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|
/* $Id: reqs.c,v 1.66 2002-04-25 18:58:08 rjkaes Exp $
*
* This is where all the work in tinyproxy is actually done. Incoming
* connections have a new thread created for them. The thread then
* processes the headers from the client, the response from the server,
* and then relays the bytes between the two.
* If TUNNEL_SUPPORT is enabled, then tinyproxy will actually work
* as a simple buffering TCP tunnel. Very cool! (Robert actually uses
* this feature for a buffering NNTP tunnel.)
*
* Copyright (C) 1998 Steven Young
* Copyright (C) 1999-2002 Robert James Kaes (rjkaes@flarenet.com)
* Copyright (C) 2000 Chris Lightfoot (chris@ex-parrot.com)
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2, or (at your option) any
* later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*/
#include "tinyproxy.h"
#include "acl.h"
#include "anonymous.h"
#include "buffer.h"
#include "conns.h"
#include "filter.h"
#include "hashmap.h"
#include "log.h"
#include "regexp.h"
#include "reqs.h"
#include "sock.h"
#include "stats.h"
#include "utils.h"
#include "vector.h"
#define HTTP400ERROR "Unrecognizable request. Only HTTP is allowed."
#define HTTP500ERROR "Unable to connect to remote server."
#define HTTP503ERROR "Internal server error."
/*
* Maximum length of a HTTP line
*/
#define HTTP_LINE_LENGTH (MAXBUFFSIZE / 6)
/*
* Macro to help test if the Upstream proxy supported is compiled in and
* enabled.
*/
#ifdef UPSTREAM_SUPPORT
# define UPSTREAM_CONFIGURED() (config.upstream_name && config.upstream_port != -1)
#else
# define UPSTREAM_CONFIGURED() (0)
#endif
/*
* Macro to help test if tunnel support is compiled in, and is enabled.
*/
#ifdef TUNNEL_SUPPORT
# define TUNNEL_CONFIGURED() (config.tunnel_name && config.tunnel_port != -1)
#else
# define TUNNEL_CONFIGURED() (0)
#endif
/*
* Codify the test for the carriage return and new line characters.
*/
#define CHECK_CRLF(header, len) ((len == 1 && header[0] == '\n') || (len == 2 && header[0] == '\r' && header[1] == '\n'))
/*
* This is a global variable which stores which ports are allowed by
* the CONNECT method. It's a security thing.
*/
static vector_t ports_allowed_by_connect = NULL;
/*
* Now, this routine adds a "port" to the list. It also creates the list if
* it hasn't already by done.
*/
void
add_connect_port_allowed(int port)
{
if (!ports_allowed_by_connect) {
ports_allowed_by_connect = vector_create();
if (!ports_allowed_by_connect) {
log_message(LOG_WARNING, "Could not create a list of allowed CONNECT ports");
return;
}
}
log_message(LOG_INFO, "Adding Port [%d] to the list allowed by CONNECT", port);
vector_insert(ports_allowed_by_connect, (void **)&port, sizeof(port));
}
/*
* This routine checks to see if a port is allowed in the CONNECT method.
*
* Returns: 1 if allowed
* 0 if denied
* negative upon error
*/
static int
check_allowed_connect_ports(int port)
{
ssize_t i;
ssize_t ret;
int *data;
/*
* If the port list doesn't exist, allow everything. This might need
* to be changed in the future.
*/
if (!ports_allowed_by_connect)
return 1;
for (i = 0; i < vector_length(ports_allowed_by_connect); ++i) {
ret = vector_getentry(ports_allowed_by_connect, i, (void **)&data);
if (ret < 0)
return -1;
if (*data == port)
return 1;
}
return 0;
}
/*
* Read in the first line from the client (the request line for HTTP
* connections. The request line is allocated from the heap, but it must
* be freed in another function.
