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diff --git a/data/extensions/jsr@javascriptrestrictor/wrappingS-SENSOR-GYRO.js b/data/extensions/jsr@javascriptrestrictor/wrappingS-SENSOR-GYRO.js
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+/** \file
+ * \brief Wrappers for the Gyroscope Sensor
+ *
+ * \see https://www.w3.org/TR/Gyroscope/
+ *
+ *  \author Copyright (C) 2021  Radek Hranicky
+ *
+ *  \license SPDX-License-Identifier: GPL-3.0-or-later
+ */
+ //
+ //  This program is free software: you can redistribute it and/or modify
+ //  it under the terms of the GNU General Public License as published by
+ //  the Free Software Foundation, either version 3 of the License, or
+ //  (at your option) any later version.
+ //
+ //  This program is distributed in the hope that it will be useful,
+ //  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ //  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ //  GNU General Public License for more details.
+ //
+ //  You should have received a copy of the GNU General Public License
+ //  along with this program.  If not, see <https://www.gnu.org/licenses/>.
+ //
+
+ /** \file
+  * \ingroup wrappers
+  * MOTIVATION
+  * Gyroscope readings can be used for speech recognition: https://crypto.stanford.edu/gyrophone/
+  * and various fingerprinting operations. For stationary devices, the resonance of the unique internal or
+  * external sounds affects angular velocities affect the Gyroscope and allow to create a fingerprint:
+  * https://www.researchgate.net/publication/356678825_Mobile_Device_Fingerprint_Identification_Using_Gyroscope_Resonance
+  * For moving devices, one of the options is using the Gyroscope analyze human walking patterns:
+  * https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7071017/
+  *
+  *
+  * WRAPPING
+  * The Gyroscope sensor provides readings of the angular velocity of the device alongthe x/y/z axes.
+  * For a stationary device, all velocities should be zero in an ideal state. As we observed on the
+  * examined devices, device sensor imperfections andlittle vibrations cause the `x`, `y` and `z` to
+  * oscillate between -0.002 and 0.002 on the examined devices. The wrapper simulates the same behavior.
+  *
+  *
+  * POSSIBLE IMPROVEMENTS
+  * Support for simulation of a non-stationary device. This would require
+  * modifications to other movement-related sensors (Accelerometer, etc.)
+  *
+  */
+
+  /*
+   * Create private namespace
+   */
+(function() {
+  /*
+    * \brief Initialization of data for storing sensor readings
+  */
+  var init_data = `
+    var currentReading = currentReading || {orig_x: null, orig_y: null, orig_z: null, timestamp: null,
+                      fake_x: null, fake_y: null, fake_z: null};
+    var previousReading = previousReading || {orig_x: null, orig_y: null, orig_z: null, timestamp: null,
+                      fake_x: null, fake_y: null, fake_z: null};
+    var emulateStationaryDevice = (typeof args === 'undefined') ? true : args[0];
+    var debugMode = false;
+
+    const TWOPI = 2 * Math.PI;
+    `;
+
+  /*
+    * \brief Property getters of the original sensor object
+  */
+  var orig_getters = `
+    var origGetX = Object.getOwnPropertyDescriptor(Gyroscope.prototype, "x").get;
+    var origGetY = Object.getOwnPropertyDescriptor(Gyroscope.prototype, "y").get;
+    var origGetZ = Object.getOwnPropertyDescriptor(Gyroscope.prototype, "z").get;
+    var origGetTimestamp = Object.getOwnPropertyDescriptor(Sensor.prototype, "timestamp").get;
+    `;
+
+  /*
+    * \brief Changes the value on the given axis to a new one from the given interval
+    *
+    * \param the axis object (min, max, value, and decimalPlaces properties required)
+  */
+  function shake(axis) {
+    val = sen_prng() * (axis.max - axis.min) + axis.min;
+
+    var precision = Math.pow(10, -1 * axis.decimalPlaces);
+    if (val < precision) {
+      val = 0;
+    }
+
+    if (axis.canBeNegative) {
+      val *= Math.round(sen_prng()) ? 1 : -1;
+    }
+
+    if (val == 0) {
