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hardware_samsung/aidl/usb/Usb.cpp

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26 KiB

/*
* Copyright (C) 2021 The Android Open Source Project
* Copyright (C) 2022 The LineageOS Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define LOG_TAG "android.hardware.usb.aidl-service"
#include <aidl/android/hardware/usb/PortRole.h>
#include <android-base/logging.h>
#include <android-base/properties.h>
#include <android-base/strings.h>
#include <assert.h>
#include <dirent.h>
#include <pthread.h>
#include <stdio.h>
#include <sys/types.h>
#include <unistd.h>
#include <chrono>
#include <regex>
#include <thread>
#include <unordered_map>
#include <cutils/uevent.h>
#include <sys/epoll.h>
#include <utils/Errors.h>
#include <utils/StrongPointer.h>
#include "Usb.h"
using android::base::GetProperty;
using android::base::Trim;
namespace aidl {
namespace android {
namespace hardware {
namespace usb {
constexpr char kTypecPath[] = "/sys/class/typec/";
constexpr char kDataRoleNode[] = "/data_role";
constexpr char kPowerRoleNode[] = "/power_role";
// Set by the signal handler to destroy the thread
volatile bool destroyThread;
int32_t readFile(const std::string &filename, std::string *contents) {
FILE *fp;
ssize_t read = 0;
char *line = NULL;
size_t len = 0;
fp = fopen(filename.c_str(), "r");
if (fp != NULL) {
if ((read = getline(&line, &len, fp)) != -1) {
char *pos;
if ((pos = strchr(line, '\n')) != NULL)
*pos = '\0';
*contents = line;
}
free(line);
fclose(fp);
return 0;
} else {
ALOGE("fopen failed");
}
return -1;
}
void queryVersionHelper(android::hardware::usb::Usb *usb,
std::vector<PortStatus> *currentPortStatus);
ScopedAStatus Usb::enableUsbData(const string& in_portName, bool in_enable, int64_t in_transactionId) {
std::vector<PortStatus> currentPortStatus;
bool result = true;
pthread_mutex_lock(&mLock);
if (!WriteStringToFile(in_enable ? "1" : "0", USB_DATA_PATH)) {
ALOGE("Not able to turn %s usb connection notification", in_enable ? "on" : "off");
result = false;
}
if (mCallback != NULL) {
ScopedAStatus ret = mCallback->notifyEnableUsbDataStatus(
in_portName, in_enable, result ? Status::SUCCESS : Status::ERROR, in_transactionId);
if (!ret.isOk())
ALOGE("notifyEnableUsbDataStatus error %s", ret.getDescription().c_str());
} else {
ALOGE("Not notifying the userspace. Callback is not set");
}
pthread_mutex_unlock(&mLock);
queryVersionHelper(this, &currentPortStatus);
return ScopedAStatus::ok();
}
ScopedAStatus Usb::enableUsbDataWhileDocked(const string& in_portName, int64_t in_transactionId) {
pthread_mutex_lock(&mLock);
if (mCallback != NULL) {
ScopedAStatus ret = mCallback->notifyEnableUsbDataWhileDockedStatus(
in_portName, Status::NOT_SUPPORTED, in_transactionId);
if (!ret.isOk())
ALOGE("notifyEnableUsbDataWhileDockedStatus error %s", ret.getDescription().c_str());
} else {
ALOGE("Not notifying the userspace. Callback is not set");
}
pthread_mutex_unlock(&mLock);
return ScopedAStatus::ok();
}
ScopedAStatus Usb::resetUsbPort(const string& in_portName, int64_t in_transactionId) {
pthread_mutex_lock(&mLock);
if (mCallback != NULL) {
ScopedAStatus ret = mCallback->notifyResetUsbPortStatus(
in_portName, Status::NOT_SUPPORTED, in_transactionId);
if (!ret.isOk())
ALOGE("notifyResetUsbPortStatus error %s", ret.getDescription().c_str());
} else {
ALOGE("Not notifying the userspace. Callback is not set");
}
pthread_mutex_unlock(&mLock);
return ScopedAStatus::ok();
}
Status queryMoistureDetectionStatus(std::vector<PortStatus> *currentPortStatus) {
string enabled, status, path, DetectedPath;
for (int i = 0; i < currentPortStatus->size(); i++) {
(*currentPortStatus)[i].supportedContaminantProtectionModes
