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ipset_load.c
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ipset_load.c
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#include "iprange.h"
/*
* the maximum line element to read in input files
* normally the elements are IP, IP/MASK, HOSTNAME
*/
#define MAX_INPUT_ELEMENT 255
/* ----------------------------------------------------------------------------
* parse_line()
*
* it parses a single line of input
* returns
* -1 = cannot parse line
* 0 = skip line - nothing useful here
* 1 = parsed 1 ip address
* 2 = parsed 2 ip addresses
* 3 = parsed 1 hostname
*
*/
typedef enum ipset_line_type {
LINE_IS_INVALID = -1,
LINE_IS_EMPTY = 0,
LINE_HAS_1_IP = 1,
LINE_HAS_2_IPS = 2,
LINE_HAS_1_HOSTNAME = 3
} IPSET_LINE_TYPE;
static inline IPSET_LINE_TYPE parse_hostname(char *line, int lineid, char *ipstr, char *ipstr2, int len) {
char *s = line;
int i = 0;
if(ipstr2) { ; }
/* skip all spaces */
while(unlikely(*s == ' ' || *s == '\t')) s++;
while(likely(i < len && (
(*s >= '0' && *s <= '9')
|| (*s >= 'a' && *s <= 'z')
|| (*s >= 'A' && *s <= 'Z')
|| *s == '_'
|| *s == '-'
|| *s == '.'
))) ipstr[i++] = *s++;
/* terminate ipstr */
ipstr[i] = '\0';
/* skip all spaces */
while(unlikely(*s == ' ' || *s == '\t')) s++;
/* the rest is comment */
if(unlikely(*s == '#' || *s == ';')) return LINE_HAS_1_HOSTNAME;
/* if we reached the end of line */
if(likely(*s == '\r' || *s == '\n' || *s == '\0')) return LINE_HAS_1_HOSTNAME;
fprintf(stderr, "%s: Ignoring text after hostname '%s' on line %d: '%s'\n", PROG, ipstr, lineid, s);
return LINE_HAS_1_HOSTNAME;
}
static inline IPSET_LINE_TYPE parse_line(char *line, int lineid, char *ipstr, char *ipstr2, int len) {
char *s = line;
int i = 0;
/* skip all spaces */
while(unlikely(*s == ' ' || *s == '\t')) s++;
/* skip a line of comment */
if(unlikely(*s == '#' || *s == ';')) return LINE_IS_EMPTY;
/* if we reached the end of line */
if(unlikely(*s == '\r' || *s == '\n' || *s == '\0')) return LINE_IS_EMPTY;
/* get the ip address */
while(likely(i < len && ((*s >= '0' && *s <= '9') || *s == '.' || *s == '/')))
ipstr[i++] = *s++;
if(unlikely(!i)) return parse_hostname(line, lineid, ipstr, ipstr2, len);
/* terminate ipstr */
ipstr[i] = '\0';
/* skip all spaces */
while(unlikely(*s == ' ' || *s == '\t')) s++;
/* the rest is comment */
if(unlikely(*s == '#' || *s == ';')) return LINE_HAS_1_IP;
/* if we reached the end of line */
if(likely(*s == '\r' || *s == '\n' || *s == '\0')) return LINE_HAS_1_IP;
if(unlikely(*s != '-')) {
/*fprintf(stderr, "%s: Ignoring text on line %d, expected a - after %s, but found '%s'\n", PROG, lineid, ipstr, s);*/
/*return LINE_HAS_1_IP;*/
return parse_hostname(line, lineid, ipstr, ipstr2, len);
}
/* skip the - */
s++;
/* skip all spaces */
while(unlikely(*s == ' ' || *s == '\t')) s++;
/* the rest is comment */
if(unlikely(*s == '#' || *s == ';')) {
fprintf(stderr, "%s: Ignoring text on line %d, expected an ip address after -, but found '%s'\n", PROG, lineid, s);
return LINE_HAS_1_IP;
}
/* if we reached the end of line */
if(unlikely(*s == '\r' || *s == '\n' || *s == '\0')) {
fprintf(stderr, "%s: Incomplete range on line %d, expected an ip address after -, but line ended\n", PROG, lineid);
return LINE_HAS_1_IP;
}
/* get the ip 2nd address */
i = 0;
while(likely(i < len && ((*s >= '0' && *s <= '9') || *s == '.' || *s == '/')))
ipstr2[i++] = *s++;
if(unlikely(!i)) {
/*fprintf(stderr, "%s: Incomplete range on line %d, expected an ip address after -, but line ended\n", PROG, lineid); */
/*return LINE_HAS_1_IP; */
return parse_hostname(line, lineid, ipstr, ipstr2, len);
}
/* terminate ipstr */
