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nexedi
babeld
Commits
09a59d51
Commit
09a59d51
authored
Jan 21, 2018
by
Juliusz Chroboczek
Committed by
Juliusz Chroboczek
Oct 23, 2018
Browse files
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Email Patches
Plain Diff
Make low-level message formatting functions take a struct buffered.
parent
024d2db6
Changes
3
Show whitespace changes
Inline
Side-by-side
Showing
3 changed files
with
130 additions
and
129 deletions
+130
-129
interface.c
interface.c
+2
-2
interface.h
interface.h
+1
-1
message.c
message.c
+127
-126
No files found.
interface.c
View file @
09a59d51
...
...
@@ -130,9 +130,9 @@ flush_interface(char *ifname)
/* This should be no more than half the hello interval, so that hellos
aren't sent late. The result is in milliseconds. */
unsigned
jitter
(
struct
interface
*
ifp
,
int
urgent
)
jitter
(
struct
buffered
*
buf
,
int
urgent
)
{
unsigned
interval
=
ifp
->
buf
.
flush_interval
;
unsigned
interval
=
buf
->
flush_interval
;
if
(
urgent
)
interval
=
MIN
(
interval
,
20
);
else
...
...
interface.h
View file @
09a59d51
...
...
@@ -143,7 +143,7 @@ if_up(struct interface *ifp)
struct
interface
*
add_interface
(
char
*
ifname
,
struct
interface_conf
*
if_conf
);
int
flush_interface
(
char
*
ifname
);
unsigned
jitter
(
struct
interface
*
ifp
,
int
urgent
);
unsigned
jitter
(
struct
buffered
*
buf
,
int
urgent
);
unsigned
update_jitter
(
struct
interface
*
ifp
,
int
urgent
);
void
set_timeout
(
struct
timeval
*
timeout
,
int
msecs
);
int
interface_up
(
struct
interface
*
ifp
,
int
up
);
...
...
message.c
View file @
09a59d51
...
...
@@ -944,24 +944,24 @@ flushbuf(struct buffered *buf)
}
static
void
schedule_flush
(
struct
interface
*
ifp
)
schedule_flush
(
struct
buffered
*
buf
)
{
unsigned
msecs
=
jitter
(
ifp
,
0
);
if
(
ifp
->
buf
.
timeout
.
tv_sec
!=
0
&&
timeval_minus_msec
(
&
ifp
->
buf
.
timeout
,
&
now
)
<
msecs
)
unsigned
msecs
=
jitter
(
buf
,
0
);
if
(
buf
->
timeout
.
tv_sec
!=
0
&&
timeval_minus_msec
(
&
buf
->
timeout
,
&
now
)
<
msecs
)
return
;
set_timeout
(
&
ifp
->
buf
.
timeout
,
msecs
);
set_timeout
(
&
buf
->
timeout
,
msecs
);
}
static
void
schedule_flush_now
(
struct
interface
*
ifp
)
schedule_flush_now
(
struct
buffered
*
buf
)
{
/* Almost now */
unsigned
msecs
=
roughly
(
10
);
if
(
ifp
->
buf
.
timeout
.
tv_sec
!=
0
&&
timeval_minus_msec
(
&
ifp
->
buf
.
timeout
,
&
now
)
<
msecs
)
if
(
buf
->
timeout
.
tv_sec
!=
0
&&
timeval_minus_msec
(
&
buf
->
timeout
,
&
now
)
<
msecs
)
return
;
set_timeout
(
&
ifp
->
buf
.
timeout
,
msecs
);
set_timeout
(
&
buf
->
timeout
,
msecs
);
}
static
void
...
...
