ruby/yjit.rb

500 строки
20 KiB
Ruby

# frozen_string_literal: true
# :markup: markdown
# This module allows for introspection of \YJIT, CRuby's just-in-time compiler.
# Everything in the module is highly implementation specific and the API might
# be less stable compared to the standard library.
#
# This module may not exist if \YJIT does not support the particular platform
# for which CRuby is built.
module RubyVM::YJIT
# Check if \YJIT is enabled.
def self.enabled?
Primitive.cexpr! 'RBOOL(rb_yjit_enabled_p)'
end
# Check if `--yjit-stats` is used.
def self.stats_enabled?
Primitive.rb_yjit_stats_enabled_p
end
# Check if rb_yjit_trace_exit_locations_enabled_p is enabled.
def self.trace_exit_locations_enabled? # :nodoc:
Primitive.rb_yjit_trace_exit_locations_enabled_p
end
# Discard statistics collected for `--yjit-stats`.
def self.reset_stats!
Primitive.rb_yjit_reset_stats_bang
end
# Enable \YJIT compilation. `stats` option decides whether to enable \YJIT stats or not.
#
# * `false`: Disable stats.
# * `true`: Enable stats. Print stats at exit.
# * `:quiet`: Enable stats. Do not print stats at exit.
def self.enable(stats: false)
return false if enabled?
at_exit { print_and_dump_stats } if stats
Primitive.rb_yjit_enable(stats, stats != :quiet)
end
# If --yjit-trace-exits is enabled parse the hashes from
# Primitive.rb_yjit_get_exit_locations into a format readable
# by Stackprof. This will allow us to find the exact location of a
# side exit in YJIT based on the instruction that is exiting.
def self.exit_locations # :nodoc:
return unless trace_exit_locations_enabled?
results = Primitive.rb_yjit_get_exit_locations
raw_samples = results[:raw].dup
line_samples = results[:lines].dup
frames = results[:frames].dup
samples_count = 0
# Loop through the instructions and set the frame hash with the data.
# We use nonexistent.def for the file name, otherwise insns.def will be displayed
# and that information isn't useful in this context.
RubyVM::INSTRUCTION_NAMES.each_with_index do |name, frame_id|
frame_hash = { samples: 0, total_samples: 0, edges: {}, name: name, file: "nonexistent.def", line: nil, lines: {} }
results[:frames][frame_id] = frame_hash
frames[frame_id] = frame_hash
end
# Loop through the raw_samples and build the hashes for StackProf.
# The loop is based off an example in the StackProf documentation and therefore
# this functionality can only work with that library.
#
# Raw Samples:
# [ length, frame1, frame2, frameN, ..., instruction, count
#
# Line Samples
# [ length, line_1, line_2, line_n, ..., dummy value, count
i = 0
while i < raw_samples.length
stack_length = raw_samples[i]
i += 1 # consume the stack length
sample_count = raw_samples[i + stack_length]
prev_frame_id = nil
stack_length.times do |idx|
idx += i
frame_id = raw_samples[idx]
if prev_frame_id
prev_frame = frames[prev_frame_id]
prev_frame[:edges][frame_id] ||= 0
prev_frame[:edges][frame_id] += sample_count
end
frame_info = frames[frame_id]
frame_info[:total_samples] += sample_count
frame_info[:lines][line_samples[idx]] ||= [0, 0]
frame_info[:lines][line_samples[idx]][0] += sample_count
prev_frame_id = frame_id
end
i += stack_length # consume the stack
top_frame_id = prev_frame_id
top_frame_line = 1
frames[top_frame_id][:samples] += sample_count
frames[top_frame_id][:lines] ||= {}
frames[top_frame_id][:lines][top_frame_line] ||= [0, 0]
