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|
/* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/* _ _
* _ __ ___ ___ __| | ___ ___| | mod_ssl
* | '_ ` _ \ / _ \ / _` | / __/ __| | Apache Interface to OpenSSL
* | | | | | | (_) | (_| | \__ \__ \ |
* |_| |_| |_|\___/ \__,_|___|___/___/_|
* |_____|
* ssl_engine_io.c
* I/O Functions
*/
/* ``MY HACK: This universe.
Just one little problem:
core keeps dumping.''
-- Unknown */
#include "ssl_private.h"
#include "apr_date.h"
/* _________________________________________________________________
**
** I/O Hooks
** _________________________________________________________________
*/
/* This file is designed to be the bridge between OpenSSL and httpd.
* However, we really don't expect anyone (let alone ourselves) to
* remember what is in this file. So, first, a quick overview.
*
* In this file, you will find:
* - ssl_io_filter_input (Apache input filter)
* - ssl_io_filter_output (Apache output filter)
*
* - bio_filter_in_* (OpenSSL input filter)
* - bio_filter_out_* (OpenSSL output filter)
*
* The input chain is roughly:
*
* ssl_io_filter_input->ssl_io_input_read->SSL_read->...
* ...->bio_filter_in_read->ap_get_brigade/next-httpd-filter
*
* In mortal terminology, we do the following:
* - Receive a request for data to the SSL input filter
* - Call a helper function once we know we should perform a read
* - Call OpenSSL's SSL_read()
* - SSL_read() will then call bio_filter_in_read
* - bio_filter_in_read will then try to fetch data from the next httpd filter
* - bio_filter_in_read will flatten that data and return it to SSL_read
* - SSL_read will then decrypt the data
* - ssl_io_input_read will then receive decrypted data as a char* and
* ensure that there were no read errors
* - The char* is placed in a brigade and returned
*
* Since connection-level input filters in httpd need to be able to
* handle AP_MODE_GETLINE calls (namely identifying LF-terminated strings),
* ssl_io_input_getline which will handle this special case.
*
* Due to AP_MODE_GETLINE and AP_MODE_SPECULATIVE, we may sometimes have
* 'leftover' decoded data which must be setaside for the next read. That
* is currently handled by the char_buffer_{read|write} functions. So,
* ssl_io_input_read may be able to fulfill reads without invoking
* SSL_read().
*
* Note that the filter context of ssl_io_filter_input and bio_filter_in_*
* are shared as bio_filter_in_ctx_t.
*
* Note that the filter is by choice limited to reading at most
* AP_IOBUFSIZE (8192 bytes) per call.
*
*/
/* this custom BIO allows us to hook SSL_write directly into
* an apr_bucket_brigade and use transient buckets with the SSL
* malloc-ed buffer, rather than copying into a mem BIO.
* also allows us to pass the brigade as data is being written
* rather than buffering up the entire response in the mem BIO.
*
* when SSL needs to flush (e.g. SSL_accept()), it will call BIO_flush()
* which will trigger a call to bio_filter_out_ctrl() -> bio_filter_out_flush().
* so we only need to flush the output ourselves if we receive an
* EOS or FLUSH bucket. this was not possible with the mem BIO where we
* had to flush all over the place not really knowing when it was required
* to do so.
*/
typedef struct {
SSL *pssl;
BIO *pbioRead;
BIO *pbioWrite;
ap_filter_t *pInputFilter;
ap_filter_t *pOutputFilter;
SSLConnRec *config;
} ssl_filter_ctx_t;
typedef struct {
ssl_filter_ctx_t *filter_ctx;
conn_rec *c;
apr_bucket_brigade *bb; /* Brigade used as a buffer. */
apr_status_t rc;
} bio_filter_out_ctx_t;
static bio_filter_out_ctx_t *bio_filter_out_ctx_new(ssl_filter_ctx_t *filter_ctx,
conn_rec *c)
{
bio_filter_out_ctx_t *outctx = apr_palloc(c->pool, sizeof(*outctx));
outctx->filter_ctx = filter_ctx;
outctx->c = c;
outctx->bb = apr_brigade_create(c->pool, c->bucket_alloc);
return outctx;
}
/* Pass an output brigade down the filter stack; returns 1 on success
* or -1 on failure. */
static int bio_filter_out_pass(bio_filter_out_ctx_t *outctx)
{
AP_DEBUG_ASSERT(!APR_BRIGADE_EMPTY(outctx->bb));
outctx->rc = ap_pass_brigade(outctx->filter_ctx->pOutputFilter->next,
outctx->bb);
/* Fail if the connection was reset: */
if (outctx->rc == APR_SUCCESS && outctx->c->aborted) {
outctx->rc = APR_ECONNRESET;
}
return (outctx->rc == APR_SUCCESS) ? 1 : -1;
}
/* Send a FLUSH bucket down the output filter stack; returns 1 on
* success, -1 on failure. */
static int bio_filter_out_flush(BIO *bio)
{
bio_filter_out_ctx_t *outctx = (bio_filter_out_ctx_t *)(bio->ptr);
apr_bucket *e;
AP_DEBUG_ASSERT(APR_BRIGADE_EMPTY(outctx->bb));
e = apr_bucket_flush_create(outctx->bb->bucket_alloc);
APR_BRIGADE_INSERT_TAIL(outctx->bb, e);
return bio_filter_out_pass(outctx);
}
static int bio_filter_create(BIO *bio)
{
bio->shutdown = 1;
bio->init = 1;
bio->num = -1;
bio->ptr = NULL;
return 1;
}
static int bio_filter_destroy(BIO *bio)
{
if (bio == NULL) {
return 0;
}
/* nothing to free here.
* apache will destroy the bucket brigade for us
*/
return 1;
}
static int bio_filter_out_read(BIO *bio, char *out, int outl)
{
/* this is never called */
return -1;
}
static int bio_filter_out_write(BIO *bio, const char *in, int inl)
{
bio_filter_out_ctx_t *outctx = (bio_filter_out_ctx_t *)(bio->ptr);
apr_bucket *e;
/* Abort early if the client has initiated a renegotiation. */
if (outctx->filter_ctx->config->reneg_state == RENEG_ABORT) {
outctx->rc = APR_ECONNABORTED;
return -1;
}
/* when handshaking we'll have a small number of bytes.
* max size SSL will pass us here is about 16k.
* (16413 bytes to be exact)
*/
BIO_clear_retry_flags(bio);
/* Use a transient bucket for the output data - any downstream
* filter must setaside if necessary. */
e = apr_bucket_transient_create(in, inl, outctx->bb->bucket_alloc);
APR_BRIGADE_INSERT_TAIL(outctx->bb, e);
if (bio_filter_out_pass(outctx) < 0) {
return -1;
}
return inl;
}
static long bio_filter_out_ctrl(BIO *bio, int cmd, long num, void *ptr)
{
long ret = 1;
bio_filter_out_ctx_t *outctx = (bio_filter_out_ctx_t *)(bio->ptr);
switch (cmd) {
case BIO_CTRL_RESET:
case BIO_CTRL_EOF:
case BIO_C_SET_BUF_MEM_EOF_RETURN:
ap_log_cerror(APLOG_MARK, APLOG_TRACE4, 0, outctx->c,
"output bio: unhandled control %d", cmd);
ret = 0;
break;
case BIO_CTRL_WPENDING:
case BIO_CTRL_PENDING:
case BIO_CTRL_INFO:
ret = 0;
break;
case BIO_CTRL_GET_CLOSE:
ret = (long)bio->shutdown;
break;
case BIO_CTRL_SET_CLOSE:
bio->shutdown = (int)num;
break;
case BIO_CTRL_FLUSH:
ret = bio_filter_out_flush(bio);
break;
case BIO_CTRL_DUP:
ret = 1;
break;
/* N/A */
case BIO_C_SET_BUF_MEM:
case BIO_C_GET_BUF_MEM_PTR:
/* we don't care */
case BIO_CTRL_PUSH:
case BIO_CTRL_POP:
default:
ret = 0;
break;
}
return ret;
}
static int bio_filter_out_gets(BIO *bio, char *buf, int size)
{
/* this is never called */
return -1;
}
static int bio_filter_out_puts(BIO *bio, const char *str)
{
/* this is never called */
return -1;
}
static BIO_METHOD bio_filter_out_method = {
BIO_TYPE_MEM,
"APR output filter",
bio_filter_out_write,
bio_filter_out_read, /* read is never called */
bio_filter_out_puts, /* puts is never called */
bio_filter_out_gets, /* gets is never called */
bio_filter_out_ctrl,
bio_filter_create,
bio_filter_destroy,
NULL
};
typedef struct {
int length;
char *value;
} char_buffer_t;
typedef struct {
SSL *ssl;
BIO *bio_out;
ap_filter_t *f;
apr_status_t rc;
ap_input_mode_t mode;
apr_read_type_e block;
apr_bucket_brigade *bb;
char_buffer_t cbuf;
apr_pool_t *pool;
char buffer[AP_IOBUFSIZE];
ssl_filter_ctx_t *filter_ctx;
} bio_filter_in_ctx_t;
/*
* this char_buffer api might seem silly, but we don't need to copy
* any of this data and we need to remember the length.
