Ignition apparatus for internal combustion engine

The invention claimed is: 1. An ignition apparatus for an internal combustion engine, comprising: a main ignition circuit configured to produce a spark discharge in a spark plug by controlling current flow in a primary winding of an ignition coil; and an energy injection circuit configured to, after a spark discharge has commenced to be generated by operation of the main ignition circuit, supply electrical energy into the primary winding such as to produce a flow of a secondary current through a secondary winding of the ignition coil in an unchanged direction of flow, to thereby continue the spark discharge that is produced by operation of the main ignition circuit, wherein: the energy injection circuit comprises: a step-up circuit configured to step up a battery voltage; a capacitor configured to store electrical energy that has been subjected to voltage step-up by the voltage step-up circuit; a primary-side current detector configured to detect a capacitor discharge current that is supplied from the capacitor to the primary winding; and a first protection circuit configured to control the electrical energy that is supplied into the primary winding from the capacitor, based on the capacitor discharge current that is detected by the primary-side current detector, to thereby limit a maximum value of the capacitor discharge current detected by the primary-side current detection detector to be less than a specific first control value, wherein: the first protection circuit is further configured to judge occurrence of failure of the energy injection circuit based upon a capacitor discharge current or a capacitor charge current that is detected by the primary-side current detector; and the ignition apparatus further comprises: a first switch configured to turn on/off a step-up power source line which applies the battery voltage to the step-up circuit; and a second switch configured to turn on/off an energy injection line which supplies the electrical energy into the primary winding, wherein when a failure is judged to occur, the step-up power source line is disconnected by switching off the first switch, thereby halting the supply of electric power to the step-up circuit or the energy injection line is opened by switching off the second switch, thereby halting the injection of electrical energy into the primary winding. 2. An ignition apparatus for an internal combustion engine, comprising: a main ignition circuit configured to produce a spark discharge in a spark plug by controlling current flow in a primary winding of an ignition coil; and an energy injection circuit configured to, after a spark discharge has commenced to be generated by operation of the main ignition circuit, supply electrical energy into the primary winding such as to produce a flow of a secondary current through a secondary winding of the ignition coil in an unchanged direction of flow, to thereby continue the spark discharge that is produced by operation of the main ignition circuit, wherein: the energy injection circuit comprises: a step-up circuit configured to step up a battery voltage; a capacitor configured to store electrical energy that has been subjected to voltage step-up by the voltage step-up circuit; a primary-side current detector configured to detect a capacitor discharge current that is supplied from the capacitor to the primary winding; and a protection circuit configured to halt the injection of electrical energy from the capacitor into the primary winding when the capacitor discharge current detected by the primary-side current detector attains a specific control value, wherein: the protection circuit is further configured to judge occurrence of failure of the energy injection circuit based upon a capacitor discharge current or a capacitor charge current that is detected by the primary-side current detector; and the ignition apparatus further comprises: a first switch configured to turn on/off a step-up power source line which applies the battery voltage to the step-up circuit; and a second switch configured to turn on/off an energy injection line which supplies the electrical energy into the primary winding, wherein when a failure is judged to occur, the step-up power source line is disconnected by switching off the first switch, thereby halting the supply of electric power to the step-up circuit or the energy injection line is opened by switching off the second switch, thereby halting the injection of electrical energy into the primary winding. 3. The ignition apparatus for an internal combustion engine as claimed in claim 1 , wherein the primary-side current detector is configured to serve as a current detection resistor disposed at a grounded end of the capacitor. 4. The ignition apparatus for an internal combustion engine as claimed in claim 2 , wherein the primary-side current detector is configured to serve as a current detection resistor disposed at a grounded end of the capacitor. 5. The ignition apparatus for an internal combustion engine as claimed in claim 1 , wherein: the first protection circuit is further configured to judge that there is failure of the energy injection circuit when one of the following conditions, or an combination of a plurality of these conditions, occurs: the capacitor discharge current detected by the primary-side current detector reaches a predetermined second control value; the capacitor discharge current reaches the second control value for a predetermined number of times in succession; the capacitor discharge current reaches the second control value, and continues at that value for a predetermined duration. 6. The ignition apparatus for an internal combustion engine as claimed in claim 1 , wherein: the first protection circuit is configured to judge that there is failure of the energy injection circuit when one of the following conditions, or an combination of a plurality of these conditions, occurs: during voltage step-up operation of the step-up circuit, the capacitor charge current does not reach a predetermined third control value; the capacitor charge current does not reach the third control value for a predetermined number of times in succession; the capacitor charge current does not reach the third control value, and continues that condition for a predetermined duration. 7. The ignition apparatus for an internal combustion engine as claimed in claim 1 , wherein the ignition apparatus further comprises: a first drive circuit which changes over the operation first switch to an off state; and a second drive circuit which changes over the second switch to an off state. 8. The ignition apparatus for an internal combustion engine as claimed in claim 2 , wherein that the ignition apparatus further comprises: a first drive circuit which changes over the operation first switch to an off state; and a second drive circuit which changes over the second switch to an off state. 9. The ignition apparatus for an internal combustion engine as claimed in claim 1 , wherein that the ignition apparatus further comprises: an energy injection switch connected in the energy injection line; wherein the second switch is configured to turn off the energy injection line between the energy injection switch and the primary winding when the failure of the energy injection circuit is detected by the first protection circuit, thereby halting injection of electrical energy into the primary winding. 10. The ignition apparatus for an internal combustion engine as claimed in claim 2 , wherein that the ignition apparatus further comprises: an energy injection switch connected in the energy injection line; wherein the second switch is configured to turn off the energy inje