369 lines
14 KiB
C++
369 lines
14 KiB
C++
/*
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* Copyright (C) 2017 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#define LOG_TAG "android.hardware.biometrics.fingerprint@2.0-service"
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#define LOG_VERBOSE "android.hardware.biometrics.fingerprint@2.0-service"
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#include <hardware/hw_auth_token.h>
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#include <hardware/hardware.h>
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#include <hardware/fingerprint.h>
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#include "BiometricsFingerprint.h"
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#include <cutils/properties.h>
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#include <inttypes.h>
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#include <unistd.h>
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fingerprint_device_t* getWrapperService(fingerprint_notify_t);
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namespace android {
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namespace hardware {
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namespace biometrics {
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namespace fingerprint {
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namespace V2_1 {
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namespace implementation {
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// Supported fingerprint HAL version
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static bool is_goodix = false;
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using RequestStatus =
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android::hardware::biometrics::fingerprint::V2_1::RequestStatus;
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BiometricsFingerprint *BiometricsFingerprint::sInstance = nullptr;
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BiometricsFingerprint::BiometricsFingerprint() : mClientCallback(nullptr), mDevice(nullptr) {
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sInstance = this; // keep track of the most recent instance
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char vend [PROPERTY_VALUE_MAX];
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property_get("ro.boot.fpsensor", vend, NULL);
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if (!strcmp(vend, "fpc")) {
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is_goodix = false;
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mDevice = openHal();
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} else if (!strcmp(vend, "gdx")) {
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is_goodix = true;
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mDevice = getWrapperService(BiometricsFingerprint::notify);
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}
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if (!mDevice) {
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ALOGE("Can't open HAL module");
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}
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}
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BiometricsFingerprint::~BiometricsFingerprint() {
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ALOGV("~BiometricsFingerprint()");
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if (mDevice == nullptr) {
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ALOGE("No valid device");
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return;
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}
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int err;
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if (0 != (err = mDevice->common.close(
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reinterpret_cast<hw_device_t*>(mDevice)))) {
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ALOGE("Can't close fingerprint module, error: %d", err);
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return;
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}
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mDevice = nullptr;
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}
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Return<RequestStatus> BiometricsFingerprint::ErrorFilter(int32_t error) {
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switch(error) {
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case 0: return RequestStatus::SYS_OK;
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case -2: return RequestStatus::SYS_ENOENT;
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case -4: return RequestStatus::SYS_EINTR;
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case -5: return RequestStatus::SYS_EIO;
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case -11: return RequestStatus::SYS_EAGAIN;
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case -12: return RequestStatus::SYS_ENOMEM;
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case -13: return RequestStatus::SYS_EACCES;
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case -14: return RequestStatus::SYS_EFAULT;
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case -16: return RequestStatus::SYS_EBUSY;
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case -22: return RequestStatus::SYS_EINVAL;
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case -28: return RequestStatus::SYS_ENOSPC;
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case -110: return RequestStatus::SYS_ETIMEDOUT;
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default:
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ALOGE("An unknown error returned from fingerprint vendor library: %d", error);
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return RequestStatus::SYS_UNKNOWN;
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}
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}
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// Translate from errors returned by traditional HAL (see fingerprint.h) to
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// HIDL-compliant FingerprintError.
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FingerprintError BiometricsFingerprint::VendorErrorFilter(int32_t error,
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int32_t* vendorCode) {
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*vendorCode = 0;
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switch(error) {
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case FINGERPRINT_ERROR_HW_UNAVAILABLE:
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return FingerprintError::ERROR_HW_UNAVAILABLE;
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case FINGERPRINT_ERROR_UNABLE_TO_PROCESS:
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return FingerprintError::ERROR_UNABLE_TO_PROCESS;
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case FINGERPRINT_ERROR_TIMEOUT:
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return FingerprintError::ERROR_TIMEOUT;
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case FINGERPRINT_ERROR_NO_SPACE:
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return FingerprintError::ERROR_NO_SPACE;
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case FINGERPRINT_ERROR_CANCELED:
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return FingerprintError::ERROR_CANCELED;
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case FINGERPRINT_ERROR_UNABLE_TO_REMOVE:
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return FingerprintError::ERROR_UNABLE_TO_REMOVE;
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case FINGERPRINT_ERROR_LOCKOUT:
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return FingerprintError::ERROR_LOCKOUT;
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default:
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if (error >= FINGERPRINT_ERROR_VENDOR_BASE) {
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// vendor specific code.
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*vendorCode = error - FINGERPRINT_ERROR_VENDOR_BASE;
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return FingerprintError::ERROR_VENDOR;
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}
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}
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ALOGE("Unknown error from fingerprint vendor library: %d", error);
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return FingerprintError::ERROR_UNABLE_TO_PROCESS;
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}
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// Translate acquired messages returned by traditional HAL (see fingerprint.h)
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// to HIDL-compliant FingerprintAcquiredInfo.