frames[top_frame_id][:lines][top_frame_line][1] += sample_count
samples_count += sample_count
i += 1
end
results[:samples] = samples_count
# Set missed_samples and gc_samples to 0 as their values
# don't matter to us in this context.
results[:missed_samples] = 0
results[:gc_samples] = 0
results
end
# Marshal dumps exit locations to the given filename.
#
# Usage:
#
# If `--yjit-exit-locations` is passed, a file named
# "yjit_exit_locations.dump" will automatically be generated.
#
# If you want to collect traces manually, call `dump_exit_locations`
# directly.
#
# Note that calling this in a script will generate stats after the
# dump is created, so the stats data may include exits from the
# dump itself.
#
# In a script call:
#
# at_exit do
# RubyVM::YJIT.dump_exit_locations("my_file.dump")
# end
#
# Then run the file with the following options:
#
# ruby --yjit --yjit-trace-exits test.rb
#
# Once the code is done running, use Stackprof to read the dump file.
# See Stackprof documentation for options.
def self.dump_exit_locations(filename)
unless trace_exit_locations_enabled?
raise ArgumentError, "--yjit-trace-exits must be enabled to use dump_exit_locations."
end
File.binwrite(filename, Marshal.dump(RubyVM::YJIT.exit_locations))
end
# Return a hash for statistics generated for the `--yjit-stats` command line option.
# Return `nil` when option is not passed or unavailable.
def self.runtime_stats(context: false)
stats = Primitive.rb_yjit_get_stats(context)
return stats if stats.nil?
stats[:object_shape_count] = Primitive.object_shape_count
return stats unless Primitive.rb_yjit_stats_enabled_p
side_exits = total_exit_count(stats)
total_exits = side_exits + stats[:leave_interp_return]
# Number of instructions that finish executing in YJIT.
# See :count-placement: about the subtraction.
retired_in_yjit = stats[:yjit_insns_count] - side_exits
# Average length of instruction sequences executed by YJIT
avg_len_in_yjit = total_exits > 0 ? retired_in_yjit.to_f / total_exits : 0
# Proportion of instructions that retire in YJIT
total_insns_count = retired_in_yjit + stats[:vm_insns_count]
yjit_ratio_pct = 100.0 * retired_in_yjit.to_f / total_insns_count
stats[:total_insns_count] = total_insns_count
stats[:ratio_in_yjit] = yjit_ratio_pct
# Make those stats available in RubyVM::YJIT.runtime_stats as well
stats[:side_exit_count] = side_exits
stats[:total_exit_count] = total_exits
stats[:avg_len_in_yjit] = avg_len_in_yjit
stats
end
# Format and print out counters as a String. This returns a non-empty
# content only when `--yjit-stats` is enabled.
def self.stats_string
# Lazily require StringIO to avoid breaking miniruby
require 'stringio'
strio = StringIO.new
_print_stats(out: strio)
strio.string
end
# Produce disassembly for an iseq. This requires a `--enable-yjit=dev` build.
def self.disasm(iseq) # :nodoc:
# If a method or proc is passed in, get its iseq
iseq = RubyVM::InstructionSequence.of(iseq)
if self.enabled?
# Produce the disassembly string
# Include the YARV iseq disasm in the string for additional context
iseq.disasm + "\n" + Primitive.rb_yjit_disasm_iseq(iseq)
else
iseq.disasm
end
end
# Produce a list of instructions compiled by YJIT for an iseq
def self.insns_compiled(iseq) # :nodoc:
return nil unless self.enabled?
# If a method or proc is passed in, get its iseq
iseq = RubyVM::InstructionSequence.of(iseq)
Primitive.rb_yjit_insns_compiled(iseq)
end
# Discard existing compiled code to reclaim memory
# and allow for recompilations in the future.
def self.code_gc
Primitive.rb_yjit_code_gc
end
def self.simulate_oom! # :nodoc:
Primitive.rb_yjit_simulate_oom_bang
end
# Avoid calling a Ruby method here to not interfere with compilation tests
if Primitive.rb_yjit_stats_enabled_p
at_exit { print_and_dump_stats }
end
class << self # :stopdoc:
private
# Print stats and dump exit locations
def print_and_dump_stats
if Primitive.rb_yjit_print_stats_p
_print_stats
end
_dump_locations
end
def _dump_locations # :nodoc:
return unless trace_exit_locations_enabled?
filename = "yjit_exit_locations.dump"
dump_exit_locations(filename)
$stderr.puts("YJIT exit locations dumped to `#{filename}`.")