.push_back(ContaminantProtectionMode::NONE);
(*currentPortStatus)[i].contaminantProtectionStatus
= ContaminantProtectionStatus::NONE;
(*currentPortStatus)[i].contaminantDetectionStatus
= ContaminantDetectionStatus::DISABLED;
(*currentPortStatus)[i].supportsEnableContaminantPresenceDetection = true;
(*currentPortStatus)[i].supportsEnableContaminantPresenceProtection = false;
if (GetProperty(DISABLE_CONTAMINANT_DETECTION, "") != "true") {
if (readFile(CONTAMINANT_DETECTION_PATH, &status)) {
ALOGE("Failed to open %s", CONTAMINANT_DETECTION_PATH);
return Status::ERROR;
}
if (status == "1") {
(*currentPortStatus)[i].contaminantDetectionStatus =
ContaminantDetectionStatus::DETECTED;
(*currentPortStatus)[i].contaminantProtectionStatus =
ContaminantProtectionStatus::FORCE_SINK;
} else
(*currentPortStatus)[i].contaminantDetectionStatus =
ContaminantDetectionStatus::NOT_DETECTED;
}
ALOGI("ContaminantDetectionStatus[%d]:%hhd ContaminantProtectionStatus[%d]:%hhd",
i, (*currentPortStatus)[i].contaminantDetectionStatus,
i, (*currentPortStatus)[i].contaminantProtectionStatus);
}
return Status::SUCCESS;
}
string appendRoleNodeHelper(const string &portName, PortRole::Tag tag) {
string node(kTypecPath + portName);
switch (tag) {
case PortRole::dataRole:
return node + kDataRoleNode;
case PortRole::powerRole:
return node + kPowerRoleNode;
case PortRole::mode:
return node + "/port_type";
default:
return "";
}
}
string convertRoletoString(PortRole role) {
if (role.getTag() == PortRole::powerRole) {
if (role.get<PortRole::powerRole>() == PortPowerRole::SOURCE)
return "source";
else if (role.get<PortRole::powerRole>() == PortPowerRole::SINK)
return "sink";
} else if (role.getTag() == PortRole::dataRole) {
if (role.get<PortRole::dataRole>() == PortDataRole::HOST)
return "host";
if (role.get<PortRole::dataRole>() == PortDataRole::DEVICE)
return "device";
} else if (role.getTag() == PortRole::mode) {
if (role.get<PortRole::mode>() == PortMode::UFP)
return "sink";
if (role.get<PortRole::mode>() == PortMode::DFP)
return "source";
}
return "none";
}
void extractRole(string *roleName) {
std::size_t first, last;
first = roleName->find("[");
last = roleName->find("]");
if (first != string::npos && last != string::npos) {
*roleName = roleName->substr(first + 1, last - first - 1);
}
}
void switchToDrp(const string &portName) {
string filename = appendRoleNodeHelper(string(portName.c_str()), PortRole::mode);
FILE *fp;
if (filename != "") {
fp = fopen(filename.c_str(), "w");
if (fp != NULL) {
int ret = fputs("dual", fp);
fclose(fp);
if (ret == EOF)
ALOGE("Fatal: Error while switching back to drp");
} else {
ALOGE("Fatal: Cannot open file to switch back to drp");
}
} else {
ALOGE("Fatal: invalid node type");
}
}
bool switchMode(const string &portName, const PortRole &in_role, struct Usb *usb) {
string filename = appendRoleNodeHelper(string(portName.c_str()), in_role.getTag());
string written;
FILE *fp;
bool roleSwitch = false;
if (filename == "") {
ALOGE("Fatal: invalid node type");
return false;
}
fp = fopen(filename.c_str(), "w");
if (fp != NULL) {
// Hold the lock here to prevent loosing connected signals
// as once the file is written the partner added signal
// can arrive anytime.
pthread_mutex_lock(&usb->mPartnerLock);
usb->mPartnerUp = false;
int ret = fputs(convertRoletoString(in_role).c_str(), fp);
fclose(fp);
if (ret != EOF) {
struct timespec to;
struct timespec now;
wait_again:
clock_gettime(CLOCK_MONOTONIC, &now);
to.tv_sec = now.tv_sec + PORT_TYPE_TIMEOUT;
to.tv_nsec = now.tv_nsec;
int err = pthread_cond_timedwait(&usb->mPartnerCV, &usb->mPartnerLock, &to);
// There are no uevent signals which implies role swap timed out.
if (err == ETIMEDOUT) {
ALOGI("uevents wait timedout");
// Validity check.
