# glibc ABI Tool This repository contains `.abilist` files from every version of glibc. These files are consolidated to generate a single 201 KB symbol mapping file that is shipped with Zig to target any version of glibc. This repository is for Zig maintainers to use when a new glibc version is tagged upstream; Zig users have no need for this repository. ## Adding new glibc version `.abilist` files 1. Clone glibc ```sh git clone git://sourceware.org/git/glibc.git ``` 2. Check out the new glibc version git tag, e.g. `glibc-2.34`. 3. Run the tool to grab the new abilist files: ```sh zig run collect_abilist_files.zig -- $GLIBC_GIT_REPO_PATH ``` 4. This mirrors the directory structure into the `glibc` subdirectory, namespaced under the version number, but only copying files with the .abilist extension. 5. Inspect the changes and then commit these new files into git. ## Updating Zig 1. Run `consolidate.zig` at the root of this repo. ```sh zig run consolidate.zig ``` This will generate the file `abilists` which you can then inspect and make sure it is OK. Copy it to `$ZIG_GIT_REPO_PATH/lib/libc/glibc/abilist`. ## Debugging an abilists file ```sh zig run list_symbols.zig -- abilists ``` ## Strategy The abilist files from the latest glibc are *almost* enough to completely encode all the information that we need to generate the symbols db. The only problem is when a function migrates from one library to another. For example, in glibc 2.32, the function `pthread_sigmask` migrated from libpthread to libc, and the latest abilist files only show it in libc. However, if a user targets glibc 2.31, Zig needs to know to put the symbol into libpthread.so and not libc.so. In glibc upstream, they simply renamed the abilist files from pthread.abilist to libc.abilist. This resulted in the following line being present in libc.abilist in glibc 2.32 and later: ``` GLIBC_2.0 pthread_sigmask F ``` This implies that in glibc 2.0, libc.so has the `pthread_sigmask` symbol, which is incorrect, because it was only found in libpthread.so. This is why this repository contains abilist files from all past versions of glibc as well as the most recent one - it allows us to detect this situation, and generate a corrected symbols database. The strategy is to start with the earliest glibc version, consume the abilist files, and then treat that data as correct. Next we move on to the next earliest glibc version, but now we have to detect a contradiction: if the newer glibc version claims that e.g. `pthread_sigmask` is available in glibc 2.0, when our correct data says that it does not, we ignore that incorrect piece of data. However we must take in new data if the version it talks about is greater than the version corresponding to the "correct" data set. After merging in the newer glibc version, we mark the current dataset as "correct" and move on to the next, and so on until we have processed all the sets of abilist files. When this process completes, we have in memory something that looks like this: * For each glibc symbol * For each glibc library * For each target * For each glibc version * Whether the symbol is absent, a function, or an object+size And our job is now to *encode* this information into a file that does not waste installation size and yet remains simple to decode and use in the Zig compiler. ### Inclusions Next, the script generates the minimal number of "inclusions" to encode all the information. An "inclusion" is: * A symbol name. * The set of targets this inclusion applies to. * The set of glibc versions this inclusion applies to. * The set of libraries this inclusion applies to. * Whether it is a function or object, and if an object, its size in bytes. As an example, consider `dlopen`. An inclusion is something like this: * `dlopen` * targets: aarch64-linux-gnu powerpc64le-linux-gnu * versions: 2.17 2.34 * libraries: libdl.so * type: function This does not cover all the places `dlopen` can be found however. There will need to be more inclusions for more targets, for example: * `dlopen` * targets: x86_64-linux-gnu * versions: 2.2.5 2.34 * libraries: libdl.so * type: function Now we have more coverage of all the places `dlopen` can be found, but there are yet more that need to be emitted. The script emits as many inclusions as necessary so that all the information is represented. Next we make few observations which lead to a more compact data encoding. ### Observation: All symbols are consistently either functions or objects There is no symbol that is a function on one target, and an object on another target. Similarly there is no symbol that is a function on one glibc version, but an object in another, and there is no symbol that is a function in one shared library, but an object in another. We exploit this by encoding functions and object symbols in separate lists. ### Observation: Over half of the objects are exactly 4 bytes 51% of all object entries are 4 bytes, and 68% of all object entries are either 4 or 8 bytes. Total object inclusions are 765. If we stored 4 and 8 byte objects in separate lists, this would save 2 bytes from 520 inclusions, totaling 1 KB. Not worth. ### Observation: Average number of different versions per inclusion is 1.02 Nearly every inclusion has typically 1 version attached to it, rarely more. This makes a u64 bitset uneconomical. With 19530 total inclusions, this comes out to 153 KB spent on the version bitset. However if we encoded it as one byte per version, using 1 bit of the byte to indicate the terminal item, this would bring the 153 KB down to 19 KB. That is almost a 50% reduction from the total size of the encoded abilists file. Definitely worth it. ## Binary encoding format: All integers are stored little-endian. - u8 number of glibc libraries (7). For each: - null-terminated name, e.g. "c", "m", "dl", "ld", "pthread" - u8 number of glibc versions (44), sorted ascending. For each: - u8 major - u8 minor - u8 patch - u8 number of targets (27). For each: - null-terminated target triple - u16 number of function inclusions (24536) - null-terminated symbol name (not repeated for subsequent same symbol inclusions) - Set of Unsized Inclusions - u16 number of object inclusions (912) - null-terminated symbol name (not repeated for subsequent same symbol inclusions) - Set of Sized Inclusions Set of Unsized Inclusions: - u32 set of targets this inclusion applies to (1 << INDEX_IN_TARGET_LIST) - last inclusion is indicated if 1 << 31 bit is set in target bitset - u8 index of glibc library this inclusion applies to - [N]u8 set of glibc versions this inclusion applies to. MSB set indicates last. Set of Sized Inclusions: - u32 set of targets this inclusion applies to (1 << INDEX_IN_TARGET_LIST) - last inclusion is indicated if 1 << 31 bit is set in target bitset - u16 object size - u8 index of glibc library this inclusion applies to - [N]u8 set of glibc versions this inclusion applies to. MSB set indicates last.