*/
static int
read_request_line(struct conn_s *connptr)
{
ssize_t len;
retry:
len = readline(connptr->client_fd, &connptr->request_line);
if (len <= 0) {
log_message(LOG_ERR,
"read_request_line: Client (file descriptor: %d) closed socket before read.",
connptr->client_fd);
return -1;
}
/*
* Strip the new line and character return from the string.
*/
if (chomp(connptr->request_line, len) == len) {
/*
* If the number of characters removed is the same as the
* length then it was a blank line. Free the buffer and
* try again (since we're looking for a request line.)
*/
safefree(connptr->request_line);
goto retry;
}
log_message(LOG_CONN, "Request (file descriptor %d): %s",
connptr->client_fd, connptr->request_line);
return 0;
}
/*
* This structure holds the information pulled from a URL request.
*/
struct request_s {
char *method;
char *protocol;
char *host;
uint16_t port;
char *path;
};
static void
free_request_struct(struct request_s *request)
{
if (!request)
return;
safefree(request->method);
safefree(request->protocol);
safefree(request->host);
safefree(request->path);
safefree(request);
}
/*
* Pull the information out of the URL line.
*/
static int
extract_http_url(const char *url, struct request_s *request)
{
request->host = safemalloc(strlen(url) + 1);
request->path = safemalloc(strlen(url) + 1);
if (!request->host || !request->path)
goto ERROR_EXIT;
if (sscanf
(url, "http://%[^:/]:%hu%s", request->host, &request->port,
request->path) == 3) ;
else if (sscanf(url, "http://%[^/]%s", request->host, request->path) == 2)
request->port = 80;
else if (sscanf(url, "http://%[^:/]:%hu", request->host, &request->port)
== 2)
strcpy(request->path, "/");
else if (sscanf(url, "http://%[^/]", request->host) == 1) {
request->port = 80;
strcpy(request->path, "/");
} else {
log_message(LOG_ERR, "extract_http_url: Can't parse URL.");
goto ERROR_EXIT;
}
return 0;
ERROR_EXIT:
if (request->host)
safefree(request->host);
if (request->path)
safefree(request->path);
return -1;
}
/*
* Extract the URL from a SSL connection.
*/
static int
extract_ssl_url(const char *url, struct request_s *request)
{
request->host = safemalloc(strlen(url) + 1);
if (!request->host)
return -1;
if (sscanf(url, "%[^:]:%hu", request->host, &request->port) == 2) ;
else if (sscanf(url, "%s", request->host) == 1)
request->port = 443;
else {
log_message(LOG_ERR, "extract_ssl_url: Can't parse URL.");
safefree(request->host);
return -1;
}
return 0;
}
/*
* Create a connection for HTTP connections.
*/
static int
establish_http_connection(struct conn_s *connptr, struct request_s *request)
{
return write_message(connptr->server_fd,
"%s %s HTTP/1.0\r\n" \
"Host: %s\r\n" \
"Connection: close\r\n",
request->method, request->path, request->host);
}
/*
* These two defines are for the SSL tunnelling.
*/
#define SSL_CONNECTION_RESPONSE "HTTP/1.0 200 Connection established"
#define PROXY_AGENT "Proxy-agent: " PACKAGE "/" VERSION
/*
* Send the appropriate response to the client to establish a SSL
* connection.
*/
static inline int
send_ssl_response(struct conn_s *connptr)
{
return write_message(connptr->client_fd,
"%s\r\n" \
"%s\r\n" \
"\r\n",
SSL_CONNECTION_RESPONSE, PROXY_AGENT);
}
/*
* Break the request line apart and figure out where to connect and
* build a new request line. Finally connect to the remote server.
