/* * Copyright (C) 2014 The Android Open Source Project * Copyright (C) 2020 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. */ #ifndef ANDROID_INCLUDE_HARDWARE_FINGERPRINT_H #define ANDROID_INCLUDE_HARDWARE_FINGERPRINT_H #include #include #define FINGERPRINT_MODULE_API_VERSION_1_0 HARDWARE_MODULE_API_VERSION(1, 0) #define FINGERPRINT_MODULE_API_VERSION_2_0 HARDWARE_MODULE_API_VERSION(2, 0) #define FINGERPRINT_MODULE_API_VERSION_2_1 HARDWARE_MODULE_API_VERSION(2, 1) #define FINGERPRINT_MODULE_API_VERSION_3_0 HARDWARE_MODULE_API_VERSION(3, 0) #define FINGERPRINT_HARDWARE_MODULE_ID "fingerprint" typedef enum fingerprint_msg_type { FINGERPRINT_ERROR = -1, FINGERPRINT_ACQUIRED = 1, FINGERPRINT_TEMPLATE_ENROLLING = 3, FINGERPRINT_TEMPLATE_REMOVED = 4, FINGERPRINT_AUTHENTICATED = 5, FINGERPRINT_TEMPLATE_ENUMERATING = 6, } fingerprint_msg_type_t; /* * Fingerprint errors are meant to tell the framework to terminate the current operation and ask * for the user to correct the situation. These will almost always result in messaging and user * interaction to correct the problem. * * For example, FINGERPRINT_ERROR_CANCELED should follow any acquisition message that results in * a situation where the current operation can't continue without user interaction. For example, * if the sensor is dirty during enrollment and no further enrollment progress can be made, * send FINGERPRINT_ACQUIRED_IMAGER_DIRTY followed by FINGERPRINT_ERROR_CANCELED. */ typedef enum fingerprint_error { FINGERPRINT_ERROR_HW_UNAVAILABLE = 1, /* The hardware has an error that can't be resolved. */ FINGERPRINT_ERROR_UNABLE_TO_PROCESS = 2, /* Bad data; operation can't continue */ FINGERPRINT_ERROR_TIMEOUT = 3, /* The operation has timed out waiting for user input. */ FINGERPRINT_ERROR_NO_SPACE = 4, /* No space available to store a template */ FINGERPRINT_ERROR_CANCELED = 5, /* The current operation can't proceed. See above. */ FINGERPRINT_ERROR_UNABLE_TO_REMOVE = 6, /* fingerprint with given id can't be removed */ FINGERPRINT_ERROR_LOCKOUT = 7, /* the fingerprint hardware is in lockout due to too many attempts */ FINGERPRINT_ERROR_VENDOR_BASE = 1000 /* vendor-specific error messages start here */ } fingerprint_error_t; /* * Fingerprint acquisition info is meant as feedback for the current operation. Anything but * FINGERPRINT_ACQUIRED_GOOD will be shown to the user as feedback on how to take action on the * current operation. For example, FINGERPRINT_ACQUIRED_IMAGER_DIRTY can be used to tell the user * to clean the sensor. If this will cause the current operation to fail, an additional * FINGERPRINT_ERROR_CANCELED can be sent to stop the operation in progress (e.g. enrollment). * In general, these messages will result in a "Try again" message. */ typedef enum fingerprint_acquired_info { FINGERPRINT_ACQUIRED_GOOD = 0, FINGERPRINT_ACQUIRED_PARTIAL = 1, /* sensor needs more data, i.e. longer swipe. */ FINGERPRINT_ACQUIRED_INSUFFICIENT = 2, /* image doesn't contain enough detail for recognition*/ FINGERPRINT_ACQUIRED_IMAGER_DIRTY = 3, /* sensor needs to be cleaned */ FINGERPRINT_ACQUIRED_TOO_SLOW = 4, /* mostly swipe-type sensors; not enough data collected */ FINGERPRINT_ACQUIRED_TOO_FAST = 5, /* for swipe and area sensors; tell user to slow down*/ FINGERPRINT_ACQUIRED_DETECTED = 6, /* when the finger is first detected. Used to optimize wakeup. Should be followed by one of the above messages */ FINGERPRINT_ACQUIRED_VENDOR_BASE = 1000 /* vendor-specific acquisition messages start here */ } fingerprint_acquired_info_t; typedef struct fingerprint_finger_id { uint32_t gid; uint32_t fid; } fingerprint_finger_id_t; typedef struct fingerprint_enroll { fingerprint_finger_id_t finger; /* samples_remaining goes from N (no data collected, but N scans needed) * to 0 (no more data is needed to build a template). */ uint32_t samples_remaining; uint64_t msg; /* Vendor specific message. Used for user guidance */ } fingerprint_enroll_t; typedef struct fingerprint_iterator { fingerprint_finger_id_t finger; uint32_t remaining_templates; } fingerprint_iterator_t; typedef fingerprint_iterator_t fingerprint_enumerated_t; typedef fingerprint_iterator_t fingerprint_removed_t; typedef struct fingerprint_acquired { fingerprint_acquired_info_t acquired_info; /* information about the image */ } fingerprint_acquired_t; typedef struct fingerprint_authenticated { fingerprint_finger_id_t finger; hw_auth_token_t hat; } fingerprint_authenticated_t; typedef struct fingerprint_msg { fingerprint_msg_type_t type; union { fingerprint_error_t error; fingerprint_enroll_t enroll; fingerprint_enumerated_t enumerated; fingerprint_removed_t removed; fingerprint_acquired_t acquired; fingerprint_authenticated_t authenticated; } data; } fingerprint_msg_t; /* Callback function type */ typedef void (*fingerprint_notify_t)(const fingerprint_msg_t *msg); /* Synchronous operation */ typedef struct fingerprint_device { /** * Common methods of the fingerprint device. This *must* be the first member * of fingerprint_device as users of this structure will cast a hw_device_t * to fingerprint_device pointer in contexts where it's known * the hw_device_t references a fingerprint_device. */ struct hw_device_t common; /* * Client provided callback function to receive notifications. * Do not set by hand, use the function above instead. */ fingerprint_notify_t notify; /* * Set notification callback: * Registers a user function that would receive notifications from the HAL * The call will block if the HAL state machine is in busy state