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|
/* Copyright (c) 2001 Matej Pfajfar.
* Copyright (c) 2001-2004, Roger Dingledine.
* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
* Copyright (c) 2007-2009, The Tor Project, Inc. */
/* See LICENSE for licensing information */
/**
* \file connection.c
* \brief General high-level functions to handle reading and writing
* on connections.
**/
#include "or.h"
static connection_t *connection_create_listener(
struct sockaddr *listensockaddr,
socklen_t listensocklen, int type,
char* address);
static void connection_init(time_t now, connection_t *conn, int type,
int socket_family);
static int connection_init_accepted_conn(connection_t *conn,
uint8_t listener_type);
static int connection_handle_listener_read(connection_t *conn, int new_type);
static int connection_bucket_should_increase(int bucket,
or_connection_t *conn);
static int connection_finished_flushing(connection_t *conn);
static int connection_flushed_some(connection_t *conn);
static int connection_finished_connecting(connection_t *conn);
static int connection_reached_eof(connection_t *conn);
static int connection_read_to_buf(connection_t *conn, int *max_to_read,
int *socket_error);
static int connection_process_inbuf(connection_t *conn, int package_partial);
static void client_check_address_changed(int sock);
static void set_constrained_socket_buffers(int sock, int size);
static const char *connection_proxy_state_to_string(int state);
static int connection_read_https_proxy_response(connection_t *conn);
static void connection_send_socks5_connect(connection_t *conn);
/** The last IPv4 address that our network interface seemed to have been
* binding to, in host order. We use this to detect when our IP changes. */
static uint32_t last_interface_ip = 0;
/** A list of uint32_ts for addresses we've used in outgoing connections.
* Used to detect IP address changes. */
static smartlist_t *outgoing_addrs = NULL;
/**************************************************************/
/**
* Return the human-readable name for the connection type <b>type</b>
*/
const char *
conn_type_to_string(int type)
{
static char buf[64];
switch (type) {
case CONN_TYPE_OR_LISTENER: return "OR listener";
case CONN_TYPE_OR: return "OR";
case CONN_TYPE_EXIT: return "Exit";
case CONN_TYPE_AP_LISTENER: return "Socks listener";
case CONN_TYPE_AP_TRANS_LISTENER:
return "Transparent pf/netfilter listener";
case CONN_TYPE_AP_NATD_LISTENER: return "Transparent natd listener";
case CONN_TYPE_AP_DNS_LISTENER: return "DNS listener";
case CONN_TYPE_AP: return "Socks";
case CONN_TYPE_DIR_LISTENER: return "Directory listener";
case CONN_TYPE_DIR: return "Directory";
case CONN_TYPE_CPUWORKER: return "CPU worker";
case CONN_TYPE_CONTROL_LISTENER: return "Control listener";
case CONN_TYPE_CONTROL: return "Control";
default:
log_warn(LD_BUG, "unknown connection type %d", type);
tor_snprintf(buf, sizeof(buf), "unknown [%d]", type);
return buf;
}
}
/**
* Return the human-readable name for the connection state <b>state</b>
* for the connection type <b>type</b>
*/
const char *
conn_state_to_string(int type, int state)
{
static char buf[96];
switch (type) {
case CONN_TYPE_OR_LISTENER:
case CONN_TYPE_AP_LISTENER:
case CONN_TYPE_AP_TRANS_LISTENER:
case CONN_TYPE_AP_NATD_LISTENER:
case CONN_TYPE_AP_DNS_LISTENER:
case CONN_TYPE_DIR_LISTENER:
case CONN_TYPE_CONTROL_LISTENER:
if (state == LISTENER_STATE_READY)
return "ready";
break;
case CONN_TYPE_OR:
switch (state) {
case OR_CONN_STATE_CONNECTING: return "connect()ing";
case OR_CONN_STATE_PROXY_HANDSHAKING: return "handshaking (proxy)";
case OR_CONN_STATE_TLS_HANDSHAKING: return "handshaking (TLS)";
case OR_CONN_STATE_TLS_CLIENT_RENEGOTIATING:
return "renegotiating (TLS)";
case OR_CONN_STATE_TLS_SERVER_RENEGOTIATING:
return "waiting for renegotiation (TLS)";
case OR_CONN_STATE_OR_HANDSHAKING: return "handshaking (Tor)";
case OR_CONN_STATE_OPEN: return "open";
}
break;
case CONN_TYPE_EXIT:
switch (state) {
case EXIT_CONN_STATE_RESOLVING: return "waiting for dest info";
case EXIT_CONN_STATE_CONNECTING: return "connecting";
case EXIT_CONN_STATE_OPEN: return "open";
case EXIT_CONN_STATE_RESOLVEFAILED: return "resolve failed";
}
break;
case CONN_TYPE_AP:
switch (state) {
case AP_CONN_STATE_SOCKS_WAIT: return "waiting for socks info";
case AP_CONN_STATE_NATD_WAIT: return "waiting for natd dest info";
case AP_CONN_STATE_RENDDESC_WAIT: return "waiting for rendezvous desc";
case AP_CONN_STATE_CONTROLLER_WAIT: return "waiting for controller";
case AP_CONN_STATE_CIRCUIT_WAIT: return "waiting for circuit";
case AP_CONN_STATE_CONNECT_WAIT: return "waiting for connect response";
case AP_CONN_STATE_RESOLVE_WAIT: return "waiting for resolve response";
case AP_CONN_STATE_OPEN: return "open";
}
break;
case CONN_TYPE_DIR:
switch (state) {
case DIR_CONN_STATE_CONNECTING: return "connecting";
case DIR_CONN_STATE_CLIENT_SENDING: return "client sending";
case DIR_CONN_STATE_CLIENT_READING: return "client reading";
case DIR_CONN_STATE_CLIENT_FINISHED: return "client finished";
case DIR_CONN_STATE_SERVER_COMMAND_WAIT: return "waiting for command";
case DIR_CONN_STATE_SERVER_WRITING: return "writing";
}
break;
case CONN_TYPE_CPUWORKER:
switch (state) {
case CPUWORKER_STATE_IDLE: return "idle";
case CPUWORKER_STATE_BUSY_ONION: return "busy with onion";
}
break;
case CONN_TYPE_CONTROL:
switch (state) {
case CONTROL_CONN_STATE_OPEN: return "open (protocol v1)";
case CONTROL_CONN_STATE_NEEDAUTH:
return "waiting for authentication (protocol v1)";
}
break;
}
log_warn(LD_BUG, "unknown connection state %d (type %d)", state, type);
tor_snprintf(buf, sizeof(buf),
"unknown state [%d] on unknown [%s] connection",
state, conn_type_to_string(type));
return buf;
}
/** Allocate and return a new dir_connection_t, initialized as by
* connection_init(). */
dir_connection_t *
dir_connection_new(int socket_family)
{
dir_connection_t *dir_conn = tor_malloc_zero(sizeof(dir_connection_t));
connection_init(time(NULL), TO_CONN(dir_conn), CONN_TYPE_DIR, socket_family);
return dir_conn;
}
/** Allocate and return a new or_connection_t, initialized as by
* connection_init(). */
or_connection_t *
or_connection_new(int socket_family)
{
or_connection_t *or_conn = tor_malloc_zero(sizeof(or_connection_t));
time_t now = time(NULL);
connection_init(now, TO_CONN(or_conn), CONN_TYPE_OR, socket_family);
or_conn->timestamp_last_added_nonpadding = time(NULL);
or_conn->next_circ_id = crypto_rand_int(1<<15);
or_conn->active_circuit_pqueue = smartlist_create();
or_conn->active_circuit_pqueue_last_recalibrated = cell_ewma_get_tick();
return or_conn;
}
/** Allocate and return a new edge_connection_t, initialized as by
* connection_init(). */
edge_connection_t *
edge_connection_new(int type, int socket_family)
{
edge_connection_t *edge_conn = tor_malloc_zero(sizeof(edge_connection_t));
tor_assert(type == CONN_TYPE_EXIT || type == CONN_TYPE_AP);
connection_init(time(NULL), TO_CONN(edge_conn), type, socket_family);
if (type == CONN_TYPE_AP)
edge_conn->socks_request = tor_malloc_zero(sizeof(socks_request_t));
return edge_conn;
}
/** Allocate and return a new control_connection_t, initialized as by
* connection_init(). */
control_connection_t *
control_connection_new(int socket_family)
{
control_connection_t *control_conn =
tor_malloc_zero(sizeof(control_connection_t));
connection_init(time(NULL),
TO_CONN(control_conn), CONN_TYPE_CONTROL, socket_family);
log_notice(LD_CONTROL, "New control connection opened.");
return control_conn;
}
/** Allocate, initialize, and return a new connection_t subtype of <b>type</b>
* to make or receive connections of address family <b>socket_family</b>. The
* type should be one of the CONN_TYPE_* constants. */
connection_t *
connection_new(int type, int socket_family)
{
switch (type) {
case CONN_TYPE_OR:
return TO_CONN(or_connection_new(socket_family));
case CONN_TYPE_EXIT:
case CONN_TYPE_AP:
return TO_CONN(edge_connection_new(type, socket_family));
case CONN_TYPE_DIR:
return TO_CONN(dir_connection_new(socket_family));
case CONN_TYPE_CONTROL:
return TO_CONN(control_connection_new(socket_family));
default: {
connection_t *conn = tor_malloc_zero(sizeof(connection_t));
connection_init(time(NULL), conn, type, socket_family);
return conn;
}
}
}
/** Initializes conn. (you must call connection_add() to link it into the main
* array).
*
* Set conn-\>type to <b>type</b>. Set conn-\>s and conn-\>conn_array_index to
* -1 to signify they are not yet assigned.
*
* If conn is not a listener type, allocate buffers for it. If it's
* an AP type, allocate space to store the socks_request.
*
* Assign a pseudorandom next_circ_id between 0 and 2**15.
*
* Initialize conn's timestamps to now.
*/
static void
connection_init(time_t now, connection_t *conn, int type, int socket_family)
{
static uint64_t n_connections_allocated = 1;
switch (type) {
case CONN_TYPE_OR:
conn->magic = OR_CONNECTION_MAGIC;
break;
case CONN_TYPE_EXIT:
case CONN_TYPE_AP:
conn->magic = EDGE_CONNECTION_MAGIC;
break;
case CONN_TYPE_DIR:
conn->magic = DIR_CONNECTION_MAGIC;
break;
case CONN_TYPE_CONTROL:
conn->magic = CONTROL_CONNECTION_MAGIC;
break;
default:
conn->magic = BASE_CONNECTION_MAGIC;
break;
}
conn->s = -1; /* give it a default of 'not used' */
conn->conn_array_index = -1; /* also default to 'not used' */
conn->global_identifier = n_connections_allocated++;
conn->type = type;
conn->socket_family = socket_family;
if (!connection_is_listener(conn)) { /* listeners never use their buf */
conn->inbuf = buf_new();
conn->outbuf = buf_new();
}
conn->timestamp_created = now;
conn->timestamp_lastread = now;
conn->timestamp_lastwritten = now;
}
/** Create a link between <b>conn_a</b> and <b>conn_b</b>. */
void
connection_link_connections(connection_t *conn_a, connection_t *conn_b)
{
tor_assert(conn_a->s < 0);
tor_assert(conn_b->s < 0);
conn_a->linked = 1;
conn_b->linked = 1;
conn_a->linked_conn = conn_b;
conn_b->linked_conn = conn_a;
}
/** Deallocate memory used by <b>conn</b>. Deallocate its buffers if
* necessary, close its socket if necessary, and mark the directory as dirty
* if <b>conn</b> is an OR or OP connection.
*/
static void
_connection_free(connection_t *conn)
{
void *mem;
size_t memlen;
if (!conn)
return;
switch (conn->type) {
case CONN_TYPE_OR:
tor_assert(conn->magic == OR_CONNECTION_MAGIC);
mem = TO_OR_CONN(conn);
memlen = sizeof(or_connection_t);
break;
case CONN_TYPE_AP:
case CONN_TYPE_EXIT:
tor_assert(conn->magic == EDGE_CONNECTION_MAGIC);
mem = TO_EDGE_CONN(conn);
memlen = sizeof(edge_connection_t);
break;
case CONN_TYPE_DIR:
tor_assert(conn->magic == DIR_CONNECTION_MAGIC);
mem = TO_DIR_CONN(conn);
memlen = sizeof(dir_connection_t);
break;
case CONN_TYPE_CONTROL:
tor_assert(conn->magic == CONTROL_CONNECTION_MAGIC);
mem = TO_CONTROL_CONN(conn);
memlen = sizeof(control_connection_t);
break;
default:
tor_assert(conn->magic == BASE_CONNECTION_MAGIC);
mem = conn;
memlen = sizeof(connection_t);
break;
}
if (conn->linked) {
log_info(LD_GENERAL, "Freeing linked %s connection [%s] with %d "
"bytes on inbuf, %d on outbuf.",
conn_type_to_string(conn->type),
conn_state_to_string(conn->type, conn->state),
(int)buf_datalen(conn->inbuf), (int)buf_datalen(conn->outbuf));
}
if (!connection_is_listener(conn)) {
buf_free(conn->inbuf);
buf_free(conn->outbuf);
} else {
if (conn->socket_family == AF_UNIX) {
/* For now only control ports can be Unix domain sockets
* and listeners at the same time */
tor_assert(conn->type == CONN_TYPE_CONTROL_LISTENER);
if (unlink(conn->address) < 0 && errno != ENOENT) {
log_warn(LD_NET, "Could not unlink %s: %s", conn->address,
strerror(errno));
}
}
}
tor_free(conn->address);
if (connection_speaks_cells(conn)) {
or_connection_t *or_conn = TO_OR_CONN(conn);
tor_tls_free(or_conn->tls);
or_conn->tls = NULL;
or_handshake_state_free(or_conn->handshake_state);
or_conn->handshake_state = NULL;
smartlist_free(or_conn->active_circuit_pqueue);
tor_free(or_conn->nickname);
}
if (CONN_IS_EDGE(conn)) {
edge_connection_t *edge_conn = TO_EDGE_CONN(conn);
tor_free(edge_conn->chosen_exit_name);
if (edge_conn->socks_request) {
memset(edge_conn->socks_request, 0xcc, sizeof(socks_request_t));
tor_free(edge_conn->socks_request);
}
rend_data_free(edge_conn->rend_data);
}
if (conn->type == CONN_TYPE_CONTROL) {
control_connection_t *control_conn = TO_CONTROL_CONN(conn);
tor_free(control_conn->incoming_cmd);
}
tor_free(conn->read_event); /* Probably already freed by connection_free. */
tor_free(conn->write_event); /* Probably already freed by connection_free. */
if (conn->type == CONN_TYPE_DIR) {
dir_connection_t *dir_conn = TO_DIR_CONN(conn);
tor_free(dir_conn->requested_resource);
tor_zlib_free(dir_conn->zlib_state);
if (dir_conn->fingerprint_stack) {
SMARTLIST_FOREACH(dir_conn->fingerprint_stack, char *, cp, tor_free(cp));
smartlist_free(dir_conn->fingerprint_stack);
}
cached_dir_decref(dir_conn->cached_dir);
rend_data_free(dir_conn->rend_data);
}
if (conn->s >= 0) {
log_debug(LD_NET,"closing fd %d.",conn->s);
tor_close_socket(conn->s);
conn->s = -1;
}
if (conn->type == CONN_TYPE_OR &&
!tor_digest_is_zero(TO_OR_CONN(conn)->identity_digest)) {
log_warn(LD_BUG, "called on OR conn with non-zeroed identity_digest");
connection_or_remove_from_identity_map(TO_OR_CONN(conn));
}
memset(mem, 0xCC, memlen); /* poison memory */
tor_free(mem);
}
/** Make sure <b>conn</b> isn't in any of the global conn lists; then free it.
