device_google_lynx/vibrator/cs40l26/proto/capo.proto

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syntax = "proto3";
package capo;
// The message types used in capo nanoapp. Some of them are H2C
// (Host-To-CHRE) and others are C2H (CHRE-To-Host). One message type must be
// either H2C or C2H. Each message type can choose to have payload or not.
enum MessageType {
// Explicitly prevents 0 from being used as a valid message type.
// Doing so protects from obscure bugs caused by default-initialized values.
INVALID = 0;
// Detector configuration related message start from 100.
// Signal for host to acknowledge the notification.
// It contains AckNotification payload.
ACK_NOTIFICATION = 100;
// Signal to enable the carried position detector for device. No payload.
ENABLE_DETECTOR = 101;
// Signal to disable the carried position detector for device. No payload.
DISABLE_DETECTOR = 102;
// Signal to request most recent carried position detector state. No payload.
REQUEST_UPDATE = 103;
// Signal to force carried position detector to refresh state. No payload.
FORCE_UPDATE = 104;
// Configure the detector with desired parameters. ConfigureDetector payload.
CONFIGURE_DETECTOR = 105;
// Position Detection related message start from 200.
// Signal while carried position of device detected.
// It contains PositionDetected payload.
POSITION_DETECTED = 200;
}
// Notification Type.
enum NotificationType {
// Explicitly prevents 0 from being used as a valid notification type.
// Doing so protects from obscure bugs caused by default-initialized values.
INVALID_NOTIFICATION = 0;
// Notification of enabling the carried position detector for device.
ENABLE_NOTIFICATION = 1;
// Notification of disabling the carried position detector for device.
DISABLE_NOTIFICATION = 2;
// Notification of request update from the carried position detector.
REQUEST_UPDATE_NOTIFICATION = 3;
// Notification of force update from the carried position detector.
FORCE_UPDATE_NOTIFICATION = 4;
// Notification of configure message.
CONFIGURE_NOTIFICATION = 5;
}
// This message type used for host to acknowledge the notification.
message AckNotification {
// Sent a notification type for host to acknowledge.
NotificationType notification_type = 1;
}
// Position type.
enum PositionType {
// Explicitly prevents 0 from being used as a valid carried position type.
// Doing so protects from obscure bugs caused by default-initialized values.
UNKNOWN = 0;
// Carried position while device is in motion.
IN_MOTION = 1;
// Carried position while device is on table and faces up.
ON_TABLE_FACE_UP = 2;
// Carried position while device is on table and faces down.
ON_TABLE_FACE_DOWN = 3;
// Carried position while device is stationary in unknown orientation.
STATIONARY_UNKNOWN = 4;
}
// This message type used to notify host a position was a detected.
message PositionDetected {
// Sent a position type that is defined in PositionTypes.
PositionType position_type = 1;
}
// Predefined configurations for detector.
enum ConfigPresetType {
// Explicitly prevents 0 from being used as a valid type.
// Doing so protects from obscure bugs caused by default-initialized values.
CONFIG_PRESET_UNSPECIFIED = 0;
// Default preset.
CONFIG_PRESET_DEFAULT = 1;
// Preset for sticky-stationary behavior.
CONFIG_PRESET_STICKY_STATIONARY = 2;
}
message ConfigureDetector {
// Ref: cs/location/lbs/contexthub/nanoapps/motiondetector/motion_detector.h
message ConfigData {
// These algo parameters are exposed to enable tuning via server flags.
// The amount of time that the algorithm's computed stillness confidence
// must exceed still_confidence_threshold before entering the stationary
// state. Increasing this value will make the algorithm take longer to
// transition from the in motion state to the stationary state.
uint64 still_time_threshold_nanosecond = 1;
// The amount of time in which the variance should be averaged. Increasing
// this value will effectively smooth the input data, making the algorithm
// less likely to transition between states.
uint32 window_width_nanosecond = 2;
// The required confidence that the device is in motion before entering the
// motion state. Valid range is [0.0, 1.0], where 1.0 indicates that the
// algorithm must be 100% certain that the device is moving before entering
// the motion state. If the Instant Motion sensor is triggered, this value
// is ignored and the algorithm is immediately transitioned into the in
// motion state.
float motion_confidence_threshold = 3;
// The required confidence that the device is stationary before entering the
// stationary state. Valid range is [0.0, 1.0], where 1.0 indicates that the
// algorithm must be 100% certain that the device is stationary before
// entering the stationary state.
float still_confidence_threshold = 4;
// The variance threshold for the StillnessDetector algorithm. Increasing
// this value causes the algorithm to be less likely to detect motion.
float var_threshold = 5;
// The variance threshold delta for the StillnessDetector algorithm about
// which the stationary confidence is calculated. Valid range is
// [0.0, var_threshold].
float var_threshold_delta = 6;
}
oneof type {
ConfigPresetType preset_type = 1;
ConfigData config_data = 2;
}
}