OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [net/] [common/] [v2_0/] [tests/] [nc6_test_master.c] - Blame information for rev 565

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 27 unneback
//==========================================================================
2
//
3
//      tests/nc6_test_master.c
4
//
5
//      Network characterizations test (master portion) IPv4+IPv6 aware
6
//
7
//==========================================================================
8
//####BSDCOPYRIGHTBEGIN####
9
//
10
// -------------------------------------------
11
//
12
// Portions of this software may have been derived from OpenBSD or other sources,
13
// and are covered by the appropriate copyright disclaimers included herein.
14
//
15
// -------------------------------------------
16
//
17
//####BSDCOPYRIGHTEND####
18
//==========================================================================
19
//#####DESCRIPTIONBEGIN####
20
//
21
// Author(s):    gthomas
22
// Contributors: gthomas
23
// Date:         2000-01-10
24
// Purpose:      
25
// Description:  
26
//              
27
//
28
//####DESCRIPTIONEND####
29
//
30
//==========================================================================
31
 
32
// Network characterization test code - master portion
33
 
34
#include "nc_test_framework.h"
35
 
36
#ifdef __ECOS
37
#ifndef CYGPKG_LIBC_STDIO
38
#define perror(s) diag_printf(#s ": %s\n", strerror(errno))
39
#endif
40
#define STACK_SIZE (CYGNUM_HAL_STACK_SIZE_TYPICAL + 0x1000)
41
static char stack[STACK_SIZE];
42
static cyg_thread thread_data;
43
static cyg_handle_t thread_handle;
44
#endif
45
 
46
struct test_params {
47
    int  argc;
48
    char **argv;
49
};
50
 
51
#define MAX_BUF 32*1024
52
static unsigned char in_buf[MAX_BUF], out_buf[MAX_BUF];
53
 
54
static int test_seq = 1;
55
static long long idle_count;
56
static long      idle_ticks;
57
#define IDLE_TEST_TIME   10
58
 
59
struct pause {
60
    int pause_ticks;
61
    int pause_threshold;
62
};
63
#define LENGTH(x) (sizeof(x)/sizeof(x[0]))
64
 
65
#ifdef __ECOS
66
extern void
67
cyg_test_exit(void);
68
#else
69
void
70
cyg_test_exit(void)
71
{
72
    test_printf("... Done\n");
73
    exit(1);
74
}
75
#endif
76
 
77
#ifdef __ECOS
78
static void
79
test_delay(int ticks)
80
{
81
    cyg_thread_delay(ticks);
82
}
83
 
84
#else
85
 
86
static void
87
test_delay(int ticks)
88
{
89
    usleep(ticks * 10000);
90
}
91
#endif
92
 
93
void
94
pexit(char *s)
95
{
96
    perror(s);
97
    cyg_test_exit();
98
}
99
 
100
#ifdef __ECOS
101
#ifndef CYGPKG_SNMPLIB
102
int
103
gettimeofday(struct timeval *tv, struct timezone *tz)
104
{
105
    cyg_tick_count_t cur_time;
106
    cur_time = cyg_current_time();
107
    tv->tv_sec = cur_time / 100;
108
    tv->tv_usec = (cur_time % 100) * 10000;
109
}
110
#else
111
int
112
gettimeofday(struct timeval *tv, struct timezone *tz);
113
#endif
114
#endif
115
void
116
show_results(const char *msg, struct timeval *start,
117
             struct timeval *end, int nbufs, int buflen,
118
             int lost, int seq_errors)
119
{
120
    struct timeval tot_time;
121
#ifndef __ECOS
122
    double real_time, thru;
123
    long tot_bytes = nbufs * buflen;
124
#endif
125
    timersub(end, start, &tot_time);
126
    test_printf("%s - %d bufs of %d bytes in %d.%02d seconds",
127
                msg, nbufs, buflen,
128
                tot_time.tv_sec, tot_time.tv_usec / 10000);
129
#ifndef __ECOS
130
    real_time = tot_time.tv_sec + ((tot_time.tv_usec / 10000) * .01);
131
    // Compute bytes / second (rounded up)
132
    thru = tot_bytes / real_time;
133
    // Convert to Mb / second
134
    test_printf(" - %.2f KB/S", thru / 1024.0);
135
    test_printf(" - %.4f Mbit/S (M = 10^6)", thru * 8.0 / 1000000.0);
136
#endif
137
    if (lost) {
138
        test_printf(", %d lost", lost);
139
    }
140
    if (seq_errors) {
141
        test_printf(", %d out of sequence", seq_errors);
142
    }
143
    test_printf("\n");
144
}
145
 