*/
/* Copy up to INL bytes from the char_buffer BUFFER into IN. Note
* that due to the strange way this API is designed/used, the
* char_buffer object is used to cache a segment of inctx->buffer, and
* then this function called to copy (part of) that segment to the
* beginning of inctx->buffer. So the segments to copy cannot be
* presumed to be non-overlapping, and memmove must be used. */
static int char_buffer_read(char_buffer_t *buffer, char *in, int inl)
{
if (!buffer->length) {
return 0;
}
if (buffer->length > inl) {
/* we have have enough to fill the caller's buffer */
memmove(in, buffer->value, inl);
buffer->value += inl;
buffer->length -= inl;
}
else {
/* swallow remainder of the buffer */
memmove(in, buffer->value, buffer->length);
inl = buffer->length;
buffer->value = NULL;
buffer->length = 0;
}
return inl;
}
static int char_buffer_write(char_buffer_t *buffer, char *in, int inl)
{
buffer->value = in;
buffer->length = inl;
return inl;
}
/* This function will read from a brigade and discard the read buckets as it
* proceeds. It will read at most *len bytes.
*/
static apr_status_t brigade_consume(apr_bucket_brigade *bb,
apr_read_type_e block,
char *c, apr_size_t *len)
{
apr_size_t actual = 0;
apr_status_t status = APR_SUCCESS;
while (!APR_BRIGADE_EMPTY(bb)) {
apr_bucket *b = APR_BRIGADE_FIRST(bb);
const char *str;
apr_size_t str_len;
apr_size_t consume;
/* Justin points out this is an http-ism that might
* not fit if brigade_consume is added to APR. Perhaps
* apr_bucket_read(eos_bucket) should return APR_EOF?
* Then this becomes mainline instead of a one-off.
*/
if (APR_BUCKET_IS_EOS(b)) {
status = APR_EOF;
break;
}
/* The reason I'm not offering brigade_consume yet
* across to apr-util is that the following call
* illustrates how borked that API really is. For
* this sort of case (caller provided buffer) it
* would be much more trivial for apr_bucket_consume
* to do all the work that follows, based on the
* particular characteristics of the bucket we are
* consuming here.
*/
status = apr_bucket_read(b, &str, &str_len, block);
if (status != APR_SUCCESS) {
if (APR_STATUS_IS_EOF(status)) {
/* This stream bucket was consumed */
apr_bucket_delete(b);
continue;
}
break;
}
if (str_len > 0) {
/* Do not block once some data has been consumed */
block = APR_NONBLOCK_READ;
/* Assure we don't overflow. */
consume = (str_len + actual > *len) ? *len - actual : str_len;
memcpy(c, str, consume);
c += consume;
actual += consume;
if (consume >= b->length) {
/* This physical bucket was consumed */
apr_bucket_delete(b);
}
else {
/* Only part of this physical bucket was consumed */
b->start += consume;
b->length -= consume;
}
}
else if (b->length == 0) {
apr_bucket_delete(b);
}
/* This could probably be actual == *len, but be safe from stray
* photons. */
if (actual >= *len) {
break;
}
}
*len = actual;
return status;
}
/*
* this is the function called by SSL_read()
*/
static int bio_filter_in_read(BIO *bio, char *in, int inlen)
{
apr_size_t inl = inlen;
bio_filter_in_ctx_t *inctx = (bio_filter_in_ctx_t *)(bio->ptr);
apr_read_type_e block = inctx->block;
inctx->rc = APR_SUCCESS;
/* OpenSSL catches this case, so should we. */
if (!in)
return 0;
/* Abort early if the client has initiated a renegotiation. */
if (inctx->filter_ctx->config->reneg_state == RENEG_ABORT) {
inctx->rc = APR_ECONNABORTED;
return -1;
}
/* In theory, OpenSSL should flush as necessary, but it is known
* not to do so correctly in some cases; see PR 46952.
*
* Historically, this flush call was performed only for an SSLv2
* connection or for a proxy connection. Calling _out_flush
* should be very cheap in cases where it is unnecessary (and no
* output is buffered) so the performance impact of doing it
* unconditionally should be minimal.
*/
if (bio_filter_out_flush(inctx->bio_out) < 0) {
bio_filter_out_ctx_t *outctx = inctx->bio_out->ptr;
inctx->rc = outctx->rc;
return -1;
}
BIO_clear_retry_flags(bio);
if (!inctx->bb) {
inctx->rc = APR_EOF;
return -1;
}
if (APR_BRIGADE_EMPTY(inctx->bb)) {
inctx->rc = ap_get_brigade(inctx->f->next, inctx->bb,
AP_MODE_READBYTES, block,
inl);
/* If the read returns EAGAIN or success with an empty
* brigade, return an error after setting the retry flag;
* SSL_read() will then return -1, and SSL_get_error() will
* indicate SSL_ERROR_WANT_READ. */
if (APR_STATUS_IS_EAGAIN(inctx->rc) || APR_STATUS_IS_EINTR(inctx->rc)
|| (inctx->rc == APR_SUCCESS && APR_BRIGADE_EMPTY(inctx->bb))) {
BIO_set_retry_read(bio);
return -1;
}
if (inctx->rc != APR_SUCCESS) {
/* Unexpected errors discard the brigade */
apr_brigade_cleanup(inctx->bb);
inctx->bb = NULL;
return -1;
}
}
inctx->rc = brigade_consume(inctx->bb, block, in, &inl);
if (inctx->rc == APR_SUCCESS) {
return (int)inl;
}
if (APR_STATUS_IS_EAGAIN(inctx->rc)
|| APR_STATUS_IS_EINTR(inctx->rc)) {
BIO_set_retry_read(bio);
return (int)inl;
}
/* Unexpected errors and APR_EOF clean out the brigade.
* Subsequent calls will return APR_EOF.
*/
apr_brigade_cleanup(inctx->bb);
inctx->bb = NULL;
if (APR_STATUS_IS_EOF(inctx->rc) && inl) {
/* Provide the results of this read pass,
* without resetting the BIO retry_read flag
*/
return (int)inl;
}
return -1;
}
static BIO_METHOD bio_filter_in_method = {
BIO_TYPE_MEM,
"APR input filter",
NULL, /* write is never called */
bio_filter_in_read,
NULL, /* puts is never called */
NULL, /* gets is never called */
NULL, /* ctrl is never called */
bio_filter_create,
bio_filter_destroy,
NULL
};
static apr_status_t ssl_io_input_read(bio_filter_in_ctx_t *inctx,
char *buf,
apr_size_t *len)
{
apr_size_t wanted = *len;
apr_size_t bytes = 0;
int rc;
*len = 0;
/* If we have something leftover from last time, try that first. */
if ((bytes = char_buffer_read(&inctx->cbuf, buf, wanted))) {
*len = bytes;
if (inctx->mode == AP_MODE_SPECULATIVE) {
/* We want to rollback this read. */
if (inctx->cbuf.length > 0) {
inctx->cbuf.value -= bytes;
inctx->cbuf.length += bytes;
} else {
char_buffer_write(&inctx->cbuf, buf, (int)bytes);
}
return APR_SUCCESS;
}
/* This could probably be *len == wanted, but be safe from stray
* photons.
*/
if (*len >= wanted) {
return APR_SUCCESS;
}
if (inctx->mode == AP_MODE_GETLINE) {
if (memchr(buf, APR_ASCII_LF, *len)) {
return APR_SUCCESS;
}
}
else {
/* Down to a nonblock pattern as we have some data already
*/
inctx->block = APR_NONBLOCK_READ;
}
}
while (1) {
if (!inctx->filter_ctx->pssl) {
/* Ensure a non-zero error code is returned */
if (inctx->rc == APR_SUCCESS) {
inctx->rc = APR_EGENERAL;
}
break;
}
/* SSL_read may not read because we haven't taken enough data
* from the stack. This is where we want to consider all of
* the blocking and SPECULATIVE semantics
*/
rc = SSL_read(inctx->filter_ctx->pssl, buf + bytes, wanted - bytes);
if (rc > 0) {
*len += rc;
if (inctx->mode == AP_MODE_SPECULATIVE) {
/* We want to rollback this read. */
char_buffer_write(&inctx->cbuf, buf, rc);
}
return inctx->rc;
}
else if (rc == 0) {
/* If EAGAIN, we will loop given a blocking read,
* otherwise consider ourselves at EOF.
