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#include "base.h"
#include "log.h"
#include "buffer.h"
#include "plugin.h"
#include "inet_ntop_cache.h"
#include "configfile.h"
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <assert.h>
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <netinet/in.h>
#include <errno.h>
/**
* mod_extforward.c for lighttpd, by comman.kang <at> gmail <dot> com
* extended, modified by Lionel Elie Mamane (LEM), lionel <at> mamane <dot> lu
* support chained proxies by glen@delfi.ee, #1528
*
* Config example:
*
* Trust proxy 10.0.0.232 and 10.0.0.232
* extforward.forwarder = ( "10.0.0.232" => "trust",
* "10.0.0.233" => "trust" )
*
* Trust all proxies (NOT RECOMMENDED!)
* extforward.forwarder = ( "all" => "trust")
*
* Note that "all" has precedence over specific entries,
* so "all except" setups will not work.
*
* In case you have chained proxies, you can add all their IP's to the
* config. However "all" has effect only on connecting IP, as the
* X-Forwarded-For header can not be trusted.
*
* Note: The effect of this module is variable on $HTTP["remotip"] directives and
* other module's remote ip dependent actions.
* Things done by modules before we change the remoteip or after we reset it will match on the proxy's IP.
* Things done in between these two moments will match on the real client's IP.
* The moment things are done by a module depends on in which hook it does things and within the same hook
* on whether they are before/after us in the module loading order
* (order in the server.modules directive in the config file).
*
* Tested behaviours:
*
* mod_access: Will match on the real client.
*
* mod_accesslog:
* In order to see the "real" ip address in access log ,
* you'll have to load mod_extforward after mod_accesslog.
* like this:
*
* server.modules = (
* .....
* mod_accesslog,
* mod_extforward
* )
*
* Known issues:
* seems causing segfault with mod_ssl and $HTTP{"socket"} directives
* LEM 2006.05.26: Fixed segfault $SERVER["socket"] directive. Untested with SSL.
*
* ChangeLog:
* 2005.12.19 Initial Version
* 2005.12.19 fixed conflict with conditional directives
* 2006.05.26 LEM: IPv6 support
* 2006.05.26 LEM: Fix a segfault with $SERVER["socket"] directive.
* 2006.05.26 LEM: Run at uri_raw time, as we don't need to see the URI
* In this manner, we run before mod_access and $HTTP["remoteip"] directives work!
* 2006.05.26 LEM: Clean config_cond cache of tests whose result we probably change.
*/
/* plugin config for all request/connections */
typedef struct {
array *forwarder;
array *headers;
} plugin_config;
typedef struct {
PLUGIN_DATA;
plugin_config **config_storage;
plugin_config conf;
} plugin_data;
/* context , used for restore remote ip */
typedef struct {
sock_addr saved_remote_addr;
buffer *saved_remote_addr_buf;
} handler_ctx;
static handler_ctx * handler_ctx_init(sock_addr oldaddr, buffer *oldaddr_buf) {
handler_ctx * hctx;
hctx = calloc(1, sizeof(*hctx));
hctx->saved_remote_addr = oldaddr;
hctx->saved_remote_addr_buf = oldaddr_buf;
return hctx;
}
static void handler_ctx_free(handler_ctx *hctx) {
free(hctx);
}
/* init the plugin data */
INIT_FUNC(mod_extforward_init) {
plugin_data *p;
p = calloc(1, sizeof(*p));
return p;
}
/* destroy the plugin data */
FREE_FUNC(mod_extforward_free) {
plugin_data *p = p_d;
UNUSED(srv);
if (!p) return HANDLER_GO_ON;
if (p->config_storage) {
size_t i;
for (i = 0; i < srv->config_context->used; i++) {
plugin_config *s = p->config_storage[i];
if (NULL == s) continue;
array_free(s->forwarder);
array_free(s->headers);
free(s);
}
free(p->config_storage);
}
free(p);
