Self-healing data protection system automatically determining attributes for matching to relevant scripts

What is claimed is: 1 . A method of remediating issues encountered in a data protection system executing a backup, comprising: first identifying a plurality of scripts that match an alert message encoding one or more attributes affected by the backup, wherein each script defines attributes reflecting a percentage importance of a corresponding script to resolve a problem causing the alert message; second identifying, from the plurality of scripts, a script tagged for automatic evaluation; monitoring a state of each attribute to identify one or more attributes affected by the tagged script upon running the tagged script; assigning a respective weight to each of the one or more attributes to generate weighted attributes; determining a score of the tagged script using the weighted attributes to determine a score ranking relative to other tagged scripts; and executing a tagged script with the highest score as the script most likely to remediate an issue causing the alert message. 2 . The method of claim 1 wherein the one or more attributes comprise at least one of system storage capacity, processor usage, and storage unit count, and are specified in a configuration file containing information about each attribute comprising: name, description, category, data source for a monitoring value, and a period of the monitoring step. 3 . The method of claim 2 wherein the category comprises one of a metric as a scalar value, a state as one of a fixed set of values indicating status, and an ordered value as a set having an inherent increasing value. 4 . The method of claim 3 wherein the data source comprises one of an application program interface (API) or a command line interface (CLI). 5 . The method of claim 4 wherein the monitoring step comprises: calling a specified API or CLI for the monitoring value at an interval corresponding to the period of the monitoring step for a duration of an evaluation process of the tagged script; and recording specified outputs in a database. 6 . The method of claim 1 further comprising evaluating the tagged script through a process comprising: capturing, prior to running the tagged script, a current monitoring value associated with each attribute; repeatedly executing the tagged script a defined number of times; capturing, during the repeated execution, corresponding monitoring values associated with each attribute at a specified monitoring interval for each attribute; adding any attributes that change during all repeated executions to a list of changed attributes; and evaluating each attribute in the list of changed attributes to determine if it is affected by the tagged script. 7 . The method of claim 6 further comprising updating a header of the tagged script to add each attribute determined to be affected by the tagged script. 8 . The method of claim 6 further comprising, for a metric attribute: calculating a difference between a high and low value of a recorded monitoring value for a changed attribute during the evaluating step; and determining that an attribute is affected in the evaluating step by comparing the difference to a defined threshold value. 9 . The method of claim 6 further comprising, for a state attribute: determining if a new state of the attribute is different from a previous state of the attribute during the evaluating step to determine that the attribute is affected in the evaluating step. 10 . The method of claim 6 wherein the weight comprises an impact value and a system impact score (SIS) of a respective attribute. 11 . The method of claim 10 wherein the weight of the respective attribute comprises a product of the SIS times the impact value, and wherein weights for a plurality of respective attributes are normalized to add up to 100. 12 . The method of claim 11 wherein the header is updated to add the normalized weighted value of the respective attributes to the tagged script. 13 . The method of claim 1 wherein the plurality of scripts are stored in a script library comprising a private library stored in a network file share (NFS) accessible by the data protection system, and wherein data protection system comprises a deduplicated backup system including a Data Domain file system (DDFS). 14 . A method of remediating issues encountered in a data protection system, comprising: encoding attributes in an alert message to be generated in the event of attempted execution of a failed backup operation, wherein the attributes represent system resources affected by the backup operation; tagging a script of a plurality of scripts stored in a script library for automatic evaluation by a self-healing process of the data protection system wherein, each script defines attributes reflecting a percentage importance of a corresponding script to resolve a problem causing the alert message; monitoring a state of each attribute during operation of the data protection system; evaluating the tagged script and using the monitored state of each attribute to identify one or more attributes affected by the tagged script; weighting each identified attribute; and calculating, using the weighting, a respective score for the tagged script relative to other scripts to determine which script is most likely to remediate an issue causing the alert message. 15 . The method of claim 14 wherein the one or more attributes comprise at least one of system storage capacity, processor usage, and storage unit count, and are specified in a configuration file containing information about each attribute comprising: name, description, category, data source for a monitoring value, and a period of the monitoring step. 16 . The method of claim 15 wherein the category comprises one of a metric as a scalar value, a state as one of a fixed set of values indicating status, and an ordered value as a set having an inherent increasing value, and wherein the data source comprises one of an application program interface (API) or a command line interface (CLI). 17 . The method of claim 14 wherein the weight comprises an impact value and a system impact score (SIS) of a respective attribute, and wherein the weight of the respective attribute comprises a product of the SIS times the impact value, and wherein weights for a plurality of respective attributes are normalized to add up to 100. 18 . The method of claim 17 wherein the header of the tagged script is updated to add the normalized weighted value of the respective attributes to the tagged script to determine the respective score. 19 . The method of claim 14 further comprising evaluating the tagged script through a process comprising: capturing, prior to running the tagged script, a current monitoring value associated with each attribute; repeatedly executing the tagged script a defined number of times; capturing, during the repeated execution, corresponding monitoring values associated with each attribute at a specified monitoring interval for each attribute; adding any attributes that change during all repeated executions to a list of changed attributes; and evaluating each attribute in the list of changed attributes to determine if it is affected by the tagged script. 20 . A method of remediating issues encountered in a data protection system, comprising: storing, in a script library, a plurality of scripts configured to resolve a problem causing the alert message, each script comprising an executable program affecting data and resources utilized in a backup operation of the data protect