ipstr2[i] = '\0';
/* skip all spaces */
while(unlikely(*s == ' ' || *s == '\t')) s++;
/* the rest is comment */
if(unlikely(*s == '#' || *s == ';')) return LINE_HAS_2_IPS;
/* if we reached the end of line */
if(likely(*s == '\r' || *s == '\n' || *s == '\0')) return LINE_HAS_2_IPS;
/*fprintf(stderr, "%s: Ignoring text on line %d, after the second ip address: '%s'\n", PROG, lineid, s); */
/*return LINE_HAS_2_IPS; */
return parse_hostname(line, lineid, ipstr, ipstr2, len);
}
/* ----------------------------------------------------------------------------
* hostname resolution
*/
typedef struct dnsreq {
struct dnsreq *next;
char tries;
char hostname[];
} DNSREQ;
typedef struct dnsrep {
in_addr_t ip;
struct dnsrep *next;
} DNSREP;
static DNSREQ *dns_requests;
static DNSREP *dns_replies;
static int dns_threads;
int dns_threads_max = 5;
int dns_silent;
int dns_progress;
static unsigned long dns_requests_pending;
static unsigned long dns_requests_made;
static unsigned long dns_requests_finished;
static unsigned long dns_requests_retries;
static unsigned long dns_replies_found;
static unsigned long dns_replies_failed;
static pthread_mutex_t dns_mut = PTHREAD_MUTEX_INITIALIZER;
static pthread_cond_t dns_cond = PTHREAD_COND_INITIALIZER;
static pthread_mutex_t dns_requests_mut = PTHREAD_MUTEX_INITIALIZER;
static pthread_mutex_t dns_replies_mut = PTHREAD_MUTEX_INITIALIZER;
void dns_lock_requests(void) { pthread_mutex_lock(&dns_requests_mut); }
void dns_unlock_requests(void) { pthread_mutex_unlock(&dns_requests_mut); }
void dns_lock_replies(void) { pthread_mutex_lock(&dns_replies_mut); }
void dns_unlock_replies(void) { pthread_mutex_unlock(&dns_replies_mut); }
// the threads waiting for requests
void dns_thread_wait_for_requests(void) {
pthread_mutex_lock(&dns_mut);
while(!dns_requests)
pthread_cond_wait(&dns_cond, &dns_mut);
pthread_mutex_unlock(&dns_mut);
}
// the master signals the threads for new requests
static void dns_signal_threads(void)
{
/* signal the childs we have a new request for them */
pthread_mutex_lock(&dns_mut);
pthread_cond_signal(&dns_cond);
pthread_mutex_unlock(&dns_mut);
}
static void *dns_thread_resolve(void *ptr);
/* ----------------------------------------------------------------------------
* dns_request_add()
*
* add a new DNS resolution request to the queue
*
*/
static void dns_request_add(DNSREQ *d)
{
unsigned long pending;
dns_lock_requests();
d->next = dns_requests;
dns_requests = d;
dns_requests_pending++;
dns_requests_made++;
pending = dns_requests_pending;
dns_unlock_requests();
/* do we have start a new thread? */
if(pending > (unsigned long)dns_threads && dns_threads < dns_threads_max) {
pthread_t thread;
if(unlikely(debug))
fprintf(stderr, "%s: Creating new DNS thread\n", PROG);
if(pthread_create(&thread, NULL, dns_thread_resolve, NULL)) {
fprintf(stderr, "%s: Cannot create DNS thread.\n", PROG);
return;
}
else if(pthread_detach(thread)) {
fprintf(stderr, "%s: Cannot detach DNS thread.\n", PROG);
return;
}
dns_threads++;
}
dns_signal_threads();
}
/* ----------------------------------------------------------------------------
* dns_request_done()
*
* to be called by a worker thread
* let the main thread know a DNS resolution has been completed
*
*/
static void dns_request_done(DNSREQ *d, int added)
{
dns_lock_requests();
dns_requests_pending--;
dns_requests_finished++;
if(!added) dns_replies_failed++;
else dns_replies_found += added;
dns_unlock_requests();
free(d);
}
/* ----------------------------------------------------------------------------
* dns_request_failed()
*
* to be called by a worker thread
* handle a DNS failure (mainly for retries)
*
*/
