#include "str.h"
#include "file.h"
#include "array.h"
+#include "resources.h"
#include "rbl.h"
#define IPv4_BITS 5
};
struct rbldb_t {
- A(uint16_t) ips[1 << 16];
+ char *filename;
+ A(uint16_t) *ips;
};
ARRAY(rbldb_t)
+typedef struct rbldb_resource_t {
+ time_t mtime;
+ off_t size;
+ A(uint16_t) ips[1 << 16];
+} rbldb_resource_t;
+
+static void rbldb_resource_wipe(rbldb_resource_t *res)
+{
+ for (int i = 0 ; i < 1 << 16 ; ++i) {
+ array_wipe(res->ips[i]);
+ }
+ p_delete(&res);
+}
+
static int get_o(const char *s, const char **out)
{
int res = 0;
file_map_t map;
const char *p, *end;
uint32_t ips = 0;
+ time_t now = time(0);
if (!file_map_open(&map, file, false)) {
return NULL;
}
+ rbldb_resource_t *res = resource_get("iplist", file);
+ if (res == NULL) {
+ res = p_new(rbldb_resource_t, 1);
+ resource_set("iplist", file, res, (resource_destructor_t)rbldb_resource_wipe);
+ }
+
+ db = p_new(rbldb_t, 1);
+ db->filename = m_strdup(file);
+ db->ips = res->ips;
+ if (map.st.st_size == res->size && map.st.st_mtime == res->mtime) {
+ info("%s loaded: already up-to-date", file);
+ file_map_close(&map);
+ return db;
+ }
+ res->size = map.st.st_size;
+ res->mtime = map.st.st_mtime;
+
p = map.map;
end = map.end;
while (end > p && end[-1] != '\n') {
--end;
}
if (end != map.end) {
- warn("file %s miss a final \\n, ignoring last line",
- file);
+ warn("%s: final \\n missing, ignoring last line", file);
}
- db = p_new(rbldb_t, 1);
while (p < end) {
uint32_t ip;
if (parse_ipv4(p, &p, &ip) < 0) {
p = (char *)memchr(p, '\n', end - p) + 1;
} else {
- array_add(db->ips[ip >> 16], ip & 0xffff);
+ array_add(res->ips[ip >> 16], ip & 0xffff);
++ips;
}
}
/* Lookup may perform serveral I/O, so avoid swap.
*/
for (int i = 0 ; i < 1 << 16 ; ++i) {
- array_adjust(db->ips[i]);
- if (lock && !array_lock(db->ips[i])) {
+ array_adjust(res->ips[i]);
+ if (lock && !array_lock(res->ips[i])) {
UNIXERR("mlock");
}
- if (db->ips[i].len) {
+ if (res->ips[i].len) {
# define QSORT_TYPE uint16_t
-# define QSORT_BASE db->ips[i].data
-# define QSORT_NELT db->ips[i].len
+# define QSORT_BASE res->ips[i].data
+# define QSORT_NELT res->ips[i].len
# define QSORT_LT(a,b) *a < *b
# include "qsort.c"
}
}
- info("rbl %s loaded, %d IPs", file, ips);
+ info("%s loaded: done in %us, %u IPs", file, (uint32_t)(time(0) - now), ips);
return db;
}
static void rbldb_wipe(rbldb_t *db)
{
- for (int i = 0 ; i < 1 << 16 ; ++i) {
- array_wipe(db->ips[i]);
- }
+ resource_release("iplist", db->filename);
+ p_delete(&db->filename);
+ db->ips = NULL;
}
void rbldb_delete(rbldb_t **db)
--async->awaited;
debug("got asynchronous request result for filter %s, rbl %d, still awaiting %d answers",
- filter->name, result - array_ptr(async->results, 0), async->awaited);
+ filter->name, (int)(result - array_ptr(async->results, 0)), async->awaited);
if (async->awaited == 0) {
filter_result_t res = HTK_FAIL;
const iplist_filter_t *data = filter->data;
bool error = true;
- if (parse_ipv4(query->client_address, &end, &ip) != 0) {
+ if (parse_ipv4(query->client_address.str, &end, &ip) != 0) {
+ if (strchr(query->client_address.str, ':')) {
+ /* iplist only works on IPv4 */
+ return HTK_FAIL;
+ }
warn("invalid client address: %s, expected ipv4",
- query->client_address);
+ query->client_address.str);
return HTK_ERROR;
}
for (uint32_t i = 0 ; i < data->rbls.len ; ++i) {