*/
void
connection_free(connection_t *conn)
{
if (!conn)
return;
tor_assert(!connection_is_on_closeable_list(conn));
tor_assert(!connection_in_array(conn));
if (conn->linked_conn) {
log_err(LD_BUG, "Called with conn->linked_conn still set.");
tor_fragile_assert();
conn->linked_conn->linked_conn = NULL;
if (! conn->linked_conn->marked_for_close &&
conn->linked_conn->reading_from_linked_conn)
connection_start_reading(conn->linked_conn);
conn->linked_conn = NULL;
}
if (connection_speaks_cells(conn)) {
if (!tor_digest_is_zero(TO_OR_CONN(conn)->identity_digest)) {
connection_or_remove_from_identity_map(TO_OR_CONN(conn));
}
}
if (conn->type == CONN_TYPE_CONTROL) {
TO_CONTROL_CONN(conn)->event_mask = 0;
control_update_global_event_mask();
}
connection_unregister_events(conn);
_connection_free(conn);
}
/** Call _connection_free() on every connection in our array, and release all
* storage held by connection.c. This is used by cpuworkers and dnsworkers
* when they fork, so they don't keep resources held open (especially
* sockets).
*
* Don't do the checks in connection_free(), because they will
* fail.
*/
void
connection_free_all(void)
{
smartlist_t *conns = get_connection_array();
/* We don't want to log any messages to controllers. */
SMARTLIST_FOREACH(conns, connection_t *, conn,
if (conn->type == CONN_TYPE_CONTROL)
TO_CONTROL_CONN(conn)->event_mask = 0);
control_update_global_event_mask();
/* Unlink everything from the identity map. */
connection_or_clear_identity_map();
SMARTLIST_FOREACH(conns, connection_t *, conn, _connection_free(conn));
if (outgoing_addrs) {
SMARTLIST_FOREACH(outgoing_addrs, void*, addr, tor_free(addr));
smartlist_free(outgoing_addrs);
outgoing_addrs = NULL;
}
}
/** Do any cleanup needed:
* - Directory conns that failed to fetch a rendezvous descriptor
* need to inform pending rendezvous streams.
* - OR conns need to call rep_hist_note_*() to record status.
* - AP conns need to send a socks reject if necessary.
* - Exit conns need to call connection_dns_remove() if necessary.
* - AP and Exit conns need to send an end cell if they can.
* - DNS conns need to fail any resolves that are pending on them.
* - OR and edge connections need to be unlinked from circuits.
*/
void
connection_about_to_close_connection(connection_t *conn)
{
circuit_t *circ;
dir_connection_t *dir_conn;
or_connection_t *or_conn;
edge_connection_t *edge_conn;
time_t now = time(NULL);
tor_assert(conn->marked_for_close);
if (CONN_IS_EDGE(conn)) {
edge_conn = TO_EDGE_CONN(conn);
if (!edge_conn->edge_has_sent_end) {
log_warn(LD_BUG, "(Harmless.) Edge connection (marked at %s:%d) "
"hasn't sent end yet?",
conn->marked_for_close_file, conn->marked_for_close);
tor_fragile_assert();
}
}
switch (conn->type) {
case CONN_TYPE_DIR:
dir_conn = TO_DIR_CONN(conn);
if (conn->state < DIR_CONN_STATE_CLIENT_FINISHED) {
/* It's a directory connection and connecting or fetching
* failed: forget about this router, and maybe try again. */
connection_dir_request_failed(dir_conn);
}
/* If we were trying to fetch a v2 rend desc and did not succeed,
* retry as needed. (If a fetch is successful, the connection state
* is changed to DIR_PURPOSE_HAS_FETCHED_RENDDESC to mark that
* refetching is unnecessary.) */
if (conn->purpose == DIR_PURPOSE_FETCH_RENDDESC_V2 &&
dir_conn->rend_data &&
strlen(dir_conn->rend_data->onion_address) ==
REND_SERVICE_ID_LEN_BASE32)
rend_client_refetch_v2_renddesc(dir_conn->rend_data);
break;
case CONN_TYPE_OR:
or_conn = TO_OR_CONN(conn);
/* Remember why we're closing this connection. */
if (conn->state != OR_CONN_STATE_OPEN) {
/* Inform any pending (not attached) circs that they should
* give up. */
circuit_n_conn_done(TO_OR_CONN(conn), 0);
/* now mark things down as needed */
if (connection_or_nonopen_was_started_here(or_conn)) {
or_options_t *options = get_options();
rep_hist_note_connect_failed(or_conn->identity_digest, now);
entry_guard_register_connect_status(or_conn->identity_digest,0,
!options->HttpsProxy, now);
if (conn->state >= OR_CONN_STATE_TLS_HANDSHAKING) {
int reason = tls_error_to_orconn_end_reason(or_conn->tls_error);
control_event_or_conn_status(or_conn, OR_CONN_EVENT_FAILED,
reason);
if (!authdir_mode_tests_reachability(options))
control_event_bootstrap_problem(
orconn_end_reason_to_control_string(reason), reason);
}
}
} else if (conn->hold_open_until_flushed) {
/* We only set hold_open_until_flushed when we're intentionally
* closing a connection. */
rep_hist_note_disconnect(or_conn->identity_digest, now);
control_event_or_conn_status(or_conn, OR_CONN_EVENT_CLOSED,
tls_error_to_orconn_end_reason(or_conn->tls_error));
} else if (!tor_digest_is_zero(or_conn->identity_digest)) {
rep_hist_note_connection_died(or_conn->identity_digest, now);
control_event_or_conn_status(or_conn, OR_CONN_EVENT_CLOSED,
tls_error_to_orconn_end_reason(or_conn->tls_error));
}
/* Now close all the attached circuits on it. */
circuit_unlink_all_from_or_conn(TO_OR_CONN(conn),
END_CIRC_REASON_OR_CONN_CLOSED);
break;
case CONN_TYPE_AP:
edge_conn = TO_EDGE_CONN(conn);
if (edge_conn->socks_request->has_finished == 0) {
/* since conn gets removed right after this function finishes,
* there's no point trying to send back a reply at this point. */
log_warn(LD_BUG,"Closing stream (marked at %s:%d) without sending"
" back a socks reply.",
conn->marked_for_close_file, conn->marked_for_close);
}
if (!edge_conn->end_reason) {
log_warn(LD_BUG,"Closing stream (marked at %s:%d) without having"
" set end_reason.",
conn->marked_for_close_file, conn->marked_for_close);
}
if (edge_conn->dns_server_request) {
log_warn(LD_BUG,"Closing stream (marked at %s:%d) without having"
" replied to DNS request.",
conn->marked_for_close_file, conn->marked_for_close);
dnsserv_reject_request(edge_conn);
}
control_event_stream_bandwidth(edge_conn);
control_event_stream_status(edge_conn, STREAM_EVENT_CLOSED,
edge_conn->end_reason);
circ = circuit_get_by_edge_conn(edge_conn);
if (circ)
circuit_detach_stream(circ, edge_conn);
break;
case CONN_TYPE_EXIT:
edge_conn = TO_EDGE_CONN(conn);
circ = circuit_get_by_edge_conn(edge_conn);
if (circ)
circuit_detach_stream(circ, edge_conn);
if (conn->state == EXIT_CONN_STATE_RESOLVING) {
connection_dns_remove(edge_conn);
}
break;
}
}
/** Return true iff connection_close_immediate() has been called on this
* connection. */
#define CONN_IS_CLOSED(c) \
((c)->linked ? ((c)->linked_conn_is_closed) : ((c)->s < 0))
/** Close the underlying socket for <b>conn</b>, so we don't try to
* flush it. Must be used in conjunction with (right before)
* connection_mark_for_close().
*/
void
connection_close_immediate(connection_t *conn)
{
assert_connection_ok(conn,0);
if (CONN_IS_CLOSED(conn)) {
log_err(LD_BUG,"Attempt to close already-closed connection.");
tor_fragile_assert();
return;
}
if (conn->outbuf_flushlen) {
log_info(LD_NET,"fd %d, type %s, state %s, %d bytes on outbuf.",
conn->s, conn_type_to_string(conn->type),
conn_state_to_string(conn->type, conn->state),
(int)conn->outbuf_flushlen);
}
connection_unregister_events(conn);
if (conn->s >= 0)
tor_close_socket(conn->s);
conn->s = -1;
if (conn->linked)
conn->linked_conn_is_closed = 1;
if (!connection_is_listener(conn)) {
buf_clear(conn->outbuf);
conn->outbuf_flushlen = 0;
}
}
/** Mark <b>conn</b> to be closed next time we loop through
* conn_close_if_marked() in main.c. */
void
_connection_mark_for_close(connection_t *conn, int line, const char *file)
{
assert_connection_ok(conn,0);
tor_assert(line);
tor_assert(line < 1<<16); /* marked_for_close can only fit a uint16_t. */
tor_assert(file);
if (conn->marked_for_close) {
log(LOG_WARN,LD_BUG,"Duplicate call to connection_mark_for_close at %s:%d"
" (first at %s:%d)", file, line, conn->marked_for_close_file,
conn->marked_for_close);
tor_fragile_assert();
return;
}
conn->marked_for_close = line;
conn->marked_for_close_file = file;
add_connection_to_closeable_list(conn);
/* in case we're going to be held-open-til-flushed, reset
* the number of seconds since last successful write, so
* we get our whole 15 seconds */
conn->timestamp_lastwritten = time(NULL);
}
/** Find each connection that has hold_open_until_flushed set to
* 1 but hasn't written in the past 15 seconds, and set
* hold_open_until_flushed to 0. This means it will get cleaned
* up in the next loop through close_if_marked() in main.c.
*/
void
connection_expire_held_open(void)
{
time_t now;
smartlist_t *conns = get_connection_array();
now = time(NULL);
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
/* If we've been holding the connection open, but we haven't written
* for 15 seconds...
*/
if (conn->hold_open_until_flushed) {
tor_assert(conn->marked_for_close);
if (now - conn->timestamp_lastwritten >= 15) {
int severity;
if (conn->type == CONN_TYPE_EXIT ||
(conn->type == CONN_TYPE_DIR &&
conn->purpose == DIR_PURPOSE_SERVER))
severity = LOG_INFO;
else
severity = LOG_NOTICE;
log_fn(severity, LD_NET,
"Giving up on marked_for_close conn that's been flushing "
"for 15s (fd %d, type %s, state %s).",
conn->s, conn_type_to_string(conn->type),
conn_state_to_string(conn->type, conn->state));
conn->hold_open_until_flushed = 0;
}
}
});
}
/** Create an AF_INET listenaddr struct.
* <b>listenaddress</b> provides the host and optionally the port information
* for the new structure. If no port is provided in <b>listenaddress</b> then
* <b>listenport</b> is used.
*
* If not NULL <b>readable_address</b> will contain a copy of the host part of
* <b>listenaddress</b>.
*
* The listenaddr struct has to be freed by the caller.
*/
static struct sockaddr_in *
create_inet_sockaddr(const char *listenaddress, uint16_t listenport,
char **readable_address, socklen_t *socklen_out) {
struct sockaddr_in *listenaddr = NULL;
uint32_t addr;
uint16_t usePort = 0;
if (parse_addr_port(LOG_WARN,
listenaddress, readable_address, &addr, &usePort)<0) {
log_warn(LD_CONFIG,
"Error parsing/resolving ListenAddress %s", listenaddress);
goto err;
}
if (usePort==0)
usePort = listenport;
listenaddr = tor_malloc_zero(sizeof(struct sockaddr_in));
listenaddr->sin_addr.s_addr = htonl(addr);
listenaddr->sin_family = AF_INET;
listenaddr->sin_port = htons((uint16_t) usePort);
*socklen_out = sizeof(struct sockaddr_in);
return listenaddr;
err:
tor_free(listenaddr);
return NULL;
}
#ifdef HAVE_SYS_UN_H
/** Create an AF_UNIX listenaddr struct.
* <b>listenaddress</b> provides the path to the Unix socket.
*
* Eventually <b>listenaddress</b> will also optionally contain user, group,
* and file permissions for the new socket. But not yet. XXX
* Also, since we do not create the socket here the information doesn't help
* here.
*
* If not NULL <b>readable_address</b> will contain a copy of the path part of
* <b>listenaddress</b>.
*
* The listenaddr struct has to be freed by the caller.
*/
static struct sockaddr_un *
create_unix_sockaddr(const char *listenaddress, char **readable_address,
socklen_t *len_out)
{
struct sockaddr_un *sockaddr = NULL;
sockaddr = tor_malloc_zero(sizeof(struct sockaddr_un));
sockaddr->sun_family = AF_UNIX;
strncpy(sockaddr->sun_path, listenaddress, sizeof(sockaddr->sun_path));
if (readable_address)
*readable_address = tor_strdup(listenaddress);
*len_out = sizeof(struct sockaddr_un);
return sockaddr;
}
#else
static struct sockaddr *
create_unix_sockaddr(const char *listenaddress, char **readable_address,
socklen_t *len_out)
{
(void)listenaddress;
(void)readable_address;
log_fn(LOG_ERR, LD_BUG,
"Unix domain sockets not supported, yet we tried to create one.");
*len_out = 0;
tor_assert(0);
};
#endif /* HAVE_SYS_UN_H */
/** Warn that an accept or a connect has failed because we're running up
* against our ulimit. Rate-limit these warnings so that we don't spam
* the log. */
static void
warn_too_many_conns(void)
{
#define WARN_TOO_MANY_CONNS_INTERVAL (6*60*60)
static time_t last_warned = 0;
time_t now = time(NULL);
int n_conns = get_n_open_sockets();
if (last_warned + WARN_TOO_MANY_CONNS_INTERVAL < now) {
log_warn(LD_NET,"Failing because we have %d connections already. Please "
"raise your ulimit -n.", n_conns);
last_warned = now;
control_event_general_status(LOG_WARN, "TOO_MANY_CONNECTIONS CURRENT=%d",
n_conns);
}
}
/** Bind a new non-blocking socket listening to the socket described
* by <b>listensockaddr</b>.
*
* <b>address</b> is only used for logging purposes and to add the information
* to the conn.