*/
if (APR_STATUS_IS_EAGAIN(inctx->rc)
|| APR_STATUS_IS_EINTR(inctx->rc)) {
/* Already read something, return APR_SUCCESS instead.
* On win32 in particular, but perhaps on other kernels,
* a blocking call isn't 'always' blocking.
*/
if (*len > 0) {
inctx->rc = APR_SUCCESS;
break;
}
if (inctx->block == APR_NONBLOCK_READ) {
break;
}
}
else {
if (*len > 0) {
inctx->rc = APR_SUCCESS;
}
else {
inctx->rc = APR_EOF;
}
break;
}
}
else /* (rc < 0) */ {
int ssl_err = SSL_get_error(inctx->filter_ctx->pssl, rc);
conn_rec *c = (conn_rec*)SSL_get_app_data(inctx->filter_ctx->pssl);
if (ssl_err == SSL_ERROR_WANT_READ) {
/*
* If OpenSSL wants to read more, and we were nonblocking,
* report as an EAGAIN. Otherwise loop, pulling more
* data from network filter.
*
* (This is usually the case when the client forces an SSL
* renegotiation which is handled implicitly by OpenSSL.)
*/
inctx->rc = APR_EAGAIN;
if (*len > 0) {
inctx->rc = APR_SUCCESS;
break;
}
if (inctx->block == APR_NONBLOCK_READ) {
break;
}
continue; /* Blocking and nothing yet? Try again. */
}
else if (ssl_err == SSL_ERROR_SYSCALL) {
if (APR_STATUS_IS_EAGAIN(inctx->rc)
|| APR_STATUS_IS_EINTR(inctx->rc)) {
/* Already read something, return APR_SUCCESS instead. */
if (*len > 0) {
inctx->rc = APR_SUCCESS;
break;
}
if (inctx->block == APR_NONBLOCK_READ) {
break;
}
continue; /* Blocking and nothing yet? Try again. */
}
else {
ap_log_cerror(APLOG_MARK, APLOG_INFO, inctx->rc, c, APLOGNO(01991)
"SSL input filter read failed.");
}
}
else /* if (ssl_err == SSL_ERROR_SSL) */ {
/*
* Log SSL errors and any unexpected conditions.
*/
ap_log_cerror(APLOG_MARK, APLOG_INFO, inctx->rc, c, APLOGNO(01992)
"SSL library error %d reading data", ssl_err);
ssl_log_ssl_error(SSLLOG_MARK, APLOG_INFO, mySrvFromConn(c));
}
if (inctx->rc == APR_SUCCESS) {
inctx->rc = APR_EGENERAL;
}
break;
}
}
return inctx->rc;
}
/* Read a line of input from the SSL input layer into buffer BUF of
* length *LEN; updating *len to reflect the length of the line
* including the LF character. */
static apr_status_t ssl_io_input_getline(bio_filter_in_ctx_t *inctx,
char *buf,
apr_size_t *len)
{
const char *pos = NULL;
apr_status_t status;
apr_size_t tmplen = *len, buflen = *len, offset = 0;
*len = 0;
/*
* in most cases we get all the headers on the first SSL_read.
* however, in certain cases SSL_read will only get a partial
* chunk of the headers, so we try to read until LF is seen.
*/
while (tmplen > 0) {
status = ssl_io_input_read(inctx, buf + offset, &tmplen);
if (status != APR_SUCCESS) {
if (APR_STATUS_IS_EAGAIN(status) && (*len > 0)) {
/* Save the part of the line we already got */
char_buffer_write(&inctx->cbuf, buf, *len);
}
return status;
}
*len += tmplen;
if ((pos = memchr(buf, APR_ASCII_LF, *len))) {
break;
}
offset += tmplen;
tmplen = buflen - offset;
}
if (pos) {
char *value;
int length;
apr_size_t bytes = pos - buf;
bytes += 1;
value = buf + bytes;
length = *len - bytes;
char_buffer_write(&inctx->cbuf, value, length);
*len = bytes;
}
return APR_SUCCESS;
}
static apr_status_t ssl_filter_write(ap_filter_t *f,
const char *data,
apr_size_t len)
{
ssl_filter_ctx_t *filter_ctx = f->ctx;
bio_filter_out_ctx_t *outctx;
int res;
/* write SSL */
if (filter_ctx->pssl == NULL) {
return APR_EGENERAL;
}
outctx = (bio_filter_out_ctx_t *)filter_ctx->pbioWrite->ptr;
res = SSL_write(filter_ctx->pssl, (unsigned char *)data, len);
if (res < 0) {
int ssl_err = SSL_get_error(filter_ctx->pssl, res);
conn_rec *c = (conn_rec*)SSL_get_app_data(outctx->filter_ctx->pssl);
if (ssl_err == SSL_ERROR_WANT_WRITE) {
/*
* If OpenSSL wants to write more, and we were nonblocking,
* report as an EAGAIN. Otherwise loop, pushing more
* data at the network filter.
*
* (This is usually the case when the client forces an SSL
* renegotiation which is handled implicitly by OpenSSL.)
*/
outctx->rc = APR_EAGAIN;
}
else if (ssl_err == SSL_ERROR_SYSCALL) {
ap_log_cerror(APLOG_MARK, APLOG_INFO, outctx->rc, c, APLOGNO(01993)
"SSL output filter write failed.");
}
else /* if (ssl_err == SSL_ERROR_SSL) */ {
/*
* Log SSL errors
*/
ap_log_cerror(APLOG_MARK, APLOG_INFO, outctx->rc, c, APLOGNO(01994)
"SSL library error %d writing data", ssl_err);
ssl_log_ssl_error(SSLLOG_MARK, APLOG_INFO, mySrvFromConn(c));
}
if (outctx->rc == APR_SUCCESS) {
outctx->rc = APR_EGENERAL;
}
}
else if ((apr_size_t)res != len) {
conn_rec *c = f->c;
char *reason = "reason unknown";
/* XXX: probably a better way to determine this */
if (SSL_total_renegotiations(filter_ctx->pssl)) {
reason = "likely due to failed renegotiation";
}
ap_log_cerror(APLOG_MARK, APLOG_INFO, outctx->rc, c, APLOGNO(01995)
"failed to write %" APR_SSIZE_T_FMT
" of %" APR_SIZE_T_FMT " bytes (%s)",
len - (apr_size_t)res, len, reason);
outctx->rc = APR_EGENERAL;
}
return outctx->rc;
}
/* Just use a simple request. Any request will work for this, because
* we use a flag in the conn_rec->conn_vector now. The fake request just
* gets the request back to the Apache core so that a response can be sent.
* Since we use an HTTP/1.x request, we also have to inject the empty line
* that terminates the headers, or the core will read more data from the
* socket.
*/
#define HTTP_ON_HTTPS_PORT \
"GET / HTTP/1.0" CRLF
#define HTTP_ON_HTTPS_PORT_BUCKET(alloc) \
apr_bucket_immortal_create(HTTP_ON_HTTPS_PORT, \
sizeof(HTTP_ON_HTTPS_PORT) - 1, \
alloc)
/* Custom apr_status_t error code, used when a plain HTTP request is
* recevied on an SSL port. */
#define MODSSL_ERROR_HTTP_ON_HTTPS (APR_OS_START_USERERR + 0)
/* Custom apr_status_t error code, used when the proxy cannot
* establish an outgoing SSL connection. */
#define MODSSL_ERROR_BAD_GATEWAY (APR_OS_START_USERERR + 1)
static void ssl_io_filter_disable(SSLConnRec *sslconn, ap_filter_t *f)
{
bio_filter_in_ctx_t *inctx = f->ctx;
SSL_free(inctx->ssl);
sslconn->ssl = NULL;
inctx->ssl = NULL;
inctx->filter_ctx->pssl = NULL;
}
static apr_status_t ssl_io_filter_error(ap_filter_t *f,
apr_bucket_brigade *bb,
apr_status_t status)
{
SSLConnRec *sslconn = myConnConfig(f->c);
apr_bucket *bucket;
int send_eos = 1;
switch (status) {
case MODSSL_ERROR_HTTP_ON_HTTPS:
/* log the situation */
ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, f->c, APLOGNO(01996)
"SSL handshake failed: HTTP spoken on HTTPS port; "
"trying to send HTML error page");
ssl_log_ssl_error(SSLLOG_MARK, APLOG_INFO, sslconn->server);
sslconn->non_ssl_request = NON_SSL_SEND_HDR_SEP;
ssl_io_filter_disable(sslconn, f);
/* fake the request line */
bucket = HTTP_ON_HTTPS_PORT_BUCKET(f->c->bucket_alloc);
send_eos = 0;
break;
case MODSSL_ERROR_BAD_GATEWAY:
bucket = ap_bucket_error_create(HTTP_BAD_REQUEST, NULL,
f->c->pool,
f->c->bucket_alloc);
ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, f->c, APLOGNO(01997)
"SSL handshake failed: sending 502");
break;
default:
return status;
}
APR_BRIGADE_INSERT_TAIL(bb, bucket);
if (send_eos) {
bucket = apr_bucket_eos_create(f->c->bucket_alloc);
APR_BRIGADE_INSERT_TAIL(bb, bucket);
}
return APR_SUCCESS;
}
static const char ssl_io_filter[] = "SSL/TLS Filter";
static const char ssl_io_buffer[] = "SSL/TLS Buffer";
static const char ssl_io_coalesce[] = "SSL/TLS Coalescing Filter";
/*
* Close the SSL part of the socket connection
* (called immediately _before_ the socket is closed)
* or called with
*/
static void ssl_filter_io_shutdown(ssl_filter_ctx_t *filter_ctx,
conn_rec *c, int abortive)
{
SSL *ssl = filter_ctx->pssl;
const char *type = "";
SSLConnRec *sslconn = myConnConfig(c);
int shutdown_type;
int loglevel = APLOG_DEBUG;
const char *logno;
if (!ssl) {
return;
}
/*
* Now close the SSL layer of the connection. We've to take
* the TLSv1 standard into account here:
*
* | 7.2.1. Closure alerts
* |
* | The client and the server must share knowledge that the connection is
* | ending in order to avoid a truncation attack. Either party may
* | initiate the exchange of closing messages.