146
void
147
new_test(void)
148
{
149
    test_seq++;
150
}
151
 
152
static int
153
sa_len(struct sockaddr *sa)
154
{
155
    switch (sa->sa_family) {
156
    case AF_INET:
157
        return sizeof(struct sockaddr_in);
158
    case AF_INET6:
159
        return sizeof(struct sockaddr_in6);
160
    default:
161
        printf("Unknown socket type: %d\n", sa->sa_family);
162
        return sizeof(struct sockaddr_storage);
163
    }
164
}
165
 
166
int
167
nc_message(int s, struct nc_request *req,
168
           struct nc_reply *reply, struct sockaddr *slave)
169
{
170
    fd_set fds;
171
    struct timeval timeout;
172
 
173
    req->seq = htonl(test_seq);
174
    if (sendto(s, req, sizeof(*req), 0, slave, sa_len(slave)) < 0) {
175
        perror("sendto");
176
        return false;
177
    }
178
    FD_ZERO(&fds);
179
    FD_SET(s, &fds);
180
    timeout.tv_sec = NC_REPLY_TIMEOUT;
181
    timeout.tv_usec = 0;
182
    if (select(s+1, &fds, 0, 0, &timeout) <= 0) {
183
        test_printf("No response to command\n");
184
        return false;
185
    }
186
    if (recvfrom(s, reply, sizeof(*reply), 0, 0, 0) < 0) {
187
        perror("recvfrom");
188
        return false;
189
    }
190
    if (reply->seq != req->seq) {
191
        test_printf("Response out of order - sent: %d, recvd: %d\n",
192
                    ntohl(req->seq), ntohl(reply->seq));
193
        return false;
194
    }
195
    return true;
196
}
197
 
198
void
199
show_test_results(struct nc_test_results *results)
200
{
201
    if ((ntohl(results->key1) == NC_TEST_RESULT_KEY1) &&
202
        (ntohl(results->key2) == NC_TEST_RESULT_KEY2) &&
203
        (ntohl(results->seq) == test_seq)) {
204
        test_printf("   slave sent %d, recvd %d\n",
205
                    ntohl(results->nsent), ntohl(results->nrecvd));
206
    } else {
207
        test_printf("   ... invalid results - keys: %x/%x, seq: %d/%d\n",
208
                    ntohl(results->key1), ntohl(results->key2),
209
                    ntohl(results->seq), test_seq);
210
    }
211
}
212
 
213
void
214
do_udp_test(int s1, int type, struct sockaddr *slave,
215
            int nbufs, int buflen, int pause_time, int pause_threshold)
216
{
217
    int i, s, td_len, seq, seq_errors, total_packets;
218
    struct sockaddr_storage test_chan_master, test_chan_slave;
219
    struct timeval start_time, end_time;
220
    struct nc_request req;
221
    struct nc_reply reply;
222
    struct nc_test_results results;
223
    struct nc_test_data *tdp;
224
    fd_set fds;
225
    struct timeval timeout;
226
    int lost_packets = 0;
227
    int need_send, need_recv;
228
    const char *type_name;
229
    int pkt_ctr = 0;
230
 
231
    need_recv = true;  need_send = true;  type_name = "UDP echo";
232
    switch (type) {
233
    case NC_REQUEST_UDP_RECV:
234
        need_recv = false;
235
        need_send = true;
236
        type_name = "UDP recv";
237
        break;
238
    case NC_REQUEST_UDP_SEND:
239
        need_recv = true;
240
        need_send = false;
241
        type_name = "UDP send";
242
        break;
243
    case NC_REQUEST_UDP_ECHO:
244
        break;
245
    }
246
 
