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<!DOCtype HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
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<html lang="en">
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<head>
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<title>Tahoe Install Details</title>
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<link rev="made" class="mailto" href="mailto:zooko[at]zooko[dot]com">
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<meta name="description" content="how to install Tahoe">
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<meta http-equiv="Content-Type" content="text/html; charset=utf-8">
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<meta name="keywords" content="tahoe secure decentralized filesystem installation">
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</head>
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<body>
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<li><a href="http://sourceforge.net/projects/pywin32/">pywin32</a>
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>= v210 -- required only for Windows (and not for Cygwin)</li>
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<pre>
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DEPENDENCIES:
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If you aren't getting a pre-compiled binary, then you'll have to ensure that
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the following packages are installed before you install Tahoe.
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There are two kinds of dependencies, "manual dependencies" and
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"easy_install-able dependencies". The latter kind are normally automatically
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satisfied for you when you install Tahoe, but if something goes wrong, please
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see the EASY_INSTALLABLE DEPENDENCIES section below.
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All of the manual dependencies can probably be installed through your
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standard package management tool if you are running on a modern Unix
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operating system. For example, on an debian-like system, you can do "sudo
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apt-get install build-essential python-dev python-twisted python-pyopenssl".
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The Manual Dependencies:
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+ a C compiler (language)
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+ GNU make (build tool)
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+ Python 2.4 or newer (tested against 2.4.4, and 2.5.1 -- note that 2.4.1 is
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known not to work due to a bug in its base-32 encoder), including
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development headers i.e. "Python.h" (language)
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http://python.org/
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+ Twisted Python (tested against 2.2.0, 2.4.0, and 2.5.0) (network and
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operating system integration library)
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http://twistedmatrix.com/
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Installing from the Twisted source tarball works on all known supported
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platforms, including cygwin.
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You need the following subpackages, which are included in the default
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Twisted distribution:
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* core (the standard Twisted package)
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* web, trial, conch
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Twisted requires that you manually install zope.interface, a copy of which
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is included in the Twisted distribution. Note that Twisted does *not*
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require the entire Zope distribution, merely the much smaller
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zope.interface component.
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+ OpenSSL, including development headers (cryptography library)
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http://openssl.org
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+ Crypto++, including development headers (cryptography library)
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http://cryptopp.com
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+ Python PyOpenSSL (0.6 or later) (secure transport layer)
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http://pyopenssl.sourceforge.net
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To install PyOpenSSL on cygwin, install the OpenSSL development libraries
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with the cygwin package management tool, then get the pyOpenSSL source
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code, cd into it, and run "python ./setup.py install".
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xxx
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GETTING THE SOURCE CODE:
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You need the source code if you are going to install The Debian Way, The
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Setuptools Way, or The Running-In-Place Way (see below). You do not need the
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source code if you are getting precompiled binaries for Debian or Ubuntu (see
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above), or if you are going to install The easy_install Way (see below).
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The code is available via darcs by running the following command:
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darcs get http://allmydata.org/source/tahoe/trunk tahoe
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This will create a directory named "tahoe" in the current working directory
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and put a copy of the latest source code into it. Later, if you want to get
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any new changes, then cd into that directory and run the command "darcs
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pull".
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Tarballs of sources are available at:
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http://allmydata.org/source/tahoe/
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INSTALLING:
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There are four ways to do it: The easy_install Way, The Setuptools Way, The
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Running-In-Place Way, and The Debian Way. Choose one. If you're not sure,
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choose the easy_install way.
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The easy_install Way:
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You don't need to download the source code first. You do need to have the
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"easy_install" tool installed first:
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http://peak.telecommunity.com/DevCenter/EasyInstall#installing-easy-install
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The 'easy_install' tool can download and install tahoe for you. Just type
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'easy_install allmydata-tahoe' from any shell. That will download the most
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recent Tahoe source tarball, unpack it in a temporary directory, install it
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to the standard location, then download and install any easy_install-able
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dependencies that you need (setuptools, zfec, foolscap, simplejson, nevow,
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and pycryptopp). (This will work only if you have already installed the
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dependencies listed in the MANUAL DEPENDENCIES section, above.)
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The end result will be that the Tahoe code is installed to the standard
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location for libraries on your operating system (on unix, that is somewhere
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inside /usr/lib/), and the "tahoe" executable will be installed to the
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standard location for executables on operating system.
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The Setuptools Way:
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Get the source code (see above).
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Run 'python setup.py install'. This will compile and install the Tahoe code
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to the standard location for your operating system (on unix, that is
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somewhere inside /usr/lib/). It will also acquire and install the
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easy_install-able dependencies (setuptools, zfec, foolscap, simplejson,
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nevow, and pycryptopp) to the same place. (This will work only if you have
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already installed the dependencies listed in the MANUAL DEPENDENCIES
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section, above.)