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FingerprintAcquiredInfo BiometricsFingerprint::VendorAcquiredFilter(
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int32_t info, int32_t* vendorCode) {
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*vendorCode = 0;
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switch(info) {
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case FINGERPRINT_ACQUIRED_GOOD:
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return FingerprintAcquiredInfo::ACQUIRED_GOOD;
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case FINGERPRINT_ACQUIRED_PARTIAL:
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return FingerprintAcquiredInfo::ACQUIRED_PARTIAL;
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case FINGERPRINT_ACQUIRED_INSUFFICIENT:
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return FingerprintAcquiredInfo::ACQUIRED_INSUFFICIENT;
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case FINGERPRINT_ACQUIRED_IMAGER_DIRTY:
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return FingerprintAcquiredInfo::ACQUIRED_IMAGER_DIRTY;
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case FINGERPRINT_ACQUIRED_TOO_SLOW:
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return FingerprintAcquiredInfo::ACQUIRED_TOO_SLOW;
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case FINGERPRINT_ACQUIRED_TOO_FAST:
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return FingerprintAcquiredInfo::ACQUIRED_TOO_FAST;
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default:
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if (info >= FINGERPRINT_ACQUIRED_VENDOR_BASE) {
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// vendor specific code.
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*vendorCode = info - FINGERPRINT_ACQUIRED_VENDOR_BASE;
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return FingerprintAcquiredInfo::ACQUIRED_VENDOR;
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}
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}
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ALOGE("Unknown acquiredmsg from fingerprint vendor library: %d", info);
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return FingerprintAcquiredInfo::ACQUIRED_INSUFFICIENT;
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}
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Return<uint64_t> BiometricsFingerprint::setNotify(
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const sp<IBiometricsFingerprintClientCallback>& clientCallback) {
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mClientCallback = clientCallback;
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// This is here because HAL 2.1 doesn't have a way to propagate a
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// unique token for its driver. Subsequent versions should send a unique
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// token for each call to setNotify(). This is fine as long as there's only
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// one fingerprint device on the platform.
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return reinterpret_cast<uint64_t>(mDevice);
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}
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Return<uint64_t> BiometricsFingerprint::preEnroll() {
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return mDevice->pre_enroll(mDevice);
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}
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Return<RequestStatus> BiometricsFingerprint::enroll(const hidl_array<uint8_t, 69>& hat,
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uint32_t gid, uint32_t timeoutSec) {
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const hw_auth_token_t* authToken =
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reinterpret_cast<const hw_auth_token_t*>(hat.data());
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return ErrorFilter(mDevice->enroll(mDevice, authToken, gid, timeoutSec));
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}
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Return<RequestStatus> BiometricsFingerprint::postEnroll() {
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return ErrorFilter(mDevice->post_enroll(mDevice));
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}
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Return<uint64_t> BiometricsFingerprint::getAuthenticatorId() {
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return mDevice->get_authenticator_id(mDevice);
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}
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Return<RequestStatus> BiometricsFingerprint::cancel() {
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fingerprint_msg_t msg;
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msg.type = FINGERPRINT_ERROR;
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msg.data.error = FINGERPRINT_ERROR_CANCELED;
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mDevice->notify(&msg);
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return ErrorFilter(mDevice->cancel(mDevice));
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}
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#define MAX_FINGERPRINTS 100
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typedef int (*enumerate_2_0)(struct fingerprint_device *dev, fingerprint_finger_id_t *results,
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uint32_t *max_size);
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Return<RequestStatus> BiometricsFingerprint::enumerate() {
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fingerprint_finger_id_t results[MAX_FINGERPRINTS];
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uint32_t n = MAX_FINGERPRINTS;
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enumerate_2_0 enumerate = (enumerate_2_0) mDevice->enumerate;
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int ret = enumerate(mDevice, results, &n);
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if (ret == 0 && mClientCallback != nullptr) {
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ALOGD("Got %d enumerated templates", n);
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for (uint32_t i = 0; i < n; i++) {
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const uint64_t devId = reinterpret_cast<uint64_t>(mDevice);
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const auto& fp = results[i];
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ALOGD("onEnumerate(fid=%d, gid=%d)", fp.fid, fp.gid);
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if (!mClientCallback->onEnumerate(devId, fp.fid, fp.gid, n - i - 1).isOk()) {
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ALOGE("failed to invoke fingerprint onEnumerate callback");
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}
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}
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}
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return ErrorFilter(ret);
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}
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Return<RequestStatus> BiometricsFingerprint::remove(uint32_t gid, uint32_t fid) {
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return ErrorFilter(mDevice->remove(mDevice, gid, fid));
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}
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Return<RequestStatus> BiometricsFingerprint::setActiveGroup(uint32_t gid,
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const hidl_string& storePath) {
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if (storePath.size() >= PATH_MAX || storePath.size() <= 0) {
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ALOGE("Bad path length: %zd", storePath.size());
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return RequestStatus::SYS_EINVAL;
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}
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if (access(storePath.c_str(), W_OK)) {
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return RequestStatus::SYS_EINVAL;
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}
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int ret = mDevice->set_active_group(mDevice, gid, storePath.c_str());
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if ((ret > 0) && is_goodix)
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ret = 0;
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return ErrorFilter(ret);
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}
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Return<RequestStatus> BiometricsFingerprint::authenticate(uint64_t operationId,
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uint32_t gid) {
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return ErrorFilter(mDevice->authenticate(mDevice, operationId, gid));
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}
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IBiometricsFingerprint* BiometricsFingerprint::getInstance() {
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if (!sInstance) {
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sInstance = new BiometricsFingerprint();
