#include "bacula.h"
+static int add_address(dlist **out, IPADDR::i_type type, unsigned short defaultport, int family,
+ const char *hostname_str, const char *port_str, char **errstr);
+
+
IPADDR::IPADDR(const IPADDR &src) : type(src.type)
{
memcpy(&buf, &src.buf, sizeof(buf));
return type;
}
-unsigned short IPADDR::get_port() const
+unsigned short IPADDR::get_port_net_order() const
{
unsigned short port = 0;
if (saddr->sa_family == AF_INET) {
return port;
}
-void IPADDR::set_port(unsigned short port)
+void IPADDR::set_port_net(unsigned short port)
{
if (saddr->sa_family == AF_INET) {
saddr4->sin_port = port;
int IPADDR::get_family() const
{
return saddr->sa_family;
-}
+}
struct sockaddr *IPADDR::get_sockaddr()
{
outputbuf[0] = '\0';
#if defined(HAVE_INET_NTOP) && defined(HAVE_IPV6)
inet_ntop(saddr->sa_family, saddr->sa_family == AF_INET ?
- (void*)&(saddr4->sin_addr) : (void*)&(saddr6->sin6_addr),
- outputbuf, outlen);
+ (void*)&(saddr4->sin_addr) : (void*)&(saddr6->sin6_addr),
+ outputbuf, outlen);
#else
bstrncpy(outputbuf, inet_ntoa(saddr4->sin_addr), outlen);
#endif
const char *IPADDR::build_address_str(char *buf, int blen)
{
char tmp[1024];
- snprintf(buf, blen, "host[%s:%s:%hu] ",
+ bsnprintf(buf, blen, "host[%s:%s:%hu] ",
get_family() == AF_INET ? "ipv4" : "ipv6",
- get_address(tmp, sizeof(tmp) - 1), ntohs(get_port()));
+ get_address(tmp, sizeof(tmp) - 1), get_port_host_order());
return buf;
}
IPADDR *p;
foreach_dlist(p, addrs) {
char tmp[1024];
- int len = snprintf(work, blen, "%s", p->build_address_str(tmp, sizeof(tmp)));
+ int len = bsnprintf(work, blen, "%s", p->build_address_str(tmp, sizeof(tmp)));
if (len < 0)
- break;
+ break;
work += len;
blen -= len;
}
return ((IPADDR *)(addrs->first()))->get_address(outputbuf, outlen);
}
-int get_first_port(dlist * addrs)
+int get_first_port_net_order(dlist * addrs)
+{
+ return ((IPADDR *)(addrs->first()))->get_port_net_order();
+}
+
+int get_first_port_host_order(dlist * addrs)
{
- return ((IPADDR *)(addrs->first()))->get_port();
+ return ((IPADDR *)(addrs->first()))->get_port_host_order();
}
static int skip_to_next_not_eol(LEX * lc)
}
-void init_default_addresses(dlist ** out, int port)
+void init_default_addresses(dlist **out, int port)
{
char *errstr;
unsigned short sport = port;
}
}
-int add_address(dlist ** out, IPADDR::i_type type, unsigned short defaultport, int family,
- const char *hostname_str, const char *port_str, char **errstr)
+static int add_address(dlist **out, IPADDR::i_type type, unsigned short defaultport, int family,
+ const char *hostname_str, const char *port_str, char **errstr)
{
IPADDR *iaddr;
IPADDR *jaddr;
unsigned short port;
IPADDR::i_type intype = type;
- dlist *addrs = (dlist *) (*(out));
+ dlist *addrs = (dlist *)(*(out));
if (!addrs) {
IPADDR *tmp = 0;
- addrs = *out = new dlist(tmp, &tmp->link);
