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While working on #634, it's useful to be able to simulate caching policies without having to write all the C++ to actually run them. Here's a terrible little Perl script that can probably do most of what you might want.
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#!/usr/bin/env perl | ||
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# This is not a place of honor. No highly esteemed deed is commemorated here. | ||
# You'll definitely want to change which bits of this are commented out. | ||
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# A simplistic approximation of snmalloc caching and message passing. We | ||
# assume that, once built, a message is not changed (e.g., not combined with | ||
# others) until it is consumed by the recipient, regardless of however many | ||
# hops it makes through the network. Thus, we need only track how many | ||
# messages each source sends into the network. | ||
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# Assuming $LOG holds the stream of SNMALLOC_TRACING messages, you can use | ||
# something like this to run this "simulator": | ||
# | ||
# pv $LOG | perl ./remotecache-analyse.pl | tail | ||
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use strict; | ||
use English; | ||
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use Data::Dumper qw(Dumper); | ||
$Data::Dumper::Terse = 1; | ||
$Data::Dumper::Indent = 1; | ||
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use Hash::Util qw(hash_value); | ||
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my $total_messages = 0; | ||
my $max_rings = 0; | ||
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# tid -> | ||
# { messages => [[object]] | ||
# , assembling => slab -> [object] | ||
# , kv => 'a } | ||
my $cache_by_tid = {}; | ||
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sub slab_hash($) { | ||
my ($slab) = @_; | ||
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# # Perl's built in hash function | ||
# # If you're using this, probably also set PERL_HASH_SEED in the environment | ||
# return hash_value($slab) & 0x3; | ||
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# # Sample some meaningful bits of allocator and slab | ||
# return hex($slab) & 0x80040; | ||
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# # https://github.com/skeeto/hash-prospector | ||
use integer; | ||
my $slabh = hex($slab); | ||
$slabh ^= $slabh >> 16; | ||
$slabh = $slabh * 0x7feb352d; | ||
$slabh ^= $slabh >> 15; | ||
$slabh *= 0x846ca68b; | ||
$slabh ^= $slabh >> 16; | ||
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# return $slabh & 0x0030_0000; | ||
return $slabh & 0x3; | ||
} | ||
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sub cache_evict($$$) { | ||
my ($msgs, $cache, $key) = @_; | ||
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push @{$msgs}, $$cache{$key}; | ||
delete $$cache{$key}; | ||
} | ||
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sub cache_insert($$$) { | ||
my ($tid, $slab, $obj) = @_; | ||
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if (not exists $$cache_by_tid{$tid}) { $$cache_by_tid{$tid} = { }; } | ||
my $tc = $$cache_by_tid{$tid}; | ||
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if (not exists $$tc{'messages'}) { $$tc{'messages'} = []; } | ||
if (not exists $$tc{'assembling'}) { $$tc{'assembling'} = {}; } | ||
if (not exists $$tc{'kv'}) { $$tc{'kv'} = {}; } | ||
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# No caching, just queue everything as a message | ||
# { | ||
# push @{$$tc{'messages'}}, $obj; | ||
# return; | ||
# } | ||
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# Otherwise, we maintain a set of "assembling" rings... | ||
my $arings = $$tc{'assembling'}; | ||
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# We can count how many rings we're tracking like this: | ||
{ | ||
my $nrings = scalar keys %{$arings}; | ||
if ($nrings > $max_rings) { $max_rings = $nrings; } | ||
} | ||
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# Direct-mapped cache using a hash of the slab | ||
{ | ||
my $kv = $$tc{'kv'}; | ||
my $slabh = slab_hash($slab); | ||
if (exists $$kv{$slabh} and $$kv{$slabh} ne $slab) | ||
{ | ||
cache_evict($$tc{'messages'}, $arings, $slabh); | ||
delete $$kv{$slabh}; | ||
} | ||
if (not exists $$kv{$slabh}) | ||
{ | ||
$$kv{$slabh} = $slab; | ||
$$arings{$slabh} = [ $obj ]; | ||
} | ||
else | ||
{ | ||
push @{$$arings{$slabh}}, $obj; | ||
} | ||
return; | ||
} | ||
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# # Very primitive associative cache | ||
# { | ||
# if (exists $$arings{$slab}) | ||
# { | ||
# push @{$$arings{$slab}}, $obj; | ||
# } | ||
# else | ||
# { | ||
# # # Eviction policy. If none, this will give "perfect" reassembly; | ||
# # # otherwise, this implements full associtivity. Other strategies | ||
# # # are perhaps sensible as well. | ||
# # if (scalar keys %{$arings} >= 4) | ||
# # { | ||
# # my $key = | ||
# # (sort | ||
# # # { $a cmp $b } # address | ||
# # { (scalar $$arings{$a}) <=> (scalar $$arings{$b}) | ||
# # || ($a cmp $b) } # size stabilized by address | ||
# # (keys %{$arings}))[-1]; | ||
# # # print "Tid ", $tid, " evicting ", $key, " for ", $slab, | ||
# # # " from ", (join ', ', sort keys %{$arings}), "\n"; | ||
# # cache_evict ($$tc{'messages'}, $arings, $key); | ||
# # } | ||
# $$arings{$slab} = [ $obj ]; | ||
# } | ||
# return; | ||
# } | ||
} | ||
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sub cache_post($) { | ||
my ($tid) = @_; | ||
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my $tc = $$cache_by_tid{$tid}; | ||
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# Commit all assembling messages now | ||
foreach my $aslab (keys %{$$tc{'assembling'}}) | ||
{ | ||
push @{$$tc{'messages'}}, $$tc{'assembling'}{$aslab}; | ||
} | ||
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my $messages = (scalar @{$$tc{'messages'}}); | ||
$total_messages += $messages; | ||
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# print "Post $tid ", $messages, "\n"; | ||
# delete $$tc{'assembling'}; # cosmetic improvement to printout | ||
# print Dumper($$cache_by_tid{$tid}); | ||
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delete $$cache_by_tid{$tid}; | ||
} | ||
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while (my $line = <>) | ||
{ | ||
chomp $line; | ||
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if ($line =~ /(0x.*): Remote dealloc fast (0x.*) \(.*, (0x.*)\)/) | ||
{ | ||
cache_insert($1, $3, $2); | ||
} | ||
elsif ($line =~ /(0x.*): Remote dealloc post (0x.*) \(.*, (0x.*)\)/) | ||
{ | ||
cache_insert($1, $3, $2); | ||
cache_post($1); | ||
} | ||
} | ||
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print "Max rings: $max_rings\n"; | ||
print "Total messages: $total_messages\n"; |