return HANDLER_GO_ON;
}
/* handle plugin config and check values */
SETDEFAULTS_FUNC(mod_extforward_set_defaults) {
plugin_data *p = p_d;
size_t i = 0;
config_values_t cv[] = {
{ "extforward.forwarder", NULL, T_CONFIG_ARRAY, T_CONFIG_SCOPE_CONNECTION }, /* 0 */
{ "extforward.headers", NULL, T_CONFIG_ARRAY, T_CONFIG_SCOPE_CONNECTION }, /* 1 */
{ NULL, NULL, T_CONFIG_UNSET, T_CONFIG_SCOPE_UNSET }
};
if (!p) return HANDLER_ERROR;
p->config_storage = calloc(1, srv->config_context->used * sizeof(plugin_config *));
for (i = 0; i < srv->config_context->used; i++) {
plugin_config *s;
s = calloc(1, sizeof(plugin_config));
s->forwarder = array_init();
s->headers = array_init();
cv[0].destination = s->forwarder;
cv[1].destination = s->headers;
p->config_storage[i] = s;
if (0 != config_insert_values_global(srv, ((data_config *)srv->config_context->data[i])->value, cv)) {
return HANDLER_ERROR;
}
}
return HANDLER_GO_ON;
}
#define PATCH(x) \
p->conf.x = s->x;
static int mod_extforward_patch_connection(server *srv, connection *con, plugin_data *p) {
size_t i, j;
plugin_config *s = p->config_storage[0];
PATCH(forwarder);
PATCH(headers);
/* skip the first, the global context */
for (i = 1; i < srv->config_context->used; i++) {
data_config *dc = (data_config *)srv->config_context->data[i];
s = p->config_storage[i];
/* condition didn't match */
if (!config_check_cond(srv, con, dc)) continue;
/* merge config */
for (j = 0; j < dc->value->used; j++) {
data_unset *du = dc->value->data[j];
if (buffer_is_equal_string(du->key, CONST_STR_LEN("extforward.forwarder"))) {
PATCH(forwarder);
} else if (buffer_is_equal_string(du->key, CONST_STR_LEN("extforward.headers"))) {
PATCH(headers);
}
}
}
return 0;
}
#undef PATCH
static void put_string_into_array_len(array *ary, const char *str, int len)
{
data_string *tempdata;
if (len == 0)
return;
tempdata = data_string_init();
buffer_copy_string_len(tempdata->value,str,len);
array_insert_unique(ary,(data_unset *)tempdata);
}
/*
extract a forward array from the environment
*/
static array *extract_forward_array(buffer *pbuffer)
{
array *result = array_init();
if (!buffer_string_is_empty(pbuffer)) {
char *base, *curr;
/* state variable, 0 means not in string, 1 means in string */
int in_str = 0;
for (base = pbuffer->ptr, curr = pbuffer->ptr; *curr; curr++) {
if (in_str) {
if ((*curr > '9' || *curr < '0') && *curr != '.' && *curr != ':' && (*curr < 'a' || *curr > 'f') && (*curr < 'A' || *curr > 'F')) {
/* found an separator , insert value into result array */
put_string_into_array_len(result, base, curr - base);
/* change state to not in string */
in_str = 0;
}
} else {
if ((*curr >= '0' && *curr <= '9') || *curr == ':' || (*curr >= 'a' && *curr <= 'f') || (*curr >= 'A' && *curr <= 'F')) {
/* found leading char of an IP address, move base pointer and change state */
base = curr;
in_str = 1;
}
}
}
/* if breaking out while in str, we got to the end of string, so add it */
if (in_str) {
put_string_into_array_len(result, base, curr - base);
}
}
return result;
}
#define IP_TRUSTED 1
#define IP_UNTRUSTED 0
/*
* check whether ip is trusted, return 1 for trusted , 0 for untrusted
*/
static int is_proxy_trusted(const char *ipstr, plugin_data *p)
{
data_string* allds = (data_string *)array_get_element(p->conf.forwarder, "all");
if (allds) {
if (strcasecmp(allds->value->ptr, "trust") == 0) {
return IP_TRUSTED;
} else {
return IP_UNTRUSTED;
}
}
return (data_string *)array_get_element(p->conf.forwarder, ipstr) ? IP_TRUSTED : IP_UNTRUSTED;
}
/*
* Return char *ip of last address of proxy that is not trusted.
* Do not accept "all" keyword here.
