OpenBMC Anti-patterns

From Wikipedia:

"An anti-pattern is a common response to a recurring problem that is usually ineffective and risks being highly counterproductive."

The developers of OpenBMC do not get 100% of decisions right 100% of the time. That, combined with the fact that software development is often an exercise in copying and pasting, results in mistakes happening over and over again.

This page aims to document some of the anti-patterns that exist in OpenBMC to ease the job of those reviewing code. If an anti-pattern is spotted, rather that repeating the same explanations over and over, a link to this document can be provided.

Anti-pattern template [one line description]

Identification

(1 paragraph) Describe how to spot the anti-pattern.

Description

(1 paragraph) Describe the negative effects of the anti-pattern.

Background

(1 paragraph) Describe why the anti-pattern exists. If you don't know, try running git blame and look at who wrote the code originally, and ask them on the mailing list or in IRC what their original intent was, so it can be documented here (and you may possibly discover it isn't as much of an anti-pattern as you thought). If you are unable to determine why the anti-pattern exists, put: "Unknown" here.

Resolution

(1 paragraph) Describe the preferred way to solve the problem solved by the anti-pattern and the positive effects of solving it in the manner described.

Explicit AC_MSG_ERROR on PKG_CHECK_MODULES failure

Identification

PKG_CHECK_MODULES(
    [PHOSPHOR_LOGGING],
    [phosphor-logging],
    [],
    [AC_MSG_ERROR([Could not find phosphor-logging...openbmc/phosphor-logging package required])])

Description

The autotools PKG_CHECK_MODULES macro provides the ability to specify an "if found" and "if not found" behavior. By default, the "if not found" behavior will list the package not found. In many cases, this is sufficient to a developer to know what package is missing. In most cases, it's another OpenBMC package.

If the library sought's name isn't related to the package providing it, then the failure message should be set to something more useful to the developer.

Resolution

Use the default macro behavior when it is clear that the missing package is another OpenBMC package.

PKG_CHECK_MODULES([PHOSPHOR_LOGGING], [phosphor-logging])

Explicit listing of shared library packages in RDEPENDS in bitbake metadata

Identification

RDEPENDS_${PN} = "libsystemd"

Description

Out of the box bitbake examines built applications, automatically adds runtime dependencies and thus ensures any library packages dependencies are automatically added to images, sdks, etc. There is no need to list them explicitly in a recipe.

Dependencies change over time, and listing them explicitly is likely prone to errors - the net effect being unnecessary shared library packages being installed into images.

Consult https://www.yoctoproject.org/docs/latest/mega-manual/mega-manual.html#var-RDEPENDS for information on when to use explicit runtime dependencies.

Background

The initial bitbake metadata author for OpenBMC was not aware that bitbake added these dependencies automatically. Initial bitbake metadata therefore listed shared library dependencies explicitly, and was subsequently copy pasted.

Resolution

Do not list shared library packages in RDEPENDS. This eliminates the possibility of installing unnecessary shared library packages due to unmaintained library dependency lists in bitbake metadata.

Use of /usr/bin/env in systemd service files

Identification

In systemd unit files:

[Service]

ExecStart=/usr/bin/env some-application

Description

Outside of OpenBMC, most applications that provide systemd unit files don't launch applications in this way. So if nothing else, this just looks strange and violates the princple of least astonishment.

Background

This anti-pattern exists because a requirement exists to enable live patching of applications on read-only filesystems. Launching applications in this way was part of the implementation that satisfied the live patch requirement. For example:

/usr/bin/phosphor-hwmon

on a read-only filesystem becomes:

/usr/local/bin/phosphor-hwmon`

on a writeable /usr/local filesystem.

Resolution

The /usr/bin/env method only enables live patching of applications. A method that supports live patching of any file in the read-only filesystem has emerged. Assuming a writeable filesystem exists somewhere on the bmc, something like:

mkdir -p /var/persist/usr
mkdir -p /var/persist/work/usr
mount -t overlay -o lowerdir=/usr,upperdir=/var/persist/usr,workdir=/var/persist/work/usr overlay /usr

can enable live system patching without any additional requirements on how applications are launched from systemd service files. This is the preferred method for enabling live system patching as it allows OpenBMC developers to write systemd service files in the same way as most other projects.

To undo existing instances of this anti-pattern remove /usr/bin/env from systemd service files and replace with the fully qualified path to the application being launched. For example, given an application in /usr/bin:

sed -i s,/usr/bin/env ,/usr/bin/, foo.service