smartos-live: SmartOS Platform
- cp sample.configure.smartos configure.smartos
- gmake world
- gmake live
This is smartos-live, which builds a SmartOS platform image containing the illumos core OS components; a set of "extra" mostly third-party software required by illumos, by other SmartOS software, or for system management; a collection of utilities comprising SmartOS-specific functionality found in projects/local; and implementation-specific overlays that deliver additional files verbatim.
The build process occurs in two phases; the first phase is a bootstrap phase. The bootstrap phase uses the pkgsrc delivered compiler to build the set of items required to build illumos, this includes the compiler and various other components. This process is driven from the illumos-extra repository and delivered into a subdirectory of the smartos-live root named proto.strap.
Next, the build process accumulates from those various components a set of objects into a subdirectory of the smartos-live root. This subdirectory is known as the proto area and by default is named proto. All objects that are delivered by the platform are built against the contents of the proto area, such that they use the interfaces defined by the headers and libraries provided by the software being delivered rather than that installed on the build system. However, not all objects installed into the proto area are delivered by the platform. This allows objects in the platform to be built correctly without forcing us to deliver private objects in the platform that would conflict with objects delivered by pkgsrc into zones.
Each component (illumos, illumos-extra, illumos-live, and each subproject and overlay) includes a manifest. The manifest lists the files installed into the proto area by that component that should be delivered by the platform, along with its type, ownership, and permissions. This includes directories and symlinks; simply creating a directory or symlink in the proto area does not result in that object being delivered by the program. This also means that symlinks in the proto area can be broken without obvious effects on the platform image, which is usually a bug and can result in silent (and not-so-silent) build problems.
The manifests are aggregated and the resulting list of objects assembled into lofi filesystems created in /tmp, which in turn are assembled into the platform image itself. This process is performed mainly by the tools/build_live script.
As of June 2012, the Sun Studio compiler should no longer be executed as part of the build process. However, it is still used for building lint libraries and for linting illumos. Hopefully this dependency will be removed in the future.
Additional build tools are required to be present on the build system; configure (see below) will install them if you are building in a SmartOS zone, which is the supported and recommended practice, see http://wiki.smartos.org/display/DOC/Building+SmartOS+on+SmartOS for zone setup instructions.
The configure script sets everything up for building including:
- ensures system has required packages installed (and is running on illumos!)
- ensures SUNWspro is installed in
- ensures that
projects/illumosexists and creates
- ensures that
- optional: set the environment variable MAX_JOBS to set build job concurrency (useful for small systems)
The "make world" works as follows:
The subset of illumos-extra required at build time to encode runtime dependencies into illumos is built, starting with gcc 4.4.4, and installed into the bootstrap proto area (by default, proto.strap).
The illumos source in projects/illumos (can be a link) is built with the aid of tools/build_illumos and installed into the proto area. The compiler used is the one built in the first phase.
All illumos-extra components are built and installed into the proto area.
The local sources in the
srcsubdirectory are built and installed into the proto area.
Any extra projects found in the directory projects/local, by default kvm and kvm-cmd, are built and installed into the proto area.
The "make live" uses the tools/build_live script as follows:
The manifest is used, directories and links are created and files are taken:
- from an overlay directory, in the order specified by the configure
- from the proto area; finally
- from the
- from an overlay directory, in the order specified by the configure fragment's
Once the files are copied in, the tools/customize script is run which also sources tools/customize.* if they exist
Then the image is packed up and put in output with an expanded directory and a
A log of the live image creation is written into the
logsubdirectory containing entries of the form:
FILE: [path/to/file][PERM][owner/uid][group/gid]: OK (/path/to/source) LINK(symlink): source => target: OK LINK: source => target: OK DIR: [path/to/dir][PERM][owner/uid][group/gid]: OK
If the build fails during this step, check the log file for any entries containing FAIL. In most cases, this will be the result of a bug in the build system (or an object that was not delivered to the proto area, in which case the failure to stop that build at that point is also a build system bug).
Creating additional build artifacts
By default, the build only generates the
platform-BUILDSTAMP.tgz file. This
may also be transformed into a CD-ROM ISO image and a USB key image. To
transform it into a CD-ROM ISO image, one may use the
script. To transform it into a USB image, one should use the
There are still a small number of illumos-extra components that do not use the unified makefile system, and are built against the build system's headers and libraries. (TBD)
python should be part of illumos-extra, as there are a small number of tools delivered that use it. (TBD)
While there should never be a delivered object with build environment DT_RPATH leakage, there is currently no tool for checking this. (OS-1122)
There is also no tool for verifying that all objects delivered within the platform have no dependencies outside the platform. This includes both runtime library linking and the execution of interpreters. (OS-1122)
illumos-extra recurses over all components even during an incremental build. This is time-consuming and usually pointless. (OS-1319)
The complete set of build-order dependencies within illumos-extra probably has not been enumerated. Doing so would allow for greater parallelism in that portion of the build. In addition, it is likely that many of the components are actually unsafe to build in parallel internally. (TBD)
The illumos-extra unified makefile system is not documented.
Changes for any of the above issues, or any other bug you encounter, are welcome and may be submitted via the appropriate github repository. Additional issues may also be filed there.
The resulting image requires a 64-bit machine
The BUILDSTAMP is available in the live image in /etc/joyent_buildstamp
There is a manifest created:
which contains a list of all files/links in the image + md5sums of files and is also available in the live image itself in /var/log/manifest