static void dns_request_failed(DNSREQ *d, int added, int gai_error)
{
switch(gai_error) {
case EAI_AGAIN: /* The name server returned a temporary failure indication. Try again later. */
if(d->tries > 0) {
if(!dns_silent)
fprintf(stderr, "%s: DNS: '%s' will be retried: %s\n", PROG, d->hostname, gai_strerror(gai_error));
d->tries--;
dns_lock_requests();
d->next = dns_requests;
dns_requests = d;
dns_requests_retries++;
dns_replies_found += added;
dns_unlock_requests();
return;
}
dns_request_done(d, added);
return;
case EAI_SYSTEM:
fprintf(stderr, "%s: DNS: '%s' system error: %s\n", PROG, d->hostname, strerror(errno));
dns_request_done(d, added);
return;
case EAI_SOCKTYPE: /* The requested socket type is not supported. */
case EAI_SERVICE: /* The requested service is not available for the requested socket type. */
case EAI_MEMORY: /* Out of memory. */
case EAI_BADFLAGS: /* hints.ai_flags contains invalid flags; or, hints.ai_flags included AI_CANONNAME and name was NULL. */
fprintf(stderr, "%s: DNS: '%s' error: %s\n", PROG, d->hostname, gai_strerror(gai_error));
dns_request_done(d, added);
return;
case EAI_NONAME: /* The node or service is not known */
case EAI_FAIL: /* The name server returned a permanent failure indication. */
case EAI_FAMILY: /* The requested address family is not supported. */
default:
if(!dns_silent)
fprintf(stderr, "%s: DNS: '%s' failed permanently: %s\n", PROG, d->hostname, gai_strerror(gai_error));
dns_request_done(d, added);
return;
}
}
/* ----------------------------------------------------------------------------
* dns_request_get()
*
* to be called by a worker thread
* get a request from the requests queue
*
*/
static DNSREQ *dns_request_get(void)
{
DNSREQ *ret = NULL;
/*
* if(unlikely(debug))
* fprintf(stderr, "%s: DNS THREAD waiting for DNS REQUEST\n", PROG);
*/
while(!ret) {
if(dns_requests) {
dns_lock_requests();
if(dns_requests) {
ret = dns_requests;
dns_requests = dns_requests->next;
ret->next = NULL;
}
dns_unlock_requests();
if(ret) continue;
}
dns_thread_wait_for_requests();
}
return ret;
}
/* ----------------------------------------------------------------------------
* dns_thread_resolve()
*
* a pthread worker to get requests and generate replies
*
*/
static void *dns_thread_resolve(void *ptr)
{
DNSREQ *d;
if(ptr) { ; }
/*
* if(unlikely(debug))
* fprintf(stderr, "%s: DNS THREAD created\n", PROG);
*/
while((d = dns_request_get())) {
int added = 0;
/*
* if(unlikely(debug))
* fprintf(stderr, "%s: DNS THREAD resolving DNS REQUEST for '%s'\n", PROG, d->hostname);
*/
int r;
struct addrinfo *result, *rp, hints;
hints.ai_family = AF_INET;
hints.ai_socktype = SOCK_DGRAM;
hints.ai_flags = 0;
hints.ai_protocol = 0;
r = getaddrinfo(d->hostname, "80", &hints, &result);
if(r != 0) {
dns_request_failed(d, 0, r);
continue;
}
for (rp = result; rp != NULL; rp = rp->ai_next) {
char host[MAX_INPUT_ELEMENT + 1] = "";
network_addr_t net;
int err = 0;
DNSREP *p;
r = getnameinfo(rp->ai_addr, rp->ai_addrlen, host, sizeof(host), NULL, 0, NI_NUMERICHOST);
if (r != 0) {
fprintf(stderr, "%s: DNS: '%s' failed to get IP string: %s\n", PROG, d->hostname, gai_strerror(r));
continue;
}
net = str2netaddr(host, &err);
if(err) {
fprintf(stderr, "%s: DNS: '%s' cannot parse the IP '%s': %s\n", PROG, d->hostname, host, gai_strerror(r));
continue;
}
p = malloc(sizeof(DNSREP));
if(!p) {
fprintf(stderr, "%s: DNS: out of memory while resolving host '%s'\n", PROG, d->hostname);
continue;
}
if(unlikely(debug)) {
char buf[IP2STR_MAX_LEN + 1];
fprintf(stderr, "%s: DNS: '%s' = %s\n", PROG, d->hostname, ip2str_r(buf, net.addr));
}
p->ip = net.addr;
dns_lock_replies();
p->next = dns_replies;
