|Version 4 (modified by simonmar, 8 years ago) (diff)|
Shared Libraries: distribution and build-system issues
This page is for discussing and documenting our strategy for
- How shared libraries are found
- How the build system works
- How distributions (of GHC and programs built by GHC) work
- Issues that affect Cabal
First of all, we take it as a given that a normal GHC installation will be a good citizen on its host platform: shared libraries will go in the standard locations, and we'll use the system's normal method for finding them at link time and runtime. Windows is an exception: there is no standard location for installing shared libraries on Windows.
So that we can support having multiple versions of GHC installed, shared libraries will have the GHC version number embedded, e.g. libHSghc6.6.1-network-1.1.so.
Here is what else we'd like to do:
- Support installing GHC outside of the standard location (e.g. in a home directory), and build binaries using that installation. Multiple such installations should be supported.
- We need to build a distribution that supports choosing the install location at install time, for use in (1).
- Binaries that are built as part of the GHC build (e.g. stage2/ghc-inplace) need to run from the build tree.
1. Static linking
(1,2) Installations of GHC that are not in the standard locations use static linking and come with static libraries only.
(3) stage2/ghc-inplace is linked statically.
This is attractive, but there are some drawbacks:
- we still need to build a distribution that uses shared libs. Presumably we have to build both shared and static libs then.
- the testsuite needs to build binaries against the shared libs for testing, without installing GHC.
- we want the GHC binary in a shared-library installation to be dynamically linked, not statically linked.
2. Dynamic linking
Platform support for locating shared libraries
The following analysis is mostly from Reilly Hayes on the cvs-ghc mailing list.
An ELF executable can have an embedded list of paths to search for dynamic libraries (the DT_RPATH entry). This can be set by using -rpath with ld. DT_RPATH is deprecated. This list applies to all shared libraries used by the executable (it is not per shared library). There is no default value placed in the DT_RPATH entry. You must use -rpath to set it.
There is a new entry, DT_RUNPATH. DT_RUNPATH works similarly to DT_RPATH. However, when it is set, DT_RPATH is ignored. DT_RUNPATH is also set using -rpath, but you must use the --enable-new-dtags switch as well.
When looking for a shared library, the dynamic linker(ld.so) checks the paths listed in DT_RPATH (unless DT_RUNPATH Is set) , the paths listed in the environment variable LD_LIBRARY_PATH, the paths listed in DT_RUNPATH, the libraries listed in /etc/ld.so.cache, and finally /usr/lib and /lib. It checks in that order and takes the first library found. At least on my linux box, LD_LIBRARY_PATH does NOT override the paths in DT_RPATH even though the documentation implies that it does. LD_LIBRARY_PATH does override DT_RUNPATH.
You CAN override the search path embedded using DT_RPATH by using the LD_PRELOAD environment variable. This variable contains a *whitespace-separated* list of libraries (not directories to search) to load prior to the search process. The listed libraries are loaded whether or not they are needed to resolve a dependency in the executable.
Finally, an ELF shared library can also have a DT_RPATH entry. This only impacts the search for shared libraries that are dependencies of the shared library and not the executable. As with the DT_RPATH entry in an ELF executable, this is not overridden by LD_LIBRARY_PATH but can be overridden using LD_PRELOAD as above.
On Mac OS X
A Mach-O executable can embed the full path name for each shared library (as well as rules for acceptable substitutes). This is called the "install name" for the library and it is included by default when building an executable. The install name for the library is NOT based on where the static linker (ld) found the library when the executable was built. The static linker (ld) extracts the install name from the shared library when building the executable. The install name of the shared library is set when building the shared library. When you build a shared library you should know where the library is going to be installed so that the install name is set correctly.
When looking for shared libraries, the dynamic linker (dyld) first scans the directories in DYLD_LIBRARY_PATH, then checks the location in the install name (which is per library), and finally checks the standard locations.
DYLD_LIBRARY_PATH successfully overrides the the path embedded in the executable.
Caveat 1: LD_LIBRARY_PATH has no runtime impact, but it does impact where the static linker looks for share libraries. It looks first in the directories specified using -L, the the directories in LD_LIBRARY_PATH, and finally in /lib, /usr/lib, & /usr/local/lib. This is particularly confusing because many configure scripts seem to ignore LD_LIBRARY_PATH and you can get inconsistent results from configure and gcc/ld on whether a library is present.
Caveat 2: Mac OS X has a set of compiler/linker switches for dealing with Frameworks (packages of shared libraries and include files). These are installed outside the typical *nix directory structure. These switches act like -I (to gcc) and -L (to ld). If you end up totally confused about where to find something, read up on this. The OpenGL and OpenAL headers and libraries are in Frameworks, for example.
ToDo: link to the MSDN page about how DLLs are found, and the details about manifests. Manifests provide a way to do rpath-like things, I think.
For Mac: The -rpath switch is not available on Mac OS X because it is superfluous. The default behavior of embedding a location for each individual shared library is at least as good. Cabal (and the GHC build process) should use their knowledge of the ultimate install location to set the install name when shared libraries are built. In-place compilation can override this with DYLD_LIBRARY_PATH
For Linux: On linux, we should be sure to use the --enable-new-dtags switch if we use -rpath. Otherwise we risk having paths that can't be overridden by LD_LIBRARY_PATH.