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Performance Tuning in Production
James Gough Sadiq Jaffer Kirk Pepperdine Richard Warburton
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#PerfTuningInProd @Jim__Gough, @opsian, @RichardWarburto, @kcpeppe
Session Overview
• Optimizing Java: a brief tour of the JVM
• Moving to G1GC
• Production Profiling: What, Why and How
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Optimizing Java: A JVM Tour
James Gough
@Jim__Gough http://jamesgough.net
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• Who Am I
• Creating Bytecode
• Classloading
• Profiling Code
• Runtime Optimisations
• JITWatch
This Talk
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• Started programming BASIC on the C64
• Worked as a Java and Web Developer
• Helped to design and test JSR 310
• Spent 4 years training Java and C++
• Written a book called Optimizing Java
• Work at Morgan Stanley
• Building Client Facing Technology
About Me
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Creating Bytecode
JVM
+
=
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Creating Bytecode
Java source code
+
=
JVM
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Creating Bytecode
Java source code
Class file creation
javac
JVM
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Creating Bytecode
Java source code
Class file creation
.class file
javac
JVM
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The anatomy of a classfile
Magic Number 0xCAFEBABE
Version of Class File Format The minor and major versions of the class file
Constant Pool Pool of constants for the class
Access Flags For example whether the class is abstract, static, etc.
This Class The name of the current class
Super Class The name of the super class
Interfaces Any interfaces in the class
Fields Any fields in the class
Methods Any methods in the class
Attributes Any attributes of the class (e.g. name of the sourcefile, etc.)
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The anatomy of a classfile
My Very Cute Animal Turns Savage In Full Moon Areas
M V C A T S I F M AMagic Version Constant Access This Super Interfaces Fields Methods Attributes
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• Describe signatures
• Common in javap output
• E.g.• ()Ljava/lang/String;
• (I)V
• (Ljava/lang/String;I)J
Type Descriptors
Descriptor Type
B byte
C char
D double
F float
I int
J long
L<type>; Reference type
S short
Z boolean
[ Array-of
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How Bytecode is executed
Continuous (Just In Time) compilation
JVMclassloader
Java source code
Class file creation
.class file
javac
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Classloaders
• Classes are loaded just before they are needed• proven by the painful ClassNotFoundException
• Loads classfile into the Class object• mechanism for representing classes in the VM
• Example used in watching-classloader• https://github.com/jpgough/watching-classloader
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Interpreting Bytecode
method cache
Continuous (Just In Time) compilation
JVM
JVMInterpreter
classloader
Java source code
Class file creation
.class file
javac
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Interpreting Bytecode
• Bytecode initially fully interpreted
• Conversion of each instruction to machine instruction
• Time not spent compiling code that is only used once
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How does Interpreting Help?
• Provides the opportunity to observe code execution paths
• may not be the same for each execution of the app
• The profiler observes the execution and looks for the best optimisations
• Code is compiled after hitting a threshold
• Configurable
• JVM can revert optimisation decisions
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Profiling Code
JIT compiler
Profile Guided Optimisation
method cache
Continuous (Just In Time) compilation
JVM
Interpreter
classloader
Java source code
Class file creation
.Class file
javac
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Profiling Code
• Looking for loops or frequent execution of code blocks
• Barometer used to count the number of executions
• Threshold is reached and mode changes to tracing
• Tracing follows the execution path involving that method
• proactively looking for optimisation opportunities
• often stored as an intermediate representation
• traces are used in the code generation phase
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JIT compiler
The Hotspot JVM
Emitter
method cache
Continuous (Just In Time) compilation
JVM
Interpreter
classloader
Java source code
Class file creation
.Class file
javacProfiler
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Viewing Code Compilation
java -XX:-TieredCompilation -XX:+PrintCompilation HelloWorld 2> /dev/null
321 40 sun.nio.cs.StreamEncoder::isOpen (5 bytes) 322 41 sun.nio.cs.StreamEncoder::implFlushBuffer (15 bytes) 327 42 sun.nio.cs.StreamEncoder::writeBytes (132 bytes) 331 43 ! java.io.PrintStream::write (69 bytes) 335 44 s java.io.BufferedOutputStream::write (67 bytes) 337 46 java.nio.Buffer::clear (20 bytes) 337 47 java.lang.String::indexOf (7 bytes) 338 48 ! java.io.PrintStream::println (24 bytes) 338 49 java.io.PrintStream::print (13 bytes) 343 50 ! java.io.PrintStream::write (83 bytes) 346 51 ! java.io.PrintStream::newLine (73 bytes) 347 52 java.io.BufferedWriter::newLine (9 bytes) 347 53 % HelloWorld::main @ 2 (23 bytes)
Time Offset Task Method Name (size of compiled code)
! method has exception handler(s) s method declared synchronized n native method (no compilation, generate wrapper) % on-stack replacement used
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• Calling a method has an overhead
• creation of a new stack frame
• copying values required to the stack frame
• returning from the stack frame post execution
• Consider a method call in a for loop
Inlining