*/
static connection_t *
connection_create_listener(struct sockaddr *listensockaddr, socklen_t socklen,
int type, char* address)
{
connection_t *conn;
int s; /* the socket we're going to make */
uint16_t usePort = 0;
int start_reading = 0;
if (get_n_open_sockets() >= get_options()->_ConnLimit-1) {
warn_too_many_conns();
return NULL;
}
if (listensockaddr->sa_family == AF_INET) {
int is_tcp = (type != CONN_TYPE_AP_DNS_LISTENER);
#ifndef MS_WINDOWS
int one=1;
#endif
if (is_tcp)
start_reading = 1;
usePort = ntohs( (uint16_t)
((struct sockaddr_in *)listensockaddr)->sin_port);
log_notice(LD_NET, "Opening %s on %s:%d",
conn_type_to_string(type), address, usePort);
s = tor_open_socket(PF_INET,
is_tcp ? SOCK_STREAM : SOCK_DGRAM,
is_tcp ? IPPROTO_TCP: IPPROTO_UDP);
if (s < 0) {
log_warn(LD_NET,"Socket creation failed.");
goto err;
}
#ifndef MS_WINDOWS
/* REUSEADDR on normal places means you can rebind to the port
* right after somebody else has let it go. But REUSEADDR on win32
* means you can bind to the port _even when somebody else
* already has it bound_. So, don't do that on Win32. */
setsockopt(s, SOL_SOCKET, SO_REUSEADDR, (void*) &one,
(socklen_t)sizeof(one));
#endif
if (bind(s,listensockaddr,socklen) < 0) {
const char *helpfulhint = "";
int e = tor_socket_errno(s);
if (ERRNO_IS_EADDRINUSE(e))
helpfulhint = ". Is Tor already running?";
log_warn(LD_NET, "Could not bind to %s:%u: %s%s", address, usePort,
tor_socket_strerror(e), helpfulhint);
tor_close_socket(s);
goto err;
}
if (is_tcp) {
if (listen(s,SOMAXCONN) < 0) {
log_warn(LD_NET, "Could not listen on %s:%u: %s", address, usePort,
tor_socket_strerror(tor_socket_errno(s)));
tor_close_socket(s);
goto err;
}
}
#ifdef HAVE_SYS_UN_H
} else if (listensockaddr->sa_family == AF_UNIX) {
start_reading = 1;
/* For now only control ports can be Unix domain sockets
* and listeners at the same time */
tor_assert(type == CONN_TYPE_CONTROL_LISTENER);
log_notice(LD_NET, "Opening %s on %s",
conn_type_to_string(type), address);
if (unlink(address) < 0 && errno != ENOENT) {
log_warn(LD_NET, "Could not unlink %s: %s", address,
strerror(errno));
goto err;
}
s = tor_open_socket(AF_UNIX, SOCK_STREAM, 0);
if (s < 0) {
log_warn(LD_NET,"Socket creation failed: %s.", strerror(errno));
goto err;
}
if (bind(s, listensockaddr, (socklen_t)sizeof(struct sockaddr_un)) == -1) {
log_warn(LD_NET,"Bind to %s failed: %s.", address,
tor_socket_strerror(tor_socket_errno(s)));
goto err;
}
if (listen(s,SOMAXCONN) < 0) {
log_warn(LD_NET, "Could not listen on %s: %s", address,
tor_socket_strerror(tor_socket_errno(s)));
tor_close_socket(s);
goto err;
}
#endif /* HAVE_SYS_UN_H */
} else {
log_err(LD_BUG,"Got unexpected address family %d.",
listensockaddr->sa_family);
tor_assert(0);
}
set_socket_nonblocking(s);
conn = connection_new(type, listensockaddr->sa_family);
conn->socket_family = listensockaddr->sa_family;
conn->s = s;
conn->address = tor_strdup(address);
conn->port = usePort;
if (connection_add(conn) < 0) { /* no space, forget it */
log_warn(LD_NET,"connection_add for listener failed. Giving up.");
connection_free(conn);
goto err;
}
log_debug(LD_NET,"%s listening on port %u.",
conn_type_to_string(type), usePort);
conn->state = LISTENER_STATE_READY;
if (start_reading) {
connection_start_reading(conn);
} else {
tor_assert(type == CONN_TYPE_AP_DNS_LISTENER);
dnsserv_configure_listener(conn);
}
return conn;
err:
return NULL;
}
/** Do basic sanity checking on a newly received socket. Return 0
* if it looks ok, else return -1. */
static int
check_sockaddr(struct sockaddr *sa, int len, int level)
{
int ok = 1;
if (sa->sa_family == AF_INET) {
struct sockaddr_in *sin=(struct sockaddr_in*)sa;
if (len != sizeof(struct sockaddr_in)) {
log_fn(level, LD_NET, "Length of address not as expected: %d vs %d",
len,(int)sizeof(struct sockaddr_in));
ok = 0;
}
if (sin->sin_addr.s_addr == 0 || sin->sin_port == 0) {
log_fn(level, LD_NET,
"Address for new connection has address/port equal to zero.");
ok = 0;
}
} else if (sa->sa_family == AF_INET6) {
struct sockaddr_in6 *sin6=(struct sockaddr_in6*)sa;
if (len != sizeof(struct sockaddr_in6)) {
log_fn(level, LD_NET, "Length of address not as expected: %d vs %d",
len,(int)sizeof(struct sockaddr_in6));
ok = 0;
}
if (tor_mem_is_zero((void*)sin6->sin6_addr.s6_addr, 16) ||
sin6->sin6_port == 0) {
log_fn(level, LD_NET,
"Address for new connection has address/port equal to zero.");
ok = 0;
}
} else {
ok = 0;
}
return ok ? 0 : -1;
}
/** Check whether the socket family from an accepted socket <b>got</b> is the
* same as the one that <b>listener</b> is waiting for. If it isn't, log
* a useful message and return -1. Else return 0.
*
* This is annoying, but can apparently happen on some Darwins. */
static int
check_sockaddr_family_match(sa_family_t got, connection_t *listener)
{
if (got != listener->socket_family) {
log_info(LD_BUG, "A listener connection returned a socket with a "
"mismatched family. %s for addr_family %d gave us a socket "
"with address family %d. Dropping.",
conn_type_to_string(listener->type),
(int)listener->socket_family,
(int)got);
return -1;
}
return 0;
}
/** The listener connection <b>conn</b> told poll() it wanted to read.
* Call accept() on conn-\>s, and add the new connection if necessary.
*/
static int
connection_handle_listener_read(connection_t *conn, int new_type)
{
int news; /* the new socket */
connection_t *newconn;
/* information about the remote peer when connecting to other routers */
char addrbuf[256];
struct sockaddr *remote = (struct sockaddr*)addrbuf;
/* length of the remote address. Must be whatever accept() needs. */
socklen_t remotelen = (socklen_t)sizeof(addrbuf);
or_options_t *options = get_options();
tor_assert((size_t)remotelen >= sizeof(struct sockaddr_in));
memset(addrbuf, 0, sizeof(addrbuf));
news = tor_accept_socket(conn->s,remote,&remotelen);
if (news < 0) { /* accept() error */
int e = tor_socket_errno(conn->s);
if (ERRNO_IS_ACCEPT_EAGAIN(e)) {
return 0; /* he hung up before we could accept(). that's fine. */
} else if (ERRNO_IS_ACCEPT_RESOURCE_LIMIT(e)) {
warn_too_many_conns();
return 0;
}
/* else there was a real error. */
log_warn(LD_NET,"accept() failed: %s. Closing listener.",
tor_socket_strerror(e));
connection_mark_for_close(conn);
return -1;
}
log_debug(LD_NET,
"Connection accepted on socket %d (child of fd %d).",
news,conn->s);
set_socket_nonblocking(news);
if (options->ConstrainedSockets)
set_constrained_socket_buffers(news, (int)options->ConstrainedSockSize);
if (check_sockaddr_family_match(remote->sa_family, conn) < 0) {
tor_close_socket(news);
return 0;
}
if (conn->socket_family == AF_INET || conn->socket_family == AF_INET6) {
tor_addr_t addr;
uint16_t port;
if (check_sockaddr(remote, remotelen, LOG_INFO)<0) {
log_info(LD_NET,
"accept() returned a strange address; trying getsockname().");
remotelen=sizeof(addrbuf);
memset(addrbuf, 0, sizeof(addrbuf));
if (getsockname(news, remote, &remotelen)<0) {
int e = tor_socket_errno(news);
log_warn(LD_NET, "getsockname() for new connection failed: %s",
tor_socket_strerror(e));
} else {
if (check_sockaddr((struct sockaddr*)addrbuf, remotelen,
LOG_WARN) < 0) {
log_warn(LD_NET,"Something's wrong with this conn. Closing it.");
tor_close_socket(news);
return 0;
}
}
}
if (check_sockaddr_family_match(remote->sa_family, conn) < 0) {
tor_close_socket(news);
return 0;
}
tor_addr_from_sockaddr(&addr, remote, &port);
/* process entrance policies here, before we even create the connection */
if (new_type == CONN_TYPE_AP) {
/* check sockspolicy to see if we should accept it */
if (socks_policy_permits_address(&addr) == 0) {
log_notice(LD_APP,
"Denying socks connection from untrusted address %s.",
fmt_addr(&addr));
tor_close_socket(news);
return 0;
}
}
if (new_type == CONN_TYPE_DIR) {
/* check dirpolicy to see if we should accept it */
if (dir_policy_permits_address(&addr) == 0) {
log_notice(LD_DIRSERV,"Denying dir connection from address %s.",
fmt_addr(&addr));
tor_close_socket(news);
return 0;
}
}
newconn = connection_new(new_type, conn->socket_family);
newconn->s = news;
/* remember the remote address */
tor_addr_copy(&newconn->addr, &addr);
newconn->port = port;
newconn->address = tor_dup_addr(&addr);
} else if (conn->socket_family == AF_UNIX) {
/* For now only control ports can be Unix domain sockets
* and listeners at the same time */
tor_assert(conn->type == CONN_TYPE_CONTROL_LISTENER);
newconn = connection_new(new_type, conn->socket_family);
newconn->s = news;
/* remember the remote address -- do we have anything sane to put here? */
tor_addr_make_unspec(&newconn->addr);
newconn->port = 1;
newconn->address = tor_strdup(conn->address);
} else {
tor_assert(0);
};
if (connection_add(newconn) < 0) { /* no space, forget it */
connection_free(newconn);
return 0; /* no need to tear down the parent */
}
if (connection_init_accepted_conn(newconn, conn->type) < 0) {
connection_mark_for_close(newconn);
return 0;
}
return 0;
}
/** Initialize states for newly accepted connection <b>conn</b>.
* If conn is an OR, start the TLS handshake.
* If conn is a transparent AP, get its original destination
* and place it in circuit_wait.
*/
static int
connection_init_accepted_conn(connection_t *conn, uint8_t listener_type)
{
connection_start_reading(conn);
switch (conn->type) {
case CONN_TYPE_OR:
control_event_or_conn_status(TO_OR_CONN(conn), OR_CONN_EVENT_NEW, 0);
return connection_tls_start_handshake(TO_OR_CONN(conn), 1);
case CONN_TYPE_AP:
switch (listener_type) {
case CONN_TYPE_AP_LISTENER:
conn->state = AP_CONN_STATE_SOCKS_WAIT;
break;
case CONN_TYPE_AP_TRANS_LISTENER:
conn->state = AP_CONN_STATE_CIRCUIT_WAIT;
return connection_ap_process_transparent(TO_EDGE_CONN(conn));
case CONN_TYPE_AP_NATD_LISTENER:
conn->state = AP_CONN_STATE_NATD_WAIT;
break;
}
break;
case CONN_TYPE_DIR:
conn->purpose = DIR_PURPOSE_SERVER;
conn->state = DIR_CONN_STATE_SERVER_COMMAND_WAIT;
break;
case CONN_TYPE_CONTROL:
conn->state = CONTROL_CONN_STATE_NEEDAUTH;
break;
}
return 0;
}
/** Take conn, make a nonblocking socket; try to connect to
* addr:port (they arrive in *host order*). If fail, return -1 and if
* applicable put your best guess about errno into *<b>socket_error</b>.
* Else assign s to conn-\>s: if connected return 1, if EAGAIN return 0.
*
* address is used to make the logs useful.
*
* On success, add conn to the list of polled connections.
*/
int
connection_connect(connection_t *conn, const char *address,
const tor_addr_t *addr, uint16_t port, int *socket_error)
{
int s, inprogress = 0;
char addrbuf[256];
struct sockaddr *dest_addr = (struct sockaddr*) addrbuf;
socklen_t dest_addr_len;
or_options_t *options = get_options();
int protocol_family;
if (get_n_open_sockets() >= get_options()->_ConnLimit-1) {
warn_too_many_conns();
return -1;
}
if (tor_addr_family(addr) == AF_INET6)
protocol_family = PF_INET6;
else
protocol_family = PF_INET;
s = tor_open_socket(protocol_family,SOCK_STREAM,IPPROTO_TCP);
if (s < 0) {
*socket_error = tor_socket_errno(-1);
log_warn(LD_NET,"Error creating network socket: %s",
tor_socket_strerror(*socket_error));
return -1;
}
if (options->OutboundBindAddress && !tor_addr_is_loopback(addr)) {
struct sockaddr_in ext_addr;
memset(&ext_addr, 0, sizeof(ext_addr));
ext_addr.sin_family = AF_INET;
ext_addr.sin_port = 0;
if (!tor_inet_aton(options->OutboundBindAddress, &ext_addr.sin_addr)) {
log_warn(LD_CONFIG,"Outbound bind address '%s' didn't parse. Ignoring.",
options->OutboundBindAddress);
} else {
if (bind(s, (struct sockaddr*)&ext_addr,
(socklen_t)sizeof(ext_addr)) < 0) {
*socket_error = tor_socket_errno(s);
log_warn(LD_NET,"Error binding network socket: %s",
tor_socket_strerror(*socket_error));
tor_close_socket(s);
return -1;
}
}
}
set_socket_nonblocking(s);
if (options->ConstrainedSockets)
set_constrained_socket_buffers(s, (int)options->ConstrainedSockSize);
memset(addrbuf,0,sizeof(addrbuf));
dest_addr = (struct sockaddr*) addrbuf;
dest_addr_len = tor_addr_to_sockaddr(addr, port, dest_addr, sizeof(addrbuf));
tor_assert(dest_addr_len > 0);
log_debug(LD_NET, "Connecting to %s:%u.",
escaped_safe_str_client(address), port);
if (connect(s, dest_addr, dest_addr_len) < 0) {
int e = tor_socket_errno(s);
if (!ERRNO_IS_CONN_EINPROGRESS(e)) {
/* yuck. kill it. */
*socket_error = e;
log_info(LD_NET,
"connect() to %s:%u failed: %s",
escaped_safe_str_client(address),
port, tor_socket_strerror(e));
tor_close_socket(s);
return -1;
} else {
inprogress = 1;
}
}
if (!server_mode(options))
client_check_address_changed(s);
/* it succeeded. we're connected. */
log_fn(inprogress?LOG_DEBUG:LOG_INFO, LD_NET,
"Connection to %s:%u %s (sock %d).",
escaped_safe_str_client(address),
port, inprogress?"in progress":"established", s);
conn->s = s;
if (connection_add(conn) < 0) /* no space, forget it */
return -1;
return inprogress ? 0 : 1;
}
/** Convert state number to string representation for logging purposes.
