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Copyright 1999 Sun Microsystems, Inc. All Rights Reserved.
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TNF_KERNEL_PROBES 4 "Nov 8, 1999"
NAME
tnf_kernel_probes - TNF kernel probes
DESCRIPTION

The set of probes (trace instrumentation points) available in the standard kernel. The probes log trace data to a kernel trace buffer in Trace Normal Form (TNF). Kernel probes are controlled by prex(1). A snapshot of the kernel trace buffer can be made using tnfxtract(1) and examined using tnfdump(1).

Each probe has a name and is associated with a set of symbolic keys, or categories. These are used to select and control probes from prex(1). A probe that is enabled for tracing generates a TNF record, called an event record. An event record contains two common members and may contain other probe-specific data members.

"Common Members"
tnf_probe_event tag
tnf_time_delta time_delta
tag

Encodes TNF references to two other records: tag

Describes the layout of the event record.

schedule

Identifies the writing thread and also contains a 64-bit base time in nanoseconds.

time_delta

A 32-bit time offset from the base time; the sum of the two times is the actual time of the event.

"Threads"
"thread_create"
tnf_kthread_id tid
tnf_pid pid
tnf_symbol start_pc

Thread creation event. tid

The thread identifier for the new thread.

pid

The process identifier for the new thread.

start_pc

The kernel address of its start routine.

"thread_state"
tnf_kthread_id tid
tnf_microstate state

Thread microstate transition events. tid

Optional; if it is absent, the event is for the writing thread, otherwise the event is for the specified thread.

state

Indicates the thread state:

Running in user mode.

Running in system mode.

Asleep waiting for a user-mode lock.

Asleep on a kernel object.

Runnable (waiting for a cpu).

Stopped.

The values of this member are defined in <sys/msacct.h>. Note that to reduce trace output, transitions between the system and user microstates that are induced by system calls are not traced. This information is implicit in the system call entry and exit events.
"thread_exit"

Thread termination event for writing thread. This probe has no data members other than the common members.

"Scheduling"

"thread_queue"
tnf_kthread_id tid
tnf_cpuid cpuid
tnf_long priority
tnf_ulong queue_length

Thread scheduling events. These are triggered when a runnable thread is placed on a dispatch queue. cpuid

Specifies the cpu to which the queue is attached.

priority

The (global) dispatch priority of the thread.

queue_length

The current length of the cpu's dispatch queue.

"Blocking"
"thread_block"
tnf_opaque reason
tnf_symbols stack

Thread blockage event. This probe captures a partial stack backtrace when the current thread blocks. reason

The address of the object on which the thread is blocking.

symbols

References a TNF array of kernel addresses representing the PCs on the stack at the time the thread blocks.

"System Calls"
"syscall_start"
tnf_sysnum sysnum

System call entry event. sysnum

The system call number. The writing thread implicitly enters the system microstate with this event.

"syscall_end"
tnf_long rval1
tnf_long rval2
tnf_long errno

System call exit event. rval1 and rval2

The two return values of the system call

errno

The error return.

The writing thread implicitly enters the user microstate with this event.

"Page Faults"
"address_fault"
tnf_opaque address
tnf_fault_type fault_type
tnf_seg_access access

Address-space fault event. address

Gives the faulting virtual address.

fault_type

Gives the fault type: invalid page, protection fault, software requested locking or unlocking.

access

Gives the desired access protection: read, write, execute or create. The values for these two members are defined in <vm/seg_enum.h>.

"major_fault"
tnf_opaque vnode
tnf_offset offset

Major page fault event. The faulting page is mapped to the file given by the vnode member, at the given offset into the file. (The faulting virtual address is in the most recent address_fault event for the writing thread.)

"anon_private"
tnf_opaque address

Copy-on-write page fault event. address

The virtual address at which the new page is mapped.

"anon_zero"
tnf_opaque address

Zero-fill page fault event. address

The virtual address at which the new page is mapped.

"page_unmap"
tnf_opaque vnode
tnf_offset offset

Page unmapping event. This probe marks the unmapping of a file system page from the system. vnode and offset

Identifies the file and offset of the page being unmapped.

