tor/src/common/compat_libevent.c

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/* Copyright (c) 2009-2015, The Tor Project, Inc. */
/* See LICENSE for licensing information */
/**
* \file compat_libevent.c
* \brief Wrappers to handle porting between different versions of libevent.
*
* In an ideal world, we'd just use Libevent 2.0 from now on. But as of June
* 2012, Libevent 1.4 is still all over, and some poor souls are stuck on
* Libevent 1.3e. */
#include "orconfig.h"
#include "compat.h"
#include "compat_libevent.h"
#include "crypto.h"
#include "util.h"
#include "torlog.h"
#ifdef HAVE_EVENT2_EVENT_H
#include <event2/event.h>
#include <event2/thread.h>
#ifdef USE_BUFFEREVENTS
#include <event2/bufferevent.h>
#endif
#else
#include <event.h>
#endif
/** A number representing a version of Libevent.
This is a 4-byte number, with the first three bytes representing the
major, minor, and patchlevel respectively of the library. The fourth
byte is unused.
This is equivalent to the format of LIBEVENT_VERSION_NUMBER on Libevent
2.0.1 or later. For versions of Libevent before 1.4.0, which followed the
format of "1.0, 1.0a, 1.0b", we define 1.0 to be equivalent to 1.0.0, 1.0a
to be equivalent to 1.0.1, and so on.
*/
typedef uint32_t le_version_t;
/** @{ */
/** Macros: returns the number of a libevent version as a le_version_t */
#define V(major, minor, patch) \
(((major) << 24) | ((minor) << 16) | ((patch) << 8))
#define V_OLD(major, minor, patch) \
V((major), (minor), (patch)-'a'+1)
/** @} */
/** Represetns a version of libevent so old we can't figure out what version
* it is. */
#define LE_OLD V(0,0,0)
/** Represents a version of libevent so weird we can't figure out what version
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* it is. */
#define LE_OTHER V(0,0,99)
/** A string which, if it appears in a libevent log, should be ignored. */
static const char *suppress_msg = NULL;
/** Callback function passed to event_set_log() so we can intercept
* log messages from libevent. */
static void
libevent_logging_callback(int severity, const char *msg)
{
char buf[1024];
size_t n;
if (suppress_msg && strstr(msg, suppress_msg))
return;
n = strlcpy(buf, msg, sizeof(buf));
if (n && n < sizeof(buf) && buf[n-1] == '\n') {
buf[n-1] = '\0';
}
switch (severity) {
case _EVENT_LOG_DEBUG:
log_debug(LD_NOCB|LD_NET, "Message from libevent: %s", buf);
break;
case _EVENT_LOG_MSG:
log_info(LD_NOCB|LD_NET, "Message from libevent: %s", buf);
break;
case _EVENT_LOG_WARN:
log_warn(LD_NOCB|LD_GENERAL, "Warning from libevent: %s", buf);
break;
case _EVENT_LOG_ERR:
log_err(LD_NOCB|LD_GENERAL, "Error from libevent: %s", buf);
break;
default:
log_warn(LD_NOCB|LD_GENERAL, "Message [%d] from libevent: %s",
severity, buf);
break;
}
}
/** Set hook to intercept log messages from libevent. */
void
configure_libevent_logging(void)
{
event_set_log_callback(libevent_logging_callback);
}
/** Ignore any libevent log message that contains <b>msg</b>. */
void
suppress_libevent_log_msg(const char *msg)
{
suppress_msg = msg;
}
#ifndef HAVE_EVENT2_EVENT_H
/** Work-alike replacement for event_new() on pre-Libevent-2.0 systems. */
struct event *
tor_event_new(struct event_base *base, int sock, short what,
void (*cb)(int, short, void *), void *arg)
{
struct event *e = tor_malloc_zero(sizeof(struct event));
event_set(e, sock, what, cb, arg);
if (! base)
base = tor_libevent_get_base();
event_base_set(base, e);
return e;
}
/** Work-alike replacement for evtimer_new() on pre-Libevent-2.0 systems. */
struct event *
tor_evtimer_new(struct event_base *base,
void (*cb)(int, short, void *), void *arg)
{
return tor_event_new(base, -1, 0, cb, arg);
}
/** Work-alike replacement for evsignal_new() on pre-Libevent-2.0 systems. */
struct event *
tor_evsignal_new(struct event_base * base, int sig,
void (*cb)(int, short, void *), void *arg)
{
return tor_event_new(base, sig, EV_SIGNAL|EV_PERSIST, cb, arg);
}
/** Work-alike replacement for event_free() on pre-Libevent-2.0 systems,
* except tolerate tor_event_free(NULL). */
void
tor_event_free(struct event *ev)
{
if (ev == NULL)
return;