+      axis.value = 0;
+    } else {
+      axis.value = fixedNumber(val, axis.decimalPlaces);
+    }
+  }
+
+  /*
+    * \brief The data generator for creating fake Gyroscope values
+  */
+  class DataGenerator {
+    constructor() {
+      this.NEXT_CHANGE_MS_MIN = 500;
+      this.NEXT_CHANGE_MS_MAX = 2000;
+      this.x = {
+        name: "x",
+        min: 0.0,
+        max: 0.0021,
+        decimalPlaces: 3,
+        canBeNegative: true,
+        value: null
+      };
+      this.y = {
+        name: "y",
+        min: 0.0,
+        max: 0.0021,
+        decimalPlaces: 3,
+        canBeNegative: true,
+        value: null
+      };
+      this.z = {
+        name: "z",
+        min: 0.0,
+        max: 0.0021,
+        decimalPlaces: 3,
+        canBeNegative: true,
+        value: null
+      };
+      this.nextChangeTimeX = null; // miliseconds
+      this.nextChangeTimeY = null;
+      this.nextChangeTimeZ = null;
+    }
+
+    /*
+      * \brief Updates the  x/y/z axes values based on the current timestamp
+      *
+      * \param Current timestamp from the sensor object
+    */
+    update(currentTimestamp) {
+    // Simulate the Gyroscope changes
+      if (this.shouldWeUpdateX(currentTimestamp)) {
+        shake(this.x);
+        this.setNextChangeX(currentTimestamp);
+      };
+      if (this.shouldWeUpdateY(currentTimestamp)) {
+        shake(this.y);
+        this.setNextChangeY(currentTimestamp);
+      };
+      if (this.shouldWeUpdateZ(currentTimestamp)) {
+        shake(this.z);
+        this.setNextChangeZ(currentTimestamp);
+      };
+    }
+
+    /*
+      * \brief Boolean function that decides if the value on the axis X
+      *        should be updated. Returns true if update is needed.
+      *
+      * \param Current timestamp from the sensor object
+    */
+    shouldWeUpdateX(currentTimestamp) {
+      if (currentTimestamp === null || this.nextChangeTimeX === null) {
+        return true;
+      }
+      if (currentTimestamp >= this.nextChangeTimeX) {
+        return true;
+      } else {
+        return false;
+      }
+    }
+
+    /*
+      * \brief Boolean function that decides if the value on the axis Y
+      *        should be updated. Returns true if update is needed.
+      *
+      * \param Current timestamp from the sensor object
+    */
+    shouldWeUpdateY(currentTimestamp) {
+      if (currentTimestamp === null || this.nextChangeTimeY === null) {
+        return true;
+      }
+      if (currentTimestamp >= this.nextChangeTimeY) {
+        return true;
+      } else {
+        return false;
+      }
+    }
+
+    /*
+      * \brief Boolean function that decides if the value on the axis Z
+      *        should be updated. Returns true if update is needed.
+      *
+      * \param Current timestamp from the sensor object
+    */
+    shouldWeUpdateZ(currentTimestamp) {
+      if (currentTimestamp === null || this.nextChangeTimeZ === null) {
+        return true;
+      }
+      if (currentTimestamp >= this.nextChangeTimeZ) {
+        return true;
+      } else {
+        return false;
+      }
+    }
+
+    /*
+      * \brief Sets the timestamp of the next update of value on the axis X.
+      *
+      * \param Current timestamp from the sensor object
+    */
+    setNextChangeX(currentTimestamp) {
+      let interval_ms = Math.floor(
+        sen_prng() * (this.NEXT_CHANGE_MS_MAX - this.NEXT_CHANGE_MS_MIN + 1)
+        + this.NEXT_CHANGE_MS_MIN
+      );
+      this.nextChangeTimeX = currentTimestamp + interval_ms;
+    }
+
+    /*
+      * \brief Sets the timestamp of the next update of value on the axis Y.
+      *
+      * \param Current timestamp from the sensor object
+    */
+    setNextChangeY(currentTimestamp) {
+      let interval_ms = Math.floor(
+        sen_prng() * (this.NEXT_CHANGE_MS_MAX - this.NEXT_CHANGE_MS_MIN + 1)
+        + this.NEXT_CHANGE_MS_MIN
+      );
+      this.nextChangeTimeY = currentTimestamp + interval_ms;
+    }
+
+    /*
+      * \brief Sets the timestamp of the next update of value on the axis Z.