until HAL * leaves the busy state. * * Function return: 0 if callback function is successfuly registered * or a negative number in case of error, generally from the errno.h set. */ int (*set_notify)(struct fingerprint_device *dev, fingerprint_notify_t notify); /* * Fingerprint pre-enroll enroll request: * Generates a unique token to upper layers to indicate the start of an enrollment transaction. * This token will be wrapped by security for verification and passed to enroll() for * verification before enrollment will be allowed. This is to ensure adding a new fingerprint * template was preceded by some kind of credential confirmation (e.g. device password). * * Function return: 0 if function failed * otherwise, a uint64_t of token */ uint64_t (*pre_enroll)(struct fingerprint_device *dev); /* * Fingerprint enroll request: * Switches the HAL state machine to collect and store a new fingerprint * template. Switches back as soon as enroll is complete * (fingerprint_msg.type == FINGERPRINT_TEMPLATE_ENROLLING && * fingerprint_msg.data.enroll.samples_remaining == 0) * or after timeout_sec seconds. * The fingerprint template will be assigned to the group gid. User has a choice * to supply the gid or set it to 0 in which case a unique group id will be generated. * * Function return: 0 if enrollment process can be successfully started * or a negative number in case of error, generally from the errno.h set. * A notify() function may be called indicating the error condition. */ int (*enroll)(struct fingerprint_device *dev, const hw_auth_token_t *hat, uint32_t gid, uint32_t timeout_sec); /* * Finishes the enroll operation and invalidates the pre_enroll() generated challenge. * This will be called at the end of a multi-finger enrollment session to indicate * that no more fingers will be added. * * Function return: 0 if the request is accepted * or a negative number in case of error, generally from the errno.h set. */ int (*post_enroll)(struct fingerprint_device *dev); /* * get_authenticator_id: * Returns a token associated with the current fingerprint set. This value will * change whenever a new fingerprint is enrolled, thus creating a new fingerprint * set. * * Function return: current authenticator id or 0 if function failed. */ uint64_t (*get_authenticator_id)(struct fingerprint_device *dev); /* * Cancel pending enroll or authenticate, sending FINGERPRINT_ERROR_CANCELED * to all running clients. Switches the HAL state machine back to the idle state. * Unlike enroll_done() doesn't invalidate the pre_enroll() challenge. * * Function return: 0 if cancel request is accepted * or a negative number in case of error, generally from the errno.h set. */ int (*cancel)(struct fingerprint_device *dev); /* * Enumerate all the fingerprint templates found in the directory set by * set_active_group() * For each template found a notify() will be called with: * fingerprint_msg.type == FINGERPRINT_TEMPLATE_ENUMERATED * fingerprint_msg.data.enumerated.finger indicating a template id * fingerprint_msg.data.enumerated.remaining_templates indicating how many more * enumeration messages to expect. * Note: If there are no fingerprints, then this should return 0 and the first fingerprint * enumerated should have fingerid=0 and remaining=0 * Function return: 0 if enumerate request is accepted * or a negative number in case of error, generally from the errno.h set. */ int (*enumerate)(struct fingerprint_device *dev); /* * Fingerprint remove request: * Deletes a fingerprint template. * Works only within the path set by set_active_group(). * The fid parameter can be used as a widcard: * * fid == 0 -- delete all the templates in the group. * * fid != 0 -- delete this specific template from the group. * For each template found a notify() will be called with: * fingerprint_msg.type == FINGERPRINT_TEMPLATE_REMOVED * fingerprint_msg.data.removed.finger indicating a template id deleted * fingerprint_msg.data.removed.remaining_templates indicating how many more * templates will be deleted by this operation. * * Function return: 0 if fingerprint template(s) can be successfully deleted * or a negative number in case of error, generally from the errno.h set. */ int (*remove)(struct fingerprint_device *dev, uint32_t gid, uint32_t fid); /* * Restricts the HAL operation to a set of fingerprints belonging to a * group provided. * The caller must provide a path to a storage location within the user's * data directory. * * Function return: 0 on success * or a negative number in case of error, generally from the errno.h set. */ int (*set_active_group)(struct fingerprint_device *dev, uint32_t gid, const char *store_path); /* * Authenticates an operation identifed by operation_id * * Function return: 0 on success * or a negative number in case of error, generally from the errno.h set. */ int (*authenticate)(struct fingerprint_device *dev, uint64_t operation_id, uint32_t gid); /** * Call a Xiaomi fingerprint extension command. */ int (*extCmd)(struct fingerprint_device *dev, int32_t cmd, int32_t param); /* Reserved for backward binary compatibility */ void *reserved[4]; } fingerprint_device_t; typedef struct fingerprint_module { /** * Common methods of the fingerprint module. This *must* be the first member * of fingerprint_module as users of this structure will cast a hw_module_t * to fingerprint_module pointer in contexts where it's known * the hw_module_t references a fingerprint_module. */ struct hw_module_t common; } fingerprint_module_t; #endif /* ANDROID_INCLUDE_HARDWARE_FINGERPRINT_H */