* |
* | close_notify
* | This message notifies the recipient that the sender will not send
* | any more messages on this connection. The session becomes
* | unresumable if any connection is terminated without proper
* | close_notify messages with level equal to warning.
* |
* | Either party may initiate a close by sending a close_notify alert.
* | Any data received after a closure alert is ignored.
* |
* | Each party is required to send a close_notify alert before closing
* | the write side of the connection. It is required that the other party
* | respond with a close_notify alert of its own and close down the
* | connection immediately, discarding any pending writes. It is not
* | required for the initiator of the close to wait for the responding
* | close_notify alert before closing the read side of the connection.
*
* This means we've to send a close notify message, but haven't to wait
* for the close notify of the client. Actually we cannot wait for the
* close notify of the client because some clients (including Netscape
* 4.x) don't send one, so we would hang.
*/
/*
* exchange close notify messages, but allow the user
* to force the type of handshake via SetEnvIf directive
*/
if (abortive) {
shutdown_type = SSL_SENT_SHUTDOWN|SSL_RECEIVED_SHUTDOWN;
type = "abortive";
logno = APLOGNO(01998);
loglevel = APLOG_INFO;
}
else switch (sslconn->shutdown_type) {
case SSL_SHUTDOWN_TYPE_UNCLEAN:
/* perform no close notify handshake at all
(violates the SSL/TLS standard!) */
shutdown_type = SSL_SENT_SHUTDOWN|SSL_RECEIVED_SHUTDOWN;
type = "unclean";
logno = APLOGNO(01999);
break;
case SSL_SHUTDOWN_TYPE_ACCURATE:
/* send close notify and wait for clients close notify
(standard compliant, but usually causes connection hangs) */
shutdown_type = 0;
type = "accurate";
logno = APLOGNO(02000);
break;
default:
/*
* case SSL_SHUTDOWN_TYPE_UNSET:
* case SSL_SHUTDOWN_TYPE_STANDARD:
*/
/* send close notify, but don't wait for clients close notify
(standard compliant and safe, so it's the DEFAULT!) */
shutdown_type = SSL_RECEIVED_SHUTDOWN;
type = "standard";
logno = APLOGNO(02001);
break;
}
SSL_set_shutdown(ssl, shutdown_type);
SSL_smart_shutdown(ssl);
/* and finally log the fact that we've closed the connection */
if (APLOG_CS_IS_LEVEL(c, mySrvFromConn(c), loglevel)) {
ap_log_cserror(APLOG_MARK, loglevel, 0, c, mySrvFromConn(c),
"%sConnection closed to child %ld with %s shutdown "
"(server %s)",
logno, c->id, type,
ssl_util_vhostid(c->pool, mySrvFromConn(c)));
}
/* deallocate the SSL connection */
if (sslconn->client_cert) {
X509_free(sslconn->client_cert);
sslconn->client_cert = NULL;
}
SSL_free(ssl);
sslconn->ssl = NULL;
filter_ctx->pssl = NULL; /* so filters know we've been shutdown */
if (abortive) {
/* prevent any further I/O */
c->aborted = 1;
}
}
static apr_status_t ssl_io_filter_cleanup(void *data)
{
ssl_filter_ctx_t *filter_ctx = data;
if (filter_ctx->pssl) {
conn_rec *c = (conn_rec *)SSL_get_app_data(filter_ctx->pssl);
SSLConnRec *sslconn = myConnConfig(c);
SSL_free(filter_ctx->pssl);
sslconn->ssl = filter_ctx->pssl = NULL;
}
return APR_SUCCESS;
}
/*
* The hook is NOT registered with ap_hook_process_connection. Instead, it is
* called manually from the churn () before it tries to read any data.
* There is some problem if I accept conn_rec *. Still investigating..
* Adv. if conn_rec * can be accepted is we can hook this function using the
* ap_hook_process_connection hook.
*/
/* Perform the SSL handshake (whether in client or server mode), if
* necessary, for the given connection. */
static apr_status_t ssl_io_filter_handshake(ssl_filter_ctx_t *filter_ctx)
{
conn_rec *c = (conn_rec *)SSL_get_app_data(filter_ctx->pssl);
SSLConnRec *sslconn = myConnConfig(c);
SSLSrvConfigRec *sc;
X509 *cert;
int n;
int ssl_err;
long verify_result;
server_rec *server;
if (SSL_is_init_finished(filter_ctx->pssl)) {
return APR_SUCCESS;
}
server = sslconn->server;
if (sslconn->is_proxy) {
#ifndef OPENSSL_NO_TLSEXT
apr_ipsubnet_t *ip;
#endif
const char *hostname_note = apr_table_get(c->notes,
"proxy-request-hostname");
sc = mySrvConfig(server);
#ifndef OPENSSL_NO_TLSEXT
/*
* Enable SNI for backend requests. Make sure we don't do it for
* pure SSLv3 connections, and also prevent IP addresses
* from being included in the SNI extension. (OpenSSL would simply
* pass them on, but RFC 6066 is quite clear on this: "Literal
* IPv4 and IPv6 addresses are not permitted".)
