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bufferevent_ssl.c
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bufferevent_ssl.c
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/*
* Copyright (c) 2009-2012 Niels Provos and Nick Mathewson
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
// Get rid of OSX 10.7 and greater deprecation warnings.
#if defined(__APPLE__) && defined(__clang__)
#pragma clang diagnostic ignored "-Wdeprecated-declarations"
#endif
#include "event2/event-config.h"
#include "evconfig-private.h"
#include <sys/types.h>
#ifdef EVENT__HAVE_SYS_TIME_H
#include <sys/time.h>
#endif
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef EVENT__HAVE_STDARG_H
#include <stdarg.h>
#endif
#ifdef EVENT__HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef _WIN32
#include <winsock2.h>
#endif
#include "event2/bufferevent.h"
#include "event2/bufferevent_struct.h"
#include "event2/bufferevent_ssl.h"
#include "event2/buffer.h"
#include "event2/event.h"
#include "mm-internal.h"
#include "bufferevent-internal.h"
#include "log-internal.h"
#include "ssl-compat.h"
/* --------------------
Now, here's the OpenSSL-based implementation of bufferevent.
The implementation comes in two flavors: one that connects its SSL object
to an underlying bufferevent using a BIO_bufferevent, and one that has the
SSL object connect to a socket directly. The latter should generally be
faster, except on Windows, where your best bet is using a
bufferevent_async.
(OpenSSL supports many other BIO types, too. But we can't use any unless
we have a good way to get notified when they become readable/writable.)
-------------------- */
static int be_ssl_enable(struct bufferevent *, short);
static int be_ssl_disable(struct bufferevent *, short);
static void be_ssl_unlink(struct bufferevent *);
static void be_ssl_destruct(struct bufferevent *);
static int be_ssl_adj_timeouts(struct bufferevent *);
static int be_ssl_flush(struct bufferevent *bufev,
short iotype, enum bufferevent_flush_mode mode);
static int be_ssl_ctrl(struct bufferevent *, enum bufferevent_ctrl_op, union bufferevent_ctrl_data *);
const struct bufferevent_ops bufferevent_ops_ssl = {
"ssl",
evutil_offsetof(struct bufferevent_ssl, bev.bev),
be_ssl_enable,
be_ssl_disable,
be_ssl_unlink,
be_ssl_destruct,
be_ssl_adj_timeouts,
be_ssl_flush,
be_ssl_ctrl,
};
/* Given a bufferevent, return a pointer to the bufferevent_ssl that
* contains it, if any. */
struct bufferevent_ssl *
bufferevent_ssl_upcast(struct bufferevent *bev)
{
struct bufferevent_ssl *bev_o;
if (!BEV_IS_SSL(bev))
return NULL;
bev_o = (void*)( ((char*)bev) -
evutil_offsetof(struct bufferevent_ssl, bev.bev));
EVUTIL_ASSERT(BEV_IS_SSL(&bev_o->bev.bev));
return bev_o;
}
void
bufferevent_ssl_put_error(struct bufferevent_ssl *bev_ssl, unsigned long err)
{
if (bev_ssl->n_errors == NUM_ERRORS)
return;
/* The error type according to openssl is "unsigned long", but
openssl never uses more than 32 bits of it. It _can't_ use more
than 32 bits of it, since it needs to report errors on systems
where long is only 32 bits.
