HPROF
Agent
Contents
- HPROF
Agent
- Contents
- Overview
- Start-up
- Heap Allocation
Profiles (heap=sites)
- Heap Dump (heap=dump)
- CPU Usage Sampling
Profiles (cpu=samples)
- CPU Usage Times Profile (cpu=times)
- Binary Dump Format
(format=b)
- Socket Connection and
Communication
- Handling of Arrays
- Source Code
Overview
This document describes the JVM TI Agent HPROF delivered in
the Java Development Kit (JDK). It is intended as demonstration code
for JVM TI, and as a functional
replacement for the older HPROF JVMPI Agent delivered in past releases.
Previous 1.4 and earlier releases of the JDK contained an HPROF
agent built on the experimental JVMPI.
The newer JVM TI replaces both JVMDI and JVMPI.
Note: Differences between
this HPROF implementation and the older JVMPI based HPROF are marked in
RED ITALICS
throughout this document.
Start-up
HPROF is a simple profiler agent shipped with the JDK. It is
a dynamically-linked
library that interacts with the JVM TI and
writes out profiling
information either to a file or to a socket in ascii or binary format.
This information can
be further processed by a profiler front-end tool.
It is capable of presenting CPU usage, heap allocation statistics
and monitor contention
profiles. In addition it can also report complete heap dumps and states
of all the monitors and threads in the Java virtual machine.
HPROF can be invoked by:
java -agentlib:hprof ToBeProfiledClass
Depending on the type of profiling requested, HPROF instructs the
virtual machine to send it the relevant JVM TI events and processes
the event data into profiling information. For example, the following
command obtains the heap allocation profile:
java -agentlib:hprof=heap=sites ToBeProfiledClass
Following is the complete list of options that can passed to hprof :
java -agentlib:hprof=help
HPROF: Heap and CPU Profiling Agent (JVMTI Demonstration Code)
hprof usage: java -agentlib:hprof=[help]|[<option>=<value>, ...]
Option Name and Value Description Default
--------------------- ----------- -------
heap=dump|sites|all heap profiling all
cpu=samples|times|old CPU usage off
monitor=y|n monitor contention n
format=a|b text(txt) or binary output a
file=<file> write data to file java.hprof[{.txt}]
net=<host>:<port> send data over a socket off
depth=<size> stack trace depth 4
interval=<ms> sample interval in ms 10
cutoff=<value> output cutoff point 0.0001
lineno=y|n line number in traces? y
thread=y|n thread in traces? n
doe=y|n dump on exit? y
msa=y|n Solaris micro state accounting n
force=y|n force output to <file> y
verbose=y|n print messages about dumps y
Obsolete Options
----------------
gc_okay=y|n
Examples
--------
- Get sample cpu information every 20 millisec, with a stack depth of 3:
java -agentlib:hprof=cpu=samples,interval=20,depth=3 classname
- Get heap usage information based on the allocation sites:
java -agentlib:hprof=heap=sites classname
Notes
-----
- The option format=b cannot be used with monitor=y.
- The option format=b cannot be used with cpu=old|times.
- Use of the -Xrunhprof interface can still be used, e.g.
java -Xrunhprof:[help]|[<option>=<value>, ...]
will behave exactly the same as:
java -agentlib:hprof=[help]|[<option>=<value>, ...]
Warnings
--------
- This is demonstration code for the JVMTI interface and use of BCI,
it is not an official product or formal part of the JDK.
- The -Xrunhprof interface will be removed in a future release.
- The option format=b is considered experimental, this format may change
in a future release.
By default, heap profiling information (sites and dump) is written
out
to java.hprof.txt (ascii).
The monitor=y|n option has proven to be problematic and may be replaced
with something more useful.
The output in most cases will contain ID's for traces, threads,
objects, etc. Each type of ID will typically start with a
different number than the other ID's, e.g. traces might start with
300000.
Note: The gc_okay option
is no longer supported.
