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|
/*
* common.c: common functionality
*
* Copyright (c) 2014 - 2015, Přemysl Janouch <p@janouch.name>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
#define LIBERTY_WANT_SSL
#define LIBERTY_WANT_ASYNC
#define LIBERTY_WANT_POLLER
#define LIBERTY_WANT_PROTO_IRC
#ifdef WANT_SYSLOG_LOGGING
#define print_fatal_data ((void *) LOG_ERR)
#define print_error_data ((void *) LOG_ERR)
#define print_warning_data ((void *) LOG_WARNING)
#define print_status_data ((void *) LOG_INFO)
#define print_debug_data ((void *) LOG_DEBUG)
#endif // WANT_SYSLOG_LOGGING
#include "liberty/liberty.c"
#include <arpa/inet.h>
#include <netinet/tcp.h>
static void
init_openssl (void)
{
#if OPENSSL_VERSION_NUMBER < 0x10100000L || LIBRESSL_VERSION_NUMBER
SSL_library_init ();
// XXX: this list is probably not complete
atexit (EVP_cleanup);
SSL_load_error_strings ();
atexit (ERR_free_strings);
#else
// Cleanup is done automatically via atexit()
OPENSSL_init_ssl (0, NULL);
#endif
}
// --- To be moved to liberty --------------------------------------------------
static void
cstr_set (char **s, char *new)
{
free (*s);
*s = new;
}
static ssize_t
strv_find (const struct strv *v, const char *s)
{
for (size_t i = 0; i < v->len; i++)
if (!strcmp (v->vector[i], s))
return i;
return -1;
}
static time_t
unixtime_msec (long *msec)
{
#ifdef _POSIX_TIMERS
struct timespec tp;
hard_assert (clock_gettime (CLOCK_REALTIME, &tp) != -1);
*msec = tp.tv_nsec / 1000000;
#else // ! _POSIX_TIMERS
struct timeval tp;
hard_assert (gettimeofday (&tp, NULL) != -1);
*msec = tp.tv_usec / 1000;
#endif // ! _POSIX_TIMERS
return tp.tv_sec;
}
/// This differs from the non-unique version in that we expect the filename
/// to be something like a pattern for mkstemp(), so the resulting path can
/// reside in a system-wide directory with no risk of a conflict.
static char *
resolve_relative_runtime_unique_filename (const char *filename)
{
const char *runtime_dir = getenv ("XDG_RUNTIME_DIR");
const char *tmpdir = getenv ("TMPDIR");
struct str path = str_make ();
if (runtime_dir && *runtime_dir == '/')
str_append (&path, runtime_dir);
else if (tmpdir && *tmpdir == '/')
str_append (&path, tmpdir);
else
str_append (&path, "/tmp");
str_append_printf (&path, "/%s/%s", PROGRAM_NAME, filename);
// Try to create the file's ancestors;
// typically the user will want to immediately create a file in there
const char *last_slash = strrchr (path.str, '/');
if (last_slash && last_slash != path.str)
{
char *copy = xstrndup (path.str, last_slash - path.str);
(void) mkdir_with_parents (copy, NULL);
free (copy);
}
return str_steal (&path);
}
static bool
xwrite (int fd, const char *data, size_t len, struct error **e)
{
size_t written = 0;
while (written < len)
{
ssize_t res = write (fd, data + written, len - written);
if (res >= 0)
written += res;
else if (errno != EINTR)
return error_set (e, "%s", strerror (errno));
}
return true;
}
// --- Logging -----------------------------------------------------------------
static void
log_message_syslog (void *user_data, const char *quote, const char *fmt,
va_list ap)
{
int prio = (int) (intptr_t) user_data;
va_list va;
va_copy (va, ap);
int size = vsnprintf (NULL, 0, fmt, va);
va_end (va);
if (size < 0)
return;
char buf[size + 1];
if (vsnprintf (buf, sizeof buf, fmt, ap) >= 0)
syslog (prio, "%s%s", quote, buf);
}
// --- SOCKS 5/4a --------------------------------------------------------------
// Asynchronous SOCKS connector. Adds more stuff on top of the regular one.
