Title: BuildingFromSource
Date: 2017-05-13 17:47
Modified: 2017-05-17 21:28
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.
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.
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.
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.
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
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
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:
- Unpack
Xilinx_ISE_DS_Lin_14.7_1015_1.tar
(or whatever version you have).
- In an X11 environment, cd to
Xilinx_ISE_DS_Lin_14.7_1015_1
, and run sudo ./xsetup
- Click through two screens of license agreements.
- Select
ISE WebPACK
.
- Unselect (or leave unselected) Install Cable Drivers.
- 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
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