+ addrs = *out = New(dlist(tmp, &tmp->link));
}
type = (type == IPADDR::R_SINGLE_PORT
- || type == IPADDR::R_SINGLE_ADDR) ? IPADDR::R_SINGLE : type;
+ || type == IPADDR::R_SINGLE_ADDR) ? IPADDR::R_SINGLE : type;
if (type != IPADDR::R_DEFAULT) {
IPADDR *def = 0;
foreach_dlist(iaddr, addrs) {
- if (iaddr->get_type() == IPADDR::R_DEFAULT) {
- def = iaddr;
- } else if (iaddr->get_type() != type) {
- *errstr = (char *)malloc(1024);
- bsnprintf(*errstr, 1023,
+ if (iaddr->get_type() == IPADDR::R_DEFAULT) {
+ def = iaddr;
+ } else if (iaddr->get_type() != type) {
+ *errstr = (char *)malloc(1024);
+ bsnprintf(*errstr, 1023,
"the old style addresses could mixed with new style");
- return 0;
- }
+ return 0;
+ }
}
if (def) {
- addrs->remove(def);
- delete def;
+ addrs->remove(def);
+ delete def;
}
}
} else {
int pnum = atol(port_str);
if (0 < pnum && pnum < 0xffff) {
- port = htons(pnum);
+ port = htons(pnum);
} else {
struct servent *s = getservbyname(port_str, "tcp");
- if (s) {
- port = s->s_port;
- } else {
- *errstr = (char *)malloc(1024);
+ if (s) {
+ port = s->s_port;
+ } else {
+ *errstr = (char *)malloc(1024);
bsnprintf(*errstr, 1023, "can't resolve service(%s)", port_str);
- return 0;
- }
+ return 0;
+ }
}
}
if (!hostaddrs) {
*errstr = (char *)malloc(1024);
bsnprintf(*errstr, 1023, "can't resolve hostname(%s) %s", hostname_str,
- myerrstr);
+ myerrstr);
return 0;
}
if (intype == IPADDR::R_SINGLE_PORT || intype == IPADDR::R_SINGLE_ADDR) {
IPADDR *addr;
if (addrs->size()) {
- addr = (IPADDR *) addrs->first();
+ addr = (IPADDR *)addrs->first();
} else {
- addr = new IPADDR(family);
- addr->set_type(type);
- addr->set_port(defaultport);
- addr->set_addr_any();
- addrs->append(addr);
+ addr = New(IPADDR(family));
+ addr->set_type(type);
+ addr->set_port_net(defaultport);
+ addr->set_addr_any();
+ addrs->append(addr);
}
if (intype == IPADDR::R_SINGLE_PORT) {
- addr->set_port(port);
+ addr->set_port_net(port);
}
if (intype == IPADDR::R_SINGLE_ADDR) {
- addr->copy_addr((IPADDR *) (hostaddrs->first()));
+ addr->copy_addr((IPADDR *) (hostaddrs->first()));
}
} else {
foreach_dlist(iaddr, hostaddrs) {
- IPADDR *clone;
- /* for duplicates */
- foreach_dlist(jaddr, addrs) {
- if (iaddr->get_sockaddr_len() == jaddr->get_sockaddr_len() &&
- !memcmp(iaddr->get_sockaddr(), jaddr->get_sockaddr(),
- iaddr->get_sockaddr_len()))
- {
- goto skip; /* no price */
- }
- }
- clone = new IPADDR(*iaddr);
- clone->set_type(type);
- clone->set_port(port);
- addrs->append(clone);
+ IPADDR *clone;
+ /* for duplicates */
+ foreach_dlist(jaddr, addrs) {
+ if (iaddr->get_sockaddr_len() == jaddr->get_sockaddr_len() &&
+ !memcmp(iaddr->get_sockaddr(), jaddr->get_sockaddr(),
+ iaddr->get_sockaddr_len()))
+ {
+ goto skip; /* no price */
+ }
+ }
+ clone = New(IPADDR(*iaddr));
+ clone->set_type(type);
+ clone->set_port_net(port);
+ addrs->append(clone);