event_del(ev);
tor_free(ev);
}
#else
/* Wrapper for event_free() that tolerates tor_event_free(NULL) */
void
tor_event_free(struct event *ev)
{
if (ev == NULL)
return;
event_free(ev);
}
#endif
/** Global event base for use by the main thread. */
struct event_base *the_event_base = NULL;
/* This is what passes for version detection on OSX. We set
* MACOSX_KQUEUE_IS_BROKEN to true iff we're on a version of OSX before
* 10.4.0 (aka 1040). */
#ifdef __APPLE__
#ifdef __ENVIRONMENT_MAC_OS_X_VERSION_MIN_REQUIRED__
#define MACOSX_KQUEUE_IS_BROKEN \
(__ENVIRONMENT_MAC_OS_X_VERSION_MIN_REQUIRED__ < 1040)
#else
#define MACOSX_KQUEUE_IS_BROKEN 0
#endif
#endif
#ifdef USE_BUFFEREVENTS
static int using_iocp_bufferevents = 0;
static void tor_libevent_set_tick_timeout(int msec_per_tick);
int
tor_libevent_using_iocp_bufferevents(void)
{
return using_iocp_bufferevents;
}
#endif
/** Initialize the Libevent library and set up the event base. */
void
tor_libevent_initialize(tor_libevent_cfg *torcfg)
{
tor_assert(the_event_base == NULL);
/* some paths below don't use torcfg, so avoid unused variable warnings */
(void)torcfg;
#ifdef HAVE_EVENT2_EVENT_H
{
int attempts = 0;
int using_threads;
struct event_config *cfg;
retry:
++attempts;
using_threads = 0;
cfg = event_config_new();
tor_assert(cfg);
#if defined(_WIN32) && defined(USE_BUFFEREVENTS)
if (! torcfg->disable_iocp) {
evthread_use_windows_threads();
event_config_set_flag(cfg, EVENT_BASE_FLAG_STARTUP_IOCP);
using_iocp_bufferevents = 1;
using_threads = 1;
} else {
using_iocp_bufferevents = 0;
}
#elif defined(__COVERITY__)
/* Avoid a 'dead code' warning below. */
using_threads = ! torcfg->disable_iocp;
#endif
if (!using_threads) {
/* Telling Libevent not to try to turn locking on can avoid a needless
* socketpair() attempt. */
event_config_set_flag(cfg, EVENT_BASE_FLAG_NOLOCK);
}
#if defined(LIBEVENT_VERSION_NUMBER) && LIBEVENT_VERSION_NUMBER >= V(2,0,7)
if (torcfg->num_cpus > 0)
event_config_set_num_cpus_hint(cfg, torcfg->num_cpus);
#endif
#if LIBEVENT_VERSION_NUMBER >= V(2,0,9)
/* We can enable changelist support with epoll, since we don't give
* Libevent any dup'd fds. This lets us avoid some syscalls. */
event_config_set_flag(cfg, EVENT_BASE_FLAG_EPOLL_USE_CHANGELIST);
#endif
the_event_base = event_base_new_with_config(cfg);
event_config_free(cfg);
if (using_threads && the_event_base == NULL && attempts < 2) {
/* This could be a socketpair() failure, which can happen sometimes on
* windows boxes with obnoxious firewall rules. Downgrade and try
* again. */
#if defined(_WIN32) && defined(USE_BUFFEREVENTS)
if (torcfg->disable_iocp == 0) {
log_warn(LD_GENERAL, "Unable to initialize Libevent. Trying again "
"with IOCP disabled.");
} else
#endif
{
log_warn(LD_GENERAL, "Unable to initialize Libevent. Trying again.");
}
torcfg->disable_iocp = 1;
goto retry;
}
}
#else
the_event_base = event_init();
#endif
if (!the_event_base) {
log_err(LD_GENERAL, "Unable to initialize Libevent: cannot continue.");
exit(1);
}
/* Making this a NOTICE for now so we can link bugs to a libevent versions
* or methods better. */
log_info(LD_GENERAL,
"Initialized libevent version %s using method %s. Good.",
event_get_version(), tor_libevent_get_method());
#ifdef USE_BUFFEREVENTS
tor_libevent_set_tick_timeout(torcfg->msec_per_tick);
#endif
}
/** Return the current Libevent event base that we're set up to use. */
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MOCK_IMPL(struct event_base *,
tor_libevent_get_base, (void))
{
return the_event_base;
}
/** Return the name of the Libevent backend we're using. */
const char *
tor_libevent_get_method(void)
{
#ifdef HAVE_EVENT2_EVENT_H
return event_base_get_method(the_event_base);
#else
return event_get_method();
#endif
}
/** Return the le_version_t for the version of libevent specified in the
* string <b>v</b>. If the version is very new or uses an unrecognized
* version, format, return LE_OTHER. */
static le_version_t
tor_decode_libevent_version(const char *v)
{
unsigned major, minor, patchlevel;
char c, e, extra;
int fields;
/* Try the new preferred "1.4.11-stable" format.