// Note that the `username' is used differently in SOCKS 4a and 5. In the
// former version, it is the username that you can get ident'ed against.
// In the latter version, it forms a pair with the password field and doesn't
// need to be an actual user on your machine.
struct socks_addr
{
enum socks_addr_type
{
SOCKS_IPV4 = 1, ///< IPv4 address
SOCKS_DOMAIN = 3, ///< Domain name to be resolved
SOCKS_IPV6 = 4 ///< IPv6 address
}
type; ///< The type of this address
union
{
uint8_t ipv4[4]; ///< IPv4 address, network octet order
char *domain; ///< Domain name
uint8_t ipv6[16]; ///< IPv6 address, network octet order
}
data; ///< The address itself
};
static void
socks_addr_free (struct socks_addr *self)
{
if (self->type == SOCKS_DOMAIN)
free (self->data.domain);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
struct socks_target
{
LIST_HEADER (struct socks_target)
char *address_str; ///< Target address as a string
struct socks_addr address; ///< Target address
uint16_t port; ///< Target service port
};
enum socks_protocol
{
SOCKS_5, ///< SOCKS5
SOCKS_4A, ///< SOCKS4A
SOCKS_MAX ///< End of protocol
};
static inline const char *
socks_protocol_to_string (enum socks_protocol self)
{
switch (self)
{
case SOCKS_5: return "SOCKS5";
case SOCKS_4A: return "SOCKS4A";
default: return NULL;
}
}
struct socks_connector
{
struct connector *connector; ///< Proxy server iterator (effectively)
enum socks_protocol protocol_iter; ///< Protocol iterator
struct socks_target *targets_iter; ///< Targets iterator
// Negotiation:
struct poller_timer timeout; ///< Timeout timer
int socket_fd; ///< Current socket file descriptor
struct poller_fd socket_event; ///< Socket can be read from/written to
struct str read_buffer; ///< Read buffer
struct str write_buffer; ///< Write buffer
bool done; ///< Tunnel succesfully established
uint8_t bound_address_len; ///< Length of domain name
size_t data_needed; ///< How much data "on_data" needs
/// Process incoming data if there's enough of it available
bool (*on_data) (struct socks_connector *, struct msg_unpacker *);
// Configuration:
char *hostname; ///< SOCKS server hostname
char *service; ///< SOCKS server service name or port
char *username; ///< Username for authentication
char *password; ///< Password for authentication
struct socks_target *targets; ///< Targets
struct socks_target *targets_tail; ///< Tail of targets
void *user_data; ///< User data for callbacks
// Additional results:
struct socks_addr bound_address; ///< Bound address at the server
uint16_t bound_port; ///< Bound port at the server
// You may destroy the connector object in these two main callbacks:
/// Connection has been successfully established
void (*on_connected) (void *user_data, int socket, const char *hostname);
/// Failed to establish a connection to either target
void (*on_failure) (void *user_data);
// Optional:
/// Connecting to a new address
void (*on_connecting) (void *user_data,
const char *address, const char *via, const char *version);
/// Connecting to the last address has failed
void (*on_error) (void *user_data, const char *error);
};
// I've tried to make the actual protocol handlers as simple as possible
#define SOCKS_FAIL(...) \
BLOCK_START \
char *error = xstrdup_printf (__VA_ARGS__); \
if (self->on_error) \
self->on_error (self->user_data, error); \
free (error); \
return false; \
BLOCK_END
#define SOCKS_DATA_CB(name) static bool name \
(struct socks_connector *self, struct msg_unpacker *unpacker)
#define SOCKS_GO(name, data_needed_) \
self->on_data = name; \
self->data_needed = data_needed_; \
return true
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
SOCKS_DATA_CB (socks_4a_finish)
{
uint8_t null, status;
hard_assert (msg_unpacker_u8 (unpacker, &null));