*/
static struct request_s *
process_request(struct conn_s *connptr)
{
char *url;
struct request_s *request;
int ret;
size_t request_len;
/* NULL out all the fields so free's don't cause segfaults. */
request = safecalloc(1, sizeof(struct request_s));
if (!request)
return NULL;
request_len = strlen(connptr->request_line) + 1;
request->method = safemalloc(request_len);
url = safemalloc(request_len);
request->protocol = safemalloc(request_len);
if (!request->method || !url || !request->protocol) {
safefree(url);
free_request_struct(request);
return NULL;
}
ret =
sscanf(connptr->request_line, "%[^ ] %[^ ] %[^ ]",
request->method, url, request->protocol);
if (ret < 2) {
log_message(LOG_ERR,
"process_request: Bad Request on file descriptor %d",
connptr->client_fd);
indicate_http_error(connptr, 400, "Bad Request. No request found.");
safefree(url);
free_request_struct(request);
return NULL;
}
/*
* FIXME: We need to add code for the simple HTTP/0.9 style GET
* request.
*/
if (!url) {
log_message(LOG_ERR,
"process_request: Null URL on file descriptor %d",
connptr->client_fd);
indicate_http_error(connptr, 400, "Bad Request. Null URL.");
safefree(url);
free_request_struct(request);
return NULL;
}
if (strncasecmp(url, "http://", 7) == 0) {
/* Make sure the first four characters are lowercase */
memcpy(url, "http", 4);
if (extract_http_url(url, request) < 0) {
indicate_http_error(connptr, 400,
"Bad Request. Could not parse URL.");
safefree(url);
free_request_struct(request);
return NULL;
}
} else if (strcmp(request->method, "CONNECT") == 0) {
if (extract_ssl_url(url, request) < 0) {
indicate_http_error(connptr, 400,
"Bad Request. Could not parse URL.");
safefree(url);
free_request_struct(request);
return NULL;
}
/* Verify that the port in the CONNECT method is allowed */
if (check_allowed_connect_ports(request->port) <= 0) {
indicate_http_error(connptr, 403,
"CONNECT method not allowed with selected port.");
log_message(LOG_INFO, "Refused CONNECT method on port %d",
request->port);
safefree(url);
free_request_struct(request);
return NULL;
}
connptr->connect_method = TRUE;
} else {
log_message(LOG_ERR,
"process_request: Unknown URL type on file descriptor %d",
connptr->client_fd);
indicate_http_error(connptr, 400, "Bad Request. Unknown URL type.");
safefree(url);
free_request_struct(request);
return NULL;
}
safefree(url);
#ifdef FILTER_ENABLE
/*
* Filter restricted domains
*/
if (config.filter) {
if (filter_url(request->host)) {
update_stats(STAT_DENIED);
log_message(LOG_NOTICE,
"Proxying refused on filtered domain \"%s\"",
request->host);
indicate_http_error(connptr, 404,
"Connection to filtered domain is now allowed.");
free_request_struct(request);
return NULL;
}
}
#endif
/*
* Check to see if they're requesting the stat host
*/
if (config.stathost && strcmp(config.stathost, request->host) == 0) {
log_message(LOG_NOTICE, "Request for the stathost.");
connptr->show_stats = TRUE;
free_request_struct(request);
return NULL;
}
/*
* Break apart the protocol and update the connection structure.
*/
if (strncasecmp(request->protocol, "http", 4) == 0) {
memcpy(request->protocol, "HTTP", 4);
sscanf(request->protocol, "HTTP/%u.%u",
&connptr->protocol.major, &connptr->protocol.minor);
}
return request;
}
/*
* pull_client_data is used to pull across any client data (like in a
* POST) which needs to be handled before an error can be reported, or
* server headers can be processed.