*/
static const char *
connection_proxy_state_to_string(int state)
{
static const char *unknown = "???";
static const char *states[] = {
"PROXY_NONE",
"PROXY_HTTPS_WANT_CONNECT_OK",
"PROXY_SOCKS4_WANT_CONNECT_OK",
"PROXY_SOCKS5_WANT_AUTH_METHOD_NONE",
"PROXY_SOCKS5_WANT_AUTH_METHOD_RFC1929",
"PROXY_SOCKS5_WANT_AUTH_RFC1929_OK",
"PROXY_SOCKS5_WANT_CONNECT_OK",
"PROXY_CONNECTED",
};
if (state < PROXY_NONE || state > PROXY_CONNECTED)
return unknown;
return states[state];
}
/** Write a proxy request of <b>type</b> (socks4, socks5, https) to conn
* for conn->addr:conn->port, authenticating with the auth details given
* in the configuration (if available). SOCKS 5 and HTTP CONNECT proxies
* support authentication.
*
* Returns -1 if conn->addr is incompatible with the proxy protocol, and
* 0 otherwise.
*
* Use connection_read_proxy_handshake() to complete the handshake.
*/
int
connection_proxy_connect(connection_t *conn, int type)
{
or_options_t *options;
tor_assert(conn);
options = get_options();
switch (type) {
case PROXY_CONNECT: {
char buf[1024];
char *base64_authenticator=NULL;
const char *authenticator = options->HttpsProxyAuthenticator;
/* Send HTTP CONNECT and authentication (if available) in
* one request */
if (authenticator) {
base64_authenticator = alloc_http_authenticator(authenticator);
if (!base64_authenticator)
log_warn(LD_OR, "Encoding https authenticator failed");
}
if (base64_authenticator) {
tor_snprintf(buf, sizeof(buf), "CONNECT %s:%d HTTP/1.1\r\n"
"Proxy-Authorization: Basic %s\r\n\r\n",
fmt_addr(&conn->addr),
conn->port, base64_authenticator);
tor_free(base64_authenticator);
} else {
tor_snprintf(buf, sizeof(buf), "CONNECT %s:%d HTTP/1.0\r\n\r\n",
fmt_addr(&conn->addr), conn->port);
}
connection_write_to_buf(buf, strlen(buf), conn);
conn->proxy_state = PROXY_HTTPS_WANT_CONNECT_OK;
break;
}
case PROXY_SOCKS4: {
unsigned char buf[9];
uint16_t portn;
uint32_t ip4addr;
/* Send a SOCKS4 connect request with empty user id */
if (tor_addr_family(&conn->addr) != AF_INET) {
log_warn(LD_NET, "SOCKS4 client is incompatible with IPv6");
return -1;
}
ip4addr = tor_addr_to_ipv4n(&conn->addr);
portn = htons(conn->port);
buf[0] = 4; /* version */
buf[1] = SOCKS_COMMAND_CONNECT; /* command */
memcpy(buf + 2, &portn, 2); /* port */
memcpy(buf + 4, &ip4addr, 4); /* addr */
buf[8] = 0; /* userid (empty) */
connection_write_to_buf((char *)buf, sizeof(buf), conn);
conn->proxy_state = PROXY_SOCKS4_WANT_CONNECT_OK;
break;
}
case PROXY_SOCKS5: {
unsigned char buf[4]; /* fields: vers, num methods, method list */
/* Send a SOCKS5 greeting (connect request must wait) */
buf[0] = 5; /* version */
/* number of auth methods */
if (options->Socks5ProxyUsername) {
buf[1] = 2;
buf[2] = 0x00; /* no authentication */
buf[3] = 0x02; /* rfc1929 Username/Passwd auth */
conn->proxy_state = PROXY_SOCKS5_WANT_AUTH_METHOD_RFC1929;
} else {
buf[1] = 1;
buf[2] = 0x00; /* no authentication */
conn->proxy_state = PROXY_SOCKS5_WANT_AUTH_METHOD_NONE;
}
connection_write_to_buf((char *)buf, 2 + buf[1], conn);
break;
}
default:
log_err(LD_BUG, "Invalid proxy protocol, %d", type);
tor_fragile_assert();
return -1;
}
log_debug(LD_NET, "set state %s",
connection_proxy_state_to_string(conn->proxy_state));
return 0;
}
/** Read conn's inbuf. If the http response from the proxy is all
* here, make sure it's good news, then return 1. If it's bad news,
* return -1. Else return 0 and hope for better luck next time.
*/
static int
connection_read_https_proxy_response(connection_t *conn)
{
char *headers;
char *reason=NULL;
int status_code;
time_t date_header;
switch (fetch_from_buf_http(conn->inbuf,
&headers, MAX_HEADERS_SIZE,
NULL, NULL, 10000, 0)) {
case -1: /* overflow */
log_warn(LD_PROTOCOL,
"Your https proxy sent back an oversized response. Closing.");
return -1;
case 0:
log_info(LD_NET,"https proxy response not all here yet. Waiting.");
return 0;
/* case 1, fall through */
}
if (parse_http_response(headers, &status_code, &date_header,
NULL, &reason) < 0) {
log_warn(LD_NET,
"Unparseable headers from proxy (connecting to '%s'). Closing.",
conn->address);
tor_free(headers);
return -1;
}
if (!reason) reason = tor_strdup("[no reason given]");
if (status_code == 200) {
log_info(LD_NET,
"HTTPS connect to '%s' successful! (200 %s) Starting TLS.",
conn->address, escaped(reason));
tor_free(reason);
return 1;
}
/* else, bad news on the status code */
log_warn(LD_NET,
"The https proxy sent back an unexpected status code %d (%s). "
"Closing.",
status_code, escaped(reason));
tor_free(reason);
return -1;
}
/** Send SOCKS5 CONNECT command to <b>conn</b>, copying <b>conn->addr</b>
* and <b>conn->port</b> into the request.
*/
static void
connection_send_socks5_connect(connection_t *conn)
{
unsigned char buf[1024];
size_t reqsize = 6;
uint16_t port = htons(conn->port);
buf[0] = 5; /* version */
buf[1] = SOCKS_COMMAND_CONNECT; /* command */
buf[2] = 0; /* reserved */
if (tor_addr_family(&conn->addr) == AF_INET) {
uint32_t addr = tor_addr_to_ipv4n(&conn->addr);
buf[3] = 1;
reqsize += 4;
memcpy(buf + 4, &addr, 4);
memcpy(buf + 8, &port, 2);
} else { /* AF_INET6 */
buf[3] = 4;
reqsize += 16;
memcpy(buf + 4, tor_addr_to_in6(&conn->addr), 16);
memcpy(buf + 20, &port, 2);
}
connection_write_to_buf((char *)buf, reqsize, conn);
conn->proxy_state = PROXY_SOCKS5_WANT_CONNECT_OK;
}
/** Call this from connection_*_process_inbuf() to advance the proxy
* handshake.
*
* No matter what proxy protocol is used, if this function returns 1, the
* handshake is complete, and the data remaining on inbuf may contain the
* start of the communication with the requested server.
*
* Returns 0 if the current buffer contains an incomplete response, and -1
* on error.
*/
int
connection_read_proxy_handshake(connection_t *conn)
{
int ret = 0;
char *reason = NULL;
log_debug(LD_NET, "enter state %s",
connection_proxy_state_to_string(conn->proxy_state));
switch (conn->proxy_state) {
case PROXY_HTTPS_WANT_CONNECT_OK:
ret = connection_read_https_proxy_response(conn);
if (ret == 1)
conn->proxy_state = PROXY_CONNECTED;
break;
case PROXY_SOCKS4_WANT_CONNECT_OK:
ret = fetch_from_buf_socks_client(conn->inbuf,
conn->proxy_state,
&reason);
if (ret == 1)
conn->proxy_state = PROXY_CONNECTED;
break;
case PROXY_SOCKS5_WANT_AUTH_METHOD_NONE:
ret = fetch_from_buf_socks_client(conn->inbuf,
conn->proxy_state,
&reason);
/* no auth needed, do connect */
if (ret == 1) {
connection_send_socks5_connect(conn);
ret = 0;
}
break;
case PROXY_SOCKS5_WANT_AUTH_METHOD_RFC1929:
ret = fetch_from_buf_socks_client(conn->inbuf,
conn->proxy_state,
&reason);
/* send auth if needed, otherwise do connect */
if (ret == 1) {
connection_send_socks5_connect(conn);
ret = 0;
} else if (ret == 2) {
unsigned char buf[1024];
size_t reqsize, usize, psize;
const char *user, *pass;
user = get_options()->Socks5ProxyUsername;
pass = get_options()->Socks5ProxyPassword;
tor_assert(user && pass);
/* XXX len of user and pass must be <= 255 !!! */
usize = strlen(user);
psize = strlen(pass);
tor_assert(usize <= 255 && psize <= 255);
reqsize = 3 + usize + psize;
buf[0] = 1; /* negotiation version */
buf[1] = usize;
memcpy(buf + 2, user, usize);
buf[2 + usize] = psize;
memcpy(buf + 3 + usize, pass, psize);
connection_write_to_buf((char *)buf, reqsize, conn);
conn->proxy_state = PROXY_SOCKS5_WANT_AUTH_RFC1929_OK;
ret = 0;
}
break;
case PROXY_SOCKS5_WANT_AUTH_RFC1929_OK:
ret = fetch_from_buf_socks_client(conn->inbuf,
conn->proxy_state,
&reason);
/* send the connect request */
if (ret == 1) {
connection_send_socks5_connect(conn);
ret = 0;
}
break;
case PROXY_SOCKS5_WANT_CONNECT_OK:
ret = fetch_from_buf_socks_client(conn->inbuf,
conn->proxy_state,
&reason);
if (ret == 1)
conn->proxy_state = PROXY_CONNECTED;
break;
default:
log_err(LD_BUG, "Invalid proxy_state for reading, %d",
conn->proxy_state);
tor_fragile_assert();
ret = -1;
break;
}
log_debug(LD_NET, "leaving state %s",
connection_proxy_state_to_string(conn->proxy_state));
if (ret < 0) {
if (reason) {
log_warn(LD_NET, "Proxy Client: unable to connect to %s:%d (%s)",
conn->address, conn->port, escaped(reason));
tor_free(reason);
} else {
log_warn(LD_NET, "Proxy Client: unable to connect to %s:%d",
conn->address, conn->port);
}
} else if (ret == 1) {
log_info(LD_NET, "Proxy Client: connection to %s:%d successful",
conn->address, conn->port);
}
return ret;
}
/**
* Launch any configured listener connections of type <b>type</b>. (A
* listener is configured if <b>port_option</b> is non-zero. If any
* ListenAddress configuration options are given in <b>cfg</b>, create a
* connection binding to each one. Otherwise, create a single
* connection binding to the address <b>default_addr</b>.)
*
* Only launch the listeners of this type that are not already open, and
* only close listeners that are no longer wanted. Existing listeners
* that are still configured are not touched.
*
* If <b>disable_all_conns</b> is set, then never open new conns, and
* close the existing ones.
*
* Add all old conns that should be closed to <b>replaced_conns</b>.
* Add all new connections to <b>new_conns</b>.
*/
static int
retry_listeners(int type, config_line_t *cfg,
int port_option, const char *default_addr,
smartlist_t *replaced_conns,
smartlist_t *new_conns,
int disable_all_conns,
int socket_family)
{
smartlist_t *launch = smartlist_create(), *conns;
int free_launch_elts = 1;
int r;
config_line_t *c;
connection_t *conn;
config_line_t *line;
tor_assert(socket_family == AF_INET || socket_family == AF_UNIX);
if (cfg && port_option) {
for (c = cfg; c; c = c->next) {
smartlist_add(launch, c);
}
free_launch_elts = 0;
} else if (port_option) {
line = tor_malloc_zero(sizeof(config_line_t));
line->key = tor_strdup("");
line->value = tor_strdup(default_addr);
smartlist_add(launch, line);
}
/*
SMARTLIST_FOREACH(launch, config_line_t *, l,
log_fn(LOG_NOTICE, "#%s#%s", l->key, l->value));
*/
conns = get_connection_array();
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (conn->type != type ||
conn->socket_family != socket_family ||
conn->marked_for_close)
continue;
/* Okay, so this is a listener. Is it configured? */
line = NULL;
SMARTLIST_FOREACH(launch, config_line_t *, wanted,
{
char *address=NULL;
uint16_t port;
switch (socket_family) {
case AF_INET:
if (!parse_addr_port(LOG_WARN,
wanted->value, &address, NULL, &port)) {
int addr_matches = !strcasecmp(address, conn->address);
tor_free(address);
if (! port)
port = port_option;
if (port == conn->port && addr_matches) {
line = wanted;
break;
}
}
break;
case AF_UNIX:
if (!strcasecmp(wanted->value, conn->address)) {
line = wanted;
break;
}
break;
default:
tor_assert(0);
}
});
if (!line || disable_all_conns) {
/* This one isn't configured. Close it. */
log_notice(LD_NET, "Closing no-longer-configured %s on %s:%d",
conn_type_to_string(type), conn->address, conn->port);
if (replaced_conns) {
smartlist_add(replaced_conns, conn);
} else {
connection_close_immediate(conn);
connection_mark_for_close(conn);
}
} else {
/* It's configured; we don't need to launch it. */
// log_debug(LD_NET, "Already have %s on %s:%d",
// conn_type_to_string(type), conn->address, conn->port);
smartlist_remove(launch, line);
if (free_launch_elts)
config_free_lines(line);
}
});
/* Now open all the listeners that are configured but not opened. */
r = 0;
if (!disable_all_conns) {
SMARTLIST_FOREACH_BEGIN(launch, config_line_t *, cfg_line) {
char *address = NULL;
struct sockaddr *listensockaddr;
socklen_t listensocklen = 0;
switch (socket_family) {
case AF_INET:
listensockaddr = (struct sockaddr *)
create_inet_sockaddr(cfg_line->value,
(uint16_t) port_option,
&address, &listensocklen);
break;
case AF_UNIX:
listensockaddr = (struct sockaddr *)
create_unix_sockaddr(cfg_line->value,
&address, &listensocklen);
break;
default:
tor_assert(0);
}
if (listensockaddr) {
conn = connection_create_listener(listensockaddr, listensocklen,
type, address);
tor_free(listensockaddr);
tor_free(address);
} else
conn = NULL;
if (!conn) {
r = -1;
} else {
if (new_conns)
smartlist_add(new_conns, conn);
}
} SMARTLIST_FOREACH_END(cfg_line);
}
if (free_launch_elts) {
SMARTLIST_FOREACH(launch, config_line_t *, cfg_line,
config_free_lines(cfg_line));
}
smartlist_free(launch);
return r;
}
/** Launch listeners for each port you should have open. Only launch
* listeners who are not already open, and only close listeners we no longer
* want.