hard_assert (msg_unpacker_u8 (unpacker, &status));
if (null != 0)
SOCKS_FAIL ("protocol error");
switch (status)
{
case 90:
self->done = true;
return false;
case 91:
SOCKS_FAIL ("request rejected or failed");
case 92:
SOCKS_FAIL ("%s: %s", "request rejected",
"SOCKS server cannot connect to identd on the client");
case 93:
SOCKS_FAIL ("%s: %s", "request rejected",
"identd reports different user-id");
default:
SOCKS_FAIL ("protocol error");
}
}
static bool
socks_4a_start (struct socks_connector *self)
{
struct socks_target *target = self->targets_iter;
const void *dest_ipv4 = "\x00\x00\x00\x01";
const char *dest_domain = NULL;
char buf[INET6_ADDRSTRLEN];
switch (target->address.type)
{
case SOCKS_IPV4:
dest_ipv4 = target->address.data.ipv4;
break;
case SOCKS_IPV6:
// About the best thing we can do, not sure if it works anywhere at all
if (!inet_ntop (AF_INET6, &target->address.data.ipv6, buf, sizeof buf))
SOCKS_FAIL ("%s: %s", "inet_ntop", strerror (errno));
dest_domain = buf;
break;
case SOCKS_DOMAIN:
dest_domain = target->address.data.domain;
}
struct str *wb = &self->write_buffer;
str_pack_u8 (wb, 4); // version
str_pack_u8 (wb, 1); // connect
str_pack_u16 (wb, target->port); // port
str_append_data (wb, dest_ipv4, 4); // destination address
if (self->username)
str_append (wb, self->username);
str_append_c (wb, '\0');
if (dest_domain)
{
str_append (wb, dest_domain);
str_append_c (wb, '\0');
}
SOCKS_GO (socks_4a_finish, 8);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
SOCKS_DATA_CB (socks_5_request_port)
{
hard_assert (msg_unpacker_u16 (unpacker, &self->bound_port));
self->done = true;
return false;
}
SOCKS_DATA_CB (socks_5_request_ipv4)
{
memcpy (self->bound_address.data.ipv4, unpacker->data, unpacker->len);
SOCKS_GO (socks_5_request_port, 2);
}
SOCKS_DATA_CB (socks_5_request_ipv6)
{
memcpy (self->bound_address.data.ipv6, unpacker->data, unpacker->len);
SOCKS_GO (socks_5_request_port, 2);
}
SOCKS_DATA_CB (socks_5_request_domain_data)
{
self->bound_address.data.domain = xstrndup (unpacker->data, unpacker->len);
SOCKS_GO (socks_5_request_port, 2);
}
SOCKS_DATA_CB (socks_5_request_domain)
{
hard_assert (msg_unpacker_u8 (unpacker, &self->bound_address_len));
SOCKS_GO (socks_5_request_domain_data, self->bound_address_len);
}
SOCKS_DATA_CB (socks_5_request_finish)
{
uint8_t version, status, reserved, type;
hard_assert (msg_unpacker_u8 (unpacker, &version));
hard_assert (msg_unpacker_u8 (unpacker, &status));
hard_assert (msg_unpacker_u8 (unpacker, &reserved));
hard_assert (msg_unpacker_u8 (unpacker, &type));
if (version != 0x05)
SOCKS_FAIL ("protocol error");
switch (status)
{
case 0x00:
break;
case 0x01: SOCKS_FAIL ("general SOCKS server failure");
case 0x02: SOCKS_FAIL ("connection not allowed by ruleset");
case 0x03: SOCKS_FAIL ("network unreachable");
case 0x04: SOCKS_FAIL ("host unreachable");
case 0x05: SOCKS_FAIL ("connection refused");
case 0x06: SOCKS_FAIL ("TTL expired");
case 0x07: SOCKS_FAIL ("command not supported");
case 0x08: SOCKS_FAIL ("address type not supported");
default: SOCKS_FAIL ("protocol error");
}
switch ((self->bound_address.type = type))
{
case SOCKS_IPV4:
SOCKS_GO (socks_5_request_ipv4, sizeof self->bound_address.data.ipv4);
case SOCKS_IPV6:
SOCKS_GO (socks_5_request_ipv6, sizeof self->bound_address.data.ipv6);
case SOCKS_DOMAIN:
SOCKS_GO (socks_5_request_domain, 1);
default:
SOCKS_FAIL ("protocol error");
}
}
static bool
socks_5_request_start (struct socks_connector *self)
{
struct socks_target *target = self->targets_iter;
struct str *wb = &self->write_buffer;
str_pack_u8 (wb, 0x05); // version
str_pack_u8 (wb, 0x01); // connect
str_pack_u8 (wb, 0x00); // reserved
str_pack_u8 (wb, target->address.type);
