3b3a8eb937
reside, and move there ipfw(4) and pf(4). o Move most modified parts of pf out of contrib. Actual movements: sys/contrib/pf/net/*.c -> sys/netpfil/pf/ sys/contrib/pf/net/*.h -> sys/net/ contrib/pf/pfctl/*.c -> sbin/pfctl contrib/pf/pfctl/*.h -> sbin/pfctl contrib/pf/pfctl/pfctl.8 -> sbin/pfctl contrib/pf/pfctl/*.4 -> share/man/man4 contrib/pf/pfctl/*.5 -> share/man/man5 sys/netinet/ipfw -> sys/netpfil/ipfw The arguable movement is pf/net/*.h -> sys/net. There are future plans to refactor pf includes, so I decided not to break things twice. Not modified bits of pf left in contrib: authpf, ftp-proxy, tftp-proxy, pflogd. The ipfw(4) movement is planned to be merged to stable/9, to make head and stable match. Discussed with: bz, luigi
637 lines
15 KiB
C
637 lines
15 KiB
C
/*
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* $FreeBSD$
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*
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* Testing program for schedulers
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*
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* The framework include a simple controller which, at each
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* iteration, decides whether we can enqueue and/or dequeue.
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* Then the mainloop runs the required number of tests,
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* keeping track of statistics.
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*/
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#include "dn_test.h"
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struct q_list {
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struct list_head h;
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};
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struct cfg_s {
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int ac;
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char * const *av;
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const char *name;
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int loops;
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struct timeval time;
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/* running counters */
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uint32_t _enqueue;
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uint32_t drop;
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uint32_t pending;
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uint32_t dequeue;
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/* generator parameters */
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int th_min, th_max;
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int maxburst;
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int lmin, lmax; /* packet len */
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int flows; /* number of flows */
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int flowsets; /* number of flowsets */
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int wsum; /* sum of weights of all flows */
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int max_y; /* max random number in the generation */
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int cur_y, cur_fs; /* used in generation, between 0 and max_y - 1 */
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const char *fs_config; /* flowset config */
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int can_dequeue;
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int burst; /* count of packets sent in a burst */
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struct mbuf *tosend; /* packet to send -- also flag to enqueue */
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struct mbuf *freelist;
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struct mbuf *head, *tail; /* a simple tailq */
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/* scheduler hooks */
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int (*enq)(struct dn_sch_inst *, struct dn_queue *,
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struct mbuf *);
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struct mbuf * (*deq)(struct dn_sch_inst *);
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/* size of the three fields including sched-specific areas */
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int schk_len;
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int q_len; /* size of a queue including sched-fields */
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int si_len; /* size of a sch_inst including sched-fields */
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char *q; /* array of flow queues */
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/* use a char* because size is variable */
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struct dn_fsk *fs; /* array of flowsets */
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struct dn_sch_inst *si;
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struct dn_schk *sched;
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/* generator state */
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int state; /* 0 = going up, 1: going down */
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/*
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* We keep lists for each backlog level, and always serve
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* the one with shortest backlog. llmask contains a bitmap
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* of lists, and ll are the heads of the lists. The last
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* entry (BACKLOG) contains all entries considered 'full'
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* XXX to optimize things, entry i could contain queues with
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* 2^{i-1}+1 .. 2^i entries.
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*/
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#define BACKLOG 30
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uint32_t llmask;
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struct list_head ll[BACKLOG + 10];
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};
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/* FI2Q and Q2FI converts from flow_id to dn_queue and back.
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* We cannot easily use pointer arithmetic because it is variable size.
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*/
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#define FI2Q(c, i) ((struct dn_queue *)((c)->q + (c)->q_len * (i)))
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#define Q2FI(c, q) (((char *)(q) - (c)->q)/(c)->q_len)
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int debug = 0;
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struct dn_parms dn_cfg;
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static void controller(struct cfg_s *c);
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/* release a packet: put the mbuf in the freelist, and the queue in
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* the bucket.
