flood_socket_keepalive.c - httpd-flood - Git at Google

 /* Copyright 2001-2004 The Apache Software Foundation
  *
  * Licensed 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.
  *
  * Originally developed by Aaron Bannert and Justin Erenkrantz, eBuilt.
  */

 #include <apr.h>
 #include <apr_strings.h>

 #if APR_HAVE_STDLIB_H
 #include <stdlib.h>     /* rand/strtol */
 #endif
 #if APR_HAVE_STRING_H
 #include <string.h>
 #endif
 #include <assert.h>

 #include "config.h"
 #include "flood_net.h"
 #include "flood_net_ssl.h"
 #include "flood_socket_keepalive.h"

 #define ksock_read_socket(ksock, buf, lenaddr) \
     ksock->ssl ? ssl_read_socket(ksock->s, buf, lenaddr) : \
                  read_socket(ksock->s, buf, lenaddr)

 #define ksock_write_socket(ksock, req) \
     ksock->ssl ? ssl_write_socket(ksock->s, req) : \
                  write_socket(ksock->s, req)

 typedef struct {
     void *s;
     apr_pollfd_t *p;
     int reopen_socket; /* A boolean */
     int wantresponse;  /* A boolean */
     int ssl;           /* A boolean */
     method_e method;   /* The method of the request. */
 } keepalive_socket_t;

 /**
  * Keep-alive implementation for socket_init.
  */
 apr_status_t keepalive_socket_init(socket_t **sock, apr_pool_t *pool)
 {
     keepalive_socket_t *new_ksock;

     new_ksock = (keepalive_socket_t *)apr_palloc(pool, sizeof(keepalive_socket_t));
     if (new_ksock == NULL)
         return APR_ENOMEM;
     new_ksock->s = NULL;
     new_ksock->p = NULL;
     new_ksock->reopen_socket = 1;
     new_ksock->wantresponse = 1;
     new_ksock->ssl = 0;

     *sock = new_ksock;
     return APR_SUCCESS;
 }

 /**
  * Keep-alive implementation for begin_conn.
  */
 apr_status_t keepalive_begin_conn(socket_t *sock, request_t *req, apr_pool_t *pool)
 {
     keepalive_socket_t *ksock = (keepalive_socket_t *)sock;

     if (!ksock->reopen_socket && ksock->s) {
         apr_status_t e;
         e = check_socket(ksock->s, pool);
         if (e != APR_SUCCESS) {
             ksock->reopen_socket = 1;
         }
     }
     if (ksock->reopen_socket || ksock->s == NULL) {
         apr_status_t rv;
         if (strcasecmp(req->parsed_uri->scheme, "https") == 0) {
         /* If we don't have SSL, error out. */
 #if FLOOD_HAS_OPENSSL
             ksock->ssl = 1;
 #else
         return APR_ENOTIMPL;
 #endif
         }
         else {
             ksock->ssl = 0;
         }

         /* The return types are not identical, so it can't be a ternary
          * operation. */
         if (ksock->ssl)
             ksock->s = ssl_open_socket(pool, req, &rv);
         else
             ksock->s = open_socket(pool, req, &rv);

         if (ksock->s == NULL)
             return rv;

         ksock->reopen_socket = 0; /* we just opened it */
     }
     req->keepalive = 1;
     return APR_SUCCESS;
 }

 /**
  * Keep-alive implementation for send_req.
  */
 apr_status_t keepalive_send_req(socket_t *sock, request_t *req, apr_pool_t *pool)
 {
     keepalive_socket_t *ksock = (keepalive_socket_t *)sock;
     ksock->wantresponse = req->wantresponse;
     ksock->method = req->method;
     return ksock->ssl ? ssl_write_socket(ksock->s, req) :
                         write_socket(ksock->s, req);
 }

 static long keepalive_read_chunk_size(char *begin_chunk)
 {
     char chunk[17], *end_chunk;
     long chunk_length;

