Change doc/ subdir into a git submodule

The docs now live at https://github.com/zeek/zeek-docs

doc/frameworks/logging-input-sqlite.rst

@@ -1,167 +0,0 @@
-
-============================================
-Logging To and Reading From SQLite Databases
-============================================
-
-.. rst-class:: opening
-
-   Starting with version 2.2, Bro features a SQLite logging writer
-   as well as a SQLite input reader. SQLite is a simple, file-based,
-   widely used SQL database system. Using SQLite allows Bro to write
-   and access data in a format that is easy to use in interchange with
-   other applications. Due to the transactional nature of SQLite,
-   databases can be used by several applications simultaneously. Hence,
-   they can, for example, be used to make data that changes regularly available
-   to Bro on a continuing basis.
-
-Warning
-=======
-
-In contrast to the ASCII reader and writer, the SQLite plugins have not yet
-seen extensive use in production environments. While we are not aware
-of any issues with them, we urge to caution when using them
-in production environments. There could be lingering issues which only occur
-when the plugins are used with high amounts of data or in high-load
-environments.
-
-Logging Data into SQLite Databases
-==================================
-
-Logging support for SQLite is available in all Bro installations starting with
-version 2.2. There is no need to load any additional scripts or for any
-compile-time configurations.
-
-Sending data from existing logging streams to SQLite is rather straightforward.
-You have to define a filter which specifies SQLite as the writer.
-
-The following example code adds SQLite as a filter for the connection log:
-
-.. literalinclude:: sqlite-conn-filter.bro
-   :caption:
-   :language: bro
-   :linenos:
-
-Bro will create the database file ``/var/db/conn.sqlite``, if it does not
-already exist.  It will also create a table with the name ``conn`` (if it
-does not exist) and start appending connection information to the table.
-
-At the moment, SQLite databases are not rotated the same way ASCII log-files
-are. You have to take care to create them in an adequate location.
-
-If you examine the resulting SQLite database, the schema will contain the
-same fields that are present in the ASCII log files::
-
-    # sqlite3 /var/db/conn.sqlite
-
-    SQLite version 3.8.0.2 2013-09-03 17:11:13
-    Enter ".help" for instructions
-    Enter SQL statements terminated with a ";"
-    sqlite> .schema
-    CREATE TABLE conn (
-    'ts' double precision,
-    'uid' text,
-    'id.orig_h' text,
-    'id.orig_p' integer,
-    ...
-
-Note that the ASCII ``conn.log`` will still be created. To prevent this file
-from being created, you can remove the default filter:
-
-.. sourcecode:: bro
-
-    Log::remove_filter(Conn::LOG, "default");
-
-
-To create a custom SQLite log file, you have to create a new log stream
-that contains just the information you want to commit to the database.
-Please refer to the :ref:`framework-logging` documentation on how to
-create custom log streams.
-
-Reading Data from SQLite Databases
-==================================
-
-Like logging support, support for reading data from SQLite databases is
-built into Bro starting with version 2.2.
-
-Just as with the text-based input readers (please refer to the
-:ref:`framework-input` documentation for them and for basic information
-on how to use the input framework), the SQLite reader can be used to
-read data - in this case the result of SQL queries - into tables or into
-events.
-
-Reading Data into Tables
-------------------------
-
-To read data from a SQLite database, we first have to provide Bro with
-the information, how the resulting data will be structured. For this
-example, we expect that we have a SQLite database, which contains
-host IP addresses and the user accounts that are allowed to log into
-a specific machine.
-
-The SQLite commands to create the schema are as follows::
-
-    create table machines_to_users (
-    host text unique not null,
-    users text not null);
-
-    insert into machines_to_users values ('192.168.17.1', 'bernhard,matthias,seth');
-    insert into machines_to_users values ('192.168.17.2', 'bernhard');
-    insert into machines_to_users values ('192.168.17.3', 'seth,matthias');
-
-After creating a file called ``hosts.sqlite`` with this content, we can
-read the resulting table into Bro:
-
-.. literalinclude:: sqlite-read-table.bro
-   :caption:
-   :language: bro
-   :linenos:
-
-Afterwards, that table can be used to check logins into hosts against
-the available userlist.
-
-Turning Data into Events
-------------------------
-
-The second mode is to use the SQLite reader to output the input data as events.
-Typically there are two reasons to do this. First, when the structure of
-the input data is too complicated for a direct table import. In this case,
-the data can be read into an event which can then create the necessary
-data structures in Bro in scriptland.
-
-The second reason is, that the dataset is too big to hold it in memory. In
-this case, the checks can be performed on-demand, when Bro encounters a
-situation where it needs additional information.
-
-An example for this would be an internal huge database with malware
-hashes. Live database queries could be used to check the sporadically
-happening downloads against the database.
-
-The SQLite commands to create the schema are as follows::
-
-    create table malware_hashes (
-    hash text unique not null,
-    description text not null);
-
-    insert into malware_hashes values ('86f7e437faa5a7fce15d1ddcb9eaeaea377667b8', 'malware a');
-    insert into malware_hashes values ('e9d71f5ee7c92d6dc9e92ffdad17b8bd49418f98', 'malware b');
-    insert into malware_hashes values ('84a516841ba77a5b4648de2cd0dfcb30ea46dbb4', 'malware c');
-    insert into malware_hashes values ('3c363836cf4e16666669a25da280a1865c2d2874', 'malware d');
-    insert into malware_hashes values ('58e6b3a414a1e090dfc6029add0f3555ccba127f', 'malware e');
-    insert into malware_hashes values ('4a0a19218e082a343a1b17e5333409af9d98f0f5', 'malware f');
-    insert into malware_hashes values ('54fd1711209fb1c0781092374132c66e79e2241b', 'malware g');
-    insert into malware_hashes values ('27d5482eebd075de44389774fce28c69f45c8a75', 'malware h');
-    insert into malware_hashes values ('73f45106968ff8dc51fba105fa91306af1ff6666', 'ftp-trace');
-
-
-The following code uses the file-analysis framework to get the sha1 hashes
-of files that are transmitted over the network. For each hash, a SQL-query
-is run against SQLite. If the query returns with a result, we had a hit
-against our malware-database and output the matching hash.
-
-.. literalinclude:: sqlite-read-events.bro
-   :caption:
-   :language: bro
-   :linenos:
-
-If you run this script against the trace in
-``testing/btest/Traces/ftp/ipv4.trace``, you will get one hit.