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(To install it to a non-standard location, see
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http://allmydata.org/trac/tahoe/wiki/SetuptoolsAndGNUStow .)
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The end result will be that the Tahoe code is installed to the standard
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location for libraries on your operating system (on unix, that is somewhere
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inside /usr/lib/), and the "tahoe" executable will be installed to the
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standard location for executables on operating system.
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The Running-In-Place Way:
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You can use Tahoe without installing it. The steps are these:
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1. Get the source code (see above).
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2. Run "make build-auto-deps" to install the easy_install-able dependencies
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(setuptools, zfec, foolscap, simplejson, nevow, and pycryptopp) into a
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local subdirectory of the Tahoe source distribution. (Note that when the
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dependent libraries are updated, you should use "make clean" before
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"make build-auto-deps" to make sure you will get the newest versions).
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3. Build Tahoe by running "make".
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4. Once you've built it then you can execute "./bin/tahoe". (When the tahoe
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script is in a Tahoe source distribution, it adds the necessary
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directory to the Python "sys.path". It also looks for any dependencies
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that you installed by "make build-auto-deps" and includes them in the
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sys.path.) See the RUNNING section, below.
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The Debian Way:
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The Debian Way is to build .deb files which you can then install with
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"dpkg".
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This requires certain debian packages (build-essential, fakeroot,
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devscripts, debhelper, cdbs) to be installed first, since they are used to
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construct the Tahoe .deb files. A full list of these required packages can
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be found in the "Build-Depends" line in the misc/DIST/debian/control in the
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top-level tahoe directory (replacing the word DIST with etch, dapper, edgy,
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or feisty as appropriate).
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Get the source code (see above).
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If you're running on a debian system, run 'make deb-etch', 'make deb-sid',
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'make deb-edgy', or 'make deb-feisty' from within the tahoe top-level
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directory to construct a debian package named 'allmydata-tahoe' which you
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can then install with dpkg.
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TESTING THAT IT IS PROPERLY INSTALLED
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If you have gotten the source code, then you can run 'make check-deps'
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checks that all of the required Python package dependencies are installed.
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You can run 'make test' runs the unit test suites. (This can take a long
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time on slow computers. There are a lot of tests and some of them do a lot
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of public-key cryptography.)
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Executing the tahoe script from the "bin" subdirectory will work only if
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Tahoe itself is installed, either because it is installed into the local
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subdirectory (as per "The Running-In-Place Way") or because it is installed
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into your system (as per the other three ways of installing).
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RUNNING:
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Run the "tahoe" executable.
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If you installed "The Running-In-Place Way", then it is in your source tree,
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in the "bin" subdirectory thereof. If you installed in one of the other
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three ways, then it has been installed into your operating system's
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filesystem, perhaps in "/usr/bin" on Unix, or in "C:\Python25\Scripts" on
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Window.
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The "tahoe" utility is used to create, start, and stop nodes. Each node
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lives in a separate base directory, inside of which you can add files to
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configure and control the node. Nodes also read and write files within that
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directory.
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A grid consists of a single central 'introducer and vdrive' node and one or
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more 'client' nodes. If you are joining an existing grid, the
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introducer-and-vdrive node will already be running, and you'll just need to
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create a client node. If you're creating a brand new grid, you'll need to
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create both an introducer-and-vdrive and a client (and then invite other
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people to create their own client nodes and join your grid).
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The introducer (-and-vdrive) node is constructed by running 'tahoe
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create-introducer --basedir $HERE'. Once constructed, you can start the
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introducer by running 'tahoe start --basedir $HERE' (or, if you are already
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in the introducer's base directory, just type 'tahoe start'). Inside that
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base directory, there will be a pair of files 'introducer.furl' and
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'vdrive.furl'. Make a copy of these, as they'll be needed on the client
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nodes. (If you want to use a publically available test grid, get the
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introducer.furl and vdrive.furl files from
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http://allmydata.org/trac/tahoe/wiki/TestGrid instead of running your own
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introducer.)
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To construct a client node, pick a new working directory for it, then run
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'tahoe create-client --basedir $HERE'. Copy the two .furl files from the
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introducer into this new directory, then run 'tahoe start --basedir $HERE'.
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After that, the client node should be off and running. The first thing it
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will do is connect to the introducer and introduce itself to all other nodes
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on the grid. You can follow its progress by looking at the
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$HERE/logs/twistd.log file.
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create-client will put port specification into a file named $HERE/webport,
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unless overridden by the --webport option to create-client. The presence of
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a port specification in the webport file prompts the client node to run a
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webserver on the desired port, through which you can view, upload, download,
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and delete files. The contents of the webport file is actually a "strports
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specification", defined in
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http://twistedmatrix.com/documents/current/api/twisted.application.strports.html
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, so you can have it only listen on a local interface by writing
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"tcp:8123:interface=127.0.0.1" to this file (that's what create-client does
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by default), or make it use SSL by writing
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"ssl:8123:privateKey=mykey.pem:certKey=cert.pem" instead.