* Also accept "1.4.14b-stable". */
fields = tor_sscanf(v, "%u.%u.%u%c%c", &major, &minor, &patchlevel, &c, &e);
if (fields == 3 ||
((fields == 4 || fields == 5 ) && (c == '-' || c == '_')) ||
(fields == 5 && TOR_ISALPHA(c) && (e == '-' || e == '_'))) {
return V(major,minor,patchlevel);
}
/* Try the old "1.3e" format. */
fields = tor_sscanf(v, "%u.%u%c%c", &major, &minor, &c, &extra);
if (fields == 3 && TOR_ISALPHA(c)) {
return V_OLD(major, minor, c);
} else if (fields == 2) {
return V(major, minor, 0);
}
return LE_OTHER;
}
/** Return an integer representing the binary interface of a Libevent library.
* Two different versions with different numbers are sure not to be binary
* compatible. Two different versions with the same numbers have a decent
* chance of binary compatibility.*/
static int
le_versions_compatibility(le_version_t v)
{
if (v == LE_OTHER)
return 0;
if (v < V_OLD(1,0,'c'))
return 1;
else if (v < V(1,4,0))
return 2;
else if (v < V(1,4,99))
return 3;
else if (v < V(2,0,1))
return 4;
else /* Everything 2.0 and later should be compatible. */
return 5;
}
/** Return a string representation of the version of the currently running
* version of Libevent. */
const char *
tor_libevent_get_version_str(void)
{
return event_get_version();
}
#if defined(LIBEVENT_VERSION)
#define HEADER_VERSION LIBEVENT_VERSION
#elif defined(_EVENT_VERSION)
#define HEADER_VERSION _EVENT_VERSION
#endif
/** Return a string representation of the version of Libevent that was used
* at compilation time. */
const char *
tor_libevent_get_header_version_str(void)
{
return HEADER_VERSION;
}
/** See whether the headers we were built against differ from the library we
* linked against so much that we're likely to crash. If so, warn the
* user. */
void
tor_check_libevent_header_compatibility(void)
{
(void) le_versions_compatibility;
(void) tor_decode_libevent_version;
/* In libevent versions before 2.0, it's hard to keep binary compatibility
* between upgrades, and unpleasant to detect when the version we compiled
* against is unlike the version we have linked against. Here's how. */
#if defined(HEADER_VERSION)
/* We have a header-file version and a function-call version. Easy. */
if (strcmp(HEADER_VERSION, event_get_version())) {
le_version_t v1, v2;
int compat1 = -1, compat2 = -1;
int verybad;
v1 = tor_decode_libevent_version(HEADER_VERSION);
v2 = tor_decode_libevent_version(event_get_version());
compat1 = le_versions_compatibility(v1);
compat2 = le_versions_compatibility(v2);
verybad = compat1 != compat2;
tor_log(verybad ? LOG_WARN : LOG_NOTICE,
LD_GENERAL, "We were compiled with headers from version %s "
"of Libevent, but we're using a Libevent library that says it's "
"version %s.", HEADER_VERSION, event_get_version());
if (verybad)
log_warn(LD_GENERAL, "This will almost certainly make Tor crash.");
else
log_info(LD_GENERAL, "I think these versions are binary-compatible.");
}
#else
/* event_get_version but no _EVENT_VERSION. We might be in 1.4.0-beta or
earlier, where that's normal. To see whether we were compiled with an
earlier version, let's see whether the struct event defines MIN_HEAP_IDX.
