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qemu-patch-raspberry4/tests/test-coroutine.c
Peter Maydell 6ed5546fa7 trivial patches for 2016-06-07 
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Merge remote-tracking branch 'remotes/mjt/tags/pull-trivial-patches-2016-06-07' into staging

trivial patches for 2016-06-07

# gpg: Signature made Tue 07 Jun 2016 16:20:52 BST
# gpg:                using RSA key 0xBEE59D74A4C3D7DB
# gpg: Good signature from "Michael Tokarev <mjt@tls.msk.ru>"
# gpg:                 aka "Michael Tokarev <mjt@corpit.ru>"
# gpg:                 aka "Michael Tokarev <mjt@debian.org>"

* remotes/mjt/tags/pull-trivial-patches-2016-06-07: (51 commits)
  hbitmap: Use DIV_ROUND_UP
  qemu-timer: Use DIV_ROUND_UP
  linux-user: Use DIV_ROUND_UP
  slirp: Use DIV_ROUND_UP
  usb: Use DIV_ROUND_UP
  rocker: Use DIV_ROUND_UP
  SPICE: Use DIV_ROUND_UP
  audio: Use DIV_ROUND_UP
  xen: Use DIV_ROUND_UP
  crypto: Use DIV_ROUND_UP
  block: Use DIV_ROUND_UP
  qed: Use DIV_ROUND_UP
  qcow/qcow2: Use DIV_ROUND_UP
  parallels: Use DIV_ROUND_UP
  coccinelle: use macro DIV_ROUND_UP instead of (((n) + (d) - 1) /(d))
  thunk: Rename args and fields in host-target bitmask conversion code
  thunk: Drop unused NO_THUNK_TYPE_SIZE guards
  qemu-common.h: Drop WORDS_ALIGNED define
  host-utils: Prefer 'false' for bool type
  docs/multi-thread-compression: Fix wrong command string
  ...

Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
2016-06-07 16:34:45 +01:00

395 lines
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/*
* Coroutine tests
*
* Copyright IBM, Corp. 2011
*
* Authors:
* Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
*
* This work is licensed under the terms of the GNU LGPL, version 2 or later.
* See the COPYING.LIB file in the top-level directory.
*
*/
#include "qemu/osdep.h"
#include "qemu/coroutine.h"
#include "qemu/coroutine_int.h"
/*
* Check that qemu_in_coroutine() works
*/
static void coroutine_fn verify_in_coroutine(void *opaque)
{
g_assert(qemu_in_coroutine());
}
static void test_in_coroutine(void)
{
Coroutine *coroutine;
g_assert(!qemu_in_coroutine());
coroutine = qemu_coroutine_create(verify_in_coroutine);
qemu_coroutine_enter(coroutine, NULL);
}
/*
* Check that qemu_coroutine_self() works
*/
static void coroutine_fn verify_self(void *opaque)
{
g_assert(qemu_coroutine_self() == opaque);
}
static void test_self(void)
{
Coroutine *coroutine;
coroutine = qemu_coroutine_create(verify_self);
qemu_coroutine_enter(coroutine, coroutine);
}
/*
* Check that coroutines may nest multiple levels
*/
typedef struct {
unsigned int n_enter; /* num coroutines entered */
unsigned int n_return; /* num coroutines returned */
unsigned int max; /* maximum level of nesting */
} NestData;
static void coroutine_fn nest(void *opaque)
{
NestData *nd = opaque;
nd->n_enter++;
if (nd->n_enter < nd->max) {
Coroutine *child;
child = qemu_coroutine_create(nest);
qemu_coroutine_enter(child, nd);
}
nd->n_return++;
}
static void test_nesting(void)
{
Coroutine *root;
NestData nd = {
.n_enter = 0,
.n_return = 0,
.max = 128,
};
root = qemu_coroutine_create(nest);
qemu_coroutine_enter(root, &nd);
/* Must enter and return from max nesting level */
g_assert_cmpint(nd.n_enter, ==, nd.max);
g_assert_cmpint(nd.n_return, ==, nd.max);
}
/*
* Check that yield/enter transfer control correctly
*/
static void coroutine_fn yield_5_times(void *opaque)
{
bool *done = opaque;
int i;
for (i = 0; i < 5; i++) {
qemu_coroutine_yield();
}
*done = true;
}
static void test_yield(void)
{
Coroutine *coroutine;
bool done = false;
int i = -1; /* one extra time to return from coroutine */
coroutine = qemu_coroutine_create(yield_5_times);
while (!done) {
qemu_coroutine_enter(coroutine, &done);
i++;
}
g_assert_cmpint(i, ==, 5); /* coroutine must yield 5 times */
}
static void coroutine_fn c2_fn(void *opaque)
{
qemu_coroutine_yield();
}
static void coroutine_fn c1_fn(void *opaque)
{
Coroutine *c2 = opaque;
qemu_coroutine_enter(c2, NULL);
}
static void test_co_queue(void)
{
Coroutine *c1;
Coroutine *c2;
c1 = qemu_coroutine_create(c1_fn);
c2 = qemu_coroutine_create(c2_fn);
qemu_coroutine_enter(c1, c2);
memset(c1, 0xff, sizeof(Coroutine));
qemu_coroutine_enter(c2, NULL);
}
/*
* Check that creation, enter, and return work
*/
static void coroutine_fn set_and_exit(void *opaque)
{
bool *done = opaque;
*done = true;
}
static void test_lifecycle(void)
{
Coroutine *coroutine;
bool done = false;
/* Create, enter, and return from coroutine */
coroutine = qemu_coroutine_create(set_and_exit);
qemu_coroutine_enter(coroutine, &done);
g_assert(done); /* expect done to be true (first time) */
/* Repeat to check that no state affects this test */
done = false;
coroutine = qemu_coroutine_create(set_and_exit);
qemu_coroutine_enter(coroutine, &done);
g_assert(done); /* expect done to be true (second time) */
}
#define RECORD_SIZE 10 /* Leave some room for expansion */
struct coroutine_position {
int func;
int state;
};
static struct coroutine_position records[RECORD_SIZE];
static unsigned record_pos;
static void record_push(int func, int state)
{
struct coroutine_position *cp = &records[record_pos++];
g_assert_cmpint(record_pos, <, RECORD_SIZE);
cp->func = func;
cp->state = state;
}
static void coroutine_fn co_order_test(void *opaque)
{
record_push(2, 1);
g_assert(qemu_in_coroutine());
qemu_coroutine_yield();
record_push(2, 2);
g_assert(qemu_in_coroutine());
}
static void do_order_test(void)
{
Coroutine *co;
co = qemu_coroutine_create(co_order_test);
record_push(1, 1);
qemu_coroutine_enter(co, NULL);
record_push(1, 2);
g_assert(!qemu_in_coroutine());
qemu_coroutine_enter(co, NULL);
record_push(1, 3);
g_assert(!qemu_in_coroutine());
}
static void test_order(void)
{
int i;
const struct coroutine_position expected_pos[] = {
{1, 1,}, {2, 1}, {1, 2}, {2, 2}, {1, 3}
};
do_order_test();
g_assert_cmpint(record_pos, ==, 5);
for (i = 0; i < record_pos; i++) {
g_assert_cmpint(records[i].func , ==, expected_pos[i].func );
g_assert_cmpint(records[i].state, ==, expected_pos[i].state);
}
}
/*
* Lifecycle benchmark
*/
static void coroutine_fn empty_coroutine(void *opaque)
{
/* Do nothing */
}
static void perf_lifecycle(void)
{
Coroutine *coroutine;
unsigned int i, max;
double duration;
max = 1000000;
g_test_timer_start();
for (i = 0; i < max; i++) {
coroutine = qemu_coroutine_create(empty_coroutine);
qemu_coroutine_enter(coroutine, NULL);
}
duration = g_test_timer_elapsed();
g_test_message("Lifecycle %u iterations: %f s\n", max, duration);
}
static void perf_nesting(void)
{
unsigned int i, maxcycles, maxnesting;
double duration;
maxcycles = 10000;
maxnesting = 1000;
Coroutine *root;
g_test_timer_start();
for (i = 0; i < maxcycles; i++) {
NestData nd = {
.n_enter = 0,
.n_return = 0,
.max = maxnesting,
};
root = qemu_coroutine_create(nest);
qemu_coroutine_enter(root, &nd);
}
duration = g_test_timer_elapsed();
g_test_message("Nesting %u iterations of %u depth each: %f s\n",
maxcycles, maxnesting, duration);
}
/*
* Yield benchmark
*/
static void coroutine_fn yield_loop(void *opaque)
{
unsigned int *counter = opaque;
while ((*counter) > 0) {
(*counter)--;
qemu_coroutine_yield();
}
}
static void perf_yield(void)
{
unsigned int i, maxcycles;
double duration;
maxcycles = 100000000;
i = maxcycles;
Coroutine *coroutine = qemu_coroutine_create(yield_loop);
g_test_timer_start();
while (i > 0) {
qemu_coroutine_enter(coroutine, &i);
}
duration = g_test_timer_elapsed();
g_test_message("Yield %u iterations: %f s\n",
maxcycles, duration);
}
static __attribute__((noinline)) void dummy(unsigned *i)
{
(*i)--;
}
static void perf_baseline(void)
{
unsigned int i, maxcycles;
double duration;
maxcycles = 100000000;
i = maxcycles;
g_test_timer_start();
while (i > 0) {
dummy(&i);
}
duration = g_test_timer_elapsed();
g_test_message("Function call %u iterations: %f s\n",
maxcycles, duration);
}
static __attribute__((noinline)) void perf_cost_func(void *opaque)
{
qemu_coroutine_yield();
}
static void perf_cost(void)
{
const unsigned long maxcycles = 40000000;
unsigned long i = 0;
double duration;
unsigned long ops;
Coroutine *co;
g_test_timer_start();
while (i++ < maxcycles) {
co = qemu_coroutine_create(perf_cost_func);
qemu_coroutine_enter(co, &i);
qemu_coroutine_enter(co, NULL);
}
duration = g_test_timer_elapsed();
ops = (long)(maxcycles / (duration * 1000));
g_test_message("Run operation %lu iterations %f s, %luK operations/s, "
"%luns per coroutine",
maxcycles,
duration, ops,
(unsigned long)(1000000000.0 * duration / maxcycles));
}
int main(int argc, char **argv)
{
g_test_init(&argc, &argv, NULL);
/* This test assumes there is a freelist and marks freed coroutine memory
* with a sentinel value. If there is no freelist this would legitimately
* crash, so skip it.
*/
if (CONFIG_COROUTINE_POOL) {
g_test_add_func("/basic/co_queue", test_co_queue);
}
g_test_add_func("/basic/lifecycle", test_lifecycle);
g_test_add_func("/basic/yield", test_yield);
g_test_add_func("/basic/nesting", test_nesting);
g_test_add_func("/basic/self", test_self);
g_test_add_func("/basic/in_coroutine", test_in_coroutine);
g_test_add_func("/basic/order", test_order);
if (g_test_perf()) {
g_test_add_func("/perf/lifecycle", perf_lifecycle);
g_test_add_func("/perf/nesting", perf_nesting);
g_test_add_func("/perf/yield", perf_yield);
g_test_add_func("/perf/function-call", perf_baseline);
g_test_add_func("/perf/cost", perf_cost);
}
return g_test_run();
}
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