| IPSEC_SET_POLICY(3) | Library Functions Manual | IPSEC_SET_POLICY(3) |
ipsec_dump_policy,
ipsec_get_policylen,
ipsec_set_policy —
manipulate IPsec policy specification structure from
human-readable policy string
IPsec Policy Control Library (libipsec, -lipsec)
#include
<netinet6/ipsec.h>
char *
ipsec_dump_policy(caddr_t buf,
char *delim);
int
ipsec_get_policylen(caddr_t
buf);
char *
ipsec_set_policy(char *policy,
int len);
ipsec_set_policy()
generates an IPsec policy specification structure, namely
struct sadb_x_policy and/or struct
sadb_x_ipsecrequest from a human-readable policy specification. The
policy specification must be given as a C string
policy and its length len.
ipsec_set_policy() will return a buffer with the
corresponding IPsec policy specification structure. The buffer is
dynamically allocated, and must be free(3)'d by the
caller.
You can get the length of the generated
buffer with
ipsec_get_policylen()
(i.e. for calling setsockopt(2)).
ipsec_dump_policy()
converts an IPsec policy structure into human-readable form. Therefore,
ipsec_dump_policy() can be regarded as the inverse
function to ipsec_set_policy().
buf points to an IPsec policy structure,
struct sadb_x_policy. delim is
a delimiter string, which is usually a blank character. If you set
delim to NULL, a single
whitespace is assumed. ipsec_dump_policy() returns a
pointer to a dynamically allocated string. It is the caller's responsibility
to free(3) it.
policy is formatted as either of the following:
discardin,
out, or fwd.
direction specifies in which direction the policy
needs to be applied. The non-standard direction
fwd is substituted with in
on platforms which do not support forward policies.
priority specification is used to control the placement of the policy within the SPD. The policy position is determined by a signed integer where higher priorities indicate the policy is placed closer to the beginning of the list and lower priorities indicate the policy is placed closer to the end of the list. Policies with equal priorities are added at the end of the group of such policies.
Priority can only be specified when libipsec has been compiled against kernel headers that support policy priorities (Linux >= 2.6.6). It takes one of the following formats:
low
(-1073741824), def (0), or
high (1073741824).
offset is an unsigned integer. It can be up to 1073741824 for positive offsets, and up to 1073741823 for negative offsets.
The interpretation of policy priority in these functions and the kernel DOES differ. The relationship between the two can be described as p(kernel) = 0x80000000 - p(func)
With discard policy, packets will be
dropped if they match the policy.
entrustentrust
means to consult the SPD defined by setkey(8).bypassbypass
means to bypass the IPsec processing. (the packet will be transmitted in
clear). This is for privileged sockets.ipsec request
...ipsec means
that the matching packets are subject to IPsec processing.
ipsec can be followed by one or more
request strings, which are formatted as below:
/
mode /
src -
dst [/level]ah,
esp, or ipcomp.
mode is either
transport or
tunnel.
src and dst
specifies the IPsec endpoint. src always means
the “sending node” and dst
always means the “receiving node”. Therefore, when
direction is in,
dst is this node and src
is the other node (peer). If mode is
transport, Both src
and dst can be omitted.
level must be set to one of the
following: default,
use, require, or
unique. default
means that the kernel should consult the system default policy
defined by sysctl(8), such as
net.inet.ipsec.esp_trans_deflev. See
ipsec(4) regarding the system default.
use means that a relevant SA can be used
when available, since the kernel may perform IPsec operation against
packets when possible. In this case, packets can be transmitted in
clear (when SA is not available), or encrypted (when SA is
available). require means that a relevant SA
is required, since the kernel must perform IPsec operation against
packets. unique is the same as
require, but adds the restriction that the
SA for outbound traffic is used only for this policy. You may need
the identifier in order to relate the policy and the SA when you
define the SA by manual keying. You can put the decimal number as
the identifier after unique like
unique: number.
number must be between 1 and 32767 . If the
request string is kept unambiguous,
level and slash prior to
level can be omitted. However, it is
encouraged to specify them explicitly to avoid unintended behavior.
If level is omitted, it will be interpreted as
default.
Note that there are slight differences to the specification of
setkey(8). In the specification of
setkey(8), both entrust and
bypass are not used. Refer to
setkey(8) for details.
Here are several examples (long lines are wrapped for readability):
in discard
out ipsec esp/transport//require
in ipsec ah/transport//require
out ipsec esp/tunnel/10.1.1.2-10.1.1.1/use
in ipsec ipcomp/transport//use
esp/transport//use
ipsec_set_policy() returns a pointer to
the allocated buffer with the policy specification if successful; otherwise
a NULL pointer is returned.
ipsec_get_policylen() returns a positive value
(meaning the buffer size) on success, and a negative value on errors.
ipsec_dump_policy() returns a pointer to a
dynamically allocated region on success, and NULL on
errors.
The functions first appeared in the WIDE/KAME IPv6 protocol stack kit.
| May 5, 1998 | Mac OS X 12 |