*/
bev_ssl->errors[bev_ssl->n_errors++] = (ev_uint32_t) err;
}
/* Have the base communications channel (either the underlying bufferevent or
* ev_read and ev_write) start reading. Take the read-blocked-on-write flag
* into account. */
static int
start_reading(struct bufferevent_ssl *bev_ssl)
{
if (bev_ssl->underlying) {
bufferevent_unsuspend_read_(bev_ssl->underlying,
BEV_SUSPEND_FILT_READ);
return 0;
} else {
struct bufferevent *bev = &bev_ssl->bev.bev;
int r;
r = bufferevent_add_event_(&bev->ev_read, &bev->timeout_read);
if (r == 0 && bev_ssl->read_blocked_on_write)
r = bufferevent_add_event_(&bev->ev_write,
&bev->timeout_write);
return r;
}
}
/* Have the base communications channel (either the underlying bufferevent or
* ev_read and ev_write) start writing. Take the write-blocked-on-read flag
* into account. */
static int
start_writing(struct bufferevent_ssl *bev_ssl)
{
int r = 0;
if (bev_ssl->underlying) {
if (bev_ssl->write_blocked_on_read) {
bufferevent_unsuspend_read_(bev_ssl->underlying,
BEV_SUSPEND_FILT_READ);
}
} else {
struct bufferevent *bev = &bev_ssl->bev.bev;
r = bufferevent_add_event_(&bev->ev_write, &bev->timeout_write);
if (!r && bev_ssl->write_blocked_on_read)
r = bufferevent_add_event_(&bev->ev_read,
&bev->timeout_read);
}
return r;
}
void
bufferevent_ssl_stop_reading(struct bufferevent_ssl *bev_ssl)
{
if (bev_ssl->write_blocked_on_read)
return;
if (bev_ssl->underlying) {
bufferevent_suspend_read_(bev_ssl->underlying,
BEV_SUSPEND_FILT_READ);
} else {
struct bufferevent *bev = &bev_ssl->bev.bev;
event_del(&bev->ev_read);
}
}
void
bufferevent_ssl_stop_writing(struct bufferevent_ssl *bev_ssl)
{
if (bev_ssl->read_blocked_on_write)
return;
if (bev_ssl->underlying) {
bufferevent_unsuspend_read_(bev_ssl->underlying,
BEV_SUSPEND_FILT_READ);
} else {
struct bufferevent *bev = &bev_ssl->bev.bev;
event_del(&bev->ev_write);
}
}
static int
set_rbow(struct bufferevent_ssl *bev_ssl)
{
if (!bev_ssl->underlying)
bufferevent_ssl_stop_reading(bev_ssl);
bev_ssl->read_blocked_on_write = 1;
return start_writing(bev_ssl);
}
static int
set_wbor(struct bufferevent_ssl *bev_ssl)
{
if (!bev_ssl->underlying)
bufferevent_ssl_stop_writing(bev_ssl);
bev_ssl->write_blocked_on_read = 1;
return start_reading(bev_ssl);
}
static int
clear_rbow(struct bufferevent_ssl *bev_ssl)
{
struct bufferevent *bev = &bev_ssl->bev.bev;
int r = 0;
bev_ssl->read_blocked_on_write = 0;
if (!(bev->enabled & EV_WRITE))
bufferevent_ssl_stop_writing(bev_ssl);
if (bev->enabled & EV_READ)
r = start_reading(bev_ssl);
return r;
}
static int
clear_wbor(struct bufferevent_ssl *bev_ssl)
{
struct bufferevent *bev = &bev_ssl->bev.bev;
int r = 0;
bev_ssl->write_blocked_on_read = 0;
if (!(bev->enabled & EV_READ))
bufferevent_ssl_stop_reading(bev_ssl);
if (bev->enabled & EV_WRITE)
r = start_writing(bev_ssl);
return r;
}
#define OP_MADE_PROGRESS 1
#define OP_BLOCKED 2
#define OP_ERR 4
/* Return a bitmask of OP_MADE_PROGRESS (if we read anything); OP_BLOCKED (if
we're now blocked); and OP_ERR (if an error occurred). */
static int
do_read(struct bufferevent_ssl *bev_ssl, int n_to_read) {
/* Requires lock */