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*/
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int
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drop(struct cfg_s *c, struct mbuf *m)
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{
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struct dn_queue *q;
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int i;
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c->drop++;
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q = FI2Q(c, m->flow_id);
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i = q->ni.length; // XXX or ffs...
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ND("q %p id %d current length %d", q, m->flow_id, i);
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if (i < BACKLOG) {
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struct list_head *h = &q->ni.h;
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c->llmask &= ~(1<<(i+1));
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c->llmask |= (1<<(i));
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list_del(h);
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list_add_tail(h, &c->ll[i]);
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}
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m->m_nextpkt = c->freelist;
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c->freelist = m;
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return 0;
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}
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/* dequeue returns NON-NULL when a packet is dropped */
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static int
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enqueue(struct cfg_s *c, void *_m)
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{
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struct mbuf *m = _m;
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if (c->enq)
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return c->enq(c->si, FI2Q(c, m->flow_id), m);
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if (c->head == NULL)
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c->head = m;
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else
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c->tail->m_nextpkt = m;
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c->tail = m;
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return 0; /* default - success */
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}
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/* dequeue returns NON-NULL when a packet is available */
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static void *
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dequeue(struct cfg_s *c)
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{
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struct mbuf *m;
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if (c->deq)
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return c->deq(c->si);
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if ((m = c->head)) {
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m = c->head;
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c->head = m->m_nextpkt;
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m->m_nextpkt = NULL;
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}
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return m;
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}
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static int
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mainloop(struct cfg_s *c)
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{
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int i;
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struct mbuf *m;
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for (i=0; i < c->loops; i++) {
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/* implement histeresis */
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controller(c);
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DX(3, "loop %d enq %d send %p rx %d",
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i, c->_enqueue, c->tosend, c->can_dequeue);
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if ( (m = c->tosend) ) {
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c->_enqueue++;
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if (enqueue(c, m)) {
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drop(c, m);
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ND("loop %d enqueue fail", i );
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} else {
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ND("enqueue ok");
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c->pending++;
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}
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}
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if (c->can_dequeue) {
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c->dequeue++;
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if ((m = dequeue(c))) {
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c->pending--;
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drop(c, m);
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c->drop--; /* compensate */
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}
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}
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}
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DX(1, "mainloop ends %d", i);
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return 0;
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}
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int
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dump(struct cfg_s *c)
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{
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int i;
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struct dn_queue *q;
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for (i=0; i < c->flows; i++) {
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q = FI2Q(c, i);
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DX(1, "queue %4d tot %10lld", i, q->ni.tot_bytes);
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}
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DX(1, "done %d loops\n", c->loops);
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return 0;
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}
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/* interpret a number in human form */
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static long
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getnum(const char *s, char **next, const char *key)
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{
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char *end = NULL;
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long l;
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if (next) /* default */
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*next = NULL;
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if (s && *s) {
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DX(3, "token is <%s> %s", s, key ? key : "-");
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l = strtol(s, &end, 0);
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} else {
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DX(3, "empty string");
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l = -1;
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}
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if (l < 0) {
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DX(2, "invalid %s for %s", s ? s : "NULL", (key ? key : "") );
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return 0; // invalid
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}
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if (!end || !*end)
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return l;
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if (*end == 'n')
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l = -l; /* multiply by n */
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else if (*end == 'K')
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l = l*1000;
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else if (*end == 'M')
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l = l*1000000;
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else if (*end == 'k')
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l = l*1024;
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else if (*end == 'm')
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l = l*1024*1024;
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else if (*end == 'w')
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;
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else {/* not recognized */
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D("suffix %s for %s, next %p", end, key, next);
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end--;
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}
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end++;
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DX(3, "suffix now %s for %s, next %p", end, key, next);
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if (next && *end) {
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DX(3, "setting next to %s for %s", end, key);
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*next = end;
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}
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return l;
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}
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/*
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* flowsets are a comma-separated list of
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* weight:maxlen:flows
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* indicating how many flows are hooked to that fs.
