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294 lines
14 KiB
Markdown
294 lines
14 KiB
Markdown
# The Pygos Build System
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The Pygos build system creates a number of binary packages from a set of
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source packages using a cross toolchain, installs them to a compressed file
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system image and neatly packages it with an install script for the target
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board.
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The Pygos system can be built by running the `mk.sh` shell script in the root
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of the git tree, with the desired product configuration as argument.
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The shell script can be run from anywhere on the file system. All
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configuration files and scripts are accessed relative to the source location
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of the script and all generated files are accessed relative to the current
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working directory.
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It is strongly encouraged to run the build system from outside the git tree to
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have the generated files cleanly separated from the build system.
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A second script named `check_update.sh` is provided to automatically query
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all upstream package sources to check if newer versions are available.
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The `mk.sh` creates a `download` and a `src` directory. In the former it stores
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downloaded source tar balls, in the later it extracts the tar balls and applies
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patches.
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For all other files and directories, a sub directory named after the product
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configuration is created, referred to as *build root*.
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Inside the build root the directories `log`, `repo` and `toolchain` are
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created. The compiled binary packages are stored in `repo`, the cross
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toolchain is stored in `toolchain`. Outputs and diagnostic messages of the
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build processes are stored in `log` and are each compressed after successfully
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building a package.
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If you are in a real hurry in building the system, you may wish to store the
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input git tree and output build directory on an SSD and create the build root
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directory ahead of time with a tmpfs mounted to it.
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## Packages and Dependcies
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The build system distinguishes between binary packages and source packages.
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A binary package is an archive containing files and meta data, such as
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dependency information. Installing a binary package means extracting its
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contents (and recursively that of its dependencies) to a target location.
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A source package is at its minimum a shell script that is run by the build
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system to produce binary packages. A source package can produce more than one
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binary package (e.g. a program, its utility libraries and development headers
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for the libraries could all be packaged separately).
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Running a build script may require development headers and libraries of other
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packages to be installed to an intermediate staging sysroot used by the cross
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toolchain. Thus, a source package can itself depend on binary packages that
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have to be built first and are installed to the staging sysroot before
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the build process begins. The resulting binary packages can have a completely
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different set of dependencies (e.g. they don't need the library headers).
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For simplicity, the cross toolchain, rootfs image and packaging are also
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implemented as source packages and the build system takes care of building
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everything in the right order.
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## Package Build Scripts
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The directory `pkg` contains a sub directory for each source package. Each
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package directory is expected to contain a shell script named `build`.
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The build script is expected to set the following variables:
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* `VERSION` containing a package version number.
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* `URL` containing a URL from which to download a source tar ball.
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* `TARBALL` containing the name of the source tar ball. This is appended to
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the URL to download the package.
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* `SHA256SUM` containing the SHA-256 check sum of the source tar ball.
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* `SRCDIR` containing the name of the source directory unpacked from the
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tar ball.
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* `DEPENDS` containing a space separated list of packages that have to be built
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first and installed to the cross toolchains sysroot.
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* `SUBPKG` containing a space sperated list of binary packages produced. If
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left empty, the build system assumes one binary package with the same name
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as the source package.
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The `build` script is also expected to implement the following functions:
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* `prepare` is run after unpacking the source tar ball. The current working
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directory is set to the source directory. The path to the package directory
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is passed as first argument, so the function can easily access patch files
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stored in the package directory.
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* `build` is run to compile the package. The current working directory is a
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temporary directory inside the build root directory. The source directory
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is passed as first argument.
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* `deploy` is run after compilation to install the build output to a staging
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directory. Arguments and working directory are the same as for `build`.
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The function is expected to generate a `*.files` and a `*.desc` file for
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each sub package, so the build system can automatically package it.
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* `check_update` is only used by the `check_update.sh` script. It is supposed
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to find out if the package has a newer version available, and if so, echo it
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to stdout.