Heap Allocation
Profiles (heap=sites)
Following is the heap allocation profile generated by running the Java
compiler
(javac) on a set of input files. Only parts of the
profiler output are shown here.
Command used: javac -J-agentlib:hprof=heap=sites Hello.java
SITES BEGIN (ordered by live bytes) Fri Feb 6 13:13:42 2004
percent live alloc'ed stack class
rank self accum bytes objs bytes objs trace name
1 44.13% 44.13% 1117360 13967 1117360 13967 301926 java.util.zip.ZipEntry
2 8.83% 52.95% 223472 13967 223472 13967 301927 com.sun.tools.javac.util.List
3 5.18% 58.13% 131088 1 131088 1 300996 byte[]
4 5.18% 63.31% 131088 1 131088 1 300995 com.sun.tools.javac.util.Name[]
A crucial piece of information in heap profile is the amount of
allocation that occurs
in various parts of the program. The SITES record above
tells us that 44.13% of the total space was allocated for
java.util.zip.ZipEntry objects. Note that the amount of live data is
only a fraction
of the total allocation that has occurred at a given site; the rest has
been garbage collected.
A good way to relate allocation sites to the source code is to
record
the dynamic stack traces that led to the heap allocation. Following is
another part of the profiler output that illustrates the stack traces
referred to by the four allocation sites in output shown above.
TRACE 301926:
java.util.zip.ZipEntry.<init>(ZipEntry.java:101)
java.util.zip.ZipFile+3.nextElement(ZipFile.java:417)
com.sun.tools.javac.jvm.ClassReader.openArchive(ClassReader.java:1374)
com.sun.tools.javac.jvm.ClassReader.list(ClassReader.java:1631)
TRACE 301927:
com.sun.tools.javac.util.List.<init>(List.java:42)
com.sun.tools.javac.util.List.<init>(List.java:50)
com.sun.tools.javac.util.ListBuffer.append(ListBuffer.java:94)
com.sun.tools.javac.jvm.ClassReader.openArchive(ClassReader.java:1374)
TRACE 300996:
com.sun.tools.javac.util.Name$Table.<init>(Name.java:379)
com.sun.tools.javac.util.Name$Table.<init>(Name.java:481)
com.sun.tools.javac.util.Name$Table.make(Name.java:332)
com.sun.tools.javac.util.Name$Table.instance(Name.java:349)
TRACE 300995:
com.sun.tools.javac.util.Name$Table.<init>(Name.java:378)
com.sun.tools.javac.util.Name$Table.<init>(Name.java:481)
com.sun.tools.javac.util.Name$Table.make(Name.java:332)
com.sun.tools.javac.util.Name$Table.instance(Name.java:349)
Each frame in the stack trace contains class name, method name, source
file name, and the line number. The user can set the maximum number
of frames collected by the HPROF agent. The default limit is 4. Stack
traces reveal not only which methods performed heap allocation, but
also which methods were ultimately responsible for making calls that
resulted in memory allocation.
Heap Dump (heap=dump)
A complete dump of the current live objects in the heap can be obtained
with:
Command used: javac -J-agentlib:hprof=heap=dump Hello.java
This is a very large output file, but can be viewed and searched in any
editor.
CPU Usage Sampling
Profiles (cpu=samples)
HPROF can collect CPU usage information by sampling threads. Following
is part of the output collected from a run
of the javac compiler.
Command used: javac -J-agentlib:hprof=cpu=samples Hello.java
CPU SAMPLES BEGIN (total = 462) Fri Feb 6 13:33:07 2004
rank self accum count trace method
1 49.57% 49.57% 229 300187 java.util.zip.ZipFile.getNextEntry
2 6.93% 56.49% 32 300190 java.util.zip.ZipEntry.initFields
3 4.76% 61.26% 22 300122 java.lang.ClassLoader.defineClass2
4 2.81% 64.07% 13 300188 java.util.zip.ZipFile.freeEntry
5 1.95% 66.02% 9 300129 java.util.Vector.addElement
6 1.73% 67.75% 8 300124 java.util.zip.ZipFile.getEntry
7 1.52% 69.26% 7 300125 java.lang.ClassLoader.findBootstrapClass
8 0.87% 70.13% 4 300172 com.sun.tools.javac.main.JavaCompiler.<init>
9 0.65% 70.78% 3 300030 java.util.zip.ZipFile.open
10 0.65% 71.43% 3 300175 com.sun.tools.javac.main.JavaCompiler.<init>
...
