1 // L2TPNS: token bucket filters
3 char const *cvs_id_tbf
= "$Id: tbf.c,v 1.11 2004/12/16 08:49:53 bodea Exp $";
10 tbft
*filter_list
= NULL
;
11 static int filter_list_size
= 0;
13 static int timer_chain
= -1; // Head of timer chain.
15 static void tbf_run_queue(int tbf_id
);
17 void init_tbf(int num_tbfs
)
19 if (!(filter_list
= shared_malloc(sizeof(*filter_list
) * num_tbfs
)))
22 filter_list_size
= num_tbfs
;
23 filter_list
[0].sid
= -1; // Reserved.
26 // Put a TBF on the timer list.
27 // This is a doubly linked list..
28 // We put ourselves on the tail of the list.
30 static void add_to_timer(int id
)
35 if (timer_chain
== -1) {
36 filter_list
[id
].next
= filter_list
[id
].prev
= id
;
41 filter_list
[id
].next
= timer_chain
;
42 filter_list
[id
].prev
= filter_list
[timer_chain
].prev
;
43 filter_list
[filter_list
[timer_chain
].prev
].next
= id
;
44 filter_list
[timer_chain
].prev
= id
;
48 // Remove a TBF from the timer list.
49 // This is a doubly linked list.
50 static void del_from_timer(int id
)
55 if (filter_list
[id
].next
== id
) { // Last element in chain?
56 if (timer_chain
!= id
) { // WTF?
57 LOG(0, 0, 0, "Removed a singleton element from TBF, but tc didn't point to it!\n");
60 filter_list
[id
].next
= filter_list
[id
].prev
= 0;
64 filter_list
[filter_list
[id
].next
].prev
= filter_list
[id
].prev
;
65 filter_list
[filter_list
[id
].prev
].next
= filter_list
[id
].next
;
66 if (timer_chain
== id
)
67 timer_chain
= filter_list
[id
].next
;
69 filter_list
[id
].next
= filter_list
[id
].prev
= 0; // Mark as off the timer chain.
73 // Free a token bucket filter structure for re-use.
78 if (tid
< 1) // Make sure we don't free id # 0
81 if (!filter_list
) // WTF?
84 if (filter_list
[tid
].next
)
86 filter_list
[tid
].sid
= 0;
92 // Allocate a new token bucket filter.
94 int new_tbf(int sid
, int max_credit
, int rate
, void (*f
)(sessionidt
, uint8_t *, int))
99 LOG(4, 0, 0, "Allocating new TBF (sess %d, rate %d, helper %p)\n", sid
, rate
, f
);
102 return 0; // Couldn't alloc memory!
104 for (i
= 0 ; i
< filter_list_size
; ++i
, p
= (p
+1)%filter_list_size
) {
105 if (filter_list
[p
].sid
)
108 memset((void*) &filter_list
[p
], 0, sizeof(filter_list
[p
]) ); // Clear counters and data.
109 filter_list
[p
].sid
= sid
;
110 filter_list
[p
].credit
= max_credit
;
111 filter_list
[p
].queued
= 0;
112 filter_list
[p
].max_credit
= max_credit
;
113 filter_list
[p
].rate
= rate
;
114 filter_list
[p
].oldest
= 0;
115 filter_list
[p
].send
= f
;
119 LOG(0, 0, 0, "Ran out of token bucket filters! Sess %d will be un-throttled\n", sid
);
124 // Sanity check all the TBF records. This is
125 // typically done when we become a master..
134 for (i
= 1; i
< filter_list_size
; ++i
) {
135 if (!filter_list
[i
].sid
) // Is it used??
138 sid
= filter_list
[i
].sid
;
139 if (i
!= session
[sid
].tbf_in
&&
140 i
!= session
[sid
].tbf_out
) { // Ooops.
142 free_tbf(i
); // Mark it as free...
146 for (i
= 0; i
< config
->cluster_highest_sessionid
; ++i
) {
147 if (session
[i
].tbf_in
&& filter_list
[session
[i
].tbf_in
].sid
!= i
) {
148 filter_list
[session
[i
].tbf_in
].sid
= i
; // Ouch!? FIXME. What to do here?
150 if (session
[i
].tbf_out
&& filter_list
[session
[i
].tbf_out
].sid
!= i
) {
151 filter_list
[session
[i
].tbf_out
].sid
= i
; // Ouch!? FIXME. What to do here?
158 // Run a packet through a token bucket filter.
159 // If we can send it right away, we do. Else we
160 // try and queue it to send later. Else we drop it.
162 int tbf_queue_packet(int tbf_id
, char * data
, int size
)
170 if (tbf_id
> filter_list_size
|| tbf_id
< 1) { // Out of range ID??
171 // Very bad. Just drop it.
175 f
= &filter_list
[tbf_id
];
177 if (!f
->sid
) // Is this a real structure??
