Bootsnap
Bootsnap is a library that plugs into Ruby, with optional support for YAML
,
to optimize and cache expensive computations. See How Does This Work.
Performance
- Discourse reports a boot time reduction of approximately 50%, from roughly 6 to 3 seconds on one machine;
- One of our smaller internal apps also sees a reduction of 50%, from 3.6 to 1.8 seconds;
- The core Shopify platform – a rather large monolithic application – boots about 75% faster, dropping from around 25s to 6.5s.
- In Shopify core (a large app), about 25% of this gain can be attributed to
compile_cache_*
features; 75% to path caching. This is fairly representative.
Usage
This gem works on macOS and Linux.
Add bootsnap
to your Gemfile
:
gem 'bootsnap', require: false
If you are using Rails, add this to config/boot.rb
immediately after require 'bundler/setup'
:
require 'bootsnap/setup'
Note that bootsnap writes to tmp/cache
(or the path specified by ENV['BOOTSNAP_CACHE_DIR']
),
and that directory must be writable. Rails will fail to
boot if it is not. If this is unacceptable (e.g. you are running in a read-only container and
unwilling to mount in a writable tmpdir), you should remove this line or wrap it in a conditional.
Note also that bootsnap will never clean up its own cache: this is left up to you. Depending on your
deployment strategy, you may need to periodically purge tmp/cache/bootsnap*
. If you notice deploys
getting progressively slower, this is almost certainly the cause.
It’s technically possible to simply specify gem 'bootsnap', require: 'bootsnap/setup'
, but it’s
important to load Bootsnap as early as possible to get maximum performance improvement.
You can see how this require works here.
If you are not using Rails, or if you are but want more control over things, add this to your
application setup immediately after require 'bundler/setup'
(i.e. as early as possible: the sooner
this is loaded, the sooner it can start optimizing things)
require 'bootsnap' env = ENV['RAILS_ENV'] || "development" Bootsnap.setup( cache_dir: 'tmp/cache', # Path to your cache ignore_directories: ['node_modules'], # Directory names to skip. development_mode: env == 'development', # Current working environment, e.g. RACK_ENV, RAILS_ENV, etc load_path_cache: true, # Optimize the LOAD_PATH with a cache compile_cache_iseq: true, # Compile Ruby code into ISeq cache, breaks coverage reporting. compile_cache_yaml: true, # Compile YAML into a cache readonly: true, # Use the caches but don't update them on miss or stale entries. )
Protip: You can replace require 'bootsnap'
with BootLib::Require.from_gem('bootsnap',
using this trick. This
'bootsnap')
will help optimize boot time further if you have an extremely large $LOAD_PATH
.
Note: Bootsnap and Spring are orthogonal tools. While Bootsnap
speeds up the loading of individual source files, Spring keeps a copy of a pre-booted Rails process
on hand to completely skip parts of the boot process the next time it’s needed. The two tools work
well together.
Environment variables
require 'bootsnap/setup'
behavior can be changed using environment variables:
BOOTSNAP_CACHE_DIR
allows to define the cache location.DISABLE_BOOTSNAP
allows to entirely disable bootsnap.DISABLE_BOOTSNAP_LOAD_PATH_CACHE
allows to disable load path caching.DISABLE_BOOTSNAP_COMPILE_CACHE
allows to disable ISeq and YAML caches.BOOTSNAP_READONLY
configure bootsnap to not update the cache on miss or stale entries.BOOTSNAP_LOG
configure bootsnap to log all caches misses to STDERR.BOOTSNAP_IGNORE_DIRECTORIES
a comma separated list of directories that shouldn’t be scanned. Useful when you have large directories of non-ruby files inside$LOAD_PATH
. It defaults to ignore any directory namednode_modules
.
Environments
All Bootsnap features are enabled in development, test, production, and all other environments according to the configuration in the setup. At Shopify, we use this gem safely in all environments without issue.
If you would like to disable any feature for a certain environment, we suggest changing the configuration to take into account the appropriate ENV var or configuration according to your needs.
Instrumentation
Bootsnap cache misses can be monitored though a callback:
Bootsnap.instrumentation = ->(event, path) { puts "#{event} #{path}" }
event
is either :miss
or :stale
. You can also call Bootsnap.log!
as a shortcut to
log all events to STDERR.
To turn instrumentation back off you can set it to nil:
Bootsnap.instrumentation = nil
How does this work?
Bootsnap optimizes methods to cache results of expensive computations, and can be grouped
into two broad categories:
- Path Pre-Scanning
Kernel#require
andKernel#load
are modified to eliminate$LOAD_PATH
scans.
- Compilation caching
RubyVM::InstructionSequence.load_iseq
is implemented to cache the result of ruby bytecode compilation.YAML.load_file
is modified to cache the result of loading a YAML object in MessagePack format (or Marshal, if the message uses types unsupported by MessagePack).
Path Pre-Scanning
(This work is a minor evolution of bootscale).
Upon initialization of bootsnap or modification of the path (e.g. $LOAD_PATH
),
Bootsnap::LoadPathCache
will fetch a list of requirable entries from a cache, or, if necessary,
perform a full scan and cache the result.
