1*43a90889SApple OSS Distributions #include <AvailabilityMacros.h>
2*43a90889SApple OSS Distributions #include <mach/thread_policy.h>
3*43a90889SApple OSS Distributions #include <mach/mach.h>
4*43a90889SApple OSS Distributions #include <mach/mach_error.h>
5*43a90889SApple OSS Distributions #include <mach/mach_time.h>
6*43a90889SApple OSS Distributions #include <pthread.h>
7*43a90889SApple OSS Distributions #include <sys/queue.h>
8*43a90889SApple OSS Distributions #include <stdio.h>
9*43a90889SApple OSS Distributions #include <stdlib.h>
10*43a90889SApple OSS Distributions #include <string.h>
11*43a90889SApple OSS Distributions #include <unistd.h>
12*43a90889SApple OSS Distributions #include <err.h>
13*43a90889SApple OSS Distributions
14*43a90889SApple OSS Distributions /*
15*43a90889SApple OSS Distributions * Pool is another multithreaded test/benchmarking program to evaluate
16*43a90889SApple OSS Distributions * affinity set placement in Leopard.
17*43a90889SApple OSS Distributions *
18*43a90889SApple OSS Distributions * The basic picture is:
19*43a90889SApple OSS Distributions *
20*43a90889SApple OSS Distributions * -> producer -- -> consumer --
21*43a90889SApple OSS Distributions * free / \ work / \
22*43a90889SApple OSS Distributions * -> queue -- ... --> queue -- --
23*43a90889SApple OSS Distributions * | \ / \ / |
24*43a90889SApple OSS Distributions * | -> producer -- -> consumer -- |
25*43a90889SApple OSS Distributions * ---------------------------------------------------------------
26*43a90889SApple OSS Distributions *
27*43a90889SApple OSS Distributions * <---------- "stage" ---------> <---------- "stage" --------->
28*43a90889SApple OSS Distributions *
29*43a90889SApple OSS Distributions * There are a series of work stages. Each stage has an input and an output
30*43a90889SApple OSS Distributions * queue and multiple threads. The first stage is the producer and subsequent
31*43a90889SApple OSS Distributions * stages are consumers. By defuaut there are 2 stages. There are N producer
32*43a90889SApple OSS Distributions * and M consumer threads. The are B buffers per producer threads circulating
33*43a90889SApple OSS Distributions * through the system.
34*43a90889SApple OSS Distributions *
35*43a90889SApple OSS Distributions * When affinity is enabled, each producer thread is tagged with an affinity tag
36*43a90889SApple OSS Distributions * 1 .. N - so each runs on a different L2 cache. When a buffer is queued to
37*43a90889SApple OSS Distributions * the work queue it is tagged with this affinity. When a consumer dequeues a
38*43a90889SApple OSS Distributions * work item, it sets its affinity to this tag. Hence consumer threads migrate
39*43a90889SApple OSS Distributions * to the same affinity set where the data was produced.
40*43a90889SApple OSS Distributions *
41*43a90889SApple OSS Distributions * Buffer management uses pthread mutex/condition variables. A thread blocks
42*43a90889SApple OSS Distributions * when no buffer is available on a queue and it is signaled when a buffer
43*43a90889SApple OSS Distributions * is placed on an empty queue. Queues are tailq'a a la <sys/queue.h>.
44*43a90889SApple OSS Distributions * The queue management is centralized in a single routine: what queues to
45*43a90889SApple OSS Distributions * use as input and output and what function to call for processing is
46*43a90889SApple OSS Distributions * data-driven.