struct bufferevent *bev = &bev_ssl->bev.bev;
struct evbuffer *input = bev->input;
int r, n, i, n_used = 0, atmost;
struct evbuffer_iovec space[2];
int result = 0;
if (bev_ssl->bev.read_suspended)
return 0;
atmost = bufferevent_get_read_max_(&bev_ssl->bev);
if (n_to_read > atmost)
n_to_read = atmost;
n = evbuffer_reserve_space(input, n_to_read, space, 2);
if (n < 0)
return OP_ERR;
for (i=0; i<n; ++i) {
if (bev_ssl->bev.read_suspended)
break;
bev_ssl->ssl_ops->clear_error();
r = bev_ssl->ssl_ops->read(bev_ssl->ssl, space[i].iov_base, space[i].iov_len);
if (r>0) {
result |= OP_MADE_PROGRESS;
if (bev_ssl->read_blocked_on_write)
if (clear_rbow(bev_ssl) < 0)
return OP_ERR | result;
++n_used;
space[i].iov_len = r;
bev_ssl->ssl_ops->decrement_buckets(bev_ssl);
} else {
int err = bev_ssl->ssl_ops->get_error(bev_ssl->ssl, r);
bev_ssl->ssl_ops->print_err(err);
if (bev_ssl->ssl_ops->err_is_want_read(err)) {
/* Can't read until underlying has more data. */
if (bev_ssl->read_blocked_on_write)
if (clear_rbow(bev_ssl) < 0)
return OP_ERR | result;
} else if(bev_ssl->ssl_ops->err_is_want_write(err)) {
/* This read operation requires a write, and the
* underlying is full */
if (!bev_ssl->read_blocked_on_write)
if (set_rbow(bev_ssl) < 0)
return OP_ERR | result;
} else {
bev_ssl->ssl_ops->conn_closed(bev_ssl, BEV_EVENT_READING, err, r);
}
result |= OP_BLOCKED;
break; /* out of the loop */
}
}
if (n_used) {
evbuffer_commit_space(input, space, n_used);
if (bev_ssl->underlying)
BEV_RESET_GENERIC_READ_TIMEOUT(bev);
}
return result;
}
/* Return a bitmask of OP_MADE_PROGRESS (if we wrote anything); OP_BLOCKED (if
we're now blocked); and OP_ERR (if an error occurred). */
static int
do_write(struct bufferevent_ssl *bev_ssl, int atmost)
{
int i, r, n, n_written = 0;
struct bufferevent *bev = &bev_ssl->bev.bev;
struct evbuffer *output = bev->output;
struct evbuffer_iovec space[8];
int result = 0;
if (bev_ssl->last_write > 0)
atmost = bev_ssl->last_write;
else
atmost = bufferevent_get_write_max_(&bev_ssl->bev);
if (bev_ssl->flags & BUFFEREVENT_SSL_BATCH_WRITE) {
/* Try to send as many as we can to avoid Nagle effect */
evbuffer_pullup(output, -1);
}
n = evbuffer_peek(output, atmost, NULL, space, 8);
if (n < 0)
return OP_ERR | result;
if (n > 8)
n = 8;
for (i=0; i < n; ++i) {
if (bev_ssl->bev.write_suspended)
break;
/* SSL_write will (reasonably) return 0 if we tell it to
send 0 data. Skip this case so we don't interpret the
result as an error */
if (space[i].iov_len == 0)
continue;
bev_ssl->ssl_ops->clear_error();
r = bev_ssl->ssl_ops->write(bev_ssl->ssl, space[i].iov_base,
space[i].iov_len);
if (r > 0) {
result |= OP_MADE_PROGRESS;
if (bev_ssl->write_blocked_on_read)
if (clear_wbor(bev_ssl) < 0)
return OP_ERR | result;
n_written += r;
bev_ssl->last_write = -1;
bev_ssl->ssl_ops->decrement_buckets(bev_ssl);
} else {
int err = bev_ssl->ssl_ops->get_error(bev_ssl->ssl, r);
bev_ssl->ssl_ops->print_err(err);
if (bev_ssl->ssl_ops->err_is_want_write(err)) {
/* Can't read until underlying has more data. */
if (bev_ssl->write_blocked_on_read)
if (clear_wbor(bev_ssl) < 0)
return OP_ERR | result;
