Token-based encryption rule generation process

What is claimed is: 1. A data storage system comprising: a computing system comprising one or more hardware processors programmed to: access a set of data tokens derived from a plurality of files comprising a set of training files, at least some of the set of data tokens comprising content designated as sensitive information, each of the data tokens comprising a portion of content of at least one file from the plurality of files; generate a prospective encryption rule based at least in part on an aggregated set of data tokens, the aggregated set of data tokens including data tokens that appear in more than one file from the plurality of files; perform the prospective encryption rule on the plurality of files; determine a number of files from the plurality of files identified for encryption by performance of the prospective encryption rule; responsive, at least in part, to the number of files identified for encryption satisfying a threshold number of files, add the prospective encryption rule to a set of available encryption rules; and responsive, at least in part, to the number of files identified for encryption not satisfying the threshold number of files, iteratively modify the prospective encryption rule until the threshold number of files of the plurality of files are identified for encryption by performance of the modified prospective encryption rule. 2. The data storage system of claim 1 , further comprising an encryption rules repository configured to store the set of available encryption rules, wherein the encryption rules repository is accessible by one or more computing systems. 3. The data storage system of claim 1 , wherein the one or more hardware processors are further programmed to: determine a context condition for the prospective encryption rule, the context condition identifying when to apply the prospective encryption rule to a file; and associate the context condition with the prospective encryption rule. 4. The data storage system of claim 3 , wherein the context condition comprises at least one of an identity of a user, an identity of a department that includes the user within an entity, a geographic location of a computing device storing the file, a network location of the computing device storing the file, and a device type of the computing device. 5. The data storage system of claim 1 , wherein the one or more hardware processors are further programmed to: access the set of available encryption rules; identify a file using at least one encryption rule from the set of available encryption rules, wherein the file is identified based at least in part on a correspondence between portions of the file and at least one data token used to generate the at least one encryption rule from the set of available encryption rules; and encrypt the file using the at least one encryption rule. 6. The data storage system of claim 1 , wherein the plurality of files comprise a plurality of training files selected for generating one or more prospective encryption rules. 7. The data storage system of claim 1 , wherein the one or more hardware processors are further programmed to: present the prospective encryption rule to a user; receive an input from the user responsive to presenting the prospective encryption rule to the user; and determine whether to include the prospective encryption rule in the set of available encryption rules based at least in part on the input received from the user. 8. The data storage system of claim 1 , wherein the one or more hardware processors are further programmed to remove a data token from the set of data tokens based at least in part on an identified set of non-sensitive data tokens. 9. The data storage system of claim 1 , wherein the one or more hardware processors are further programmed to: monitor creation of the file; and determine whether the file satisfies an encryption rule from the set of available encryption rules. 10. A method of automatically generating encryption rules using machine learning techniques, the method comprising: accessing, by a rules generation system comprising computer hardware, a set of data tokens derived from a plurality of files comprising a set of training files, at least some of the set of data tokens comprising content designated as sensitive information, each of the data tokens comprising a portion of content of at least one file from the plurality of files; generating a prospective encryption rule based at least in part on the set of data tokens; performing the prospective encryption rule with respect to the plurality of files; determining a percentage of files from the plurality of files identified for encryption using the prospective encryption rule; responsive, at least in part, to the percentage of files identified for encryption not satisfying a threshold, iteratively modifying the prospective encryption rule until performance of the modified prospective encryption rule results in a threshold percentage of files being identified for encryption; and subsequent to said iteratively modifying, responsive, at least in part, to the threshold percentage of files being identified for encryption, adding the prospective encryption rule to a set of encryption rules. 11. The method of claim 10 , further comprising applying one or more natural language processing algorithms to the plurality of files to obtain the set of data tokens. 12. The method of claim 11 , wherein applying the one or more natural language processing algorithms comprises performing at least one of the following natural language processing tasks: automatic summarization, coreference resolution, discourse analysis, machine translation, morphological segmentation, named entity recognition, natural language understanding, optical character recognition, part-of-speech tagging, parsing, relationship extraction, sentence boundary disambiguation, sentiment analysis, topic segmentation and recognition, word segmentation, word sense disambiguation, singular value decomposition, latent semantic analysis, latent Dirichlet allocation, pachinko allocation, and probabilistic latent semantic analysis. 13. The method of claim 10 , further comprising applying one or more heuristic algorithms to the plurality of files to obtain the set of data tokens. 14. The method of claim 10 , further comprising: accessing the set of encryption rules; identifying a file using at least one encryption rule from the set of encryption rules, wherein the file is identified based at least in part on a correspondence between portions of the file and at least one data token used to generate the at least one encryption rule from the set of encryption rules; and encrypting the file using the at least one encryption rule. 15. The method of claim 10 , wherein generating the prospective encryption rule comprises applying the one or more algorithms to a cumulative set of data tokens formed by combining the sets of data tokens from a plurality of files. 16. The method of claim 10 , further comprising: presenting the prospective encryption rule to a user for confirmation; and responsive, at least in part, to receiving confirmation of the prospective encryption rule from the user, adding the prospective encryption rule to the set of encryption rules. 17. The method of claim 10 , further comprising storing the set of encryption rules at an electronic data store accessible by a plurality of networked computing systems. 18. The method of claim 10 , wherein generating the prospective encryption rule comprises filtering data tokens identifi