xref: /freebsd/contrib/llvm-project/lld/docs/index.rst (revision cfd6422a5217410fbd66f7a7a8a64d9d85e61229)
1LLD - The LLVM Linker
2=====================
3
4LLD is a linker from the LLVM project that is a drop-in replacement
5for system linkers and runs much faster than them. It also provides
6features that are useful for toolchain developers.
7
8The linker supports ELF (Unix), PE/COFF (Windows), Mach-O (macOS) and
9WebAssembly in descending order of completeness. Internally, LLD consists of
10several different linkers. The ELF port is the one that will be described in
11this document. The PE/COFF port is complete, including
12Windows debug info (PDB) support. The WebAssembly port is still a work in
13progress (See :doc:`WebAssembly`).  The Mach-O port is built based on a
14different architecture than the others. For the details about Mach-O, please
15read :doc:`AtomLLD`.
16
17Features
18--------
19
20- LLD is a drop-in replacement for the GNU linkers that accepts the
21  same command line arguments and linker scripts as GNU.
22
23  We are currently working closely with the FreeBSD project to make
24  LLD default system linker in future versions of the operating
25  system, so we are serious about addressing compatibility issues. As
26  of February 2017, LLD is able to link the entire FreeBSD/amd64 base
27  system including the kernel. With a few work-in-progress patches it
28  can link approximately 95% of the ports collection on AMD64. For the
29  details, see `FreeBSD quarterly status report
30  <https://www.freebsd.org/news/status/report-2016-10-2016-12.html#Using-LLVM%27s-LLD-Linker-as-FreeBSD%27s-System-Linker>`_.
31
32- LLD is very fast. When you link a large program on a multicore
33  machine, you can expect that LLD runs more than twice as fast as the GNU
34  gold linker. Your mileage may vary, though.
35
36- It supports various CPUs/ABIs including AArch64, AMDGPU, ARM, Hexagon, MIPS
37  32/64 big/little-endian, PowerPC, PowerPC64, RISC-V, SPARC V9, x86-32 and
38  x86-64. Among these, AArch64, ARM (>= v6), PowerPC, PowerPC64, x86-32 and
39  x86-64 have production quality. MIPS seems decent too.
40
41- It is always a cross-linker, meaning that it always supports all the
42  above targets however it was built. In fact, we don't provide a
43  build-time option to enable/disable each target. This should make it
44  easy to use our linker as part of a cross-compile toolchain.
45
46- You can embed LLD in your program to eliminate dependencies on
47  external linkers. All you have to do is to construct object files
48  and command line arguments just like you would do to invoke an
49  external linker and then call the linker's main function,
50  ``lld::elf::link``, from your code.
51
52- It is small. We are using LLVM libObject library to read from object
53  files, so it is not a completely fair comparison, but as of February
54  2017, LLD/ELF consists only of 21k lines of C++ code while GNU gold
55  consists of 198k lines of C++ code.
56
57- Link-time optimization (LTO) is supported by default. Essentially,
58  all you have to do to do LTO is to pass the ``-flto`` option to clang.
59  Then clang creates object files not in the native object file format
60  but in LLVM bitcode format. LLD reads bitcode object files, compile
61  them using LLVM and emit an output file. Because in this way LLD can
62  see the entire program, it can do the whole program optimization.
63
64- Some very old features for ancient Unix systems (pre-90s or even
65  before that) have been removed. Some default settings have been
66  tuned for the 21st century. For example, the stack is marked as
67  non-executable by default to tighten security.
68
69Performance
70-----------
71
72This is a link time comparison on a 2-socket 20-core 40-thread Xeon
73E5-2680 2.80 GHz machine with an SSD drive. We ran gold and lld with
74or without multi-threading support. To disable multi-threading, we
75added ``-no-threads`` to the command lines.