} else if (!usb->mPartnerUp) {
goto wait_again;
// Role switch succeeded since usb->mPartnerUp is true.
} else {
roleSwitch = true;
}
} else {
ALOGI("Role switch failed while wrting to file");
}
pthread_mutex_unlock(&usb->mPartnerLock);
}
if (!roleSwitch)
switchToDrp(string(portName.c_str()));
return roleSwitch;
}
Usb::Usb()
: mLock(PTHREAD_MUTEX_INITIALIZER),
mRoleSwitchLock(PTHREAD_MUTEX_INITIALIZER),
mPartnerLock(PTHREAD_MUTEX_INITIALIZER),
mPartnerUp(false)
{
pthread_condattr_t attr;
if (pthread_condattr_init(&attr)) {
ALOGE("pthread_condattr_init failed: %s", strerror(errno));
abort();
}
if (pthread_condattr_setclock(&attr, CLOCK_MONOTONIC)) {
ALOGE("pthread_condattr_setclock failed: %s", strerror(errno));
abort();
}
if (pthread_cond_init(&mPartnerCV, &attr)) {
ALOGE("pthread_cond_init failed: %s", strerror(errno));
abort();
}
if (pthread_condattr_destroy(&attr)) {
ALOGE("pthread_condattr_destroy failed: %s", strerror(errno));
abort();
}
}
ScopedAStatus Usb::switchRole(const string& in_portName,
const PortRole& in_role, int64_t in_transactionId) {
string filename = appendRoleNodeHelper(string(in_portName.c_str()), in_role.getTag());
string written;
FILE *fp;
bool roleSwitch = false;
if (filename == "") {
ALOGE("Fatal: invalid node type");
return ScopedAStatus::ok();
}
pthread_mutex_lock(&mRoleSwitchLock);
ALOGI("filename write: %s role:%s", filename.c_str(), convertRoletoString(in_role).c_str());
if (in_role.getTag() == PortRole::mode) {
roleSwitch = switchMode(in_portName, in_role, this);
} else {
fp = fopen(filename.c_str(), "w");
if (fp != NULL) {
int ret = fputs(convertRoletoString(in_role).c_str(), fp);
fclose(fp);
if ((ret != EOF) && ReadFileToString(filename, &written)) {
written = Trim(written);
extractRole(&written);
ALOGI("written: %s", written.c_str());
if (written == convertRoletoString(in_role)) {
roleSwitch = true;
} else {
ALOGE("Role switch failed");
}
} else {
ALOGE("failed to update the new role");
}
} else {
ALOGE("fopen failed");
}
}
pthread_mutex_lock(&mLock);
if (mCallback != NULL) {
ScopedAStatus ret = mCallback->notifyRoleSwitchStatus(
in_portName, in_role, roleSwitch ? Status::SUCCESS : Status::ERROR, in_transactionId);
if (!ret.isOk())
ALOGE("RoleSwitchStatus error %s", ret.getDescription().c_str());
} else {
ALOGE("Not notifying the userspace. Callback is not set");
}
pthread_mutex_unlock(&mLock);
pthread_mutex_unlock(&mRoleSwitchLock);
return ScopedAStatus::ok();
}
ScopedAStatus Usb::limitPowerTransfer(const string& in_portName, bool /*in_limit*/,
int64_t in_transactionId) {
std::vector<PortStatus> currentPortStatus;
pthread_mutex_lock(&mLock);
if (mCallback != NULL && in_transactionId >= 0) {
ScopedAStatus ret = mCallback->notifyLimitPowerTransferStatus(
in_portName, false, Status::NOT_SUPPORTED, in_transactionId);
if (!ret.isOk())
ALOGE("limitPowerTransfer error %s", ret.getDescription().c_str());
} else {
ALOGE("Not notifying the userspace. Callback is not set");
}
pthread_mutex_unlock(&mLock);
return ScopedAStatus::ok();
}
Status getAccessoryConnected(const string &portName, string *accessory) {
string filename = kTypecPath + portName + "-partner/accessory_mode";
if (!ReadFileToString(filename, accessory)) {
ALOGE("getAccessoryConnected: Failed to open filesystem node: %s", filename.c_str());
return Status::ERROR;
}
*accessory = Trim(*accessory);
return Status::SUCCESS;
}
Status getCurrentRoleHelper(const string &portName, bool connected, PortRole *currentRole) {
string filename;
string roleName;
string accessory;
