Fuel pressure control system

What is claimed is: 1. A fuel pressure control system configured to control a fuel pressure in a fuel supply system, the fuel supply system configured to supply fuel to an injector of an engine, the fuel pressure control system comprising: a booster pump configured to discharge fuel to a high-pressure system, which is a part of the fuel supply system, to increase a fuel pressure in the high-pressure system; a decompression mechanism configured to decompress the high-pressure system; and a control device configured to control the booster pump and the decompression mechanism, wherein the fuel pressure control system is configured to, when a discharge abnormality occurs in which a discharge flow amount of the booster pump becomes larger than a normal amount and the fuel pressure in the high-pressure system starts to rise, cause the decompression mechanism to perform a predetermined abnormality handling to stop the rise in the fuel pressure, the control device includes a state determiner configured to perform a state determination to determine whether the fuel pressure in the high-pressure system possibly exceeds a predetermined threshold pressure, which is equal to or lower than a withstand pressure of the high-pressure system, if the discharge abnormality occurs before the abnormality handling stops the rise in the fuel pressure, the control device is configured to start, on determination of the fuel pressure that possibly exceeds the predetermined threshold pressure, control of the fuel pressure in the high-pressure system not to exceed the threshold pressure, even if the discharge abnormality occurs before the abnormality handling stops the rise in the fuel pressure, wherein the control device is configured to perform the control of the fuel pressure not to exceed the threshold pressure by controlling a valve opening degree of the decompression mechanism based on a target valve opening degree to perform decompression, and controlling the booster pump based on a target discharge amount to increase the discharge flow amount as compared with a case in which the control device does not perform the control of the fuel pressure not to exceed the threshold pressure, to offset a fall in the fuel pressure in the high-pressure system due to the decompression and a rise in the fuel pressure in the high-pressure system due to increase in the discharge flow amount with each other, and to decrease, by the increase in the discharge flow amount to offset the fall in the fuel pressure in the high-pressure system, an increasable flow amount, which is a difference between the discharge flow amount and a maximum discharge flow amount of the booster pump, as compared with a case in which the control device does not perform the control of the fuel pressure not to exceed the threshold pressure. 2. The fuel pressure control system according to claim 1 , wherein the control device includes a target fuel pressure calculator configured to calculate a target fuel pressure, the control device is configured to control the fuel pressure in the high-pressure system to approach the calculated target fuel pressure, and the control device is configured to perform the control of the fuel pressure not to exceed the threshold pressure by maintaining the target fuel pressure at a pressure same as a case when the control device does not perform the control of the fuel pressure not to exceed the threshold pressure, and causing the decompression mechanism to perform the decompression to cause the booster pump to increase the discharge flow amount as compared with a case in which the control device does not perform the control of the fuel pressure not to exceed the threshold pressure. 3. The fuel pressure control system according to claim 1 , wherein the control device is configured to perform the control of the fuel pressure not to exceed the threshold pressure by increasing a fuel pressure margin, which is a difference between the fuel pressure in the high-pressure system and a threshold pressure, as compared with a case in which the control device does not perform the control of the fuel pressure not to exceed the threshold pressure. 4. The fuel pressure control system according to claim 3 , wherein the control device includes a target fuel pressure calculator configured to calculate a target fuel pressure, the control device is configured to control the fuel pressure in the high-pressure system to approach the calculated target fuel pressure, and the control device is configured to perform the control of the fuel pressure not to exceed the threshold pressure by setting the target fuel pressure to a value that is lower than a case in which the control device does not perform the control of the fuel pressure not to exceed the threshold pressure and lowering the fuel pressure in the high-pressure system. 5. The fuel pressure control system according to claim 1 , wherein the state determiner is configured to perform the state determination based at least on a rotation speed of the engine, and in the state determination, when the rotation speed of the engine is higher than a predetermined speed, the state determiner is configured more likely to make a determination of the warning-required state as compared with a case in which the rotation speed of the engine is the predetermined speed. 6. The fuel pressure control system according to claim 1 , wherein the state determiner is configured to perform the state determination based at least on a discharge-related quantity, which is a discharge amount of the booster pump per combustion cycle or a fuel injection amount of the injector per combustion cycle, and in the state determination, when the discharge-related quantity is smaller than a predetermined amount, the state determiner is configured more likely to make a determination of the warning-required state as compared with a case in which the discharge-related quantity is the predetermined amount. 7. The fuel pressure control system according to claim 1 , wherein the state determiner is configured to perform the state determination based at least on a temperature of a predetermined part, and in the state determination, when the temperature of the predetermined part is lower than a predetermined temperature, the state determiner is configured more likely to make a determination of the warning-required state as compared with a case in which the temperature of the predetermined part is the predetermined temperature. 8. The fuel pressure control system according to claim 1 , wherein the control device is configured to maintain a same target fuel pressure as that in a normal control, in which the control device does not perform the control of the fuel pressure not to exceed the threshold pressure, by offsetting the fall in the fuel pressure in the high-pressure system due to the decompression and the rise in the fuel pressure in the high-pressure system due to increase in the discharge flow amount with each other. 9. The fuel pressure control system according to claim 1 , wherein the control device includes a valve-opening necessity determiner configured to, on determination of the discharge abnormality, determine that valve opening of the decompression mechanism is necessary, a valve-opening degree calculator configured to calculate the target valve-opening degree on determination of the valve-opening necessity determiner that the valve opening of the decompression mechanism is necessary, and a discharge amount calculator configured to calculate the target discharge amount. 10. The fuel pressure control system according to claim 1 , wherein the decompression mechanism is a solenoid valve or a butterfly valve that is conf