riot-ci/RIOT
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity

Merge pull request #10717 from keestux/refactor-evtimer-add-del

Browse Source 
sys/evtimer: refactor evtimer add()/del()
This commit is contained in:
Marian Buschsieweke 2019-07-19 15:00:29 +02:00 committed by GitHub
commit d15b8201b4
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
3 changed files with 92 additions and 50 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

70
sys/evtimer/evtimer.c
View File

@ -31,64 +31,63 @@
#define ENABLE_DEBUG (0) #define ENABLE_DEBUG (0)
#include "debug.h" #include "debug.h"
/* XXX this function is intentionally non-static, since the optimizer can't static void _add_event_to_list(evtimer_t *evtimer, evtimer_event_t *event)
* handle the pointer hack in this function */
void evtimer_add_event_to_list(evtimer_t *evtimer, evtimer_event_t *event)
{ {
DEBUG("evtimer: new event offset %" PRIu32 " ms\n", event->offset); DEBUG("evtimer: new event offset %" PRIu32 " ms\n", event->offset);
/* we want list->next to point to the first list element. thus we take the evtimer_event_t **list = &evtimer->events;
* *address* of evtimer->events, then cast it from (evtimer_event_t **) to
* (evtimer_event_t*). After that, list->next actually equals
* evtimer->events. */
evtimer_event_t *list = (evtimer_event_t *)&evtimer->events;
while (list->next) { while (*list) {
evtimer_event_t *list_entry = list->next;
/* Stop when new event time is nearer then next */ /* Stop when new event time is nearer then next */
if (event->offset < list_entry->offset) { if (event->offset < (*list)->offset) {
DEBUG("evtimer: next %" PRIu32 " < %" PRIu32 " ms\n", DEBUG("evtimer: next %" PRIu32 " < %" PRIu32 " ms\n",
event->offset, list_entry->offset); event->offset, (*list)->offset);
break; break;
} }
/* Set event offset relative to previous event */ /* Set event offset relative to previous event */
event->offset -= list_entry->offset; event->offset -= (*list)->offset;
list = list->next; list = &(*list)->next;
} }
DEBUG("evtimer: new event relativ offset %" PRIu32 " ms\n", event->offset); DEBUG("evtimer: new event relativ offset %" PRIu32 " ms\n", event->offset);
/* Set found next bigger event after new event */ /* Set found next bigger event after new event */
event->next = list->next; event->next = *list;
if (list->next) { if (*list) {
/* Set offset following event relative to new event */ /* Set offset following event relative to new event */
evtimer_event_t *next_entry = list->next;
DEBUG("evtimer: recalculate offset for %" PRIu32 " ms\n", DEBUG("evtimer: recalculate offset for %" PRIu32 " ms\n",
next_entry->offset); (*list)->offset);
next_entry->offset -= event->offset; (*list)->offset -= event->offset;
DEBUG("evtimer: resulting new event offset %" PRIu32 " ms\n", DEBUG("evtimer: resulting new event offset %" PRIu32 " ms\n",
next_entry->offset); (*list)->offset);
} }
list->next = event; *list = event;
} }
static void _del_event_from_list(evtimer_t *evtimer, evtimer_event_t *event) static void _del_event_from_list(evtimer_t *evtimer, evtimer_event_t *event)
{ {
evtimer_event_t *list = (evtimer_event_t *) &evtimer->events; evtimer_event_t **list = &evtimer->events;
while (list->next) { /* Find the entry to delete from the list */
evtimer_event_t *list_entry = list->next; while (*list) {
if (list_entry == event) { if (*list == event) {
list->next = event->next;
if (list->next) {
list_entry = list->next;
list_entry->offset += event->offset;
}
break; break;
} }
list = list->next; list = &(*list)->next;
}
if (*list) {
/* This is the entry we want to remove */
*list = (*list)->next;
/* If the deleted entry was _not_ the last one
* then update 'offset' of the entry that
* followed.
*/
if (*list) {
(*list)->offset += event->offset;
}
} }
} }
@ -145,7 +144,7 @@ void evtimer_add(evtimer_t *evtimer, evtimer_event_t *event)
DEBUG("evtimer_add(): adding event with offset %" PRIu32 "\n", event->offset); DEBUG("evtimer_add(): adding event with offset %" PRIu32 "\n", event->offset);
_update_head_offset(evtimer); _update_head_offset(evtimer);
evtimer_add_event_to_list(evtimer, event); _add_event_to_list(evtimer, event);
if (evtimer->events == event) { if (evtimer->events == event) {
_set_timer(&evtimer->timer, event->offset); _set_timer(&evtimer->timer, event->offset);
} }
@ -210,10 +209,11 @@ void evtimer_init(evtimer_t *evtimer, evtimer_callback_t handler)
void evtimer_print(const evtimer_t *evtimer) void evtimer_print(const evtimer_t *evtimer)
{ {
evtimer_event_t *list = evtimer->events; evtimer_event_t *list = evtimer->events;
int nr = 0;
while (list->next) { while (list) {
evtimer_event_t *list_entry = list->next; nr++;
printf("ev offset=%u\n", (unsigned)list_entry->offset); printf("ev #%d offset=%u\n", nr, (unsigned)list->offset);
list = list->next; list = list->next;
} }
} }