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}
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return sInstance;
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}
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fingerprint_device_t* BiometricsFingerprint::openHal() {
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int err;
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const hw_module_t *hw_mdl = nullptr;
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ALOGD("Opening fingerprint hal library...");
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if (0 != (err = hw_get_module(FINGERPRINT_HARDWARE_MODULE_ID, &hw_mdl))) {
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ALOGE("Can't open fingerprint HW Module, error: %d", err);
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return nullptr;
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}
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if (hw_mdl == nullptr) {
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ALOGE("No valid fingerprint module");
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return nullptr;
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}
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fingerprint_module_t const *module =
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reinterpret_cast<const fingerprint_module_t*>(hw_mdl);
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if (module->common.methods->open == nullptr) {
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ALOGE("No valid open method");
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return nullptr;
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}
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hw_device_t *device = nullptr;
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if (0 != (err = module->common.methods->open(hw_mdl, nullptr, &device))) {
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ALOGE("Can't open fingerprint methods, error: %d", err);
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return nullptr;
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}
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fingerprint_device_t* fp_device =
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reinterpret_cast<fingerprint_device_t*>(device);
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if (0 != (err =
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fp_device->set_notify(fp_device, BiometricsFingerprint::notify))) {
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ALOGE("Can't register fingerprint module callback, error: %d", err);
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return nullptr;
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}
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return fp_device;
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}
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void BiometricsFingerprint::notify(const fingerprint_msg_t *msg) {
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BiometricsFingerprint* thisPtr = static_cast<BiometricsFingerprint*>(
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BiometricsFingerprint::getInstance());
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if (thisPtr == nullptr || thisPtr->mClientCallback == nullptr) {
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ALOGE("Receiving callbacks before the client callback is registered.");
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return;
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}
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const uint64_t devId = reinterpret_cast<uint64_t>(thisPtr->mDevice);
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switch (msg->type) {
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case FINGERPRINT_ERROR: {
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int32_t vendorCode = 0;
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FingerprintError result = VendorErrorFilter(msg->data.error, &vendorCode);
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if (!thisPtr->mClientCallback->onError(devId, result, vendorCode).isOk()) {
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ALOGE("failed to invoke fingerprint onError callback");
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}
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}
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break;
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case FINGERPRINT_ACQUIRED: {
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int32_t vendorCode = 0;
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FingerprintAcquiredInfo result =
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VendorAcquiredFilter(msg->data.acquired.acquired_info, &vendorCode);
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if (!thisPtr->mClientCallback->onAcquired(devId, result, vendorCode).isOk()) {
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ALOGE("failed to invoke fingerprint onAcquired callback");
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}
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}
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break;
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case FINGERPRINT_TEMPLATE_ENROLLING:
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if (!thisPtr->mClientCallback->onEnrollResult(devId,
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msg->data.enroll.finger.fid,
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msg->data.enroll.finger.gid,
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msg->data.enroll.samples_remaining).isOk()) {
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ALOGE("failed to invoke fingerprint onEnrollResult callback");
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}
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break;
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case FINGERPRINT_TEMPLATE_REMOVED:
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if (!thisPtr->mClientCallback->onRemoved(devId,
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msg->data.removed.finger.fid,
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msg->data.removed.finger.gid,
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msg->data.removed.remaining_templates).isOk()) {
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ALOGE("failed to invoke fingerprint onRemoved callback");
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}
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break;
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case FINGERPRINT_AUTHENTICATED:
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if (msg->data.authenticated.finger.fid != 0) {
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const uint8_t* hat =
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reinterpret_cast<const uint8_t *>(&msg->data.authenticated.hat);
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const hidl_vec<uint8_t> token(
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std::vector<uint8_t>(hat, hat + sizeof(msg->data.authenticated.hat)));
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if (!thisPtr->mClientCallback->onAuthenticated(devId,
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msg->data.authenticated.finger.fid,
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msg->data.authenticated.finger.gid,
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token).isOk()) {
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ALOGE("failed to invoke fingerprint onAuthenticated callback");
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}
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} else {
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// Not a recognized fingerprint
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if (!thisPtr->mClientCallback->onAuthenticated(devId,
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msg->data.authenticated.finger.fid,
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msg->data.authenticated.finger.gid,
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hidl_vec<uint8_t>()).isOk()) {
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ALOGE("failed to invoke fingerprint onAuthenticated callback");
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}
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}
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break;
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case FINGERPRINT_TEMPLATE_ENUMERATING:
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// ignored, won't happen for 2.0 HALs
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break;
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}
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}
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} // namespace implementation
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} // namespace V2_1
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} // namespace fingerprint
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} // namespace biometrics
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} // namespace hardware
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} // namespace android
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