skip:
- continue;
+ continue;
}
}
free_addresses(hostaddrs);
char port_str[128];
int family = 0;
+
+
/*
* = { [[ip|ipv4|ipv6] = { [[addr|port] = [^ ]+[\n;]+] }]+ }
- * or my tests
- * positiv
- * = { ip = { addr = 1.2.3.4; port = 1205; } ipv4 = { addr = 1.2.3.4; port = http; } }
- * = { ip = {
- * addr = 1.2.3.4; port = 1205; }
- * ipv4 = {
- * addr = 1.2.3.4; port = http; }
- * ipv6 = {
- * addr = 1.2.3.4;
- * port = 1205;
- * }
- * ip = {
- * addr = 1.2.3.4
- * port = 1205
- * }
- * ip = {
- * addr = 1.2.3.4
- * }
- * ip = {
- * addr = 2001:220:222::2
- * }
- * ip = {
- * addr = bluedot.thun.net
- ( }
- * }
- * negativ
- * = { ip = { } }
- * = { ipv4 { addr = doof.nowaytoheavenxyz.uhu; } }
- * = { ipv4 { port = 4711 } }
+ * or my tests
+ * positiv
+ * = { ip = { addr = 1.2.3.4; port = 1205; } ipv4 = { addr = 1.2.3.4; port = http; } }
+ * = { ip = {
+ * addr = 1.2.3.4; port = 1205; }
+ * ipv4 = {
+ * addr = 1.2.3.4; port = http; }
+ * ipv6 = {
+ * addr = 1.2.3.4;
+ * port = 1205;
+ * }
+ * ip = {
+ * addr = 1.2.3.4
+ * port = 1205
+ * }
+ * ip = {
+ * addr = 1.2.3.4
+ * }
+ * ip = {
+ * addr = 2001:220:222::2
+ * }
+ * ip = {
+ * addr = bluedot.thun.net
+ ( }
+ * }
+ * negativ
+ * = { ip = { } }
+ * = { ipv4 { addr = doof.nowaytoheavenxyz.uhu; } }
+ * = { ipv4 { port = 4711 } }
*/
token = skip_to_next_not_eol(lc);
scan_err1(lc, _("Expected a string, got: %s"), lc->str);
}
if (!strcmp("ip", lc->str) || !strcmp("ipv4", lc->str)) {
- family = AF_INET;
+ family = AF_INET;
}
#ifdef HAVE_IPV6
else if (!strcmp("ipv6", lc->str)) {
- family = AF_INET6;
+ family = AF_INET6;
}
#endif
else {
exist = EMPTYLINE;
port_str[0] = hostname_str[0] = '\0';
do {
- if (token != T_IDENTIFIER) {
+ if (token != T_IDENTIFIER) {
scan_err1(lc, _("Expected a identifier [addr|port], got: %s"), lc->str);
- }
+ }
if (!strcmp("port", lc->str)) {
- next_line = PORTLINE;
- if (exist & PORTLINE) {
+ next_line = PORTLINE;
+ if (exist & PORTLINE) {
scan_err0(lc, _("Only one port per address block"));
- }
- exist |= PORTLINE;
+ }
+ exist |= PORTLINE;
} else if (!strcmp("addr", lc->str)) {
- next_line = ADDRLINE;
- if (exist & ADDRLINE) {
+ next_line = ADDRLINE;
+ if (exist & ADDRLINE) {
scan_err0(lc, _("Only one addr per address block"));
- }
- exist |= ADDRLINE;
- } else {
+ }
+ exist |= ADDRLINE;
+ } else {
scan_err1(lc, _("Expected a identifier [addr|port], got: %s"), lc->str);
- }
- token = lex_get_token(lc, T_ALL);
- if (token != T_EQUALS) {
+ }
+ token = lex_get_token(lc, T_ALL);
+ if (token != T_EQUALS) {
scan_err1(lc, _("Expected a equal =, got: %s"), lc->str);
- }
- token = lex_get_token(lc, T_ALL);
- switch (next_line) {
- case PORTLINE:
- if (!
- (token == T_UNQUOTED_STRING || token == T_NUMBER
- || token == T_IDENTIFIER)) {
+ }
+ token = lex_get_token(lc, T_ALL);
+ switch (next_line) {
+ case PORTLINE:
+ if (!