CPU SAMPLES END
The HPROF agent periodically samples the stack of all running threads
to record the most frequently active stack traces. The count
field above indicates how many times a particular stack trace was found
to be active. These stack traces correspond to the CPU usage hot spots
in the application.
CPU Usage Times
Profile (cpu=times)
HPROF can collect CPU usage information by injecting code into every
method entry and exit, keeping track of exact method call counts and
the time spent in each method. This uses Byte Code Injection (BCI) and
runs considerably slower than cpu=samples. Following is part of the
output collected from a run
of the javac compiler.
Command used: javac -J-agentlib:hprof=cpu=times Hello.java
CPU TIME (ms) BEGIN (total = 2082665289) Fri Feb 6 13:43:42 2004
rank self accum count trace method
1 3.70% 3.70% 1 311243 com.sun.tools.javac.Main.compile
2 3.64% 7.34% 1 311242 com.sun.tools.javac.main.Main.compile
3 3.64% 10.97% 1 311241 com.sun.tools.javac.main.Main.compile
4 3.11% 14.08% 1 311173 com.sun.tools.javac.main.JavaCompiler.compile
5 2.54% 16.62% 8 306183 com.sun.tools.javac.jvm.ClassReader.listAll
6 2.53% 19.15% 36 306182 com.sun.tools.javac.jvm.ClassReader.list
7 2.03% 21.18% 1 307195 com.sun.tools.javac.comp.Enter.main
8 2.03% 23.21% 1 307194 com.sun.tools.javac.comp.Enter.complete
9 1.68% 24.90% 1 306392 com.sun.tools.javac.comp.Enter.classEnter
10 1.68% 26.58% 1 306388 com.sun.tools.javac.comp.Enter.classEnter
...
CPU TIME (ms) END
Here the count represents the true count of the times this method was
entered, and the percentages represent a measure of thread CPU time
spent in those methods.
Binary Dump Format
(format=b)
The basic fields in the binary output are u1 (1 byte), u2 (2 byte), u4
(4 byte), and u8 (8 byte). An ID in this implementation is a u4,
however the size of an ID is really determined by the "size of
identifiers" field in the header.
WARNING: This format is still
considered highly experimental, however, all attempts were made to
match the format of past HPROF implementations.
The binary output begins with the information:
[u1]*
|
An initial NULL terminated
series of bytes representing the format name and version, in this
implementation and historically, the string "JAVA PROFILE 1.0.1" (18
u1 bytes) followed by a NULL byte. If the TAG "HEAP DUMP SEGMENT" is
used this string will be "JAVA PROFILE 1.0.2". |
u4
|
size of identifiers. Identifiers
are used to represent UTF8 strings, objects, stack traces, etc. They
can have the same size as host pointers or sizeof(void*), but are not
required to be. |
u4
|
high word of number of
milliseconds since 0:00 GMT, 1/1/70 |
u4
|
low word of number of
milliseconds since 0:00 GMT, 1/1/70 |
Followed by a sequence of
records that look like:
u1
|
TAG: denoting the type of the
record |
u4
|
TIME: number of microseconds
since the
time stamp in the header
|
u4
|
LENGTH: number of bytes that
follow this
u4 field and belong to this record
|
[u1]*
|
BODY: as many bytes as specified
in
the above u4 field
|
The following TAGs are supported:
STRING IN UTF8
|
0x01
|
ID
|
ID for this string
|
[u1]*
|
UTF8 characters for string
(NOT NULL terminated)
|
|
LOAD CLASS
|
0x02
|
u4
|
class serial number
(always > 0)
|
ID
|
class object ID
|
u4
|
stack trace serial number
|
ID
|
class name string ID
|
|
UNLOAD CLASS
|
0x03
|
|
STACK FRAME
|
0x04
|
ID
|
stack frame ID
|
ID
|
method name string ID
|
ID
|
method signature string ID
|
ID
|
source file name string ID
|
u4
|
class serial number
|
u4
|
> 0
|
line number
|
0
|
no line information
available
|
-1
|
unknown location
|
-2
|
compiled method (Not implemented)
|
-3
|
native method (Not implemented)
|
|
|
STACK TRACE
|
0x05
|
u4
|
stack trace serial number
|
u4
|
thread serial number
|
u4
|
number of frames
|
[ID]*
|
series of stack frame ID's
|
|
ALLOC SITES
|
0x06
|
u2
|
Bit mask flags:
0x1
|
incremental vs.
