Make more security researcher focused

docs/codeql/codeql-overview/about-codeql.rst

@@ -5,15 +5,26 @@
 About CodeQL
 ============
 
-CodeQL is the analysis engine used by developers to automate security checks, and by
-security researchers to perform variant analysis. 
+CodeQL is a language and toolchain for code analysis. It is designed to allow security researchers to scale their knowledge of a single vulnerability to identify variants of that vulnerability across a wide range of codebases. It is also designed to allow developers to automate security checks and integrate them into their development workflows.
 
-In CodeQL, code is treated like data. Security vulnerabilities, bugs, 
-and other errors are modeled as queries that can be executed against databases
-extracted from code. You can run the standard CodeQL queries, written by GitHub
-researchers and community contributors, or write your own to use in custom
-analyses. Queries that find potential bugs highlight the result directly in the
-source file.
+Resources for learning CodeQL
+-----------------------------
+
+- **CodeQL docs site:** contains information on the CodeQL language and libraries, with tutorials and guides to help you learn how to write your own queries.
+
+   - :doc:`CodeQL queries <../writing-codeql-queries/codeql-queries>`: A general, language-neutral overview of the key components of a query.
+
+   - :doc:`QL tutorials <../writing-codeql-queries/ql-tutorials>`: Solve puzzles to learn the basics of QL before you analyze code with CodeQL. The tutorials teach you how to write queries and introduce you to key logic concepts along the way.
+
+   - :doc:`CodeQL language guides <../codeql-language-guides/index>`: Guides to the CodeQL libraries for each language, including the classes and predicates that are available for use in queries, with worked examples.
+
+- **GitHub Security Lab:** is GitHub's own security research team. They've created a range of resources to help you learn how to use CodeQL to find security vulnerabilities in real-world codebases.
+
+   - `Secure code game <https://github.com/skills/secure-code-game>`__: A series of interactive sessions that guide you from finding insecure code patterns manually, through to using CodeQL to find insecure code patterns automatically.
+
+   - `Security Lab CTF <https://securitylab.github.com/ctf/>`__: A series of Capture the Flag (CTF) challenges that are designed to help you learn how to use CodeQL to find security vulnerabilities in real-world codebases.
+
+   - `Security Lab blog <https://github.blog/tag/github-security-lab/>`__: A series of blog posts that describe how CodeQL is used by security researchers to find security vulnerabilities in real-world codebases.
 
 About variant analysis
 ----------------------
@@ -39,11 +50,13 @@ CodeQL analysis consists of three steps:
 #. Running CodeQL queries against the database
 #. Interpreting the query results
 
+For information on the CodeQL toolchain and on running CodeQL to analyze a codebase, see the `CodeQL CLI <https://docs.github.com/en/code-security/codeql-cli>`__, `CodeQL for Visual Studio Code <https://docs.github.com/en/code-security/codeql-for-vs-code>`__, and `About code scanning with CodeQL <https://docs.github.com/en/code-security/code-scanning/introduction-to-code-scanning/about-code-scanning-with-codeql>`__ in GitHub docs.
+
 Database creation
 ~~~~~~~~~~~~~~~~~
 
 To create a database, CodeQL first extracts a single relational representation
-of each source file in the codebase. 
+of each source file in the codebase.
 
 For compiled languages, extraction works by monitoring the normal build process.
 Each time a compiler is invoked to process a source file, a copy of that file is
@@ -52,7 +65,7 @@ syntactic data about the abstract syntax tree and semantic data about name
 binding and type information.
 
 For interpreted languages, the extractor runs directly on the source code,
-resolving dependencies to give an accurate representation of the codebase. 
+resolving dependencies to give an accurate representation of the codebase.
 
 There is one :ref:`extractor <extractor>` for each language supported by CodeQL
 to ensure that the extraction process is as accurate as possible. For
@@ -72,7 +85,7 @@ against it. CodeQL queries are written in a specially-designed object-oriented
 query language called QL. You can run the queries checked out from the CodeQL
 repo (or custom queries that you've written yourself) using the `CodeQL
 for VS Code extension <https://docs.github.com/en/code-security/codeql-for-vs-code/>`__ or the `CodeQL CLI
-<https://docs.github.com/en/code-security/codeql-cli>`__. For more information about queries, see ":ref:`About CodeQL queries <about-codeql-queries>`." 
+<https://docs.github.com/en/code-security/codeql-cli>`__. For more information about queries, see ":ref:`About CodeQL queries <about-codeql-queries>`."
 
 .. _interpret-query-results:
 
@@ -95,7 +108,7 @@ code.
 Following interpretation, results are output for code review and triaging. In
 CodeQL for Visual Studio Code, interpreted query results are automatically
 displayed in the source code. Results generated by the CodeQL CLI can be output
-into a number of different formats for use with different tools. 
+into a number of different formats for use with different tools.
 
 
 About CodeQL databases
@@ -104,7 +117,7 @@ About CodeQL databases
 CodeQL databases contain queryable data extracted from a codebase, for a single
 language at a particular point in time. The database contains a full,
 hierarchical representation of the code, including a representation of the
-abstract syntax tree, the data flow graph, and the control flow graph. 
+abstract syntax tree, the data flow graph, and the control flow graph.
 
 Each language has its own unique database schema that defines the relations used
 to create a database. The schema provides an interface between the initial
@@ -114,13 +127,13 @@ every language construct.
 
 For each language, the CodeQL libraries define classes to provide a layer of
 abstraction over the database tables. This provides an object-oriented view of
-the data which makes it easier to write queries. 
+the data which makes it easier to write queries.
 
 For example, in a CodeQL database for a Java program, two key tables are:
 
 -  The ``expressions`` table containing a row for every single expression in the
-   source code that was analyzed during the build process. 
--  The ``statements`` table containing a row for every single statement in the 
+   source code that was analyzed during the build process.
+-  The ``statements`` table containing a row for every single statement in the
    source code that was analyzed during the build process.
 
 The CodeQL library defines classes to provide a layer of abstraction over each