bev_ssl->last_write = space[i].iov_len;
} else if (bev_ssl->ssl_ops->err_is_want_read(err)) {
/* This read operation requires a write, and the
* underlying is full */
if (!bev_ssl->write_blocked_on_read)
if (set_wbor(bev_ssl) < 0)
return OP_ERR | result;
bev_ssl->last_write = space[i].iov_len;
} else {
bev_ssl->ssl_ops->conn_closed(bev_ssl, BEV_EVENT_WRITING, err, r);
bev_ssl->last_write = -1;
}
result |= OP_BLOCKED;
break;
}
}
if (n_written) {
if (evbuffer_drain(output, n_written))
return OP_ERR | result;
if (bev_ssl->underlying)
BEV_RESET_GENERIC_WRITE_TIMEOUT(bev);
bufferevent_trigger_nolock_(bev, EV_WRITE, BEV_OPT_DEFER_CALLBACKS);
}
return result;
}
#define WRITE_FRAME 15000
#define READ_DEFAULT 4096
/* Try to figure out how many bytes to read; return 0 if we shouldn't be
* reading. */
static int
bytes_to_read(struct bufferevent_ssl *bev)
{
struct evbuffer *input = bev->bev.bev.input;
struct event_watermark *wm = &bev->bev.bev.wm_read;
int result = READ_DEFAULT;
ev_ssize_t limit;
/* XXX 99% of this is generic code that nearly all bufferevents will
* want. */
if (bev->write_blocked_on_read) {
return 0;
}
if (! (bev->bev.bev.enabled & EV_READ)) {
return 0;
}
if (bev->bev.read_suspended) {
return 0;
}
if (wm->high) {
if (evbuffer_get_length(input) >= wm->high) {
return 0;
}
result = wm->high - evbuffer_get_length(input);
} else {
result = READ_DEFAULT;
}
/* Respect the rate limit */
limit = bufferevent_get_read_max_(&bev->bev);
if (result > limit) {
result = limit;
}
return result;
}
/* Things look readable. If write is blocked on read, write till it isn't.
* Read from the underlying buffer until we block or we hit our high-water
* mark.
*/
static void
consider_reading(struct bufferevent_ssl *bev_ssl)
{
int r;
int n_to_read;
int all_result_flags = 0;
while (bev_ssl->write_blocked_on_read) {
r = do_write(bev_ssl, WRITE_FRAME);
if (r & (OP_BLOCKED|OP_ERR))
break;
}
if (bev_ssl->write_blocked_on_read)
return;
n_to_read = bytes_to_read(bev_ssl);
while (n_to_read) {
r = do_read(bev_ssl, n_to_read);
all_result_flags |= r;
if (r & (OP_BLOCKED|OP_ERR))
break;
if (bev_ssl->bev.read_suspended)
break;
/* Read all pending data. This won't hit the network
* again, and will (most importantly) put us in a state
* where we don't need to read anything else until the
* socket is readable again. It'll potentially make us
* overrun our read high-watermark (somewhat
* regrettable). The damage to the rate-limit has
* already been done, since OpenSSL went and read a
* whole SSL record anyway. */
n_to_read = bev_ssl->ssl_ops->pending(bev_ssl->ssl);
/* XXX This if statement is actually a bad bug, added to avoid
* XXX a worse bug.
*
* The bad bug: It can potentially cause resource unfairness
* by reading too much data from the underlying bufferevent;
* it can potentially cause read looping if the underlying
* bufferevent is a bufferevent_pair and deferred callbacks
* aren't used.
*
* The worse bug: If we didn't do this, then we would
* potentially not read any more from bev_ssl->underlying
* until more data arrived there, which could lead to us
* waiting forever.
