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-
-= Building Cryptech !Software/Firmware/Bitstream From Source =
-
-Everything you need to build our software, firmware, and FPGA
-bitstreams from source yourself is publicly available, but the process
-is a bit complicated. Overall, there are two methods, one of which
-our developers use while writing this stuff, the other of which we use
-for the automated reproducible builds which go into our binary
-distributions. Both methods eventually boil down to "get the source
-code then run make", but the details differ.
-
-== What developers do ==
-
-We check out copies of all the several dozen separate repositories and
-carefully arrange them in a tree structure which matches the official
-naming scheme. Yes, really. It's tedious, but we have
-[export:/user/sra/build-tools/https-sync-repos.py a script to automate this].
-Be warned that this script is a kludge which relies on parsing
-XML from this Wiki; this is nasty, but reasonably stable, because the
-XML itself is generated by another script.
-
-Once you have this tree, you can hop around within it, building
-whichever bits are of interest to you. So if you want to rebuild just
-the HSM firmware (the C code that runs on the ARM), you would go to
-`sw/stm32` and run `make` there.
-
-== What we do for reproducible builds ==
-
-Reproducible builds use the same tree structure (as they must for the
-various Makefiles to work properly), but the entire tree is embedded
-in a git "superrepository" which also contains the release engineering
-goo necessary to make the whole thing work. Do `git help submodule`
-for an introduction to git's submodule mechanism.
-
-With this model, one just checks out a copy of
-[source:/releng/alpha the superrepository],
-runs `make` in its top directory, and eventually
-the complete package pops out the other side.
-
-{{{
-git clone https://git.cryptech.is/releng/alpha.git
-cd alpha
-make
-}}}
-
-That's the good news. The bad news is that this process has higher
-demands on its build environment: it expects to find the a complete
-tool set, including the !XiLinx synthesis tools, the several different
-cross compilers for the firmware, and the `pbuilder` system for
-building clean room packages for Ubuntu and Debian.
-
-As a compromise, one can use this source tree as if it were the
-development source tree described above: just use the supermodule to
-pull down everything else, but then ignore the supermodule and build
-individual pieces as if you'd checked out all the repositories by
-hand.
-
-== Skip all this git mess and just download a tarball ==
-
-There's another alternative, which is simpler than any of the above:
-just download the source tarball. Since the only build environments
-we support at the moment are Debian Jessie and Ubuntu Xenial, which
-also happen to be environments for which we build binary packages, you
-can just use APT:
-
-{{{
-apt-get source cryptech-alpha
-}}}
-
-Which will give you the same tree structure, but without all the git fun.
-
-== Build environment ==
-
-Our software and firmware developers use the Debian and Ubuntu Linux
-distributions. Our current build box for binary packages runs Debian
-Jessie.
-
-Our Verilog developers use various environments and have been known to
-use graphical tools, but synthesis of the bitstreams that go in our
-binary packages is done via the !XiLinx command line tools on the same
-Debian Jessie machine as the software and firmware builds.
-
-Which tools you need will of course depend on exactly what you're
-trying to do.
-
-Most of the tools work on either 32-bit or 64-bit machines, but if you
-intend to run the full binary package build script, you'll need a
-64-bit machine (or VM) because the tools won't build 64-bit binaries
-on a 32-bit machine.
-
-Basic tool set (not all required for every purpose, but they're all
-supported Debian packages so it's usually easier just to install them
-all and not worry about it):
-
-{{{
- apt-get install git pbuilder ubuntu-dev-tools rsync sudo
- apt-get install python-yaml python-serial python-crypto python-ecdsa
- apt-get install gcc-arm-none-eabi gdb-arm-none-eabi
- apt-get install gcc-avr binutils-avr avr-libc
- apt-get -t jessie-backports install debootstrap distro-info-data
- apt-get install reprepro ubuntu-archive-keyring
-}}}
-
-This is not an exhaustive list, because some of the other packages we
-use are pulled in by these as dependencies.
-
-You will also need a copy of the !XiLinx tools, which is tedious enough
-that it's described in a separate section, below.
-
-Once you have all the tools installed, you'll need a copy of the
-source tree, as explained in the preceeding sections.
-
-pbuilder requires a bit of setup (you can skip this if you're not
-trying to do the full binary package build):
-
-{{{
-for code in jessie xenial; do for arch in i386 amd64; do pbuilder-dist $code $arch create; done; done
-ln -s jessie_result ~/pbuilder/jessie-amd64_result
-ln -s xenial_result ~/pbuilder/xenial-amd64_result
-}}}
-
-== Installing the !XiLinx tools ==
-
-!XiLinx tools setup is a bit involved. You can skip this section if
-you don't intend to build FPGA bitstreams.
