Fuel rail pressure sensor diagnostic techniques

What is claimed is: 1. A method, comprising: detecting, at a controller of an engine, the controller having one or more processors, an engine off event; and executing, by the controller, a first diagnostic routine for a fuel rail pressure sensor in response to detecting the engine off event, the first diagnostic routine including: deactivating fuel injectors of the engine; commanding a fuel pump of the engine to supply fuel to a fuel rail to increase the fuel rail pressure to a desired maximum pressure; deactivating the fuel pump; receiving a first measured fuel rail pressure from the fuel rail pressure sensor; reactivating the fuel injectors; commanding the fuel injectors to inject fuel into the engine to decrease the fuel rail pressure to a desired minimum pressure; deactivating the fuel injectors; receiving a second measured fuel rail pressure from the fuel rail pressure sensor; and detecting a fault of the fuel rail pressure sensor based on a pressure difference between the first and second measured fuel rail pressures. 2. The method of claim 1 , wherein the controller detects the fault of the fuel rail pressure sensor when the pressure difference between the first and second measured fuel rail pressures is less than a predetermined threshold indicative of an appropriate pressure difference for the fuel rail pressure sensor. 3. The method of claim 2 , further comprising at least one of: actuating, by the controller, a malfunction indicator lamp in response to detecting the fault of the fuel rail pressure sensor; and adjusting, by the controller, operation of the engine in response to detecting the fault of the fuel rail pressure sensor. 4. The method of claim 1 , further comprising executing, by the controller, a second diagnostic routine for the fuel rail pressure sensor in response to detecting an upcoming deceleration fuel cutoff (DFCO) event during a vehicle trip prior to the engine off event. 5. The method of claim 4 , wherein the first diagnostic routine for the fuel rail pressure sensor is executed by the controller in response to the engine off event when a DFCO event is not detected during the vehicle trip. 6. The method of claim 4 , wherein the second diagnostic routine includes: deactivating the fuel pump; commanding the fuel injectors to inject fuel into the engine to decrease the fuel rail pressure to the desired minimum pressure; receiving a third measured fuel rail pressure from the fuel rail pressure sensor; deactivating the fuel injectors; reactivating the fuel pump; commanding the fuel pump to supply fuel to the fuel rail to increase the fuel rail pressure to the desired maximum pressure; receiving a fourth measured fuel rail pressure from the fuel rail pressure sensor; and detecting a fault of the fuel rail pressure sensor based on a pressure difference between the fourth and third measured fuel rail pressures. 7. The method of claim 6 , wherein the upcoming DFCO event is an imminent DFCO event, and wherein the controller detects the fault of the fuel rail pressure sensor when the pressure difference between the fourth and third measured fuel rail pressures is less than a predetermined threshold indicative of an appropriate pressure difference for the fuel rail pressure sensor.