47*43a90889SApple OSS Distributions */
48*43a90889SApple OSS Distributions
49*43a90889SApple OSS Distributions pthread_mutex_t funnel;
50*43a90889SApple OSS Distributions pthread_cond_t barrier;
51*43a90889SApple OSS Distributions
52*43a90889SApple OSS Distributions uint64_t timer;
53*43a90889SApple OSS Distributions int threads;
54*43a90889SApple OSS Distributions int threads_ready = 0;
55*43a90889SApple OSS Distributions
56*43a90889SApple OSS Distributions int iterations = 10000;
57*43a90889SApple OSS Distributions boolean_t affinity = FALSE;
58*43a90889SApple OSS Distributions boolean_t halting = FALSE;
59*43a90889SApple OSS Distributions int verbosity = 1;
60*43a90889SApple OSS Distributions
61*43a90889SApple OSS Distributions typedef struct work {
62*43a90889SApple OSS Distributions TAILQ_ENTRY(work) link;
63*43a90889SApple OSS Distributions int *data;
64*43a90889SApple OSS Distributions int isize;
65*43a90889SApple OSS Distributions int tag;
66*43a90889SApple OSS Distributions int number;
67*43a90889SApple OSS Distributions } work_t;
68*43a90889SApple OSS Distributions
69*43a90889SApple OSS Distributions /*
70*43a90889SApple OSS Distributions * A work queue, complete with pthread objects for its management
71*43a90889SApple OSS Distributions */
72*43a90889SApple OSS Distributions typedef struct work_queue {
73*43a90889SApple OSS Distributions pthread_mutex_t mtx;
74*43a90889SApple OSS Distributions pthread_cond_t cnd;
75*43a90889SApple OSS Distributions TAILQ_HEAD(, work) queue;
76*43a90889SApple OSS Distributions unsigned int waiters;
77*43a90889SApple OSS Distributions } work_queue_t;
78*43a90889SApple OSS Distributions
79*43a90889SApple OSS Distributions /* Worker functions take a integer array and size */
80*43a90889SApple OSS Distributions typedef void (worker_fn_t)(int *, int);
81*43a90889SApple OSS Distributions
82*43a90889SApple OSS Distributions /* This struct controls the function of a stage */
83*43a90889SApple OSS Distributions #define WORKERS_MAX 10
84*43a90889SApple OSS Distributions typedef struct {
85*43a90889SApple OSS Distributions int stagenum;
86*43a90889SApple OSS Distributions char *name;
87*43a90889SApple OSS Distributions worker_fn_t *fn;
88*43a90889SApple OSS Distributions work_queue_t *input;
89*43a90889SApple OSS Distributions work_queue_t *output;
90*43a90889SApple OSS Distributions work_queue_t bufq;
91*43a90889SApple OSS Distributions int work_todo;
92*43a90889SApple OSS Distributions } stage_info_t;
93*43a90889SApple OSS Distributions
94*43a90889SApple OSS Distributions /* This defines a worker thread */
95*43a90889SApple OSS Distributions typedef struct worker_info {
96*43a90889SApple OSS Distributions int setnum;
97*43a90889SApple OSS Distributions stage_info_t *stage;
98*43a90889SApple OSS Distributions pthread_t thread;
99*43a90889SApple OSS Distributions } worker_info_t;
100*43a90889SApple OSS Distributions
101*43a90889SApple OSS Distributions #define DBG(x...) do { \
102*43a90889SApple OSS Distributions if (verbosity > 1) { \
103*43a90889SApple OSS Distributions pthread_mutex_lock(&funnel); \
104*43a90889SApple OSS Distributions printf(x); \
105*43a90889SApple OSS Distributions pthread_mutex_unlock(&funnel); \
106*43a90889SApple OSS Distributions } \
107*43a90889SApple OSS Distributions } while (0)
108*43a90889SApple OSS Distributions
109*43a90889SApple OSS Distributions #define mutter(x...) do { \
110*43a90889SApple OSS Distributions if (verbosity > 0) { \
111*43a90889SApple OSS Distributions printf(x); \
112*43a90889SApple OSS Distributions } \
113*43a90889SApple OSS Distributions } while (0)
114*43a90889SApple OSS Distributions
115*43a90889SApple OSS Distributions #define s_if_plural(x) (((x) > 1) ? "s" : "")
116*43a90889SApple OSS Distributions
117*43a90889SApple OSS Distributions static void
usage()118*43a90889SApple OSS Distributions usage()
119*43a90889SApple OSS Distributions {