* - rjkaes
*/
static int
pull_client_data(struct conn_s *connptr, unsigned long int length)
{
char *buffer;
ssize_t len;
buffer = safemalloc(min(MAXBUFFSIZE, length));
if (!buffer)
return -1;
do {
len = safe_read(connptr->client_fd, buffer,
min(MAXBUFFSIZE, length));
if (len <= 0)
goto ERROR_EXIT;
if (!connptr->error_string) {
if (safe_write(connptr->server_fd, buffer, len) < 0)
goto ERROR_EXIT;
}
length -= len;
} while (length > 0);
safefree(buffer);
return 0;
ERROR_EXIT:
safefree(buffer);
return -1;
}
#ifdef XTINYPROXY_ENABLE
/*
* Add the X-Tinyproxy header to the collection of headers being sent to
* the server.
* -rjkaes
*/
static int
add_xtinyproxy_header(struct conn_s *connptr)
{
char ipaddr[PEER_IP_LENGTH];
/*
* Don't try to send if we have an invalid server handle.
*/
if (connptr->server_fd < 0)
return 0;
return write_message(connptr->server_fd,
"X-Tinyproxy: %s\r\n",
getpeer_ip(connptr->client_fd, ipaddr));
}
#endif /* XTINYPROXY */
/*
* Take a complete header line and break it apart (into a key and the data.)
* Now insert this information into the hashmap for the connection so it
* can be retrieved and manipulated later.
*/
static inline int
add_header_to_connection(hashmap_t hashofheaders, char *header, size_t len)
{
char *sep;
/* Get rid of the new line and return at the end */
len -= chomp(header, len);
sep = strchr(header, ':');
if (!sep)
return -1;
/* Blank out colons, spaces, and tabs. */
while (*sep == ':' || *sep == ' ' || *sep == '\t')
*sep++ = '\0';
/* Calculate the new length of just the data */
len -= sep - header - 1;
return hashmap_insert(hashofheaders, header, sep, len);
}
/*
* Read all the headers from the stream
*/
static int
get_all_headers(int fd, hashmap_t hashofheaders)
{
char *header;
ssize_t len;
for (;;) {
if ((len = readline(fd, &header)) <= 0) {
safefree(header);
return -1;
}
/*
* If we received just a CR LF on a line, the headers are
* finished.
*/
if (CHECK_CRLF(header, len)) {
safefree(header);
return 0;
}
if (add_header_to_connection(hashofheaders, header, len) < 0) {
safefree(header);
return -1;
}
safefree(header);
}
}
/*
* Extract the headers to remove. These headers were listed in the Connection
* and Proxy-Connection headers.
*/
static int
remove_connection_headers(hashmap_t hashofheaders)
{
static char* headers[] = {
"connection",
"proxy-connection"
};
char *data;
char* ptr;
ssize_t len;
int i;
for (i = 0; i < (sizeof(headers) / sizeof(char *)); ++i) {
/* Look for the connection header. If it's not found, return. */
len = hashmap_entry_by_key(hashofheaders, headers[i], (void **)&data);
if (len <= 0)
return 0;
/*
* Go through the data line and replace any special characters
* with a NULL.
*/
ptr = data;
while ((ptr = strpbrk(ptr, "()<>@,;:\\\"/[]?={} \t")))
*ptr++ = '\0';
/*
* All the tokens are separated by NULLs. Now go through the
* token and remove them from the hashofheaders.
*/
ptr = data;
while (ptr < data + len) {
hashmap_remove(hashofheaders, ptr);
/* Advance ptr to the next token */
ptr += strlen(ptr) + 1;
while (*ptr == '\0')
ptr++;
}
/* Now remove the connection header it self. */
hashmap_remove(hashofheaders, headers[i]);
}
return 0;
}
/*
* If there is a Content-Length header, then return the value; otherwise, return
* a negative number.
*/
static long
get_content_length(hashmap_t hashofheaders)
{
ssize_t len;
char *data;
long content_length = -1;
len = hashmap_entry_by_key(hashofheaders, "content-length", (void **)&data);
if (len > 0)
content_length = atol(data);
return content_length;
}
/*
* Search for Via head in a hash of headers and either write a new Via header,
* or append our information to the end of an existing Via header.