// Mode
if (currentRole->getTag() == PortRole::powerRole) {
filename = kTypecPath + portName + kPowerRoleNode;
currentRole->set<PortRole::powerRole>(PortPowerRole::NONE);
} else if (currentRole->getTag() == PortRole::dataRole) {
filename = kTypecPath + portName + kDataRoleNode;
currentRole->set<PortRole::dataRole>(PortDataRole::NONE);
} else if (currentRole->getTag() == PortRole::mode) {
filename = kTypecPath + portName + kDataRoleNode;
currentRole->set<PortRole::mode>(PortMode::NONE);
} else {
return Status::ERROR;
}
if (!connected)
return Status::SUCCESS;
if (currentRole->getTag() == PortRole::mode) {
if (getAccessoryConnected(portName, &accessory) != Status::SUCCESS) {
return Status::ERROR;
}
if (accessory == "analog_audio") {
currentRole->set<PortRole::mode>(PortMode::AUDIO_ACCESSORY);
return Status::SUCCESS;
} else if (accessory == "debug") {
currentRole->set<PortRole::mode>(PortMode::DEBUG_ACCESSORY);
return Status::SUCCESS;
}
}
if (!ReadFileToString(filename, &roleName)) {
ALOGE("getCurrentRole: Failed to open filesystem node: %s", filename.c_str());
return Status::ERROR;
}
roleName = Trim(roleName);
extractRole(&roleName);
if (roleName == "source") {
currentRole->set<PortRole::powerRole>(PortPowerRole::SOURCE);
} else if (roleName == "sink") {
currentRole->set<PortRole::powerRole>(PortPowerRole::SINK);
} else if (roleName == "host") {
if (currentRole->getTag() == PortRole::dataRole)
currentRole->set<PortRole::dataRole>(PortDataRole::HOST);
else
currentRole->set<PortRole::mode>(PortMode::DFP);
} else if (roleName == "device") {
if (currentRole->getTag() == PortRole::dataRole)
currentRole->set<PortRole::dataRole>(PortDataRole::DEVICE);
else
currentRole->set<PortRole::mode>(PortMode::UFP);
} else if (roleName != "none") {
/* case for none has already been addressed.
* so we check if the role isn't none.
*/
return Status::UNRECOGNIZED_ROLE;
}
return Status::SUCCESS;
}
Status getTypeCPortNamesHelper(std::unordered_map<string, bool> *names) {
DIR *dp;
dp = opendir(kTypecPath);
if (dp != NULL) {
struct dirent *ep;
while ((ep = readdir(dp))) {
if (ep->d_type == DT_LNK) {
if (string::npos == string(ep->d_name).find("-partner")) {
std::unordered_map<string, bool>::const_iterator portName =
names->find(ep->d_name);
if (portName == names->end()) {
names->insert({ep->d_name, false});
}
} else {
(*names)[std::strtok(ep->d_name, "-")] = true;
}
}
}
closedir(dp);
return Status::SUCCESS;
}
ALOGE("Failed to open /sys/class/typec");
return Status::ERROR;
}
bool canSwitchRoleHelper(const string &portName) {
string filename = kTypecPath + portName + "-partner/supports_usb_power_delivery";
string supportsPD;
if (ReadFileToString(filename, &supportsPD)) {
supportsPD = Trim(supportsPD);
if (supportsPD == "yes") {
return true;
}
}
return false;
}
Status getPortStatusHelper(std::vector<PortStatus> *currentPortStatus) {
std::unordered_map<string, bool> names;
Status result = getTypeCPortNamesHelper(&names);
int i = -1;
if (result == Status::SUCCESS) {
currentPortStatus->resize(names.size());
for (std::pair<string, bool> port : names) {
i++;
ALOGI("%s", port.first.c_str());
(*currentPortStatus)[i].portName = port.first;
PortRole currentRole;
currentRole.set<PortRole::powerRole>(PortPowerRole::NONE);
if (getCurrentRoleHelper(port.first, port.second, &currentRole) == Status::SUCCESS){
(*currentPortStatus)[i].currentPowerRole = currentRole.get<PortRole::powerRole>();
} else {
ALOGE("Error while retrieving portNames");
goto done;
}
currentRole.set<PortRole::dataRole>(PortDataRole::NONE);