60
tests/evtimer_msg/main.c
View File

@ -27,14 +27,20 @@
static char worker_stack[THREAD_STACKSIZE_MAIN]; static char worker_stack[THREAD_STACKSIZE_MAIN];
static evtimer_t evtimer; static evtimer_t evtimer;
static evtimer_msg_event_t events[] = { #define NEVENTS (unsigned)(4)
{ .event = { .offset = 1000 }, .msg = { .content = { .ptr = "supposed to be 1000" } } }, /*
{ .event = { .offset = 1500 }, .msg = { .content = { .ptr = "supposed to be 1500" } } }, * The events (.offset) are modified by evtimer_add.
{ .event = { .offset = 659 }, .msg = { .content = { .ptr = "supposed to be 659" } } }, * This list of offsets is used to populate the events
{ .event = { .offset = 3954 }, .msg = { .content = { .ptr = "supposed to be 3954" } } }, * before adding (or re-adding).
*/
static uint32_t offsets[NEVENTS] = {
1000,
1500,
659,
3954,
}; };
static evtimer_msg_event_t events[NEVENTS];
#define NEVENTS ((unsigned)(sizeof(events) / sizeof(evtimer_msg_event_t))) static char texts[NEVENTS][40];
/* This thread will print the drift to stdout once per second */ /* This thread will print the drift to stdout once per second */
void *worker_thread(void *arg) void *worker_thread(void *arg)
@ -56,7 +62,7 @@ void *worker_thread(void *arg)
int main(void) int main(void)
{ {
uint32_t now = xtimer_now_usec() / US_PER_MS; uint32_t now;
evtimer_init_msg(&evtimer); evtimer_init_msg(&evtimer);
@ -65,11 +71,47 @@ int main(void)
THREAD_PRIORITY_MAIN - 1, THREAD_PRIORITY_MAIN - 1,
THREAD_CREATE_STACKTEST, THREAD_CREATE_STACKTEST,
worker_thread, NULL, "worker"); worker_thread, NULL, "worker");
printf("Testing generic evtimer (start time = %" PRIu32 " ms)\n", now);
printf("Testing generic evtimer\n");
/* Add all the events */
for (unsigned i = 0; i < NEVENTS; i++) { for (unsigned i = 0; i < NEVENTS; i++) {
events[i].event.offset = offsets[i];
now = xtimer_now_usec() / US_PER_MS;
snprintf(texts[i], sizeof(texts[i]) - 1, "#%u supposed to be %" PRIu32, i, now + events[i].event.offset);
events[i].msg.content.ptr = texts[i];
evtimer_add_msg(&evtimer, &events[i], pid); evtimer_add_msg(&evtimer, &events[i], pid);
} }
/* Delete all the events */
/* First we delete the last, to test deleting the last */
/* Then we delete the first, to test deleting the first */
evtimer_del(&evtimer, &events[3].event);
evtimer_del(&evtimer, &events[2].event);
printf("This should list %u items\n", NEVENTS - 2);
evtimer_print(&evtimer);
/* Delete the remaining entries */
for (unsigned i = 0; i < NEVENTS; i++) {
evtimer_del(&evtimer, &events[i].event);
}
/* Add all the events, again */
for (unsigned i = 0; i < NEVENTS; i++) {
events[i].event.offset = offsets[i];
now = xtimer_now_usec() / US_PER_MS;
snprintf(texts[i], sizeof(texts[i]) - 1, "#%u supposed to be %" PRIu32, i, now + events[i].event.offset);
events[i].msg.content.ptr = texts[i];
evtimer_add_msg(&evtimer, &events[i], pid);
}
printf("This should list %u items\n", NEVENTS);
evtimer_print(&evtimer);
printf("Are the reception times of all %u msgs close to the supposed values?\n", printf("Are the reception times of all %u msgs close to the supposed values?\n",
NEVENTS); NEVENTS);
/* The last offset is the largest, wait for it and a tiny bit more */
xtimer_usleep((offsets[3] + 10) * US_PER_MS);
puts("By now all msgs should have been received");
puts("If yes, the tests were successful"); puts("If yes, the tests were successful");
} }

12
tests/evtimer_msg/tests/01-run.py
View File

@ -10,20 +10,20 @@ from __future__ import print_function
import sys import sys
from testrunner import run from testrunner import run
ACCEPTED_ERROR = 20 ACCEPTED_ERROR = 2
def testfunc(child): def testfunc(child):
child.expect(r"Testing generic evtimer \(start time = (\d+) ms\)") child.expect(r"Testing generic evtimer")
timer_offset = int(child.match.group(1))
child.expect(r"Are the reception times of all (\d+) msgs close to the supposed values?") child.expect(r"Are the reception times of all (\d+) msgs close to the supposed values?")
numof = int(child.match.group(1)) numof = int(child.match.group(1))
for i in range(numof): for i in range(numof):
child.expect(r'At \s*(\d+) ms received msg %i: "supposed to be (\d+)"' % i) child.expect(r'At \s*(\d+) ms received msg %i: "#\d+ supposed to be (\d+)"' % i)
# check if output is correct # check if output is correct
exp = int(child.match.group(2)) + timer_offset expected = int(child.match.group(2))
assert(int(child.match.group(1)) in range(exp - ACCEPTED_ERROR, exp + ACCEPTED_ERROR + 1)) actual = int(child.match.group(1))
assert(actual in range(expected - ACCEPTED_ERROR, expected + ACCEPTED_ERROR))
print(".", end="", flush=True) print(".", end="", flush=True)
print("") print("")
print("All tests successful") print("All tests successful")