switch (target->address.type)
{
case SOCKS_IPV4:
str_append_data (wb,
target->address.data.ipv4, sizeof target->address.data.ipv4);
break;
case SOCKS_DOMAIN:
{
size_t dlen = strlen (target->address.data.domain);
if (dlen > 255)
dlen = 255;
str_pack_u8 (wb, dlen);
str_append_data (wb, target->address.data.domain, dlen);
break;
}
case SOCKS_IPV6:
str_append_data (wb,
target->address.data.ipv6, sizeof target->address.data.ipv6);
break;
}
str_pack_u16 (wb, target->port);
SOCKS_GO (socks_5_request_finish, 4);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
SOCKS_DATA_CB (socks_5_userpass_finish)
{
uint8_t version, status;
hard_assert (msg_unpacker_u8 (unpacker, &version));
hard_assert (msg_unpacker_u8 (unpacker, &status));
if (version != 0x01)
SOCKS_FAIL ("protocol error");
if (status != 0x00)
SOCKS_FAIL ("authentication failure");
return socks_5_request_start (self);
}
static bool
socks_5_userpass_start (struct socks_connector *self)
{
size_t ulen = strlen (self->username);
if (ulen > 255)
ulen = 255;
size_t plen = strlen (self->password);
if (plen > 255)
plen = 255;
struct str *wb = &self->write_buffer;
str_pack_u8 (wb, 0x01); // version
str_pack_u8 (wb, ulen); // username length
str_append_data (wb, self->username, ulen);
str_pack_u8 (wb, plen); // password length
str_append_data (wb, self->password, plen);
SOCKS_GO (socks_5_userpass_finish, 2);
}
SOCKS_DATA_CB (socks_5_auth_finish)
{
uint8_t version, method;
hard_assert (msg_unpacker_u8 (unpacker, &version));
hard_assert (msg_unpacker_u8 (unpacker, &method));
if (version != 0x05)
SOCKS_FAIL ("protocol error");
bool can_auth = self->username && self->password;
switch (method)
{
case 0x02:
if (!can_auth)
SOCKS_FAIL ("protocol error");
return socks_5_userpass_start (self);
case 0x00:
return socks_5_request_start (self);
case 0xFF:
SOCKS_FAIL ("no acceptable authentication methods");
default:
SOCKS_FAIL ("protocol error");
}
}
static bool
socks_5_auth_start (struct socks_connector *self)
{
bool can_auth = self->username && self->password;
struct str *wb = &self->write_buffer;
str_pack_u8 (wb, 0x05); // version
str_pack_u8 (wb, 1 + can_auth); // number of authentication methods
str_pack_u8 (wb, 0x00); // no authentication required
if (can_auth)
str_pack_u8 (wb, 0x02); // username/password
SOCKS_GO (socks_5_auth_finish, 2);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
static void socks_connector_start (struct socks_connector *self);
static void
socks_connector_destroy_connector (struct socks_connector *self)
{
if (self->connector)
{
connector_free (self->connector);
free (self->connector);
self->connector = NULL;
}
}
static void
socks_connector_cancel_events (struct socks_connector *self)
{
// Before calling the final callbacks, we should cancel events that
// could potentially fire; caller should destroy us immediately, though
poller_fd_reset (&self->socket_event);
poller_timer_reset (&self->timeout);
}
static void
socks_connector_fail (struct socks_connector *self)
{
socks_connector_cancel_events (self);
self->on_failure (self->user_data);
}
static bool
socks_connector_step_iterators (struct socks_connector *self)
{
// At the lowest level we iterate over all addresses for the SOCKS server
// and just try to connect; this is done automatically by the connector
// Then we iterate over available protocols
if (++self->protocol_iter != SOCKS_MAX)
return true;
// At the highest level we iterate over possible targets
self->protocol_iter = 0;
if (self->targets_iter && (self->targets_iter = self->targets_iter->next))
return true;
return false;
}
static void
socks_connector_step (struct socks_connector *self)
{
if (self->socket_fd != -1)
{
poller_fd_reset (&self->socket_event);
xclose (self->socket_fd);
self->socket_fd = -1;