     /* FIXME: Handle chunk-extension */
     end_chunk = strstr(begin_chunk, CRLF);

     if (end_chunk && end_chunk - begin_chunk < 16)
     {
         strncpy(chunk, begin_chunk, end_chunk - begin_chunk);
         chunk[end_chunk-begin_chunk] = '\0';
         /* Chunks are base-16 */
         chunk_length = strtol(chunk, &end_chunk, 16);
         if (*end_chunk == '\0')
             return chunk_length;
     }

     return 0;
 }

 static apr_status_t keepalive_read_chunk(response_t *resp,
                                          keepalive_socket_t *sock,
                                          int chunk_length,
                                          char **bp, int bplen)
 {
     apr_status_t status = APR_SUCCESS;
     int old_length = 0;

     if (!chunk_length) {
         return status;
     }

     if (!resp->chunk || !*resp->chunk) {
         chunk_length = 0;
     }

     if (chunk_length < 0) {
         old_length = chunk_length;
         chunk_length = 0;
     }

     do {
         /* Sentinel value */
         int blen = 0;
         char *start_chunk, *end_chunk, *b;

         /* Always reset the b. */
         b = *bp;

         /* Time to read the next chunk size.  At this point,
          * we should be ready to read a CRLF followed by
          * a line that contains the next chunk size.
          */
         while (!chunk_length)
         {
             /* We are reading the next chunk and see a CRLF. */
             if (blen >= 1 && b[0] == '\r') {
                 b++;
                 blen--;
                 if (blen >= 1 && b[0] == '\n') {
                     b++;
                     blen--;
                 }
                 else {
                     old_length = -1;
                 }
             }

             /* If blen is 0, we're empty so read more data. */
             while (!blen)
             {
                 /* Reset and read as much as we can. */
                 blen = bplen;
                 b = *bp;
                 status = ksock_read_socket(sock, b, &blen);
                 if (status != APR_SUCCESS) {
                     return status;
                 }

                 /* We got caught in the middle of a chunk last time. */
                 if (old_length < 0) {
                     b -= old_length;
                     blen += old_length;
                     old_length = 0;
                 }
                 /* We are reading the next chunk and see a CRLF. */
                 if (blen >= 2 && b[0] == '\r' && b[1] == '\n') {
                     b += 2;
                     blen -= 2;
                 }
             }

             start_chunk = b;
             chunk_length = keepalive_read_chunk_size(start_chunk);

             /* last-chunk */
             if (!chunk_length)
             {
                 /* See if we already read the trailer and final CRLF */
                 end_chunk = strstr(b, CRLF CRLF);
                 if (!end_chunk)
                 {
                     /* Read as much as we can. */
                     blen = bplen;
                     b = *bp;
                     status = ksock_read_socket(sock, b, &blen);
                     if (status != APR_SUCCESS)
                         return status;
                 }

                 /* FIXME: If we add pipelining, we need to put
                  * the remainder back so that it can be read. */
                 blen -= end_chunk - b + 4;

                 return APR_SUCCESS;
             }

             /* If this fails, we're very unlikely to have read a chunk! */
             end_chunk = strstr(start_chunk, CRLF) + 2;
             blen -= end_chunk - b;

             /* Oh no, we read more than one chunk this go-around! */
             if (chunk_length <= blen) {
                 b += chunk_length + (end_chunk - b);
                 blen -= chunk_length;
                 chunk_length = 0;
             }
             else
                 chunk_length -= blen;
         }

         if (chunk_length > bplen)
             blen = bplen;
         else
             blen = chunk_length;

         status = ksock_read_socket(sock, b, &blen);

         chunk_length -= blen;
     }
     while (status == APR_SUCCESS);

     return APR_SUCCESS;
 }

 static apr_status_t keepalive_load_resp(response_t *resp,
                                         keepalive_socket_t *sock,
                                         apr_size_t remaining, apr_pool_t *pool)
 {
     /* Ugh, we want everything. */
     int currentalloc, remain, i;
     char *cp, *op, b[MAX_DOC_LENGTH];
     apr_status_t status;