@@ -978,56 +978,56 @@ schedule_unicast_flush(unsigned msecs)
}
static
void
ensure_space
(
struct
interface
*
ifp
,
int
space
)
ensure_space
(
struct
buffered
*
buf
,
int
space
)
{
if
(
ifp
->
buf
.
size
-
ifp
->
buf
.
len
<
space
)
flushbuf
(
&
ifp
->
buf
);
if
(
buf
->
size
-
buf
->
len
<
space
)
flushbuf
(
buf
);
}
static
void
start_message
(
struct
interface
*
ifp
,
int
type
,
int
len
)
start_message
(
struct
buffered
*
buf
,
int
type
,
int
len
)
{
if
(
ifp
->
buf
.
size
-
ifp
->
buf
.
len
<
len
+
2
)
flushbuf
(
&
ifp
->
buf
);
ifp
->
buf
.
buf
[
ifp
->
buf
.
len
++
]
=
type
;
ifp
->
buf
.
buf
[
ifp
->
buf
.
len
++
]
=
len
;
if
(
buf
->
size
-
buf
->
len
<
len
+
2
)
flushbuf
(
buf
);
buf
->
buf
[
buf
->
len
++
]
=
type
;
buf
->
buf
[
buf
->
len
++
]
=
len
;
}
static
void
end_message
(
struct
interface
*
ifp
,
int
type
,
int
bytes
)
end_message
(
struct
buffered
*
buf
,
int
type
,
int
bytes
)
{
assert
(
ifp
->
buf
.
len
>=
bytes
+
2
&&
ifp
->
buf
.
buf
[
ifp
->
buf
.
len
-
bytes
-
2
]
==
type
&&
ifp
->
buf
.
buf
[
ifp
->
buf
.
len
-
bytes
-
1
]
==
bytes
);
schedule_flush
(
ifp
);
assert
(
buf
->
len
>=
bytes
+
2
&&
buf
->
buf
[
buf
->
len
-
bytes
-
2
]
==
type
&&
buf
->
buf
[
buf
->
len
-
bytes
-
1
]
==
bytes
);
schedule_flush
(
buf
);
}
static
void
accumulate_byte
(
struct
interface
*
ifp
,
unsigned
char
value
)
accumulate_byte
(
struct
buffered
*
buf
,
unsigned
char
value
)
{
ifp
->
buf
.
buf
[
ifp
->
buf
.
len
++
]
=
value
;
buf
->
buf
[
buf
->
len
++
]
=
value
;
}
static
void
accumulate_short
(
struct
interface
*
ifp
,
unsigned
short
value
)
accumulate_short
(
struct
buffered
*
buf
,
unsigned
short
value
)
{
DO_HTONS
(
ifp
->
buf
.
buf
+
ifp
->
buf
.
len
,
value
);
ifp
->
buf
.
len
+=
2
;
DO_HTONS
(
buf
->
buf
+
buf
->
len
,
value
);
buf
->
len
+=
2
;
}
static
void
accumulate_int
(
struct
interface
*
ifp
,
unsigned
int
value
)
accumulate_int
(
struct
buffered
*
buf
,
unsigned
int
value
)
{
DO_HTONL
(
ifp
->
buf
.
buf
+
ifp
->
buf
.
len
,
value
);
ifp
->
buf
.
len
+=
4
;
DO_HTONL
(
buf
->
buf
+
buf
->
len
,
value
);
buf
->
len
+=
4
;
}
static
void
accumulate_bytes
(
struct
interface
*
ifp
,
accumulate_bytes
(
struct
buffered
*
buf
,
const
unsigned
char
*
value
,
unsigned
len
)
{
memcpy
(
ifp
->
buf
.
buf
+
ifp
->
buf
.
len
,
value
,
len
);
ifp
->
buf
.
len
+=
len
;
memcpy
(
buf
->
buf
+
buf
->
len
,
value
,
len
);
buf
->
len
+=
len
;
}
static
int
...
...
@@ -1059,7 +1059,7 @@ end_unicast_message(struct neighbour *neigh, int type, int bytes)
assert
(
unicast_neighbour
==
neigh
&&
unicast_buffered
>=
bytes
+
2
&&
unicast_buffer
[
unicast_buffered
-
bytes
-
2
]
==
type
&&
unicast_buffer
[
unicast_buffered
-
bytes
-
1
]
==
bytes
);
schedule_unicast_flush
(
jitter
(
neigh
->
ifp
,
0
));
schedule_unicast_flush
(
jitter
(
&
neigh
->
ifp
->
buf
,
0
));
}
static
void
...