120*43a90889SApple OSS Distributions fprintf(stderr,
121*43a90889SApple OSS Distributions "usage: pool [-a] Turn affinity on (off)\n"
122*43a90889SApple OSS Distributions " [-b B] Number of buffers per producer (2)\n"
123*43a90889SApple OSS Distributions " [-i I] Number of buffers to produce (10000)\n"
124*43a90889SApple OSS Distributions " [-s S] Number of stages (2)\n"
125*43a90889SApple OSS Distributions " [-p P] Number of pages per buffer (256=1MB)]\n"
126*43a90889SApple OSS Distributions " [-w] Consumer writes data\n"
127*43a90889SApple OSS Distributions " [-v V] Verbosity level 0..2 (1)\n"
128*43a90889SApple OSS Distributions " [N [M]] Number of producer and consumers (2)\n"
129*43a90889SApple OSS Distributions );
130*43a90889SApple OSS Distributions exit(1);
131*43a90889SApple OSS Distributions }
132*43a90889SApple OSS Distributions
133*43a90889SApple OSS Distributions /* Trivial producer: write to each byte */
134*43a90889SApple OSS Distributions void
writer_fn(int * data,int isize)135*43a90889SApple OSS Distributions writer_fn(int *data, int isize)
136*43a90889SApple OSS Distributions {
137*43a90889SApple OSS Distributions int i;
138*43a90889SApple OSS Distributions
139*43a90889SApple OSS Distributions for (i = 0; i < isize; i++) {
140*43a90889SApple OSS Distributions data[i] = i;
141*43a90889SApple OSS Distributions }
142*43a90889SApple OSS Distributions }
143*43a90889SApple OSS Distributions
144*43a90889SApple OSS Distributions /* Trivial consumer: read each byte */
145*43a90889SApple OSS Distributions void
reader_fn(int * data,int isize)146*43a90889SApple OSS Distributions reader_fn(int *data, int isize)
147*43a90889SApple OSS Distributions {
148*43a90889SApple OSS Distributions int i;
149*43a90889SApple OSS Distributions int datum;
150*43a90889SApple OSS Distributions
151*43a90889SApple OSS Distributions for (i = 0; i < isize; i++) {
152*43a90889SApple OSS Distributions datum = data[i];
153*43a90889SApple OSS Distributions }
154*43a90889SApple OSS Distributions }
155*43a90889SApple OSS Distributions
156*43a90889SApple OSS Distributions /* Consumer reading and writing the buffer */
157*43a90889SApple OSS Distributions void
reader_writer_fn(int * data,int isize)158*43a90889SApple OSS Distributions reader_writer_fn(int *data, int isize)
159*43a90889SApple OSS Distributions {
160*43a90889SApple OSS Distributions int i;
161*43a90889SApple OSS Distributions
162*43a90889SApple OSS Distributions for (i = 0; i < isize; i++) {
163*43a90889SApple OSS Distributions data[i] += 1;
164*43a90889SApple OSS Distributions }
165*43a90889SApple OSS Distributions }
166*43a90889SApple OSS Distributions
167*43a90889SApple OSS Distributions void
affinity_set(int tag)168*43a90889SApple OSS Distributions affinity_set(int tag)
169*43a90889SApple OSS Distributions {
170*43a90889SApple OSS Distributions kern_return_t ret;
171*43a90889SApple OSS Distributions thread_affinity_policy_data_t policy;
172*43a90889SApple OSS Distributions if (affinity) {
173*43a90889SApple OSS Distributions policy.affinity_tag = tag;
174*43a90889SApple OSS Distributions ret = thread_policy_set(
175*43a90889SApple OSS Distributions mach_thread_self(), THREAD_AFFINITY_POLICY,
176*43a90889SApple OSS Distributions (thread_policy_t) &policy,
177*43a90889SApple OSS Distributions THREAD_AFFINITY_POLICY_COUNT);
178*43a90889SApple OSS Distributions if (ret != KERN_SUCCESS) {
179*43a90889SApple OSS Distributions printf("thread_policy_set(THREAD_AFFINITY_POLICY) returned %d\n", ret);
180*43a90889SApple OSS Distributions }
181*43a90889SApple OSS Distributions }
182*43a90889SApple OSS Distributions }
183*43a90889SApple OSS Distributions
184*43a90889SApple OSS Distributions /*
185*43a90889SApple OSS Distributions * This is the central function for every thread.
186*43a90889SApple OSS Distributions * For each invocation, its role is ets by (a pointer to) a stage_info_t.