end
# Print a summary of reasons for adverse performance events (e.g. exits)
def _print_stats_reasons(stats, out) # :nodoc:
print_counters(stats, out: out, prefix: 'send_', prompt: 'method call fallback reasons: ')
print_counters(stats, out: out, prefix: 'invokeblock_', prompt: 'invokeblock fallback reasons: ')
print_counters(stats, out: out, prefix: 'invokesuper_', prompt: 'invokesuper fallback reasons: ')
print_counters(stats, out: out, prefix: 'guard_send_', prompt: 'method call exit reasons: ')
print_counters(stats, out: out, prefix: 'guard_invokeblock_', prompt: 'invokeblock exit reasons: ')
print_counters(stats, out: out, prefix: 'guard_invokesuper_', prompt: 'invokesuper exit reasons: ')
print_counters(stats, out: out, prefix: 'gbpp_', prompt: 'getblockparamproxy exit reasons: ')
print_counters(stats, out: out, prefix: 'getivar_', prompt: 'getinstancevariable exit reasons:')
print_counters(stats, out: out, prefix: 'setivar_', prompt: 'setinstancevariable exit reasons:')
%w[
branchif
branchnil
branchunless
definedivar
expandarray
invokebuiltin
jump
leave
objtostring
opt_aref
opt_aref_with
opt_aset
opt_case_dispatch
opt_div
opt_getconstant_path
opt_minus
opt_mod
opt_mult
opt_plus
opt_succ
setlocal
].each do |insn|
print_counters(stats, out: out, prefix: "#{insn}_", prompt: "#{insn} exit reasons:", optional: true)
end
print_counters(stats, out: out, prefix: 'lshift_', prompt: 'left shift (opt_ltlt) exit reasons: ')
print_counters(stats, out: out, prefix: 'rshift_', prompt: 'right shift (>>) exit reasons: ')
print_counters(stats, out: out, prefix: 'invalidate_', prompt: 'invalidation reasons: ')
end
# Format and print out counters
def _print_stats(out: $stderr) # :nodoc:
stats = runtime_stats(context: true)
return unless Primitive.rb_yjit_stats_enabled_p
out.puts("***YJIT: Printing YJIT statistics on exit***")
_print_stats_reasons(stats, out)
# Number of failed compiler invocations
compilation_failure = stats[:compilation_failure]
code_region_overhead = stats[:code_region_size] - (stats[:inline_code_size] + stats[:outlined_code_size])
out.puts "num_send: " + format_number(13, stats[:num_send])
out.puts "num_send_known_class: " + format_number_pct(13, stats[:num_send_known_class], stats[:num_send])
out.puts "num_send_polymorphic: " + format_number_pct(13, stats[:num_send_polymorphic], stats[:num_send])
out.puts "num_send_megamorphic: " + format_number_pct(13, stats[:send_megamorphic], stats[:num_send])
out.puts "num_send_dynamic: " + format_number_pct(13, stats[:num_send_dynamic], stats[:num_send])
out.puts "num_send_inline: " + format_number_pct(13, stats[:num_send_inline], stats[:num_send])
out.puts "num_send_leaf_builtin: " + format_number_pct(13, stats[:num_send_leaf_builtin], stats[:num_send])
out.puts "num_send_cfunc: " + format_number_pct(13, stats[:num_send_cfunc], stats[:num_send])
out.puts "num_send_cfunc_inline: " + format_number_pct(13, stats[:num_send_cfunc_inline], stats[:num_send_cfunc])
if stats[:num_send_x86_rel32] != 0 || stats[:num_send_x86_reg] != 0
out.puts "num_send_x86_rel32: " + format_number(13, stats[:num_send_x86_rel32])
out.puts "num_send_x86_reg: " + format_number(13, stats[:num_send_x86_reg])
end
out.puts "num_getivar_megamorphic: " + format_number(13, stats[:num_getivar_megamorphic])
out.puts "num_setivar_megamorphic: " + format_number(13, stats[:num_setivar_megamorphic])
out.puts "num_throw: " + format_number(13, stats[:num_throw])
out.puts "num_throw_break: " + format_number_pct(13, stats[:num_throw_break], stats[:num_throw])
out.puts "num_throw_retry: " + format_number_pct(13, stats[:num_throw_retry], stats[:num_throw])
out.puts "num_throw_return: " + format_number_pct(13, stats[:num_throw_return], stats[:num_throw])
out.puts "iseq_stack_too_large: " + format_number(13, stats[:iseq_stack_too_large])
out.puts "iseq_too_long: " + format_number(13, stats[:iseq_too_long])