*
* Add all old conns that should be closed to <b>replaced_conns</b>.
* Add all new connections to <b>new_conns</b>.
*/
int
retry_all_listeners(smartlist_t *replaced_conns,
smartlist_t *new_conns)
{
or_options_t *options = get_options();
if (retry_listeners(CONN_TYPE_OR_LISTENER, options->ORListenAddress,
options->ORPort, "0.0.0.0",
replaced_conns, new_conns, options->ClientOnly,
AF_INET)<0)
return -1;
if (retry_listeners(CONN_TYPE_DIR_LISTENER, options->DirListenAddress,
options->DirPort, "0.0.0.0",
replaced_conns, new_conns, options->ClientOnly,
AF_INET)<0)
return -1;
if (retry_listeners(CONN_TYPE_AP_LISTENER, options->SocksListenAddress,
options->SocksPort, "127.0.0.1",
replaced_conns, new_conns, 0,
AF_INET)<0)
return -1;
if (retry_listeners(CONN_TYPE_AP_TRANS_LISTENER, options->TransListenAddress,
options->TransPort, "127.0.0.1",
replaced_conns, new_conns, 0,
AF_INET)<0)
return -1;
if (retry_listeners(CONN_TYPE_AP_NATD_LISTENER, options->NatdListenAddress,
options->NatdPort, "127.0.0.1",
replaced_conns, new_conns, 0,
AF_INET)<0)
return -1;
if (retry_listeners(CONN_TYPE_AP_DNS_LISTENER, options->DNSListenAddress,
options->DNSPort, "127.0.0.1",
replaced_conns, new_conns, 0,
AF_INET)<0)
return -1;
if (retry_listeners(CONN_TYPE_CONTROL_LISTENER,
options->ControlListenAddress,
options->ControlPort, "127.0.0.1",
replaced_conns, new_conns, 0,
AF_INET)<0)
return -1;
if (retry_listeners(CONN_TYPE_CONTROL_LISTENER,
options->ControlSocket,
options->ControlSocket ? 1 : 0, NULL,
replaced_conns, new_conns, 0,
AF_UNIX)<0)
return -1;
return 0;
}
/** Return 1 if we should apply rate limiting to <b>conn</b>,
* and 0 otherwise. Right now this just checks if it's an internal
* IP address or an internal connection. */
static int
connection_is_rate_limited(connection_t *conn)
{
if (conn->linked || /* internal connection */
tor_addr_family(&conn->addr) == AF_UNSPEC || /* no address */
tor_addr_is_internal(&conn->addr, 0)) /* internal address */
return 0;
else
return 1;
}
extern int global_read_bucket, global_write_bucket;
extern int global_relayed_read_bucket, global_relayed_write_bucket;
/** Did either global write bucket run dry last second? If so,
* we are likely to run dry again this second, so be stingy with the
* tokens we just put in. */
static int write_buckets_empty_last_second = 0;
/** How many seconds of no active local circuits will make the
* connection revert to the "relayed" bandwidth class? */
#define CLIENT_IDLE_TIME_FOR_PRIORITY 30
/** Return 1 if <b>conn</b> should use tokens from the "relayed"
* bandwidth rates, else 0. Currently, only OR conns with bandwidth
* class 1, and directory conns that are serving data out, count.
*/
static int
connection_counts_as_relayed_traffic(connection_t *conn, time_t now)
{
if (conn->type == CONN_TYPE_OR &&
TO_OR_CONN(conn)->client_used + CLIENT_IDLE_TIME_FOR_PRIORITY < now)
return 1;
if (conn->type == CONN_TYPE_DIR && DIR_CONN_IS_SERVER(conn))
return 1;
return 0;
}
/** Helper function to decide how many bytes out of <b>global_bucket</b>
* we're willing to use for this transaction. <b>base</b> is the size
* of a cell on the network; <b>priority</b> says whether we should
* write many of them or just a few; and <b>conn_bucket</b> (if
* non-negative) provides an upper limit for our answer. */
static ssize_t
connection_bucket_round_robin(int base, int priority,
ssize_t global_bucket, ssize_t conn_bucket)
{
ssize_t at_most;
ssize_t num_bytes_high = (priority ? 32 : 16) * base;
ssize_t num_bytes_low = (priority ? 4 : 2) * base;
/* Do a rudimentary round-robin so one circuit can't hog a connection.
* Pick at most 32 cells, at least 4 cells if possible, and if we're in
* the middle pick 1/8 of the available bandwidth. */
at_most = global_bucket / 8;
at_most -= (at_most % base); /* round down */
if (at_most > num_bytes_high) /* 16 KB, or 8 KB for low-priority */
at_most = num_bytes_high;
else if (at_most < num_bytes_low) /* 2 KB, or 1 KB for low-priority */
at_most = num_bytes_low;
if (at_most > global_bucket)
at_most = global_bucket;
if (conn_bucket >= 0 && at_most > conn_bucket)
at_most = conn_bucket;
if (at_most < 0)
return 0;
return at_most;
}
/** How many bytes at most can we read onto this connection? */
static ssize_t
connection_bucket_read_limit(connection_t *conn, time_t now)
{
int base = connection_speaks_cells(conn) ?
CELL_NETWORK_SIZE : RELAY_PAYLOAD_SIZE;
int priority = conn->type != CONN_TYPE_DIR;
int conn_bucket = -1;
int global_bucket = global_read_bucket;
if (connection_speaks_cells(conn)) {
or_connection_t *or_conn = TO_OR_CONN(conn);
if (conn->state == OR_CONN_STATE_OPEN)
conn_bucket = or_conn->read_bucket;
}
if (!connection_is_rate_limited(conn)) {
/* be willing to read on local conns even if our buckets are empty */
return conn_bucket>=0 ? conn_bucket : 1<<14;
}
if (connection_counts_as_relayed_traffic(conn, now) &&
global_relayed_read_bucket <= global_read_bucket)
global_bucket = global_relayed_read_bucket;
return connection_bucket_round_robin(base, priority,
global_bucket, conn_bucket);
}
/** How many bytes at most can we write onto this connection? */
ssize_t
connection_bucket_write_limit(connection_t *conn, time_t now)
{
int base = connection_speaks_cells(conn) ?
CELL_NETWORK_SIZE : RELAY_PAYLOAD_SIZE;
int priority = conn->type != CONN_TYPE_DIR;
int conn_bucket = (int)conn->outbuf_flushlen;
int global_bucket = global_write_bucket;
if (!connection_is_rate_limited(conn)) {
/* be willing to write to local conns even if our buckets are empty */
return conn->outbuf_flushlen;
}
if (connection_speaks_cells(conn)) {
/* use the per-conn write limit if it's lower, but if it's less
* than zero just use zero */
or_connection_t *or_conn = TO_OR_CONN(conn);
if (conn->state == OR_CONN_STATE_OPEN)
if (or_conn->write_bucket < conn_bucket)
conn_bucket = or_conn->write_bucket >= 0 ?
or_conn->write_bucket : 0;
}
if (connection_counts_as_relayed_traffic(conn, now) &&
global_relayed_write_bucket <= global_write_bucket)
global_bucket = global_relayed_write_bucket;
return connection_bucket_round_robin(base, priority,
global_bucket, conn_bucket);
}
/** Return 1 if the global write buckets are low enough that we
* shouldn't send <b>attempt</b> bytes of low-priority directory stuff
* out to <b>conn</b>. Else return 0.
* Priority is 1 for v1 requests (directories and running-routers),
* and 2 for v2 requests (statuses and descriptors). But see FFFF in
* directory_handle_command_get() for why we don't use priority 2 yet.
*
* There are a lot of parameters we could use here:
* - global_relayed_write_bucket. Low is bad.
* - global_write_bucket. Low is bad.
* - bandwidthrate. Low is bad.
* - bandwidthburst. Not a big factor?
* - attempt. High is bad.
* - total bytes queued on outbufs. High is bad. But I'm wary of
* using this, since a few slow-flushing queues will pump up the
* number without meaning what we meant to mean. What we really
* mean is "total directory bytes added to outbufs recently", but
* that's harder to quantify and harder to keep track of.
*/
int
global_write_bucket_low(connection_t *conn, size_t attempt, int priority)
{
int smaller_bucket = global_write_bucket < global_relayed_write_bucket ?
global_write_bucket : global_relayed_write_bucket;
if (authdir_mode(get_options()) && priority>1)
return 0; /* there's always room to answer v2 if we're an auth dir */
if (!connection_is_rate_limited(conn))
return 0; /* local conns don't get limited */
if (smaller_bucket < (int)attempt)
return 1; /* not enough space no matter the priority */
if (write_buckets_empty_last_second)
return 1; /* we're already hitting our limits, no more please */
if (priority == 1) { /* old-style v1 query */
/* Could we handle *two* of these requests within the next two seconds? */
or_options_t *options = get_options();
int64_t can_write = (int64_t)smaller_bucket
+ 2*(options->RelayBandwidthRate ? options->RelayBandwidthRate :
options->BandwidthRate);
if (can_write < 2*(int64_t)attempt)
return 1;
} else { /* v2 query */
/* no further constraints yet */
}
return 0;
}
/** We just read <b>num_read</b> and wrote <b>num_written</b> bytes
* onto <b>conn</b>. Decrement buckets appropriately. */
static void
connection_buckets_decrement(connection_t *conn, time_t now,
size_t num_read, size_t num_written)
{
if (!connection_is_rate_limited(conn))
return; /* local IPs are free */
if (num_written >= INT_MAX || num_read >= INT_MAX) {
log_err(LD_BUG, "Value out of range. num_read=%lu, num_written=%lu, "
"connection type=%s, state=%s",
(unsigned long)num_read, (unsigned long)num_written,
conn_type_to_string(conn->type),
conn_state_to_string(conn->type, conn->state));
if (num_written >= INT_MAX) num_written = 1;
if (num_read >= INT_MAX) num_read = 1;
tor_fragile_assert();
}
if (num_read > 0) {
if (conn->type == CONN_TYPE_EXIT)
rep_hist_note_exit_bytes_read(conn->port, num_read);
rep_hist_note_bytes_read(num_read, now);
}
if (num_written > 0) {
if (conn->type == CONN_TYPE_EXIT)
rep_hist_note_exit_bytes_written(conn->port, num_written);
rep_hist_note_bytes_written(num_written, now);
}
if (connection_counts_as_relayed_traffic(conn, now)) {
global_relayed_read_bucket -= (int)num_read;
global_relayed_write_bucket -= (int)num_written;
}
global_read_bucket -= (int)num_read;
global_write_bucket -= (int)num_written;
if (connection_speaks_cells(conn) && conn->state == OR_CONN_STATE_OPEN) {
TO_OR_CONN(conn)->read_bucket -= (int)num_read;
TO_OR_CONN(conn)->write_bucket -= (int)num_written;
}
}
/** If we have exhausted our global buckets, or the buckets for conn,
* stop reading. */
static void
connection_consider_empty_read_buckets(connection_t *conn)
{
const char *reason;
if (global_read_bucket <= 0) {
reason = "global read bucket exhausted. Pausing.";
} else if (connection_counts_as_relayed_traffic(conn, approx_time()) &&
global_relayed_read_bucket <= 0) {
reason = "global relayed read bucket exhausted. Pausing.";
} else if (connection_speaks_cells(conn) &&
conn->state == OR_CONN_STATE_OPEN &&
TO_OR_CONN(conn)->read_bucket <= 0) {
reason = "connection read bucket exhausted. Pausing.";
} else
return; /* all good, no need to stop it */
LOG_FN_CONN(conn, (LOG_DEBUG, LD_NET, "%s", reason));
conn->read_blocked_on_bw = 1;
connection_stop_reading(conn);
}
/** If we have exhausted our global buckets, or the buckets for conn,
* stop writing. */
static void
connection_consider_empty_write_buckets(connection_t *conn)
{
const char *reason;
if (global_write_bucket <= 0) {
reason = "global write bucket exhausted. Pausing.";
} else if (connection_counts_as_relayed_traffic(conn, approx_time()) &&
global_relayed_write_bucket <= 0) {
reason = "global relayed write bucket exhausted. Pausing.";
} else if (connection_speaks_cells(conn) &&
conn->state == OR_CONN_STATE_OPEN &&
TO_OR_CONN(conn)->write_bucket <= 0) {
reason = "connection write bucket exhausted. Pausing.";
} else
return; /* all good, no need to stop it */
LOG_FN_CONN(conn, (LOG_DEBUG, LD_NET, "%s", reason));
conn->write_blocked_on_bw = 1;
connection_stop_writing(conn);
}
/** Initialize the global read bucket to options-\>BandwidthBurst. */
void
connection_bucket_init(void)
{
or_options_t *options = get_options();
/* start it at max traffic */
global_read_bucket = (int)options->BandwidthBurst;
global_write_bucket = (int)options->BandwidthBurst;
if (options->RelayBandwidthRate) {
global_relayed_read_bucket = (int)options->RelayBandwidthBurst;
global_relayed_write_bucket = (int)options->RelayBandwidthBurst;
} else {
global_relayed_read_bucket = (int)options->BandwidthBurst;
global_relayed_write_bucket = (int)options->BandwidthBurst;
}
}
/** Refill a single <b>bucket</b> called <b>name</b> with bandwidth rate
* <b>rate</b> and bandwidth burst <b>burst</b>, assuming that
* <b>seconds_elapsed</b> seconds have passed since the last call.