187*43a90889SApple OSS Distributions */
188*43a90889SApple OSS Distributions void *
manager_fn(void * arg)189*43a90889SApple OSS Distributions manager_fn(void *arg)
190*43a90889SApple OSS Distributions {
191*43a90889SApple OSS Distributions worker_info_t *wp = (worker_info_t *) arg;
192*43a90889SApple OSS Distributions stage_info_t *sp = wp->stage;
193*43a90889SApple OSS Distributions boolean_t is_producer = (sp->stagenum == 0);
194*43a90889SApple OSS Distributions long iteration = 0;
195*43a90889SApple OSS Distributions int current_tag = 0;
196*43a90889SApple OSS Distributions
197*43a90889SApple OSS Distributions kern_return_t ret;
198*43a90889SApple OSS Distributions thread_extended_policy_data_t epolicy;
199*43a90889SApple OSS Distributions epolicy.timeshare = FALSE;
200*43a90889SApple OSS Distributions ret = thread_policy_set(
201*43a90889SApple OSS Distributions mach_thread_self(), THREAD_EXTENDED_POLICY,
202*43a90889SApple OSS Distributions (thread_policy_t) &epolicy,
203*43a90889SApple OSS Distributions THREAD_EXTENDED_POLICY_COUNT);
204*43a90889SApple OSS Distributions if (ret != KERN_SUCCESS) {
205*43a90889SApple OSS Distributions printf("thread_policy_set(THREAD_EXTENDED_POLICY) returned %d\n", ret);
206*43a90889SApple OSS Distributions }
207*43a90889SApple OSS Distributions
208*43a90889SApple OSS Distributions /*
209*43a90889SApple OSS Distributions * If we're using affinity sets and we're a producer
210*43a90889SApple OSS Distributions * set our tag to by our thread set number.
211*43a90889SApple OSS Distributions */
212*43a90889SApple OSS Distributions if (affinity && is_producer) {
213*43a90889SApple OSS Distributions affinity_set(wp->setnum);
214*43a90889SApple OSS Distributions current_tag = wp->setnum;
215*43a90889SApple OSS Distributions }
216*43a90889SApple OSS Distributions
217*43a90889SApple OSS Distributions DBG("Starting %s %d, stage: %d\n", sp->name, wp->setnum, sp->stagenum);
218*43a90889SApple OSS Distributions
219*43a90889SApple OSS Distributions /*
220*43a90889SApple OSS Distributions * Start barrier.
221*43a90889SApple OSS Distributions * The tets thread to get here releases everyone and starts the timer.
222*43a90889SApple OSS Distributions */
223*43a90889SApple OSS Distributions pthread_mutex_lock(&funnel);
224*43a90889SApple OSS Distributions threads_ready++;
225*43a90889SApple OSS Distributions if (threads_ready == threads) {
226*43a90889SApple OSS Distributions pthread_mutex_unlock(&funnel);
227*43a90889SApple OSS Distributions if (halting) {
228*43a90889SApple OSS Distributions printf(" all threads ready for process %d, "
229*43a90889SApple OSS Distributions "hit any key to start", getpid());
230*43a90889SApple OSS Distributions fflush(stdout);
231*43a90889SApple OSS Distributions (void) getchar();
232*43a90889SApple OSS Distributions }
233*43a90889SApple OSS Distributions pthread_cond_broadcast(&barrier);
234*43a90889SApple OSS Distributions timer = mach_absolute_time();
235*43a90889SApple OSS Distributions } else {
236*43a90889SApple OSS Distributions pthread_cond_wait(&barrier, &funnel);
237*43a90889SApple OSS Distributions pthread_mutex_unlock(&funnel);
238*43a90889SApple OSS Distributions }
239*43a90889SApple OSS Distributions
240*43a90889SApple OSS Distributions do {
241*43a90889SApple OSS Distributions work_t *workp;
242*43a90889SApple OSS Distributions
243*43a90889SApple OSS Distributions /*
244*43a90889SApple OSS Distributions * Get a buffer from the input queue.
245*43a90889SApple OSS Distributions * Block if none.
246*43a90889SApple OSS Distributions * Quit if all work done.