...
@@ -1122,19 +1122,19 @@ send_hello_noupdate(struct interface *ifp, unsigned interval)
debugf
(
"Sending hello %d (%d) to %s.
\n
"
,
ifp
->
hello_seqno
,
interval
,
ifp
->
name
);
start_message
(
ifp
,
MESSAGE_HELLO
,
ifp
->
buf
.
enable_timestamps
?
12
:
6
);
start_message
(
&
ifp
->
buf
,
MESSAGE_HELLO
,
ifp
->
buf
.
enable_timestamps
?
12
:
6
);
ifp
->
buf
.
hello
=
ifp
->
buf
.
len
-
2
;
accumulate_short
(
ifp
,
0
);
accumulate_short
(
ifp
,
ifp
->
hello_seqno
);
accumulate_short
(
ifp
,
interval
>
0xFFFF
?
0xFFFF
:
interval
);
accumulate_short
(
&
ifp
->
buf
,
0
);
accumulate_short
(
&
ifp
->
buf
,
ifp
->
hello_seqno
);
accumulate_short
(
&
ifp
->
buf
,
interval
>
0xFFFF
?
0xFFFF
:
interval
);
if
(
ifp
->
buf
.
enable_timestamps
)
{
/* Sub-TLV containing the local time of emission. We use a
Pad4 sub-TLV, which we'll fill just before sending. */
accumulate_byte
(
ifp
,
SUBTLV_PADN
);
accumulate_byte
(
ifp
,
4
);
accumulate_int
(
ifp
,
0
);
accumulate_byte
(
&
ifp
->
buf
,
SUBTLV_PADN
);
accumulate_byte
(
&
ifp
->
buf
,
4
);
accumulate_int
(
&
ifp
->
buf
,
0
);
}
end_message
(
ifp
,
MESSAGE_HELLO
,
ifp
->
buf
.
enable_timestamps
?
12
:
6
);
end_message
(
&
ifp
->
buf
,
MESSAGE_HELLO
,
ifp
->
buf
.
enable_timestamps
?
12
:
6
);
}
void
...
...
@@ -1220,7 +1220,7 @@ really_send_update(struct interface *ifp,
metric
=
MIN
(
metric
+
add_metric
,
INFINITY
);
/* Worst case */
ensure_space
(
ifp
,
20
+
12
+
28
+
18
);
ensure_space
(
&
ifp
->
buf
,
20
+
12
+
28
+
18
);
v4
=
plen
>=
96
&&
v4mapped
(
prefix
);
...
...
@@ -1229,12 +1229,12 @@ really_send_update(struct interface *ifp,
return
;
if
(
!
ifp
->
buf
.
have_nh
||
memcmp
(
ifp
->
buf
.
nh
,
ifp
->
ipv4
,
4
)
!=
0
)
{
start_message
(
ifp
,
MESSAGE_NH
,
6
);
accumulate_byte
(
ifp
,
1
);
accumulate_byte
(
ifp
,
0
);
accumulate_bytes
(
ifp
,
ifp
->
ipv4
,
4
);
end_message
(
ifp
,
MESSAGE_NH
,
6
);
memcpy
(
ifp
->
buf
.
nh
,
ifp
->
ipv4
,
4
);
start_message
(
&
ifp
->
buf
,
MESSAGE_NH
,
6
);
accumulate_byte
(
&
ifp
->
buf
,
1
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_bytes
(
&
ifp
->
buf
,
ifp
->
ipv4
,
4
);
end_message
(
&
ifp
->
buf
,
MESSAGE_NH
,
6
);
memcpy
(
&
ifp
->
buf
.
nh
,
ifp
->
ipv4
,
4
);
ifp
->
buf
.
have_nh
=
1
;
}
...