-
-We use the command line versions of the !XiLinx tools, but installing
-them requires a graphical environment, because the !XiLinx installer
-and license manager are GUI tools. If you're running this on a server
-and don't already have a graphical environment installed, you can get
-away with something fairly minimal. For example, if you have a VNC
-viewer such as "Chicken of the VNC" on your laptop, you can get away
-with a fairly minimal X11 toolset:
-
-{{{
-apt-get install tightvncserver xterm icewm
-}}}
-
-If you're already running X11 on your laptop and are comfortable with
-extruding that to the build machine, eg, via `ssh -Y`, you can just
-use that (not recommended for long-haul use, eg, if the laptop is in
-Boston and the server is in Reykjavik).
-
-You'll need to start by using a web browser to download the
-[http://www.xilinx.com/support/download/index.html/content/xilinx/en/downloadNav/design-tools.html Xilinx ISE Design Suite].
-
-!XiLinx only supports specific versions of Red Hat and Suse Linux, but
-their tools do run on Debian and Ubuntu. A few caveats:
-
-* Debian and Ubuntu symlink `/bin/sh` to `/bin/dash`, which can't handle
- some of the syntax used in !XiLinx's shell scripts, so you'll need to
- change that symlink to point to `/bin/bash`.
-
-* Although the !XiLinx software can be installed as user or root, by
- default it wants to install into /opt/Xilinx, so you need to install
- as root if you want to do that.
-
-* The !XiLinx tools are disk hogs, so if you're building a VM for this,
- you'll probably want to give it at least 30-40 GB of disk space.
-
-Step-by-step installation:
-
-1. Unpack `Xilinx_ISE_DS_Lin_14.7_1015_1.tar` (or whatever version you have).
-2. In an X11 environment, cd to `Xilinx_ISE_DS_Lin_14.7_1015_1`, and run `sudo ./xsetup`
-3. Click through two screens of license agreements.
-4. Select `ISE WebPACK`.
-5. Unselect (or leave unselected) Install Cable Drivers.
-6. Go!
-
-Well, not quite. You'll need to convince the ISE tools that you have
-a valid license to use the ISE tools. Go to
-http://www.xilinx.com/products/design-tools/ise-design-suite/ise-webpack.htm,
-click the `Licensing Solutions` link. On the page to which that takes
-you, expand the section `Obtain a license for Free or Evaluation
-product`. To download the ISE Webpack, you should have created an
-account, so now you can go to the Licensing Site and use that account
-to create a Certificate Based License.
-
-You do not need to go through the HostID dance, just say Do It. You
-will then receive a certificate in email (not an X.509 certificate)
-which you will be able to use. Then start the ISE Webpack by issuing
-the command `ise`. Go to the Help menu and Manage Licenses. Use the
-resulting new License Manager window to install the `.lic` file. This
-process is complex and flakey.
-
-Here's
-[http://www.armadeus.com/wiki/index.php?title=ISE_WebPack_installation_on_Linux another description of installing ISE on Ubuntu].
-
-The `ise` binary referred to above is in `/opt/Xilinx/14.7/ISE_DS/ISE/bin/lin64/ise`
-(or in `.../lin/ise`, but the pbuilder setup requires a 64-bit build machine).
-
-When running this remotely under tightvncserver, setup looks something like this:
-
-{{{
-vncserver :0 -geometry 1280x768 -depth 16 -localhost
-export DISPLAY=:0 XAUTHORITY=~/.Xauthority
-icewm&
-}}}
-
-Then, either in the same shell as the above or in an xterm in the new display
-
-{{{
-cd Xilinx_ISE_DS_Lin_14.7_1015_1
-sudo ./xsetup
-
-cd
-/opt/Xilinx/14.7/ISE_DS/ISE/bin/lin64/ise
-}}}
-
-It turns out you don't really need to run the whole `ise` tool to
-get to the license manager, you can just run
-
-{{{
-/opt/Xilinx/14.7/ISE_DS/common/bin/lin64/xlcm -manage
-}}}
-
-But you do have to source the appropriate settings file first, none of
-the !XiLinx tools work properly without that:
-
-{{{
-. /opt/Xilinx/14.7/ISE_DS/settings64.sh
-}}}
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