76
77============  ===========  ============  ====================  ==================  ===============  =============
78Program       Output size  GNU ld        GNU gold w/o threads  GNU gold w/threads  lld w/o threads  lld w/threads
79ffmpeg dbg    92 MiB       1.72s         1.16s                 1.01s               0.60s            0.35s
80mysqld dbg    154 MiB      8.50s         2.96s                 2.68s               1.06s            0.68s
81clang dbg     1.67 GiB     104.03s       34.18s                23.49s              14.82s           5.28s
82chromium dbg  1.14 GiB     209.05s [1]_  64.70s                60.82s              27.60s           16.70s
83============  ===========  ============  ====================  ==================  ===============  =============
84
85As you can see, lld is significantly faster than GNU linkers.
86Note that this is just a benchmark result of our environment.
87Depending on number of available cores, available amount of memory or
88disk latency/throughput, your results may vary.
89
90.. [1] Since GNU ld doesn't support the ``-icf=all`` and
91       ``-gdb-index`` options, we removed them from the command line
92       for GNU ld. GNU ld would have been slower than this if it had
93       these options.
94
95Build
96-----
97
98If you have already checked out LLVM using SVN, you can check out LLD
99under ``tools`` directory just like you probably did for clang. For the
100details, see `Getting Started with the LLVM System
101<https://llvm.org/docs/GettingStarted.html>`_.
102
103If you haven't checked out LLVM, the easiest way to build LLD is to
104check out the entire LLVM projects/sub-projects from a git mirror and
105build that tree. You need `cmake` and of course a C++ compiler.
106
107.. code-block:: console
108
109  $ git clone https://github.com/llvm/llvm-project llvm-project
110  $ mkdir build
111  $ cd build
112  $ cmake -DCMAKE_BUILD_TYPE=Release -DLLVM_ENABLE_PROJECTS=lld -DCMAKE_INSTALL_PREFIX=/usr/local ../llvm-project/llvm
113  $ make install
114
115Using LLD
116---------
117
118LLD is installed as ``ld.lld``. On Unix, linkers are invoked by
119compiler drivers, so you are not expected to use that command
120directly. There are a few ways to tell compiler drivers to use ld.lld
121instead of the default linker.
122
123The easiest way to do that is to overwrite the default linker. After
124installing LLD to somewhere on your disk, you can create a symbolic
125link by doing ``ln -s /path/to/ld.lld /usr/bin/ld`` so that
126``/usr/bin/ld`` is resolved to LLD.
127
128If you don't want to change the system setting, you can use clang's
129``-fuse-ld`` option. In this way, you want to set ``-fuse-ld=lld`` to
130LDFLAGS when building your programs.
131
132LLD leaves its name and version number to a ``.comment`` section in an
133output. If you are in doubt whether you are successfully using LLD or
134not, run ``readelf --string-dump .comment <output-file>`` and examine the
135output. If the string "Linker: LLD" is included in the output, you are
136using LLD.
137
138History
139-------
140
141Here is a brief project history of the ELF and COFF ports.
142
143- May 2015: We decided to rewrite the COFF linker and did that.
144  Noticed that the new linker is much faster than the MSVC linker.
145
146- July 2015: The new ELF port was developed based on the COFF linker
147  architecture.
148
149- September 2015: The first patches to support MIPS and AArch64 landed.
150
151- October 2015: Succeeded to self-host the ELF port. We have noticed
152  that the linker was faster than the GNU linkers, but we weren't sure
153  at the time if we would be able to keep the gap as we would add more
154  features to the linker.
155
156- July 2016: Started working on improving the linker script support.
157
158- December 2016: Succeeded to build the entire FreeBSD base system
159  including the kernel. We had widen the performance gap against the
160  GNU linkers.
161
162Internals
163---------
164
165For the internals of the linker, please read :doc:`NewLLD`. It is a bit
166outdated but the fundamental concepts remain valid. We'll update the
167document soon.
168
169.. toctree::
170   :maxdepth: 1
171
172   NewLLD
173   AtomLLD
174   WebAssembly
175   windows_support
176   missingkeyfunction
177   Partitions
178   ReleaseNotes
179   ELF/linker_script
180