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* Both weight and range can be min-max-steps.
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* In a first pass we just count the number of flowsets and flows,
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* in a second pass we complete the setup.
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*/
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static void
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parse_flowsets(struct cfg_s *c, const char *fs, int pass)
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{
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char *s, *cur, *next;
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int n_flows = 0, n_fs = 0, wsum = 0;
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int i, j;
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struct dn_fs *prev = NULL;
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DX(3, "--- pass %d flows %d flowsets %d", pass, c->flows, c->flowsets);
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if (pass == 0)
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c->fs_config = fs;
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s = c->fs_config ? strdup(c->fs_config) : NULL;
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if (s == NULL) {
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if (pass == 0)
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D("no fsconfig");
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return;
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}
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for (next = s; (cur = strsep(&next, ","));) {
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char *p = NULL;
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int w, w_h, w_steps, wi;
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int len, len_h, l_steps, li;
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int flows;
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w = getnum(strsep(&cur, ":"), &p, "weight");
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if (w <= 0)
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w = 1;
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w_h = p ? getnum(p+1, &p, "weight_max") : w;
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w_steps = p ? getnum(p+1, &p, "w_steps") : (w_h == w ?1:2);
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len = getnum(strsep(&cur, ":"), &p, "len");
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if (len <= 0)
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len = 1000;
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len_h = p ? getnum(p+1, &p, "len_max") : len;
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l_steps = p ? getnum(p+1, &p, "l_steps") : (len_h == len ? 1 : 2);
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flows = getnum(strsep(&cur, ":"), NULL, "flows");
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if (flows == 0)
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flows = 1;
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DX(4, "weight %d..%d (%d) len %d..%d (%d) flows %d",
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w, w_h, w_steps, len, len_h, l_steps, flows);
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if (w == 0 || w_h < w || len == 0 || len_h < len ||
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flows == 0) {
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DX(4,"wrong parameters %s", fs);
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return;
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}
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n_flows += flows * w_steps * l_steps;
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for (i = 0; i < w_steps; i++) {
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wi = w + ((w_h - w)* i)/(w_steps == 1 ? 1 : (w_steps-1));
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for (j = 0; j < l_steps; j++, n_fs++) {
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struct dn_fs *fs = &c->fs[n_fs].fs; // tentative
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int x;
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li = len + ((len_h - len)* j)/(l_steps == 1 ? 1 : (l_steps-1));
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x = (wi*2048)/li;
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DX(3, "----- fs %4d weight %4d lmax %4d X %4d flows %d",
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n_fs, wi, li, x, flows);
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if (pass == 0)
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continue;
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if (c->fs == NULL || c->flowsets <= n_fs) {
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D("error in number of flowsets");
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return;
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}
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wsum += wi * flows;
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fs->par[0] = wi;
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fs->par[1] = li;
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fs->index = n_fs;
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fs->n_flows = flows;
