_SUCCESS, 0, addrtype});
switch(addrtype) {
case ADDR_IPV4:
repl += ({ 0, 0, 0, 0 });
sscanf(ho, "%d.%d.%d.%d", repl[4], repl[5], repl[6], repl[7]);
break;
case ADDR_DOMAINNAME:
repl += ({ strlen(ho) }) + to_array(ho);
break;
}
repl += ({ po >> 8, po % 256 });
binary_message(repl);
state = STATE_READY;
}
// do connect - if you want to
void do_connect(string ho, int po) {
// when done call connectResult with error code as defined in section 6
// of RFC
// FIXME: this needs to be implemented according to programmers wishes
P2(("socks: do_connect(%O, %O)\n", ho, po))
state = STATE_CONNECT_PENDING;
connectResult(ho, po, 0x00);
}
// do bind - if you want to
void do_bind(string ho, int po) {
// FIXME
}
void parseNegotiation() {
int version, nmethods;
array(int) methods = ({ });
P2(("socks::parseNegotiation\n"))
if (strlen(buffer) < 2) {
return;
}
version = buffer[0];
nmethods = buffer[1];
P2(("socks version %d, nmethods %d\n", version, nmethods))
if (strlen(buffer) < 2+nmethods) {
return;
}
for (int i = 2; i < 2+nmethods; i++) {
methods += ({ buffer[i] });
}
buffer = buffer[2+nmethods..];
P3(("methods: %O\n", methods))
for (int j = 0; j < nmethods; j++) {
// FIXME: implement support for a preferred authmethod here
if (authmechs[methods[j]]) {
if (methods[j] == AUTHMECH_ANON) {
P2(("socks -> STATE_REQUEST\n"))
state = STATE_REQUEST;
} else if (methods[j] == AUTHMECH_USERPASS) {
P2(("socks -> STATE_AUTH_USERPASS\n"))
state = STATE_AUTH_USERPASS;
}
binary_message( ({ SOCKS5_VER, methods[j] }) );
return;
}
}
binary_message( ({ SOCKS5_VER, AUTHMECH_INVALID }) );
return;
}
int authenticate(string user, string pass) {
return 1;
}
void parseUserPass() {
int version, l, l2;
string user, pass;
P2(("socks::parseUserPass\n"))
if (strlen(buffer) < 2)
return;
version = buffer[0];
l = buffer[1];
if (strlen(buffer) < 3 + l)
return;
user = buffer[2..2+l];
P2(("user %O\n", user))
l2 = 3 + l + buffer[3+l];
if (strlen(buffer) < l2)
return;
pass = buffer[3+l..l2];
P2(("pass %O\n", pass))
buffer = buffer[l2..];
if (authenticate(user, pass)) {
state = STATE_REQUEST;
binary_message( ({ SOCKS5_VER, AUTHMECH_INVALID }) );
} else {
binary_message( ({ SOCKS5_VER, AUTHMECH_INVALID }) );
remove_interactive(ME);
}
}
void parseRequest() {
int version, cmd, rsvd;
string connhost;
int connport;
if (strlen(buffer) < 4) {
P2(("socks - parseRequest needs more\n"))
return;
}
version = buffer[0];
cmd = buffer[1];
rsvd = buffer[2];
addrtype = buffer[3];
P2(("socks::parseRequest(%d, %d, %d, %d)\n", version, cmd, rsvd, addrtype))
unless(addresstypes[addrtype]) {
SOCKS_ERROR(REPLY_ADDR_NOT_SUPPORTED);
return;
}
switch(addrtype) {
case ADDR_IPV4:
if (strlen(buffer) < 10) return;
connhost = sprintf("%d.%d.%d.%d", buffer[4], buffer[5], buffer[6], buffer[7]);
connport = (buffer[8] << 8) + buffer[9];
buffer = buffer[10..];
PT(("host %O port %d\n", connhost, connport))
break;
// case ADDR_IPV6:
// if (strlen(buffer) < 12) return;
// break;
case ADDR_DOMAINNAME:
if (strlen(buffer) < 5 || strlen(buffer) < (5 + buffer[4])) return;
connhost = buffer[5..(5 + buffer[4])];
buffer = buffer[(5+buffer[4])..];
connport = (buffer[0] << 8) + buffer[1];
buffer = buffer[2..];
break;
default:
SOCKS_ERROR(REPLY_ADDR_NOT_SUPPORTED);
break;
}
unless(commands[cmd]) {
SOCKS_ERROR(REPLY_CMD_NOT_SUPPORTED);
}
switch(cmd) {
case CMD_CONNECT:
do_connect(connhost, connport);
break;
case CMD_BIND:
do_bind(connhost, connport);
break;
}
}
// handle data
void handle(string data) {
P2(("handle %O\n", data))
}
void read_callback(string data) {
P3(("read_callback with %d bytes\n", strlen(data)))
input_to(#'read_callback, INPUT_IGNORE_BANG);
if (state == STATE_READY) {
handle(data);
return;
} else {
buffer += data;
if (state == STATE_INITIAL) {
parseNegotiation();
}
if (state == STATE_AUTH_USERPASS) {
parseUserPass();
}
if (state == STATE_REQUEST) {
parseRequest();
}
}
}
create() {
}
void logon(int success) {
input_to(#'read_callback, INPUT_IGNORE_BANG);
state = STATE_INITIAL;
buffer = "";
P2(("socks logon\n"))
}
disconnected(remainder) {
// notify any peer if desired
return 1; // ignore unless you have a better plan
}