*/
if (hostname_note &&
sc->proxy->protocol != SSL_PROTOCOL_SSLV3 &&
apr_ipsubnet_create(&ip, hostname_note, NULL,
c->pool) != APR_SUCCESS) {
if (SSL_set_tlsext_host_name(filter_ctx->pssl, hostname_note)) {
ap_log_cerror(APLOG_MARK, APLOG_TRACE3, 0, c,
"SNI extension for SSL Proxy request set to '%s'",
hostname_note);
} else {
ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, c, APLOGNO(02002)
"Failed to set SNI extension for SSL Proxy "
"request to '%s'", hostname_note);
ssl_log_ssl_error(SSLLOG_MARK, APLOG_WARNING, server);
}
}
#endif
if ((n = SSL_connect(filter_ctx->pssl)) <= 0) {
ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, c, APLOGNO(02003)
"SSL Proxy connect failed");
ssl_log_ssl_error(SSLLOG_MARK, APLOG_INFO, server);
/* ensure that the SSL structures etc are freed, etc: */
ssl_filter_io_shutdown(filter_ctx, c, 1);
apr_table_setn(c->notes, "SSL_connect_rv", "err");
return MODSSL_ERROR_BAD_GATEWAY;
}
if (sc->proxy_ssl_check_peer_expire != SSL_ENABLED_FALSE) {
cert = SSL_get_peer_certificate(filter_ctx->pssl);
if (!cert
|| (X509_cmp_current_time(
X509_get_notBefore(cert)) >= 0)
|| (X509_cmp_current_time(
X509_get_notAfter(cert)) <= 0)) {
ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, c, APLOGNO(02004)
"SSL Proxy: Peer certificate is expired");
if (cert) {
X509_free(cert);
}
/* ensure that the SSL structures etc are freed, etc: */
ssl_filter_io_shutdown(filter_ctx, c, 1);
apr_table_setn(c->notes, "SSL_connect_rv", "err");
return HTTP_BAD_GATEWAY;
}
X509_free(cert);
}
if ((sc->proxy_ssl_check_peer_cn != SSL_ENABLED_FALSE) &&
hostname_note) {
const char *hostname;
int match = 0;
hostname = ssl_var_lookup(NULL, server, c, NULL,
"SSL_CLIENT_S_DN_CN");
apr_table_unset(c->notes, "proxy-request-hostname");
/* Do string match or simplest wildcard match if that
* fails. */
match = strcasecmp(hostname, hostname_note) == 0;
if (!match && strncmp(hostname, "*.", 2) == 0) {
const char *p = ap_strchr_c(hostname_note, '.');
match = p && strcasecmp(p, hostname + 1) == 0;
}
if (!match) {
ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, c, APLOGNO(02005)
"SSL Proxy: Peer certificate CN mismatch:"
" Certificate CN: %s Requested hostname: %s",
hostname, hostname_note);
/* ensure that the SSL structures etc are freed, etc: */
ssl_filter_io_shutdown(filter_ctx, c, 1);
apr_table_setn(c->notes, "SSL_connect_rv", "err");
return HTTP_BAD_GATEWAY;
}
}
apr_table_setn(c->notes, "SSL_connect_rv", "ok");
return APR_SUCCESS;
}
if ((n = SSL_accept(filter_ctx->pssl)) <= 0) {
bio_filter_in_ctx_t *inctx = (bio_filter_in_ctx_t *)
(filter_ctx->pbioRead->ptr);
bio_filter_out_ctx_t *outctx = (bio_filter_out_ctx_t *)
(filter_ctx->pbioWrite->ptr);
apr_status_t rc = inctx->rc ? inctx->rc : outctx->rc ;
ssl_err = SSL_get_error(filter_ctx->pssl, n);
if (ssl_err == SSL_ERROR_ZERO_RETURN) {
/*
* The case where the connection was closed before any data
* was transferred. That's not a real error and can occur
* sporadically with some clients.
*/
ap_log_cerror(APLOG_MARK, APLOG_INFO, rc, c, APLOGNO(02006)
"SSL handshake stopped: connection was closed");
}
else if (ssl_err == SSL_ERROR_WANT_READ) {
/*
* This is in addition to what was present earlier. It is
* borrowed from openssl_state_machine.c [mod_tls].
* TBD.
*/
outctx->rc = APR_EAGAIN;
return APR_EAGAIN;
}
else if (ERR_GET_LIB(ERR_peek_error()) == ERR_LIB_SSL &&
ERR_GET_REASON(ERR_peek_error()) == SSL_R_HTTP_REQUEST) {
/*
* The case where OpenSSL has recognized a HTTP request:
* This means the client speaks plain HTTP on our HTTPS port.
* ssl_io_filter_error will disable the ssl filters when it
* sees this status code.
*/
return MODSSL_ERROR_HTTP_ON_HTTPS;
}
else if (ssl_err == SSL_ERROR_SYSCALL) {
ap_log_cerror(APLOG_MARK, APLOG_DEBUG, rc, c, APLOGNO(02007)
"SSL handshake interrupted by system "
"[Hint: Stop button pressed in browser?!]");
}
else /* if (ssl_err == SSL_ERROR_SSL) */ {
/*
* Log SSL errors and any unexpected conditions.
*/
ap_log_cerror(APLOG_MARK, APLOG_INFO, rc, c, APLOGNO(02008)
"SSL library error %d in handshake "
"(server %s)", ssl_err,
ssl_util_vhostid(c->pool, server));
ssl_log_ssl_error(SSLLOG_MARK, APLOG_INFO, server);
}
if (inctx->rc == APR_SUCCESS) {
inctx->rc = APR_EGENERAL;
}
ssl_filter_io_shutdown(filter_ctx, c, 1);
return inctx->rc;
}
sc = mySrvConfig(sslconn->server);
/*
* Check for failed client authentication
*/
verify_result = SSL_get_verify_result(filter_ctx->pssl);
if ((verify_result != X509_V_OK) ||
sslconn->verify_error)
{
if (ssl_verify_error_is_optional(verify_result) &&
(sc->server->auth.verify_mode == SSL_CVERIFY_OPTIONAL_NO_CA))
{
/* leaving this log message as an error for the moment,
* according to the mod_ssl docs:
* "level optional_no_ca is actually against the idea
* of authentication (but can be used to establish
* SSL test pages, etc.)"
* optional_no_ca doesn't appear to work as advertised
* in 1.x
*/
ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, c, APLOGNO(02009)
"SSL client authentication failed, "
"accepting certificate based on "
"\"SSLVerifyClient optional_no_ca\" "
"configuration");
ssl_log_ssl_error(SSLLOG_MARK, APLOG_INFO, server);
}
else {
const char *error = sslconn->verify_error ?
sslconn->verify_error :
X509_verify_cert_error_string(verify_result);
ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, c, APLOGNO(02010)
"SSL client authentication failed: %s",
error ? error : "unknown");
ssl_log_ssl_error(SSLLOG_MARK, APLOG_INFO, server);
ssl_filter_io_shutdown(filter_ctx, c, 1);
return APR_ECONNABORTED;
}
}
/*
* Remember the peer certificate's DN
*/
if ((cert = SSL_get_peer_certificate(filter_ctx->pssl))) {
if (sslconn->client_cert) {
X509_free(sslconn->client_cert);
}
sslconn->client_cert = cert;
sslconn->client_dn = NULL;
}
/*
* Make really sure that when a peer certificate
* is required we really got one... (be paranoid)
*/
if ((sc->server->auth.verify_mode == SSL_CVERIFY_REQUIRE) &&
!sslconn->client_cert)
{
ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, c, APLOGNO(02011)
"No acceptable peer certificate available");
ssl_filter_io_shutdown(filter_ctx, c, 1);
return APR_ECONNABORTED;
}
return APR_SUCCESS;
}
static apr_status_t ssl_io_filter_input(ap_filter_t *f,
apr_bucket_brigade *bb,
ap_input_mode_t mode,
apr_read_type_e block,
apr_off_t readbytes)
{
apr_status_t status;
bio_filter_in_ctx_t *inctx = f->ctx;
const char *start = inctx->buffer; /* start of block to return */
apr_size_t len = sizeof(inctx->buffer); /* length of block to return */
int is_init = (mode == AP_MODE_INIT);
if (f->c->aborted) {
/* XXX: Ok, if we aborted, we ARE at the EOS. We also have
* aborted. This 'double protection' is probably redundant,
* but also effective against just about anything.
*/
apr_bucket *bucket = apr_bucket_eos_create(f->c->bucket_alloc);
APR_BRIGADE_INSERT_TAIL(bb, bucket);
return APR_ECONNABORTED;
}
if (!inctx->ssl) {
SSLConnRec *sslconn = myConnConfig(f->c);
if (sslconn->non_ssl_request == NON_SSL_SEND_HDR_SEP) {
apr_bucket *bucket = apr_bucket_immortal_create(CRLF, 2, f->c->bucket_alloc);
APR_BRIGADE_INSERT_TAIL(bb, bucket);
sslconn->non_ssl_request = NON_SSL_SET_ERROR_MSG;
return APR_SUCCESS;
}
return ap_get_brigade(f->next, bb, mode, block, readbytes);
}
/* XXX: we don't currently support anything other than these modes. */
if (mode != AP_MODE_READBYTES && mode != AP_MODE_GETLINE &&
mode != AP_MODE_SPECULATIVE && mode != AP_MODE_INIT) {
return APR_ENOTIMPL;
}
inctx->mode = mode;
inctx->block = block;
/* XXX: we could actually move ssl_io_filter_handshake to an
* ap_hook_process_connection but would still need to call it for
* AP_MODE_INIT for protocols that may upgrade the connection
* rather than have SSLEngine On configured.