*
* FIXME: Need to add code to "hide" our internal information for security
* purposes.
*/
static void
write_via_header(int fd, hashmap_t hashofheaders,
unsigned int major, unsigned int minor)
{
ssize_t len;
char hostname[128];
char *data;
gethostname(hostname, sizeof(hostname));
/*
* See if there is a "Via" header. If so, again we need to do a bit
* of processing.
*/
len = hashmap_entry_by_key(hashofheaders, "via", (void **)&data);
if (len > 0) {
write_message(fd,
"Via: %s, %hu.%hu %s (%s/%s)\r\n",
data,
major, minor,
hostname, PACKAGE, VERSION);
hashmap_remove(hashofheaders, "via");
} else {
write_message(fd,
"Via: %hu.%hu %s (%s/%s)\r\n",
major, minor,
hostname, PACKAGE, VERSION);
}
}
/*
* Number of buckets to use internally in the hashmap.
*/
#define HEADER_BUCKETS 32
/*
* Here we loop through all the headers the client is sending. If we
* are running in anonymous mode, we will _only_ send the headers listed
* (plus a few which are required for various methods).
* - rjkaes
*/
static int
process_client_headers(struct conn_s *connptr)
{
static char *skipheaders[] = {
"host",
"keep-alive",
"proxy-authenticate",
"proxy-authorization",
"te",
"trailers",
"transfer-encoding",
"upgrade"
};
int i;
hashmap_t hashofheaders;
hashmap_iter iter;
long content_length = -1;
char *data, *header;
hashofheaders = hashmap_create(HEADER_BUCKETS);
if (!hashofheaders)
return -1;
/*
* Get all the headers from the client in a big hash.
*/
if (get_all_headers(connptr->client_fd, hashofheaders) < 0) {
log_message(LOG_WARNING, "Could not retrieve all the headers from the client");
hashmap_delete(hashofheaders);
return -1;
}
/*
* Don't send headers if there's already an error, if the request was
* a stats request, or if this was a CONNECT method (unless upstream
* proxy is in use.)
*/
if (connptr->server_fd == -1 || connptr->show_stats
|| (connptr->connect_method && !UPSTREAM_CONFIGURED())) {
log_message(LOG_INFO, "Not sending client headers to remote machine");
hashmap_delete(hashofheaders);
return 0;
}
/*
* See if there is a "Content-Length" header. If so, again we need
* to do a bit of processing.
*/
content_length = get_content_length(hashofheaders);
/*
* See if there is a "Connection" header. If so, we need to do a bit
* of processing. :)
*/
remove_connection_headers(hashofheaders);
/*
* Delete the headers listed in the skipheaders list
*/
for (i = 0; i < (sizeof(skipheaders) / sizeof(char *)); i++) {
hashmap_remove(hashofheaders, skipheaders[i]);
}
/* Send, or add the Via header */
write_via_header(connptr->server_fd, hashofheaders,
connptr->protocol.major, connptr->protocol.minor);
/*
* Output all the remaining headers to the remote machine.
*/
for (iter = hashmap_first(hashofheaders);
!hashmap_is_end(hashofheaders, iter);
++iter) {
hashmap_return_entry(hashofheaders,
iter,
&data,
(void**)&header);
if (!is_anonymous_enabled() || anonymous_search(data) <= 0) {
write_message(connptr->server_fd,
"%s: %s\r\n",
data, header);
}
}
/* Free the hashofheaders since it's no longer needed */
hashmap_delete(hashofheaders);
#if defined(XTINYPROXY_ENABLE)
if (config.my_domain)
add_xtinyproxy_header(connptr);
#endif
/* Write the final "blank" line to signify the end of the headers */
safe_write(connptr->server_fd, "\r\n", 2);
/*
* Spin here pulling the data from the client.
*/
if (content_length > 0)
return pull_client_data(connptr,
(unsigned long int) content_length);
else
return 0;
}
/*
* Loop through all the headers (including the response code) from the
* server.