if (getCurrentRoleHelper(port.first, port.second, &currentRole) == Status::SUCCESS) {
(*currentPortStatus)[i].currentDataRole = currentRole.get<PortRole::dataRole>();
} else {
ALOGE("Error while retrieving current port role");
goto done;
}
currentRole.set<PortRole::mode>(PortMode::NONE);
if (getCurrentRoleHelper(port.first, port.second, &currentRole) == Status::SUCCESS) {
(*currentPortStatus)[i].currentMode = currentRole.get<PortRole::mode>();
} else {
ALOGE("Error while retrieving current data role");
goto done;
}
(*currentPortStatus)[i].canChangeMode = true;
(*currentPortStatus)[i].canChangeDataRole =
port.second ? canSwitchRoleHelper(port.first) : false;
(*currentPortStatus)[i].canChangePowerRole =
port.second ? canSwitchRoleHelper(port.first) : false;
(*currentPortStatus)[i].supportedModes.push_back(PortMode::DRP);
bool dataEnabled = true;
string usbDataEnabled = "0";
if (ReadFileToString(USB_DATA_PATH, &usbDataEnabled) &&
stoi(Trim(usbDataEnabled)) == 0) {
(*currentPortStatus)[i].usbDataStatus.push_back(UsbDataStatus::DISABLED_FORCE);
dataEnabled = false;
}
if (dataEnabled) {
(*currentPortStatus)[i].usbDataStatus.push_back(UsbDataStatus::ENABLED);
}
ALOGI("%d:%s connected:%d canChangeMode:%d canChagedata:%d canChangePower:%d "
"usbDataEnabled:%d",
i, port.first.c_str(), port.second,
(*currentPortStatus)[i].canChangeMode,
(*currentPortStatus)[i].canChangeDataRole,
(*currentPortStatus)[i].canChangePowerRole,
dataEnabled ? 1 : 0);
}
return Status::SUCCESS;
}
done:
return Status::ERROR;
}
void queryVersionHelper(android::hardware::usb::Usb *usb,
std::vector<PortStatus> *currentPortStatus) {
Status status;
pthread_mutex_lock(&usb->mLock);
status = getPortStatusHelper(currentPortStatus);
queryMoistureDetectionStatus(currentPortStatus);
if (usb->mCallback != NULL) {
ScopedAStatus ret = usb->mCallback->notifyPortStatusChange(*currentPortStatus,
status);
if (!ret.isOk())
ALOGE("queryPortStatus error %s", ret.getDescription().c_str());
} else {
ALOGI("Notifying userspace skipped. Callback is NULL");
}
pthread_mutex_unlock(&usb->mLock);
}
ScopedAStatus Usb::queryPortStatus(int64_t in_transactionId) {
std::vector<PortStatus> currentPortStatus;
queryVersionHelper(this, &currentPortStatus);
pthread_mutex_lock(&mLock);
if (mCallback != NULL) {
ScopedAStatus ret = mCallback->notifyQueryPortStatus(
"all", Status::SUCCESS, in_transactionId);
if (!ret.isOk())
ALOGE("notifyQueryPortStatus error %s", ret.getDescription().c_str());
} else {
ALOGE("Not notifying the userspace. Callback is not set");
}
pthread_mutex_unlock(&mLock);
return ScopedAStatus::ok();
}
ScopedAStatus Usb::enableContaminantPresenceDetection(const string& in_portName,
bool /* in_enable */, int64_t in_transactionId) {
std::vector<PortStatus> currentPortStatus;
std::string disable = GetProperty(DISABLE_CONTAMINANT_DETECTION, "");
pthread_mutex_lock(&mLock);
if (mCallback != NULL) {
ScopedAStatus ret = mCallback->notifyContaminantEnabledStatus(
in_portName, true, Status::SUCCESS, in_transactionId);
if (!ret.isOk())
ALOGE("enableContaminantPresenceDetection error %s", ret.getDescription().c_str());
} else {
ALOGE("Not notifying the userspace. Callback is not set");
}
pthread_mutex_unlock(&mLock);
queryVersionHelper(this, &currentPortStatus);
return ScopedAStatus::ok();
}
struct data {
int uevent_fd;
::aidl::android::hardware::usb::Usb *usb;
};
static void uevent_event(uint32_t /*epevents*/, struct data *payload) {
char msg[UEVENT_MSG_LEN + 2];
char *cp;
int n;
