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ioctl(fd, SIOCADNAT, struct ipnat *) ioctl(fd, SIOCRMNAT, struct ipnat *)
Unlike ipf(ADMP), there is only a single list supported by the kernel NAT interface. An inactive list which can be swapped to is not currently supported.
These ioctls are implemented as being routing ioctls and thus the same rules for the various routing ioctls and the file descriptor are employed, mainly being that the fd must be that of the device associated with the module (i.e., /dev/ipl).
The strcture used with the NAT interface is described below:
typedef struct ipnat {
struct ipnat *in_next;
void *in_ifp;
u_short in_flags;
u_short in_pnext;
u_short in_port[2];
struct in_addr in_in[2];
struct in_addr in_out[2];
struct in_addr in_nextip;
int in_space;
int in_redir; /* 0 if it's a mapping, 1 if it's a hard redir
*/
char in_ifname[IFNAMSIZ];
} ipnat_t;
#define in_pmin in_port[0] /* Also holds static redir port
*/
#define in_pmax in_port[1]
#define in_nip in_nextip.s_addr
#define in_inip in_in[0].s_addr
#define in_inmsk in_in[1].s_addr
#define in_outip in_out[0].s_addr
#define in_outmsk in_out[1].s_addr
Recognised values for in_redir:
#define NAT_MAP 0 #define NAT_REDIRECT 1
Pointers to the NAT table inside the kernel, as well as to the top of the internal NAT lists constructed with the SIOCADNAT ioctls. The table itself is a hash table of size NAT_SIZE (default size is 367).
To retrieve the statistics, the SIOCGNATS ioctl must be used, with the appropriate structure passed by reference, as follows:
ioctl(fd, SIOCGNATS, struct natstat *)typedef struct natstat { u_long ns_mapped[2]; u_long ns_added; u_long ns_expire; u_long ns_inuse; nat_t ***ns_table; ipnat_t *ns_list; } natstat_t;