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### Directory Variables
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A number of directories exist that can be accessed through global variables
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from package build scripts.
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The following shell variables are globally visible and identify special
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directories that build scripts might be interested in:
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* `SCRIPTDIR` points to the git tree containging the build system.
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* `PKGDOWNLOADDIR` points to the directory to which source tar balls
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are downloaded.
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* `PKGSRCDIR` points to the directory into which source tar balls are unpacked.
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* `BUILDROOT` points to the build root directory.
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* `PKGLOGDIR` points to the directory where log files are written to stored.
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* `REPODIR` points to the directory where binary packages are stored.
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* `TCDIR` points to the cross toolchain directory.
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While building a package, additional staging directories are temporarily
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created inside the build root directory:
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* `PKGBUILDDIR` points to a temporary directory inside the build root that is
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used as working directory for the `build` and `deploy` functions.
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* `PKGDEPLOYDIR` points to another such temporary directory that the `deploy`
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function is expected to install binaries to.
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### Additional Variables
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The following variables describe the target system and the build environment:
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* `PRODUCT` contains the product name specified on the command line
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* `LAYERCONF` contains path to the list of active configuration layers for the
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target product
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* `TARGET` specifies the host triplet of the target board
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* `OS_NAME` is statically set to `Pygos`
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* `OS_RELEASE` holds a version string generated using `git-describe`
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* `NUMJOBS` contains the number of processors available for parallel builds
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* `HOSTTUPLE` contains the host triplet of the machine that the build system
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is running on for compiling toolchain packages.
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* `CMAKETCFILE` contains the absolute path to a CMake toolchain file that can
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be used for compiling CMake based packages with the cross toolchain.
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* `PACKAGELIST`, `DEPENDSLIST`, `PROVIDESLIST` hold data used internally for
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dependency management.
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The cross toolchain directory containing the executable prefixed with `$TARGET-`
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is also prepended to `PATH`.
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### Utility Functions
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Some utility functions are provided for common package build tasks:
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* `apply_patches` can be used inside the `prepare` function to automatically
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apply patches stored in the package directory to the source tree.
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* `strip_files` takes a list of files as argument and runs the cross toolchain
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strip program on those that are valid ELF binaries. If a directory is
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encountered, the function recursively processes the sub directory. Usually
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you don't need to use this. The `mk.sh` script uses this function after
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the deploy step to process the `bin` and `lib` directories.
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* `unfuck_libtool` may have to be used before running `make install` on
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packages that build shared libraries with libtool. GNU libtool is an utter
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piece of garbage from hell. This function removes the global `/lib` search
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path from the `*.la` files, so libtool doesn't crap itself during its stupid
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relink phase, trying to link against libraries from the host system, after
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already successfully cross compiling the libraries.
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* `verson_find_greatest` can be used in `check_update` to find the largest
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version number from a list. The list of version numbers is read from stdin.
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Version numbers can have up to four dot separated numbers or characters.
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* `run_configure` can be used to run `autoconf` generated `configure` scripts
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with all the required options set for cross compilation. Extra options can
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be added to the options passed to `configure`.
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## Configuration Files
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The configuration for the build system is organized in layers, stored in
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the `layer` directory in the git tree.
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The configuration on how to build an image for a specific target is a file
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in the `product` sub directory that specifies, what configuration layers
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to use and how to stack them on top of each other. Layers that are further
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down in the file override the ones before them.
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From the layer configuartion, the build system itself merges (in layer
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precedence order) and processes the following configuration files:
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* `ROOTFS` contains a list of packages that should be built and installed to
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the root filesystem.
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* `TOOLCHAIN` contains shell variables for the cross compiler toolchain.
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See below for more detail.
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* `LDPATH` contains a list of directories where the loader should look
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for dynamic libraries.
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* `INIT` contains shell variables configuring the init system. See below
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for more detail.