+      *
+      * \param Current timestamp from the sensor object
+    */
+    setNextChangeZ(currentTimestamp) {
+      let interval_ms = Math.floor(
+        sen_prng() * (this.NEXT_CHANGE_MS_MAX - this.NEXT_CHANGE_MS_MIN + 1)
+        + this.NEXT_CHANGE_MS_MIN
+      );
+      this.nextChangeTimeZ = currentTimestamp + interval_ms;
+    }
+  };
+
+  /*
+    * \brief Updates the stored (both real and fake) sensor readings
+    *        according to the data from the sensor object.
+    *
+    * \param The sensor object
+  */
+  function updateReadings(sensorObject) {
+
+    // We need the original reading's timestamp to see if it differs
+    // from the previous sample. If so, we need to update the faked x,y,z
+    let previousTimestamp = previousReading.timestamp;
+    let currentTimestamp = origGetTimestamp.call(sensorObject);
+
+    if (debugMode) {
+      // [!] Debug mode: overriding timestamp
+      // This allows test suites to set a custom timestamp externally
+      // by modifying the property of the sensor object directly.
+      currentTimestamp = sensorObject.timestamp;
+    }
+
+    if (currentTimestamp === previousReading.timestamp) {
+      // No new reading, nothing to update
+      return;
+    }
+
+    // Rotate the readings: previous <- current
+    previousReading = JSON.parse(JSON.stringify(currentReading));
+
+    // Update current reading
+    // NOTE: Original values are also stored for possible future use
+    currentReading.orig_x = origGetX.call(sensorObject);
+    currentReading.orig_y = origGetY.call(sensorObject);
+    currentReading.orig_z = origGetZ.call(sensorObject);
+    currentReading.timestamp = currentTimestamp;
+
+    dataGenerator.update(currentTimestamp);
+
+    currentReading.fake_x = dataGenerator.x.value;
+    currentReading.fake_y = dataGenerator.y.value;
+    currentReading.fake_z = dataGenerator.z.value;
+
+    if (debugMode) {
+    }
+  }
+
+  /*
+    * \brief Initializes the related generators
+  */
+  var generators = `
+    // Initialize the data generator, if not initialized before
+    var dataGenerator = dataGenerator || new DataGenerator();
+    `;
+
+  var helping_functions = sensorapi_prng_functions
+      + DataGenerator + shake + updateReadings;
+  var hc = init_data + orig_getters + helping_functions + generators;
+
+  var wrappers = [
+    {
+      parent_object: "Gyroscope.prototype",
+      parent_object_property: "x",
+      wrapped_objects: [],
+      helping_code: hc,
+      post_wrapping_code: [
+        {
+          code_type: "object_properties",
+          parent_object: "Gyroscope.prototype",
+          parent_object_property: "x",
+          wrapped_objects: [],
+          /**  \brief replaces Sensor.prototype.x getter to return a faked value
+           */
+          wrapped_properties: [
+            {
+              property_name: "get",
+              property_value: `
+              function() {
+                updateReadings(this);
+                return currentReading.fake_x;
+              }`,
+            },
+          ],
+        }
+      ],
+    },
+    {
+      parent_object: "Gyroscope.prototype",
+      parent_object_property: "y",
+      wrapped_objects: [],
+      helping_code: hc,
+      post_wrapping_code: [
+        {
+          code_type: "object_properties",
+          parent_object: "Gyroscope.prototype",
+          parent_object_property: "y",
+          wrapped_objects: [],
+          /**  \brief replaces Sensor.prototype.y getter to return a faked value
+           */
+          wrapped_properties: [
+            {
+              property_name: "get",
+              property_value: `
+              function() {
+                updateReadings(this);
+                return currentReading.fake_y;
+              }`,
+            },
+          ],
+        }
+      ],
+    },
+    {
+      parent_object: "Gyroscope.prototype",
+      parent_object_property: "z",
+      wrapped_objects: [],
+      helping_code: hc,
+      post_wrapping_code: [
+        {
+          code_type: "object_properties",
+          parent_object: "Gyroscope.prototype",
+          parent_object_property: "z",
+          wrapped_objects: [],
+          /**  \brief replaces Sensor.prototype.z getter to return a faked value
+           */
+          wrapped_properties: [
+            {
+              property_name: "get",
+              property_value: `
+              function() {
+                updateReadings(this);
+                return currentReading.fake_z;
+              }`,
+            },
+          ],
+        }
+      ],
+    },
+  ]
+  add_wrappers(wrappers);
+})()