#!/usr/bin/perl use strict; use warnings; use IPC::Open2; # An example hook script to integrate Watchman # (https://facebook.github.io/watchman/) with git to speed up detecting # new and modified files. # # The hook is passed a version (currently 1) and a time in nanoseconds # formatted as a string and outputs to stdout all files that have been # modified since the given time. Paths must be relative to the root of # the working tree and separated by a single NUL. # # To enable this hook, rename this file to "query-watchman" and set # 'git config core.fsmonitor .git/hooks/query-watchman' # my ($version, $time) = @ARGV; #print STDERR "$0 $version $time\n"; # Check the hook interface version if ($version == 1) { # convert nanoseconds to seconds $time = int $time / 1000000000; } else { die "Unsupported query-fsmonitor hook version '$version'.\n" . "Falling back to scanning...\n"; } my $git_work_tree; if ($^O =~ 'msys' || $^O =~ 'cygwin') { $git_work_tree = Win32::GetCwd(); $git_work_tree =~ tr/\\/\//; } else { require Cwd; $git_work_tree = Cwd::cwd(); } my $retry = 1; launch_watchman(); sub launch_watchman { my $pid = open2(\*CHLD_OUT, \*CHLD_IN, 'watchman -j') or die "open2() failed: $!\n" . "Falling back to scanning...\n"; # In the query expression below we're asking for names of files that # changed since $time but were not transient (ie created after # $time but no longer exist). # # To accomplish this, we're using the "since" generator to use the # recency index to select candidate nodes and "fields" to limit the # output to file names only. Then we're using the "expression" term to # further constrain the results. # # The category of transient files that we want to ignore will have a # creation clock (cclock) newer than $time_t value and will also not # currently exist. my $query = <<" END"; ["query", "$git_work_tree", { "since": $time, "fields": ["name"], "expression": ["not", ["allof", ["since", $time, "cclock"], ["not", "exists"]]] }] END open (my $fh, ">", ".git/watchman-query.json"); print $fh $query; close $fh; print CHLD_IN $query; close CHLD_IN; my $response = do {local $/; <CHLD_OUT>}; open ($fh, ">", ".git/watchman-response.json"); print $fh $response; close $fh; die "Watchman: command returned no output.\n" . "Falling back to scanning...\n" if $response eq ""; die "Watchman: command returned invalid output: $response\n" . "Falling back to scanning...\n" unless $response =~ /^\{/; my $json_pkg; eval { require JSON::XS; $json_pkg = "JSON::XS"; 1; } or do { require JSON::PP; $json_pkg = "JSON::PP"; }; my $o = $json_pkg->new->utf8->decode($response); if ($retry > 0 and $o->{error} and $o->{error} =~ m/unable to resolve root .* directory (.*) is not watched/) { print STDERR "Adding '$git_work_tree' to watchman's watch list.\n"; $retry--; qx/watchman watch "$git_work_tree"/; die "Failed to make watchman watch '$git_work_tree'.\n" . "Falling back to scanning...\n" if $? != 0; # Watchman will always return all files on the first query so # return the fast "everything is dirty" flag to git and do the # Watchman query just to get it over with now so we won't pay # the cost in git to look up each individual file. open ($fh, ">", ".git/watchman-output.out"); print "/\0"; close $fh; print "/\0"; eval { launch_watchman() }; exit 0; } die "Watchman: $o->{error}.\n" . "Falling back to scanning...\n" if $o->{error}; open ($fh, ">", ".git/watchman-output.out"); binmode $fh, ":utf8"; print $fh @{$o->{files}}; close $fh; binmode STDOUT, ":utf8"; local $, = "\0"; print @{$o->{files}}; }