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#include <string.h>
#include "base.h"
#include "buffer.h"
#include "array.h"
#include "log.h"
#include "plugin.h"
/**
* like all glue code this file contains functions which
* are the external interface of lighttpd. The functions
* are used by the server itself and the plugins.
*
* The main-goal is to have a small library in the end
* which is linked against both and which will define
* the interface itself in the end.
*
*/
/* handle global options */
/* parse config array */
int config_insert_values_internal(server *srv, array *ca, const config_values_t cv[]) {
size_t i;
data_unset *du;
for (i = 0; cv[i].key; i++) {
if (NULL == (du = array_get_element(ca, cv[i].key))) {
/* no found */
continue;
}
switch (cv[i].type) {
case T_CONFIG_ARRAY:
if (du->type == TYPE_ARRAY) {
size_t j;
data_array *da = (data_array *)du;
for (j = 0; j < da->value->used; j++) {
if (da->value->data[j]->type == TYPE_STRING) {
data_string *ds = data_string_init();
buffer_copy_string_buffer(ds->value, ((data_string *)(da->value->data[j]))->value);
if (!da->is_index_key) {
/* the id's were generated automaticly, as we copy now we might have to renumber them
* this is used to prepend server.modules by mod_indexfiles as it has to be loaded
* before mod_fastcgi and friends */
buffer_copy_string_buffer(ds->key, ((data_string *)(da->value->data[j]))->key);
}
array_insert_unique(cv[i].destination, (data_unset *)ds);
} else {
log_error_write(srv, __FILE__, __LINE__, "sssd",
"the key of and array can only be a string or a integer, variable:",
cv[i].key, "type:", da->value->data[j]->type);
return -1;
}
}
} else {
log_error_write(srv, __FILE__, __LINE__, "sss", "unexpected type for key: ", cv[i].key, "array of strings");
return -1;
}
break;
case T_CONFIG_STRING:
if (du->type == TYPE_STRING) {
data_string *ds = (data_string *)du;
buffer_copy_string_buffer(cv[i].destination, ds->value);
} else {
log_error_write(srv, __FILE__, __LINE__, "ssss", "unexpected type for key: ", cv[i].key, "(string)", "\"...\"");
return -1;
}
break;
case T_CONFIG_SHORT:
switch(du->type) {
case TYPE_INTEGER: {
data_integer *di = (data_integer *)du;
*((unsigned short *)(cv[i].destination)) = di->value;
break;
}
case TYPE_STRING: {
data_string *ds = (data_string *)du;
log_error_write(srv, __FILE__, __LINE__, "ssb", "get a string but expected a short:", cv[i].key, ds->value);
return -1;
}
default:
log_error_write(srv, __FILE__, __LINE__, "ssds", "unexpected type for key:", cv[i].key, du->type, "expected a integer, range 0 ... 65535");
return -1;
}
break;
case T_CONFIG_BOOLEAN:
if (du->type == TYPE_STRING) {
data_string *ds = (data_string *)du;
if (buffer_is_equal_string(ds->value, CONST_STR_LEN("enable"))) {
*((unsigned short *)(cv[i].destination)) = 1;
} else if (buffer_is_equal_string(ds->value, CONST_STR_LEN("disable"))) {
*((unsigned short *)(cv[i].destination)) = 0;
} else {
log_error_write(srv, __FILE__, __LINE__, "ssbs", "ERROR: unexpected value for key:", cv[i].key, ds->value, "(enable|disable)");
return -1;
}
} else {
log_error_write(srv, __FILE__, __LINE__, "ssss", "ERROR: unexpected type for key:", cv[i].key, "(string)", "\"(enable|disable)\"");
return -1;
}
break;
case T_CONFIG_LOCAL:
case T_CONFIG_UNSET:
break;
case T_CONFIG_UNSUPPORTED:
log_error_write(srv, __FILE__, __LINE__, "ssss", "ERROR: found unsupported key:", cv[i].key, "-", (char *)(cv[i].destination));
srv->config_unsupported = 1;
break;
case T_CONFIG_DEPRECATED:
log_error_write(srv, __FILE__, __LINE__, "ssss", "ERROR: found deprecated key:", cv[i].key, "-", (char *)(cv[i].destination));
srv->config_deprecated = 1;
break;
}
}
return 0;
}
int config_insert_values_global(server *srv, array *ca, const config_values_t cv[]) {
size_t i;
data_unset *du;
for (i = 0; cv[i].key; i++) {
data_string *touched;
if (NULL == (du = array_get_element(ca, cv[i].key))) {
/* no found */
continue;
}
/* touched */
touched = data_string_init();