247*43a90889SApple OSS Distributions */
248*43a90889SApple OSS Distributions pthread_mutex_lock(&sp->input->mtx);
249*43a90889SApple OSS Distributions while (1) {
250*43a90889SApple OSS Distributions if (sp->work_todo == 0) {
251*43a90889SApple OSS Distributions pthread_mutex_unlock(&sp->input->mtx);
252*43a90889SApple OSS Distributions goto out;
253*43a90889SApple OSS Distributions }
254*43a90889SApple OSS Distributions workp = TAILQ_FIRST(&(sp->input->queue));
255*43a90889SApple OSS Distributions if (workp != NULL) {
256*43a90889SApple OSS Distributions break;
257*43a90889SApple OSS Distributions }
258*43a90889SApple OSS Distributions DBG(" %s[%d,%d] todo %d waiting for buffer\n",
259*43a90889SApple OSS Distributions sp->name, wp->setnum, sp->stagenum, sp->work_todo);
260*43a90889SApple OSS Distributions sp->input->waiters++;
261*43a90889SApple OSS Distributions pthread_cond_wait(&sp->input->cnd, &sp->input->mtx);
262*43a90889SApple OSS Distributions sp->input->waiters--;
263*43a90889SApple OSS Distributions }
264*43a90889SApple OSS Distributions TAILQ_REMOVE(&(sp->input->queue), workp, link);
265*43a90889SApple OSS Distributions iteration = sp->work_todo--;
266*43a90889SApple OSS Distributions pthread_mutex_unlock(&sp->input->mtx);
267*43a90889SApple OSS Distributions
268*43a90889SApple OSS Distributions if (is_producer) {
269*43a90889SApple OSS Distributions workp->number = iteration;
270*43a90889SApple OSS Distributions workp->tag = wp->setnum;
271*43a90889SApple OSS Distributions } else {
272*43a90889SApple OSS Distributions if (affinity && current_tag != workp->tag) {
273*43a90889SApple OSS Distributions affinity_set(workp->tag);
274*43a90889SApple OSS Distributions current_tag = workp->tag;
275*43a90889SApple OSS Distributions }
276*43a90889SApple OSS Distributions }
277*43a90889SApple OSS Distributions
278*43a90889SApple OSS Distributions DBG(" %s[%d,%d] todo %d work %p data %p\n",
279*43a90889SApple OSS Distributions sp->name, wp->setnum, sp->stagenum, iteration, workp, workp->data);
280*43a90889SApple OSS Distributions
281*43a90889SApple OSS Distributions /* Do our stuff with the buffer */
282*43a90889SApple OSS Distributions (void) sp->fn(workp->data, workp->isize);
283*43a90889SApple OSS Distributions
284*43a90889SApple OSS Distributions /*
285*43a90889SApple OSS Distributions * Place the buffer on the input queue of the next stage.
286*43a90889SApple OSS Distributions * Signal waiters if required.
287*43a90889SApple OSS Distributions */
288*43a90889SApple OSS Distributions pthread_mutex_lock(&sp->output->mtx);
289*43a90889SApple OSS Distributions TAILQ_INSERT_TAIL(&(sp->output->queue), workp, link);
290*43a90889SApple OSS Distributions if (sp->output->waiters) {
291*43a90889SApple OSS Distributions DBG(" %s[%d,%d] todo %d signaling work\n",
292*43a90889SApple OSS Distributions sp->name, wp->setnum, sp->stagenum, iteration);
293*43a90889SApple OSS Distributions pthread_cond_signal(&sp->output->cnd);
294*43a90889SApple OSS Distributions }
295*43a90889SApple OSS Distributions pthread_mutex_unlock(&sp->output->mtx);
296*43a90889SApple OSS Distributions } while (1);
297*43a90889SApple OSS Distributions
298*43a90889SApple OSS Distributions out:
299*43a90889SApple OSS Distributions pthread_cond_broadcast(&sp->output->cnd);
300*43a90889SApple OSS Distributions
301*43a90889SApple OSS Distributions DBG("Ending %s[%d,%d]\n", sp->name, wp->setnum, sp->stagenum);
302*43a90889SApple OSS Distributions
303*43a90889SApple OSS Distributions return (void *) iteration;
304*43a90889SApple OSS Distributions }
305*43a90889SApple OSS Distributions
306*43a90889SApple OSS Distributions void (*producer_fnp)(int *data, int isize) = &writer_fn;