*/
static int
process_server_headers(struct conn_s *connptr)
{
static char *skipheaders[] = {
"keep-alive",
"proxy-authenticate",
"proxy-authorization",
"transfer-encoding",
};
char *response_line;
hashmap_t hashofheaders;
hashmap_iter iter;
char *data, *header;
ssize_t len;
int i;
/* FIXME: Remember to handle a "simple_req" type */
/* Get the response line from the remote server. */
if ((len = readline(connptr->server_fd, &response_line)) <= 0)
return -1;
hashofheaders = hashmap_create(HEADER_BUCKETS);
if (!hashofheaders) {
safefree(response_line);
return -1;
}
/*
* Get all the headers from the remote server in a big hash
*/
if (get_all_headers(connptr->server_fd, hashofheaders) < 0) {
log_message(LOG_WARNING, "Could not retrieve all the headers from the remote server.");
hashmap_delete(hashofheaders);
safefree(response_line);
return -1;
}
/* Send the saved response line first */
safe_write(connptr->client_fd, response_line, strlen(response_line));
safefree(response_line);
/*
* If there is a "Content-Length" header, retrieve the information
* from it for later use.
*/
connptr->remote_content_length = get_content_length(hashofheaders);
/*
* See if there is a connection header. If so, we need to to a bit of
* processing.
*/
remove_connection_headers(hashofheaders);
/*
* Delete the headers listed in the skipheaders list
*/
for (i = 0; i < (sizeof(skipheaders) / sizeof(char *)); i++) {
hashmap_remove(hashofheaders, skipheaders[i]);
}
/* Send, or add the Via header */
write_via_header(connptr->client_fd, hashofheaders,
connptr->protocol.major, connptr->protocol.minor);
/*
* Okay, output all the remaining headers to the client.
*/
for (iter = hashmap_first(hashofheaders);
!hashmap_is_end(hashofheaders, iter);
++iter) {
hashmap_return_entry(hashofheaders,
iter,
&data,
(void **)&header);
write_message(connptr->client_fd,
"%s: %s\r\n",
data, header);
}
hashmap_delete(hashofheaders);
/* Write the final blank line to signify the end of the headers */
safe_write(connptr->client_fd, "\r\n", 2);
return 0;
}
/*
* Switch the sockets into nonblocking mode and begin relaying the bytes
* between the two connections. We continue to use the buffering code
* since we want to be able to buffer a certain amount for slower
* connections (as this was the reason why I originally modified
* tinyproxy oh so long ago...)
* - rjkaes
*/
static void
relay_connection(struct conn_s *connptr)
{
fd_set rset, wset;
struct timeval tv;
time_t last_access;
int ret;
double tdiff;
int maxfd = max(connptr->client_fd, connptr->server_fd) + 1;
ssize_t bytes_received;
socket_nonblocking(connptr->client_fd);
socket_nonblocking(connptr->server_fd);
last_access = time(NULL);
for (;;) {
FD_ZERO(&rset);
FD_ZERO(&wset);
tv.tv_sec =
config.idletimeout - difftime(time(NULL), last_access);
tv.tv_usec = 0;
if (BUFFER_SIZE(connptr->sbuffer) > 0)
FD_SET(connptr->client_fd, &wset);
if (BUFFER_SIZE(connptr->cbuffer) > 0)
FD_SET(connptr->server_fd, &wset);
if (BUFFER_SIZE(connptr->sbuffer) < MAXBUFFSIZE)
FD_SET(connptr->server_fd, &rset);
if (BUFFER_SIZE(connptr->cbuffer) < MAXBUFFSIZE)
FD_SET(connptr->client_fd, &rset);
ret = select(maxfd, &rset, &wset, NULL, &tv);
if (ret == 0) {
tdiff = difftime(time(NULL), last_access);
if (tdiff > config.idletimeout) {
log_message(LOG_INFO,
"Idle Timeout (after select) as %g > %u.",
tdiff, config.idletimeout);
return;
} else {
continue;
}
} else if (ret < 0) {
log_message(LOG_ERR,
"relay_connection: select() error \"%s\". Closing connection (client_fd:%d, server_fd:%d)",
strerror(errno), connptr->client_fd,
connptr->server_fd);
return;
} else {
/*
* Okay, something was actually selected so mark it.