*/
if ((status = ssl_io_filter_handshake(inctx->filter_ctx)) != APR_SUCCESS) {
return ssl_io_filter_error(f, bb, status);
}
if (is_init) {
/* protocol module needs to handshake before sending
* data to client (e.g. NNTP or FTP)
*/
return APR_SUCCESS;
}
if (inctx->mode == AP_MODE_READBYTES ||
inctx->mode == AP_MODE_SPECULATIVE) {
/* Protected from truncation, readbytes < MAX_SIZE_T
* FIXME: No, it's *not* protected. -- jre */
if (readbytes < len) {
len = (apr_size_t)readbytes;
}
status = ssl_io_input_read(inctx, inctx->buffer, &len);
}
else if (inctx->mode == AP_MODE_GETLINE) {
const char *pos;
/* Satisfy the read directly out of the buffer if possible;
* invoking ssl_io_input_getline will mean the entire buffer
* is copied once (unnecessarily) for each GETLINE call. */
if (inctx->cbuf.length
&& (pos = memchr(inctx->cbuf.value, APR_ASCII_LF,
inctx->cbuf.length)) != NULL) {
start = inctx->cbuf.value;
len = 1 + pos - start; /* +1 to include LF */
/* Buffer contents now consumed. */
inctx->cbuf.value += len;
inctx->cbuf.length -= len;
status = APR_SUCCESS;
}
else {
/* Otherwise fall back to the hard way. */
status = ssl_io_input_getline(inctx, inctx->buffer, &len);
}
}
else {
/* We have no idea what you are talking about, so return an error. */
status = APR_ENOTIMPL;
}
/* It is possible for mod_ssl's BIO to be used outside of the
* direct control of mod_ssl's input or output filter -- notably,
* when mod_ssl initiates a renegotiation. Switching the BIO mode
* back to "blocking" here ensures such operations don't fail with
* SSL_ERROR_WANT_READ. */
inctx->block = APR_BLOCK_READ;
/* Handle custom errors. */
if (status != APR_SUCCESS) {
return ssl_io_filter_error(f, bb, status);
}
/* Create a transient bucket out of the decrypted data. */
if (len > 0) {
apr_bucket *bucket =
apr_bucket_transient_create(start, len, f->c->bucket_alloc);
APR_BRIGADE_INSERT_TAIL(bb, bucket);
}
return APR_SUCCESS;
}
/* ssl_io_filter_output() produces one SSL/TLS message per bucket
* passed down the output filter stack. This results in a high
* overhead (network packets) for any output comprising many small
* buckets. SSI page applied through the HTTP chunk filter, for
* example, may produce many brigades containing small buckets -
* [chunk-size CRLF] [chunk-data] [CRLF].
*
* The coalescing filter merges many small buckets into larger buckets
* where possible, allowing the SSL I/O output filter to handle them
* more efficiently. */
#define COALESCE_BYTES (2048)
struct coalesce_ctx {
char buffer[COALESCE_BYTES];
apr_size_t bytes; /* number of bytes of buffer used. */
};
static apr_status_t ssl_io_filter_coalesce(ap_filter_t *f,
apr_bucket_brigade *bb)
{
apr_bucket *e, *last = NULL;
apr_size_t bytes = 0;
struct coalesce_ctx *ctx = f->ctx;
unsigned count = 0;
/* The brigade consists of zero-or-more small data buckets which
* can be coalesced (the prefix), followed by the remainder of the
* brigade.
*
* Find the last bucket - if any - of that prefix. count gives
* the number of buckets in the prefix. The "prefix" must contain
* only data buckets with known length, and must be of a total
* size which fits into the buffer.
*
* N.B.: The process here could be repeated throughout the brigade
* (coalesce any run of consecutive data buckets) but this would
* add significant complexity, particularly to memory
* management. */
for (e = APR_BRIGADE_FIRST(bb);
e != APR_BRIGADE_SENTINEL(bb)
&& !APR_BUCKET_IS_METADATA(e)
&& e->length != (apr_size_t)-1
&& e->length < COALESCE_BYTES
&& (bytes + e->length) < COALESCE_BYTES
&& (ctx == NULL
|| bytes + ctx->bytes + e->length < COALESCE_BYTES);
e = APR_BUCKET_NEXT(e)) {
last = e;
if (e->length) count++; /* don't count zero-length buckets */
bytes += e->length;
}
/* Coalesce the prefix, if:
* a) more than one bucket is found to coalesce, or
* b) the brigade contains only a single data bucket, or
* c)
*/
if (bytes > 0
&& (count > 1
|| (count == 1 && APR_BUCKET_NEXT(last) == APR_BRIGADE_SENTINEL(bb)))) {
/* If coalescing some bytes, ensure a context has been
* created. */
if (!ctx) {
f->ctx = ctx = apr_palloc(f->c->pool, sizeof *ctx);
ctx->bytes = 0;
}
ap_log_cerror(APLOG_MARK, APLOG_TRACE4, 0, f->c,
"coalesce: have %" APR_SIZE_T_FMT " bytes, "
"adding %" APR_SIZE_T_FMT " more", ctx->bytes, bytes);
/* Iterate through the prefix segment. For non-fatal errors
* in this loop it is safe to break out and fall back to the
* normal path of sending the buffer + remaining buckets in
* brigade. */
e = APR_BRIGADE_FIRST(bb);
while (e != last) {
apr_size_t len;
const char *data;
apr_bucket *next;
if (APR_BUCKET_IS_METADATA(e)
|| e->length == (apr_size_t)-1) {
ap_log_cerror(APLOG_MARK, APLOG_ERR, 0, f->c, APLOGNO(02012)
"unexpected bucket type during coalesce");
break; /* non-fatal error; break out */
}
if (e->length) {
apr_status_t rv;
/* A blocking read should be fine here for a
* known-length data bucket, rather than the usual
* non-block/flush/block. */
rv = apr_bucket_read(e, &data, &len, APR_BLOCK_READ);
if (rv) {
ap_log_cerror(APLOG_MARK, APLOG_ERR, rv, f->c, APLOGNO(02013)
"coalesce failed to read from data bucket");
return AP_FILTER_ERROR;
}
/* Be paranoid. */
if (len > sizeof ctx->buffer
|| (len + ctx->bytes > sizeof ctx->buffer)) {
ap_log_cerror(APLOG_MARK, APLOG_ERR, 0, f->c, APLOGNO(02014)
"unexpected coalesced bucket data length");
break; /* non-fatal error; break out */
}
memcpy(ctx->buffer + ctx->bytes, data, len);
ctx->bytes += len;
}
next = APR_BUCKET_NEXT(e);
apr_bucket_delete(e);
e = next;
}
}
if (APR_BRIGADE_EMPTY(bb)) {
/* If the brigade is now empty, our work here is done. */
return APR_SUCCESS;
}
/* If anything remains in the brigade, it must now be passed down
* the filter stack, first prepending anything that has been
* coalesced. */
if (ctx && ctx->bytes) {
apr_bucket *e;
ap_log_cerror(APLOG_MARK, APLOG_TRACE4, 0, f->c,
"coalesce: passing on %" APR_SIZE_T_FMT " bytes", ctx->bytes);
e = apr_bucket_transient_create(ctx->buffer, ctx->bytes, bb->bucket_alloc);
APR_BRIGADE_INSERT_HEAD(bb, e);
ctx->bytes = 0; /* buffer now emptied. */
}
return ap_pass_brigade(f->next, bb);
}
static apr_status_t ssl_io_filter_output(ap_filter_t *f,
apr_bucket_brigade *bb)
{
apr_status_t status = APR_SUCCESS;
ssl_filter_ctx_t *filter_ctx = f->ctx;
bio_filter_in_ctx_t *inctx;
bio_filter_out_ctx_t *outctx;
apr_read_type_e rblock = APR_NONBLOCK_READ;
if (f->c->aborted) {
apr_brigade_cleanup(bb);
return APR_ECONNABORTED;
}
if (!filter_ctx->pssl) {
/* ssl_filter_io_shutdown was called */
return ap_pass_brigade(f->next, bb);
}
inctx = (bio_filter_in_ctx_t *)filter_ctx->pbioRead->ptr;
outctx = (bio_filter_out_ctx_t *)filter_ctx->pbioWrite->ptr;
/* When we are the writer, we must initialize the inctx
* mode so that we block for any required ssl input, because
* output filtering is always nonblocking.
*/
inctx->mode = AP_MODE_READBYTES;
inctx->block = APR_BLOCK_READ;
if ((status = ssl_io_filter_handshake(filter_ctx)) != APR_SUCCESS) {
return ssl_io_filter_error(f, bb, status);
}
while (!APR_BRIGADE_EMPTY(bb)) {
apr_bucket *bucket = APR_BRIGADE_FIRST(bb);
/* If it is a flush or EOS, we need to pass this down.
* These types do not require translation by OpenSSL.
*/
if (APR_BUCKET_IS_EOS(bucket) || APR_BUCKET_IS_FLUSH(bucket)) {
if (bio_filter_out_flush(filter_ctx->pbioWrite) < 0) {
status = outctx->rc;
break;
}
if (APR_BUCKET_IS_EOS(bucket)) {
/*
* By definition, nothing can come after EOS.
* which also means we can pass the rest of this brigade
* without creating a new one since it only contains the
* EOS bucket.
*/
if ((status = ap_pass_brigade(f->next, bb)) != APR_SUCCESS) {
return status;
}
break;
}
else {
/* bio_filter_out_flush() already passed down a flush bucket
* if there was any data to be flushed.