buffer_copy_string(touched->value, "");
buffer_copy_string_buffer(touched->key, du->key);
array_insert_unique(srv->config_touched, (data_unset *)touched);
}
return config_insert_values_internal(srv, ca, cv);
}
unsigned short sock_addr_get_port(sock_addr *addr) {
#ifdef HAVE_IPV6
return ntohs(addr->plain.sa_family ? addr->ipv6.sin6_port : addr->ipv4.sin_port);
#else
return ntohs(addr->ipv4.sin_port);
#endif
}
static cond_result_t config_check_cond_cached(server *srv, connection *con, data_config *dc);
static cond_result_t config_check_cond_nocache(server *srv, connection *con, data_config *dc) {
buffer *l;
server_socket *srv_sock = con->srv_socket;
/* check parent first */
if (dc->parent && dc->parent->context_ndx) {
if (con->conf.log_condition_handling) {
log_error_write(srv, __FILE__, __LINE__, "sb", "go parent", dc->parent->key);
}
if (config_check_cond_cached(srv, con, dc->parent) == COND_RESULT_FALSE) {
return COND_RESULT_FALSE;
}
}
if (dc->prev) {
if (con->conf.log_condition_handling) {
log_error_write(srv, __FILE__, __LINE__, "sb", "go prev", dc->prev->key);
}
/* make sure prev is checked first */
config_check_cond_cached(srv, con, dc->prev);
/* one of prev set me to FALSE */
if (COND_RESULT_FALSE == con->cond_cache[dc->context_ndx].result) {
return COND_RESULT_FALSE;
}
}
/* pass the rules */
switch (dc->comp) {
case COMP_HTTP_HOST: {
char *ck_colon = NULL, *val_colon = NULL;
if (!buffer_is_empty(con->uri.authority)) {
/*
* append server-port to the HTTP_POST if necessary
*/
l = con->uri.authority;
switch(dc->cond) {
case CONFIG_COND_NE:
case CONFIG_COND_EQ:
ck_colon = strchr(dc->string->ptr, ':');
val_colon = strchr(l->ptr, ':');
if (ck_colon == val_colon) {
/* nothing to do with it */
break;
}
if (ck_colon) {
/* condition "host:port" but client send "host" */
buffer_copy_string_buffer(srv->cond_check_buf, l);
BUFFER_APPEND_STRING_CONST(srv->cond_check_buf, ":");
buffer_append_long(srv->cond_check_buf, sock_addr_get_port(&(srv_sock->addr)));
l = srv->cond_check_buf;
} else if (!ck_colon) {
/* condition "host" but client send "host:port" */
buffer_copy_string_len(srv->cond_check_buf, l->ptr, val_colon - l->ptr);
l = srv->cond_check_buf;
}
break;
default:
break;
}
} else {
l = srv->empty_string;
}
break;
}
case COMP_HTTP_REMOTEIP: {
char *nm_slash;
/* handle remoteip limitations
*
* "10.0.0.1" is provided for all comparisions
*
* only for == and != we support
*
* "10.0.0.1/24"
*/
if ((dc->cond == CONFIG_COND_EQ ||
dc->cond == CONFIG_COND_NE) &&
(con->dst_addr.plain.sa_family == AF_INET) &&
(NULL != (nm_slash = strchr(dc->string->ptr, '/')))) {
int nm_bits;
long nm;
char *err;
struct in_addr val_inp;
if (*(nm_slash+1) == '\0') {
log_error_write(srv, __FILE__, __LINE__, "sb", "ERROR: no number after / ", dc->string);
return COND_RESULT_FALSE;
}
nm_bits = strtol(nm_slash + 1, &err, 10);
if (*err) {
log_error_write(srv, __FILE__, __LINE__, "sbs", "ERROR: non-digit found in netmask:", dc->string, *err);
return COND_RESULT_FALSE;
}
/* take IP convert to the native */
buffer_copy_string_len(srv->cond_check_buf, dc->string->ptr, nm_slash - dc->string->ptr);
#ifdef __WIN32
if (INADDR_NONE == (val_inp.s_addr = inet_addr(srv->cond_check_buf->ptr))) {
log_error_write(srv, __FILE__, __LINE__, "sb", "ERROR: ip addr is invalid:", srv->cond_check_buf);
return COND_RESULT_FALSE;
}
#else
if (0 == inet_aton(srv->cond_check_buf->ptr, &val_inp)) {
log_error_write(srv, __FILE__, __LINE__, "sb", "ERROR: ip addr is invalid:", srv->cond_check_buf);
return COND_RESULT_FALSE;
}
#endif
/* build netmask */
nm = htonl(~((1 << (32 - nm_bits)) - 1));
if ((val_inp.s_addr & nm) == (con->dst_addr.ipv4.sin_addr.s_addr & nm)) {
return (dc->cond == CONFIG_COND_EQ) ? COND_RESULT_TRUE : COND_RESULT_FALSE;
} else {
return (dc->cond == CONFIG_COND_EQ) ? COND_RESULT_FALSE : COND_RESULT_TRUE;
}
} else {
l = con->dst_addr_buf;
}
break;
}
case COMP_HTTP_URL:
l = con->uri.path;
break;
case COMP_HTTP_QUERYSTRING:
