Security event detection with smart windows

What is claimed is: 1. A method of detecting a security-related event in an optically switchable window, the method comprising: (a) measuring a current or voltage of an optically switchable device of the optically switchable window without perturbing a process of driving a transition between optical states and/or maintaining an end optical state of the optically switchable window; (b) evaluating the current or voltage measured in (a) to determine whether the current or voltage measured in (a) indicates that the optically switchable window is broken or damaged; and (c) in response to detecting the response in (b), performing a security action wherein measuring the current or voltage of the optically switchable device is performed while the optically switchable window is undergoing the transition from a first tint state to a second tint state. 2. The method of claim 1 , wherein measuring the current or voltage of the optically switchable device includes measuring an open circuit voltage of the optically switchable device. 3. The method of claim 2 , wherein measuring the open circuit voltage of the optically switchable device is performed while the optically switchable window is undergoing the transition from a first tint state to a second tint state. 4. The method of claim 1 , wherein evaluating the current or voltage measured in (a) includes comparing the current or voltage measured in (a) against an expected current or voltage for the process of driving the transition between optical states and/or maintaining the end optical state of the optically switchable window. 5. The method of claim 4 , wherein the expected current or voltage is a previously measured current or voltage for the process of driving the transition between optical states and/or maintaining the end optical state of the optically switchable window. 6. The method of claim 1 , wherein measuring the current or voltage of the optically switchable device is performed while the optically switchable window is in the end optical state. 7. The method of claim 1 , wherein measuring the current or voltage of the optically switchable device includes measuring a leakage current of the optically switchable device and evaluating the current or voltage measured in (a) includes comparing the leakage current against an expected leakage current of the optically switchable device. 8. A security system comprising: one or more interfaces for receiving sensed values for an optically switchable device of an optically switchable window; and one or more processors and memory configured to perform a method of detecting a security-related event in the optically switchable window, the method comprising: (a) applying a perturbation to an optically switchable device of the optically switchable window; (b) detecting a response to the perturbation that indicates that the optically switchable window is broken or damaged; and (c) in response to detecting the response in (b), performing a security action wherein the applying the perturbation includes applying a perturbing voltage or a perturbing current to the optically switchable window during a tint transition of the optically switchable window; and the perturbing voltage or the perturbing current is not part of a tint transition drive cycle for the optically switchable window. 9. The security system of claim 8 , wherein: the perturbation includes a voltage ramp, a current ramp, or a constant voltage to the optically switchable device, and detecting the response to the perturbation includes at least one of: detecting a current produced by the optically switchable device in response to the perturbation; or measuring an open circuit voltage of the optically switchable device after application of the perturbation. 10. The security system of claim 9 , wherein a slope of at least one of the voltage ramp and the current ramp is a parameter set by one or more of a window controller, a network controller, and a master controller based on one or both of a size of the window and the external temperature. 11. The security system of claim 8 , wherein applying the perturbation in (a) includes repeatedly applying the perturbation while the optically switchable device is in an end tint state or applying a square wave or saw tooth wave to the optically switchable device. 12. The security system of claim 8 , wherein: the perturbation includes an oscillating current or voltage; and detecting a response to the perturbation includes detecting a frequency response produced by the optically switchable device in response to the oscillating current or voltage. 13. The security system of claim 12 , wherein detecting the response to the perturbation includes determining that frequency absorption of the optically switchable device deviates from an expected frequency absorption. 14. The security system of claim 8 wherein performing the security action includes one or more of: displaying an alert on a local or a remote device; applying a square wave or saw tooth wave to the optically switchable device; adjusting lighting in a room proximate the optically switchable window; locking a door in a room proximate the optically switchable window; adjusting a tint state of a tintable window proximate the optically switchable window; lighting a display registered with the optically switchable window; and lighting the display with a flashing light pattern on the display. 15. The security system of claim 8 , wherein the optically switchable device is an electrochromic device. 16. The security system of claim 8 , wherein detecting the response to the perturbation includes one or both of: evaluating the absolute value of a measured current; and evaluating a change, over a period of time, in a value of the measured current. 17. The security system of claim 16 , wherein evaluating the absolute value of the measured current includes comparing the absolute value of the measured current with a specified value. 18. A method of detecting a security-related event, the method comprising: (a) measuring one or more of a current, a voltage and a charge count (Q) of an optically switchable window; (b) determining whether the optically switchable window is broken or damaged using one or more of the current, the voltage and the charge count measured in (a); and (c) in response to determining that the optically switchable window is broken or damaged, performing a security action and/or an alert action wherein measuring the current or voltage of the optically switchable device is performed while the optically switchable window is undergoing the transition from a first tint state to a second tint state. 19. The method of claim 18 , wherein (a) is performed while the optically switchable window is undergoing a transition from a first tint state to a second tint state. 20. The method of claim 18 , wherein the measured voltage is an open circuit voltage of the optically switchable window. 21. The method of claim 18 , wherein measuring the one or more of current, voltage and Q is performed without visibly perturbing an apparent optical state of the optically switchable window. 22. The method of any of claim 18 , wherein measuring the one or more of current, voltage and Q is performed over a period of one minute or less and/or at a first regular interval. 23. The method of claim 18 , wherein measuring the one or more of current, voltage and Q is performed without perturbing a process of driving a transitio