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fs->cur = fs->first_flow = prev==NULL ? 0 : prev->next_flow;
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fs->next_flow = fs->first_flow + fs->n_flows;
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fs->y = x * flows;
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fs->base_y = (prev == NULL) ? 0 : prev->next_y;
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fs->next_y = fs->base_y + fs->y;
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prev = fs;
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}
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}
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}
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c->max_y = prev ? prev->base_y + prev->y : 0;
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c->flows = n_flows;
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c->flowsets = n_fs;
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c->wsum = wsum;
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if (pass == 0)
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return;
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/* now link all flows to their parent flowsets */
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DX(1,"%d flows on %d flowsets max_y %d", c->flows, c->flowsets, c->max_y);
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for (i=0; i < c->flowsets; i++) {
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struct dn_fs *fs = &c->fs[i].fs;
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DX(1, "fs %3d w %5d l %4d flow %5d .. %5d y %6d .. %6d",
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i, fs->par[0], fs->par[1],
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fs->first_flow, fs->next_flow,
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fs->base_y, fs->next_y);
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for (j = fs->first_flow; j < fs->next_flow; j++) {
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struct dn_queue *q = FI2Q(c, j);
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q->fs = &c->fs[i];
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}
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}
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}
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static int
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init(struct cfg_s *c)
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{
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int i;
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int ac = c->ac;
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char * const *av = c->av;
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c->si_len = sizeof(struct dn_sch_inst);
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c->q_len = sizeof(struct dn_queue);
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moduledata_t *mod = NULL;
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struct dn_alg *p = NULL;
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c->th_min = 0;
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c->th_max = -20;/* 20 packets per flow */
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c->lmin = c->lmax = 1280; /* packet len */
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c->flows = 1;
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c->flowsets = 1;
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c->name = "null";
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ac--; av++;
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while (ac > 1) {
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if (!strcmp(*av, "-n")) {
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c->loops = getnum(av[1], NULL, av[0]);
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} else if (!strcmp(*av, "-d")) {
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debug = atoi(av[1]);
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} else if (!strcmp(*av, "-alg")) {
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extern moduledata_t *_g_dn_fifo;
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extern moduledata_t *_g_dn_wf2qp;
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extern moduledata_t *_g_dn_rr;
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extern moduledata_t *_g_dn_qfq;
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#ifdef WITH_KPS
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extern moduledata_t *_g_dn_kps;
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#endif
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if (!strcmp(av[1], "rr"))
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mod = _g_dn_rr;
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else if (!strcmp(av[1], "wf2qp"))
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mod = _g_dn_wf2qp;
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else if (!strcmp(av[1], "fifo"))
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mod = _g_dn_fifo;
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else if (!strcmp(av[1], "qfq"))
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mod = _g_dn_qfq;
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#ifdef WITH_KPS
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else if (!strcmp(av[1], "kps"))
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mod = _g_dn_kps;
