diff --git a/VERSIONING b/VERSIONING new file mode 100644 index 0000000..0b9c26b --- /dev/null +++ b/VERSIONING @@ -0,0 +1,223 @@ +------------------- +Written by Ted T'so +------------------- + +> https://www.gnu.org/software/libtool/manual/html_node/Updating-version-info.html +> +> I understood that, if there is no interface change but some implementation +> changes, I need to bump revision. If new interface is added, for example, I +> need to bump current while revision=0 and age++. + +So part of the problem here is that libtool is doing something really +strange because they are trying to use some abstract concept that is +OS-independent. I don't use libtool because I find it horribly +complex and doesn't add enough value to be worth the complexity. + +So I'll tell you how things work with respect to Linux's ELF version +numbering system. Translating this to libtool's wierd "current, +revision, age" terminology is left as an exercise to the reader. I've +looked at the libtool documentation, and it confuses me horribly. +Reading it, I suspect it's wrong, but I don't have the time to +experiment to confirm that the documentation is wrong and how it +diverges from the libtool implementation. + +So let me explain things using the ELF shared library terminology, +which is "major version, minor version, patchlevel". This shows up in +the library name: + + libudev.so.1.6.11 + +So in this example, the major version number is 1, the minor version +is 6, and the patchlevel is 11. The patchlevel is entirely optional, +and many packages don't use it at all. The minor number is also +mostly useless on Linux, but it's still there for historical reasons. +The patchlevel and minor version numbers were useful back for SunOS +(and Linux a.out shared library), back when there weren't rpm and dpkg +as package managers. + +So many modern Linux shared libraries will only use the major and +minor version numbers, e.g: + + libext2fs.so.2.4 + +The only thing you really need to worry about is the major version +number, really. The minor version is *supposed* to change when new +interfaces has changed (but I and most other people don't do that any +more). But the big deal is that the major number *must* get bumped if +an existing interface has *changed*. + +So let's talk about the major version number, and then we'll talk +about why the minor version number isn't really a big deal for Linux. + +So if you change any of the library's function signatures --- and this +includes changing a type from a 32-bit integer to a 64-bit integer, +that's an ABI breakage, and so you must bump the major version number +so that a program that was linked against libfoo.so.4 doesn't try to +use libfoo.so.5. That's really the key --- will a program linked +against the previous version library break if it links against the +newer version. If it does, then you need to bump the version number. + +So for structures, if you change any of the existing fields, or if the +application program allocates the structure --- either by declaring it +on the stack, or via malloc() --- and you expand the structure, +obviously that will cause problem, and so that's an ABI break. + +If however, you arrange to have structures allocated by the library, +and struct members are always added at the end, then an older program +won't have any problems. You can guarantee this by simply only using +a pointer to the struct in your public header files, and defining the +struct in a private header file that is not available to userspace +programs. + +Similarly, adding new functions never breaks the ABI. That's because +older program won't try to use the newer interfaces. So if I need to +change an interface to a function, what I'll generally do is to define +a new function, and then implement the older function in terms of the +newer one. For example: + +extern errcode_t ext2fs_open(const char *name, int flags, int superblock, + unsigned int block_size, io_manager manager, + ext2_filsys *ret_fs); + +extern errcode_t ext2fs_open2(const char *name, const char *io_options, + int flags, int superblock, + unsigned int block_size, io_manager manager, + ext2_filsys *hret_fs); + +As far as the minor version numbers are concerned, the dynamic linker +doesn't use it. In SunOS 4, if you have a DT_NEEDED for libfoo.so.4, +and the dynamic linker finds in its search path: + + libfoo.so.4.8 + libfoo.so.4.9 + +It will preferentially use libfoo.so.4.9. + +That's not how it works in Linux, though. In Linux there will be a +symlink that points libfoo.so.4 to libfoo.so.4.9, and the linker just +looks for libfoo.so.4. One could imagine a package manager which +adjusts the symlink to point at the library with the highest version, +but given that libfoo.so.4.9 is supposed to contain a superset of +libfoo.so.4.8, there's no point. So we just in practice handle all of +this in the package manager, or via an ELF symbol map. Or, we just +assume that since vast majority of software comes from the +distribution, the distro package manager will just update libraries to +the newer version as a matter of course, and nothing special needs to +be done. + +So in practice I don't bump the minor version number for e2fsprogs +each time I add new interfaces, because in practice it really doesn't +matter for Linux. We have a much better system that gets used for +Debian. + +For example in Debian there is a file that contains when each symbol +was first introduced into a library, by its package version number. +See: + +https://git.kernel.org/pub/scm/fs/ext2/e2fsprogs.git/tree/debian/libext2fs2.symbols + +This file contains a version number for each symbol in libext2fs2, and +it tells us what version of libext2fs you need to guarantee that a +particular symbol is present in the library. Then when *other* +packages are built that depend on libext2fs2, the minimum version of +libext2fs can be calculated based on which symbols they use. + +So for example the libf2fs-format4 package has a Debian dependency of: + +Depends: libblkid1 (>= 2.17.2), libc6 (>= 2.14), libf2fs5, libuuid1 (>= 2.16) + +The minimum version numbers needed for libblkid1 and libuuid1 are +determined by figuring out all of the symbols used by the +libf2fs-format4 package, and determining the minimum version number of +libblkid1 that supports all of those blkid functions. + +This gets done automatically, so I didn't have to figure this out. +All I have in the debian/control file is: + +Depends: ${misc:Depends}, ${shlibs:Depends} + +Sorry this got so long, but hopefully you'll find this useful. How +you bend libtool to your will is something you'll have to figure out, +because I don't use libtool in my packages.[1] + +Cheers, + + - Ted + + +[1] If you are interested in how I do things in e2fsprogs, take a look +at the Makefile.elf-lib, Makefile.solaris-lib, Makefile.darwin-lib, +etc. here: + +https://git.kernel.org/pub/scm/fs/ext2/e2fsprogs.git/tree/lib + +This these Makefile fragments are then pulled into the generated +makefile using autoconf's substitution rules, here: + +https://git.kernel.org/pub/scm/fs/ext2/e2fsprogs.git/tree/lib/ext2fs/Makefile.in + +(Search for "@MAKEFILE_ELF@" in the above Makefile.in). + +So when someone runs "configure --enable-elf-shlibs", they get the ELF +shared libraries built. On BSD and MacOS systems they just have to +run "configure --enable-bsd-shlibs", and so on. + +Personally, since most people don't bother to write truly portable +programs, as their C code is full of Linux'isms, using libtool is just +overkill, because they probably can't build on any other OS *anyway* +so libtool's slow and complex abstraction layer is totally wasted. +Might as well not use autoconf, automake, and libtool at all. + +On the other hand, if you really *do* worry about portability on other +OS's (e2fsprogs builds on MacOS, NetBSD, Hurd, Solaris, etc.) then +using autoconf makes sense --- but I *still* don't think the +complexity of libtool is worth it. + += Add-on = +If you are going to be making one less major update, this is the +perfect time to make sure that data structures are allocated by the +library, and are (ideally) opaque to the calling application (so they +only manipulate structure poitners). That is, the structure +definition is not exposed in the public header file, and you use +accessor functions to set and get fields in the structure. + +If you can't do that for all data structures, if you can do that with +your primary data structure that's going to make your life much easier +in the long term. For ext2fs, that's the file systme handle. It's +created by ext2fs_open(), and it's passed to all other library +functions as the first argument. + +The other thing you might want to consider doing is adding a magic +number to the beginning of each structure. That way you can tell if +the wrong structure gets passed to a library. It's also helpful for +doing the equivalent of subclassing in C. + +This is how we do it in libext2fs --- we use com_err to define the +magic numbers: + + error_table ext2 + +ec EXT2_ET_BASE, + "EXT2FS Library version @E2FSPROGS_VERSION@" + +ec EXT2_ET_MAGIC_EXT2FS_FILSYS, + "Wrong magic number for ext2_filsys structure" + +ec EXT2_ET_MAGIC_BADBLOCKS_LIST, + "Wrong magic number for badblocks_list structure" + ... + +And then every single structure starts like so: + +struct struct_ext2_filsys { + errcode_t magic; + ... + +struct ext2_struct_inode_scan { + errcode_t magic; + ... + +And then before we use any pointer we do this: + + if (file->magic != EXT2_ET_MAGIC_EXT2_FILE) + return EXT2_ET_MAGIC_EXT2_FILE;