     if (remaining > 0)
     {
         remain = 1;
         currentalloc = remaining + resp->rbufsize;
     }
     else
     {
         remain = 0;
         currentalloc = MAX_DOC_LENGTH + resp->rbufsize;
     }

     cp = apr_palloc(pool, currentalloc);
     memcpy(cp, resp->rbuf, resp->rbufsize);
     resp->rbuf = cp;
     cp = resp->rbuf + resp->rbufsize;

     do
     {
         if (!remain)
             i = MAX_DOC_LENGTH - 1;
         else
         {
             if (remaining > MAX_DOC_LENGTH - 1)
                 i = MAX_DOC_LENGTH - 1;
             else
                 i = remaining;
         }

         status = ksock_read_socket(sock, b, &i);
         if (resp->rbufsize + i > currentalloc)
         {
             /* You can think why this always work. */
             currentalloc *= 2;
             op = resp->rbuf;
             resp->rbuf = apr_palloc(pool, currentalloc);
             memcpy(resp->rbuf, op, cp - op);
             cp = resp->rbuf + (cp - op);
         }

         memcpy(cp, b, i);
         resp->rbufsize += i;
         cp += i;
         remaining -= i;
     }
     while (status != APR_EGENERAL && status != APR_EOF &&
            status != APR_TIMEUP && (!remain || remaining));

     return status;
 }

 /**
  * Keep-alive implementation for recv_resp.
  */
 apr_status_t keepalive_recv_resp(response_t **resp, socket_t *sock, apr_pool_t *pool)
 {
     keepalive_socket_t *ksock = (keepalive_socket_t *)sock;
     char *cl, *ecl, cls[17];
     char *current_line;
     int i;
     response_t *new_resp;
     apr_status_t status;
     long content_length = 0, chunk_length;
     const char *header;

     new_resp = apr_pcalloc(pool, sizeof(response_t));
     new_resp->rbuftype = POOL;
     new_resp->rbufsize = MAX_DOC_LENGTH - 1;
     new_resp->rbuf = apr_palloc(pool, new_resp->rbufsize);

     status = ksock_read_socket(ksock, new_resp->rbuf, &new_resp->rbufsize);

     if (status != APR_SUCCESS && status != APR_EOF) {
         return status;
     }

     /* FIXME: Assume we got the full header for now. */
     new_resp->headers = apr_table_make(pool, 25);
     current_line = new_resp->rbuf;
     do {
         char *end_of_line, *header_end, *header_key, *header_val;
         int line_length, key_length;

         end_of_line = strstr(current_line, CRLF);
         if (!end_of_line || end_of_line == current_line) {
             break;
         }
         line_length = end_of_line - current_line;

         header_end = memchr(current_line, ':', line_length);
         if (header_end) {
             key_length = header_end - current_line;

             header_key = apr_pstrmemdup(pool, current_line, key_length);
             header_val = apr_pstrmemdup(pool, current_line + key_length + 2,
                                         line_length - key_length - 2);
             apr_table_set(new_resp->headers, header_key, header_val);
         }
         current_line += line_length + sizeof(CRLF) - 1;
     }
     while((current_line - new_resp->rbuf) < new_resp->rbufsize);

     /* If this exists, we aren't keepalive anymore. */
     header = apr_table_get(new_resp->headers, "Connection");
     if (header && !strcasecmp(header, "Close")) {
         new_resp->keepalive = 0;
     }
     else {
         new_resp->keepalive = 1;
     }

     /* If we have a HEAD request, we shouldn't be receiving a body. */
     if (ksock->method == HEAD) {
         *resp = new_resp;

         return APR_SUCCESS;
     }

     header = apr_table_get(new_resp->headers, "Transfer-Encoding");
     if (header && !strcasecmp(header, "Chunked"))
     {
         new_resp->chunked = 1;
         new_resp->chunk = NULL;
         /* Find where headers ended */
         cl = current_line;

         if (cl) {
             /* Skip over the CRLF chars */
             cl += sizeof(CRLF)-1;
         }