}
socks_connector_destroy_connector (self);
if (socks_connector_step_iterators (self))
socks_connector_start (self);
else
socks_connector_fail (self);
}
static void
socks_connector_on_timeout (struct socks_connector *self)
{
if (self->on_error)
self->on_error (self->user_data, "timeout");
socks_connector_destroy_connector (self);
socks_connector_fail (self);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
static void
socks_connector_on_connected
(void *user_data, int socket_fd, const char *hostname)
{
set_blocking (socket_fd, false);
(void) hostname;
struct socks_connector *self = user_data;
self->socket_fd = socket_fd;
self->socket_event.fd = socket_fd;
poller_fd_set (&self->socket_event, POLLIN | POLLOUT);
str_reset (&self->read_buffer);
str_reset (&self->write_buffer);
if (!(self->protocol_iter == SOCKS_5 && socks_5_auth_start (self))
&& !(self->protocol_iter == SOCKS_4A && socks_4a_start (self)))
socks_connector_fail (self);
}
static void
socks_connector_on_failure (void *user_data)
{
struct socks_connector *self = user_data;
// TODO: skip SOCKS server on connection failure
socks_connector_step (self);
}
static void
socks_connector_on_connecting (void *user_data, const char *via)
{
struct socks_connector *self = user_data;
if (!self->on_connecting)
return;
struct socks_target *target = self->targets_iter;
char *port = xstrdup_printf ("%u", target->port);
char *address = format_host_port_pair (target->address_str, port);
free (port);
self->on_connecting (self->user_data, address, via,
socks_protocol_to_string (self->protocol_iter));
free (address);
}
static void
socks_connector_on_error (void *user_data, const char *error)
{
struct socks_connector *self = user_data;
// TODO: skip protocol on protocol failure
if (self->on_error)
self->on_error (self->user_data, error);
}
static void
socks_connector_start (struct socks_connector *self)
{
hard_assert (!self->connector);
struct connector *connector =
self->connector = xcalloc (1, sizeof *connector);
connector_init (connector, self->socket_event.poller);
connector->user_data = self;
connector->on_connected = socks_connector_on_connected;
connector->on_connecting = socks_connector_on_connecting;
connector->on_error = socks_connector_on_error;
connector->on_failure = socks_connector_on_failure;
connector_add_target (connector, self->hostname, self->service);
poller_timer_set (&self->timeout, 60 * 1000);
self->done = false;
self->bound_port = 0;
socks_addr_free (&self->bound_address);
memset (&self->bound_address, 0, sizeof self->bound_address);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
static bool
socks_try_fill_read_buffer (struct socks_connector *self, size_t n)
{
ssize_t remains = (ssize_t) n - (ssize_t) self->read_buffer.len;
if (remains <= 0)
return true;
ssize_t received;
str_reserve (&self->read_buffer, remains);
do
received = recv (self->socket_fd,
self->read_buffer.str + self->read_buffer.len, remains, 0);
while ((received == -1) && errno == EINTR);
if (received == 0)
SOCKS_FAIL ("%s: %s", "protocol error", "unexpected EOF");
if (received == -1 && errno != EAGAIN)
SOCKS_FAIL ("%s: %s", "recv", strerror (errno));
if (received > 0)
self->read_buffer.len += received;
return true;
}
static bool
socks_call_on_data (struct socks_connector *self)
{
size_t to_consume = self->data_needed;
if (!socks_try_fill_read_buffer (self, to_consume))
return false;
if (self->read_buffer.len < to_consume)
return true;
struct msg_unpacker unpacker =
msg_unpacker_make (self->read_buffer.str, self->read_buffer.len);
bool result = self->on_data (self, &unpacker);
str_remove_slice (&self->read_buffer, 0, to_consume);
return result;
}
static bool
socks_try_flush_write_buffer (struct socks_connector *self)
{