dns_replies = p;
added++;
dns_unlock_replies();
}
freeaddrinfo(result);
dns_request_done(d, added);
}
return NULL;
}
/* ----------------------------------------------------------------------------
* dns_process_replies()
*
* dequeue the resolved hostnames by adding them to the ipset
*
*/
static void dns_process_replies(ipset *ips)
{
if(!dns_replies) return;
dns_lock_replies();
while(dns_replies) {
DNSREP *p;
/*
* if(unlikely(debug))
* char buf[IP2STR_MAX_LEN + 1];
* fprintf(stderr, "%s: Got DNS REPLY '%s'\n", PROG, ip2str_r(buf, dns_replies->ip));
*/
ipset_add_ip_range(ips, dns_replies->ip, dns_replies->ip);
p = dns_replies->next;
free(dns_replies);
dns_replies = p;
}
dns_unlock_replies();
}
/* ----------------------------------------------------------------------------
* dns_request()
*
* attempt to resolv a hostname
* the result (one or more) will be appended to the ipset supplied
*
* this is asynchronous - it will just queue the request and spawn worker
* threads to do the DNS resolution.
*
* the IPs will be added to the ipset, either at the next call to this
* function, or by calling dns_done().
*
* So, to use it:
* 1. call dns_request() to request dns resolutions (any number)
* 2. call dns_done() when you finish requesting hostnames
* 3. the resolved IPs are in the ipset you supplied
*
* All ipset manipulation is done at this thread, so if control is
* outside the above 2 functions, you are free to do whatever you like
* with the ipset.
*
* Important: you cannot use dns_request() and dns_done() with more
* than 1 ipset at the same time. The resulting IPs will be multiplexed.
* When you call dns_done() on one ipset, you can proceed with the next.
*
*/
static void dns_request(ipset *ips, char *hostname)
{
DNSREQ *d;
/* dequeue if possible */
dns_process_replies(ips);
/*
* if(unlikely(debug))
* fprintf(stderr, "%s: Adding DNS REQUEST for '%s'\n", PROG, hostname);
*/
d = malloc(sizeof(DNSREQ) + strlen(hostname) + 1);
if(!d) goto cleanup;
strcpy(d->hostname, hostname);
d->tries = 20;
/* add the request to the queue */
dns_request_add(d);
return;
cleanup:
fprintf(stderr, "%s: out of memory, while trying to resolv '%s'\n", PROG, hostname);
}
/* ----------------------------------------------------------------------------
* dns_done()
*
* wait for the DNS requests made to finish.
*
*/
static void dns_done(ipset *ips)
{
unsigned long dots = 40, shown = 0, should_show = 0;
if(ips) { ; }
if(!dns_requests_made) return;
while(dns_requests_pending) {
if(unlikely(debug))
fprintf(stderr, "%s: DNS: waiting %lu DNS resolutions to finish...\n", PROG, dns_requests_pending);
else if(dns_progress) {
should_show = dots * dns_requests_finished / dns_requests_made;
for(; shown < should_show; shown++) {
if(!(shown % 10)) fprintf(stderr, "%lu%%", shown * 100 / dots);
else fprintf(stderr, ".");
}
}
dns_process_replies(ips);
if(dns_requests_pending) {
dns_signal_threads();
sleep(1);
}
}
dns_process_replies(ips);
if(unlikely(debug))
fprintf(stderr, "%s: DNS: made %lu DNS requests, failed %lu, retries: %lu, IPs got %lu, threads used %d of %d\n", PROG, dns_requests_made, dns_replies_failed, dns_requests_retries, dns_replies_found, dns_threads, dns_threads_max);
else if(dns_progress) {
for(; shown <= dots; shown++) {
if(!(shown % 10)) fprintf(stderr, "%lu%%", shown * 100 / dots);
else fprintf(stderr, ".");
}
fprintf(stderr, "\n");
}
}
/* ----------------------------------------------------------------------------
* ipset_load()
*
* loads a file and stores all entries it finds to a new ipset it creates
* if the filename is NULL, stdin is used
*
* the result is not optimized. To optimize it call ipset_optimize().