         /* We have a partial chunk and we aren't at the end. */
         if (cl && *cl && (cl - (char*)new_resp->rbuf) < new_resp->rbufsize) {
             int remaining;

             do {
                 if (new_resp->chunk) {
                     /* If we have enough space to skip over the ending CRLF,
                      * do so. */
                     if (chunk_length + 2 <= remaining) {
                         new_resp->chunk += chunk_length + 2;
                     }
                     else {
                         /* We got more than a chunk, but not the full CRLF. */
                         chunk_length = -(remaining - chunk_length);
                         remaining = 0;
                         break;
                     }
                 }
                 else {
                     new_resp->chunk = cl;
                 }

                 if ((new_resp->chunk - (char*)new_resp->rbuf) <
                      new_resp->rbufsize && *new_resp->chunk) {
                     char *foo;
                     chunk_length = keepalive_read_chunk_size(new_resp->chunk);
                     /* Search for the beginning of the chunk. */
                     foo = strstr(new_resp->chunk, CRLF);
                     assert(foo);
                     new_resp->chunk = foo + 2;
                     remaining = new_resp->rbufsize -
                                     (int)(new_resp->chunk -
                                           (char*)new_resp->rbuf);
                 }
                 else {
                     new_resp->chunk = NULL;
                     remaining = 0;
                 }
             }
             while (remaining > chunk_length);

             chunk_length -= remaining;
         }
     }
     else
     {
         header = apr_table_get(new_resp->headers, "Content-Length");
         if (!header)
         {
             new_resp->keepalive = 0;
         }

         if (header)
         {
             cl = (char*)header;
             ecl = cl + strlen(cl);
             if (ecl && ecl - cl < 16)
             {
                 strncpy(cls, cl, ecl - cl);
                 cls[ecl-cl] = '\0';
                 content_length = strtol(cls, &ecl, 10);
                 if (*ecl != '\0')
                     new_resp->keepalive = 0;
             }
         }

         if (new_resp->keepalive)
         {
             /* Find where we ended */
             ecl = current_line;

             /* We didn't get full headers.  Crap. */
             if (!ecl)
                 new_resp->keepalive = 0;
             {
                 ecl += sizeof(CRLF) - 1;
                 content_length -= new_resp->rbufsize - (ecl - (char*)new_resp->rbuf);
             }
         }
     }

     if (ksock->wantresponse)
     {
         if (new_resp->keepalive)
             status = keepalive_load_resp(new_resp, ksock, content_length, pool);
         else
             status = keepalive_load_resp(new_resp, ksock, 0, pool);
     }
     else
     {
         char *b = apr_palloc(pool, MAX_DOC_LENGTH);
         if (new_resp->chunked)
         {
             status = keepalive_read_chunk(new_resp, ksock, chunk_length,
                                           &b, MAX_DOC_LENGTH - 1);
         }
         else if (new_resp->keepalive)
         {
             while (content_length && status != APR_EGENERAL &&
                    status != APR_EOF && status != APR_TIMEUP) {
                 if (content_length > MAX_DOC_LENGTH - 1)
                     i = MAX_DOC_LENGTH - 1;
                 else
                     i = content_length;

                 status = ksock_read_socket(ksock, b, &i);

                 content_length -= i;
             }
         }
         else
         {
             while (status != APR_EGENERAL && status != APR_EOF &&
                    status != APR_TIMEUP) {
                 i = MAX_DOC_LENGTH - 1;
                 status = ksock_read_socket(ksock, b, &i);
             }
         }
     }

     *resp = new_resp;

     return APR_SUCCESS;
 }

 /**
  * Keep-alive implementation for end_conn.
  */
 apr_status_t keepalive_end_conn(socket_t *sock, request_t *req, response_t *resp)
 {
     keepalive_socket_t *ksock = (keepalive_socket_t *)sock;

     if (resp->keepalive == 0) {
         ksock->ssl ? ssl_close_socket(ksock->s) : close_socket(ksock->s);
         ksock->reopen_socket = 1; /* we just closed it */
     }

     return APR_SUCCESS;
 }

 apr_status_t keepalive_socket_destroy(socket_t *sock)
 {
     return APR_SUCCESS;
 }
	/* Copyright 2001-2004 The Apache Software Foundation
	*
	* Licensed 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.
	*
	* Originally developed by Aaron Bannert and Justin Erenkrantz, eBuilt.
	*/

