Conventions Used in this Book

Typographical Conventions

To make things easy to follow, a number of conventions are used throughout the book. Here are some examples:

./configure --prefix=/usr

This form of text should be typed exactly as shown unless otherwise noted in the surrounding text. It is also used to identify references to specific commands.

install-info: unknown option
`--dir-file=/mnt/lfs/usr/info/dir'

This form of text (fixed width font) shows screen output, probably the result of issuing a command. It is also used to show filenames such as /boot/grub/grub.conf

Emphasis

This form of text is used for several purposes, but mainly to emphasize important points, or to give examples of what to type.

https://www.linuxfromscratch.org/

This form of text is used for hypertext links external to the book, such as HowTos, download locations, websites, etc.

SeaMonkey-2.53.15

This form of text is used for links internal to the book, such as another section describing a different package.

cat > $LFS/etc/group << "EOF"
root:x:0:
bin:x:1:
......
EOF

This style is mainly used when creating configuration files. The first command (in bold) tells the system to create the file $LFS/etc/group from whatever is typed on the following lines, until the sequence EOF is encountered. Therefore, this whole section is usually typed exactly as shown. Remember, copy and paste is your friend!

<REPLACED TEXT>

This form of text is used to encapsulate text that should be modified, and is not to be typed as shown, or copied and pasted. The angle brackets are not part of the literal text; they are part of the substitution.

root

This form of text is used to show a specific system user or group reference in the instructions.

 

Conventions Used for Package Dependencies

When new packages are created, the software's authors depend on prior work. In order to build a package in BLFS, these dependencies must be built before the desired package can be compiled. For each package, prerequisites are listed in one or more separate sections: Required, Recommended, and Optional.

Required Dependencies

These dependencies are the bare minimum needed to build the package. Packages in LFS, and the required dependencies of these required packages, are omitted from this list. Always remember to check for nested dependencies.

Recommended Dependencies

These are dependencies the BLFS editors have determined are important to give the package reasonable capabilities. Package installation instructions assume they are installed. If a recommended package is not installed, the instructions may require modification, to accommodate the missing package.

Optional Dependencies

These are dependencies the package may use. Integration of optional dependencies may be automatic by the package, or additional steps not presented by BLFS may be necessary. Optional dependencies are sometimes listed without explicit BLFS instructions. In this case you must determine how to perform the installation yourself.

 

Conventions Used for Kernel Configuration Options

Some packages require specific kernel configuration options. The general layout for these looks like this:

Master section --->
  Subsection --->
    [*]     Required parameter                     [CONFIG_REQU_PAR]
    <*>     Required parameter (not as module)     [CONFIG_REQU_PAR_NMOD]
    <*/M>   Required parameter (could be a module) [CONFIG_REQU_PAR_MOD]
    <*/M/ > Optional parameter                     [CONFIG_OPT_PAR]
    [ ] Incompatible parameter                     [CONFIG_INCOMP_PAR]
    < > Incompatible parameter (even as module)    [CONFIG_INCOMP_PAR_MOD]

[CONFIG_...] on the right gives the name of the option, so you can easily check whether it is set in your .config file. The meaning of the various entries is:

Master sectiontop level menu item
Subsectionsubmenu item
Required parameter the option can either be built-in, or not selected: it must be selected
Required parameter (not as module) the option can be built-in, a module, or not selected (tri-state): it must be selected as built-in
Required parameter (could be a module) the option can be built-in, a module, or not selected: it must be selected, either as built-in or as a module
Optional parameter rarely used: the option can be built-in, a module, or not selected: it may be set any way you wish
Incompatible parameter the option can either be built-in or not selected: it must not be selected
Incompatible parameter (even as module) the option can be built-in, a module, or not selected: it must not be selected

Note that, depending on other selections, the angle brackets (<>) in the configuration menu may appear as braces ({}) if the option cannot be unselected, or even as dashes (-*- or -M-), when the choice is imposed. The help text describing the option specifies the other selections on which this option relies, and how those other selections are set.

 

SBU values in BLFS

As in LFS, each package in BLFS has a build time listed in Standard Build Units (SBUs). These times are relative to the time it took to build binutils in LFS, and are intended to provide some insight into how long it will take to build a package. Most times listed are for a single processor or core to build the package. In some cases, large, long running builds tested on multi-core systems have SBU times listed with comments such as '(parallelism=4)'. These values indicate testing was done using multiple cores. Note that while this speeds up the build on systems with the appropriate hardware, the speedup is not linear and to some extent depends on the individual package and the specific hardware used.

For packages which use ninja (i.e., anything using meson) or rust, by default all cores are used; similar comments will be seen on such packages even when the build time is minimal.

Where even a parallel build takes more than 15 SBU, on certain machines the time may be considerably greater even when the build does not use swap. In particular, different micro-architectures will build some files at different relative speeds, and this can introduce delays when certain make targets wait for another file to be created. Where a large build uses a lot of C++ files, processors with Simultaneous Multi Threading will share the Floating Point Unit and can take 45% longer than when using four 'prime' cores (measured on an intel i7 using taskset and keeping the other cores idle).

Some packages do not support parallel builds; for these, the make command must specify -j1. Packages that are known to impose such limits are so marked in the text.