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#endif
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else
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mod = NULL;
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c->name = mod ? mod->name : "NULL";
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DX(3, "using scheduler %s", c->name);
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} else if (!strcmp(*av, "-len")) {
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c->lmin = getnum(av[1], NULL, av[0]);
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c->lmax = c->lmin;
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DX(3, "setting max to %d", c->th_max);
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} else if (!strcmp(*av, "-burst")) {
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c->maxburst = getnum(av[1], NULL, av[0]);
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DX(3, "setting max to %d", c->th_max);
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} else if (!strcmp(*av, "-qmax")) {
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c->th_max = getnum(av[1], NULL, av[0]);
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DX(3, "setting max to %d", c->th_max);
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} else if (!strcmp(*av, "-qmin")) {
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c->th_min = getnum(av[1], NULL, av[0]);
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DX(3, "setting min to %d", c->th_min);
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} else if (!strcmp(*av, "-flows")) {
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c->flows = getnum(av[1], NULL, av[0]);
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DX(3, "setting flows to %d", c->flows);
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} else if (!strcmp(*av, "-flowsets")) {
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parse_flowsets(c, av[1], 0);
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DX(3, "setting flowsets to %d", c->flowsets);
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} else {
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D("option %s not recognised, ignore", *av);
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}
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ac -= 2; av += 2;
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}
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if (c->maxburst <= 0)
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c->maxburst = 1;
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if (c->loops <= 0)
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c->loops = 1;
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if (c->flows <= 0)
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c->flows = 1;
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if (c->flowsets <= 0)
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c->flowsets = 1;
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if (c->lmin <= 0)
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c->lmin = 1;
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if (c->lmax <= 0)
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c->lmax = 1;
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/* multiply by N */
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if (c->th_min < 0)
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c->th_min = c->flows * -c->th_min;
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if (c->th_max < 0)
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c->th_max = c->flows * -c->th_max;
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if (c->th_max <= c->th_min)
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c->th_max = c->th_min + 1;
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if (mod) {
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p = mod->p;
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DX(3, "using module %s f %p p %p", mod->name, mod->f, mod->p);
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DX(3, "modname %s ty %d", p->name, p->type);
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c->enq = p->enqueue;
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c->deq = p->dequeue;
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c->si_len += p->si_datalen;
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c->q_len += p->q_datalen;
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c->schk_len += p->schk_datalen;
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}
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/* allocate queues, flowsets and one scheduler */
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c->q = calloc(c->flows, c->q_len);
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c->fs = calloc(c->flowsets, sizeof(struct dn_fsk));
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c->si = calloc(1, c->si_len);
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c->sched = calloc(c->flows, c->schk_len);
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if (c->q == NULL || c->fs == NULL) {
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D("error allocating memory for flows");
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exit(1);
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}