struct str *wb = &self->write_buffer;
ssize_t n_written;
while (wb->len)
{
n_written = send (self->socket_fd, wb->str, wb->len, 0);
if (n_written >= 0)
{
str_remove_slice (wb, 0, n_written);
continue;
}
if (errno == EAGAIN)
break;
if (errno == EINTR)
continue;
SOCKS_FAIL ("%s: %s", "send", strerror (errno));
}
return true;
}
static void
socks_connector_on_ready
(const struct pollfd *pfd, struct socks_connector *self)
{
(void) pfd;
if (socks_call_on_data (self) && socks_try_flush_write_buffer (self))
{
poller_fd_set (&self->socket_event,
self->write_buffer.len ? (POLLIN | POLLOUT) : POLLIN);
}
else if (self->done)
{
socks_connector_cancel_events (self);
int fd = self->socket_fd;
self->socket_fd = -1;
struct socks_target *target = self->targets_iter;
set_blocking (fd, true);
self->on_connected (self->user_data, fd, target->address_str);
}
else
// We've failed this target, let's try to move on
socks_connector_step (self);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
static void
socks_connector_init (struct socks_connector *self, struct poller *poller)
{
memset (self, 0, sizeof *self);
self->socket_event = poller_fd_make (poller, (self->socket_fd = -1));
self->socket_event.dispatcher = (poller_fd_fn) socks_connector_on_ready;
self->socket_event.user_data = self;
self->timeout = poller_timer_make (poller);
self->timeout.dispatcher = (poller_timer_fn) socks_connector_on_timeout;
self->timeout.user_data = self;
self->read_buffer = str_make ();
self->write_buffer = str_make ();
}
static void
socks_connector_free (struct socks_connector *self)
{
socks_connector_destroy_connector (self);
socks_connector_cancel_events (self);
if (self->socket_fd != -1)
xclose (self->socket_fd);
str_free (&self->read_buffer);
str_free (&self->write_buffer);
free (self->hostname);
free (self->service);
free (self->username);
free (self->password);
LIST_FOR_EACH (struct socks_target, iter, self->targets)
{
socks_addr_free (&iter->address);
free (iter->address_str);
free (iter);
}
socks_addr_free (&self->bound_address);
}
static bool
socks_connector_add_target (struct socks_connector *self,
const char *host, const char *service, struct error **e)
{
unsigned long port;
const struct servent *serv;
if ((serv = getservbyname (service, "tcp")))
port = (uint16_t) ntohs (serv->s_port);
else if (!xstrtoul (&port, service, 10) || !port || port > UINT16_MAX)
{
error_set (e, "invalid port number");
return false;
}
struct socks_target *target = xcalloc (1, sizeof *target);
if (inet_pton (AF_INET, host, &target->address.data.ipv4) == 1)
target->address.type = SOCKS_IPV4;
else if (inet_pton (AF_INET6, host, &target->address.data.ipv6) == 1)
target->address.type = SOCKS_IPV6;
else
{
target->address.type = SOCKS_DOMAIN;
target->address.data.domain = xstrdup (host);
}
target->port = port;
target->address_str = xstrdup (host);
LIST_APPEND_WITH_TAIL (self->targets, self->targets_tail, target);
return true;
}
static void
socks_connector_run (struct socks_connector *self,
const char *host, const char *service,
const char *username, const char *password)
{
hard_assert (self->targets);
hard_assert (host && service);
self->hostname = xstrdup (host);
self->service = xstrdup (service);
if (username) self->username = xstrdup (username);
if (password) self->password = xstrdup (password);
self->targets_iter = self->targets;
self->protocol_iter = 0;
// XXX: this can fail immediately from an error creating the connector
socks_connector_start (self);
}
// --- CTCP decoding -----------------------------------------------------------
#define CTCP_M_QUOTE '\020'
#define CTCP_X_DELIM '\001'
#define CTCP_X_QUOTE '\\'
struct ctcp_chunk
{
LIST_HEADER (struct ctcp_chunk)
bool is_extended; ///< Is this a tagged extended message?