n = uevent_kernel_multicast_recv(payload->uevent_fd, msg, UEVENT_MSG_LEN);
if (n <= 0)
return;
if (n >= UEVENT_MSG_LEN) /* overflow -- discard */
return;
msg[n] = '\0';
msg[n + 1] = '\0';
cp = msg;
while (*cp) {
if (std::regex_match(cp, std::regex("(add)(.*)(-partner)"))) {
ALOGI("partner added");
pthread_mutex_lock(&payload->usb->mPartnerLock);
payload->usb->mPartnerUp = true;
pthread_cond_signal(&payload->usb->mPartnerCV);
pthread_mutex_unlock(&payload->usb->mPartnerLock);
} else if (!strncmp(cp, "DEVTYPE=typec_", strlen("DEVTYPE=typec_")) ||
!strncmp(cp, "CCIC=WATER", strlen("CCIC=WATER")) ||
!strncmp(cp, "CCIC=DRY", strlen("CCIC=DRY"))) {
std::vector<PortStatus> currentPortStatus;
queryVersionHelper(payload->usb, &currentPortStatus);
// Role switch is not in progress and port is in disconnected state
if (!pthread_mutex_trylock(&payload->usb->mRoleSwitchLock)) {
for (unsigned long i = 0; i < currentPortStatus.size(); i++) {
DIR *dp =
opendir(string(kTypecPath +
string(currentPortStatus[i].portName.c_str()) +
"-partner").c_str());
if (dp == NULL) {
switchToDrp(currentPortStatus[i].portName);
} else {
closedir(dp);
}
}
pthread_mutex_unlock(&payload->usb->mRoleSwitchLock);
}
break;
} /* advance to after the next \0 */
while (*cp++) {
}
}
}
void *work(void *param) {
int epoll_fd, uevent_fd;
struct epoll_event ev;
int nevents = 0;
struct data payload;
uevent_fd = uevent_open_socket(UEVENT_MAX_EVENTS * UEVENT_MSG_LEN, true);
if (uevent_fd < 0) {
ALOGE("uevent_init: uevent_open_socket failed\n");
return NULL;
}
payload.uevent_fd = uevent_fd;
payload.usb = (::aidl::android::hardware::usb::Usb *)param;
fcntl(uevent_fd, F_SETFL, O_NONBLOCK);
ev.events = EPOLLIN;
ev.data.ptr = (void *)uevent_event;
epoll_fd = epoll_create(UEVENT_MAX_EVENTS);
if (epoll_fd == -1) {
ALOGE("epoll_create failed; errno=%d", errno);
goto error;
}
if (epoll_ctl(epoll_fd, EPOLL_CTL_ADD, uevent_fd, &ev) == -1) {
ALOGE("epoll_ctl failed; errno=%d", errno);
goto error;
}
while (!destroyThread) {
struct epoll_event events[UEVENT_MAX_EVENTS];
nevents = epoll_wait(epoll_fd, events, UEVENT_MAX_EVENTS, -1);
if (nevents == -1) {
if (errno == EINTR)
continue;
ALOGE("usb epoll_wait failed; errno=%d", errno);
break;
}
for (int n = 0; n < nevents; ++n) {
if (events[n].data.ptr)
(*(void (*)(int, struct data *payload))events[n].data.ptr)(events[n].events,
&payload);
}
}
ALOGI("exiting worker thread");
error:
close(uevent_fd);
if (epoll_fd >= 0)
close(epoll_fd);
return NULL;
}
void sighandler(int sig) {
if (sig == SIGUSR1) {
destroyThread = true;
ALOGI("destroy set");
return;
}
signal(SIGUSR1, sighandler);
}
ScopedAStatus Usb::setCallback(
const shared_ptr<IUsbCallback>& in_callback) {
pthread_mutex_lock(&mLock);
if ((mCallback == NULL && in_callback == NULL) ||
(mCallback != NULL && in_callback != NULL)) {
mCallback = in_callback;
pthread_mutex_unlock(&mLock);
return ScopedAStatus::ok();
}
mCallback = in_callback;
ALOGI("registering callback");
if (mCallback == NULL) {
if (!pthread_kill(mPoll, SIGUSR1)) {
pthread_join(mPoll, NULL);
ALOGI("pthread destroyed");
}
pthread_mutex_unlock(&mLock);
return ScopedAStatus::ok();
}
destroyThread = false;
signal(SIGUSR1, sighandler);
/*
* Create a background thread if the old callback value is NULL
* and being updated with a new value.
*/
if (pthread_create(&mPoll, NULL, work, this)) {
ALOGE("pthread creation failed %d", errno);
mCallback = NULL;
}
pthread_mutex_unlock(&mLock);
return ScopedAStatus::ok();
}
} // namespace usb
} // namespace hardware
} // namespace android
} // aidl