// Functions which handle hostname/address lookups and resolution
//
-// Copyright (c) 1987-2023 by the citadel.org team
+// Copyright (c) 1987-2024 by the citadel.org team
//
// This program is open source software. Use, duplication, or disclosure
// is subject to the terms of the GNU General Public License, version 3.
#include "domain.h"
#include "locate_host.h"
-/* START: some missing macros on OpenBSD 3.9 */
+// START: some missing macros on OpenBSD 3.9
#ifndef NS_CMPRSFLGS
#define NS_CMPRSFLGS 0xc0
#endif
#ifndef NS_GET16
# define NS_GET16 GETSHORT
#endif
-/* END: some missing macros on OpenBSD 3.9 */
+// END: some missing macros on OpenBSD 3.9
-/*
- * Given an open client socket, return the host name and IP address at the other end.
- * (IPv4 and IPv6 compatible)
- */
-void locate_host(char *tbuf, size_t n, char *abuf, size_t na, int client_socket)
-{
+// Given an open client socket, return the host name and IP address at the other end.
+// (IPv4 and IPv6 compatible)
+void locate_host(char *tbuf, size_t n, char *abuf, size_t na, int client_socket) {
struct sockaddr_in6 clientaddr;
unsigned int addrlen = sizeof(clientaddr);
getnameinfo((struct sockaddr *)&clientaddr, addrlen, tbuf, n, NULL, 0, 0);
getnameinfo((struct sockaddr *)&clientaddr, addrlen, abuf, na, NULL, 0, NI_NUMERICHOST);
- /* Convert IPv6-mapped IPv4 addresses back to traditional dotted quad.
- *
- * Other code here, such as the RBL check, will expect IPv4 addresses to be represented
- * as dotted-quad, even if they come in over a hybrid IPv6/IPv4 socket.
- */
+ // Convert IPv6-mapped IPv4 addresses back to traditional dotted quad.
+ //
+ // Other code here, such as the RBL check, will expect IPv4 addresses to be represented
+ // as dotted-quad, even if they come in over a hybrid IPv6/IPv4 socket.
if ( (strlen(abuf) > 7) && (!strncasecmp(abuf, "::ffff:", 7)) ) {
if (!strcmp(abuf, tbuf)) strcpy(tbuf, &tbuf[7]);
strcpy(abuf, &abuf[7]);
}
-/*
- * RBL check written by Edward S. Marshall [http://rblcheck.sourceforge.net]
- */
-#define RESULT_SIZE 4096 /* What is the longest result text we support? */
+// RBL check written by Edward S. Marshall [http://rblcheck.sourceforge.net]
+#define RESULT_SIZE 4096 // What is the longest result text we support?
int rblcheck_backend(char *domain, char *txtbuf, int txtbufsize) {
int a, b, c;
char *result = NULL;
char *p = NULL;
static int res_initted = 0;
- if (!res_initted) { /* only have to do this once */
+ if (!res_initted) { // only have to do this once
res_init();
res_initted = 1;
}
- /* Make our DNS query. */
+ // Make our DNS query.
answer = fixedans;
if (server_shutting_down) {
if (txtbuf != NULL) {
}
len = res_query(domain, C_IN, T_A, answer, PACKETSZ);
- /* Was there a problem? If so, the domain doesn't exist. */
+ // Was there a problem? If so, the domain doesn't exist.
if (len == -1) {
if (txtbuf != NULL) {
strcpy(txtbuf, "");
result = (char *) malloc(RESULT_SIZE);
result[0] = '\0';
- /* Make another DNS query for textual data; this shouldn't
- * be a performance hit, since it'll now be cached at the
- * nameserver we're using.
- */
+ // Make another DNS query for textual data; this shouldn't
+ // be a performance hit, since it'll now be cached at the
+ // nameserver we're using.
len = res_query(domain, C_IN, T_TXT, answer, PACKETSZ);
if (server_shutting_down) {
if (txtbuf != NULL) {
return (1);
}
- /* Just in case there's no TXT record... */
+ // Just in case there's no TXT record...
if (len ==(-1)) {
if (txtbuf != NULL) {
snprintf(txtbuf, txtbufsize, "Message rejected due to known spammer source IP address");
return(1);
}
- /* Skip the header and the address we queried. */
+ // Skip the header and the address we queried.
cp = answer + sizeof( HEADER );
while( *cp != '\0' ) {
a = *cp++;
cp++;
}
- /* This seems to be a bit of magic data that we need to
- * skip. I wish there were good online documentation
- * for programming for libresolv, so I'd know what I'm
- * skipping here. Anyone reading this, feel free to
- * enlighten me.
