Managing a code load

What is claimed is: 1. A system for managing a code load for a storage controller and an interface adapter of a storage system, the system comprising a non-transitory computer readable storage medium storing instructions and a processor communicatively coupled to the storage controller, the interface adapter, and the computer readable storage medium, wherein the processor is configured to: instantiate a code load, the code load including a first firmware update for the storage controller and a second firmware update for the interface adapter; monitor, in response to instantiating the code load, operational states of the storage controller and the interface adapter; maintain a resource management database in the computer readable storage medium that includes information regarding operational states of the storage controller, the interface adapter, and other devices in the storage system; wherein the resource management database contains a respective operational status, a respective serial number, a respective interface card identification number, and a respective power supply identification number for each respective device in the storage system; wherein the resource management database includes interfaces configured to allow system processes to register a callback function that will be invoked when a respective operational status in the resource management database changes; determine, in response to a status change event associated with the operational state of the storage controller, to perform the first firmware update; and perform, within the same timeframe as determining to perform the second firmware update, at least the first firmware update in response to determining to perform the first firmware update. 2. The system according to claim 1 , wherein the processor configured to determine to perform the first firmware update is further configured to: analyze, by an event handler, the status change event and the operational state of the storage controller, wherein the event handler can be selected based on a type of status change event; and write, in a system file, a recommended action to take regarding the first firmware update. 3. The system according to claim 2 , wherein the processor configured to determine to perform the first firmware update is further configured to: read the system file, and take the recommended action. 4. A system for managing a code load for a storage system, the system comprising a non-transitory computer readable storage medium storing instructions and a processor communicatively coupled to a storage controller, an interface adapter, and the computer readable storage medium, wherein the processor is configured to: instantiate a code load, the code load including a first firmware update for the storage controller and a second firmware update for the interface adapter; monitor, in response to instantiating the code load, a first operational state of the storage controller; maintain a resource management database in the computer readable storage medium that includes information regarding operational states of the storage controller, the interface adapter, and other devices in the storage system; wherein the resource management database contains a respective operational status, a respective serial number, a respective interface card identification number, and a respective power supply identification number for each respective device in the storage system; wherein the resource management database includes interfaces configured to allow system processes to register a callback function that will be invoked when a respective operational status in the resource management database changes; determine, in response to a triggering event, to perform the first firmware update, wherein the triggering event comprises a change in the operational state of the storage controller; perform, in response to determining to perform the first firmware update, the first firmware update; analyze, within the same time frame as performing the first firmware update, an operational state of the interface adapter; write, in response to the analyzing, a recommended action to take regarding the second firmware update for the interface adapter; and perform, in response to performing the first firmware update and writing the recommended action, the recommended action to take regarding the second firmware update for the interface adapter. 5. The system according to claim 4 , wherein the processor configured to determine to perform the first firmware update is further configured to: analyze, by an event handler, the triggering event and the operational state of the storage controller to determine a recommended action; and write, in a system file, the recommended action regarding the first firmware update. 6. The system according to claim 5 , wherein the event handler is chosen from a plurality of event handlers based on a type of device and a type of triggering event. 7. The system according to claim 5 , wherein the processor configured to perform the first firmware update is further configured to read the system file, and take the recommended action. 8. A computer program product for managing a code load of a storage system comprising a storage controller and an interface adapter, the computer program product comprising a computer readable storage medium having program instructions embodied therewith, wherein the computer readable storage medium is not a transitory signal per se, the program instructions executable by a processor to cause the processor to perform a method comprising: instantiating a code load, the code load including a first firmware update for the storage controller and a second firmware update for the interface adapter; monitoring, in response to instantiating the code load, operational states of the storage controller and the interface adapter; maintaining a resource management database that includes information regarding operational states of the storage controller, the interface adapter, and other devices in the storage system; wherein the resource management database contains a respective operational status, a respective serial number, a respective interface card identification number, and a respective power supply identification number for each respective device in the storage system; wherein the resource management database includes interfaces configured to allow system processes to register a callback function that will be invoked when a respective operational status in the resource management database changes; determining, in response to a status change event associated with the operational state of the storage controller, to perform the first firmware update; and performing, within the same time frame as determining to perform the second firmware update, at least the first firmware update in response to determining to perform the first firmware update. 9. The computer program product according to claim 8 , wherein determining to perform the first firmware update further comprises: analyzing, by an event handler, the status change event and the operational state of the storage controller, wherein the event handler can be selected based on a type of status change event; and writing, in a system file, a recommended action to take regarding the first firmware update. 10. The computer program product according to claim 9 , wherein determining to perform the first firmware update further comprises: reading the system file, and taking the recommended action.