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A client node directory can also be created without installing the code
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first. Just use 'make create-client', and a new directory named 'CLIENTDIR'
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will be created inside the top of the source tree. Copy the relevant .furl
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files in, set the webport, then start the node by using 'make start-client'.
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To stop it again, use 'make stop-client'. Similar makefile targets exist
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for making and running an introducer node.
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If you are behind a firewall and you can configure your firewall to forward
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TCP connections on a port to the computer running your Tahoe node, then you
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can configure the Tahoe node to announce itself as being available on that
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IP address and port. The way to do this is to create a file named
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$HERE/advertised_ip_addresses, in which you can put IP addresses and port
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numbers in "dotted-quad:port" form, e.g. "209.97.232.113:1345". You can put
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multiple IP-address-and-port-number entries into this file, on separate
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lines.
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There is a public grid available for testing. The necessary .furl files are
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in docs/testgrid/*.furl . More information is available on
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http://allmydata.org/trac/tahoe/wiki/TestGrid .
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</pre>
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<p>
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The code is retrievable using the <a href="http://darcs.net">darcs</a>
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revision control tool by running the following command:
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</p>
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<pre>
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darcs get http://allmydata.org/source/tahoe/trunk tahoe
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</pre>
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<p>
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This will create a directory named <pre>tahoe</pre> in the current working
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directory and put a copy of the latest source code into it. Later, if
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you want to get any new changes, then cd into that directory and run
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the command <pre>darcs pull</pre>.
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</p>
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<table>
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<tt>operating system</tt><td>location of <pre>tahoe</pre> executable</td>
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<tt>linux</tt><td><pre>/usr/bin</pre></td>
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<tt>cygwin</tt><td><pre>/usr/bin</pre></td>
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<tt>Windows</tt><td><pre>C:\Python25\Scripts</pre></td>
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<tt>Mac OS X</tt><td><pre>/Frameworks/Python/Versions/2.5/binpre>(XXX double-check this)</td>
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<tt>Solaris</tt><td><pre>/usr/bin</pre>(XXX double-check this)</td>
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</table>
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<pre>
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+ Python setuptools (build and distribution tool) >= v0.6c6
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http://peak.telecommunity.com/DevCenter/EasyInstall#installation-instructions
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The Tahoe install process will automatically use its own bundled copy
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setuptools if a sufficiently new version of setuptools is not installed on
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the system. Unlike It will not install it into the system -- this is a build
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dependency, not an install dependency.
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EASY_INSTALLABLE DEPENDENCIES
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The following Python packages are required, but they are bundled with Tahoe (in
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the <cite>misc/dependencies</cite> directory), and are built by <cite>make
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build-auto-deps</cite>. If you install Tahoe using The Setuptools Way or The
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easy_install Way then these packages will automatically be installed along with
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Tahoe.
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+ zfec (erasure coding library) >= v1.3.0
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http://cheeseshop.python.org/pypi/zfec
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+ foolscap (secure remote object library) >= v0.2.3
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http://cheeseshop.python.org/pypi/foolscap
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+ simplejson (JSON parser) >= v1.7.3
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http://cheeseshop.python.org/pypi/simplejson
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+ nevow (web presentation language) >= v0.6.0
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http://divmod.org/trac/wiki/DivmodNevow
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Note that Nevow >= v0.9.18 requires Twisted >= v2.4.0. If you are on
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Ubuntu 6.06 ("dapper") or Debian 3.1 ("sarge"), this means you have to
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install Twisted >= v2.4.0 yourself, or else install Nevow v0.6.0 in egg
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form yourself (e.g. run <cite>easy_install nevow == 0.6.0</cite>).
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+ pycryptopp (Python crypto library) >= v0.2.9
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http://pypi.python.org/pypi/pycryptopp
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+ zope.interface (programming language extensions) >= v3.1.0
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http://pypi.python.org/pypi/pycryptopp
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Tahoe does <em>not</em> require the entire <cite>Zope</cite> package, merely
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the much smaller <cite>zope.interface</cite> component.
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xxx
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If you are behind a firewall and you can configure your firewall to
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forward TCP connections on a port to the computer running your Tahoe
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node, then you can configure the Tahoe node to announce itself as
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being available on that IP address and port. The way to do this is to
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create a file named $HERE/advertised_ip_addresses, in which you can
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put IP addresses and port numbers in "dotted-quad:port" form,
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e.g. "209.97.232.113:1345". You can put multiple
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IP-address-and-port-number entries into this file, on separate lines.
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</pre>
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</body>
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</html>
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