...
@@ -1261,46 +1261,47 @@ really_send_update(struct interface *ifp,
memcmp
(
real_prefix
+
8
,
id
,
8
)
==
0
)
{
flags
|=
0x40
;
}
else
{
start_message
(
ifp
,
MESSAGE_ROUTER_ID
,
10
);
accumulate_short
(
ifp
,
0
);
accumulate_bytes
(
ifp
,
id
,
8
);
end_message
(
ifp
,
MESSAGE_ROUTER_ID
,
10
);
start_message
(
&
ifp
->
buf
,
MESSAGE_ROUTER_ID
,
10
);
accumulate_short
(
&
ifp
->
buf
,
0
);
accumulate_bytes
(
&
ifp
->
buf
,
id
,
8
);
end_message
(
&
ifp
->
buf
,
MESSAGE_ROUTER_ID
,
10
);
}
memcpy
(
ifp
->
buf
.
id
,
id
,
8
);
ifp
->
buf
.
have_id
=
1
;
}
if
(
!
is_ss
)
start_message
(
ifp
,
MESSAGE_UPDATE
,
10
+
(
real_plen
+
7
)
/
8
-
omit
+
start_message
(
&
ifp
->
buf
,
MESSAGE_UPDATE
,
10
+
(
real_plen
+
7
)
/
8
-
omit
+
channels_size
);
else
start_message
(
ifp
,
MESSAGE_UPDATE_SRC_SPECIFIC
,
start_message
(
&
ifp
->
buf
,
MESSAGE_UPDATE_SRC_SPECIFIC
,
10
+
(
real_plen
+
7
)
/
8
-
omit
+
(
real_src_plen
+
7
)
/
8
+
channels_size
);
accumulate_byte
(
ifp
,
v4
?
1
:
2
);
accumulate_byte
(
&
ifp
->
buf
,
v4
?
1
:
2
);
if
(
is_ss
)
accumulate_byte
(
ifp
,
real_src_plen
);
accumulate_byte
(
&
ifp
->
buf
,
real_src_plen
);
else
accumulate_byte
(
ifp
,
flags
);
accumulate_byte
(
ifp
,
real_plen
);
accumulate_byte
(
ifp
,
omit
);
accumulate_short
(
ifp
,
(
ifp
->
update_interval
+
5
)
/
10
);
accumulate_short
(
ifp
,
seqno
);
accumulate_short
(
ifp
,
metric
);
accumulate_bytes
(
ifp
,
real_prefix
+
omit
,
(
real_plen
+
7
)
/
8
-
omit
);
accumulate_byte
(
&
ifp
->
buf
,
flags
);
accumulate_byte
(
&
ifp
->
buf
,
real_plen
);
accumulate_byte
(
&
ifp
->
buf
,
omit
);
accumulate_short
(
&
ifp
->
buf
,
(
ifp
->
update_interval
+
5
)
/
10
);
accumulate_short
(
&
ifp
->
buf
,
seqno
);
accumulate_short
(
&
ifp
->
buf
,
metric
);
accumulate_bytes
(
&
ifp
->
buf
,
real_prefix
+
omit
,
(
real_plen
+
7
)
/
8
-
omit
);
if
(
is_ss
)
accumulate_bytes
(
ifp
,
real_src_prefix
,
(
real_src_plen
+
7
)
/
8
);
accumulate_bytes
(
&
ifp
->
buf
,
real_src_prefix
,
(
real_src_plen
+
7
)
/
8
);
/* Note that an empty channels TLV is different from no such TLV. */
if
(
channels_len
>=
0
)
{
accumulate_byte
(
ifp
,
2
);
accumulate_byte
(
ifp
,
channels_len
);
accumulate_bytes
(
ifp
,
channels
,
channels_len
);
accumulate_byte
(
&
ifp
->
buf
,
2
);
accumulate_byte
(
&
ifp
->
buf
,
channels_len
);
accumulate_bytes
(
&
ifp
->
buf
,
channels
,
channels_len
);
}
if
(
!