	#include <apr.h>
	#include <apr_strings.h>

	#if APR_HAVE_STDLIB_H
	#include <stdlib.h> /* rand/strtol */
	#endif
	#if APR_HAVE_STRING_H
	#include <string.h>
	#endif
	#include <assert.h>

	#include "config.h"
	#include "flood_net.h"
	#include "flood_net_ssl.h"
	#include "flood_socket_keepalive.h"

	#define ksock_read_socket(ksock, buf, lenaddr) \
	ksock->ssl ? ssl_read_socket(ksock->s, buf, lenaddr) : \
	read_socket(ksock->s, buf, lenaddr)

	#define ksock_write_socket(ksock, req) \
	ksock->ssl ? ssl_write_socket(ksock->s, req) : \
	write_socket(ksock->s, req)

	typedef struct {
	void *s;
	apr_pollfd_t *p;
	int reopen_socket; /* A boolean */
	int wantresponse; /* A boolean */
	int ssl; /* A boolean */
	method_e method; /* The method of the request. */
	} keepalive_socket_t;

	/**
	* Keep-alive implementation for socket_init.
	*/
	apr_status_t keepalive_socket_init(socket_t *sock, apr_pool_t pool)
	{
	keepalive_socket_t *new_ksock;

	new_ksock = (keepalive_socket_t *)apr_palloc(pool, sizeof(keepalive_socket_t));
	if (new_ksock == NULL)
	return APR_ENOMEM;
	new_ksock->s = NULL;
	new_ksock->p = NULL;
	new_ksock->reopen_socket = 1;
	new_ksock->wantresponse = 1;
	new_ksock->ssl = 0;

	*sock = new_ksock;
	return APR_SUCCESS;
	}

	/**
	* Keep-alive implementation for begin_conn.
	*/
	apr_status_t keepalive_begin_conn(socket_t sock, request_t req, apr_pool_t *pool)
	{
	keepalive_socket_t ksock = (keepalive_socket_t )sock;

	if (!ksock->reopen_socket && ksock->s) {
	apr_status_t e;
	e = check_socket(ksock->s, pool);
	if (e != APR_SUCCESS) {
	ksock->reopen_socket = 1;
	}
	}
	if (ksock->reopen_socket \|\| ksock->s == NULL) {
	apr_status_t rv;
	if (strcasecmp(req->parsed_uri->scheme, "https") == 0) {
	/* If we don't have SSL, error out. */
	#if FLOOD_HAS_OPENSSL
	ksock->ssl = 1;
	#else
	return APR_ENOTIMPL;
	#endif
	}
	else {
	ksock->ssl = 0;
	}

	/* The return types are not identical, so it can't be a ternary
	* operation. */
	if (ksock->ssl)
	ksock->s = ssl_open_socket(pool, req, &rv);
	else
	ksock->s = open_socket(pool, req, &rv);

	if (ksock->s == NULL)
	return rv;

	ksock->reopen_socket = 0; /* we just opened it */
	}
	req->keepalive = 1;
	return APR_SUCCESS;
	}

	/**
	* Keep-alive implementation for send_req.
	*/
	apr_status_t keepalive_send_req(socket_t sock, request_t req, apr_pool_t *pool)
	{
	keepalive_socket_t ksock = (keepalive_socket_t )sock;
	ksock->wantresponse = req->wantresponse;
	ksock->method = req->method;
	return ksock->ssl ? ssl_write_socket(ksock->s, req) :
	write_socket(ksock->s, req);
	}

	static long keepalive_read_chunk_size(char *begin_chunk)
	{
	char chunk[17], *end_chunk;
	long chunk_length;