**/
static void
connection_bucket_refill_helper(int *bucket, int rate, int burst,
int seconds_elapsed, const char *name)
{
int starting_bucket = *bucket;
if (starting_bucket < burst && seconds_elapsed) {
if (((burst - starting_bucket)/seconds_elapsed) < rate) {
*bucket = burst; /* We would overflow the bucket; just set it to
* the maximum. */
} else {
int incr = rate*seconds_elapsed;
*bucket += incr;
if (*bucket > burst || *bucket < starting_bucket) {
/* If we overflow the burst, or underflow our starting bucket,
* cap the bucket value to burst. */
/* XXXX this might be redundant now, but it doesn't show up
* in profiles. Remove it after analysis. */
*bucket = burst;
}
}
log(LOG_DEBUG, LD_NET,"%s now %d.", name, *bucket);
}
}
/** A second has rolled over; increment buckets appropriately. */
void
connection_bucket_refill(int seconds_elapsed, time_t now)
{
or_options_t *options = get_options();
smartlist_t *conns = get_connection_array();
int relayrate, relayburst;
if (options->RelayBandwidthRate) {
relayrate = (int)options->RelayBandwidthRate;
relayburst = (int)options->RelayBandwidthBurst;
} else {
relayrate = (int)options->BandwidthRate;
relayburst = (int)options->BandwidthBurst;
}
tor_assert(seconds_elapsed >= 0);
write_buckets_empty_last_second =
global_relayed_write_bucket <= 0 || global_write_bucket <= 0;
/* refill the global buckets */
connection_bucket_refill_helper(&global_read_bucket,
(int)options->BandwidthRate,
(int)options->BandwidthBurst,
seconds_elapsed, "global_read_bucket");
connection_bucket_refill_helper(&global_write_bucket,
(int)options->BandwidthRate,
(int)options->BandwidthBurst,
seconds_elapsed, "global_write_bucket");
connection_bucket_refill_helper(&global_relayed_read_bucket,
relayrate, relayburst, seconds_elapsed,
"global_relayed_read_bucket");
connection_bucket_refill_helper(&global_relayed_write_bucket,
relayrate, relayburst, seconds_elapsed,
"global_relayed_write_bucket");
/* refill the per-connection buckets */
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (connection_speaks_cells(conn)) {
or_connection_t *or_conn = TO_OR_CONN(conn);
if (connection_bucket_should_increase(or_conn->read_bucket, or_conn)) {
connection_bucket_refill_helper(&or_conn->read_bucket,
or_conn->bandwidthrate,
or_conn->bandwidthburst,
seconds_elapsed,
"or_conn->read_bucket");
}
if (connection_bucket_should_increase(or_conn->write_bucket, or_conn)) {
connection_bucket_refill_helper(&or_conn->write_bucket,
or_conn->bandwidthrate,
or_conn->bandwidthburst,
seconds_elapsed,
"or_conn->write_bucket");
}
}
if (conn->read_blocked_on_bw == 1 /* marked to turn reading back on now */
&& global_read_bucket > 0 /* and we're allowed to read */
&& (!connection_counts_as_relayed_traffic(conn, now) ||
global_relayed_read_bucket > 0) /* even if we're relayed traffic */
&& (!connection_speaks_cells(conn) ||
conn->state != OR_CONN_STATE_OPEN ||
TO_OR_CONN(conn)->read_bucket > 0)) {
/* and either a non-cell conn or a cell conn with non-empty bucket */
LOG_FN_CONN(conn, (LOG_DEBUG,LD_NET,
"waking up conn (fd %d) for read", conn->s));
conn->read_blocked_on_bw = 0;
connection_start_reading(conn);
}
if (conn->write_blocked_on_bw == 1
&& global_write_bucket > 0 /* and we're allowed to write */
&& (!connection_counts_as_relayed_traffic(conn, now) ||
global_relayed_write_bucket > 0) /* even if it's relayed traffic */
&& (!connection_speaks_cells(conn) ||
conn->state != OR_CONN_STATE_OPEN ||
TO_OR_CONN(conn)->write_bucket > 0)) {
LOG_FN_CONN(conn, (LOG_DEBUG,LD_NET,
"waking up conn (fd %d) for write", conn->s));
conn->write_blocked_on_bw = 0;
connection_start_writing(conn);
}
});
}
/** Is the <b>bucket</b> for connection <b>conn</b> low enough that we
* should add another pile of tokens to it?
*/
static int
connection_bucket_should_increase(int bucket, or_connection_t *conn)
{
tor_assert(conn);
if (conn->_base.state != OR_CONN_STATE_OPEN)
return 0; /* only open connections play the rate limiting game */
if (bucket >= conn->bandwidthburst)
return 0;
return 1;
}
/** Read bytes from conn-\>s and process them.
*
* This function gets called from conn_read() in main.c, either
* when poll() has declared that conn wants to read, or (for OR conns)
* when there are pending TLS bytes.
*
* It calls connection_read_to_buf() to bring in any new bytes,
* and then calls connection_process_inbuf() to process them.
*
* Mark the connection and return -1 if you want to close it, else
* return 0.
*/
static int
connection_handle_read_impl(connection_t *conn)
{
int max_to_read=-1, try_to_read;
size_t before, n_read = 0;
int socket_error = 0;
if (conn->marked_for_close)
return 0; /* do nothing */
conn->timestamp_lastread = approx_time();
switch (conn->type) {
case CONN_TYPE_OR_LISTENER:
return connection_handle_listener_read(conn, CONN_TYPE_OR);
case CONN_TYPE_AP_LISTENER:
case CONN_TYPE_AP_TRANS_LISTENER:
case CONN_TYPE_AP_NATD_LISTENER:
return connection_handle_listener_read(conn, CONN_TYPE_AP);
case CONN_TYPE_DIR_LISTENER:
return connection_handle_listener_read(conn, CONN_TYPE_DIR);
case CONN_TYPE_CONTROL_LISTENER:
return connection_handle_listener_read(conn, CONN_TYPE_CONTROL);
case CONN_TYPE_AP_DNS_LISTENER:
/* This should never happen; eventdns.c handles the reads here. */
tor_fragile_assert();
return 0;
}
loop_again:
try_to_read = max_to_read;
tor_assert(!conn->marked_for_close);
before = buf_datalen(conn->inbuf);
if (connection_read_to_buf(conn, &max_to_read, &socket_error) < 0) {
/* There's a read error; kill the connection.*/
if (conn->type == CONN_TYPE_OR &&
conn->state == OR_CONN_STATE_CONNECTING) {
connection_or_connect_failed(TO_OR_CONN(conn),
errno_to_orconn_end_reason(socket_error),
tor_socket_strerror(socket_error));
}
if (CONN_IS_EDGE(conn)) {
edge_connection_t *edge_conn = TO_EDGE_CONN(conn);
connection_edge_end_errno(edge_conn);
if (edge_conn->socks_request) /* broken, don't send a socks reply back */
edge_conn->socks_request->has_finished = 1;
}
connection_close_immediate(conn); /* Don't flush; connection is dead. */
connection_mark_for_close(conn);
return -1;
}
n_read += buf_datalen(conn->inbuf) - before;
if (CONN_IS_EDGE(conn) && try_to_read != max_to_read) {
/* instruct it not to try to package partial cells. */
if (connection_process_inbuf(conn, 0) < 0) {
return -1;
}
if (!conn->marked_for_close &&
connection_is_reading(conn) &&
!conn->inbuf_reached_eof &&
max_to_read > 0)
goto loop_again; /* try reading again, in case more is here now */
}
/* one last try, packaging partial cells and all. */
if (!conn->marked_for_close &&
connection_process_inbuf(conn, 1) < 0) {
return -1;
}
if (conn->linked_conn) {
/* The other side's handle_write() will never actually get called, so
* we need to invoke the appropriate callbacks ourself. */
connection_t *linked = conn->linked_conn;
if (n_read) {
/* Probably a no-op, but hey. */
connection_buckets_decrement(linked, approx_time(), n_read, 0);
if (connection_flushed_some(linked) < 0)
connection_mark_for_close(linked);
if (!connection_wants_to_flush(linked))
connection_finished_flushing(linked);
}
if (!buf_datalen(linked->outbuf) && conn->active_on_link)
connection_stop_reading_from_linked_conn(conn);
}
/* If we hit the EOF, call connection_reached_eof(). */
if (!conn->marked_for_close &&
conn->inbuf_reached_eof &&
connection_reached_eof(conn) < 0) {
return -1;
}
return 0;
}
int
connection_handle_read(connection_t *conn)
{
int res;
tor_gettimeofday_cache_clear();
res = connection_handle_read_impl(conn);
return res;
}
/** Pull in new bytes from conn-\>s or conn-\>linked_conn onto conn-\>inbuf,
* either directly or via TLS. Reduce the token buckets by the number of bytes
* read.
*
* If *max_to_read is -1, then decide it ourselves, else go with the
* value passed to us. When returning, if it's changed, subtract the
* number of bytes we read from *max_to_read.
*
* Return -1 if we want to break conn, else return 0.
*/
static int
connection_read_to_buf(connection_t *conn, int *max_to_read, int *socket_error)
{
int result;
ssize_t at_most = *max_to_read;
size_t slack_in_buf, more_to_read;
size_t n_read = 0, n_written = 0;
if (at_most == -1) { /* we need to initialize it */
/* how many bytes are we allowed to read? */
at_most = connection_bucket_read_limit(conn, approx_time());
}
slack_in_buf = buf_slack(conn->inbuf);
again:
if ((size_t)at_most > slack_in_buf && slack_in_buf >= 1024) {
more_to_read = at_most - slack_in_buf;
at_most = slack_in_buf;
} else {
more_to_read = 0;
}
if (connection_speaks_cells(conn) &&
conn->state > OR_CONN_STATE_PROXY_HANDSHAKING) {
int pending;
or_connection_t *or_conn = TO_OR_CONN(conn);
size_t initial_size;
if (conn->state == OR_CONN_STATE_TLS_HANDSHAKING ||
conn->state == OR_CONN_STATE_TLS_CLIENT_RENEGOTIATING) {
/* continue handshaking even if global token bucket is empty */
return connection_tls_continue_handshake(or_conn);
}
log_debug(LD_NET,
"%d: starting, inbuf_datalen %ld (%d pending in tls object)."
" at_most %ld.",
conn->s,(long)buf_datalen(conn->inbuf),
tor_tls_get_pending_bytes(or_conn->tls), (long)at_most);
initial_size = buf_datalen(conn->inbuf);
/* else open, or closing */
result = read_to_buf_tls(or_conn->tls, at_most, conn->inbuf);
if (TOR_TLS_IS_ERROR(result) || result == TOR_TLS_CLOSE)
or_conn->tls_error = result;
else
or_conn->tls_error = 0;
switch (result) {
case TOR_TLS_CLOSE:
case TOR_TLS_ERROR_IO:
log_debug(LD_NET,"TLS connection closed %son read. Closing. "
"(Nickname %s, address %s)",
result == TOR_TLS_CLOSE ? "cleanly " : "",
or_conn->nickname ? or_conn->nickname : "not set",
conn->address);
return result;
CASE_TOR_TLS_ERROR_ANY_NONIO:
log_debug(LD_NET,"tls error [%s]. breaking (nickname %s, address %s).",
tor_tls_err_to_string(result),
or_conn->nickname ? or_conn->nickname : "not set",
conn->address);
return result;
case TOR_TLS_WANTWRITE:
connection_start_writing(conn);
return 0;
case TOR_TLS_WANTREAD: /* we're already reading */
case TOR_TLS_DONE: /* no data read, so nothing to process */
result = 0;
break; /* so we call bucket_decrement below */
default:
break;
}
pending = tor_tls_get_pending_bytes(or_conn->tls);
if (pending) {
/* If we have any pending bytes, we read them now. This *can*
* take us over our read allotment, but really we shouldn't be
* believing that SSL bytes are the same as TCP bytes anyway. */
int r2 = read_to_buf_tls(or_conn->tls, pending, conn->inbuf);
if (r2<0) {
log_warn(LD_BUG, "apparently, reading pending bytes can fail.");
return -1;
}
}
result = (int)(buf_datalen(conn->inbuf)-initial_size);
tor_tls_get_n_raw_bytes(or_conn->tls, &n_read, &n_written);
log_debug(LD_GENERAL, "After TLS read of %d: %ld read, %ld written",
result, (long)n_read, (long)n_written);
} else if (conn->linked) {
if (conn->linked_conn) {
result = move_buf_to_buf(conn->inbuf, conn->linked_conn->outbuf,
&conn->linked_conn->outbuf_flushlen);
} else {
result = 0;
}
//log_notice(LD_GENERAL, "Moved %d bytes on an internal link!", result);
/* If the other side has disappeared, or if it's been marked for close and
* we flushed its outbuf, then we should set our inbuf_reached_eof. */
if (!conn->linked_conn ||
(conn->linked_conn->marked_for_close &&
buf_datalen(conn->linked_conn->outbuf) == 0))
conn->inbuf_reached_eof = 1;
n_read = (size_t) result;
} else {
/* !connection_speaks_cells, !conn->linked_conn. */
int reached_eof = 0;
CONN_LOG_PROTECT(conn,
result = read_to_buf(conn->s, at_most, conn->inbuf, &reached_eof,
socket_error));
if (reached_eof)
conn->inbuf_reached_eof = 1;
// log_fn(LOG_DEBUG,"read_to_buf returned %d.",read_result);
if (result < 0)
return -1;
n_read = (size_t) result;
}
if (n_read > 0) { /* change *max_to_read */
/*XXXX021 check for overflow*/
*max_to_read = (int)(at_most - n_read);
}
if (conn->type == CONN_TYPE_AP) {
edge_connection_t *edge_conn = TO_EDGE_CONN(conn);
/*XXXX021 check for overflow*/
edge_conn->n_read += (int)n_read;
}
connection_buckets_decrement(conn, approx_time(), n_read, n_written);
if (more_to_read && result == at_most) {
slack_in_buf = buf_slack(conn->inbuf);
at_most = more_to_read;
goto again;
}
/* Call even if result is 0, since the global read bucket may
* have reached 0 on a different conn, and this guy needs to
* know to stop reading. */
connection_consider_empty_read_buckets(conn);
if (n_written > 0 && connection_is_writing(conn))
connection_consider_empty_write_buckets(conn);
return 0;
}
/** A pass-through to fetch_from_buf. */
int
connection_fetch_from_buf(char *string, size_t len, connection_t *conn)
{
return fetch_from_buf(string, len, conn->inbuf);
}
/** Return conn-\>outbuf_flushlen: how many bytes conn wants to flush
* from its outbuf. */
int
connection_wants_to_flush(connection_t *conn)
{
return conn->outbuf_flushlen > 0;
}
/** Are there too many bytes on edge connection <b>conn</b>'s outbuf to
* send back a relay-level sendme yet? Return 1 if so, 0 if not. Used by
* connection_edge_consider_sending_sendme().
*/
int
connection_outbuf_too_full(connection_t *conn)
{
return (conn->outbuf_flushlen > 10*CELL_PAYLOAD_SIZE);
}
/** Try to flush more bytes onto conn-\>s.
*
* This function gets called either from conn_write() in main.c
* when poll() has declared that conn wants to write, or below
* from connection_write_to_buf() when an entire TLS record is ready.
*
* Update conn-\>timestamp_lastwritten to now, and call flush_buf
* or flush_buf_tls appropriately. If it succeeds and there are no more
* more bytes on conn->outbuf, then call connection_finished_flushing
* on it too.
*
* If <b>force</b>, then write as many bytes as possible, ignoring bandwidth
* limits. (Used for flushing messages to controller connections on fatal
* errors.)
*
* Mark the connection and return -1 if you want to close it, else
* return 0.