is_ss
)
end_message
(
ifp
,
MESSAGE_UPDATE
,
10
+
(
real_plen
+
7
)
/
8
-
omit
+
end_message
(
&
ifp
->
buf
,
MESSAGE_UPDATE
,
10
+
(
real_plen
+
7
)
/
8
-
omit
+
channels_size
);
else
end_message
(
ifp
,
MESSAGE_UPDATE_SRC_SPECIFIC
,
end_message
(
&
ifp
->
buf
,
MESSAGE_UPDATE_SRC_SPECIFIC
,
10
+
(
real_plen
+
7
)
/
8
-
omit
+
(
real_src_plen
+
7
)
/
8
+
channels_size
);
...
...
@@ -1484,7 +1485,7 @@ flushupdates(struct interface *ifp)
myseqno
,
INFINITY
,
NULL
,
-
1
);
}
}
schedule_flush_now
(
ifp
);
schedule_flush_now
(
&
ifp
->
buf
);
done:
free
(
b
);
}
...
...
@@ -1635,15 +1636,15 @@ send_wildcard_retraction(struct interface *ifp)
if
(
!
if_up
(
ifp
))
return
;
start_message
(
ifp
,
MESSAGE_UPDATE
,
10
);
accumulate_byte
(
ifp
,
0
);
accumulate_byte
(
ifp
,
0
);
accumulate_byte
(
ifp
,
0
);
accumulate_byte
(
ifp
,
0
);
accumulate_short
(
ifp
,
0xFFFF
);
accumulate_short
(
ifp
,
myseqno
);
accumulate_short
(
ifp
,
0xFFFF
);
end_message
(
ifp
,
MESSAGE_UPDATE
,
10
);
start_message
(
&
ifp
->
buf
,
MESSAGE_UPDATE
,
10
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_short
(
&
ifp
->
buf
,
0xFFFF
);
accumulate_short
(
&
ifp
->
buf
,
myseqno
);
accumulate_short
(
&
ifp
->
buf
,
0xFFFF
);
end_message
(
&
ifp
->
buf
,
MESSAGE_UPDATE
,
10
);
ifp
->
buf
.
have_id
=
0
;
}
...
...
@@ -1747,22 +1748,22 @@ send_ihu(struct neighbour *neigh, struct interface *ifp)
msglen
=
(
ll
?
14
:
22
)
+
(
send_rtt_data
?
10
:
0
);
if
(
unicast_neighbour
!=
neigh
)
{
start_message
(
ifp
,
MESSAGE_IHU
,
msglen
);
accumulate_byte
(
ifp
,
ll
?
3
:
2
);
accumulate_byte
(
ifp
,
0
);
accumulate_short
(
ifp
,
rxcost
);
accumulate_short
(
ifp
,
interval
);
start_message
(
&
ifp
->
buf
,
MESSAGE_IHU
,
msglen
);
accumulate_byte
(
&
ifp
->
buf
,
ll
?
3
:
2
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_short
(
&
ifp
->
buf
,
rxcost
);
accumulate_short
(
&
ifp
->
buf
,
interval
);
if
(
ll
)
accumulate_bytes
(
ifp
,
neigh
->
address
+
8
,
8
);
accumulate_bytes
(
&
ifp
->
buf
,
neigh
->
address
+
8
,
8
);
else
accumulate_bytes
(
ifp
,
neigh
->
address
,
16
);
accumulate_bytes
(
&
ifp
->
buf
,
neigh
->
address
,
16
);
if
(
send_rtt_data
)
{
accumulate_byte
(
ifp
,
SUBTLV_TIMESTAMP
);
accumulate_byte
(
ifp
,
8
);
accumulate_int
(
ifp
,
neigh
->
hello_send_us
);
accumulate_int
(
ifp
,
time_us
(
neigh
->
hello_rtt_receive_time
));
accumulate_byte
(
&
ifp
->
buf
,
SUBTLV_TIMESTAMP
);
accumulate_byte
(
&
ifp
->
buf
,
8
);
accumulate_int
(
&
ifp
->
buf
,
neigh
->
hello_send_us
);
accumulate_int
(
&
ifp
->
buf
,
time_us
(
neigh
->
hello_rtt_receive_time
));
}
end_message
(
ifp
,
MESSAGE_IHU
,
msglen
);
end_message
(
&
ifp
->
buf
,
MESSAGE_IHU
,
msglen
);
}
else
{
int
rc
;
rc
=
start_unicast_message
(
neigh
,
MESSAGE_IHU
,
msglen
);
...