bool is_partial; ///< Unterminated extended message
struct str tag; ///< The tag, if any
struct str text; ///< Message contents
};
static struct ctcp_chunk *
ctcp_chunk_new (void)
{
struct ctcp_chunk *self = xcalloc (1, sizeof *self);
self->tag = str_make ();
self->text = str_make ();
return self;
}
static void
ctcp_chunk_destroy (struct ctcp_chunk *self)
{
str_free (&self->tag);
str_free (&self->text);
free (self);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
static void
ctcp_low_level_decode (const char *message, struct str *output)
{
bool escape = false;
for (const char *p = message; *p; p++)
{
if (escape)
{
switch (*p)
{
case '0': str_append_c (output, '\0'); break;
case 'r': str_append_c (output, '\r'); break;
case 'n': str_append_c (output, '\n'); break;
default: str_append_c (output, *p);
}
escape = false;
}
else if (*p == CTCP_M_QUOTE)
escape = true;
else
str_append_c (output, *p);
}
}
static void
ctcp_intra_decode (const char *chunk, size_t len, struct str *output)
{
bool escape = false;
for (size_t i = 0; i < len; i++)
{
char c = chunk[i];
if (escape)
{
if (c == 'a')
str_append_c (output, CTCP_X_DELIM);
else
str_append_c (output, c);
escape = false;
}
else if (c == CTCP_X_QUOTE)
escape = true;
else
str_append_c (output, c);
}
}
// According to the original CTCP specification we should use
// ctcp_intra_decode() on all parts, however no one seems to use that
// and it breaks normal text with backslashes
#ifndef SUPPORT_CTCP_X_QUOTES
#define ctcp_intra_decode(s, len, output) str_append_data (output, s, len)
#endif
static void
ctcp_parse_tagged (const char *chunk, size_t len, struct ctcp_chunk *output)
{
// We may search for the space before doing the higher level decoding,
// as it doesn't concern space characters at all
size_t tag_end = len;
for (size_t i = 0; i < len; i++)
if (chunk[i] == ' ')
{
tag_end = i;
break;
}
output->is_extended = true;
ctcp_intra_decode (chunk, tag_end, &output->tag);
if (tag_end++ != len)
ctcp_intra_decode (chunk + tag_end, len - tag_end, &output->text);
}
static struct ctcp_chunk *
ctcp_parse (const char *message)
{
struct str m = str_make ();
ctcp_low_level_decode (message, &m);
struct ctcp_chunk *result = NULL, *result_tail = NULL;
size_t start = 0;
bool in_ctcp = false;
for (size_t i = 0; i < m.len; i++)
{
char c = m.str[i];
if (c != CTCP_X_DELIM)
continue;
// Remember the current state
size_t my_start = start;
bool my_is_ctcp = in_ctcp;
start = i + 1;
in_ctcp = !in_ctcp;
// Skip empty chunks
if (my_start == i)
continue;
struct ctcp_chunk *chunk = ctcp_chunk_new ();
if (my_is_ctcp)
ctcp_parse_tagged (m.str + my_start, i - my_start, chunk);
else
ctcp_intra_decode (m.str + my_start, i - my_start, &chunk->text);
LIST_APPEND_WITH_TAIL (result, result_tail, chunk);
}
// Finish the last part. Unended tagged chunks are marked as such.
if (start != m.len)
{
struct ctcp_chunk *chunk = ctcp_chunk_new ();
if (in_ctcp)
{
ctcp_parse_tagged (m.str + start, m.len - start, chunk);
chunk->is_partial = true;
}
else
ctcp_intra_decode (m.str + start, m.len - start, &chunk->text);
LIST_APPEND_WITH_TAIL (result, result_tail, chunk);
}
str_free (&m);
return result;
}
static void
ctcp_destroy (struct ctcp_chunk *list)
{
LIST_FOR_EACH (struct ctcp_chunk, iter, list)
ctcp_chunk_destroy (iter);
}
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