*/
static const char *last_not_in_array(array *a, plugin_data *p)
{
array *forwarder = p->conf.forwarder;
int i;
for (i = a->used - 1; i >= 0; i--) {
data_string *ds = (data_string *)a->data[i];
const char *ip = ds->value->ptr;
if (!array_get_element(forwarder, ip)) {
return ip;
}
}
return NULL;
}
#ifdef HAVE_IPV6
static void ipstr_to_sockaddr(server *srv, const char *host, sock_addr *sock) {
struct addrinfo hints, *addrlist = NULL;
int result;
memset(&hints, 0, sizeof(hints));
sock->plain.sa_family = AF_UNSPEC;
#ifndef AI_NUMERICSERV
/**
* quoting $ man getaddrinfo
*
* NOTES
* AI_ADDRCONFIG, AI_ALL, and AI_V4MAPPED are available since glibc 2.3.3.
* AI_NUMERICSERV is available since glibc 2.3.4.
*/
#define AI_NUMERICSERV 0
#endif
hints.ai_flags = AI_NUMERICHOST | AI_NUMERICSERV;
errno = 0;
result = getaddrinfo(host, NULL, &hints, &addrlist);
if (result != 0) {
log_error_write(srv, __FILE__, __LINE__, "SSSs(S)",
"could not parse ip address ", host, " because ", gai_strerror(result), strerror(errno));
} else if (addrlist == NULL) {
log_error_write(srv, __FILE__, __LINE__, "SSS",
"Problem in parsing ip address ", host, ": succeeded, but no information returned");
} else switch (addrlist->ai_family) {
case AF_INET:
memcpy(&sock->ipv4, addrlist->ai_addr, sizeof(sock->ipv4));
force_assert(AF_INET == sock->plain.sa_family);
break;
case AF_INET6:
memcpy(&sock->ipv6, addrlist->ai_addr, sizeof(sock->ipv6));
force_assert(AF_INET6 == sock->plain.sa_family);
break;
default:
log_error_write(srv, __FILE__, __LINE__, "SSS",
"Problem in parsing ip address ", host, ": succeeded, but unknown family");
}
freeaddrinfo(addrlist);
}
#endif
static void clean_cond_cache(server *srv, connection *con) {
config_cond_cache_reset_item(srv, con, COMP_HTTP_REMOTE_IP);
}
URIHANDLER_FUNC(mod_extforward_uri_handler) {
plugin_data *p = p_d;
data_string *forwarded = NULL;
#ifdef HAVE_IPV6
char b2[INET6_ADDRSTRLEN + 1];
#endif
const char *dst_addr_str = NULL;
array *forward_array = NULL;
const char *real_remote_addr = NULL;
#ifdef HAVE_IPV6
#endif
if (!con->request.headers) return HANDLER_GO_ON;
mod_extforward_patch_connection(srv, con, p);
if (con->conf.log_request_handling) {
log_error_write(srv, __FILE__, __LINE__, "s",
"-- mod_extforward_uri_handler called");
}
if (p->conf.headers->used) {
data_string *ds;
size_t k;
for(k = 0; k < p->conf.headers->used; k++) {
ds = (data_string *) p->conf.headers->data[k];
if (NULL != (forwarded = (data_string*) array_get_element(con->request.headers, ds->value->ptr))) break;
}
} else {
forwarded = (data_string *) array_get_element(con->request.headers,"X-Forwarded-For");
if (NULL == forwarded) forwarded = (data_string *) array_get_element(con->request.headers, "Forwarded-For");
}
if (NULL == forwarded) {
if (con->conf.log_request_handling) {
log_error_write(srv, __FILE__, __LINE__, "s", "no forward header found, skipping");
}
return HANDLER_GO_ON;
}
#ifdef HAVE_IPV6
dst_addr_str = inet_ntop(con->dst_addr.plain.sa_family,
con->dst_addr.plain.sa_family == AF_INET6 ?