complete
|
0x2
|
sorted
by allocation vs. line
|
0x4
|
whether to force GC
(Not
Implemented)
|
|
u4
|
cutoff ratio (floating
point)
|
u4
|
total live bytes
|
u4
|
total live instances
|
u8
|
total bytes allocated
|
u8
|
total instances allocated
|
u4
|
number of sites that
follow:
u1
|
array indicator: 0
means not an array, non-zero means an array of this type (See Basic Type)
|
u4
|
class serial number
|
u4
|
stack trace serial
number
|
u4
|
number of live bytes
|
u4
|
number of live
instances
|
u4
|
number of bytes
allocated
|
u4
|
number of instances
allocated
|
|
|
HEAP SUMMARY
|
0x07
|
u4
|
total live bytes
|
u4
|
total live instances
|
u8
|
total bytes allocated
|
u8
|
total instances allocated
|
|
START THREAD
|
0x0A
|
u4
|
thread serial number
|
ID
|
thread object ID
|
u4
|
stack trace serial number
|
ID
|
thread name string ID
|
ID
|
thread group name ID
|
ID
|
thread parent group name ID
|
|
END THREAD
|
0x0B
|
|
HEAP DUMP
or
HEAP DUMP SEGMENT
|
0x0C
or
0x1C
|
Contains any number of sub-tags,
each begins a u1 field (no order implied here):
ROOT UNKNOWN
|
0xFF
|
|
ROOT JNI GLOBAL
|
0x01
|
ID
|
object ID
|
ID
|
JNI global ref ID
|
|
ROOT JNI LOCAL
|
0x02
|
ID
|
object ID
|
u4
|
thread serial number
|
u4
|
frame number in
stack trace (-1 for empty)
|
|
ROOT JAVA FRAME
|
0x03
|
ID
|
object ID
|
u4
|
thread serial number
|
u4
|
frame number in
stack trace (-1 for empty) |
|
ROOT NATIVE STACK
|
0x04
|
ID
|
object ID
|
u4
|
thread serial number
|
|
ROOT STICKY CLASS
|
0x05
|
|
ROOT THREAD BLOCK
|
0x06
|
ID
|
object ID
|
u4
|
thread serial number
|
|
ROOT MONITOR USED
|
0x07
|
|
ROOT THREAD OBJECT
|
0x08
|
ID
|
thread object ID
|
u4
|
thread serial number
|
u4
|
stack trace serial
number
|
|
CLASS DUMP
|
0x20
|
ID
|
class object ID
|
u4
|
stack trace serial
number
|
ID
|
super class object ID
|
ID
|
class loader object
ID
|
ID
|
signers object ID
|
ID
|
protection domain
object ID
|
ID
|
reserved
|
ID
|
reserved
|
u4
|
instance size (in
bytes)
|
u2
|
size of constant
pool and number of records that follow:
u2
|
constant pool
index
|
u1
|
type of entry:
(See Basic Type)
|
value
|
value of entry
(u1, u2, u4, or u8 based on type of entry)
|
|
u2
|
Number of static
fields:
ID
|
static field
name string ID
|
u1
|
type of field:
(See Basic Type)
|
value
|
value of entry
(u1, u2, u4, or u8 based on type of field)
|
|
u2
|
Number of instance
fields (not including super class's)
ID
|
field name
string ID
|
u1
|
type of field:
(See Basic Type)
|
|
|
INSTANCE DUMP
|
0x21
|
ID
|
object ID
|
u4
|
stack trace serial
number
|
ID
|
class object ID
|
u4
|
number of bytes that
follow
|
[value]*
|
instance field
values (this class, followed by super class, etc)
|
|
OBJECT ARRAY DUMP
|
0x22
|
ID
|
array object ID
|
u4
|
stack trace serial
number
|
u4
|
number of elements
|
ID
|
array class object
ID
|
[ID]*
|
elements
|
|
PRIMITIVE ARRAY DUMP
|
0x23
|
ID
|
array object ID
|
u4
|
stack trace serial
number
|
u4
|
number of elements
|
u1
|
element type (See Basic Type)
|
[u1]*
|
elements (packed
array) |
|
|
HEAP DUMP END
|
0x2C
|
Terminates a series of HEAP DUMP
SEGMENTS. Concatenation of HEAP DUMP SEGMENTS equals a HEAP DUMP.