*/
if (!n_to_read && bev_ssl->underlying)
n_to_read = bytes_to_read(bev_ssl);
}
if (all_result_flags & OP_MADE_PROGRESS) {
struct bufferevent *bev = &bev_ssl->bev.bev;
bufferevent_trigger_nolock_(bev, EV_READ, 0);
}
if (!bev_ssl->underlying) {
/* Should be redundant, but let's avoid busy-looping */
if (bev_ssl->bev.read_suspended ||
!(bev_ssl->bev.bev.enabled & EV_READ)) {
event_del(&bev_ssl->bev.bev.ev_read);
}
}
}
static void
consider_writing(struct bufferevent_ssl *bev_ssl)
{
int r;
struct evbuffer *output = bev_ssl->bev.bev.output;
struct evbuffer *target = NULL;
struct event_watermark *wm = NULL;
while (bev_ssl->read_blocked_on_write) {
r = do_read(bev_ssl, 1024); /* XXXX 1024 is a hack */
if (r & OP_MADE_PROGRESS) {
struct bufferevent *bev = &bev_ssl->bev.bev;
bufferevent_trigger_nolock_(bev, EV_READ, 0);
}
if (r & (OP_ERR|OP_BLOCKED))
break;
}
if (bev_ssl->read_blocked_on_write)
return;
if (bev_ssl->underlying) {
target = bev_ssl->underlying->output;
wm = &bev_ssl->underlying->wm_write;
}
while ((bev_ssl->bev.bev.enabled & EV_WRITE) &&
(! bev_ssl->bev.write_suspended) &&
evbuffer_get_length(output) &&
(!target || (! wm->high || evbuffer_get_length(target) < wm->high))) {
int n_to_write;
if (wm && wm->high)
n_to_write = wm->high - evbuffer_get_length(target);
else
n_to_write = WRITE_FRAME;
r = do_write(bev_ssl, n_to_write);
if (r & (OP_BLOCKED|OP_ERR))
break;
}
if (!bev_ssl->underlying) {
if (evbuffer_get_length(output) == 0) {
event_del(&bev_ssl->bev.bev.ev_write);
} else if (bev_ssl->bev.write_suspended ||
!(bev_ssl->bev.bev.enabled & EV_WRITE)) {
/* Should be redundant, but let's avoid busy-looping */
event_del(&bev_ssl->bev.bev.ev_write);
}
}
}
static void
be_ssl_readcb(struct bufferevent *bev_base, void *ctx)
{
struct bufferevent_ssl *bev_ssl = ctx;
consider_reading(bev_ssl);
}
static void
be_ssl_writecb(struct bufferevent *bev_base, void *ctx)
{
struct bufferevent_ssl *bev_ssl = ctx;
consider_writing(bev_ssl);
}
static void
be_ssl_eventcb(struct bufferevent *bev_base, short what, void *ctx)
{
struct bufferevent_ssl *bev_ssl = ctx;
int event = 0;
if (what & BEV_EVENT_EOF) {
if (bev_ssl->flags & BUFFEREVENT_SSL_DIRTY_SHUTDOWN)
event = BEV_EVENT_EOF;
else
event = BEV_EVENT_ERROR;
} else if (what & BEV_EVENT_TIMEOUT) {
/* We sure didn't set this. Propagate it to the user. */
event = what;
} else if (what & BEV_EVENT_ERROR) {
/* An error occurred on the connection. Propagate it to the user. */
event = what;
} else if (what & BEV_EVENT_CONNECTED) {
/* Ignore it. We're saying SSL_connect() already, which will
eat it. */
}
if (event)
bufferevent_run_eventcb_(&bev_ssl->bev.bev, event, 0);
}
static void
be_ssl_readeventcb(evutil_socket_t fd, short what, void *ptr)
{
struct bufferevent_ssl *bev_ssl = ptr;
bufferevent_incref_and_lock_(&bev_ssl->bev.bev);
if (what == EV_TIMEOUT) {
bufferevent_run_eventcb_(&bev_ssl->bev.bev,
BEV_EVENT_TIMEOUT|BEV_EVENT_READING, 0);
} else {
consider_reading(bev_ssl);
}
bufferevent_decref_and_unlock_(&bev_ssl->bev.bev);
}
static void