l = con->uri.query;
break;
case COMP_SERVER_SOCKET:
l = srv_sock->srv_token;
break;
case COMP_HTTP_REFERER: {
data_string *ds;
if (NULL != (ds = (data_string *)array_get_element(con->request.headers, "Referer"))) {
l = ds->value;
} else {
l = srv->empty_string;
}
break;
}
case COMP_HTTP_COOKIE: {
data_string *ds;
if (NULL != (ds = (data_string *)array_get_element(con->request.headers, "Cookie"))) {
l = ds->value;
} else {
l = srv->empty_string;
}
break;
}
case COMP_HTTP_USERAGENT: {
data_string *ds;
if (NULL != (ds = (data_string *)array_get_element(con->request.headers, "User-Agent"))) {
l = ds->value;
} else {
l = srv->empty_string;
}
break;
}
default:
return COND_RESULT_FALSE;
}
if (NULL == l) {
if (con->conf.log_condition_handling) {
log_error_write(srv, __FILE__, __LINE__, "bsbs", dc->comp_key,
"(", l, ") compare to NULL");
}
return COND_RESULT_FALSE;
}
if (con->conf.log_condition_handling) {
log_error_write(srv, __FILE__, __LINE__, "bsbsb", dc->comp_key,
"(", l, ") compare to ", dc->string);
}
switch(dc->cond) {
case CONFIG_COND_NE:
case CONFIG_COND_EQ:
if (buffer_is_equal(l, dc->string)) {
return (dc->cond == CONFIG_COND_EQ) ? COND_RESULT_TRUE : COND_RESULT_FALSE;
} else {
return (dc->cond == CONFIG_COND_EQ) ? COND_RESULT_FALSE : COND_RESULT_TRUE;
}
break;
#ifdef HAVE_PCRE_H
case CONFIG_COND_NOMATCH:
case CONFIG_COND_MATCH: {
cond_cache_t *cache = &con->cond_cache[dc->context_ndx];
int n;
#ifndef elementsof
#define elementsof(x) (sizeof(x) / sizeof(x[0]))
#endif
n = pcre_exec(dc->regex, dc->regex_study, l->ptr, l->used - 1, 0, 0,
cache->matches, elementsof(cache->matches));
cache->patterncount = n;
if (n > 0) {
cache->comp_value = l;
return (dc->cond == CONFIG_COND_MATCH) ? COND_RESULT_TRUE : COND_RESULT_FALSE;
} else {
/* cache is already cleared */
return (dc->cond == CONFIG_COND_MATCH) ? COND_RESULT_FALSE : COND_RESULT_TRUE;
}
break;
}
#endif
default:
/* no way */
break;
}
return COND_RESULT_FALSE;
}
static cond_result_t config_check_cond_cached(server *srv, connection *con, data_config *dc) {
cond_cache_t *caches = con->cond_cache;
if (COND_RESULT_UNSET == caches[dc->context_ndx].result) {
if (COND_RESULT_TRUE == (caches[dc->context_ndx].result = config_check_cond_nocache(srv, con, dc))) {
if (dc->next) {
data_config *c;
if (con->conf.log_condition_handling) {
log_error_write(srv, __FILE__, __LINE__, "s",
"setting remains of chaining to false");
}
for (c = dc->next; c; c = c->next) {
caches[c->context_ndx].result = COND_RESULT_FALSE;
}
}
}
if (con->conf.log_condition_handling) {
log_error_write(srv, __FILE__, __LINE__, "dss", dc->context_ndx,
"(uncached) result:",
caches[dc->context_ndx].result == COND_RESULT_TRUE ? "true" : "false");
}
} else {
if (con->conf.log_condition_handling) {
log_error_write(srv, __FILE__, __LINE__, "dss", dc->context_ndx,
"(cached) result:",
caches[dc->context_ndx].result == COND_RESULT_TRUE ? "true" : "false");
}
}
return caches[dc->context_ndx].result;
}
void config_cond_cache_reset(server *srv, connection *con) {
#if COND_RESULT_UNSET
size_t i;
for (i = srv->config_context->used - 1; i >= 0; i --) {
con->cond_cache[i].result = COND_RESULT_UNSET;
con->cond_cache[i].patterncount = 0;
}
#else
memset(con->cond_cache, 0, sizeof(cond_cache_t) * srv->config_context->used);
#endif
}
int config_check_cond(server *srv, connection *con, data_config *dc) {
if (con->conf.log_condition_handling) {
log_error_write(srv, __FILE__, __LINE__, "s", "=== start of condition block ===");
}
return (config_check_cond_cached(srv, con, dc) == COND_RESULT_TRUE);
}
int config_append_cond_match_buffer(connection *con, data_config *dc, buffer *buf, int n)
{
cond_cache_t *cache = &con->cond_cache[dc->context_ndx];
if (n > cache->patterncount) {
return 0;
}
n <<= 1; /* n *= 2 */
buffer_append_string_len(buf,
cache->comp_value->ptr + cache->matches[n],
cache->matches[n + 1] - cache->matches[n]);
return 1;
}
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