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### Utility Functions
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For working with configuration files, the following utility functions
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can be used:
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* `file_path_override` takes a file name and looks for the last layer that
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contains it. The absolute path of the first found file is `echo`ed.
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* `cat_file_override` looks for the last layer that contains a file and
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prints it to standard output.
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* `cat_file_merge` prints the content of a file to standard output, for every
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layer that contains the file, in layer precedence order.
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* `include_override` includes a file using the `source` builtin from the last
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layer that contains the file.
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* `include_merge` includes a file using the `source` builtin from every layer
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that contains the file, in layer precedence order.
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### Toolchain Configuration
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The toolchain configuration file contains a list of shell variables for
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configuring the cross toolchain packages, as well as some other packages
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that need to know information about the target system.
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Currently, the following variables are used:
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* `RELEASEPKG` contains the name of the release package to build to trigger a
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build of the entire system. Typically this package depends on the `rootfs`
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package, which in turn pulls all configured packages as dependencies. It gets
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built last and packages the root filesystem image and boot loader files in
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some device specific way, so they can be installed easily on the target
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hardware.
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* `LINUXPKG` contains the name of the kernel package. There is a default
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package called 'linux' that builds a standard, main line LTS kernel. Other
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packages can be specified for building vendor kernels.
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* `TARGET` specifies the target triplet for the cross toolchain, which is also
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the host triplet for packages cross compiled with autotools.
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* `GCC_CPU` specifies the target processor for GCC.
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* `GCC_EXTRACFG` extra configure arguments passed to GCC. For instance, this
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may contain FPU configuration for ARM targets.
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* `BINUTILS_EXTRACFG` extra configure arguments passed to binutils.
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* `LINUX_TGT` contains the space seperated make targets for the generic,
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main line, LTS kernel package.
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* `CPU_IS_64BIT` is set to `yes` for 64 bit CPUs. This is needed for some
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packages like nginx that need a little help for cross compiling.
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* `TC_HARDENING` is set to `yes` to build user space binaries position
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independent, with read only relocation, immediate binding and with GCCs
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stack protector enabled for all functions.
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### Init System Configuration
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The INIT configuration file contains a list of shell variables for configuring
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the init system.
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Currently, the following variables are used:
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* `GETTY_TTY` contains a space separated list of ttys on which to start agetty
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on system boot.
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* `HWCLOCK` is set to yes if the system has a hardware clock that the time
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should be synchronized with during system boot and shutdown. If set to
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anything else, the init system is configured to keep track of time using
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`ntpdate` and a file on persistent storage.
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* `DHCP_PORTS` contains a space separated list of network interfaces on which
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to operate a DHCP client for network auto configuration.
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* `SERVICES` contains a space separated list of raw service names to enable.
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* `MODULES` contains a space seperated list of kernel modules that should be
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loaded during system boot.
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For configuring network interfaces, a file `ifrename` exists that assigns
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persistent, predictable names to network interfaces.
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The default naming scheme of the Pygos system is to rename the Ethernet
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interfaces installed on the board to *port<X>* where X is an index starting
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with 0.
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For each network interface, addresses, mtu, offloading, etc can be configured
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in a file `interfaces/<name>`, where *name* is the interface name *after*
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renaming.
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If the files `nftables.rules` or `sysctl.conf` are found, they are copied to
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the target system image and the coresponding services are enabled.
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For more details, please refer to the not yet existing network documentation.
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### Package Specific Configuration Files
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Additional configuration files may be present that are used by various packages.
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The following files are currently used (with default override behavior):
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* `linux.config` contains the kernel build configuration. The same name is
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currently used by both the main line and the board specific vendor kernels.
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* `dnsmasq.conf` is installed to `/etc` by the dnsmasq package.
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* `unbound.conf` is installed to `/etc` by the unbound package.
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* `dhcpcd.conf` is installed to `/etc` by the dhcpcd package.
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* `nginx.conf` is installed to `/etc/nginx` by the nginx package.
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