priority_queue.cpp [plain text]
#include <darwintest.h>
#include <darwintest_utils.h>
#include <stdio.h>
#include <assert.h>
#include <setjmp.h>
#include <algorithm>
#define DEVELOPMENT 0
#define DEBUG 0
#define XNU_KERNEL_PRIVATE 1
#define OS_REFCNT_DEBUG 1
#define STRESS_TESTS 0
#define __container_of(ptr, type, field) __extension__({ \
const __typeof__(((type *)nullptr)->field) *__ptr = (ptr); \
(type *)((uintptr_t)__ptr - offsetof(type, field)); \
})
#pragma clang diagnostic ignored "-Watomic-implicit-seq-cst"
#pragma clang diagnostic ignored "-Wc++98-compat"
#include "../osfmk/kern/macro_help.h"
#include "../osfmk/kern/priority_queue.h"
#include "../libkern/c++/priority_queue.cpp"
T_GLOBAL_META(T_META_RUN_CONCURRENTLY(true));
static int
compare_numbers_descending(const void * a, const void * b)
{
const uint16_t x = *(const uint16_t *)a;
const uint16_t y = *(const uint16_t *)b;
if (x > y) {
return -1;
} else if (x < y) {
return 1;
} else {
return 0;
}
}
#define PRIORITY_QUEUE_NODES 8
typedef union test_node {
struct {
struct priority_queue_entry e;
uint32_t node_key;
};
struct priority_queue_entry_sched ke;
struct priority_queue_entry_stable se;
} *test_node_t;
static void
dump_pqueue_entry(priority_queue_entry_sched_t e, int depth)
{
priority_queue_entry_sched_t t;
printf("%*s [%02d] %p\n", depth * 4, "", e->key, (void *)e);
t = pqueue_sched_max_t::unpack_child(e);
if (t) {
dump_pqueue_entry(t, depth + 1);
}
while (e->next) {
e = e->next;
dump_pqueue_entry(e, depth);
}
}
__unused
static void
dump_pqueue(struct priority_queue_sched_max *pq)
{
dump_pqueue_entry(pq->pq_root, 0);
printf("\n");
}
T_DECL(priority_queue_sched_max, "Basic sched priority queue testing")
{
static uint16_t priority_list[] = { 20, 3, 7, 6, 50, 2, 8, 12};
struct priority_queue_sched_max pq;
uint16_t increase_pri = 100;
uint16_t decrease_pri = 90;
uint16_t key = 0;
boolean_t update_result = false;
test_node_t node = NULL;
priority_queue_init(&pq);
for (int i = 0; i < PRIORITY_QUEUE_NODES; i++) {
node = new test_node;
T_QUIET; T_ASSERT_NOTNULL(node, NULL);
priority_queue_entry_init(&node->ke);
priority_queue_entry_set_sched_pri(&pq, &node->ke, priority_list[i], 0);
priority_queue_insert(&pq, &node->ke);
}
priority_queue_entry_set_sched_pri(&pq, &node->ke, increase_pri, 0);
update_result = priority_queue_entry_increased(&pq, &node->ke);
T_ASSERT_TRUE(update_result, "increase key updated root");
key = priority_queue_max_sched_pri(&pq);
T_ASSERT_EQ(key, increase_pri, "verify priority_queue_entry_increased() operation");
priority_queue_entry_set_sched_pri(&pq, &node->ke, decrease_pri, 0);
update_result = priority_queue_entry_decreased(&pq, &node->ke);
T_ASSERT_TRUE(update_result, "decrease key updated root");
key = priority_queue_max_sched_pri(&pq);
T_ASSERT_EQ(key, decrease_pri, "verify priority_queue_entry_decreased() operation");
priority_list[PRIORITY_QUEUE_NODES - 1] = decrease_pri;
qsort(priority_list, PRIORITY_QUEUE_NODES, sizeof(priority_list[0]), compare_numbers_descending);
priority_queue_entry_sched_t k = NULL;
node = pqe_element_fast(k, test_node, ke);
for (int i = 0; i < PRIORITY_QUEUE_NODES; i++) {
key = priority_queue_max_sched_pri(&pq);
T_ASSERT_EQ(key, priority_list[i], "[%d] priority queue max node removal", i);
node = priority_queue_remove_max(&pq, test_node, ke);
delete node;
}
T_ASSERT_TRUE(priority_queue_empty(&pq), "queue is empty");
priority_queue_destroy(&pq, union test_node, ke, ^(test_node_t n) {
T_FAIL("Called with %p", n);
});
}
T_DECL(priority_queue_max, "Basic generic priority queue testing")
{
static uint16_t priority_list[] = { 20, 3, 7, 6, 50, 2, 8, 12};
struct priority_queue_max pq;
uint16_t increase_pri = 100;
uint16_t decrease_pri = 90;
test_node_t result;
boolean_t update_result = false;
test_node_t node = NULL;
priority_queue_compare_fn_t cmp_fn =