*/
last_access = time(NULL);
}
if (FD_ISSET(connptr->server_fd, &rset)) {
bytes_received = read_buffer(connptr->server_fd, connptr->sbuffer);
if (bytes_received < 0)
break;
connptr->remote_content_length -= bytes_received;
if (connptr->remote_content_length == 0)
break;
}
if (FD_ISSET(connptr->client_fd, &rset)
&& read_buffer(connptr->client_fd, connptr->cbuffer) < 0) {
break;
}
if (FD_ISSET(connptr->server_fd, &wset)
&& write_buffer(connptr->server_fd, connptr->cbuffer) < 0) {
break;
}
if (FD_ISSET(connptr->client_fd, &wset)
&& write_buffer(connptr->client_fd, connptr->sbuffer) < 0) {
break;
}
}
/*
* Here the server has closed the connection... write the
* remainder to the client and then exit.
*/
socket_blocking(connptr->client_fd);
while (BUFFER_SIZE(connptr->sbuffer) > 0) {
if (write_buffer(connptr->client_fd, connptr->sbuffer) < 0)
break;
}
/*
* Try to send any remaining data to the server if we can.
*/
socket_blocking(connptr->server_fd);
while (BUFFER_SIZE(connptr->cbuffer) > 0) {
if (write_buffer(connptr->client_fd, connptr->cbuffer) < 0)
break;
}
return;
}
#ifdef UPSTREAM_SUPPORT
/*
* Establish a connection to the upstream proxy server.
*/
static int
connect_to_upstream(struct conn_s *connptr, struct request_s *request)
{
char *combined_string;
int len;
connptr->server_fd =
opensock(config.upstream_name, config.upstream_port);
if (connptr->server_fd < 0) {
log_message(LOG_WARNING,
"Could not connect to upstream proxy.");
indicate_http_error(connptr, 404, "Unable to connect to upstream proxy.");
return -1;
}
log_message(LOG_CONN,
"Established connection to upstream proxy \"%s\" using file descriptor %d.",
config.upstream_name, connptr->server_fd);
/*
* We need to re-write the "path" part of the request so that we
* can reuse the establish_http_connection() function. It expects a
* method and path.
*/
if (connptr->connect_method) {
len = strlen(request->host) + 6;
combined_string = safemalloc(len + 1);
if (!combined_string) {
return -1;
}
snprintf(combined_string, len, "%s:%d", request->host,
request->port);
} else {
len = strlen(request->host) + strlen(request->path) + 14;
combined_string = safemalloc(len + 1);
if (!combined_string) {
return -1;
}
snprintf(combined_string, len, "http://%s:%d%s", request->host,
request->port, request->path);
}
safefree(request->path);
request->path = combined_string;
return establish_http_connection(connptr, request);
}
#endif
#ifdef TUNNEL_SUPPORT
/*
* If tunnel has been configured then redirect any connections to it.