	/* FIXME: Handle chunk-extension */
	end_chunk = strstr(begin_chunk, CRLF);

	if (end_chunk && end_chunk - begin_chunk < 16)
	{
	strncpy(chunk, begin_chunk, end_chunk - begin_chunk);
	chunk[end_chunk-begin_chunk] = '\0';
	/* Chunks are base-16 */
	chunk_length = strtol(chunk, &end_chunk, 16);
	if (*end_chunk == '\0')
	return chunk_length;
	}

	return 0;
	}

	static apr_status_t keepalive_read_chunk(response_t *resp,
	keepalive_socket_t *sock,
	int chunk_length,
	char **bp, int bplen)
	{
	apr_status_t status = APR_SUCCESS;
	int old_length = 0;

	if (!chunk_length) {
	return status;
	}

	if (!resp->chunk \|\| !*resp->chunk) {
	chunk_length = 0;
	}

	if (chunk_length < 0) {
	old_length = chunk_length;
	chunk_length = 0;
	}

	do {
	/* Sentinel value */
	int blen = 0;
	char start_chunk, end_chunk, *b;

	/* Always reset the b. */
	b = *bp;

	/* Time to read the next chunk size. At this point,
	* we should be ready to read a CRLF followed by
	* a line that contains the next chunk size.
	*/
	while (!chunk_length)
	{
	/* We are reading the next chunk and see a CRLF. */
	if (blen >= 1 && b[0] == '\r') {
	b++;
	blen--;
	if (blen >= 1 && b[0] == '\n') {
	b++;
	blen--;
	}
	else {
	old_length = -1;
	}
	}

	/* If blen is 0, we're empty so read more data. */
	while (!blen)
	{
	/* Reset and read as much as we can. */
	blen = bplen;
	b = *bp;
	status = ksock_read_socket(sock, b, &blen);
	if (status != APR_SUCCESS) {
	return status;
	}

	/* We got caught in the middle of a chunk last time. */
	if (old_length < 0) {
	b -= old_length;
	blen += old_length;
	old_length = 0;
	}
	/* We are reading the next chunk and see a CRLF. */
	if (blen >= 2 && b[0] == '\r' && b[1] == '\n') {
	b += 2;
	blen -= 2;
	}
	}

	start_chunk = b;
	chunk_length = keepalive_read_chunk_size(start_chunk);

	/* last-chunk */
	if (!chunk_length)
	{
	/* See if we already read the trailer and final CRLF */
	end_chunk = strstr(b, CRLF CRLF);
	if (!end_chunk)
	{
	/* Read as much as we can. */
	blen = bplen;
	b = *bp;
	status = ksock_read_socket(sock, b, &blen);
	if (status != APR_SUCCESS)
	return status;
	}

	/* FIXME: If we add pipelining, we need to put
	* the remainder back so that it can be read. */
	blen -= end_chunk - b + 4;

	return APR_SUCCESS;
	}

	/* If this fails, we're very unlikely to have read a chunk! */
	end_chunk = strstr(start_chunk, CRLF) + 2;
	blen -= end_chunk - b;

	/* Oh no, we read more than one chunk this go-around! */
	if (chunk_length <= blen) {
	b += chunk_length + (end_chunk - b);
	blen -= chunk_length;
	chunk_length = 0;
	}
	else
	chunk_length -= blen;
	}

	if (chunk_length > bplen)
	blen = bplen;
	else
	blen = chunk_length;

	status = ksock_read_socket(sock, b, &blen);

	chunk_length -= blen;
	}
	while (status == APR_SUCCESS);

	return APR_SUCCESS;
	}

	static apr_status_t keepalive_load_resp(response_t *resp,
	keepalive_socket_t *sock,
	apr_size_t remaining, apr_pool_t *pool)
	{
	/* Ugh, we want everything. */
	int currentalloc, remain, i;
	char cp, op, b[MAX_DOC_LENGTH];
	apr_status_t status;

