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180 lines
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ReStructuredText
180 lines
7.9 KiB
ReStructuredText
.. _slow:
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============================
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Why the Build System is Slow
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============================
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A common complaint about the build system is that it's slow. There are
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many reasons contributing to its slowness. We will attempt to document
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them here.
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First, it is important to distinguish between a :term:`clobber build`
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and an :term:`incremental build`. The reasons for why each are slow can
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be different.
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The build does a lot of work
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============================
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It may not be obvious, but the main reason the build system is slow is
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because it does a lot of work! The source tree consists of a few
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thousand C++ files. On a modern machine, we spend over 120 minutes of CPU
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core time compiling files! So, if you are looking for the root cause of
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slow clobber builds, look at the sheer volume of C++ files in the tree.
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You don't have enough CPU cores and MHz
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=======================================
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The build should be CPU bound. If the build system maintainers are
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optimizing the build system perfectly, every CPU core in your machine
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should be 100% saturated during a build. While this isn't currently the
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case (keep reading below), generally speaking, the more CPU cores you
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have in your machine and the more total MHz in your machine, the better.
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**We highly recommend building with no fewer than 4 physical CPU
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cores.** Please note the *physical* in this sentence. Hyperthreaded
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cores (an Intel Core i7 will report 8 CPU cores but only 4 are physical
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for example) only yield at most a 1.25x speedup per core.
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We also recommend using the most modern CPU model possible. Haswell
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chips deliver much more performance per CPU cycle than say Sandy Bridge
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CPUs.
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This cause impacts both clobber and incremental builds.
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You are building with a slow I/O layer
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======================================
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The build system can be I/O bound if your I/O layer is slow. Linking
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libxul on some platforms and build architectures can perform gigabytes
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of I/O.
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To minimize the impact of slow I/O on build performance, **we highly
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recommend building with an SSD.** Power users with enough memory may opt
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to build from a RAM disk. Mechanical disks should be avoided if at all
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possible.
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Some may dispute the importance of an SSD on build times. It is true
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that the beneficial impact of an SSD can be mitigated if your system has
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lots of memory and the build files stay in the page cache. However,
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operating system memory management is complicated. You don't really have
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control over what or when something is evicted from the page cache.
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Therefore, unless your machine is a dedicated build machine or you have
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more memory than is needed by everything running on your machine,
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chances are you'll run into page cache eviction and you I/O layer will
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impact build performance. That being said, an SSD certainly doesn't
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hurt build times. And, anyone who has used a machine with an SSD will
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tell you how great of an investment it is for performance all around the
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operating system. On top of that, some automated tests are I/O bound
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(like those touching SQLite databases), so an SSD will make tests
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faster.
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This cause impacts both clobber and incremental builds.
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You don't have enough memory
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============================
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The build system allocates a lot of memory, especially when building
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many things in parallel. If you don't have enough free system memory,
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the build will cause swap activity, slowing down your system and the
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build. Even if you never get to the point of swapping, the build system
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performs a lot of I/O and having all accessed files in memory and the
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page cache can significantly reduce the influence of the I/O layer on
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the build system.
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**We recommend building with no less than 8 GB of system memory.** As
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always, the more memory you have, the better. For a bare bones machine
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doing nothing more than building the source tree, anything more than 16
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GB is likely entering the point of diminishing returns.
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This cause impacts both clobber and incremental builds.
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You are building on Windows
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===========================
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New processes on Windows are about a magnitude slower to spawn than on
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UNIX-y systems such as Linux. This is because Windows has optimized new
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threads while the \*NIX platforms typically optimize new processes.
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Anyway, the build system spawns thousands of new processes during a
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build. Parts of the build that rely on rapid spawning of new processes
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are slow on Windows as a result. This is most pronounced when running
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*configure*. The configure file is a giant shell script and shell
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scripts rely heavily on new processes. This is why configure on Windows
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can run over a minute slower on Windows.
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Another reason Windows builds are slower is because Windows lacks proper
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symlink support. On systems that support symlinks, we can generate a
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file into a staging area then symlink it into the final directory very
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quickly. On Windows, we have to perform a full file copy. This incurs
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much more I/O. And if done poorly, can muck with file modification
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times, messing up build dependencies. As of the summer of 2013, the
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impact of symlinks is being mitigated through the use
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of an :term:`install manifest`.
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These issues impact both clobber and incremental builds.
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Recursive make traversal is slow
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================================
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The build system has traditionally been built by employing recursive
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make. Recursive make involves make iterating through directories / make
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files sequentially and executing each in turn. This is inefficient for
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directories containing few targets/tasks because make could be *starved*
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for work when processing these directories. Any time make is starved,
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the build isn't using all available CPU cycles and the build is slower
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as a result.
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Work has started in bug 907365 to fix this issue by changing the way
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make traverses all the make files.
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The impact of slow recursive make traversal is mostly felt on
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incremental builds. Traditionally, most of the wall time during a
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no-op build is spent in make traversal.
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make is inefficient
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===================
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Compared to modern build backends like Tup or Ninja, make is slow and
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inefficient. We can only make make so fast. At some point, we'll hit a
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performance plateau and will need to use a different tool to make builds
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faster.
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Please note that clobber and incremental builds are different. A clobber
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build with make will likely be as fast as a clobber build with e.g. Tup.
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However, Tup should vastly outperform make when it comes to incremental
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builds. Therefore, this issue is mostly seen when performing incremental
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builds.
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C++ header dependency hell
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==========================
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Modifying a *.h* file can have significant impact on the build system.
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If you modify a *.h* that is used by 1000 C++ files, all of those 1000
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C++ files will be recompiled.
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Our code base has traditionally been sloppy managing the impact of
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changed headers on build performance. Bug 785103 tracks improving the
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situation.
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This issue mostly impacts the times of an :term:`incremental build`.
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A search/indexing service on your machine is running
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====================================================
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Many operating systems have a background service that automatically
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indexes filesystem content to make searching faster. On Windows, you
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have the Windows Search Service. On OS X, you have Finder.
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These background services sometimes take a keen interest in the files
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being produced as part of the build. Since the build system produces
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hundreds of megabytes or even a few gigabytes of file data, you can
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imagine how much work this is to index! If this work is being performed
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while the build is running, your build will be slower.
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OS X's Finder is notorious for indexing when the build is running. And,
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it has a tendency to suck up a whole CPU core. This can make builds
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several minutes slower. If you build with ``mach`` and have the optional
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``psutil`` package built (it requires Python development headers - see
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:ref:`python` for more) and Finder is running during a build, mach will
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print a warning at the end of the build, complete with instructions on
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how to fix it.
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