*/
static int
connection_handle_write_impl(connection_t *conn, int force)
{
int e;
socklen_t len=(socklen_t)sizeof(e);
int result;
ssize_t max_to_write;
time_t now = approx_time();
size_t n_read = 0, n_written = 0;
tor_assert(!connection_is_listener(conn));
if (conn->marked_for_close || conn->s < 0)
return 0; /* do nothing */
if (conn->in_flushed_some) {
log_warn(LD_BUG, "called recursively from inside conn->in_flushed_some");
return 0;
}
conn->timestamp_lastwritten = now;
/* Sometimes, "writable" means "connected". */
if (connection_state_is_connecting(conn)) {
if (getsockopt(conn->s, SOL_SOCKET, SO_ERROR, (void*)&e, &len) < 0) {
log_warn(LD_BUG,
"getsockopt() syscall failed?! Please report to tor-ops.");
if (CONN_IS_EDGE(conn))
connection_edge_end_errno(TO_EDGE_CONN(conn));
connection_mark_for_close(conn);
return -1;
}
if (e) {
/* some sort of error, but maybe just inprogress still */
if (!ERRNO_IS_CONN_EINPROGRESS(e)) {
log_info(LD_NET,"in-progress connect failed. Removing. (%s)",
tor_socket_strerror(e));
if (CONN_IS_EDGE(conn))
connection_edge_end_errno(TO_EDGE_CONN(conn));
if (conn->type == CONN_TYPE_OR)
connection_or_connect_failed(TO_OR_CONN(conn),
errno_to_orconn_end_reason(e),
tor_socket_strerror(e));
connection_close_immediate(conn);
connection_mark_for_close(conn);
return -1;
} else {
return 0; /* no change, see if next time is better */
}
}
/* The connection is successful. */
if (connection_finished_connecting(conn)<0)
return -1;
}
max_to_write = force ? (ssize_t)conn->outbuf_flushlen
: connection_bucket_write_limit(conn, now);
if (connection_speaks_cells(conn) &&
conn->state > OR_CONN_STATE_PROXY_HANDSHAKING) {
or_connection_t *or_conn = TO_OR_CONN(conn);
if (conn->state == OR_CONN_STATE_TLS_HANDSHAKING ||
conn->state == OR_CONN_STATE_TLS_CLIENT_RENEGOTIATING) {
connection_stop_writing(conn);
if (connection_tls_continue_handshake(or_conn) < 0) {
/* Don't flush; connection is dead. */
connection_close_immediate(conn);
connection_mark_for_close(conn);
return -1;
}
return 0;
} else if (conn->state == OR_CONN_STATE_TLS_SERVER_RENEGOTIATING) {
return connection_handle_read(conn);
}
/* else open, or closing */
result = flush_buf_tls(or_conn->tls, conn->outbuf,
max_to_write, &conn->outbuf_flushlen);
/* If we just flushed the last bytes, check if this tunneled dir
* request is done. */
if (buf_datalen(conn->outbuf) == 0 && conn->dirreq_id)
geoip_change_dirreq_state(conn->dirreq_id, DIRREQ_TUNNELED,
DIRREQ_OR_CONN_BUFFER_FLUSHED);
switch (result) {
CASE_TOR_TLS_ERROR_ANY:
case TOR_TLS_CLOSE:
log_info(LD_NET,result!=TOR_TLS_CLOSE?
"tls error. breaking.":"TLS connection closed on flush");
/* Don't flush; connection is dead. */
connection_close_immediate(conn);
connection_mark_for_close(conn);
return -1;
case TOR_TLS_WANTWRITE:
log_debug(LD_NET,"wanted write.");
/* we're already writing */
return 0;
case TOR_TLS_WANTREAD:
/* Make sure to avoid a loop if the receive buckets are empty. */
log_debug(LD_NET,"wanted read.");
if (!connection_is_reading(conn)) {
connection_stop_writing(conn);
conn->write_blocked_on_bw = 1;
/* we'll start reading again when we get more tokens in our
* read bucket; then we'll start writing again too.
*/
}
/* else no problem, we're already reading */
return 0;
/* case TOR_TLS_DONE:
* for TOR_TLS_DONE, fall through to check if the flushlen
* is empty, so we can stop writing.
*/
}
tor_tls_get_n_raw_bytes(or_conn->tls, &n_read, &n_written);
log_debug(LD_GENERAL, "After TLS write of %d: %ld read, %ld written",
result, (long)n_read, (long)n_written);
} else {
CONN_LOG_PROTECT(conn,
result = flush_buf(conn->s, conn->outbuf,
max_to_write, &conn->outbuf_flushlen));
if (result < 0) {
if (CONN_IS_EDGE(conn))
connection_edge_end_errno(TO_EDGE_CONN(conn));
connection_close_immediate(conn); /* Don't flush; connection is dead. */
connection_mark_for_close(conn);
return -1;
}
n_written = (size_t) result;
}
if (conn->type == CONN_TYPE_AP) {
edge_connection_t *edge_conn = TO_EDGE_CONN(conn);
/*XXXX021 check for overflow.*/
edge_conn->n_written += (int)n_written;
}
connection_buckets_decrement(conn, approx_time(), n_read, n_written);
if (result > 0) {
/* If we wrote any bytes from our buffer, then call the appropriate
* functions. */
if (connection_flushed_some(conn) < 0)
connection_mark_for_close(conn);
}
if (!connection_wants_to_flush(conn)) { /* it's done flushing */
if (connection_finished_flushing(conn) < 0) {
/* already marked */
return -1;
}
return 0;
}
/* Call even if result is 0, since the global write bucket may
* have reached 0 on a different conn, and this guy needs to
* know to stop writing. */
connection_consider_empty_write_buckets(conn);
if (n_read > 0 && connection_is_reading(conn))
connection_consider_empty_read_buckets(conn);
return 0;
}
int
connection_handle_write(connection_t *conn, int force)
{
int res;
tor_gettimeofday_cache_clear();
res = connection_handle_write_impl(conn, force);
return res;
}
/** OpenSSL TLS record size is 16383; this is close. The goal here is to
* push data out as soon as we know there's enough for a TLS record, so
* during periods of high load we won't read entire megabytes from
* input before pushing any data out. It also has the feature of not
* growing huge outbufs unless something is slow. */
#define MIN_TLS_FLUSHLEN 15872
/** Append <b>len</b> bytes of <b>string</b> onto <b>conn</b>'s
* outbuf, and ask it to start writing.
*
* If <b>zlib</b> is nonzero, this is a directory connection that should get
* its contents compressed or decompressed as they're written. If zlib is
* negative, this is the last data to be compressed, and the connection's zlib
* state should be flushed.
*
* If it's an OR conn and an entire TLS record is ready, then try to
* flush the record now. Similarly, if it's a local control connection
* and a 64k chunk is ready, try to flush it all, so we don't end up with
* many megabytes of controller info queued at once.
*/
void
_connection_write_to_buf_impl(const char *string, size_t len,
connection_t *conn, int zlib)
{
/* XXXX This function really needs to return -1 on failure. */
int r;
size_t old_datalen;
if (!len && !(zlib<0))
return;
/* if it's marked for close, only allow write if we mean to flush it */
if (conn->marked_for_close && !conn->hold_open_until_flushed)
return;
old_datalen = buf_datalen(conn->outbuf);
if (zlib) {
dir_connection_t *dir_conn = TO_DIR_CONN(conn);
int done = zlib < 0;
CONN_LOG_PROTECT(conn, r = write_to_buf_zlib(conn->outbuf,
dir_conn->zlib_state,
string, len, done));
} else {
CONN_LOG_PROTECT(conn, r = write_to_buf(string, len, conn->outbuf));
}
if (r < 0) {
if (CONN_IS_EDGE(conn)) {
/* if it failed, it means we have our package/delivery windows set
wrong compared to our max outbuf size. close the whole circuit. */
log_warn(LD_NET,
"write_to_buf failed. Closing circuit (fd %d).", conn->s);
circuit_mark_for_close(circuit_get_by_edge_conn(TO_EDGE_CONN(conn)),
END_CIRC_REASON_INTERNAL);
} else {
log_warn(LD_NET,
"write_to_buf failed. Closing connection (fd %d).", conn->s);
connection_mark_for_close(conn);
}
return;
}
connection_start_writing(conn);
if (zlib) {
conn->outbuf_flushlen += buf_datalen(conn->outbuf) - old_datalen;
} else {
ssize_t extra = 0;
conn->outbuf_flushlen += len;
/* Should we try flushing the outbuf now? */
if (conn->in_flushed_some) {
/* Don't flush the outbuf when the reason we're writing more stuff is
* _because_ we flushed the outbuf. That's unfair. */
return;
}
if (conn->type == CONN_TYPE_OR &&
conn->outbuf_flushlen-len < MIN_TLS_FLUSHLEN &&
conn->outbuf_flushlen >= MIN_TLS_FLUSHLEN) {
/* We just pushed outbuf_flushlen to MIN_TLS_FLUSHLEN or above;
* we can send out a full TLS frame now if we like. */
extra = conn->outbuf_flushlen - MIN_TLS_FLUSHLEN;
conn->outbuf_flushlen = MIN_TLS_FLUSHLEN;
} else if (conn->type == CONN_TYPE_CONTROL &&
!connection_is_rate_limited(conn) &&
conn->outbuf_flushlen-len < 1<<16 &&
conn->outbuf_flushlen >= 1<<16) {
/* just try to flush all of it */
} else
return; /* no need to try flushing */
if (connection_handle_write(conn, 0) < 0) {
if (!conn->marked_for_close) {
/* this connection is broken. remove it. */
log_warn(LD_BUG, "unhandled error on write for "
"conn (type %d, fd %d); removing",
conn->type, conn->s);
tor_fragile_assert();
/* do a close-immediate here, so we don't try to flush */
connection_close_immediate(conn);
}
return;
}
if (extra) {
conn->outbuf_flushlen += extra;
connection_start_writing(conn);
}
}
}
/** Return a connection with given type, address, port, and purpose;
* or NULL if no such connection exists. */
connection_t *
connection_get_by_type_addr_port_purpose(int type,
const tor_addr_t *addr, uint16_t port,
int purpose)
{
smartlist_t *conns = get_connection_array();
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (conn->type == type &&
tor_addr_eq(&conn->addr, addr) &&
conn->port == port &&
conn->purpose == purpose &&
!conn->marked_for_close)
return conn;
});
return NULL;
}
/** Return the stream with id <b>id</b> if it is not already marked for
* close.
*/
connection_t *
connection_get_by_global_id(uint64_t id)
{
smartlist_t *conns = get_connection_array();
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (conn->global_identifier == id)
return conn;
});
return NULL;
}
/** Return a connection of type <b>type</b> that is not marked for close.
*/
connection_t *
connection_get_by_type(int type)
{
smartlist_t *conns = get_connection_array();
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (conn->type == type && !conn->marked_for_close)
return conn;
});
return NULL;
}
/** Return a connection of type <b>type</b> that is in state <b>state</b>,
* and that is not marked for close.
*/
connection_t *
connection_get_by_type_state(int type, int state)
{
smartlist_t *conns = get_connection_array();
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (conn->type == type && conn->state == state && !conn->marked_for_close)
return conn;
});
return NULL;
}
/** Return a connection of type <b>type</b> that has rendquery equal
* to <b>rendquery</b>, and that is not marked for close. If state
* is non-zero, conn must be of that state too.
*/
connection_t *
connection_get_by_type_state_rendquery(int type, int state,
const char *rendquery)
{
smartlist_t *conns = get_connection_array();
tor_assert(type == CONN_TYPE_DIR ||
type == CONN_TYPE_AP || type == CONN_TYPE_EXIT);
tor_assert(rendquery);
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (conn->type == type &&
!conn->marked_for_close &&
(!state || state == conn->state)) {
if (type == CONN_TYPE_DIR &&
TO_DIR_CONN(conn)->rend_data &&
!rend_cmp_service_ids(rendquery,
TO_DIR_CONN(conn)->rend_data->onion_address))
return conn;
else if (CONN_IS_EDGE(conn) &&
TO_EDGE_CONN(conn)->rend_data &&
!rend_cmp_service_ids(rendquery,
TO_EDGE_CONN(conn)->rend_data->onion_address))
return conn;
}
});
return NULL;
}
/** Return an open, non-marked connection of a given type and purpose, or NULL
* if no such connection exists. */
connection_t *
connection_get_by_type_purpose(int type, int purpose)
{
smartlist_t *conns = get_connection_array();
SMARTLIST_FOREACH(conns, connection_t *, conn,
{
if (conn->type == type &&
!conn->marked_for_close &&
(purpose == conn->purpose))
return conn;
});
return NULL;
}
/** Return 1 if <b>conn</b> is a listener conn, else return 0. */
int
connection_is_listener(connection_t *conn)
{
if (conn->type == CONN_TYPE_OR_LISTENER ||
conn->type == CONN_TYPE_AP_LISTENER ||
conn->type == CONN_TYPE_AP_TRANS_LISTENER ||
conn->type == CONN_TYPE_AP_DNS_LISTENER ||
conn->type == CONN_TYPE_AP_NATD_LISTENER ||
conn->type == CONN_TYPE_DIR_LISTENER ||
conn->type == CONN_TYPE_CONTROL_LISTENER)
return 1;
return 0;
}
/** Return 1 if <b>conn</b> is in state "open" and is not marked
* for close, else return 0.
*/
int
connection_state_is_open(connection_t *conn)
{
tor_assert(conn);
if (conn->marked_for_close)
return 0;
if ((conn->type == CONN_TYPE_OR && conn->state == OR_CONN_STATE_OPEN) ||
(conn->type == CONN_TYPE_AP && conn->state == AP_CONN_STATE_OPEN) ||
(conn->type == CONN_TYPE_EXIT && conn->state == EXIT_CONN_STATE_OPEN) ||
(conn->type == CONN_TYPE_CONTROL &&
conn->state == CONTROL_CONN_STATE_OPEN))
return 1;
return 0;
}
/** Return 1 if conn is in 'connecting' state, else return 0. */
int
connection_state_is_connecting(connection_t *conn)
{
tor_assert(conn);
if (conn->marked_for_close)
return 0;
switch (conn->type)
{
case CONN_TYPE_OR:
return conn->state == OR_CONN_STATE_CONNECTING;
case CONN_TYPE_EXIT:
return conn->state == EXIT_CONN_STATE_CONNECTING;
case CONN_TYPE_DIR:
return conn->state == DIR_CONN_STATE_CONNECTING;
}
return 0;
}
/** Allocates a base64'ed authenticator for use in http or https
* auth, based on the input string <b>authenticator</b>. Returns it
* if success, else returns NULL. */
char *
alloc_http_authenticator(const char *authenticator)
{
/* an authenticator in Basic authentication
* is just the string "username:password" */
const size_t authenticator_length = strlen(authenticator);
/* The base64_encode function needs a minimum buffer length
* of 66 bytes. */
const size_t base64_authenticator_length = (authenticator_length/48+1)*66;
char *base64_authenticator = tor_malloc(base64_authenticator_length);
if (base64_encode(base64_authenticator, base64_authenticator_length,
authenticator, authenticator_length) < 0) {
tor_free(base64_authenticator); /* free and set to null */
} else {
/* remove extra \n at end of encoding */
base64_authenticator[strlen(base64_authenticator) - 1] = 0;
}
return base64_authenticator;
}
/** Given a socket handle, check whether the local address (sockname) of the
* socket is one that we've connected from before. If so, double-check
* whether our address has changed and we need to generate keys. If we do,
* call init_keys().