...
@@ -1830,18 +1831,18 @@ send_request(struct interface *ifp,
format_prefix
(
src_prefix
,
src_plen
));
}
else
if
(
prefix
)
{
debugf
(
"sending request to %s for any specific.
\n
"
,
ifp
->
name
);
start_message
(
ifp
,
MESSAGE_REQUEST_SRC_SPECIFIC
,
3
);
accumulate_byte
(
ifp
,
0
);
accumulate_byte
(
ifp
,
0
);
accumulate_byte
(
ifp
,
0
);
end_message
(
ifp
,
MESSAGE_REQUEST_SRC_SPECIFIC
,
3
);
start_message
(
&
ifp
->
buf
,
MESSAGE_REQUEST_SRC_SPECIFIC
,
3
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
end_message
(
&
ifp
->
buf
,
MESSAGE_REQUEST_SRC_SPECIFIC
,
3
);
return
;
}
else
if
(
src_prefix
)
{
debugf
(
"sending request to %s for any.
\n
"
,
ifp
->
name
);
start_message
(
ifp
,
MESSAGE_REQUEST
,
2
);
accumulate_byte
(
ifp
,
0
);
accumulate_byte
(
ifp
,
0
);
end_message
(
ifp
,
MESSAGE_REQUEST
,
2
);
start_message
(
&
ifp
->
buf
,
MESSAGE_REQUEST
,
2
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
accumulate_byte
(
&
ifp
->
buf
,
0
);
end_message
(
&
ifp
->
buf
,
MESSAGE_REQUEST
,
2
);
return
;
}
else
{
send_request
(
ifp
,
NULL
,
0
,
zeroes
,
0
);
...
...
@@ -1857,27 +1858,27 @@ send_request(struct interface *ifp,
if
(
is_ss
)
{
spb
=
v4
?
((
src_plen
-
96
)
+
7
)
/
8
:
(
src_plen
+
7
)
/
8
;
len
+=
spb
+
1
;
start_message
(
ifp
,
MESSAGE_REQUEST_SRC_SPECIFIC
,
len
);
start_message
(
&
ifp
->
buf
,
MESSAGE_REQUEST_SRC_SPECIFIC
,
len
);
}
else
{
spb
=
0
;
start_message
(
ifp
,
MESSAGE_REQUEST
,
len
);
start_message
(
&
ifp
->
buf
,
MESSAGE_REQUEST
,
len
);
}
accumulate_byte
(
ifp
,
v4
?
1
:
2
);
accumulate_byte
(
ifp
,
v4
?
plen
-
96
:
plen
);
accumulate_byte
(
&
ifp
->
buf
,
v4
?
1
:
2
);
accumulate_byte
(
&
ifp
->
buf
,
v4
?
plen
-
96
:
plen
);
if
(
is_ss
)
accumulate_byte
(
ifp
,
v4
?
src_plen
-
96
:
src_plen
);
accumulate_byte
(
&
ifp
->
buf
,
v4
?
