Take another look at the Bootdisk-HOWTO and notice how many utilities can be squeezed onto a 1.44M floppy. There are three things that make this possible. One is the use of shared libraries. The second is stripped binaries. And the third is the use of a compressed filesystem. We can use all of these techniques to save space on our root disk.
First, in order to use shared libraries we will need to rebuild the BASH shell. This time we will configure it without using the --enable-static-link option. Once BASH is rebuilt we need to figure out which libraries it is linked with and be sure to include them on the root disk. The ldd command makes this job easy. By typing ldd bash on the command-line we can see a list of all the shared libraries that BASH uses. As long as all these libraries are copied to the root disk, the new BASH build should work fine.
Next, we should strip any binaries that get copied to the root disk. The manpage for strip does not give much description of what it does other than to say, "strip discards all symbols from the object files." It seems like removing pieces of a binary would render it useless, but this is not the case. The reason it works is because a large number of these discarded symbols are used for debugging. While debugging symbols are very helpful to programmers working to improve the code, they do not do much for the average end-user other than take up more disk space. And since space is at a premium, we should definitely remove as many symbols as possible from BASH and any other binaries before we copy over them to the ramdisk.
The process of stripping files to save space also works with shared library files. But when stripping libraries it is important to use the --strip-unneeded option so as not to break them. Using --strip-unneeded shrinks the file size, but leaves the symbols needed for relocation intact which is something that shared libraries need to function properly.
Finally, we can tackle the problem of how to build a compressed root filesystem. The Bootdisk-HOWTO suggests three ways of constructing a compressed root filesystem using either a ramdisk, a spare hard drive partition or a loopback device. This project will concentrate on using the ramdisk approach. It seems logical that if the root filesystem is going to be run from a ramdisk, it may as well be built on a ramdisk. All we have to do is create a second extended filesystem on a ramdisk device, mount it and copy files to it. Once the filesystem is populated with all the files that the root disk needs, we simply unmount it, compress it and write it out to floppy.
For this to work, we need to make sure the kernel is configured with ramdisk support and a default size of 4,096K. If the ramdisk size is something other than 4096K this can be fixed by adding the line "ramdisk=4096" to the development system's lilo.conf file. The lilo.conf(5) man page provides additional information.