Commit Graph

6 Commits

Author SHA1 Message Date
Rui Ueyama 6872455c6d COFF: Make test commands shorter. NFC.
llvm-svn: 244227
2015-08-06 16:47:46 +00:00
Rui Ueyama 251b0e268b COFF: Remove the old COFF linker and make link an alias to link2.
It's time to remove old COFF linker because the new one is now complete.

llvm-svn: 244226
2015-08-06 16:19:35 +00:00
Rui Ueyama 8d3010a1a6 COFF: Change the order of adding symbols to the symbol table.
Previously, the order of adding symbols to the symbol table was simple.
We have a list of all input files. We read each file from beginning of
the list and add all symbols in it to the symbol table.

This patch changes that order. Now all archive files are added to the
symbol table first, and then all the other object files are added.
This shouldn't change the behavior in single-threading, and make room
to parallelize in multi-threading.

In the first step, only lazy symbols are added to the symbol table
because archives contain only Lazy symbols. Member object files
found to be necessary are queued. In the second step, defined and
undefined symbols are added from object files. Adding an undefined
symbol to the symbol table may cause more member files to be added
to the queue. We simply continue reading all object files until the
queue is empty.

Finally, new archive or object files may be added to the queues by
object files' directive sections (which contain new command line
options).

The above process is repeated until we get no new files.

Symbols defined both in object files and in archives can make results
undeterministic. If an archive is read before an object, a new member
file gets linked, while in the other way, no new file would be added.
That is the most popular cause of an undeterministic result or linking
failure as I observed. Separating phases of adding lazy symbols and
undefined symbols makes that deterministic. Adding symbols in each
phase should be parallelizable.

llvm-svn: 241107
2015-06-30 19:35:21 +00:00
Rui Ueyama 45044f47d3 COFF: Fix logic to find default entry name or subsystem.
The previous logic to find default entry name or subsystem does not
seem correct (i.e. was not compatible with MSVC linker). Previously,
default entry name was inferred from CRT functions and user-defined
entry functions. Subsystem was inferred from CRT functions.

Default entry name and subsystem are now inferred based on the
following table. Note that we no longer use CRT functions to infer
them.

               Entry name           Subsystem
  main         mainCRTStartup       console
  wmain        wmainCRTStartup      console
  WinMain      WinMainCRTStartup    windows
  wWinMain     wWinMainCRTStartup   windows

llvm-svn: 240922
2015-06-29 01:03:53 +00:00
Rui Ueyama 32f8e1cb4e COFF: Change symbol resolution order for entry and /include.
We were resolving entry symbols and /include'd symbols after all other
symbols are resolved. But looks like it's too late. I found that it
causes some program to fail to link.

Let's say we have an object file A which defines symbols X and Y in an
archive. We also have another file B after A which defines X, Y and
_DLLMainCRTStartup in another archive. They conflict each other, so
either A or B can be linked.

If we have _DLLMainCRTStartup as an undefined symbol, file B is always
chosen. If not, there's a chance that A is chosen. If the linker
find it needs _DllMainCRTStartup after that, it's too late.

This patch adds undefined symbols to the symbol table as soon as
possible to fix the issue.

llvm-svn: 240757
2015-06-26 03:44:00 +00:00
Rui Ueyama 573bf7de9c COFF: Continue reading object files until converge.
In this linker model, adding an undefined symbol may trigger chain
reactions. It may trigger a Lazy symbol to read a new file.
A new file may contain a directive section, which may contain various
command line options.

Previously, we didn't handle chain reactions well. We visited /include'd
symbols only once, so newly-added /include symbols were ignored.
This patch fixes that bug.

Now, the symbol table is versioned; every time the symbol table is
updated, the version number is incremented. We repeat adding undefined
symbols until the version number does not change. It is guaranteed to
converge -- the number of undefined symbol in the system is finite,
and adding the same undefined symbol more than once is basically no-op.

llvm-svn: 240177
2015-06-19 21:12:48 +00:00