	if (remaining > 0)
	{
	remain = 1;
	currentalloc = remaining + resp->rbufsize;
	}
	else
	{
	remain = 0;
	currentalloc = MAX_DOC_LENGTH + resp->rbufsize;
	}

	cp = apr_palloc(pool, currentalloc);
	memcpy(cp, resp->rbuf, resp->rbufsize);
	resp->rbuf = cp;
	cp = resp->rbuf + resp->rbufsize;

	do
	{
	if (!remain)
	i = MAX_DOC_LENGTH - 1;
	else
	{
	if (remaining > MAX_DOC_LENGTH - 1)
	i = MAX_DOC_LENGTH - 1;
	else
	i = remaining;
	}

	status = ksock_read_socket(sock, b, &i);
	if (resp->rbufsize + i > currentalloc)
	{
	/* You can think why this always work. */
	currentalloc *= 2;
	op = resp->rbuf;
	resp->rbuf = apr_palloc(pool, currentalloc);
	memcpy(resp->rbuf, op, cp - op);
	cp = resp->rbuf + (cp - op);
	}

	memcpy(cp, b, i);
	resp->rbufsize += i;
	cp += i;
	remaining -= i;
	}
	while (status != APR_EGENERAL && status != APR_EOF &&
	status != APR_TIMEUP && (!remain \|\| remaining));

	return status;
	}

	/**
	* Keep-alive implementation for recv_resp.
	*/
	apr_status_t keepalive_recv_resp(response_t *resp, socket_t sock, apr_pool_t *pool)
	{
	keepalive_socket_t ksock = (keepalive_socket_t )sock;
	char cl, ecl, cls[17];
	char *current_line;
	int i;
	response_t *new_resp;
	apr_status_t status;
	long content_length = 0, chunk_length;
	const char *header;

	new_resp = apr_pcalloc(pool, sizeof(response_t));
	new_resp->rbuftype = POOL;
	new_resp->rbufsize = MAX_DOC_LENGTH - 1;
	new_resp->rbuf = apr_palloc(pool, new_resp->rbufsize);

	status = ksock_read_socket(ksock, new_resp->rbuf, &new_resp->rbufsize);

	if (status != APR_SUCCESS && status != APR_EOF) {
	return status;
	}

	/* FIXME: Assume we got the full header for now. */
	new_resp->headers = apr_table_make(pool, 25);
	current_line = new_resp->rbuf;
	do {
	char end_of_line, header_end, header_key, header_val;
	int line_length, key_length;

	end_of_line = strstr(current_line, CRLF);
	if (!end_of_line \|\| end_of_line == current_line) {
	break;
	}
	line_length = end_of_line - current_line;

	header_end = memchr(current_line, ':', line_length);
	if (header_end) {
	key_length = header_end - current_line;

	header_key = apr_pstrmemdup(pool, current_line, key_length);
	header_val = apr_pstrmemdup(pool, current_line + key_length + 2,
	line_length - key_length - 2);
	apr_table_set(new_resp->headers, header_key, header_val);
	}
	current_line += line_length + sizeof(CRLF) - 1;
	}
	while((current_line - new_resp->rbuf) < new_resp->rbufsize);

	/* If this exists, we aren't keepalive anymore. */
	header = apr_table_get(new_resp->headers, "Connection");
	if (header && !strcasecmp(header, "Close")) {
	new_resp->keepalive = 0;
	}
	else {
	new_resp->keepalive = 1;
	}