247
    new_test();
248
    req.type = htonl(type);
249
    req.nbufs = htonl(nbufs);
250
    req.buflen = htonl(buflen);
251
    req.slave_port = htonl(NC_TESTING_SLAVE_PORT);
252
    req.master_port = htonl(NC_TESTING_MASTER_PORT);
253
    nc_message(s1, &req, &reply, slave);
254
    if (reply.response != ntohl(NC_REPLY_ACK)) {
255
        test_printf("Slave denied %s [%d,%d] test\n", type_name, nbufs, buflen);
256
        return;
257
    }
258
 
259
    s = socket(slave->sa_family, SOCK_DGRAM, 0);
260
    if (s < 0) {
261
        pexit("datagram socket");
262
    }
263
 
264
    memset(&test_chan_master, 0, sizeof(test_chan_master));
265
    ((struct sockaddr *)&test_chan_master)->sa_family = slave->sa_family;
266
    memcpy(&test_chan_slave, slave, sa_len(slave));
267
#ifndef __linux
268
    ((struct sockaddr *)&test_chan_master)->sa_len = slave->sa_len;
269
#endif
270
    switch (slave->sa_family) {
271
    case AF_INET:
272
        ((struct sockaddr_in *)&test_chan_master)->sin_addr.s_addr = htonl(INADDR_ANY);
273
        ((struct sockaddr_in *)&test_chan_master)->sin_port = htons(ntohl(req.master_port));
274
        ((struct sockaddr_in *)&test_chan_slave)->sin_port = htons(ntohl(req.slave_port));
275
        break;
276
    case AF_INET6:
277
        ((struct sockaddr_in6 *)&test_chan_master)->sin6_addr = in6addr_any;
278
        ((struct sockaddr_in6 *)&test_chan_master)->sin6_port = htons(ntohl(req.master_port));
279
        ((struct sockaddr_in6 *)&test_chan_slave)->sin6_port = htons(ntohl(req.slave_port));
280
        break;
281
    default:
282
        pexit("strange TCP sockaddr");
283
    }
284
 
285
    if (bind(s, (struct sockaddr *)&test_chan_master,
286
             sa_len((struct sockaddr *)&test_chan_master)) < 0) {
287
        perror("UDP bind <do_udp_test>");
288
        close(s);
289
        return;
290
    }
291
    test_printf("Start %s [%d,%d]", type_name, nbufs, buflen);
292
    if (pause_time) {
293
        test_printf(" - %dms delay after %d packet%s\n", pause_time*10,
294
                    pause_threshold, pause_threshold > 1 ? "s" : "");
295
    } else {
296
        test_printf(" - no delays\n");
297
    }
298
 
