Method for diagnosing electric brake system

What is claimed is: 1. A method for diagnosing an electric brake system, which includes a reservoir configured to store oil, a master cylinder at which first and second hydraulic ports are formed, connected to the reservoir, and having one or more pistons to discharge oil according to a pedal effort of a brake pedal, a first backup flow path configured to connect the first hydraulic port to a wheel cylinder, a second backup flow path configured to connect to the second hydraulic port to a wheel cylinder, a first cut valve provided at the first backup flow path and configured to control an oil flow, a second cut valve provided at the second backup flow path and configured to control an oil flow, a simulation device provided at a flow path branching from the first backup flow path, provided with a simulator valve provided at a flow path connecting a simulation chamber in which oil is accommodated to the reservoir, and configured to provide a reaction force according to the pedal effort of the brake pedal, a hydraulic pressure supply device configured to operate in response to an electrical signal output from a pedal displacement sensor sensing a displacement of the brake pedal and generate hydraulic pressure by means of an operation of a hydraulic piston, a first hydraulic flow path connected to the hydraulic pressure supply device and to the first backup flow path, a second hydraulic flow path connected to the hydraulic pressure supply device and to the second backup flow path, a hydraulic control unit connected to the first and second hydraulic flow paths, configured to deliver the hydraulic pressure discharged from the hydraulic pressure supply device to a wheel cylinder provided at each of wheels, and including first and second hydraulic circuits connected to different wheel cylinders, a first inlet valve, a second inlet valve, a third inlet valve, and a fourth inlet valves provided at an upstream side of the wheel cylinder to control hydraulic pressure flowing to the wheel cylinder installed at each of the wheels, first to fourth outlet valves configured to control opening and blocking of a flow path branching from a flow path between the first to fourth inlet valves and the wheel cylinder to be connected to the reservoir, and an electronic control unit configured to control the hydraulic pressure supply device and a plurality of valves on the basis of hydraulic pressure information and displacement information of the brake pedal, comprising a first diagnosis mode of: closing the first cut valve and the second cut valve when the pedal effort is not provided to the brake pedal; operating the hydraulic pressure supply device to generate hydraulic pressure at the hydraulic control unit; measuring the hydraulic pressure in the first or second hydraulic circuit; and comparing the measured hydraulic pressure with a first reference pressure to diagnose abnormality of the first and second cut valves, the first to fourth inlet valves, and the first to fourth outlet valves, wherein the method further includes a second diagnosis mode of: opening the first cut valve and the second cut valve when the pedal effort is not provided to the brake pedal. 2. The method of claim 1 , wherein the second diagnosis mode further includes: opening some of the first to fourth inlet valves; closing the first to fourth outlet valves; operating the hydraulic pressure supply device to generate hydraulic pressure at the hydraulic control unit; measuring hydraulic pressure at one or more of the first and second hydraulic circuits and the first and second backup flow paths; and comparing the measured hydraulic pressure with a second reference pressure to diagnose abnormality of the first and second cut valves, the first to fourth inlet valves, the first to fourth outlet valves, and the simulator valve. 3. The method of claim 2 , wherein the electric brake system further includes an inspection valve provided at a flow path connecting the reservoir to the master cylinder, and the second diagnosis mode generates hydraulic pressure at the hydraulic control unit when the inspection valve is closed. 4. The method of claim 2 , wherein the hydraulic pressure supply device of the electric brake system includes a cylinder block, first and second hydraulic pistons movably accommodated inside the cylinder block, and first and second pressure chambers comparted by the first and second hydraulic pistons, the hydraulic control unit includes: a first hydraulic circuit configured to communicate with the first pressure chamber and connected to a first wheel cylinder through the first inlet valve; a second hydraulic circuit configured to communicate with the first pressure chamber and connected to a second wheel cylinder through the second inlet valve; a third hydraulic circuit configured to communicate with the second pressure chamber and connected to a third wheel cylinder through the third inlet valve; and a fourth hydraulic circuit configured to communicate with the second pressure chamber and connected to a fourth wheel cylinder through the fourth inlet valve, and the second diagnosis mode generates hydraulic pressure at the hydraulic control unit when only the first inlet valve is opened and the second to fourth inlet valves are closed. 5. The method of claim 4 , wherein the hydraulic control unit of the electric brake system further includes: a first balance valve installed at a downstream side of each of the first inlet valve and the third inlet valve and configured to open and block a flow path provided to communicate the first hydraulic circuit to the third hydraulic circuit; and a second balance valve installed at a downstream side of each of the second inlet valve and the fourth inlet valve and configured to open and block a flow path provided to communicate the second hydraulic circuit to the fourth hydraulic circuit, and the second diagnosis mode generates hydraulic pressure at the hydraulic control unit when the first and second balance valves are closed. 6. The method of claim 5 , further comprising a third diagnosis mode of: opening the first cut valve and the second cut valve when the pedal effort is not provided to the brake pedal; opening some of the first to fourth inlet valves; closing the first to fourth outlet valves; opening the first and second balance valves; operating the hydraulic pressure supply device to generate hydraulic pressure at the hydraulic control unit; measuring hydraulic pressure at one or more among the first and second hydraulic circuits and the first and second backup flow paths; and comparing the measured hydraulic pressure with a third reference pressure to diagnose abnormality the first and second balance valves. 7. The method of claim 6 , wherein the second diagnosis mode and the third diagnosis mode are compared with each other to diagnose abnormality of the first or second balance valve. 8. The method of claim 6 , further comprising a fourth diagnosis mode of: opening the first cut valve and the second cut valve when the pedal effort is not provided to the brake pedal; opening some of the first to fourth inlet valves; closing the first to fourth outlet valves; opening the simulator valve; operating the hydraulic pressure supply device to generate hydraulic pressure at the hydraulic control unit; measuring hydraulic pressure at one or more among the first and second hydraulic circuits and the first and second backup flow paths; and comparing the measured hydraulic pressure with a fourth reference pressure to diagnose abnormality of the simulator valve. 9. The method of claim 6 , further comprising a fourth diagnosis mode of: opening the simulator valve to measure the hydraulic pressure again