*/
static void
client_check_address_changed(int sock)
{
uint32_t iface_ip, ip_out;
struct sockaddr_in out_addr;
socklen_t out_addr_len = (socklen_t) sizeof(out_addr);
uint32_t *ip;
if (!last_interface_ip)
get_interface_address(LOG_INFO, &last_interface_ip);
if (!outgoing_addrs)
outgoing_addrs = smartlist_create();
if (getsockname(sock, (struct sockaddr*)&out_addr, &out_addr_len)<0) {
int e = tor_socket_errno(sock);
log_warn(LD_NET, "getsockname() to check for address change failed: %s",
tor_socket_strerror(e));
return;
}
/* If we've used this address previously, we're okay. */
ip_out = ntohl(out_addr.sin_addr.s_addr);
SMARTLIST_FOREACH(outgoing_addrs, uint32_t*, ip_ptr,
if (*ip_ptr == ip_out) return;
);
/* Uh-oh. We haven't connected from this address before. Has the interface
* address changed? */
if (get_interface_address(LOG_INFO, &iface_ip)<0)
return;
ip = tor_malloc(sizeof(uint32_t));
*ip = ip_out;
if (iface_ip == last_interface_ip) {
/* Nope, it hasn't changed. Add this address to the list. */
smartlist_add(outgoing_addrs, ip);
} else {
/* The interface changed. We're a client, so we need to regenerate our
* keys. First, reset the state. */
log(LOG_NOTICE, LD_NET, "Our IP address has changed. Rotating keys...");
last_interface_ip = iface_ip;
SMARTLIST_FOREACH(outgoing_addrs, void*, ip_ptr, tor_free(ip_ptr));
smartlist_clear(outgoing_addrs);
smartlist_add(outgoing_addrs, ip);
/* Okay, now change our keys. */
ip_address_changed(1);
}
}
/** Some systems have limited system buffers for recv and xmit on
* sockets allocated in a virtual server or similar environment. For a Tor
* server this can produce the "Error creating network socket: No buffer
* space available" error once all available TCP buffer space is consumed.
* This method will attempt to constrain the buffers allocated for the socket
* to the desired size to stay below system TCP buffer limits.
*/
static void
set_constrained_socket_buffers(int sock, int size)
{
void *sz = (void*)&size;
socklen_t sz_sz = (socklen_t) sizeof(size);
if (setsockopt(sock, SOL_SOCKET, SO_SNDBUF, sz, sz_sz) < 0) {
int e = tor_socket_errno(sock);
log_warn(LD_NET, "setsockopt() to constrain send "
"buffer to %d bytes failed: %s", size, tor_socket_strerror(e));
}
if (setsockopt(sock, SOL_SOCKET, SO_RCVBUF, sz, sz_sz) < 0) {
int e = tor_socket_errno(sock);
log_warn(LD_NET, "setsockopt() to constrain recv "
"buffer to %d bytes failed: %s", size, tor_socket_strerror(e));
}
}
/** Process new bytes that have arrived on conn-\>inbuf.
*
* This function just passes conn to the connection-specific
* connection_*_process_inbuf() function. It also passes in
* package_partial if wanted.
*/
static int
connection_process_inbuf(connection_t *conn, int package_partial)
{
tor_assert(conn);
switch (conn->type) {
case CONN_TYPE_OR:
return connection_or_process_inbuf(TO_OR_CONN(conn));
case CONN_TYPE_EXIT:
case CONN_TYPE_AP:
return connection_edge_process_inbuf(TO_EDGE_CONN(conn),
package_partial);
case CONN_TYPE_DIR:
return connection_dir_process_inbuf(TO_DIR_CONN(conn));
case CONN_TYPE_CPUWORKER:
return connection_cpu_process_inbuf(conn);
case CONN_TYPE_CONTROL:
return connection_control_process_inbuf(TO_CONTROL_CONN(conn));
default:
log_err(LD_BUG,"got unexpected conn type %d.", conn->type);
tor_fragile_assert();
return -1;
}
}
/** Called whenever we've written data on a connection. */
static int
connection_flushed_some(connection_t *conn)
{
int r = 0;
tor_assert(!conn->in_flushed_some);
conn->in_flushed_some = 1;
if (conn->type == CONN_TYPE_DIR &&
conn->state == DIR_CONN_STATE_SERVER_WRITING) {
r = connection_dirserv_flushed_some(TO_DIR_CONN(conn));
} else if (conn->type == CONN_TYPE_OR) {
r = connection_or_flushed_some(TO_OR_CONN(conn));
}
conn->in_flushed_some = 0;
return r;
}
/** We just finished flushing bytes from conn-\>outbuf, and there
* are no more bytes remaining.
*
* This function just passes conn to the connection-specific
* connection_*_finished_flushing() function.
*/
static int
connection_finished_flushing(connection_t *conn)
{
tor_assert(conn);
/* If the connection is closed, don't try to do anything more here. */
if (CONN_IS_CLOSED(conn))
return 0;
// log_fn(LOG_DEBUG,"entered. Socket %u.", conn->s);
switch (conn->type) {
case CONN_TYPE_OR:
return connection_or_finished_flushing(TO_OR_CONN(conn));
case CONN_TYPE_AP:
case CONN_TYPE_EXIT:
return connection_edge_finished_flushing(TO_EDGE_CONN(conn));
case CONN_TYPE_DIR:
return connection_dir_finished_flushing(TO_DIR_CONN(conn));
case CONN_TYPE_CPUWORKER:
return connection_cpu_finished_flushing(conn);
case CONN_TYPE_CONTROL:
return connection_control_finished_flushing(TO_CONTROL_CONN(conn));
default:
log_err(LD_BUG,"got unexpected conn type %d.", conn->type);
tor_fragile_assert();
return -1;
}
}
/** Called when our attempt to connect() to another server has just
* succeeded.
*
* This function just passes conn to the connection-specific
* connection_*_finished_connecting() function.
*/
static int
connection_finished_connecting(connection_t *conn)
{
tor_assert(conn);
switch (conn->type)
{
case CONN_TYPE_OR:
return connection_or_finished_connecting(TO_OR_CONN(conn));
case CONN_TYPE_EXIT:
return connection_edge_finished_connecting(TO_EDGE_CONN(conn));
case CONN_TYPE_DIR:
return connection_dir_finished_connecting(TO_DIR_CONN(conn));
default:
log_err(LD_BUG,"got unexpected conn type %d.", conn->type);
tor_fragile_assert();
return -1;
}
}
/** Callback: invoked when a connection reaches an EOF event. */
static int
connection_reached_eof(connection_t *conn)
{
switch (conn->type) {
case CONN_TYPE_OR:
return connection_or_reached_eof(TO_OR_CONN(conn));
case CONN_TYPE_AP:
case CONN_TYPE_EXIT:
return connection_edge_reached_eof(TO_EDGE_CONN(conn));
case CONN_TYPE_DIR:
return connection_dir_reached_eof(TO_DIR_CONN(conn));
case CONN_TYPE_CPUWORKER:
return connection_cpu_reached_eof(conn);
case CONN_TYPE_CONTROL:
return connection_control_reached_eof(TO_CONTROL_CONN(conn));
default:
log_err(LD_BUG,"got unexpected conn type %d.", conn->type);
tor_fragile_assert();
return -1;
}
}
/** Log how many bytes are used by buffers of different kinds and sizes. */
void
connection_dump_buffer_mem_stats(int severity)
{
uint64_t used_by_type[_CONN_TYPE_MAX+1];
uint64_t alloc_by_type[_CONN_TYPE_MAX+1];
int n_conns_by_type[_CONN_TYPE_MAX+1];
uint64_t total_alloc = 0;
uint64_t total_used = 0;
int i;
smartlist_t *conns = get_connection_array();
memset(used_by_type, 0, sizeof(used_by_type));
memset(alloc_by_type, 0, sizeof(alloc_by_type));
memset(n_conns_by_type, 0, sizeof(n_conns_by_type));
SMARTLIST_FOREACH(conns, connection_t *, c,
{
int tp = c->type;
++n_conns_by_type[tp];
if (c->inbuf) {
used_by_type[tp] += buf_datalen(c->inbuf);
alloc_by_type[tp] += buf_allocation(c->inbuf);
}
if (c->outbuf) {
used_by_type[tp] += buf_datalen(c->outbuf);
alloc_by_type[tp] += buf_allocation(c->outbuf);
}
});
for (i=0; i <= _CONN_TYPE_MAX; ++i) {
total_used += used_by_type[i];
total_alloc += alloc_by_type[i];
}
log(severity, LD_GENERAL,
"In buffers for %d connections: "U64_FORMAT" used/"U64_FORMAT" allocated",
smartlist_len(conns),
U64_PRINTF_ARG(total_used), U64_PRINTF_ARG(total_alloc));
for (i=_CONN_TYPE_MIN; i <= _CONN_TYPE_MAX; ++i) {
if (!n_conns_by_type[i])
continue;
log(severity, LD_GENERAL,
" For %d %s connections: "U64_FORMAT" used/"U64_FORMAT" allocated",
n_conns_by_type[i], conn_type_to_string(i),
U64_PRINTF_ARG(used_by_type[i]), U64_PRINTF_ARG(alloc_by_type[i]));
}
}
/** Verify that connection <b>conn</b> has all of its invariants
* correct. Trigger an assert if anything is invalid.
*/
void
assert_connection_ok(connection_t *conn, time_t now)
{
(void) now; /* XXXX unused. */
tor_assert(conn);
tor_assert(conn->type >= _CONN_TYPE_MIN);
tor_assert(conn->type <= _CONN_TYPE_MAX);
switch (conn->type) {
case CONN_TYPE_OR:
tor_assert(conn->magic == OR_CONNECTION_MAGIC);
break;
case CONN_TYPE_AP:
case CONN_TYPE_EXIT:
tor_assert(conn->magic == EDGE_CONNECTION_MAGIC);
break;
case CONN_TYPE_DIR:
tor_assert(conn->magic == DIR_CONNECTION_MAGIC);
break;
case CONN_TYPE_CONTROL:
tor_assert(conn->magic == CONTROL_CONNECTION_MAGIC);
break;
default:
tor_assert(conn->magic == BASE_CONNECTION_MAGIC);
break;
}
if (conn->linked_conn) {
tor_assert(conn->linked_conn->linked_conn == conn);
tor_assert(conn->linked);
}
if (conn->linked)
tor_assert(conn->s < 0);
if (conn->outbuf_flushlen > 0) {
tor_assert(connection_is_writing(conn) || conn->write_blocked_on_bw ||
(CONN_IS_EDGE(conn) && TO_EDGE_CONN(conn)->edge_blocked_on_circ));
}
if (conn->hold_open_until_flushed)
tor_assert(conn->marked_for_close);
/* XXXX check: read_blocked_on_bw, write_blocked_on_bw, s, conn_array_index,
* marked_for_close. */
/* buffers */
if (!connection_is_listener(conn)) {
assert_buf_ok(conn->inbuf);
assert_buf_ok(conn->outbuf);
}
if (conn->type == CONN_TYPE_OR) {
or_connection_t *or_conn = TO_OR_CONN(conn);
if (conn->state == OR_CONN_STATE_OPEN) {
/* tor_assert(conn->bandwidth > 0); */
/* the above isn't necessarily true: if we just did a TLS
* handshake but we didn't recognize the other peer, or it
* gave a bad cert/etc, then we won't have assigned bandwidth,
* yet it will be open. -RD
*/
// tor_assert(conn->read_bucket >= 0);
}
// tor_assert(conn->addr && conn->port);
tor_assert(conn->address);
if (conn->state > OR_CONN_STATE_PROXY_HANDSHAKING)
tor_assert(or_conn->tls);
}
if (CONN_IS_EDGE(conn)) {
edge_connection_t *edge_conn = TO_EDGE_CONN(conn);
if (edge_conn->chosen_exit_optional || edge_conn->chosen_exit_retries) {
tor_assert(conn->type == CONN_TYPE_AP);
tor_assert(edge_conn->chosen_exit_name);
}
/* XXX unchecked: package window, deliver window. */
if (conn->type == CONN_TYPE_AP) {
tor_assert(edge_conn->socks_request);
if (conn->state == AP_CONN_STATE_OPEN) {
tor_assert(edge_conn->socks_request->has_finished);
if (!conn->marked_for_close) {
tor_assert(edge_conn->cpath_layer);
assert_cpath_layer_ok(edge_conn->cpath_layer);
}
}
}
if (conn->type == CONN_TYPE_EXIT) {
tor_assert(conn->purpose == EXIT_PURPOSE_CONNECT ||
conn->purpose == EXIT_PURPOSE_RESOLVE);
}
} else if (conn->type == CONN_TYPE_DIR) {
} else {
/* Purpose is only used for dir and exit types currently */
tor_assert(!conn->purpose);
}
switch (conn->type)
{
case CONN_TYPE_OR_LISTENER:
case CONN_TYPE_AP_LISTENER:
case CONN_TYPE_AP_TRANS_LISTENER:
case CONN_TYPE_AP_NATD_LISTENER:
case CONN_TYPE_DIR_LISTENER:
case CONN_TYPE_CONTROL_LISTENER:
case CONN_TYPE_AP_DNS_LISTENER:
tor_assert(conn->state == LISTENER_STATE_READY);
break;
case CONN_TYPE_OR:
tor_assert(conn->state >= _OR_CONN_STATE_MIN);
tor_assert(conn->state <= _OR_CONN_STATE_MAX);
tor_assert(TO_OR_CONN(conn)->n_circuits >= 0);
break;
case CONN_TYPE_EXIT:
tor_assert(conn->state >= _EXIT_CONN_STATE_MIN);
tor_assert(conn->state <= _EXIT_CONN_STATE_MAX);
tor_assert(conn->purpose >= _EXIT_PURPOSE_MIN);
tor_assert(conn->purpose <= _EXIT_PURPOSE_MAX);
break;
case CONN_TYPE_AP:
tor_assert(conn->state >= _AP_CONN_STATE_MIN);
tor_assert(conn->state <= _AP_CONN_STATE_MAX);
tor_assert(TO_EDGE_CONN(conn)->socks_request);
break;
case CONN_TYPE_DIR:
tor_assert(conn->state >= _DIR_CONN_STATE_MIN);
tor_assert(conn->state <= _DIR_CONN_STATE_MAX);
tor_assert(conn->purpose >= _DIR_PURPOSE_MIN);
tor_assert(conn->purpose <= _DIR_PURPOSE_MAX);
break;
case CONN_TYPE_CPUWORKER:
tor_assert(conn->state >= _CPUWORKER_STATE_MIN);
tor_assert(conn->state <= _CPUWORKER_STATE_MAX);
break;
case CONN_TYPE_CONTROL:
tor_assert(conn->state >= _CONTROL_CONN_STATE_MIN);
tor_assert(conn->state <= _CONTROL_CONN_STATE_MAX);
break;
default:
tor_assert(0);
}
}
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