Feature #14104
closedRemove `trace` instructions
Description
Abstract¶
Remove trace
instructions from bytecode and it will improve performance, 10% faster.
Instead of trace
instruction, we add event information for each instruction.
In other words, we unified trace
instructions with the following instructions.
Backgroud¶
TracePoint
and old set_trace_func
method need to know which point they need to kick hooks at.
trace
VM instruction is inserted to represent such hook points and kicks hooks if needed.
It is easy to introduce hook points into bytecode.
However, this technique introduces some overhead on "no-hooks" situations (and I believe 99% of workloads does not need hooks, especially on production environment).
For example, compiled code of the following method has several trace
instructions.
def foo x
_y = x
end
Disasm output is here:
== disasm: #<ISeq:foo@<compiled>>=======================================
local table (size: 2, argc: 1 [opts: 0, rest: -1, post: 0, block: -1, kw: -1@-1, kwrest: -1])
[ 2] x<Arg> [ 1] _y
0000 trace 8 ( 1)
0002 trace 1
0004 getlocal x, 0
0007 dup
0008 setlocal _y, 0
0011 trace 16 ( 2)
0013 leave ( 1)
# disasm code is:
puts RubyVM::InstructionSequence.compile("def foo x
_y = x
end", nil, nil, 0, trace_instruction: true, operands_unification: false).disasm
You can see 3 trace
instructions on 0000, 0002 and 0011. They means hook points for :call, :line and :return events. It enables to support TracePoint
, but introduces 3 dispatches for useless instructions.
We can remove trace
instructions with the trace_instruction: true
compile option, but we can't turn on TracePoint
for such compiled ISeqs.
Proposal¶
Remove trace
instruction and introduce event flags as information for each instructions.
With same code above, we can get the following disasm code.
== disasm: #<ISeq:foo@<compiled>>=======================================
local table (size: 2, argc: 1 [opts: 0, rest: -1, post: 0, block: -1, kw: -1@-1, kwrest: -1])
[ 2] x<Arg> [ 1] _y
0000 getlocal x, 0 ( 1)[LiCa]
0003 dup
0004 setlocal _y, 0
0007 leave [Re]
0000 shows [LiCa]
, it means :line and :call events.
0007 shows [Re]
which represents a :return event.
It is too heavy if we check these event flags on each instruction dispatch.
So we introduce new instructions: trace_
prefix instructions such as trace_getlocal
and so on.
All normal instructions have corresponding trace_
prefix instructions (generated by the VM generator automatically).
If we need to enable TracePoint
(or set_trace_func
), then rewrite all of instruction sequences (ISeqs) in the heap from normal instructions to trace prefix instructions dynamically. trace_
prefix instructions check flags for an executing instruction and kick hooks if needed.
- Good:
- a. Low overhead for normal execution because we don't need to dispatch useless
trace
instructions. - b. We don't have
trace
instructions, so that it is easy to turn on tail call optimization flags. - c. We can enable/disable traces on small units.
- a. Low overhead for normal execution because we don't need to dispatch useless
- Bad:
- a. Big overhead to turn on/off
TracePoint
because we need to modify all of existing ISeqs. - b. Introducing a few incomatibilities for tracing.
- a. Big overhead to turn on/off
For (Bad-a) I believe nobody turn on and trun off tracepoints many times, so that turning on/off overhead is not so big impact.
For (Good-c), I need to explain more.
Current TracePoint
enables all of hooks for all methods, ISeqs. With this technique, however, we can select enable/disable the hooks in more small units, like files, classes, methods or a line. For example, we can enable the hooks only method named foo
. Now we have no interface to specify it, but we can design later.
Evaluation¶
require 'benchmark'
def foo n
end
N = 100_000_000
Benchmark.bm(10){|x|
x.report('trace off'){
N.times{
foo(10)
foo(10)
foo(10)
}
}
x.report('trace on'){
TracePoint.new{}.enable
N.times{
foo(10)
foo(10)
foo(10)
}
}
}
Currnt trunk:
user system total real
trace off 9.090678 0.000000 9.090678 ( 9.083007)
trace on 108.217320 0.005524 108.222844 (108.201941)
modified:
user system total real
trace off 6.647247 0.000000 6.647247 ( 6.641530)
trace on 93.405389 0.000000 93.405389 ( 93.404864)
Compatibility issues¶
With this change, we introduced a few incompatibilies:
- Line numbers on :return/:b_return events show the last executed lines, instead of
end
lines (withoutreturn
statement). -
begin
block doesn't show:line
events.