be_ssl_writeeventcb(evutil_socket_t fd, short what, void *ptr)
{
struct bufferevent_ssl *bev_ssl = ptr;
bufferevent_incref_and_lock_(&bev_ssl->bev.bev);
if (what == EV_TIMEOUT) {
bufferevent_run_eventcb_(&bev_ssl->bev.bev,
BEV_EVENT_TIMEOUT|BEV_EVENT_WRITING, 0);
} else {
consider_writing(bev_ssl);
}
bufferevent_decref_and_unlock_(&bev_ssl->bev.bev);
}
static evutil_socket_t
be_ssl_auto_fd(struct bufferevent_ssl *bev_ssl, evutil_socket_t fd)
{
if (!bev_ssl->underlying) {
struct bufferevent *bev = &bev_ssl->bev.bev;
if (event_initialized(&bev->ev_read) && fd < 0) {
fd = event_get_fd(&bev->ev_read);
}
}
return fd;
}
static int
set_open_callbacks(struct bufferevent_ssl *bev_ssl, evutil_socket_t fd)
{
if (bev_ssl->underlying) {
bufferevent_setcb(bev_ssl->underlying,
be_ssl_readcb, be_ssl_writecb, be_ssl_eventcb,
bev_ssl);
return 0;
} else {
struct bufferevent *bev = &bev_ssl->bev.bev;
int rpending=0, wpending=0, r1=0, r2=0;
if (event_initialized(&bev->ev_read)) {
rpending = event_pending(&bev->ev_read, EV_READ, NULL);
wpending = event_pending(&bev->ev_write, EV_WRITE, NULL);
event_del(&bev->ev_read);
event_del(&bev->ev_write);
}
event_assign(&bev->ev_read, bev->ev_base, fd,
EV_READ|EV_PERSIST|EV_FINALIZE,
be_ssl_readeventcb, bev_ssl);
event_assign(&bev->ev_write, bev->ev_base, fd,
EV_WRITE|EV_PERSIST|EV_FINALIZE,
be_ssl_writeeventcb, bev_ssl);
if (rpending)
r1 = bufferevent_add_event_(&bev->ev_read, &bev->timeout_read);
if (wpending)
r2 = bufferevent_add_event_(&bev->ev_write, &bev->timeout_write);
return (r1<0 || r2<0) ? -1 : 0;
}
}
static int
do_handshake(struct bufferevent_ssl *bev_ssl)
{
int r;
switch (bev_ssl->state) {
default:
case BUFFEREVENT_SSL_OPEN:
EVUTIL_ASSERT(0);
return -1;
case BUFFEREVENT_SSL_CONNECTING:
case BUFFEREVENT_SSL_ACCEPTING:
bev_ssl->ssl_ops->clear_error();
r = bev_ssl->ssl_ops->handshake(bev_ssl->ssl);
break;
}
bev_ssl->ssl_ops->decrement_buckets(bev_ssl);
if (bev_ssl->ssl_ops->err_is_ok(r)) {
evutil_socket_t fd = event_get_fd(&bev_ssl->bev.bev.ev_read);
/* We're done! */
bev_ssl->state = BUFFEREVENT_SSL_OPEN;
set_open_callbacks(bev_ssl, fd); /* XXXX handle failure */
/* Call do_read and do_write as needed */
bufferevent_enable(&bev_ssl->bev.bev, bev_ssl->bev.bev.enabled);
bufferevent_run_eventcb_(&bev_ssl->bev.bev,
BEV_EVENT_CONNECTED, 0);
return 1;
} else {
int err = bev_ssl->ssl_ops->get_error(bev_ssl->ssl, r);
bev_ssl->ssl_ops->print_err(err);
if (bev_ssl->ssl_ops->err_is_want_write(err)) {
bufferevent_ssl_stop_reading(bev_ssl);
return start_writing(bev_ssl);
} else if (bev_ssl->ssl_ops->err_is_want_read(err)) {
bufferevent_ssl_stop_writing(bev_ssl);
return start_reading(bev_ssl);
} else {
bev_ssl->ssl_ops->conn_closed(bev_ssl, BEV_EVENT_READING, err, r);
return -1;
}
}
}
static void
be_ssl_handshakecb(struct bufferevent *bev_base, void *ctx)
{
struct bufferevent_ssl *bev_ssl = ctx;
do_handshake(bev_ssl);/* XXX handle failure */
}
static void
be_ssl_handshakeeventcb(evutil_socket_t fd, short what, void *ptr)
{