public class HelloWorld { public static void main(String[] args) { for(int i=0; i < 100_000; i++) { System.err.println("Hello World"); } } }
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Inlining
java -XX:+UnlockDiagnosticVMOptions -XX:+PrintInlining HelloWorld 2> /dev/null
@ 40 java.io.BufferedOutputStream::flush (12 bytes) inline (hot) \-> TypeProfile (19272/19272 counts) = java/io/BufferedOutputStream @ 1 java.io.BufferedOutputStream::flushBuffer (29 bytes) inline (hot) @ 20 java.io.FileOutputStream::write (12 bytes) inline (hot) \-> TypeProfile (4696/4696 counts) = java/io/FileOutputStream @ 8 java.io.FileOutputStream::writeBytes (0 bytes) native method @ 8 java.io.OutputStream::flush (1 bytes) inline (hot) \-> TypeProfile (7047/7047 counts) = java/io/FileOutputStream !m @ 13 java.io.PrintStream::println (24 bytes) @ 6 java.io.PrintStream::print (13 bytes) !m @ 9 java.io.PrintStream::write (83 bytes) callee is too large !m @ 10 java.io.PrintStream::newLine (73 bytes) callee is too large !m @ 13 java.io.PrintStream::println (24 bytes) @ 6 java.io.PrintStream::print (13 bytes) !m @ 9 java.io.PrintStream::write (83 bytes) callee is too large !m @ 10 java.io.PrintStream::newLine (73 bytes) callee is too large !m @ 13 java.io.PrintStream::println (24 bytes) already compiled into a big method
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• Compiler hunts through code for common expressions
• if results analyses replacement with a single variable
• Relies on data flow analysis of the program
• which is done during the profiling and tracing part
Constant Subexpression Elimination
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Dead Code Elimination
• Removes code that is never executed
• shrinks the size of the program
• avoid executing irrelevant operations
• Dynamic dead code elimination
• eliminated base on possible set of values
• determined at runtime
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• Identification of variables suitable for registers
• to avoid cache misses
• improve execution speed of the program
• Uses data from the trace to make informed decision
Register Allocation
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• Involves removal of code from loops
• for code that doesn’t impact the outcome of the loop
• moved above the loop to avoid unnecessary execution
• Hoisted code can now be cached in a register
• improving performance of the loop execution
Loop-Invariant Code Motion
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• Introduced in later versions of Java 6
• Analyses code to assert if an object reference
• returns or leaves the scope of the method
• stored in global variables
• Allocates unescaped objects on the stack
• avoids the cost of garbage collection
• prevents workload pressures on Eden
• beneficial effects to counter high infant mortality GC impact
Escape Analysis
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Loop Unrolling
private static final String[] RESPONSES = { "Yes", "No", "Maybe" };
public void processResponses () { for ( String response: RESPONSES ) { process(response); }}
private static final String[] RESPONSES = { "Yes", "No", "Maybe" };
public void processResponses () { process(RESPONSES[0]); process(RESPONSES[1]); process(RESPONSES[2]);}
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Loop Unrolling
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@Benchmarkpublic long intStride1(){
long sum = 0;for (int i = 0; i < MAX; i++){
sum += data[i];}return sum;
}
@Benchmarkpublic long longStride1(){
long sum = 0;for (long l = 0; l < MAX; l++){
sum += data[(int) l];}return sum;
}
Excerpt From: Benjamin J. Evans, James Gough, and Chris Newland. “Optimizing Java.” iBooks.
Benchmark Mode Cnt Score Error UnitsLoopUnrollingCounter.intStride1 thrpt 200 2423.818 ± 2.547 ops/sLoopUnrollingCounter.longStride1 thrpt 200 1469.833 ± 0.721 ops/s
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• Can unroll int, char and short loops
• Can remove safe point checks
• Removes back branches and branch prediction cost
• Reduces the work needed by each “iteration”
Loop Unrolling
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• When HotSpot encounters a virtual call site, often only one type will ever be seen there
• e.g. There's only one implementing class for an interface
• Hotspot can optimize vtable lookup
• Subclasses have the same vtable structure as their parent
• Hotspot can collapse the child into the parent
• Classloading tricks can invalidate monomorphic dispatch
• The class word in the header is checked
• If changed then this optimisation is backed out
Monomorphic Dispatch
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JIT compiler
Code Cache
Emitter
method cache
Continuous (Just In Time) compilation
JVM
Interpreter
classloader
Java source code
Class file creation
.Class file
javacProfiler
code cache
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• The code cache contains the JIT native compiled code
• Code is JIT'd on a per method basis
• 1. This occurs when an entry counter is exceeded
• 2. Internal Representation (IR) is built
• 3. Optimisations are applied
• 4. JIT turns IR into native code
• Pointers are swizzled to use the native code
• native code is executed on the next call
Code Cache
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Introduction to JITWatch
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• Java has carried a brand name of being slow
• Java can emit instructions comparable to C++
• javac doesn’t do much optimisation
• We can make better decisions from profiling at runtime
• JITWatch makes life easier
Summary
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Performance Landscape
JIT compiler
Emitte
method cache
JVM
Interpreter
classloader
Java source code
.Class file
javacProfiler
code cache
Garbage Collection
Hardware
Databases/Networks/IO bound operations
Executing Code Quality
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