screen(2)screen(2)Namescreen - gateway packet screening facility
Syntax
#include <sys/types.h>
#include <net/gw_screen.h>
int mode;
struct screen_data sdata;
struct screen_stats sstats;
ioctl(s, SIOCSCREENON, (caddr_t)&mode);
ioctl(s, SIOCSCREEN, (caddr_t)&sdata);
ioctl(s, SIOCSCREENSTATS, (caddr_t)&sstats);
Arguments
The interface to the gateway screen facility is a set of ioctl
requests. All these requests are meant to be used on a file descriptor
created by the system call.
SIOCSCREENON
The mode parameter, passed by reference, can be or Upon com‐
pletion of the system call, the mode parameter contains the
previous value of the screen mode. Unprivileged users may
only use the request.
SIOCSCREEN
This is the most important request and is described below.
Only the super-user may make this request.
SIOCSCREENSTATS
Returns, by reference using the sstats parameter, statistics
in this structure:
struct screen_stats {
u_long ss_packets; /* total packets screened */
u_long ss_nobuffer; /* dropped, buffer was full */
u_long ss_accept; /* total accepted */
u_long ss_reject; /* total rejected */
u_long ss_badsync; /* dropped, user was out of sync */
u_long ss_stale; /* dropped, too old */
};
Description
The gateway screen facility allows a user-level process to decide which
network packets should be forwarded by the kernel (when the system is
acting as a gateway). When the screen mode is set to ``off,'' all
packets are forwarded normally; when the screen mode is set to ``on,''
all packets that would be forwarded must be approved through the use of
this facility.
Use of SIOCSCREEN
The request is used in the main loop of the user-level daemon. Each
time it is called, it returns (by reference using the sdata parameter)
a structure containing a prefix of a packet (normally containing the
packet headers) and some additional information:
struct screen_data_hdr {
short sdh_count; /* length of entire record */
short sdh_dlen; /* bytes of packet header */
u_long sdh_xid; /* transaction ID */
struct timeval sdh_arrival; /* time packet arrived */
short sdh_family; /* address family */
int sdh_action; /* disposition for packet */
#define SCREEN_ACCEPT 0x0001 /* Accept this packet */
#define SCREEN_DROP 0x0000 /* Do not accept this packet */
#define SCREEN_NOTIFY 0x0002 /* Notify sender of failure */
#define SCREEN_NONOTIFY 0x0000 /* Do not notify sender */
};
struct screen_data {
struct screen_data_hdr sd_hdr;
char sd_data[SCREEN_DATALEN]; /* sd_dlen bytes of packet header */
};
#define sd_count sd_hdr.sdh_count
#define sd_dlen sd_hdr.sdh_dlen
#define sd_xid sd_hdr.sdh_xid
#define sd_action sd_hdr.sdh_action
#define sd_arrival sd_hdr.sdh_arrival
#define sd_family sd_hdr.sdh_family
The sd_family field indicates the protocol family (for example, under
which the packet is being handled; there is no protocol-specific code
in the kernel implementation of the gateway screen. Either the sd_fam‐
ily field should be initialized to a specific family before the request
is invoked (indicating that the user process is willing to handle
requests for this family only), or it should be set to (indicating that
the user process is willing to handle all protocols).
The user-level process examines the packet headers and decides whether
or not the packet should be forwarded. It communicates this decision
to the kernel by filling in the sd_action field in the structure with
either or bit-wise ORed with the last choice causes the gateway to drop
the packet but send an error packet to the source host (if this is sup‐
ported in the protocol family). The process then passes that structure
back to the kernel in another invocation of the request. That ioctl
call then blocks until a new packet is available, at which point the
cycle repeats.
Note that two actions are being carried out through one system call,
and that each cycle starts mid-way through a system call. Thus, the
first time a daemon uses this ioctl request, it has to pass in a no-op
decision to complete the first (half) cycle. The kernel matches incom‐
ing decisions with pending packets by comparing both the transaction id
(sd_xid) field, and the user's process id (so one process cannot pro‐
vide decisions on packets presented to a different process). Decisions
must be supplied in first-in, first-out order; decisions supplied in
the wrong order may result in packets being dropped.
Return Values
If an error has occurred, a value of -1 is returned and is set to indi‐
cate the error.
Diagnostics
In addition to those error codes described for the request can also
return:
[ENOPROTOOPT] If the screen mode is set to the request is mean‐
ingless.
[EPERM] If an operation reserved for the superuser is
attempted by a non-superuser.
See Alsoscreenmode(8), screend(8), screenstat(8), ioctl(2)screen(2)