307*43a90889SApple OSS Distributions void (*consumer_fnp)(int *data, int isize) = &reader_fn;
308*43a90889SApple OSS Distributions
309*43a90889SApple OSS Distributions int
main(int argc,char * argv[])310*43a90889SApple OSS Distributions main(int argc, char *argv[])
311*43a90889SApple OSS Distributions {
312*43a90889SApple OSS Distributions int i;
313*43a90889SApple OSS Distributions int j;
314*43a90889SApple OSS Distributions int k;
315*43a90889SApple OSS Distributions int pages = 256; /* 1MB */
316*43a90889SApple OSS Distributions int buffers = 2;
317*43a90889SApple OSS Distributions int producers = 2;
318*43a90889SApple OSS Distributions int consumers = 2;
319*43a90889SApple OSS Distributions int stages = 2;
320*43a90889SApple OSS Distributions int *status;
321*43a90889SApple OSS Distributions stage_info_t *stage_info;
322*43a90889SApple OSS Distributions stage_info_t *sp;
323*43a90889SApple OSS Distributions worker_info_t *worker_info;
324*43a90889SApple OSS Distributions worker_info_t *wp;
325*43a90889SApple OSS Distributions kern_return_t ret;
326*43a90889SApple OSS Distributions int c;
327*43a90889SApple OSS Distributions
328*43a90889SApple OSS Distributions /* Do switch parsing: */
329*43a90889SApple OSS Distributions while ((c = getopt(argc, argv, "ab:i:p:s:twv:")) != -1) {
330*43a90889SApple OSS Distributions switch (c) {
331*43a90889SApple OSS Distributions case 'a':
332*43a90889SApple OSS Distributions affinity = !affinity;
333*43a90889SApple OSS Distributions break;
334*43a90889SApple OSS Distributions case 'b':
335*43a90889SApple OSS Distributions buffers = atoi(optarg);
336*43a90889SApple OSS Distributions break;
337*43a90889SApple OSS Distributions case 'i':
338*43a90889SApple OSS Distributions iterations = atoi(optarg);
339*43a90889SApple OSS Distributions break;
340*43a90889SApple OSS Distributions case 'p':
341*43a90889SApple OSS Distributions pages = atoi(optarg);
342*43a90889SApple OSS Distributions break;
343*43a90889SApple OSS Distributions case 's':
344*43a90889SApple OSS Distributions stages = atoi(optarg);
345*43a90889SApple OSS Distributions if (stages >= WORKERS_MAX) {
346*43a90889SApple OSS Distributions usage();
347*43a90889SApple OSS Distributions }
348*43a90889SApple OSS Distributions break;
349*43a90889SApple OSS Distributions case 't':
350*43a90889SApple OSS Distributions halting = TRUE;
351*43a90889SApple OSS Distributions break;
352*43a90889SApple OSS Distributions case 'w':
353*43a90889SApple OSS Distributions consumer_fnp = &reader_writer_fn;
354*43a90889SApple OSS Distributions break;
355*43a90889SApple OSS Distributions case 'v':
356*43a90889SApple OSS Distributions verbosity = atoi(optarg);
357*43a90889SApple OSS Distributions break;
358*43a90889SApple OSS Distributions case 'h':
359*43a90889SApple OSS Distributions case '?':
360*43a90889SApple OSS Distributions default:
361*43a90889SApple OSS Distributions usage();
362*43a90889SApple OSS Distributions }
363*43a90889SApple OSS Distributions }
364*43a90889SApple OSS Distributions argc -= optind; argv += optind;
365*43a90889SApple OSS Distributions if (argc > 0) {
366*43a90889SApple OSS Distributions producers = atoi(*argv);
367*43a90889SApple OSS Distributions }
368*43a90889SApple OSS Distributions argc--; argv++;
369*43a90889SApple OSS Distributions if (argc > 0) {
370*43a90889SApple OSS Distributions consumers = atoi(*argv);
371*43a90889SApple OSS Distributions }
372*43a90889SApple OSS Distributions
373*43a90889SApple OSS Distributions pthread_mutex_init(&funnel, NULL);
374*43a90889SApple OSS Distributions pthread_cond_init(&barrier, NULL);
375*43a90889SApple OSS Distributions
376*43a90889SApple OSS Distributions /*
377*43a90889SApple OSS Distributions * Fire up the worker threads.