(struct sockaddr *)&(con->dst_addr.ipv6.sin6_addr) :
(struct sockaddr *)&(con->dst_addr.ipv4.sin_addr),
b2, (sizeof b2) - 1);
#else
dst_addr_str = inet_ntoa(con->dst_addr.ipv4.sin_addr);
#endif
/* if the remote ip itself is not trusted, then do nothing */
if (IP_UNTRUSTED == is_proxy_trusted(dst_addr_str, p)) {
if (con->conf.log_request_handling) {
log_error_write(srv, __FILE__, __LINE__, "sss",
"remote address", dst_addr_str, "is NOT a trusted proxy, skipping");
}
return HANDLER_GO_ON;
}
/* build forward_array from forwarded data_string */
forward_array = extract_forward_array(forwarded->value);
real_remote_addr = last_not_in_array(forward_array, p);
if (real_remote_addr != NULL) { /* parsed */
sock_addr sock;
data_string *forwarded_proto = (data_string *)array_get_element(con->request.headers, "X-Forwarded-Proto");
if (NULL != forwarded_proto) {
if (buffer_is_equal_caseless_string(forwarded_proto->value, CONST_STR_LEN("https"))) {
buffer_copy_string_len(con->uri.scheme, CONST_STR_LEN("https"));
} else if (buffer_is_equal_caseless_string(forwarded_proto->value, CONST_STR_LEN("http"))) {
buffer_copy_string_len(con->uri.scheme, CONST_STR_LEN("http"));
}
}
if (con->conf.log_request_handling) {
log_error_write(srv, __FILE__, __LINE__, "ss", "using address:", real_remote_addr);
}
#ifdef HAVE_IPV6
ipstr_to_sockaddr(srv, real_remote_addr, &sock);
#else
sock.ipv4.sin_addr.s_addr = inet_addr(real_remote_addr);
sock.plain.sa_family = (sock.ipv4.sin_addr.s_addr == 0xFFFFFFFF) ? AF_UNSPEC : AF_INET;
#endif
if (sock.plain.sa_family != AF_UNSPEC) {
/* we found the remote address, modify current connection and save the old address */
if (con->plugin_ctx[p->id]) {
if (con->conf.log_request_handling) {
log_error_write(srv, __FILE__, __LINE__, "s",
"-- mod_extforward_uri_handler already patched this connection, resetting state");
}
handler_ctx_free(con->plugin_ctx[p->id]);
con->plugin_ctx[p->id] = NULL;
}
/* save old address */
con->plugin_ctx[p->id] = handler_ctx_init(con->dst_addr, con->dst_addr_buf);
/* patch connection address */
con->dst_addr = sock;
con->dst_addr_buf = buffer_init();
buffer_copy_string(con->dst_addr_buf, real_remote_addr);
if (con->conf.log_request_handling) {
log_error_write(srv, __FILE__, __LINE__, "ss",
"patching con->dst_addr_buf for the accesslog:", real_remote_addr);
}
/* Now, clean the conf_cond cache, because we may have changed the results of tests */
clean_cond_cache(srv, con);
}
}
array_free(forward_array);
/* not found */
return HANDLER_GO_ON;
}
CONNECTION_FUNC(mod_extforward_restore) {
plugin_data *p = p_d;
handler_ctx *hctx = con->plugin_ctx[p->id];
if (!hctx) return HANDLER_GO_ON;
con->dst_addr = hctx->saved_remote_addr;
buffer_free(con->dst_addr_buf);
con->dst_addr_buf = hctx->saved_remote_addr_buf;
handler_ctx_free(hctx);
con->plugin_ctx[p->id] = NULL;
/* Now, clean the conf_cond cache, because we may have changed the results of tests */
clean_cond_cache(srv, con);
return HANDLER_GO_ON;
}
/* this function is called at dlopen() time and inits the callbacks */
int mod_extforward_plugin_init(plugin *p);
int mod_extforward_plugin_init(plugin *p) {
p->version = LIGHTTPD_VERSION_ID;
p->name = buffer_init_string("extforward");
p->init = mod_extforward_init;
p->handle_uri_raw = mod_extforward_uri_handler;
p->handle_request_done = mod_extforward_restore;
p->connection_reset = mod_extforward_restore;
p->set_defaults = mod_extforward_set_defaults;
p->cleanup = mod_extforward_free;
p->data = NULL;
return 0;
}
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