299
    gettimeofday(&start_time, 0);
300
    seq = 0;  seq_errors = 0;  total_packets = 0;
301
    for (i = 0;  i < nbufs;  i++) {
302
        td_len = buflen + sizeof(struct nc_test_data);
303
        if (need_send) {
304
            tdp = (struct nc_test_data *)out_buf;
305
            tdp->key1 = htonl(NC_TEST_DATA_KEY1);
306
            tdp->key2 = htonl(NC_TEST_DATA_KEY2);
307
            tdp->seq = htonl(i);
308
            tdp->len = htonl(td_len);
309
            if (sendto(s, tdp, td_len, 0,
310
                       (struct sockaddr *)&test_chan_slave,
311
                       sa_len((struct sockaddr *)&test_chan_slave)) < 0) {
312
                perror("sendto");
313
                close(s);
314
                return;
315
            }
316
            total_packets++;
317
        }
318
        if (need_recv) {
319
            FD_ZERO(&fds);
320
            FD_SET(s, &fds);
321
            timeout.tv_sec = NC_TEST_TIMEOUT;
322
            timeout.tv_usec = 0;
323
            if (select(s+1, &fds, 0, 0, &timeout) <= 0) {
324
                test_printf("Slave timed out after %d buffers\n", i);
325
                lost_packets++;
326
            } else {
327
                tdp = (struct nc_test_data *)in_buf;
328
                if (recvfrom(s, tdp, td_len, 0, 0, 0) < 0) {
329
                    perror("recvfrom");
330
                    close(s);
331
                    return;
332
                }
333
                if ((ntohl(tdp->key1) == NC_TEST_DATA_KEY1) &&
334
                    (ntohl(tdp->key2) == NC_TEST_DATA_KEY2)) {
335
                    if (ntohl(tdp->seq) != seq) {
336
                        test_printf("Packets out of sequence - recvd: %d, expected: %d\n",
337
                                    ntohl(tdp->seq), seq);
338
                        seq_errors++;
339
                        if (!need_send) {
340
                            // Reset sequence to what the slave wants
341
                            seq = ntohl(tdp->seq);
342
                        }
343
                    }
344
                } else {
345
                    test_printf("Bad data packet - key: %x/%x, seq: %d\n",
346
                                ntohl(tdp->key1), ntohl(tdp->key2),
347
                                ntohl(tdp->seq));
348
                }
349
                total_packets++;
350
            }
351
            seq++;
352
            if (seq == nbufs) {
353
                break;
354
            }
355
            if (pause_time && (++pkt_ctr == pause_threshold)) {
356
                pkt_ctr = 0;
357
                test_delay(pause_time);
358
            }
359
        }
360
    }
361
    gettimeofday(&end_time, 0);
362
    show_results(type_name, &start_time, &end_time, total_packets, buflen,
363
                 lost_packets, seq_errors);
364
    // Fetch results record
365
    FD_ZERO(&fds);
366
    FD_SET(s, &fds);
367
    timeout.tv_sec = NC_RESULTS_TIMEOUT;
368
    timeout.tv_usec = 0;
369
    if (select(s+1, &fds, 0, 0, &timeout) <= 0) {
370
        test_printf("No results record sent\n");
371
    } else {
372
        if (recvfrom(s, &results, sizeof(results), 0, 0, 0) < 0) {
373
            perror("recvfrom");
374
        }
375
        show_test_results(&results);
376
    }
377
    close(s);
378
}
379
 
380
//
381
// Read data from a stream, accounting for the fact that packet 'boundaries'
382
// are not preserved.  This can also timeout (which would probably wreck the
383
// data boundaries).
384
//
385
 
386
int
387
do_read(int fd, void *buf, int buflen)
388
{
389
    char *p = (char *)buf;
390
    int len = buflen;
391
    int res;
392
    while (len) {
393
        res = read(fd, p, len);
394
        if (res < 0) {
395
            perror("read");
396
        } else {
397
            len -= res;
398
            p += res;
399
            if (res == 0) {
400
                break;
401
            }
402
        }
403
    }
404
    return (buflen - len);
405
}
406
 
407
void
408
do_tcp_test(int s1, int type, struct sockaddr *slave,
409
            int nbufs, int buflen, int pause_time, int pause_threshold)
410
{
411
    int i, s, td_len, tot_len, wlen, len, seq, seq_errors, total_packets, res;
412
    struct sockaddr_storage test_chan_slave;
413
    struct timeval start_time, end_time;
414
    struct nc_request req;
415
    struct nc_reply reply;
416
    struct nc_test_results results;
417
    struct nc_test_data *tdp;
418
    int lost_packets = 0;
419
    int conn_failures = 0;
420
    int need_send, need_recv;
421
    const char *type_name;
422
    int pkt_ctr = 0;
423
    unsigned char *dp;
424
 
425
    need_recv = true;  need_send = true;  type_name = "TCP echo";
426
    switch (type) {
427
    case NC_REQUEST_TCP_RECV:
428
        need_recv = false;
429
        need_send = true;
430
        type_name = "TCP recv";
431
        break;
432
    case NC_REQUEST_TCP_SEND:
433
        need_recv = true;
434
        need_send = false;
435
        type_name = "TCP send";
436
        break;
437
    case NC_REQUEST_TCP_ECHO:
438
        break;
439
    }
440
 