out.puts "temp_reg_opnd: " + format_number(13, stats[:temp_reg_opnd])
out.puts "temp_mem_opnd: " + format_number(13, stats[:temp_mem_opnd])
out.puts "temp_spill: " + format_number(13, stats[:temp_spill])
out.puts "bindings_allocations: " + format_number(13, stats[:binding_allocations])
out.puts "bindings_set: " + format_number(13, stats[:binding_set])
out.puts "compilation_failure: " + format_number(13, compilation_failure) if compilation_failure != 0
out.puts "live_iseq_count: " + format_number(13, stats[:live_iseq_count])
out.puts "compiled_iseq_entry: " + format_number(13, stats[:compiled_iseq_entry])
out.puts "cold_iseq_entry: " + format_number_pct(13, stats[:cold_iseq_entry], stats[:compiled_iseq_entry] + stats[:cold_iseq_entry])
out.puts "compiled_iseq_count: " + format_number(13, stats[:compiled_iseq_count])
out.puts "compiled_blockid_count:" + format_number(13, stats[:compiled_blockid_count])
out.puts "compiled_block_count: " + format_number(13, stats[:compiled_block_count])
if stats[:compiled_blockid_count] != 0
out.puts "versions_per_block: " + format_number(13, "%4.3f" % (stats[:compiled_block_count].fdiv(stats[:compiled_blockid_count])))
end
out.puts "max_inline_versions: " + format_number(13, stats[:max_inline_versions])
out.puts "compiled_branch_count: " + format_number(13, stats[:compiled_branch_count])
out.puts "compile_time_ms: " + format_number(13, stats[:compile_time_ns] / (1000 * 1000))
out.puts "block_next_count: " + format_number(13, stats[:block_next_count])
out.puts "defer_count: " + format_number(13, stats[:defer_count])
out.puts "defer_empty_count: " + format_number(13, stats[:defer_empty_count])
out.puts "branch_insn_count: " + format_number(13, stats[:branch_insn_count])
out.puts "branch_known_count: " + format_number_pct(13, stats[:branch_known_count], stats[:branch_insn_count])
out.puts "freed_iseq_count: " + format_number(13, stats[:freed_iseq_count])
out.puts "invalidation_count: " + format_number(13, stats[:invalidation_count])
out.puts "constant_state_bumps: " + format_number(13, stats[:constant_state_bumps])
out.puts "inline_code_size: " + format_number(13, stats[:inline_code_size])
out.puts "outlined_code_size: " + format_number(13, stats[:outlined_code_size])
out.puts "code_region_size: " + format_number(13, stats[:code_region_size])
out.puts "code_region_overhead: " + format_number_pct(13, code_region_overhead, stats[:code_region_size])
out.puts "freed_code_size: " + format_number(13, stats[:freed_code_size])
out.puts "yjit_alloc_size: " + format_number(13, stats[:yjit_alloc_size]) if stats.key?(:yjit_alloc_size)
out.puts "live_context_size: " + format_number(13, stats[:live_context_size])
out.puts "live_context_count: " + format_number(13, stats[:live_context_count])
out.puts "live_page_count: " + format_number(13, stats[:live_page_count])
out.puts "freed_page_count: " + format_number(13, stats[:freed_page_count])
out.puts "code_gc_count: " + format_number(13, stats[:code_gc_count])
out.puts "num_gc_obj_refs: " + format_number(13, stats[:num_gc_obj_refs])
out.puts "object_shape_count: " + format_number(13, stats[:object_shape_count])
out.puts "side_exit_count: " + format_number(13, stats[:side_exit_count])
out.puts "total_exit_count: " + format_number(13, stats[:total_exit_count])
out.puts "total_insns_count: " + format_number(13, stats[:total_insns_count])
out.puts "vm_insns_count: " + format_number(13, stats[:vm_insns_count])
out.puts "yjit_insns_count: " + format_number(13, stats[:yjit_insns_count])
out.puts "ratio_in_yjit: " + ("%12.1f" % stats[:ratio_in_yjit]) + "%"
out.puts "avg_len_in_yjit: " + ("%13.1f" % stats[:avg_len_in_yjit])
print_sorted_exit_counts(stats, out: out, prefix: "exit_")
print_sorted_cfunc_calls(stats, out:out)
end
def print_sorted_cfunc_calls(stats, out:, how_many: 20, left_pad: 4) # :nodoc:
calls = stats[:cfunc_calls]
if calls.empty?