378*43a90889SApple OSS Distributions */
379*43a90889SApple OSS Distributions threads = consumers * (stages - 1) + producers;
380*43a90889SApple OSS Distributions mutter("Launching %d producer%s with %d stage%s of %d consumer%s\n"
381*43a90889SApple OSS Distributions " with %saffinity, consumer reads%s data\n",
382*43a90889SApple OSS Distributions producers, s_if_plural(producers),
383*43a90889SApple OSS Distributions stages - 1, s_if_plural(stages - 1),
384*43a90889SApple OSS Distributions consumers, s_if_plural(consumers),
385*43a90889SApple OSS Distributions affinity? "": "no ",
386*43a90889SApple OSS Distributions (consumer_fnp == &reader_writer_fn)? " and writes" : "");
387*43a90889SApple OSS Distributions if (pages < 256) {
388*43a90889SApple OSS Distributions mutter(" %dkB bytes per buffer, ", pages * 4);
389*43a90889SApple OSS Distributions } else {
390*43a90889SApple OSS Distributions mutter(" %dMB bytes per buffer, ", pages / 256);
391*43a90889SApple OSS Distributions }
392*43a90889SApple OSS Distributions mutter("%d buffer%s per producer ",
393*43a90889SApple OSS Distributions buffers, s_if_plural(buffers));
394*43a90889SApple OSS Distributions if (buffers * pages < 256) {
395*43a90889SApple OSS Distributions mutter("(total %dkB)\n", buffers * pages * 4);
396*43a90889SApple OSS Distributions } else {
397*43a90889SApple OSS Distributions mutter("(total %dMB)\n", buffers * pages / 256);
398*43a90889SApple OSS Distributions }
399*43a90889SApple OSS Distributions mutter(" processing %d buffer%s...\n",
400*43a90889SApple OSS Distributions iterations, s_if_plural(iterations));
401*43a90889SApple OSS Distributions
402*43a90889SApple OSS Distributions stage_info = (stage_info_t *) malloc(stages * sizeof(stage_info_t));
403*43a90889SApple OSS Distributions worker_info = (worker_info_t *) malloc(threads * sizeof(worker_info_t));
404*43a90889SApple OSS Distributions
405*43a90889SApple OSS Distributions /* Set up the queue for the workers of this thread set: */
406*43a90889SApple OSS Distributions for (i = 0; i < stages; i++) {
407*43a90889SApple OSS Distributions sp = &stage_info[i];
408*43a90889SApple OSS Distributions sp->stagenum = i;
409*43a90889SApple OSS Distributions pthread_mutex_init(&sp->bufq.mtx, NULL);
410*43a90889SApple OSS Distributions pthread_cond_init(&sp->bufq.cnd, NULL);
411*43a90889SApple OSS Distributions TAILQ_INIT(&sp->bufq.queue);
412*43a90889SApple OSS Distributions sp->bufq.waiters = 0;
413*43a90889SApple OSS Distributions if (i == 0) {
414*43a90889SApple OSS Distributions sp->fn = producer_fnp;
415*43a90889SApple OSS Distributions sp->name = "producer";
416*43a90889SApple OSS Distributions } else {
417*43a90889SApple OSS Distributions sp->fn = consumer_fnp;
418*43a90889SApple OSS Distributions sp->name = "consumer";
419*43a90889SApple OSS Distributions }
420*43a90889SApple OSS Distributions sp->input = &sp->bufq;
421*43a90889SApple OSS Distributions sp->output = &stage_info[(i + 1) % stages].bufq;
422*43a90889SApple OSS Distributions stage_info[i].work_todo = iterations;
423*43a90889SApple OSS Distributions }
424*43a90889SApple OSS Distributions
425*43a90889SApple OSS Distributions /* Create the producers */
426*43a90889SApple OSS Distributions for (i = 0; i < producers; i++) {
427*43a90889SApple OSS Distributions work_t *work_array;
428*43a90889SApple OSS Distributions int *data;
429*43a90889SApple OSS Distributions int isize;
430*43a90889SApple OSS Distributions
431*43a90889SApple OSS Distributions isize = pages * 4096 / sizeof(int);
432*43a90889SApple OSS Distributions data = (int *) malloc(buffers * pages * 4096);
433*43a90889SApple OSS Distributions
434*43a90889SApple OSS Distributions /* Set up the empty work buffers */
435*43a90889SApple OSS Distributions work_array = (work_t *) malloc(buffers * sizeof(work_t));