441
    new_test();
442
    req.type = htonl(type);
443
    req.nbufs = htonl(nbufs);
444
    req.buflen = htonl(buflen);
445
    req.slave_port = htonl(NC_TESTING_SLAVE_PORT);
446
    req.master_port = htonl(NC_TESTING_MASTER_PORT);
447
    nc_message(s1, &req, &reply, slave);
448
    if (reply.response != ntohl(NC_REPLY_ACK)) {
449
        test_printf("Slave denied %s [%d,%d] test\n", type_name, nbufs, buflen);
450
        return;
451
    }
452
 
453
    s = socket(slave->sa_family, SOCK_STREAM, 0);
454
    if (s < 0) {
455
        pexit("datagram socket");
456
    }
457
 
458
    test_printf("Start %s [%d,%d]", type_name, nbufs, buflen);
459
    if (pause_time) {
460
        test_printf(" - %dms delay after %d packet%s\n", pause_time*10,
461
                    pause_threshold, pause_threshold > 1 ? "s" : "");
462
    } else {
463
        test_printf(" - no delays\n");
464
    }
465
 
466
    test_delay(3*100);
467
    memcpy(&test_chan_slave, slave, sa_len(slave));
468
    switch (slave->sa_family) {
469
    case AF_INET:
470
        ((struct sockaddr_in *)&test_chan_slave)->sin_port = htons(ntohl(req.slave_port));
471
        break;
472
    case AF_INET6:
473
        ((struct sockaddr_in6 *)&test_chan_slave)->sin6_port = htons(ntohl(req.slave_port));
474
        break;
475
    default:
476
        pexit("strange TCP sockaddr");
477
    }
478
    while (connect(s, (struct sockaddr *)&test_chan_slave, sa_len(slave)) < 0) {
479
        perror("Can't connect to slave");
480
        if (++conn_failures > MAX_ERRORS) {
481
            test_printf("Too many connection failures - giving up\n");
482
            return;
483
        }
484
        if (errno == ECONNREFUSED) {
485
            // Give the slave a little time
486
            test_delay(100);  // 1 second
487
        } else {
488
            return;
489
        }
490
    }
491
 
492
    gettimeofday(&start_time, 0);
493
    seq = 0;  seq_errors = 0;  total_packets = 0;
494
    for (i = 0;  i < nbufs;  i++) {
495
        td_len = buflen + sizeof(struct nc_test_data);
496
        if (need_send) {
497
            tdp = (struct nc_test_data *)out_buf;
498
            tdp->key1 = htonl(NC_TEST_DATA_KEY1);
499
            tdp->key2 = htonl(NC_TEST_DATA_KEY2);
500
            tdp->seq = htonl(i);
501
            tdp->len = htonl(td_len);
502
            tot_len = 0;
503
            dp = (unsigned char *)tdp;
504
            while (tot_len < td_len) {
505
                len = td_len - tot_len;
506
                if ((wlen = write(s, dp, len)) != len) {
507
                    if (wlen < 0) {
508
                        test_printf("Slave connection broken\n");
509
                        perror("write");
510
                        close(s);
511
                        return;
512
                    } else {
513
                        test_printf("block: %d, short write - only %d of %d\n",
514
                                    total_packets, wlen, len);
515
                    }
516
                }
517
                tot_len += wlen;
518
                dp += wlen;
519
            }
520
            total_packets++;
521
        }
522
        if (need_recv) {
523
            tdp = (struct nc_test_data *)in_buf;
524
            res = do_read(s, tdp, td_len);
525
            if (res != td_len) {
526
                lost_packets++;
527
                if (res < 0) {
528
                    test_printf("Slave connection broken\n");
529
                    perror("read");
530
                    break;
531
                } else {
532
                    test_printf("Slave timed out after %d buffers [read %d bytes]\n", i, res);
533
                }
534
            } else {
535
                if ((ntohl(tdp->key1) == NC_TEST_DATA_KEY1) &&
536
                    (ntohl(tdp->key2) == NC_TEST_DATA_KEY2)) {
537
                    if (ntohl(tdp->seq) != seq) {
538
                        test_printf("Packets out of sequence - recvd: %d, expected: %d\n",
539
                                    ntohl(tdp->seq), seq);
540
                        seq_errors++;
541
                        if (!need_send) {
542
                            // Reset sequence to what the slave wants
543
                            seq = ntohl(tdp->seq);
544
                        }
545
                    }
546
                } else {
547
                    test_printf("Bad data packet - key: %x/%x, seq: %d\n",
548
                                ntohl(tdp->key1), ntohl(tdp->key2),
549
                                ntohl(tdp->seq));
550
                }
551
                total_packets++;
552
            }
553
            seq++;
554
            if (seq == nbufs) {
555
                break;
556
            }
557
            if (pause_time && (++pkt_ctr == pause_threshold)) {
558
                pkt_ctr = 0;
559
                test_delay(pause_time);
560
            }
561
        }
562
    }
563
    gettimeofday(&end_time, 0);
564
    show_results(type_name, &start_time, &end_time, total_packets, buflen,
565
                 lost_packets, seq_errors);
566
    // Fetch results record
567
    if (do_read(s, &results, sizeof(results)) != sizeof(results)) {
568
        test_printf("No results record sent\n");
569
    } else {
570
        show_test_results(&results);
571
    }
572
    close(s);
573
}
574
 