return
end
# Total number of cfunc calls
num_send_cfunc = stats[:num_send_cfunc]
# Sort calls by decreasing frequency and keep the top N
pairs = calls.map { |k,v| [k, v] }
pairs.sort_by! {|pair| pair[1] }
pairs.reverse!
pairs = pairs[0...how_many]
top_n_total = pairs.sum { |name, count| count }
top_n_pct = 100.0 * top_n_total / num_send_cfunc
longest_name_len = pairs.max_by { |name, count| name.length }.first.length
out.puts "Top-#{pairs.size} most frequent C calls (#{"%.1f" % top_n_pct}% of C calls):"
pairs.each do |name, count|
padding = longest_name_len + left_pad
padded_name = "%#{padding}s" % name
padded_count = format_number_pct(10, count, num_send_cfunc)
out.puts("#{padded_name}: #{padded_count}")
end
end
def print_sorted_exit_counts(stats, out:, prefix:, how_many: 20, left_pad: 4) # :nodoc:
total_exits = total_exit_count(stats)
if total_exits > 0
exits = []
stats.each do |k, v|
if k.start_with?(prefix)
exits.push [k.to_s.delete_prefix(prefix), v]
end
end
exits = exits.select { |_name, count| count > 0 }.max_by(how_many) { |_name, count| count }
top_n_total = exits.sum { |name, count| count }
top_n_exit_pct = 100.0 * top_n_total / total_exits
out.puts "Top-#{exits.size} most frequent exit ops (#{"%.1f" % top_n_exit_pct}% of exits):"
longest_insn_name_len = exits.max_by { |name, count| name.length }.first.length
exits.each do |name, count|
padding = longest_insn_name_len + left_pad
padded_name = "%#{padding}s" % name
padded_count = format_number_pct(10, count, total_exits)
out.puts("#{padded_name}: #{padded_count}")
end
else
out.puts "total_exits: " + format_number(10, total_exits)
end
end
def total_exit_count(stats, prefix: "exit_") # :nodoc:
total = 0
stats.each do |k,v|
total += v if k.start_with?(prefix)
end
total
end
def print_counters(counters, out:, prefix:, prompt:, optional: false) # :nodoc:
counters = counters.filter { |key, _| key.start_with?(prefix) }
counters.filter! { |_, value| value != 0 }
counters.transform_keys! { |key| key.to_s.delete_prefix(prefix) }
if counters.empty?
unless optional
out.puts(prompt)
out.puts(" (all relevant counters are zero)")
end
return
else
out.puts(prompt)
end
counters = counters.to_a
counters.sort_by! { |(_, counter_value)| counter_value }
longest_name_length = counters.max_by { |(name, _)| name.length }.first.length
total = counters.sum { |(_, counter_value)| counter_value }
counters.reverse_each do |(name, value)|
padded_name = name.rjust(longest_name_length, ' ')
padded_count = format_number_pct(10, value, total)
out.puts(" #{padded_name}: #{padded_count}")
end
end
# Format large numbers with comma separators for readability
def format_number(pad, number)
s = number.to_s
i = s.index('.') || s.size
s.insert(i -= 3, ',') while i > 3
s.rjust(pad, ' ')
end
# Format a number along with a percentage over a total value
def format_number_pct(pad, number, total)
padded_count = format_number(pad, number)
percentage = number.fdiv(total) * 100
formatted_pct = "%4.1f%%" % percentage
"#{padded_count} (#{formatted_pct})"
end
end
end