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libx52/daemon/x52d_device.c

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/*
* Saitek X52 Pro MFD & LED driver - Device manager
*
* Copyright (C) 2021 Nirenjan Krishnan (nirenjan@nirenjan.org)
*
* SPDX-License-Identifier: GPL-2.0-only WITH Classpath-exception-2.0
*/
#include "config.h"
#include <unistd.h>
#include <pthread.h>
#include "x52d_const.h"
#include "x52d_device.h"
#include "libx52.h"
#include "libx52io.h"
#include "pinelog.h"
static libx52_device *x52_dev;
static pthread_mutex_t device_mutex = PTHREAD_MUTEX_INITIALIZER;
/*
* Device acquisition thread
* This is a thread that scans for and opens a supported X52 joystick.
*/
static pthread_t device_acq_thr;
static volatile bool device_acq_thr_enable;
static volatile bool device_upd_thr_enable;
static void *x52_dev_acq(void *param)
{
int rc;
PINELOG_INFO(_("Starting X52 device acquisition thread"));
// Check if the device is connected in a loop
for (;;) {
#define RECONNECT_DELAY 5
if (!device_acq_thr_enable) {
PINELOG_TRACE("Device acquisition thread disabled. Checking again in %d seconds", RECONNECT_DELAY);
sleep(RECONNECT_DELAY);
continue;
}
if (!libx52_is_connected(x52_dev)) {
PINELOG_TRACE("Attempting to connect to X52 device");
rc = libx52_connect(x52_dev);
if (rc != LIBX52_SUCCESS) {
if (rc != LIBX52_ERROR_NO_DEVICE) {
PINELOG_ERROR(_("Error %d connecting to device: %s"),
rc, libx52_strerror(rc));
} else {
PINELOG_TRACE("No compatible X52 device found");
}
PINELOG_TRACE("Sleeping for %d seconds before trying to acquire device again", RECONNECT_DELAY);
sleep(RECONNECT_DELAY);
} else {
PINELOG_TRACE("Found device, disabling acquisition thread, enable update thread");
device_acq_thr_enable = false;
device_upd_thr_enable = true;
}
} else {
PINELOG_TRACE("Device is connected, disable acquisition thread, enable update thread");
device_acq_thr_enable = false;
device_upd_thr_enable = true;
}
#undef RECONNECT_DELAY
}
return NULL;
}
/*
* Device update thread
* This is a thread that updates the joystick.
*/
static pthread_t device_upd_thr;
static volatile bool device_update_needed;
static void *x52_dev_upd(void *param)
{
PINELOG_INFO(_("Starting X52 device update thread"));
// Check if the device needs to be updated in a loop
for (;;) {
#define UPDATE_CHECK_DELAY 50000 // Wait for this many useconds
if (!device_update_needed || !device_upd_thr_enable) {
usleep(UPDATE_CHECK_DELAY);
continue;
}
(void)x52d_dev_update();
#undef UPDATE_CHECK_DELAY
}
return NULL;
}
void x52d_dev_init(void)
{
int rc;
PINELOG_INFO(_("Initializing libx52"));
rc = libx52_init(&x52_dev);
if (rc != LIBX52_SUCCESS) {
PINELOG_FATAL(_("Failure %d initializing libx52: %s"),
rc, libx52_strerror(rc));
}
// Create and initialize the threads
pthread_create(&device_acq_thr, NULL, x52_dev_acq, NULL);
// With libx52.so.2.3.0, libx52_init will also attempt to connect to a
// supported joystick. Check if a device is already connected before
// enabling the device acquisition thread.
device_acq_thr_enable = !libx52_is_connected(x52_dev);
pthread_create(&device_upd_thr, NULL, x52_dev_upd, NULL);
device_update_needed = false;
device_upd_thr_enable = libx52_is_connected(x52_dev);
}
void x52d_dev_exit(void)
{
// Shutdown any threads
PINELOG_INFO(_("Shutting down X52 device acquisition thread"));
pthread_cancel(device_acq_thr);
PINELOG_INFO(_("Shutting down X52 device update thread"));
pthread_cancel(device_upd_thr);
libx52_exit(x52_dev);
}
#define WRAP_LIBX52(func) \
int rc; \
pthread_mutex_lock(&device_mutex); \
rc = func; \
pthread_mutex_unlock(&device_mutex); \
if (rc != LIBX52_SUCCESS) { \
if (rc != LIBX52_ERROR_TRY_AGAIN) { \
PINELOG_ERROR(_("Error %d when updating X52 parameter: %s"), \
rc, libx52_strerror(rc)); \
} \
} else { \
device_update_needed = true; \
} \
return rc
int x52d_dev_set_text(uint8_t line, const char *text, uint8_t length)
{
WRAP_LIBX52(libx52_set_text(x52_dev, line, text, length));
}
int x52d_dev_set_led_state(libx52_led_id led, libx52_led_state state)
{
if (libx52_check_feature(x52_dev, LIBX52_FEATURE_LED) != LIBX52_ERROR_NOT_SUPPORTED) {
WRAP_LIBX52(libx52_set_led_state(x52_dev, led, state));
}
// If the target device does not support setting individual LEDs,
// then ignore the set and let the caller think it succeeded.
PINELOG_TRACE("Ignoring set LED state call as the device does not support it");
return LIBX52_SUCCESS;
}
int x52d_dev_set_clock(time_t time, int local)
{
WRAP_LIBX52(libx52_set_clock(x52_dev, time, local));
}
int x52d_dev_set_clock_timezone(libx52_clock_id clock, int offset)
{
WRAP_LIBX52(libx52_set_clock_timezone(x52_dev, clock, offset));
}
int x52d_dev_set_clock_format(libx52_clock_id clock, libx52_clock_format format)
{
WRAP_LIBX52(libx52_set_clock_format(x52_dev, clock, format));
}
int x52d_dev_set_time(uint8_t hour, uint8_t minute)
{
WRAP_LIBX52(libx52_set_time(x52_dev, hour, minute));
}
int x52d_dev_set_date(uint8_t dd, uint8_t mm, uint8_t yy)
{
WRAP_LIBX52(libx52_set_date(x52_dev, dd, mm, yy));
}
int x52d_dev_set_date_format(libx52_date_format format)
{
WRAP_LIBX52(libx52_set_date_format(x52_dev, format));
}
int x52d_dev_set_brightness(uint8_t mfd, uint16_t brightness)
{
WRAP_LIBX52(libx52_set_brightness(x52_dev, mfd, brightness));
}
int x52d_dev_set_shift(uint8_t state)
{
WRAP_LIBX52(libx52_set_shift(x52_dev, state));
}
int x52d_dev_set_blink(uint8_t state)
{
WRAP_LIBX52(libx52_set_blink(x52_dev, state));
}
int x52d_dev_update(void)
{
int rc;
pthread_mutex_lock(&device_mutex);
rc = libx52_update(x52_dev);
pthread_mutex_unlock(&device_mutex);
if (rc != LIBX52_SUCCESS) {
if (rc == LIBX52_ERROR_NO_DEVICE) {
// Detach and spawn thread to reconnect
PINELOG_TRACE("Disconnecting detached device");
libx52_disconnect(x52_dev);
PINELOG_TRACE("Disabling device update thread");
device_upd_thr_enable = false;
PINELOG_TRACE("Signaling device search thread");
device_acq_thr_enable = true;
} else {
PINELOG_ERROR(_("Error %d when updating X52 device: %s"),
rc, libx52_strerror(rc));
}
} else {
device_update_needed = false;
}
return rc;
}
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