Updated by shevegen (Robert A. Heiler) about 7 years ago
user system total real
trace off 9.090678 0.000000 9.090678 ( 9.083007)
trace on 108.217320 0.005524 108.222844 (108.201941)
user system total real
trace off 6.647247 0.000000 6.647247 ( 6.641530)
trace on 93.405389 0.000000 93.405389 ( 93.404864)
\o/
Updated by ko1 (Koichi Sasada) about 7 years ago
Here is a result of benchmark result with
ruby ~/ruby/src/trunk/benchmark/driver.rb -e ruby_2_4::~/ruby/install/ruby_2_4/bin/ruby -e trunk_oct::~/ruby/install/trunk_r60079/bin/ruby -e trunk::~/ruby/install/trunk/bin/ruby -e modified::~/ruby/install/gitruby/bin/ruby -v -r 5
https://gist.github.com/anonymous/64b7e73e5972befc33a9acde09612f90
Updated by ko1 (Koichi Sasada) about 7 years ago
- Status changed from Open to Closed
Applied in changeset trunk|r60763.
remove trace
instruction. [Feature #14104]
-
tool/instruction.rb: create
trace_
prefix instructions. -
compile.c (ADD_TRACE): do not add
trace
instructions but add
TRACE link elements. TRACE elements will be unified with a next
instruction as instruction information. -
vm_trace.c (update_global_event_hook): modify all ISeqs when
hooks are enabled. -
iseq.c (rb_iseq_trace_set): added to toggle
trace_
instructions. -
vm_insnhelper.c (vm_trace): added.
This function is a body oftrace_
prefix instructions. -
vm_insnhelper.h (JUMP): save PC to a control frame.
-
insns.def (trace): removed.
-
vm_exec.h (INSN_ENTRY_SIG): add debug output (disabled).
Updated by vmakarov (Vladimir Makarov) about 7 years ago
ko1 (Koichi Sasada) wrote:
Abstract¶
Remove
trace
instructions from bytecode and it will improve performance, 10% faster.
Instead oftrace
instruction, we add event information for each instruction.
In other words, we unifiedtrace
instructions with the following instructions.
Hi, Koichi. I am very glad that you addressed this issue. The current implementation of tracing is just wasting CPU time. I thought about this too but my approach would be a different because I thought that I had to maintain the full compatibility of trace behaviour.
So I considered to remove and insert trace insns when the tracing is off or on. It requires to change branch offset, catch table offsets, and line tables. To speed up this, I would keep the log of pairs (<place in iseq code, catch table, or line table>, ) and log of pairs (, ).
I also thought that such general log mechanism would be useful in possible speculative iseq optimizations on MRI insns level.
But if the full trace behaviour compatibility is not so important, your solution is much much simpler and practically has the same code locality as you keep codes of trace and usual insns in disjoint parts of the interpreter switch-stmt.
I think rebuilding iseq is not a problem. Sorry if I missed the code change but I don't see a check of version of loaded iseq on compatibility. So what will happen if somebody tries to load the old iseq with trace insns into a new version of MRI?
Updated by ko1 (Koichi Sasada) about 7 years ago
vmakarov (Vladimir Makarov) wrote:
So I considered to remove and insert trace insns when the tracing is off or on. It requires to change branch offset, catch table offsets, and line tables. To speed up this, I would keep the log of pairs (<place in iseq code, catch table, or line table>, ) and log of pairs (, ).
I also thought that such general log mechanism would be useful in possible speculative iseq optimizations on MRI insns level.
I completely agree your approach is more compatible and flexible for other optimization techniques. But it is some tough work to implement it because PC info are located variety of places. I also believe (sometime) we need to implement similar technique you explained.
But if the full trace behaviour compatibility is not so important, your solution is much much simpler and practically has the same code locality as you keep codes of trace and usual insns in disjoint parts of the interpreter switch-stmt.
Yes, simplicity is the reason why I use this technique.
Only few days I needed to make.
I think rebuilding iseq is not a problem. Sorry if I missed the code change but I don't see a check of version of loaded iseq on compatibility. So what will happen if somebody tries to load the old iseq with trace insns into a new version of MRI?
We don't guarantee the cross-version dump/load compatibility (this is why we embed version info into dumped results). So I believe there are no problem on this change.
Updated by mame (Yusuke Endoh) over 2 years ago
- Related to Bug #14582: Unable to use `method__entry` and `method_return` tracing probes since 2.5 added