436*43a90889SApple OSS Distributions for (j = 0; j < buffers; j++) {
437*43a90889SApple OSS Distributions work_array[j].data = data + (isize * j);
438*43a90889SApple OSS Distributions work_array[j].isize = isize;
439*43a90889SApple OSS Distributions work_array[j].tag = 0;
440*43a90889SApple OSS Distributions TAILQ_INSERT_TAIL(&stage_info[0].bufq.queue, &work_array[j], link);
441*43a90889SApple OSS Distributions DBG(" empty work item %p for data %p\n",
442*43a90889SApple OSS Distributions &work_array[j], work_array[j].data);
443*43a90889SApple OSS Distributions }
444*43a90889SApple OSS Distributions wp = &worker_info[i];
445*43a90889SApple OSS Distributions wp->setnum = i + 1;
446*43a90889SApple OSS Distributions wp->stage = &stage_info[0];
447*43a90889SApple OSS Distributions if (ret = pthread_create(&wp->thread,
448*43a90889SApple OSS Distributions NULL,
449*43a90889SApple OSS Distributions &manager_fn,
450*43a90889SApple OSS Distributions (void *) wp)) {
451*43a90889SApple OSS Distributions err(1, "pthread_create %d,%d", 0, i);
452*43a90889SApple OSS Distributions }
453*43a90889SApple OSS Distributions }
454*43a90889SApple OSS Distributions
455*43a90889SApple OSS Distributions /* Create consumers */
456*43a90889SApple OSS Distributions for (i = 1; i < stages; i++) {
457*43a90889SApple OSS Distributions for (j = 0; j < consumers; j++) {
458*43a90889SApple OSS Distributions wp = &worker_info[producers + (consumers * (i - 1)) + j];
459*43a90889SApple OSS Distributions wp->setnum = j + 1;
460*43a90889SApple OSS Distributions wp->stage = &stage_info[i];
461*43a90889SApple OSS Distributions if (ret = pthread_create(&wp->thread,
462*43a90889SApple OSS Distributions NULL,
463*43a90889SApple OSS Distributions &manager_fn,
464*43a90889SApple OSS Distributions (void *) wp)) {
465*43a90889SApple OSS Distributions err(1, "pthread_create %d,%d", i, j);
466*43a90889SApple OSS Distributions }
467*43a90889SApple OSS Distributions }
468*43a90889SApple OSS Distributions }
469*43a90889SApple OSS Distributions
470*43a90889SApple OSS Distributions /*
471*43a90889SApple OSS Distributions * We sit back anf wait for the slaves to finish.
472*43a90889SApple OSS Distributions */
473*43a90889SApple OSS Distributions for (k = 0; k < threads; k++) {
474*43a90889SApple OSS Distributions int i;
475*43a90889SApple OSS Distributions int j;
476*43a90889SApple OSS Distributions
477*43a90889SApple OSS Distributions wp = &worker_info[k];
478*43a90889SApple OSS Distributions if (k < producers) {
479*43a90889SApple OSS Distributions i = 0;
480*43a90889SApple OSS Distributions j = k;
481*43a90889SApple OSS Distributions } else {
482*43a90889SApple OSS Distributions i = (k - producers) / consumers;
483*43a90889SApple OSS Distributions j = (k - producers) % consumers;
484*43a90889SApple OSS Distributions }
485*43a90889SApple OSS Distributions if (ret = pthread_join(wp->thread, (void **)&status)) {
486*43a90889SApple OSS Distributions err(1, "pthread_join %d,%d", i, j);
487*43a90889SApple OSS Distributions }
488*43a90889SApple OSS Distributions DBG("Thread %d,%d status %d\n", i, j, status);
489*43a90889SApple OSS Distributions }
490*43a90889SApple OSS Distributions
491*43a90889SApple OSS Distributions /*
492*43a90889SApple OSS Distributions * See how long the work took.
493*43a90889SApple OSS Distributions */
494*43a90889SApple OSS Distributions timer = mach_absolute_time() - timer;
495*43a90889SApple OSS Distributions timer = timer / 1000000ULL;
496*43a90889SApple OSS Distributions printf("%d.%03d seconds elapsed.\n",
497*43a90889SApple OSS Distributions (int) (timer / 1000ULL), (int) (timer % 1000ULL));
498*43a90889SApple OSS Distributions
499*43a90889SApple OSS Distributions return 0;
500*43a90889SApple OSS Distributions }
501