struct bufferevent_ssl *bev_ssl = ptr;
bufferevent_incref_and_lock_(&bev_ssl->bev.bev);
if (what & EV_TIMEOUT) {
bufferevent_run_eventcb_(&bev_ssl->bev.bev, BEV_EVENT_TIMEOUT, 0);
} else {
int c = evutil_socket_finished_connecting_(fd);
if (c < 0)
bufferevent_run_eventcb_(&bev_ssl->bev.bev, BEV_EVENT_ERROR, 0);
else
do_handshake(bev_ssl);/* XXX handle failure */
}
bufferevent_decref_and_unlock_(&bev_ssl->bev.bev);
}
static int
set_handshake_callbacks(struct bufferevent_ssl *bev_ssl, evutil_socket_t fd)
{
if (bev_ssl->underlying) {
bufferevent_setcb(bev_ssl->underlying,
be_ssl_handshakecb, be_ssl_handshakecb,
be_ssl_eventcb,
bev_ssl);
if (fd < 0)
return 0;
if (bufferevent_setfd(bev_ssl->underlying, fd))
return 1;
return do_handshake(bev_ssl);
} else {
struct bufferevent *bev = &bev_ssl->bev.bev;
if (event_initialized(&bev->ev_read)) {
event_del(&bev->ev_read);
event_del(&bev->ev_write);
}
event_assign(&bev->ev_read, bev->ev_base, fd,
EV_READ|EV_PERSIST|EV_FINALIZE,
be_ssl_handshakeeventcb, bev_ssl);
event_assign(&bev->ev_write, bev->ev_base, fd,
EV_WRITE|EV_PERSIST|EV_FINALIZE,
be_ssl_handshakeeventcb, bev_ssl);
if (fd >= 0)
bufferevent_enable(bev, bev->enabled);
return 0;
}
}
int
bufferevent_ssl_renegotiate_impl(struct bufferevent *bev)
{
struct bufferevent_ssl *bev_ssl = bufferevent_ssl_upcast(bev);
if (!bev_ssl)
return -1;
if (bev_ssl->ssl_ops->renegotiate(bev_ssl->ssl) < 0)
return -1;
bev_ssl->state = BUFFEREVENT_SSL_CONNECTING;
if (set_handshake_callbacks(bev_ssl, be_ssl_auto_fd(bev_ssl, -1)) < 0)
return -1;
if (!bev_ssl->underlying)
return do_handshake(bev_ssl);
return 0;
}
static void
be_ssl_outbuf_cb(struct evbuffer *buf,
const struct evbuffer_cb_info *cbinfo, void *arg)
{
struct bufferevent_ssl *bev_ssl = arg;
int r = 0;
/* XXX need to hold a reference here. */
if (cbinfo->n_added && bev_ssl->state == BUFFEREVENT_SSL_OPEN) {
if (cbinfo->orig_size == 0)
r = bufferevent_add_event_(&bev_ssl->bev.bev.ev_write,
&bev_ssl->bev.bev.timeout_write);
if (bev_ssl->underlying)
consider_writing(bev_ssl);
}
/* XXX Handle r < 0 */
(void)r;
}
static int
be_ssl_enable(struct bufferevent *bev, short events)
{
struct bufferevent_ssl *bev_ssl = bufferevent_ssl_upcast(bev);
int r1 = 0, r2 = 0;
if (events & EV_READ)
r1 = start_reading(bev_ssl);
if (events & EV_WRITE)
r2 = start_writing(bev_ssl);
if (bev_ssl->underlying) {
if (events & EV_READ)
BEV_RESET_GENERIC_READ_TIMEOUT(bev);
if (events & EV_WRITE)
BEV_RESET_GENERIC_WRITE_TIMEOUT(bev);
if (events & EV_READ)
consider_reading(bev_ssl);
if (events & EV_WRITE)
consider_writing(bev_ssl);
}
return (r1 < 0 || r2 < 0) ? -1 : 0;
}
static int
be_ssl_disable(struct bufferevent *bev, short events)
{
struct bufferevent_ssl *bev_ssl = bufferevent_ssl_upcast(bev);
if (events & EV_READ)
bufferevent_ssl_stop_reading(bev_ssl);
if (events & EV_WRITE)
bufferevent_ssl_stop_writing(bev_ssl);
if (bev_ssl->underlying) {
if (events & EV_READ)
BEV_DEL_GENERIC_READ_TIMEOUT(bev);
if (events & EV_WRITE)
BEV_DEL_GENERIC_WRITE_TIMEOUT(bev);
}
return 0;
}
static void