src_plen
-
96
:
src_plen
);
if
(
v4
)
accumulate_bytes
(
ifp
,
prefix
+
12
,
pb
);
accumulate_bytes
(
&
ifp
->
buf
,
prefix
+
12
,
pb
);
else
accumulate_bytes
(
ifp
,
prefix
,
pb
);
accumulate_bytes
(
&
ifp
->
buf
,
prefix
,
pb
);
if
(
is_ss
)
{
if
(
v4
)
accumulate_bytes
(
ifp
,
src_prefix
+
12
,
spb
);
accumulate_bytes
(
&
ifp
->
buf
,
src_prefix
+
12
,
spb
);
else
accumulate_bytes
(
ifp
,
src_prefix
,
spb
);
end_message
(
ifp
,
MESSAGE_REQUEST_SRC_SPECIFIC
,
len
);
accumulate_bytes
(
&
ifp
->
buf
,
src_prefix
,
spb
);
end_message
(
&
ifp
->
buf
,
MESSAGE_REQUEST_SRC_SPECIFIC
,
len
);
}
else
{
end_message
(
ifp
,
MESSAGE_REQUEST
,
len
);
end_message
(
&
ifp
->
buf
,
MESSAGE_REQUEST
,
len
);
}
}
...
...
@@ -1991,31 +1992,31 @@ send_multihop_request(struct interface *ifp,
if
(
is_ss
)
{
spb
=
v4
?
((
src_plen
-
96
)
+
7
)
/
8
:
(
src_plen
+
7
)
/
8
;
len
+=
spb
;
start_message
(
ifp
,
MESSAGE_MH_REQUEST_SRC_SPECIFIC
,
len
);
start_message
(
&
ifp
->
buf
,
MESSAGE_MH_REQUEST_SRC_SPECIFIC
,
len
);
}
else
{
spb
=
0
;
start_message
(
ifp
,
MESSAGE_MH_REQUEST
,
len
);
}
accumulate_byte
(
ifp
,
v4
?
1
:
2
);
accumulate_byte
(
ifp
,
v4
?
plen
-
96
:
plen
);
accumulate_short
(
ifp
,
seqno
);
accumulate_byte
(
ifp
,
hop_count
);
accumulate_byte
(
ifp
,
v4
?
src_plen
-
96
:
src_plen
);
accumulate_bytes
(
ifp
,
id
,
8
);
start_message
(
&
ifp
->
buf
,
MESSAGE_MH_REQUEST
,
len
);
}
accumulate_byte
(
&
ifp
->
buf
,
v4
?
1
:
2
);
accumulate_byte
(
&
ifp
->
buf
,
v4
?
plen
-
96
:
plen
);
accumulate_short
(
&
ifp
->
buf
,
seqno
);
accumulate_byte
(
&
ifp
->
buf
,
hop_count
);
accumulate_byte
(
&
ifp
->
buf
,
v4
?
src_plen
-
96
:
src_plen
);
accumulate_bytes
(
&
ifp
->
buf
,
id
,
8
);
if
(
prefix
)
{
if
(
v4
)
accumulate_bytes
(
ifp
,
prefix
+
12
,
pb
);
accumulate_bytes
(
&
ifp
->
buf
,
prefix
+
12
,
pb
);
else
accumulate_bytes
(
ifp
,
prefix
,
pb
);
accumulate_bytes
(
&
ifp
->
buf
,
prefix
,
pb
);
}
if
(
is_ss
)
{
if
(
v4
)
accumulate_bytes
(
ifp
,
src_prefix
+
12
,
spb
);
accumulate_bytes
(
&
ifp
->
buf
,
src_prefix
+
12
,
spb
);
else
accumulate_bytes
(
ifp
,
src_prefix
,
spb
);
end_message
(
ifp
,
MESSAGE_MH_REQUEST_SRC_SPECIFIC
,
len
);
accumulate_bytes
(
&
ifp
->
buf
,
src_prefix
,
spb
);
end_message
(
&
ifp
->
buf
,
MESSAGE_MH_REQUEST_SRC_SPECIFIC
,
len
);
}
else
{
end_message
(
ifp
,
MESSAGE_MH_REQUEST
,
len
);
end_message
(
&
ifp
->
buf
,
MESSAGE_MH_REQUEST
,
len
);
}
}
...
...
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