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127 lines
5.3 KiB
Plaintext
127 lines
5.3 KiB
Plaintext
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Welcome to the AllMyData "tahoe" project. This project implements a
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scalable distributed fault-tolerant filestore.
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The basic idea is that the data in this filesystem is spread over all
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participating nodes, using an algorithm that can recover the data even if a
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majority of the nodes are no longer available.
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The main application code is in the 'allmydata' package, under src/allmydata/
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. There is also a patched version of PyCrypto (adding a faster CTR-mode) in
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src/Crypto/ which gets installed to the 'allmydata.Crypto' package (since the
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API is different than the normal Crypto package). It also includes Zooko's
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PyFEC library, a fast python wrapper around the Rizzo 'fec' C library,
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installed to the 'zfec' package and located in src/zfec/ .
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DEPENDENCIES:
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* Python 2.4 or newer (tested against both 2.4 and 2.5)
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http://python.org/
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* Twisted (tested against both 2.4 and 2.5)
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http://twistedmatrix.com/
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The default subpackages should all be included by default, but in
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case they aren't they are the following:
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* core (the standard Twisted package)
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* web, trial, conch
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Note that Twisted requires zope.interface, and that the standard
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batteries-included Twisted distribution includes a copy.
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* Foolscap (0.1.2 or newer)
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- note: since the Foolscap wire protocol is not yet compatible from one
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release to the next, make sure all of your nodes are using the same
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version of Foolscap
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http://twistedmatrix.com/trac/wiki/FoolsCap
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* Nevow (probably 0.9.0 or later)
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http://divmod.org/trac/wiki/DivmodNevow
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* PyOpenSSL (0.6 or later)
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http://pyopenssl.sourceforge.net
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* a C compiler
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* GNU make
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BUILDING:
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Just type 'make'. This works on Windows too, provided that you have the
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dependencies mentioned above (either a normal cygwin build or a mingw-style
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native build is supported by the makefile -- the cygwin build is the
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default).
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If the desired version of 'python' is not already on your PATH, then type
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'make PYTHON=/path/to/your/preferred/python'.
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'make test' runs the unit test suite.
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INSTALLING:
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If you're running on a debian system, use 'make deb-dapper' or 'make
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deb-sid' to construct a debian package named 'allmydata-tahoe', which you
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can then install.
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If not, you'll need to run three separate install steps, one for each of the
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three subpackages (allmydata, allmydata.Crypto, and zfec). You may wish to
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use a different version of 'python' for these steps, or provide a --prefix
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or --root argument for the install.
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cd src/zfec && python setup.py install && cd ../..
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cd src/Crypto && python setup.py install && cd ../..
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# the allmydata subpackage's setup.py script is in the root directory
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python setup.py install
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To test that all the modules got installed properly, start a python
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interpreter and import modules as follows:
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% python
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Python 2.4.4 (#2, Jan 13 2007, 17:50:26)
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[GCC 4.1.2 20061115 (prerelease) (Debian 4.1.1-21)] on linux2
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Type "help", "copyright", "credits" or "license" for more information.
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>>> import allmydata.Crypto
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>>> import allmydata.interfaces
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>>> import fec
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>>>
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To run from a source tree (without installing first), type 'make', which
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will put all the necessary libraries into a local directory named
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instdir/lib/pythonN.N/site-packages/ , which you can then add to your
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PYTHONPATH .
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RUNNING:
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If you installed one of the debian packages constructed by "make deb-*" then
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it creates an 'allmydata-tahoe' executable, usually in /usr/bin . If you
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didn't install a package you can find allmydata-tahoe in bin/ . This tool is
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used to create, start, and stop nodes. Each node lives in a separate base
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directory, inside of which you can add files to configure and control the
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node. Nodes also read and write files within that directory.
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A mesh consists of a single central 'introducer' node and a large number of
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'client' nodes. If you are joining an existing mesh, the introducer node
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will already be running, and you'll just need to create a client node. If
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you're creating a brand new mesh, you'll need to create both an introducer
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and a client (and then invite other people to create their own client nodes
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and join your mesh).
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The introducer node is constructed by running 'allmydata-tahoe
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create-introducer --basedir $HERE'. Once constructed, you can start the
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introducer by running 'allmydata-tahoe start --basedir $HERE' (or, if you
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are already in the introducer's base directory, just type 'allmydata-tahoe
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start'). Inside that base directory, there will be a pair of files
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'introducer.furl' and 'vdrive.furl'. Make a copy of these, as they'll be
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needed on the client nodes.
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To construct a client node, pick a new working directory for it, then run
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'allmydata-tahoe create-client --basedir $HERE'. Copy the two .furl files
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from the introducer into this new directory, then run 'allmydata-tahoe start
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--basedir $HERE'. After that, the client node should be off and running. The
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first thing it will do is connect to the introducer and introduce itself to
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all other nodes on the mesh. You can follow its progress by looking at the
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$HERE/twistd.log file.
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To actually use the client, enable the web interface by writing a port
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number (like "8080") into a file named $HERE/webport and then restarting the
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node with 'allmydata-tahoe restart --basedir $HERE'. This will prompt the
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client node to run a webserver on the desired port, through which you can
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view, upload, download, and delete files.
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