575
int
576
do_set_load(int s, struct sockaddr *slave, int load_level)
577
{
578
    struct nc_request req;
579
    struct nc_reply reply;
580
    req.type = htonl(NC_REQUEST_SET_LOAD);
581
    req.nbufs = htonl(load_level);
582
    nc_message(s, &req, &reply, slave);
583
    return (reply.response == ntohl(NC_REPLY_ACK));
584
}
585
 
586
int
587
do_start_idle(int s, struct sockaddr *slave)
588
{
589
    struct nc_request req;
590
    struct nc_reply reply;
591
    req.type = htonl(NC_REQUEST_START_IDLE);
592
    nc_message(s, &req, &reply, slave);
593
    return (reply.response == ntohl(NC_REPLY_ACK));
594
}
595
 
596
void
597
do_stop_idle(int s, struct sockaddr *slave, int calibrate)
598
{
599
    struct nc_request req;
600
    struct nc_reply reply;
601
    long long res_idle_count;
602
    long long adj_count;
603
    int idle, res_idle_ticks;
604
    req.type = htonl(NC_REQUEST_STOP_IDLE);
605
    nc_message(s, &req, &reply, slave);
606
    if (reply.response == ntohl(NC_REPLY_ACK)) {
607
        res_idle_ticks = ntohl(reply.misc.idle_results.elapsed_time);
608
        res_idle_count = ((long long)ntohl(reply.misc.idle_results.count[0]) << 32) |
609
            ntohl(reply.misc.idle_results.count[1]);
610
        test_printf("IDLE - ticks: %d, count: %ld",
611
                    res_idle_ticks, res_idle_count);
612
        if (calibrate) {
613
            idle_count = res_idle_count;
614
            idle_ticks = res_idle_ticks;
615
        } else {
616
            adj_count = res_idle_count / res_idle_ticks;
617
            adj_count *= idle_ticks;
618
            idle = (int) ((adj_count * 100) / idle_count);
619
            test_printf(", %d%% idle", idle);
620
        }
621
        test_printf("\n");
622
    } else {
623
        test_printf("Slave failed on IDLE\n");
624
    }
625
}
626
 
627
void
628
do_disconnect(int s, struct sockaddr *slave)
629
{
630
    struct nc_request req;
631
    struct nc_reply reply;
632
    req.type = htonl(NC_REQUEST_DISCONNECT);
633
    nc_message(s, &req, &reply, slave);
634
}
635
 
636
static void
637
nc_master_test(struct sockaddr *slave, int test_tcp, int test_udp,
638
               int test_slave_loads, int test_master_loads)
639
{
640
    int s, i;
641
    struct sockaddr_storage my_addr;
642
    struct pause pause_times[] = {
643
        {0,0}, {1,10}, {5,10}, {10,10}, {1,1} };
644
 