180 tbf_run_queue(tbf_id
); // Caculate credit and send any queued packets if possible..
185 if (!f
->queued
&& f
->credit
> size
) { // If the queue is empty, and we have
186 // enough credit, just send it now.
189 f
->send(f
->sid
, data
, size
);
193 f
->b_dropped
+= size
;
199 // Not enough credit. Can we have room in the queue?
200 if (f
->queued
>= TBF_MAX_QUEUE
) {
202 f
->b_dropped
+= size
;
203 return -1; // No, just drop it.
206 // Is it too big to fit into a queue slot?
207 if (size
>= TBF_MAX_SIZE
) {
209 f
->b_dropped
+= size
;
210 return -1; // Yes, just drop it.
213 // Ok. We have a slot, and it's big enough to
214 // contain the packet, so queue the packet!
215 i
= ( f
->oldest
+ f
->queued
) % TBF_MAX_QUEUE
;
216 memcpy(f
->packets
[i
], data
, size
);
222 if (!f
->next
) // Are we off the timer chain?
223 add_to_timer(tbf_id
); // Put ourselves on the timer chain.
225 return 0; // All done.
229 // Send queued packets from the filter if possible.
230 // (We're normally only called if this is possible.. )
231 static void tbf_run_queue(int tbf_id
)
238 f
= &filter_list
[tbf_id
];
240 // Calculate available credit...
241 f
->credit
+= (TIME
- f
->lasttime
) * f
->rate
/ 10; // current time is 1/10th of a second.
242 if (f
->credit
> f
->max_credit
)
243 f
->credit
= f
->max_credit
;
246 while (f
->queued
> 0 && f
->credit
>= f
->sizes
[f
->oldest
]) { // While we have enough credit..
249 f
->send(f
->sid
, f
->packets
[f
->oldest
], f
->sizes
[f
->oldest
]);
250 f
->b_sent
+= f
->sizes
[f
->oldest
];
253 f
->b_dropped
+= f
->sizes
[f
->oldest
];
257 f
->credit
-= f
->sizes
[f
->oldest
];
259 f
->oldest
= (f
->oldest
+ 1 ) % TBF_MAX_QUEUE
;
260 f
->queued
--; // One less queued packet..
263 if (f
->queued
) // Still more to do. Hang around on the timer list.
266 if (f
->next
) // Are we on the timer list??
267 del_from_timer(tbf_id
); // Nothing more to do. Get off the timer list.
271 // Periodically walk the timer list..
273 int tbf_run_timer(void)
276 int count
= filter_list_size
+ 1; // Safety check.
278 int tbf_id
; // structure being processed.
281 return 0; // Nothing to do...
283 if (!filter_list
) // No structures built yet.
286 last
= filter_list
[i
].prev
; // last element to process.
290 i
= filter_list
[i
].next
; // Get the next in the queue.
292 tbf_run_queue(tbf_id
); // Run the timer queue..
293 } while ( timer_chain
> 0 && i
&& tbf_id
!= last
&& --count
> 0);
297 for (i
= 0; i
< filter_list_size
; ++i
) {
298 if (!filter_list
[i
].next
)
300 if (filter_list
[i
].lasttime
== TIME
) // Did we just run it?
303 LOG(1, 0, 0, "Missed tbf %d! Not on the timer chain?(n %d, p %d, tc %d)\n", i
,
304 filter_list
[i
].next
, filter_list
[i
].prev
, timer_chain
);
312 int cmd_show_tbf(struct cli_def
*cli
, char *command
, char **argv
, int argc
)
317 if (CLI_HELP_REQUESTED
)
318 return CLI_HELP_NO_ARGS
;
320 if (!config
->cluster_iam_master
) {
321 cli_print(cli
, "Can't do this on a slave. Do it on %s",
322 fmtaddr(config
->cluster_master_address
, 0));
330 cli_print(cli
,"%6s %5s %5s %6s %6s | %7s %7s %8s %8s %8s %8s", "TBF#", "Sid", "Rate", "Credit", "Queued",
331 "ByteIn","PackIn","ByteSent","PackSent", "PackDrop", "PackDelay");
333 for (i
= 1; i
< filter_list_size
; ++i
) {
334 if (!filter_list
[i
].sid
) // Is it used?
337 cli_print(cli
, "%5d%1s %5d %5d %6d %6d | %7d %7d %8d %8d %8d %8d",
338 i
, (filter_list
[i
].next
? "*" : " "),
340 filter_list
[i
].rate
* 8,
341 filter_list
[i
].credit
,
342 filter_list
[i
].queued
,
344 filter_list
[i
].b_queued
,
345 filter_list
[i
].p_queued
,
346 filter_list
[i
].b_sent
,
347 filter_list
[i
].p_sent
,
348 filter_list
[i
].p_dropped
,
349 filter_list
[i
].p_delayed
);
352 cli_print(cli
, "%d tbf entries used, %d total", count
, filter_list_size
);