*
*/
ipset *ipset_load(const char *filename) {
FILE *fp = stdin;
int lineid = 0;
char line[MAX_LINE + 1], ipstr[MAX_INPUT_ELEMENT + 1], ipstr2[MAX_INPUT_ELEMENT + 1];
ipset *ips = ipset_create((filename && *filename)?filename:"stdin", 0);
if(unlikely(!ips)) return NULL;
if (likely(filename && *filename)) {
fp = fopen(filename, "r");
if (unlikely(!fp)) {
fprintf(stderr, "%s: %s - %s\n", PROG, filename, strerror(errno));
return NULL;
}
}
/* load it */
if(unlikely(debug)) fprintf(stderr, "%s: Loading from %s\n", PROG, ips->filename);
/* it will be removed, if the loaded ipset is not optimized on disk */
ips->flags |= IPSET_FLAG_OPTIMIZED;
if(!fgets(line, MAX_LINE, fp)) {
if(likely(fp != stdin)) fclose(fp);
return ips;
}
if(unlikely(!strcmp(line, BINARY_HEADER_V10))) {
if(ipset_load_binary_v10(fp, ips, 1)) {
fprintf(stderr, "%s: Cannot fast load %s\n", PROG, filename);
ipset_free(ips);
ips = NULL;
}
if(likely(fp != stdin)) fclose(fp);
if(unlikely(debug)) if(ips) fprintf(stderr, "%s: Binary loaded %s %s\n", PROG, (ips->flags & IPSET_FLAG_OPTIMIZED)?"optimized":"non-optimized", ips->filename);
return ips;
}
do {
lineid++;
switch(parse_line(line, lineid, ipstr, ipstr2, MAX_INPUT_ELEMENT)) {
case LINE_IS_INVALID:
/* cannot read line */
fprintf(stderr, "%s: Cannot understand line No %d from %s: %s\n", PROG, lineid, ips->filename, line);
break;
case LINE_IS_EMPTY:
/* nothing on this line */
break;
case LINE_HAS_1_IP:
/* 1 IP on this line */
if(unlikely(!ipset_add_ipstr(ips, ipstr)))
fprintf(stderr, "%s: Cannot understand line No %d from %s: %s\n", PROG, lineid, ips->filename, line);
break;
case LINE_HAS_2_IPS:
/* 2 IPs in range on this line */
{
int err = 0;
in_addr_t lo, hi;
network_addr_t netaddr1, netaddr2;
netaddr1 = str2netaddr(ipstr, &err);
if(likely(!err)) netaddr2 = str2netaddr(ipstr2, &err);
if(unlikely(err)) {
fprintf(stderr, "%s: Cannot understand line No %d from %s: %s\n", PROG, lineid, ips->filename, line);
continue;
}
lo = (netaddr1.addr < netaddr2.addr)?netaddr1.addr:netaddr2.addr;
hi = (netaddr1.broadcast > netaddr2.broadcast)?netaddr1.broadcast:netaddr2.broadcast;
ipset_add_ip_range(ips, lo, hi);
}
break;
case LINE_HAS_1_HOSTNAME:
if(unlikely(debug))
fprintf(stderr, "%s: DNS resolution for hostname '%s' from line %d of file %s.\n", PROG, ipstr, lineid, ips->filename);
/* resolve_hostname(ips, ipstr); */
dns_request(ips, ipstr);
break;
default:
fprintf(stderr, "%s: Cannot understand result code. This is an internal error.\n", PROG);
exit(1);
}
} while(likely(ips && fgets(line, MAX_LINE, fp)));
if(likely(fp != stdin)) fclose(fp);
dns_done(ips);
if(unlikely(!ips)) return NULL;
if(unlikely(debug)) fprintf(stderr, "%s: Loaded %s %s\n", PROG, (ips->flags & IPSET_FLAG_OPTIMIZED)?"optimized":"non-optimized", ips->filename);
/*
* if(unlikely(!ips->entries)) {
* free(ips);
* return NULL;
* }
*/
return ips;
}