|
CPU SAMPLES
|
0x0D
|
u4
|
total number of samples
|
u4
|
number of traces that
follow:
u4
|
number of samples
|
u4
|
stack trace serial
number
|
|
|
CONTROL SETTINGS
|
0x0E
|
u4
|
Bit mask flags:
0x1
|
alloc traces on/off
|
0x2
|
cpu sampling on/off
|
|
u2
|
stack trace depth
|
|
Basic Type
2
|
object
|
4
|
boolean
|
5
|
char
|
6
|
float
|
7
|
double
|
8
|
byte
|
9
|
short
|
10
|
int
|
11
|
long
|
Handling of Arrays
There will be a "LOAD CLASS" tag for the type of each array
in the dump. In the LOAD CLASS record, the class name string ID
will refer to a string with a human-readable name of the array
type that is formatted as the type name would be in Java source
code. Thus, the LOAD CLASS record for the type char[] will
be "char[]", for short[][][] will be "short[][][]" and for
MyType[] will be "MyType[]".
Socket Connection and
Communication
WARNING: This command format is
still
considered highly experimental, however, all attempts were made to
match the format of past HPROF implementations.
Commands can be sent to HPROF via the socket connection, the accepted
COMMAND TAGS are:
FORCE GC (Not implemented)
|
0x01
|
DUMP HEAP
|
0x02
|
ALLOC SITES
|
0x03
|
HEAP SUMMARY
|
0x04
|
EXIT THE VM
|
0x05
|
DUMP TRACES
|
0x06
|
CPU SAMPLES
|
0x07
|
CONTROL
|
0x08
|
EOF (used to terminate socket
connection)
|
0xFF
|
The commands take the form:
u1
|
COMMAND TAG
|
u4
|
serial number
|
u4
|
number of bytes that follow
|
[u1]*
|
ALLOC SITES
|
u2
|
Flags:
|
u4
|
cutoff ratio
(floating point between 0.0 and 1.0)
|
|
CPU SAMPLES
|
u2
|
ignored
|
u4
|
cutoff ratio
(floating point between 0.0 and 1.0)
|
|
CONTROL
|
u2
|
Sub option:
0x1
|
Turn alloc
traces on
|
0x2
|
Turn alloc
traces off
|
0x3
|
Turn CPU
sampling on:
ID
|
thread
object ID (0 for all threads)
|
|
0x4
|
Turn CPU
sampling off:
ID
|
thread
object ID (0 for all threads) |
|
0x5
|
Clear CPU
sampling
|
0x6
|
Set max stack
depth:
|
|
|
|
Source Code
The source to HPROF is available in the JDK download in the
demo/jvmti/hprof directory.
*As used on this web site, the terms "Java
Virtual Machine" or "JVM" mean a virtual machine for the Java platform.
Last modified: 2005