	/* If we have a HEAD request, we shouldn't be receiving a body. */
	if (ksock->method == HEAD) {
	*resp = new_resp;

	return APR_SUCCESS;
	}

	header = apr_table_get(new_resp->headers, "Transfer-Encoding");
	if (header && !strcasecmp(header, "Chunked"))
	{
	new_resp->chunked = 1;
	new_resp->chunk = NULL;
	/* Find where headers ended */
	cl = current_line;

	if (cl) {
	/* Skip over the CRLF chars */
	cl += sizeof(CRLF)-1;
	}

	/* We have a partial chunk and we aren't at the end. */
	if (cl && cl && (cl - (char)new_resp->rbuf) < new_resp->rbufsize) {
	int remaining;

	do {
	if (new_resp->chunk) {
	/* If we have enough space to skip over the ending CRLF,
	* do so. */
	if (chunk_length + 2 <= remaining) {
	new_resp->chunk += chunk_length + 2;
	}
	else {
	/* We got more than a chunk, but not the full CRLF. */
	chunk_length = -(remaining - chunk_length);
	remaining = 0;
	break;
	}
	}
	else {
	new_resp->chunk = cl;
	}

	if ((new_resp->chunk - (char*)new_resp->rbuf) <
	new_resp->rbufsize && *new_resp->chunk) {
	char *foo;
	chunk_length = keepalive_read_chunk_size(new_resp->chunk);
	/* Search for the beginning of the chunk. */
	foo = strstr(new_resp->chunk, CRLF);
	assert(foo);
	new_resp->chunk = foo + 2;
	remaining = new_resp->rbufsize -
	(int)(new_resp->chunk -
	(char*)new_resp->rbuf);
	}
	else {
	new_resp->chunk = NULL;
	remaining = 0;
	}
	}
	while (remaining > chunk_length);

	chunk_length -= remaining;
	}
	}
	else
	{
	header = apr_table_get(new_resp->headers, "Content-Length");
	if (!header)
	{
	new_resp->keepalive = 0;
	}

	if (header)
	{
	cl = (char*)header;
	ecl = cl + strlen(cl);
	if (ecl && ecl - cl < 16)
	{
	strncpy(cls, cl, ecl - cl);
	cls[ecl-cl] = '\0';
	content_length = strtol(cls, &ecl, 10);
	if (*ecl != '\0')
	new_resp->keepalive = 0;
	}
	}

	if (new_resp->keepalive)
	{
	/* Find where we ended */
	ecl = current_line;

	/* We didn't get full headers. Crap. */
	if (!ecl)
	new_resp->keepalive = 0;
	{
	ecl += sizeof(CRLF) - 1;
	content_length -= new_resp->rbufsize - (ecl - (char*)new_resp->rbuf);
	}
	}
	}

	if (ksock->wantresponse)
	{
	if (new_resp->keepalive)
	status = keepalive_load_resp(new_resp, ksock, content_length, pool);
	else
	status = keepalive_load_resp(new_resp, ksock, 0, pool);
	}
	else
	{
	char *b = apr_palloc(pool, MAX_DOC_LENGTH);
	if (new_resp->chunked)
	{
	status = keepalive_read_chunk(new_resp, ksock, chunk_length,
	&b, MAX_DOC_LENGTH - 1);
	}
	else if (new_resp->keepalive)
	{
	while (content_length && status != APR_EGENERAL &&
	status != APR_EOF && status != APR_TIMEUP) {
	if (content_length > MAX_DOC_LENGTH - 1)
	i = MAX_DOC_LENGTH - 1;
	else
	i = content_length;

	status = ksock_read_socket(ksock, b, &i);

	content_length -= i;
	}
	}
	else
	{
	while (status != APR_EGENERAL && status != APR_EOF &&
	status != APR_TIMEUP) {
	i = MAX_DOC_LENGTH - 1;
	status = ksock_read_socket(ksock, b, &i);
	}
	}
	}

	*resp = new_resp;

	return APR_SUCCESS;
	}

	/**
	* Keep-alive implementation for end_conn.
	*/
	apr_status_t keepalive_end_conn(socket_t sock, request_t req, response_t *resp)
	{
	keepalive_socket_t ksock = (keepalive_socket_t )sock;

	if (resp->keepalive == 0) {
	ksock->ssl ? ssl_close_socket(ksock->s) : close_socket(ksock->s);
	ksock->reopen_socket = 1; /* we just closed it */
	}

	return APR_SUCCESS;
	}

	apr_status_t keepalive_socket_destroy(socket_t *sock)
	{
	return APR_SUCCESS;
	}