*/
#ifdef HAVE_STRUCT_EVENT_MIN_HEAP_IDX
/* The header files are 1.4.0-beta or later. If the version is not
* 1.4.0-beta, we are incompatible. */
{
if (strcmp(event_get_version(), "1.4.0-beta")) {
log_warn(LD_GENERAL, "It's a little hard to tell, but you seem to have "
"Libevent 1.4.0-beta header files, whereas you have linked "
"against Libevent %s. This will probably make Tor crash.",
event_get_version());
}
}
#else
/* Our headers are 1.3e or earlier. If the library version is not 1.4.x or
later, we're probably fine. */
{
const char *v = event_get_version();
if ((v[0] == '1' && v[2] == '.' && v[3] > '3') || v[0] > '1') {
log_warn(LD_GENERAL, "It's a little hard to tell, but you seem to have "
"Libevent header file from 1.3e or earlier, whereas you have "
"linked against Libevent %s. This will probably make Tor "
"crash.", event_get_version());
}
}
#endif
/* Your libevent is ancient. */
#endif
}
/*
If possible, we're going to try to use Libevent's periodic timer support,
since it does a pretty good job of making sure that periodic events get
called exactly M seconds apart, rather than starting each one exactly M
seconds after the time that the last one was run.
*/
#ifdef HAVE_EVENT2_EVENT_H
#define HAVE_PERIODIC
#define PERIODIC_FLAGS EV_PERSIST
#else
#define PERIODIC_FLAGS 0
#endif
/** Represents a timer that's run every N microseconds by Libevent. */
struct periodic_timer_t {
/** Underlying event used to implement this periodic event. */
struct event *ev;
/** The callback we'll be invoking whenever the event triggers */
void (*cb)(struct periodic_timer_t *, void *);
/** User-supplied data for the callback */
void *data;
#ifndef HAVE_PERIODIC
/** If Libevent doesn't know how to invoke events every N microseconds,
* we'll need to remember the timeout interval here. */
struct timeval tv;
#endif
};
/** Libevent callback to implement a periodic event. */
static void
periodic_timer_cb(evutil_socket_t fd, short what, void *arg)
{
periodic_timer_t *timer = arg;
(void) what;
(void) fd;
#ifndef HAVE_PERIODIC
/** reschedule the event as needed. */
event_add(timer->ev, &timer->tv);
#endif
timer->cb(timer, timer->data);
}
/** Create and schedule a new timer that will run every <b>tv</b> in
* the event loop of <b>base</b>. When the timer fires, it will
* run the timer in <b>cb</b> with the user-supplied data in <b>data</b>. */
periodic_timer_t *
periodic_timer_new(struct event_base *base,
const struct timeval *tv,
void (*cb)(periodic_timer_t *timer, void *data),
void *data)
{
periodic_timer_t *timer;
tor_assert(base);
tor_assert(tv);
tor_assert(cb);
timer = tor_malloc_zero(sizeof(periodic_timer_t));
if (!(timer->ev = tor_event_new(base, -1, PERIODIC_FLAGS,
periodic_timer_cb, timer))) {
tor_free(timer);
return NULL;
}
timer->cb = cb;
timer->data = data;
#ifndef HAVE_PERIODIC
memcpy(&timer->tv, tv, sizeof(struct timeval));
#endif
event_add(timer->ev, (struct timeval *)tv); /*drop const for old libevent*/
return timer;
}
/** Stop and free a periodic timer */
void
periodic_timer_free(periodic_timer_t *timer)
{
if (!timer)
return;
tor_event_free(timer->ev);
tor_free(timer);
}
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#ifdef USE_BUFFEREVENTS
static const struct timeval *one_tick = NULL;
/**
* Return a special timeout to be passed whenever libevent's O(1) timeout
* implementation should be used. Only use this when the timer is supposed
* to fire after msec_per_tick ticks have elapsed.