645
 
646
    s = socket(slave->sa_family, SOCK_DGRAM, 0);
647
    if (s < 0) {
648
        pexit("datagram socket");
649
    }
650
 
651
    memset(&my_addr, 0, sizeof(my_addr));
652
    ((struct sockaddr *)&my_addr)->sa_family = slave->sa_family;
653
#ifndef __linux
654
    ((struct sockaddr *)&my_addr)->sa_len = slave->sa_len;
655
#endif
656
    switch (slave->sa_family) {
657
    case AF_INET:
658
        ((struct sockaddr_in *)&my_addr)->sin_addr.s_addr = htonl(INADDR_ANY);
659
        ((struct sockaddr_in *)&my_addr)->sin_port = htons(NC_MASTER_PORT);
660
        break;
661
    case AF_INET6:
662
        ((struct sockaddr_in6 *)&my_addr)->sin6_addr = in6addr_any;
663
        ((struct sockaddr_in6 *)&my_addr)->sin6_port = htons(NC_MASTER_PORT);
664
        break;
665
    default:
666
        pexit("strange sockaddr family");
667
    }
668
    if (bind(s, (struct sockaddr *) &my_addr, sa_len((struct sockaddr *)&my_addr)) < 0) {
669
        pexit("UDP bind <main>");
670
    }
671
 
672
    test_printf("================== No load, master at 100%% ========================\n");
673
    if (test_udp) {
674
        do_udp_test(s, NC_REQUEST_UDP_ECHO, slave, 640, 1024, 0, 0);
675
        do_udp_test(s, NC_REQUEST_UDP_SEND, slave, 640, 1024, 0, 0);
676
        do_udp_test(s, NC_REQUEST_UDP_RECV, slave, 640, 1024, 0, 0);
677
    }
678
    if (test_tcp) {
679
        do_tcp_test(s, NC_REQUEST_TCP_ECHO, slave, 640, 1024, 0, 0);
680
        do_tcp_test(s, NC_REQUEST_TCP_SEND, slave, 640, 1024, 0, 0);
681
        do_tcp_test(s, NC_REQUEST_TCP_RECV, slave, 640, 1024, 0, 0);
682
        do_tcp_test(s, NC_REQUEST_TCP_ECHO, slave, 64, 10240, 0, 0);
683
    }
684
 
685
    if (test_slave_loads) {
686
        if (do_set_load(s, slave, 0)) {
687
            test_printf("\n====================== Various slave compute loads ===================\n");
688
            for (i = 0;  i < 60;  i += 10) {
689
                test_printf(">>>>>>>>>>>> slave processing load at %d%%\n", i);
690
                do_set_load(s, slave, i);
691
                if (test_udp) {
692
                    do_udp_test(s, NC_REQUEST_UDP_ECHO, slave, 2048, 1024, 0, 0);
693
                }
694
                if (test_tcp) {
695
                    do_tcp_test(s, NC_REQUEST_TCP_ECHO, slave, 2048, 1024, 0, 0);
696
                }
697
            }
698
        }
699
    }
700
 
701
    if (test_master_loads) {
702
        if (do_start_idle(s, slave)) {
703
            test_printf("\n====================== Various master loads ===================\n");
704
            test_printf("Testing IDLE for %d seconds\n", IDLE_TEST_TIME);
705
            test_delay(IDLE_TEST_TIME*100);
706
            do_stop_idle(s, slave, true);
707
            for (i = 0;  i < LENGTH(pause_times);  i++) {
708
                if (test_udp) {
709
                    do_start_idle(s, slave);
710
                    do_udp_test(s, NC_REQUEST_UDP_ECHO, slave, 2048, 1024,
711
                                pause_times[i].pause_ticks, pause_times[i].pause_threshold);
712
                    do_stop_idle(s, slave, false);
713
                }
714
                if (test_tcp) {
715
                    do_start_idle(s, slave);
716
                    do_tcp_test(s, NC_REQUEST_TCP_ECHO, slave, 2048, 1024,
717
                                pause_times[i].pause_ticks, pause_times[i].pause_threshold);
718
                    do_stop_idle(s, slave, false);
719
                }
720
            }
721
        }
722
    }
723
 