Later, when we run (e.g.) require 'foo'
, ruby would iterate through every item on our
$LOAD_PATH
['x', 'y', ...]
, looking for x/foo.rb
, y/foo.rb
, and so on. Bootsnap instead
looks at all the cached requirables for each $LOAD_PATH
entry and substitutes the full expanded
path of the match ruby would have eventually chosen.
If you look at the syscalls generated by this behaviour, the net effect is that what would
previously look like this:
open x/foo.rb # (fail) # (imagine this with 500 $LOAD_PATH entries instead of two) open y/foo.rb # (success) close y/foo.rb open y/foo.rb ...
becomes this:
open y/foo.rb ...
The following diagram flowcharts the overrides that make the *_path_cache
features work.
Bootsnap::LoadPathCache::Cache
source,
this diagram may help clarify how entry resolution works:
It’s also important to note how expensive LoadError
s can be. If ruby invokes
require 'something'
, but that file isn’t on $LOAD_PATH
, it takes 2 *
filesystem accesses to determine that. Bootsnap caches this
$LOAD_PATH.length
result too, raising a LoadError
without touching the filesystem at all.
Compilation Caching
(A more readable implementation of this concept can be found in
yomikomu).
Ruby has complex grammar and parsing it is not a particularly cheap operation. Since 1.9, Ruby has
translated ruby source to an internal bytecode format, which is then executed by the Ruby VM. Since
2.3.0, Ruby exposes an API that
allows caching that bytecode. This allows us to bypass the relatively-expensive compilation step on
subsequent loads of the same file.
We also noticed that we spend a lot of time loading YAML documents during our application boot, and
that MessagePack and Marshal are much faster at deserialization than YAML, even with a fast
implementation. We use the same strategy of compilation caching for YAML documents, with the
equivalent of Ruby’s “bytecode” format being a MessagePack document (or, in the case of YAML
documents with types unsupported by MessagePack, a Marshal stream).
These compilation results are stored in a cache directory, with filenames generated by taking a hash
of the full expanded path of the input file (FNV1a-64).
Whereas before, the sequence of syscalls generated to require
a file would look like:
open /c/foo.rb -> m fstat64 m close m open /c/foo.rb -> o fstat64 o fstat64 o read o read o ... close o
With bootsnap, we get:
open /c/foo.rb -> n fstat64 n close n open /c/foo.rb -> n fstat64 n open (cache) -> m read m read m close m close n
This may look worse at a glance, but underlies a large performance difference.
(The first three syscalls in both listings – open
, fstat64
, close
– are not inherently
useful. This ruby patch optimizes them out when coupled
with bootsnap.)
Bootsnap writes a cache file containing a 64 byte header followed by the cache contents. The header
is a cache key including several fields:
version
, hardcoded in bootsnap. Essentially a schema version;ruby_platform
, A hash ofRUBY_PLATFORM
(e.g. x86_64-linux-gnu) variable.compile_option
, which changes withRubyVM::InstructionSequence.compile_option
does;ruby_revision
, A hash ofRUBY_REVISION
, the exact version of Ruby;size
, the size of the source file;mtime
, the last-modification timestamp of the source file when it was compiled; anddata_size
, the number of bytes following the header, which we need to read it into a buffer.
If the key is valid, the result is loaded from the value. Otherwise, it is regenerated and clobbers
the current cache.
Putting it all together
Imagine we have this file structure:
/ ├── a ├── b └── c └── foo.rb
And this $LOAD_PATH
:
["/a", "/b", "/c"]
When we call require 'foo'
without bootsnap, Ruby would generate this sequence of syscalls:
open /a/foo.rb -> -1 open /b/foo.rb -> -1 open /c/foo.rb -> n close n open /c/foo.rb -> m fstat64 m close m open /c/foo.rb -> o fstat64 o fstat64 o read o read o ... close o
With bootsnap, we get:
open /c/foo.rb -> n fstat64 n close n open /c/foo.rb -> n fstat64 n open (cache) -> m read m read m close m close n
If we call require 'nope'
without bootsnap, we get:
open /a/nope.rb -> -1 open /b/nope.rb -> -1 open /c/nope.rb -> -1 open /a/nope.bundle -> -1 open /b/nope.bundle -> -1 open /c/nope.bundle -> -1
…and if we call require 'nope'
with bootsnap, we get…
# (nothing!)
Precompilation
In development environments the bootsnap compilation cache is generated on the fly when source files are loaded.
But in production environments, such as docker images, you might need to precompile the cache.
To do so you can use the bootsnap precompile
command.
Example:
$ bundle exec bootsnap precompile --gemfile app/ lib/
When not to use Bootsnap
Alternative engines: Bootsnap is pretty reliant on MRI features, and parts are disabled entirely on alternative ruby
engines.
Non-local filesystems: Bootsnap depends on tmp/cache
(or whatever you set its cache directory
to) being on a relatively fast filesystem. If you put it on a network mount, bootsnap is very likely
to slow your application down quite a lot.