be_ssl_unlink(struct bufferevent *bev)
{
struct bufferevent_ssl *bev_ssl = bufferevent_ssl_upcast(bev);
if (bev_ssl->bev.options & BEV_OPT_CLOSE_ON_FREE) {
if (bev_ssl->underlying) {
if (BEV_UPCAST(bev_ssl->underlying)->refcnt < 2) {
event_warnx("BEV_OPT_CLOSE_ON_FREE set on an "
"bufferevent with too few references");
} else {
bufferevent_free(bev_ssl->underlying);
/* We still have a reference to it, via our
* BIO. So we don't drop this. */
// bev_ssl->underlying = NULL;
}
}
} else {
if (bev_ssl->underlying) {
if (bev_ssl->underlying->errorcb == be_ssl_eventcb)
bufferevent_setcb(bev_ssl->underlying,
NULL,NULL,NULL,NULL);
bufferevent_unsuspend_read_(bev_ssl->underlying,
BEV_SUSPEND_FILT_READ);
}
}
}
static void
be_ssl_destruct(struct bufferevent *bev)
{
struct bufferevent_ssl *bev_ssl = bufferevent_ssl_upcast(bev);
if (bev_ssl->bev.options & BEV_OPT_CLOSE_ON_FREE) {
if (! bev_ssl->underlying) {
evutil_socket_t fd = bev_ssl->ssl_ops->get_fd(bev_ssl);
if (fd >= 0)
evutil_closesocket(fd);
}
}
bev_ssl->ssl_ops->free(bev_ssl->ssl, bev_ssl->bev.options);
}
static int
be_ssl_adj_timeouts(struct bufferevent *bev)
{
struct bufferevent_ssl *bev_ssl = bufferevent_ssl_upcast(bev);
if (bev_ssl->underlying) {
return bufferevent_generic_adj_timeouts_(bev);
} else {
return bufferevent_generic_adj_existing_timeouts_(bev);
}
}
static int
be_ssl_flush(struct bufferevent *bufev,
short iotype, enum bufferevent_flush_mode mode)
{
/* XXXX Implement this. */
return 0;
}
static int
be_ssl_set_fd(struct bufferevent_ssl *bev_ssl,
enum bufferevent_ssl_state state, evutil_socket_t fd)
{
bev_ssl->state = state;
switch (state) {
case BUFFEREVENT_SSL_ACCEPTING:
if (!bev_ssl->ssl_ops->clear(bev_ssl->ssl))
return -1;
bev_ssl->ssl_ops->set_accept_state(bev_ssl->ssl);
if (set_handshake_callbacks(bev_ssl, fd) < 0)
return -1;
break;
case BUFFEREVENT_SSL_CONNECTING:
if (!bev_ssl->ssl_ops->clear(bev_ssl->ssl))
return -1;
bev_ssl->ssl_ops->set_connect_state(bev_ssl->ssl);
if (set_handshake_callbacks(bev_ssl, fd) < 0)
return -1;
break;
case BUFFEREVENT_SSL_OPEN:
if (set_open_callbacks(bev_ssl, fd) < 0)
return -1;
break;
default:
return -1;
}
return 0;
}
static int
be_ssl_ctrl(struct bufferevent *bev,
enum bufferevent_ctrl_op op, union bufferevent_ctrl_data *data)
{
int ret = 0;
struct bufferevent_ssl *bev_ssl = bufferevent_ssl_upcast(bev);
switch (op) {
case BEV_CTRL_SET_FD:
if ((ret = bev_ssl->ssl_ops->bio_set_fd(bev_ssl, data->fd)) != 0)
return ret;
return be_ssl_set_fd(bev_ssl, bev_ssl->old_state, data->fd);
case BEV_CTRL_GET_FD:
if (bev_ssl->underlying) {
data->fd = event_get_fd(&bev_ssl->underlying->ev_read);
} else {
data->fd = event_get_fd(&bev->ev_read);
}
return 0;
case BEV_CTRL_GET_UNDERLYING:
data->ptr = bev_ssl->underlying;
return 0;
case BEV_CTRL_CANCEL_ALL:
default:
return -1;
}
}
struct bufferevent *
bufferevent_ssl_new_impl(struct event_base *base,
struct bufferevent *underlying,
evutil_socket_t fd,
void *ssl,
enum bufferevent_ssl_state state,
int options,
struct le_ssl_ops *ssl_ops)