724
//    do_disconnect(s, slave);
725
    close(s);
726
}
727
 
728
static void
729
nc_master(struct test_params *p)
730
{
731
    struct sockaddr_storage slave, my_addr;
732
    struct addrinfo *ai, *addrs, hints;
733
    char *host = (char *)NULL;
734
    int i;
735
    int err = 0;
736
    int test_tcp = true;
737
    int test_udp = true;
738
    int test_slave_loads = true;
739
    int test_master_loads = true;
740
 
741
    for (i = 1;  i < p->argc;  i++) {
742
        if (p->argv[i][0] == '-') {
743
            switch (p->argv[i][1]) {
744
            case 't':
745
                test_tcp = false;
746
                break;
747
            case 'u':
748
                test_udp = false;
749
                break;
750
            case 's':
751
                test_slave_loads = false;
752
                break;
753
            case 'm':
754
                test_master_loads = false;
755
                break;
756
            default:
757
                test_printf("... invalid switch '%s'\n", p->argv[i]);
758
                err++;
759
            }
760
        } else {
761
            if (host != (char *)NULL) {
762
                test_printf("... ignoring argument '%s'\n", p->argv[i]);
763
                err++;
764
            } else {
765
                host = p->argv[i];
766
            }
767
        }
768
    }
769
    if ((err != 0) || (p->argc < 2) || (host == (char *)NULL)) {
770
        test_printf("usage: 'master <host> [-t] [-u] [-s] [-m]'\n");
771
        test_printf("   -t - suppress TCP tests\n");
772
        test_printf("   -u - suppress UDP tests\n");
773
        test_printf("   -s - suppress slave load tests\n");
774
        test_printf("   -m - suppress master load tests\n");
775
        return;
776
    }
777
    bzero(&hints, sizeof(hints));
778
    hints.ai_family = PF_UNSPEC;
779
    hints.ai_socktype = SOCK_DGRAM;
780
    hints.ai_flags = AI_PASSIVE;
781
    if ((err = getaddrinfo(p->argv[1], _string(NC_SLAVE_PORT), &hints, &addrs)) != EAI_NONE) {
782
        test_printf("<ERROR> can't getaddrinfo(): %s\n", gai_strerror(err));
783
        pexit("getaddrinfo");
784
    }
785
    // Prepare a socket for each connection type
786
    ai = addrs;
787
    while (ai) {
788
        nc_master_test(ai->ai_addr, test_tcp, test_udp, test_slave_loads, test_master_loads);
789
        ai = ai->ai_next;
790
    }
791
}
792
 
793
void
794
net_test(test_param_t p)
795
{
796
    test_printf("Start Network Characterization - MASTER\n");
797
#ifdef __ECOS
798
    init_all_network_interfaces();
799
#endif
800
    nc_master((struct test_params *)p);
801
    cyg_test_exit();
802
}
803
 
804
#ifdef __ECOS
805
void
806
cyg_start(void)
807
{
808
    static struct test_params p;
809
    // Create a main thread, so we can run the scheduler and have time 'pass'
810
    cyg_thread_create(10,                // Priority - just a number
811
                      net_test,          // entry
812
                      (cyg_addrword_t)&p,// entry parameter
813
                      "Network test",    // Name
814
                      &stack[0],         // Stack
815
                      STACK_SIZE,        // Size
816
                      &thread_handle,    // Handle
817
                      &thread_data       // Thread data structure
818
            );
819
    cyg_thread_resume(thread_handle);  // Start it
820
    cyg_scheduler_start();
821
}
822
 
823
#else
824
 
825
int
826
main(int argc, char *argv[])
827
{
828
    struct test_params p;
829
    p.argc = argc;
830
    p.argv = argv;
831
    net_test(&p);
832
}
833
#endif

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.