Master cylinder and electronic brake system including the same

What is claimed is: 1. A master cylinder for an electronic brake system which includes a main hydraulic-pressure supply device to generate hydraulic pressure by sensing displacement of a brake pedal and a sub hydraulic-pressure supply unit to supply hydraulic pressure to at least one wheel cylinder during an abnormal operation of the main hydraulic-pressure supply device, the master cylinder comprising: a first piston disposed in a bore of a cylinder body, configured to be directly pressurized by the brake pedal; a first hydraulic chamber pressurized by the first piston, configured to discharge hydraulic pressure; a second piston indirectly pressurized by the first piston; and a second hydraulic chamber pressurized by the second piston, configured to discharge hydraulic pressure, wherein the second hydraulic chamber includes a slippage prevention means connected to the sub hydraulic-pressure supply unit so as to prevent the second piston from moving toward the first piston by the hydraulic pressure received from the sub hydraulic-pressure supply unit, wherein the slippage prevention means includes: a mounting groove formed along an outer circumference of a front end of the second piston; a circlip installed in the mounting groove while simultaneously protruding radially from an outer circumference of the second piston; and a step groove formed in the bore by which a rear end of the circlip is caught, and wherein the circlip is in contact with a step projection of the step groove such that movement of the second piston is restricted. 2. The master cylinder according to claim 1 , wherein the circlip and the step projection are spaced apart from each other by a predetermined distance. 3. The master cylinder according to claim 1 , wherein the cylinder body is provided with a bore having a longitudinal hollow, and further includes a cap that is press-fitted into the cylinder body to close the hollow bore formed in a direction along which the second piston is arranged to form the second hydraulic chamber. 4. The master cylinder according to claim 3 , wherein: an outer circumference of the cap is provided with a cap sealing member formed to maintain airtightness of the inside of the cylinder body. 5. The master cylinder according to claim 1 , further comprising: a sealing member formed to seal a gap between an inner surface of the cylinder body and an outer surface of each piston; and wherein the inner surface of the cylinder body in which the second piston is arranged is provided with an auxiliary sealing member formed to bidirectionally maintain pressure in response to not only hydraulic pressure received from the sub hydraulic-pressure supply unit, but also pressurization of the first piston. 6. The master cylinder according to claim 1 , further comprising: a stopper provided in the cylinder body in a direction along which the first piston is arranged, configured to prevent the first piston from escaping from the bore by supporting a rear end of the first piston. 7. An electronic brake system comprising: a master cylinder which includes a first piston disposed in a bore of a cylinder body so as to be directly pressurized by a brake pedal, a first hydraulic chamber pressurized by the first piston to discharge hydraulic pressure, a second piston indirectly pressurized by the first piston, and a second hydraulic chamber pressurized by the second piston to discharge hydraulic pressure; a pedal simulator configured to provide reaction force in response to a pedal effort of the brake pedal, as well as to include a simulator chamber formed to store oil by connecting to the master cylinder; a hydraulic control unit configured to control flow of hydraulic pressure flowing between the master cylinder and a wheel cylinder of each wheel; a main hydraulic-pressure supply device configured to operate by an electrical signal output in response to displacement of the brake pedal, and to supply hydraulic pressure to the hydraulic control unit; and a sub hydraulic-pressure supply unit configured to transfer hydraulic pressure to the hydraulic control unit through the master cylinder during an abnormal operation of the main hydraulic-pressure supply device, wherein the second hydraulic chamber includes a slippage prevention means connected to the sub hydraulic-pressure supply unit so as to prevent the second piston from moving toward the first piston by the hydraulic pressure received from the sub hydraulic-pressure supply unit, wherein the slippage prevention means includes: a mounting groove formed along an outer circumference of a front end of the second piston; a circlip installed in the mounting groove while simultaneously protruding radially from an outer circumference of the second piston; and a step groove formed in the bore by which a rear end of the circlip is caught, and wherein the circlip is in contact with a step projection of the step groove such that movement of the second piston is restricted. 8. The electronic brake system according to claim 7 , wherein the cylinder body is provided with a bore having a longitudinal hollow, and further includes a cap configured to close the hollow bore formed in a direction along which the second piston is arranged to form the second hydraulic chamber, and an outer circumference of the cap is provided with a cap sealing member formed to maintain airtightness of the inside of the cylinder body. 9. The electronic brake system according to claim 7 , wherein: the hydraulic control unit includes a first hydraulic circuit and a second hydraulic circuit, each of which supplies hydraulic pressure to at least one wheel cylinder; the first hydraulic chamber communicates with a reservoir through a first reservoir passage, and is connected to the first hydraulic circuit through a first backup passage; the second hydraulic chamber communicates with a reservoir through a second reservoir passage, and is connected to the second hydraulic circuit through a second backup passage; and the sub hydraulic-pressure supply unit is provided in the second reservoir passage. 10. The electronic brake system according to claim 9 , wherein the sub hydraulic-pressure supply unit includes: a pump unit provided in the second reservoir passage; and a first control valve provided in a third reservoir passage through which the second reservoir passage is bypassed. 11. The electronic brake system according to claim 10 , wherein: the sub hydraulic-pressure supply unit further includes a second control valve provided in a fourth reservoir passage through which the second and third reservoir passages are bypassed; the first control valve is provided as a bidirectional solenoid valve configured to control bidirectional flow of oil; and the second control valve allows only flow of oil from the reservoir to the master cylinder.