*/
apr_bucket_delete(bucket);
}
}
else if (AP_BUCKET_IS_EOC(bucket)) {
/* The EOC bucket indicates connection closure, so SSL
* shutdown must now be performed. */
ssl_filter_io_shutdown(filter_ctx, f->c, 0);
if ((status = ap_pass_brigade(f->next, bb)) != APR_SUCCESS) {
return status;
}
break;
}
else {
/* filter output */
const char *data;
apr_size_t len;
status = apr_bucket_read(bucket, &data, &len, rblock);
if (APR_STATUS_IS_EAGAIN(status)) {
/* No data available: flush... */
if (bio_filter_out_flush(filter_ctx->pbioWrite) < 0) {
status = outctx->rc;
break;
}
rblock = APR_BLOCK_READ;
continue; /* and try again with a blocking read. */
}
rblock = APR_NONBLOCK_READ;
if (!APR_STATUS_IS_EOF(status) && (status != APR_SUCCESS)) {
break;
}
status = ssl_filter_write(f, data, len);
apr_bucket_delete(bucket);
if (status != APR_SUCCESS) {
break;
}
}
}
return status;
}
struct modssl_buffer_ctx {
apr_bucket_brigade *bb;
};
int ssl_io_buffer_fill(request_rec *r, apr_size_t maxlen)
{
conn_rec *c = r->connection;
struct modssl_buffer_ctx *ctx;
apr_bucket_brigade *tempb;
apr_off_t total = 0; /* total length buffered */
int eos = 0; /* non-zero once EOS is seen */
/* Create the context which will be passed to the input filter;
* containing a setaside pool and a brigade which constrain the
* lifetime of the buffered data. */
ctx = apr_palloc(r->pool, sizeof *ctx);
ctx->bb = apr_brigade_create(r->pool, c->bucket_alloc);
/* ... and a temporary brigade. */
tempb = apr_brigade_create(r->pool, c->bucket_alloc);
ap_log_cerror(APLOG_MARK, APLOG_TRACE4, 0, c, "filling buffer, max size "
"%" APR_SIZE_T_FMT " bytes", maxlen);
do {
apr_status_t rv;
apr_bucket *e, *next;
/* The request body is read from the protocol-level input
* filters; the buffering filter will reinject it from that
* level, allowing content/resource filters to run later, if
* necessary. */
rv = ap_get_brigade(r->proto_input_filters, tempb, AP_MODE_READBYTES,
APR_BLOCK_READ, 8192);
if (rv) {
ap_log_rerror(APLOG_MARK, APLOG_ERR, rv, r, APLOGNO(02015)
"could not read request body for SSL buffer");
return HTTP_INTERNAL_SERVER_ERROR;
}
/* Iterate through the returned brigade: setaside each bucket
* into the context's pool and move it into the brigade. */
for (e = APR_BRIGADE_FIRST(tempb);
e != APR_BRIGADE_SENTINEL(tempb) && !eos; e = next) {
const char *data;
apr_size_t len;
next = APR_BUCKET_NEXT(e);
if (APR_BUCKET_IS_EOS(e)) {
eos = 1;
} else if (!APR_BUCKET_IS_METADATA(e)) {
rv = apr_bucket_read(e, &data, &len, APR_BLOCK_READ);
if (rv != APR_SUCCESS) {
ap_log_rerror(APLOG_MARK, APLOG_ERR, rv, r, APLOGNO(02016)
"could not read bucket for SSL buffer");
return HTTP_INTERNAL_SERVER_ERROR;
}
total += len;
}
rv = apr_bucket_setaside(e, r->pool);
if (rv != APR_SUCCESS) {
ap_log_rerror(APLOG_MARK, APLOG_ERR, rv, r, APLOGNO(02017)
"could not setaside bucket for SSL buffer");
return HTTP_INTERNAL_SERVER_ERROR;
}
APR_BUCKET_REMOVE(e);
APR_BRIGADE_INSERT_TAIL(ctx->bb, e);
}
ap_log_cerror(APLOG_MARK, APLOG_TRACE4, 0, c,
"total of %" APR_OFF_T_FMT " bytes in buffer, eos=%d",
total, eos);
/* Fail if this exceeds the maximum buffer size. */
if (total > maxlen) {
ap_log_rerror(APLOG_MARK, APLOG_ERR, 0, r, APLOGNO(02018)
"request body exceeds maximum size (%" APR_SIZE_T_FMT
") for SSL buffer", maxlen);
return HTTP_REQUEST_ENTITY_TOO_LARGE;
}
} while (!eos);
apr_brigade_destroy(tempb);
/* After consuming all protocol-level input, remove all protocol-level
* filters. It should strictly only be necessary to remove filters
* at exactly ftype == AP_FTYPE_PROTOCOL, since this filter will
* precede all > AP_FTYPE_PROTOCOL anyway. */
while (r->proto_input_filters->frec->ftype < AP_FTYPE_CONNECTION) {
ap_remove_input_filter(r->proto_input_filters);
}
/* Insert the filter which will supply the buffered content. */
ap_add_input_filter(ssl_io_buffer, ctx, r, c);
return 0;
}
/* This input filter supplies the buffered request body to the caller
* from the brigade stored in f->ctx. Note that the placement of this
* filter in the filter stack is important; it must be the first
* r->proto_input_filter; lower-typed filters will not be preserved
* across internal redirects (see PR 43738). */
static apr_status_t ssl_io_filter_buffer(ap_filter_t *f,
apr_bucket_brigade *bb,
ap_input_mode_t mode,
apr_read_type_e block,
apr_off_t bytes)
{
struct modssl_buffer_ctx *ctx = f->ctx;
apr_status_t rv;
ap_log_cerror(APLOG_MARK, APLOG_TRACE4, 0, f->c,
"read from buffered SSL brigade, mode %d, "
"%" APR_OFF_T_FMT " bytes",
mode, bytes);
if (mode != AP_MODE_READBYTES && mode != AP_MODE_GETLINE) {
return APR_ENOTIMPL;
}
if (APR_BRIGADE_EMPTY(ctx->bb)) {
/* Suprisingly (and perhaps, wrongly), the request body can be
* pulled from the input filter stack more than once; a
* handler may read it, and ap_discard_request_body() will
* attempt to do so again after *every* request. So input
* filters must be prepared to give up an EOS if invoked after
* initially reading the request. The HTTP_IN filter does this
* with its ->eos_sent flag. */
APR_BRIGADE_INSERT_TAIL(bb, apr_bucket_eos_create(f->c->bucket_alloc));
return APR_SUCCESS;
}
if (mode == AP_MODE_READBYTES) {
apr_bucket *e;
/* Partition the buffered brigade. */
rv = apr_brigade_partition(ctx->bb, bytes, &e);
if (rv && rv != APR_INCOMPLETE) {
ap_log_cerror(APLOG_MARK, APLOG_ERR, rv, f->c, APLOGNO(02019)
"could not partition buffered SSL brigade");
ap_remove_input_filter(f);
return rv;
}
/* If the buffered brigade contains less then the requested
* length, just pass it all back. */
if (rv == APR_INCOMPLETE) {
APR_BRIGADE_CONCAT(bb, ctx->bb);
} else {
apr_bucket *d = APR_BRIGADE_FIRST(ctx->bb);
e = APR_BUCKET_PREV(e);
/* Unsplice the partitioned segment and move it into the
* passed-in brigade; no convenient way to do this with
* the APR_BRIGADE_* macros. */
APR_RING_UNSPLICE(d, e, link);
APR_RING_SPLICE_HEAD(&bb->list, d, e, apr_bucket, link);
APR_BRIGADE_CHECK_CONSISTENCY(bb);
APR_BRIGADE_CHECK_CONSISTENCY(ctx->bb);
}
}
else {
/* Split a line into the passed-in brigade. */
rv = apr_brigade_split_line(bb, ctx->bb, block, bytes);
if (rv) {
ap_log_cerror(APLOG_MARK, APLOG_ERR, rv, f->c, APLOGNO(02020)
"could not split line from buffered SSL brigade");
ap_remove_input_filter(f);
return rv;
}
}