*/
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const struct timeval *
tor_libevent_get_one_tick_timeout(void)
{
tor_assert(one_tick);
return one_tick;
}
/** Initialize the common timeout that we'll use to refill the buckets every
* time a tick elapses. */
static void
tor_libevent_set_tick_timeout(int msec_per_tick)
{
struct event_base *base = tor_libevent_get_base();
struct timeval tv;
tor_assert(! one_tick);
tv.tv_sec = msec_per_tick / 1000;
tv.tv_usec = (msec_per_tick % 1000) * 1000;
one_tick = event_base_init_common_timeout(base, &tv);
}
static struct bufferevent *
tor_get_root_bufferevent(struct bufferevent *bev)
{
struct bufferevent *u;
while ((u = bufferevent_get_underlying(bev)) != NULL)
bev = u;
return bev;
}
int
tor_set_bufferevent_rate_limit(struct bufferevent *bev,
struct ev_token_bucket_cfg *cfg)
{
return bufferevent_set_rate_limit(tor_get_root_bufferevent(bev), cfg);
}
int
tor_add_bufferevent_to_rate_limit_group(struct bufferevent *bev,
struct bufferevent_rate_limit_group *g)
{
return bufferevent_add_to_rate_limit_group(tor_get_root_bufferevent(bev), g);
}
#endif
int
tor_init_libevent_rng(void)
{
int rv = 0;
#ifdef HAVE_EVUTIL_SECURE_RNG_INIT
char buf[256];
if (evutil_secure_rng_init() < 0) {
rv = -1;
}
/* Older libevent -- manually initialize the RNG */
crypto_rand(buf, 32);
evutil_secure_rng_add_bytes(buf, 32);
evutil_secure_rng_get_bytes(buf, sizeof(buf));
#endif
return rv;
}
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#if defined(LIBEVENT_VERSION_NUMBER) && LIBEVENT_VERSION_NUMBER >= V(2,1,1) \
&& !defined(TOR_UNIT_TESTS)
void
tor_gettimeofday_cached(struct timeval *tv)
{
event_base_gettimeofday_cached(the_event_base, tv);
}
void
tor_gettimeofday_cache_clear(void)
{
event_base_update_cache_time(the_event_base);
}
#else
/** Cache the current hi-res time; the cache gets reset when libevent
* calls us. */
static struct timeval cached_time_hires = {0, 0};
/** Return a fairly recent view of the current time. */
void
tor_gettimeofday_cached(struct timeval *tv)
{
if (cached_time_hires.tv_sec == 0) {
tor_gettimeofday(&cached_time_hires);
}
*tv = cached_time_hires;
}
/** Reset the cached view of the current time, so that the next time we try
* to learn it, we will get an up-to-date value. */
void
tor_gettimeofday_cache_clear(void)
{
cached_time_hires.tv_sec = 0;
}
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#ifdef TOR_UNIT_TESTS
/** For testing: force-update the cached time to a given value. */
void
tor_gettimeofday_cache_set(const struct timeval *tv)
{
tor_assert(tv);
memcpy(&cached_time_hires, tv, sizeof(*tv));
}
#endif
#endif
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/**
* As tor_gettimeofday_cached, but can never move backwards in time.
*
* The returned value may diverge from wall-clock time, since wall-clock time
* can trivially be adjusted backwards, and this can't. Don't mix wall-clock
* time with these values in the same calculation.
*
* Depending on implementation, this function may or may not "smooth out" huge
* jumps forward in wall-clock time. It may or may not keep its results
* advancing forward (as opposed to stalling) if the wall-clock time goes
* backwards. The current implementation does neither of of these.
*
* This function is not thread-safe; do not call it outside the main thread.
*
* In future versions of Tor, this may return a time does not have its
* origin at the Unix epoch.
*/
void
tor_gettimeofday_cached_monotonic(struct timeval *tv)
{
struct timeval last_tv = { 0, 0 };
tor_gettimeofday_cached(tv);
if (timercmp(tv, &last_tv, OP_LT)) {
memcpy(tv, &last_tv, sizeof(struct timeval));
} else {
memcpy(&last_tv, tv, sizeof(struct timeval));
}
}