+ (token == T_UNQUOTED_STRING || token == T_NUMBER
+ || token == T_IDENTIFIER)) {
scan_err1(lc, _("Expected a number or a string, got: %s"), lc->str);
- }
- bstrncpy(port_str, lc->str, sizeof(port_str));
- break;
- case ADDRLINE:
- if (!(token == T_UNQUOTED_STRING || token == T_IDENTIFIER)) {
+ }
+ bstrncpy(port_str, lc->str, sizeof(port_str));
+ break;
+ case ADDRLINE:
+ if (!(token == T_UNQUOTED_STRING || token == T_IDENTIFIER)) {
scan_err1(lc, _("Expected a ipnumber or a hostname, got: %s"),
- lc->str);
- }
- bstrncpy(hostname_str, lc->str, sizeof(hostname_str));
- break;
- case EMPTYLINE:
+ lc->str);
+ }
+ bstrncpy(hostname_str, lc->str, sizeof(hostname_str));
+ break;
+ case EMPTYLINE:
scan_err0(lc, _("Statemachine missmatch"));
- break;
- }
- token = skip_to_next_not_eol(lc);
+ break;
+ }
+ token = skip_to_next_not_eol(lc);
} while (token == T_IDENTIFIER);
if (token != T_EOB) {
scan_err1(lc, _("Expected a end of block }, got: %s"), lc->str);
}
char *errstr;
- if (!add_address
- ((dlist **) (item->value), IPADDR::R_MULTIPLE, htons(item->default_value),
- family, hostname_str, port_str, &errstr)) {
- scan_err3(lc, _("Can't add hostname(%s) and port(%s) to addrlist (%s)"),
- hostname_str, port_str, errstr);
- free(errstr);
- }
+ if (pass == 1 && !add_address((dlist **)(item->value), IPADDR::R_MULTIPLE,
+ htons(item->default_value), family, hostname_str, port_str, &errstr)) {
+ scan_err3(lc, _("Can't add hostname(%s) and port(%s) to addrlist (%s)"),
+ hostname_str, port_str, errstr);
+ free(errstr);
+ }
token = skip_to_next_not_eol(lc);
} while ((token == T_IDENTIFIER || token == T_UNQUOTED_STRING));
if (token != T_EOB) {
void store_addresses_address(LEX * lc, RES_ITEM * item, int index, int pass)
{
+
int token = lex_get_token(lc, T_ALL);
if (!(token == T_UNQUOTED_STRING || token == T_NUMBER || token == T_IDENTIFIER)) {
scan_err1(lc, _("Expected a hostname or ipnummer, got: %s"), lc->str);
}
char *errstr;
- if (!add_address((dlist **) (item->value), IPADDR::R_SINGLE_ADDR,
- htons(item->default_value), AF_INET, lc->str, 0, &errstr)) {
+ if (pass == 1 && !add_address((dlist **) (item->value), IPADDR::R_SINGLE_ADDR,
+ htons(item->default_value), AF_INET, lc->str, 0, &errstr)) {
scan_err2(lc, _("can't add port (%s) to (%s)"), lc->str, errstr);
free(errstr);
}
scan_err1(lc, _("Expected a port nummer or string, got: %s"), lc->str);
}
char *errstr;
- if (!add_address((dlist **) (item->value), IPADDR::R_SINGLE_PORT,
- htons(item->default_value), AF_INET, 0, lc->str, &errstr)) {
+ if (pass == 1 && !add_address((dlist **)(item->value), IPADDR::R_SINGLE_PORT,
+ htons(item->default_value), AF_INET, 0, lc->str, &errstr)) {
scan_err2(lc, _("can't add port (%s) to (%s)"), lc->str, errstr);
free(errstr);
}
delete addrs;
}
+int sockaddr_get_port_net_order(const struct sockaddr *client_addr)
+{
+ /* MA BUG 6 remove ifdefs */
+ if (client_addr->sa_family == AF_INET) {
+ return ((struct sockaddr_in *)client_addr)->sin_port;
+ }
+ else {
+ return ((struct sockaddr_in6 *)client_addr)->sin6_port;
+ }
+ return -1;
+}
+
+int sockaddr_to_ascii(const struct sockaddr *sa, char *buf, int len)
+{
+#ifdef HAVE_INET_NTOP
+ /* MA Bug 5 the problem was that i mixed up sockaddr and in_addr */
+ inet_ntop(sa->sa_family,
+ sa->sa_family == AF_INET ?
+ (void*)&(((struct sockaddr_in*)sa)->sin_addr) :
+ (void*)&(((struct sockaddr_in6*)sa)->sin6_addr),
+ buf,
+ sa->sa_family == AF_INET ? sizeof(in_addr) : sizeof(in6_addr));
+#else
+ bstrncpy(buf, inet_ntoa(((struct sockaddr_in *)sa)->sin_addr), len);
+#endif
+ return 1;
+}