*/
static int
connect_to_tunnel(struct conn_s *connptr)
{
char *request_buf;
size_t len;
int pos;
request_buf = safemalloc(HTTP_LINE_LENGTH);
if (request_buf) {
len = recv(connptr->client_fd, request_buf, HTTP_LINE_LENGTH - 1, MSG_PEEK);
for (pos = 0; pos < len && request_buf[pos] != '\n'; pos++)
;
request_buf[pos] = '\0';
log_message(LOG_CONN, "Request: %s", request_buf);
safefree(request_buf);
}
log_message(LOG_INFO, "Redirecting to %s:%d",
config.tunnel_name, config.tunnel_port);
connptr->server_fd =
opensock(config.tunnel_name, config.tunnel_port);
if (connptr->server_fd < 0) {
log_message(LOG_WARNING,
"Could not connect to tunnel.");
indicate_http_error(connptr, 404, "Unable to connect to tunnel.");
return -1;
}
log_message(LOG_INFO,
"Established a connection to the tunnel \"%s\" using file descriptor %d.",
config.tunnel_name, connptr->server_fd);
return 0;
}
#endif
/*
* This is the main drive for each connection. As you can tell, for the
* first few steps we are using a blocking socket. If you remember the
* older tinyproxy code, this use to be a very confusing state machine.
* Well, no more! :) The sockets are only switched into nonblocking mode
* when we start the relay portion. This makes most of the original
* tinyproxy code, which was confusing, redundant. Hail progress.
* - rjkaes
*/
void
handle_connection(int fd)
{
struct conn_s *connptr;
struct request_s *request = NULL;
char peer_ipaddr[PEER_IP_LENGTH];
char peer_string[PEER_STRING_LENGTH];
log_message(LOG_CONN, "Connect (file descriptor %d): %s [%s]",
fd,
getpeer_string(fd, peer_string),
getpeer_ip(fd, peer_ipaddr));
connptr = initialize_conn(fd);
if (!connptr) {
close(fd);
return;
}
if (check_acl(fd, peer_ipaddr, peer_string) <= 0) {
update_stats(STAT_DENIED);
indicate_http_error(connptr, 403,
"You do not have authorization for using this service.");
goto send_error;
}
if (TUNNEL_CONFIGURED()) {
if (connect_to_tunnel(connptr) < 0)
goto internal_proxy;
else
goto relay_proxy;
}
internal_proxy:
if (read_request_line(connptr) < 0) {
update_stats(STAT_BADCONN);
destroy_conn(connptr);
return;
}
request = process_request(connptr);
if (!request) {
if (!connptr->error_string && !connptr->show_stats) {
update_stats(STAT_BADCONN);
destroy_conn(connptr);
return;
}
goto send_error;
}
if (UPSTREAM_CONFIGURED()) {
if (connect_to_upstream(connptr, request) < 0)
goto send_error;
} else {
connptr->server_fd = opensock(request->host, request->port);
if (connptr->server_fd < 0) {
indicate_http_error(connptr, 500, HTTP500ERROR);
goto send_error;
}
log_message(LOG_CONN,
"Established connection to host \"%s\" using file descriptor %d.",
request->host, connptr->server_fd);
if (!connptr->connect_method)
establish_http_connection(connptr, request);
}
send_error:
free_request_struct(request);
if (process_client_headers(connptr) < 0) {
update_stats(STAT_BADCONN);
if (!connptr->error_string) {
destroy_conn(connptr);
return;
}
}
if (connptr->error_string) {
send_http_error_message(connptr);
destroy_conn(connptr);
return;
} else if (connptr->show_stats) {
showstats(connptr);
destroy_conn(connptr);
return;
}
if (!connptr->connect_method || UPSTREAM_CONFIGURED()) {
if (process_server_headers(connptr) < 0) {
update_stats(STAT_BADCONN);
destroy_conn(connptr);
return;
}
} else {
if (send_ssl_response(connptr) < 0) {
log_message(LOG_ERR,
"handle_connection: Could not send SSL greeting to client.");
update_stats(STAT_BADCONN);
destroy_conn(connptr);
return;
}
}
relay_proxy:
relay_connection(connptr);
log_message(LOG_INFO, "Closed connection between local client (fd:%d) and remote client (fd:%d)",
connptr->client_fd, connptr->server_fd);
/*
* All done... close everything and go home... :)
*/
destroy_conn(connptr);
return;
}
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