Sensor bypass

The invention claimed is: 1. A computer-implemented method performed by a data processing apparatus, the method comprising: displaying, by an entry point sensor whose mode is an armed mode, a first visual indication in response to the mode of the entry point sensor being the armed mode; changing the mode of the entry point sensor from the armed mode to a bypass mode upon detection of an activation of a bypass input of the entry point sensor; displaying, by the entry point sensor, a second visual indication before displaying a third visual indication, in response to the changing of the mode of the entry point sensor from the armed mode to the bypass mode; and displaying, by the entry point sensor, the third visual indication after the second visual indication in response to the mode of the entry point sensor being the bypass mode. 2. The computer-implemented method of claim 1 , further comprising: determining by the entry point sensor that there has been a change in the position of the entry point while the mode of the entry point sensor is the bypass mode; changing the mode of the entry point sensor from the bypass mode to the armed mode; and displaying, by the entry point sensor, the first visual indication in response to the mode of the entry point sensor being the armed mode. 3. The computer-implemented method of claim 2 , further comprising: after changing the mode of the entry point sensor from the bypass mode to the armed mode, detecting another activation of the bypass input; changing the mode of the entry point sensor from the armed mode to the bypass mode; and displaying, by the entry point sensor, the third visual indication in response to the mode of the entry point sensor being the bypass mode. 4. The computer-implemented method of claim 3 , further comprising: determining that a timeout period has elapsed while the entry point sensor is in the bypass mode; changing the mode of the entry point sensor from the bypass mode to the armed mode; and displaying, by the entry point sensor, the first visual indication in response to the mode of the entry point sensor being the armed mode. 5. The computer-implemented method of claim 3 , further comprising: detecting another activation of the bypass input while the entry point sensor is in the bypass mode; changing the mode of the entry point sensor from the bypass mode to the armed mode; and displaying, by the entry point sensor, the first visual indication in response to the mode of the entry point sensor being the armed mode. 6. The computer-implemented method of claim 1 , wherein the entry point sensor comprises an indicator device, and wherein displaying, by the entry point sensor, the first visual indication in response to the mode of the entry point sensor being the armed mode comprises displaying the first visual indication on the indicator device, and displaying, by the entry point sensor, the third visual indication in response to the mode of the entry point sensor being the bypass mode comprises displaying the third visual indication on the indicator device. 7. The computer-implemented method of claim 6 , wherein displaying the first visual indication on the indicator device comprises turning the indicator device off. 8. The computer-implemented method of claim 6 , wherein the indicator device of the entry point sensor is controlled by a hub computing device that is separate from the entry point sensor. 9. The computer-implemented method of claim 6 , wherein the indictor device comprises one or more LEDs or a display screen. 10. The computer-implemented of claim 1 , further comprising generating one or both of a tactile indication and an auditory indication in response to the mode of the entry point sensor being the armed mode. 11. The computer-implemented method of claim 1 , wherein the first visual indication comprises a first color and the third visual indication comprises a second color different from the first color, or wherein the first visual indicator comprises a first blink rate and the third visual indication comprises a second blink rate different from the first blink rate. 12. An entry point sensor apparatus comprising: a sensor that detects one or more characteristics of an entry point; a bypass input that receives an activation; an indicator device; a communications chipset that communicates with a hub computing device of a security system; and a processor that causes the indicator device to display a first visual indicator when a mode of the entry point sensor is an armed mode, changes the mode of the entry point sensor from the armed mode to a bypass mode upon detection of an activation of a bypass input of the entry point sensor, causes the indicator devices to display a second visual indication before displaying a third visual indication, in response to the changing of the mode of the entry point sensor from the armed mode to the bypass mode; and causes the indicator device to display the third visual indication after the second visualization when the mode of the entry point sensor is the bypass mode. 13. The entry point sensor of claim 12 , wherein the processor further determines that there has been a change in the position of the entry point while the mode of the entry point sensor is the bypass mode based on the one or more characteristics of the entry point detected by the sensor, changes the mode of the entry point sensor from the bypass mode to the armed mode, and causes the indicator device to display the first visual indication. 14. The entry point sensor of claim 12 , wherein the first visual indication comprises a first color and the third visual indication comprises a second color different from the first color, or wherein the first visual indicator comprises a first blink rate and the third visual indication comprises a second blink rate different from the first blink rate. 15. The entry point sensor of claim 12 , wherein displaying the first visual indication on the indicator device comprises turning the indicator device off. 16. The entry point sensor of claim 12 , wherein the indicator device of the entry point sensor is further controlled by a processor of a hub computing device that is separate from the processor of the entry point sensor. 17. The entry point sensor of claim 12 , wherein the indictor device comprises one or more LEDs or a display screen. 18. The entry point sensor of claim 12 , wherein the processer further causes the generation of one or both of a tactile indication and an auditory indication in response to the mode of the entry point sensor being the armed mode. 19. A system comprising: one or more computers and one or more storage devices storing instructions which are operable, when executed by the one or more computers, to cause the one or more computers to perform operations comprising: displaying, by an entry point sensor whose mode is an armed mode, a first visual indication in response to the mode of the entry point sensor being the armed mode; changing the mode of the entry point sensor from the armed mode to a bypass mode upon detection of an activation of a bypass input of the entry point sensor; displaying, by the entry point sensor, a second visual indication before displaying a third visual indication, in response to the changing of the mode of the entry point sensor from the armed mode to the bypass mode; and displaying, by the entry point sensor, the third visual indication after the second visual indication in response to the mode of the entry point sensor being the bypass mode.