if (APR_BRIGADE_EMPTY(ctx->bb)) {
apr_bucket *e = APR_BRIGADE_LAST(bb);
/* Ensure that the brigade is terminated by an EOS if the
* buffered request body has been entirely consumed. */
if (e == APR_BRIGADE_SENTINEL(bb) || !APR_BUCKET_IS_EOS(e)) {
e = apr_bucket_eos_create(f->c->bucket_alloc);
APR_BRIGADE_INSERT_TAIL(bb, e);
}
ap_log_cerror(APLOG_MARK, APLOG_TRACE4, 0, f->c,
"buffered SSL brigade exhausted");
/* Note that the filter must *not* be removed here; it may be
* invoked again, see comment above. */
}
return APR_SUCCESS;
}
/* The request_rec pointer is passed in here only to ensure that the
* filter chain is modified correctly when doing a TLS upgrade. It
* must *not* be used otherwise. */
static void ssl_io_input_add_filter(ssl_filter_ctx_t *filter_ctx, conn_rec *c,
request_rec *r, SSL *ssl)
{
bio_filter_in_ctx_t *inctx;
inctx = apr_palloc(c->pool, sizeof(*inctx));
filter_ctx->pInputFilter = ap_add_input_filter(ssl_io_filter, inctx, r, c);
filter_ctx->pbioRead = BIO_new(&bio_filter_in_method);
filter_ctx->pbioRead->ptr = (void *)inctx;
inctx->ssl = ssl;
inctx->bio_out = filter_ctx->pbioWrite;
inctx->f = filter_ctx->pInputFilter;
inctx->rc = APR_SUCCESS;
inctx->mode = AP_MODE_READBYTES;
inctx->cbuf.length = 0;
inctx->bb = apr_brigade_create(c->pool, c->bucket_alloc);
inctx->block = APR_BLOCK_READ;
inctx->pool = c->pool;
inctx->filter_ctx = filter_ctx;
}
/* The request_rec pointer is passed in here only to ensure that the
* filter chain is modified correctly when doing a TLS upgrade. It
* must *not* be used otherwise. */
void ssl_io_filter_init(conn_rec *c, request_rec *r, SSL *ssl)
{
ssl_filter_ctx_t *filter_ctx;
filter_ctx = apr_palloc(c->pool, sizeof(ssl_filter_ctx_t));
filter_ctx->config = myConnConfig(c);
ap_add_output_filter(ssl_io_coalesce, NULL, r, c);
filter_ctx->pOutputFilter = ap_add_output_filter(ssl_io_filter,
filter_ctx, r, c);
filter_ctx->pbioWrite = BIO_new(&bio_filter_out_method);
filter_ctx->pbioWrite->ptr = (void *)bio_filter_out_ctx_new(filter_ctx, c);
/* We insert a clogging input filter. Let the core know. */
c->clogging_input_filters = 1;
ssl_io_input_add_filter(filter_ctx, c, r, ssl);
SSL_set_bio(ssl, filter_ctx->pbioRead, filter_ctx->pbioWrite);
filter_ctx->pssl = ssl;
apr_pool_cleanup_register(c->pool, (void*)filter_ctx,
ssl_io_filter_cleanup, apr_pool_cleanup_null);
if (APLOG_CS_IS_LEVEL(c, mySrvFromConn(c), APLOG_TRACE4)) {
BIO_set_callback(SSL_get_rbio(ssl), ssl_io_data_cb);
BIO_set_callback_arg(SSL_get_rbio(ssl), (void *)ssl);
}
return;
}
void ssl_io_filter_register(apr_pool_t *p)
{
ap_register_input_filter (ssl_io_filter, ssl_io_filter_input, NULL, AP_FTYPE_CONNECTION + 5);
ap_register_output_filter (ssl_io_coalesce, ssl_io_filter_coalesce, NULL, AP_FTYPE_CONNECTION + 4);
ap_register_output_filter (ssl_io_filter, ssl_io_filter_output, NULL, AP_FTYPE_CONNECTION + 5);
ap_register_input_filter (ssl_io_buffer, ssl_io_filter_buffer, NULL, AP_FTYPE_PROTOCOL);
return;
}
/* _________________________________________________________________
**
** I/O Data Debugging
** _________________________________________________________________
*/
#define DUMP_WIDTH 16
static void ssl_io_data_dump(server_rec *srvr,
const char *s,
long len)
{
char buf[256];
char tmp[64];
int i, j, rows, trunc;
unsigned char ch;
trunc = 0;
for(; (len > 0) && ((s[len-1] == ' ') || (s[len-1] == '\0')); len--)
trunc++;
rows = (len / DUMP_WIDTH);
if ((rows * DUMP_WIDTH) < len)
rows++;
ap_log_error(APLOG_MARK, APLOG_TRACE7, 0, srvr,
"+-------------------------------------------------------------------------+");
for(i = 0 ; i< rows; i++) {
#if APR_CHARSET_EBCDIC
char ebcdic_text[DUMP_WIDTH];
j = DUMP_WIDTH;
if ((i * DUMP_WIDTH + j) > len)
j = len % DUMP_WIDTH;
if (j == 0)
j = DUMP_WIDTH;
memcpy(ebcdic_text,(char *)(s) + i * DUMP_WIDTH, j);
ap_xlate_proto_from_ascii(ebcdic_text, j);
#endif /* APR_CHARSET_EBCDIC */
apr_snprintf(tmp, sizeof(tmp), "| %04x: ", i * DUMP_WIDTH);
apr_cpystrn(buf, tmp, sizeof(buf));
for (j = 0; j < DUMP_WIDTH; j++) {
if (((i * DUMP_WIDTH) + j) >= len)
apr_cpystrn(buf+strlen(buf), " ", sizeof(buf)-strlen(buf));
else {
ch = ((unsigned char)*((char *)(s) + i * DUMP_WIDTH + j)) & 0xff;
apr_snprintf(tmp, sizeof(tmp), "%02x%c", ch , j==7 ? '-' : ' ');
apr_cpystrn(buf+strlen(buf), tmp, sizeof(buf)-strlen(buf));
}
}
apr_cpystrn(buf+strlen(buf), " ", sizeof(buf)-strlen(buf));
for (j = 0; j < DUMP_WIDTH; j++) {
if (((i * DUMP_WIDTH) + j) >= len)
apr_cpystrn(buf+strlen(buf), " ", sizeof(buf)-strlen(buf));
else {
ch = ((unsigned char)*((char *)(s) + i * DUMP_WIDTH + j)) & 0xff;
#if APR_CHARSET_EBCDIC
apr_snprintf(tmp, sizeof(tmp), "%c", (ch >= 0x20 && ch <= 0x7F) ? ebcdic_text[j] : '.');
#else /* APR_CHARSET_EBCDIC */
apr_snprintf(tmp, sizeof(tmp), "%c", ((ch >= ' ') && (ch <= '~')) ? ch : '.');
#endif /* APR_CHARSET_EBCDIC */
apr_cpystrn(buf+strlen(buf), tmp, sizeof(buf)-strlen(buf));
}
}
apr_cpystrn(buf+strlen(buf), " |", sizeof(buf)-strlen(buf));
ap_log_error(APLOG_MARK, APLOG_TRACE7, 0, srvr,
"%s", buf);
}
if (trunc > 0)
ap_log_error(APLOG_MARK, APLOG_TRACE7, 0, srvr,
"| %04ld - <SPACES/NULS>", len + trunc);
ap_log_error(APLOG_MARK, APLOG_TRACE7, 0, srvr,
"+-------------------------------------------------------------------------+");
return;
}
long ssl_io_data_cb(BIO *bio, int cmd,
const char *argp,
int argi, long argl, long rc)
{
SSL *ssl;
conn_rec *c;
server_rec *s;
if ((ssl = (SSL *)BIO_get_callback_arg(bio)) == NULL)
return rc;
if ((c = (conn_rec *)SSL_get_app_data(ssl)) == NULL)
return rc;
s = mySrvFromConn(c);
if ( cmd == (BIO_CB_WRITE|BIO_CB_RETURN)
|| cmd == (BIO_CB_READ |BIO_CB_RETURN) ) {
if (rc >= 0) {
ap_log_cserror(APLOG_MARK, APLOG_TRACE4, 0, c, s,
"%s: %s %ld/%d bytes %s BIO#%pp [mem: %pp] %s",
SSL_LIBRARY_NAME,
(cmd == (BIO_CB_WRITE|BIO_CB_RETURN) ? "write" : "read"),
rc, argi, (cmd == (BIO_CB_WRITE|BIO_CB_RETURN) ? "to" : "from"),
bio, argp,
(argp != NULL ? "(BIO dump follows)" : "(Oops, no memory buffer?)"));
if ((argp != NULL) && APLOG_CS_IS_LEVEL(c, s, APLOG_TRACE7))
ssl_io_data_dump(s, argp, rc);
}
else {
ap_log_cserror(APLOG_MARK, APLOG_TRACE4, 0, c, s,
"%s: I/O error, %d bytes expected to %s on BIO#%pp [mem: %pp]",
SSL_LIBRARY_NAME, argi,
(cmd == (BIO_CB_WRITE|BIO_CB_RETURN) ? "write" : "read"),
bio, argp);
}
}
return rc;
}
|