- */
+ // This seems to be a bit of magic data that we need to
+ // skip. I wish there were good online documentation
+ // for programming for libresolv, so I'd know what I'm
+ // skipping here. Anyone reading this, feel free to
+ // enlighten me.
cp += 1 + NS_INT16SZ + NS_INT32SZ;
- /* Skip the type, class and ttl. */
+ // Skip the type, class and ttl.
cp += (NS_INT16SZ * 2) + NS_INT32SZ;
- /* Get the length and end of the buffer. */
+ // Get the length and end of the buffer.
NS_GET16(c, cp);
cend = cp + c;
- /* Iterate over any multiple answers we might have. In
- * this context, it's unlikely, but anyway.
- */
+ // Iterate over any multiple answers we might have. In
+ // this context, it's unlikely, but anyway.
rp = (u_char *) result;
rend = (u_char *) result + RESULT_SIZE - 1;
while (cp < cend && rp < rend) {
long len;
len = snprintf(txtbuf, txtbufsize, "%s", result);
- /* Remove nonprintable characters */
+ // Remove nonprintable characters
for (p = txtbuf; *p != '\0'; p++) {
if (!isprint(*p)) {
memmove (p,
}
-/*
- * Check to see if the client host is on some sort of spam list (RBL)
- * If spammer, returns nonzero and places reason in 'message_to_spammer'
- */
-int rbl_check(char *cs_addr, char *message_to_spammer)
-{
+// Check to see if the client host is on some sort of spam list (RBL)
+// If spammer, returns nonzero and places reason in 'message_to_spammer'
+int rbl_check(char *cs_addr, char *message_to_spammer) {
char tbuf[256] = "";
int suffix_pos = 0;
int rbl;
rc = 0;
strcpy(message_to_spammer, "ok");
- gettimeofday(&tx_start, NULL); /* start a stopwatch for performance timing */
+ gettimeofday(&tx_start, NULL); // start a stopwatch for performance timing
if ((strchr(cs_addr, '.')) && (!strchr(cs_addr, ':'))) {
int a1, a2, a3, a4;
char workbuf[sizeof tbuf];
char *ptr;
- /* tedious code to expand and reverse an IPv6 address */
+ // tedious code to expand and reverse an IPv6 address
safestrncpy(tbuf, cs_addr, sizeof tbuf);
num_colons = haschar(tbuf, ':');
if ((num_colons < 2) || (num_colons > 7))
- goto finish_rbl; /* badly formed address */
+ goto finish_rbl; // badly formed address
- /* expand the "::" shorthand */
+ // expand the "::" shorthand
while (num_colons < 7) {
ptr = strstr(tbuf, "::");
if (!ptr)
- goto finish_rbl; /* badly formed address */
+ goto finish_rbl; // badly formed address
++ptr;
strcpy(workbuf, ptr);
++num_colons;
}
- /* expand to 32 hex characters with no colons */
+ // expand to 32 hex characters with no colons
strcpy(workbuf, tbuf);
strcpy(tbuf, "00000000000000000000000000000000");
for (i=0; i<8; ++i) {
goto finish_rbl;
}
- /* now reverse it and add dots */
+ // now reverse it and add dots
strcpy(workbuf, tbuf);
for (i=0; i<32; ++i) {
tbuf[i*2] = workbuf[31-i];
suffix_pos = 64;
}
else {
- goto finish_rbl; /* unknown address format */
+ goto finish_rbl; // unknown address format
}
- /* See if we have any RBL domains configured */
+ // See if we have any RBL domains configured
num_rbl = get_hosts(rbl_domains, "rbl");
if (num_rbl < 1)
{
goto finish_rbl;
}
- /* Try all configured RBL's */
+ // Try all configured RBL's
for (rbl=0; rbl<num_rbl; ++rbl) {
extract_token(&tbuf[suffix_pos], rbl_domains, rbl, '|', (sizeof tbuf - suffix_pos));
}
}
finish_rbl:
- /* How long did this transaction take? */
+ // How long did this transaction take?
gettimeofday(&tx_finish, NULL);
syslog(LOG_WARNING, "rbl: %s [%ld.%06ld] %s",
}
-/*
- * Convert a host name to a dotted quad address.
- * Returns zero on success or nonzero on failure.
- *
- * FIXME this is obviously not IPv6 compatible.
- */
+// Convert a host name to a dotted quad address.
+// Returns zero on success or nonzero on failure.
+//
+// FIXME this is obviously not IPv6 compatible.
int hostname_to_dotted_quad(char *addr, char *host) {
struct hostent *ch;
const char *i;