Fuel injection controller

What is claimed is: 1. A fuel injection controller for controlling injection of fuel from a common rail where fuel is accumulated to an internal combustion engine using fuel injectors, the fuel injectors each including a first solenoid, a first valve, a second solenoid, and a second valve, the fuel injection controller comprising: a first controller configured to control a fuel injection timing by driving the first valve by energizing the first solenoid during a normal injection control; a second controller configured to control a fuel injection rate by driving the second valve by energizing the second solenoid during the normal injection control; a first switch configured to turn ON/OFF energization of a first energization path from a boost power source of a booster circuit to the second solenoid when the second controller energizes the second solenoid; a first detector configured to detect an electric current value that depends on an energization state of the first switch; a second switch configured to turn ON/OFF energization of a second energization path from a battery power source that outputs a voltage lower than the boost power source to the second solenoid when the second controller energizes the second solenoid; a second detector configured to detect a value that depends on an energization state of the second switch; and an energization path controller configured to energize the second solenoid by switching to either of the first energization path or the second energization path based on detection results of the first detector and the second detector. 2. The fuel injection controller of claim 1 , wherein: when reducing an internal pressure of the common rail, the first controller closes the first valve by deenergizing the first solenoid and the second controller opens the second valve by energizing the second solenoid, and the energization path controller activates a function of switching to the first energization path or to the second energization path based on the detection results of the first detector and the second detector only when the internal pressure of the common rail is reduced. 3. The fuel injection controller of claim 1 , wherein the first detector includes a first detection element configured to change a first detection value that depends on an integrated value of an electric current flowing through the first energization path, the second detector includes a second detection element configured to change a second detection value that depends on an integrated value of an electric current flowing through the second energization path, and the energization path controller energizes the second solenoid by switching to either the first energization path or the second energization path based on the first detection value of the first detection element and the second detection value of the second detection element. 4. The fuel injection controller of claim 1 , wherein while energization of the first energization path to the second solenoid is turned OFF by the first switch and energization of the second energization path to the second solenoid is turned OFF by the second switch, the energization path controller switches to either the first energization path or to the second energization path. 5. The fuel injection controller of claim 1 , wherein the first detector includes a first voltage detector configured to detect a voltage across the first switch, the second detector includes a second voltage detector configured to detect a voltage across the second switch, a current detector configured to detect an electric current flowing through the second solenoid, a first calculator configured to calculate a first power loss based on a detection voltage of the first voltage detector and a detection current of the current detector, a second calculator configured to calculate a second power loss based on the detection voltage of the second voltage detector and the detection current of the current detector, and the energization path controller switches to either of the first energization path or the second energization path based on a level of power loss obtained by comparing the first power loss and the second power loss. 6. The fuel injection controller of claim 1 , further comprising: a first recirculation switch included in a first recirculation path for recirculating the electric current that flows through the second solenoid when the first switch is turned from ON to OFF, and a second recirculation switch included in a second recirculation path for recirculating the electric current that flows through the second solenoid when the second switch is turned from ON to OFF.