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c->si->sched = c->sched;
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if (p) {
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if (p->config)
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p->config(c->sched);
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if (p->new_sched)
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p->new_sched(c->si);
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}
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/* parse_flowsets links queues to their flowsets */
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parse_flowsets(c, av[1], 1);
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/* complete the work calling new_fsk */
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for (i = 0; i < c->flowsets; i++) {
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if (c->fs[i].fs.par[1] == 0)
|
|
c->fs[i].fs.par[1] = 1000; /* default pkt len */
|
|
c->fs[i].sched = c->sched;
|
|
if (p && p->new_fsk)
|
|
p->new_fsk(&c->fs[i]);
|
|
}
|
|
|
|
/* initialize the lists for the generator, and put
|
|
* all flows in the list for backlog = 0
|
|
*/
|
|
for (i=0; i <= BACKLOG+5; i++)
|
|
INIT_LIST_HEAD(&c->ll[i]);
|
|
|
|
for (i = 0; i < c->flows; i++) {
|
|
struct dn_queue *q = FI2Q(c, i);
|
|
if (q->fs == NULL)
|
|
q->fs = &c->fs[0]; /* XXX */
|
|
q->_si = c->si;
|
|
if (p && p->new_queue)
|
|
p->new_queue(q);
|
|
INIT_LIST_HEAD(&q->ni.h);
|
|
list_add_tail(&q->ni.h, &c->ll[0]);
|
|
}
|
|
c->llmask = 1;
|
|
return 0;
|
|
}
|
|
|
|
|
|
int
|
|
main(int ac, char *av[])
|
|
{
|
|
struct cfg_s c;
|
|
struct timeval end;
|
|
double ll;
|
|
int i;
|
|
char msg[40];
|
|
|
|
bzero(&c, sizeof(c));
|
|
c.ac = ac;
|
|
c.av = av;
|
|
init(&c);
|
|
gettimeofday(&c.time, NULL);
|
|
mainloop(&c);
|
|
gettimeofday(&end, NULL);
|
|
end.tv_sec -= c.time.tv_sec;
|
|
end.tv_usec -= c.time.tv_usec;
|
|
if (end.tv_usec < 0) {
|
|
end.tv_usec += 1000000;
|
|
end.tv_sec--;
|
|
}
|
|
c.time = end;
|
|
ll = end.tv_sec*1000000 + end.tv_usec;
|
|
ll *= 1000; /* convert to nanoseconds */
|
|
ll /= c._enqueue;
|
|
sprintf(msg, "1::%d", c.flows);
|
|
D("%-8s n %d %d time %d.%06d %8.3f qlen %d %d flows %s drops %d",
|
|
c.name, c._enqueue, c.loops,
|
|
(int)c.time.tv_sec, (int)c.time.tv_usec, ll,
|
|
c.th_min, c.th_max,
|
|
c.fs_config ? c.fs_config : msg, c.drop);
|
|
dump(&c);
|
|
DX(1, "done ac %d av %p", ac, av);
|
|
for (i=0; i < ac; i++)
|
|
DX(1, "arg %d %s", i, av[i]);
|
|
return 0;
|
|
}
|
|
|
|
/*
|
|
* The controller decides whether in this iteration we should send
|
|
* (the packet is in c->tosend) and/or receive (flag c->can_dequeue)
|
|
*/
|
|
static void
|
|
controller(struct cfg_s *c)
|
|
{
|
|
struct mbuf *m;
|
|
struct dn_fs *fs;
|
|
int flow_id;
|
|
|
|
/* histeresis between max and min */
|
|
if (c->state == 0 && c->pending >= c->th_max)
|
|
c->state = 1;
|
|
else if (c->state == 1 && c->pending <= c->th_min)
|
|
c->state = 0;
|
|
ND(1, "state %d pending %2d", c->state, c->pending);
|
|
c->can_dequeue = c->state;
|
|
c->tosend = NULL;
|
|
if (c->state)
|
|
return;
|
|
|
|
if (1) {
|
|
int i;
|
|
struct dn_queue *q;
|
|
struct list_head *h;
|
|
|
|
i = ffs(c->llmask) - 1;
|
|
if (i < 0) {
|
|
DX(2, "no candidate");
|
|
c->can_dequeue = 1;
|
|
return;
|
|
}
|
|
h = &c->ll[i];
|
|
ND(1, "backlog %d p %p prev %p next %p", i, h, h->prev, h->next);
|
|
q = list_first_entry(h, struct dn_queue, ni.h);
|
|
list_del(&q->ni.h);
|
|
flow_id = Q2FI(c, q);
|
|
DX(2, "extracted flow %p %d backlog %d", q, flow_id, i);
|
|
if (list_empty(h)) {
|
|
ND(2, "backlog %d empty", i);
|
|
c->llmask &= ~(1<<i);
|
|
}
|
|
ND(1, "before %d p %p prev %p next %p", i+1, h+1, h[1].prev, h[1].next);
|
|
list_add_tail(&q->ni.h, h+1);
|
|
ND(1, " after %d p %p prev %p next %p", i+1, h+1, h[1].prev, h[1].next);
|
|
if (i < BACKLOG) {
|
|
ND(2, "backlog %d full", i+1);
|
|
c->llmask |= 1<<(1+i);
|
|
}
|
|
fs = &q->fs->fs;
|
|
c->cur_fs = q->fs - c->fs;
|
|
fs->cur = flow_id;
|
|
} else {
|
|
/* XXX this does not work ? */
|
|
/* now decide whom to send the packet, and the length */
|
|
/* lookup in the flow table */
|
|
if (c->cur_y >= c->max_y) { /* handle wraparound */
|
|
c->cur_y = 0;
|
|
c->cur_fs = 0;
|
|
}
|
|
fs = &c->fs[c->cur_fs].fs;
|
|
flow_id = fs->cur++;
|
|
if (fs->cur >= fs->next_flow)
|
|
fs->cur = fs->first_flow;
|
|
c->cur_y++;
|
|
if (c->cur_y >= fs->next_y)
|
|
c->cur_fs++;
|
|
}
|
|
|
|
/* construct a packet */
|
|
if (c->freelist) {
|
|
m = c->tosend = c->freelist;
|
|
c->freelist = c->freelist->m_nextpkt;
|
|
} else {
|
|
m = c->tosend = calloc(1, sizeof(struct mbuf));
|
|
}
|
|
if (m == NULL)
|
|
return;
|
|
|
|
m->cfg = c;
|
|
m->m_nextpkt = NULL;
|
|
m->m_pkthdr.len = fs->par[1]; // XXX maxlen
|
|
m->flow_id = flow_id;
|
|
|
|
ND(2,"y %6d flow %5d fs %3d weight %4d len %4d",
|
|
c->cur_y, m->flow_id, c->cur_fs,
|
|
fs->par[0], m->m_pkthdr.len);
|
|
|
|
}
|
|
|
|
/*
|
|
Packet allocation:
|
|
to achieve a distribution that matches weights, for each X=w/lmax class
|
|
we should generate a number of packets proportional to Y = X times the number
|
|
of flows in the class.
|
|
So we construct an array with the cumulative distribution of Y's,
|
|
and use it to identify the flow via inverse mapping (if the Y's are
|
|
not too many we can use an array for the lookup). In practice,
|
|
each flow will have X entries [virtually] pointing to it.
|
|
|
|
*/
|