priority_heap_make_comparator(a, b, union test_node, e, {
if (a->node_key != b->node_key) {
return priority_heap_compare_ints(a->node_key, b->node_key);
}
return 0;
});
priority_queue_init(&pq, cmp_fn);
for (int i = 0; i < PRIORITY_QUEUE_NODES; i++) {
node = new test_node;
T_QUIET; T_ASSERT_NOTNULL(node, NULL);
priority_queue_entry_init(&node->e);
node->node_key = priority_list[i];
priority_queue_insert(&pq, &node->e);
}
node->node_key = increase_pri;
update_result = priority_queue_entry_increased(&pq, &node->e);
T_ASSERT_TRUE(update_result, "increase key updated root");
result = priority_queue_max(&pq, union test_node, e);
T_ASSERT_EQ(result->node_key, increase_pri, "verify priority_queue_entry_increased() operation");
node->node_key = decrease_pri;
update_result = priority_queue_entry_decreased(&pq, &node->e);
T_ASSERT_TRUE(update_result, "decrease key updated root");
result = priority_queue_max(&pq, union test_node, e);
T_ASSERT_EQ(result->node_key, decrease_pri, "verify priority_queue_entry_decreased() operation");
priority_list[PRIORITY_QUEUE_NODES - 1] = decrease_pri;
qsort(priority_list, PRIORITY_QUEUE_NODES, sizeof(priority_list[0]), compare_numbers_descending);
for (int i = 0; i < PRIORITY_QUEUE_NODES; i++) {
result = priority_queue_remove_max(&pq, union test_node, e);
T_ASSERT_EQ(result->node_key, priority_list[i],
"[%d] priority queue max node removal", i);
delete result;
}
T_ASSERT_TRUE(priority_queue_empty(&pq), "queue is empty");
priority_queue_destroy(&pq, union test_node, e, ^(test_node_t n) {
T_FAIL("Called with %p", n);
});
}
T_DECL(priority_queue_sched_stable_max, "Basic stable sched priority queue testing")
{
static struct config {
uint16_t pri;
priority_queue_entry_sched_modifier_t modifier;
uint64_t stamp;
} config[] = {
{ 20, PRIORITY_QUEUE_ENTRY_NONE, 8 },
{ 3, PRIORITY_QUEUE_ENTRY_NONE, 7 },
{ 3, PRIORITY_QUEUE_ENTRY_PREEMPTED, 6 },
{ 6, PRIORITY_QUEUE_ENTRY_NONE, 5 },
{ 50, PRIORITY_QUEUE_ENTRY_PREEMPTED, 4 },
{ 50, PRIORITY_QUEUE_ENTRY_PREEMPTED, 3 },
{ 50, PRIORITY_QUEUE_ENTRY_NONE, 2 },
{ 50, PRIORITY_QUEUE_ENTRY_NONE, 1 },
};
struct priority_queue_sched_stable_max pq;
test_node_t node = NULL;
priority_queue_init(&pq);
for (int i = 0; i < PRIORITY_QUEUE_NODES; i++) {
node = new test_node;
T_QUIET; T_ASSERT_NOTNULL(node, NULL);
priority_queue_entry_init(node);
node->se.stamp = config[i].stamp;
priority_queue_entry_set_sched_pri(&pq, &node->se,
config[i].pri, config[i].modifier);
priority_queue_insert(&pq, &node->se);
}
qsort_b(config, PRIORITY_QUEUE_NODES, sizeof(struct config), ^(const void *a, const void *b){
const struct config &c1 = *(const struct config *)a;
const struct config &c2 = *(const struct config *)b;
if (c1.pri != c2.pri) {
return c1.pri < c2.pri ? 1 : -1;
}
if (c1.modifier != c2.modifier) {
return c1.modifier < c2.modifier ? 1 : -1;
}
if (c1.stamp != c2.stamp) {
if (c1.modifier) {
return c1.stamp < c1.stamp ? 1 : -1;
} else {
return c1.stamp > c2.stamp ? 1 : -1;
}
}
return 0;
});
for (int i = 0; i < PRIORITY_QUEUE_NODES; i++) {
node = priority_queue_max(&pq, union test_node, se);
T_LOG("[%d]: { pri: %2d, modifier: %d, stamp: %lld }\n",
i, config[i].pri, config[i].modifier, config[i].stamp);
auto pri = priority_queue_entry_sched_pri(&pq, &node->se);
T_ASSERT_EQ(pri, config[i].pri,
"[%d] priority queue max node removal", i);
auto modifier = priority_queue_entry_sched_modifier(&pq, &node->se);
T_ASSERT_EQ(modifier, config[i].modifier,
"[%d] priority queue max node removal", i);
T_ASSERT_EQ(node->se.stamp, config[i].stamp,
"[%d] priority queue max node removal", i);
priority_queue_remove_max(&pq, union test_node, se);
delete node;
}
T_ASSERT_TRUE(priority_queue_empty(&pq), "queue is empty");
priority_queue_destroy(&pq, union test_node, se, ^(test_node_t n) {
T_FAIL("Called with %p", n);
});
}