"Pageins and Pageouts"
"pagein"
tnf_opaque vnode
tnf_offset offset
tnf_size size

Pagein start event. This event signals the initiation of pagein I/O. vnodeandoffset

Identifyies the file and offset to be paged in.

size

Specifies the number of bytes to be paged in.

"pageout"
tnf_opaque vnode
tnf_ulong pages_pageout
tnf_ulong pages_freed
tnf_ulong pages_reclaimed

Pageout completion event. This event signals the completion of pageout I/O. vnode

Identifies the file of the pageout request.

pages_pageout

The number of pages written out.

pages_freed

The number of pages freed after being written out.

pages_reclaimed

The number of pages reclaimed after being written out.

"Page Daemon (Page Stealer)"
"pageout_scan_start"
tnf_ulong pages_free
tnf_ulong pages_needed

Page daemon scan start event. This event signals the beginning of one iteration of the page daemon. pages_free

The number of free pages in the system.

pages_needed

The number of pages desired free.

"pageout_scan_end"
tnf_ulong pages_free
tnf_ulong pages_scanned

Page daemon scan end event. This event signals the end of one iteration of the page daemon. pages_free

The number of free pages in the system.

pages_scanned

The number of pages examined by the page daemon. (Potentially more pages will be freed when any queued pageout requests complete.)

"Swapper"
"swapout_process"
tnf_pid pid
tnf_ulong page_count

Address space swapout event. This event marks the swapping out of a process address space. pid

Identifies the process.

page_count

Reports the number of pages either freed or queued for pageout.

"swapout_lwp"
tnf_pid pid
tnf_lwpid lwpid
tnf_kthread_id tid
tnf_ulong page_count

Light-weight process swapout event. This event marks the swapping out of an LWP and its stack. pid

The LWP's process identifier

lwpid

The LWP identifier

tid member

The LWP's kernel thread identifier.

page_count

The number of pages swapped out.

"swapin_lwp"
tnf_pid pid
tnf_lwpid lwpid
tnf_kthread_id tid
tnf_ulong page_count

Light-weight process swapin event. This event marks the swapping in of an LWP and its stack. pid

The LWP's process identifier.

lwpid

The LWP identifier.

tid

The LWP's kernel thread identifier.

page_count

The number of pages swapped in.

"Local I/O"
"strategy"
tnf_device device
tnf_diskaddr block
tnf_size size
tnf_opaque buf
tnf_bioflags  flags

Block I/O strategy event. This event marks a call to the strategy(9E) function of a block device driver. device

Contains the major and minor numbers of the device.

block

The logical block number to be accessed on the device.

size

The size of the I/O request.

buf

The kernel address of the buf(9S) structure associated with the transfer.

flags

The buf(9S) flags associated with the transfer.

"biodone"
tnf_device device
tnf_diskaddr block
tnf_opaque buf

Buffered I/O completion event. This event marks calls to the biodone(9F) function. device

Contains the major and minor numbers of the device.

block

The logical block number accessed on the device.

buf

The kernel address of the buf(9S) structure associated with the transfer.

"physio_start"
tnf_device device
tnf_offset offset
tnf_size size
tnf_bioflags rw

Raw I/O start event. This event marks entry into the physio(9F) fufnction which performs unbuffered I/O. device

Contains the major and minor numbers of the device of the transfer.

offset

The logical offset on the device for the transfer.

size

The number of bytes to be transferred.

rw

The direction of the transfer: read or write (see buf(9S)).

"physio_end"
tnf_device device

Raw I/O end event. This event marks exit from the physio(9F) fufnction. device

The major and minor numbers of the device of the transfer.

USAGE

Use the prex utility to control kernel probes. The standard prex commands to list and manipulate probes are available to you, along with commands to set up and manage kernel tracing.

Kernel probes write trace records into a kernel trace buffer. You must copy the buffer into a TNF file for post-processing; use the tnfxtract utility for this.

You use the tnfdump utility to examine a kernel trace file. This is exactly the same as examining a user-level trace file.

The steps you typically follow to take a kernel trace are:

1. Become superuser (su).

2. Allocate a kernel trace buffer of the desired size (prex).

3. Select the probes you want to trace and enable (prex).

4. Turn kernel tracing on (prex).

5. Run your application.

6. Turn kernel tracing off (prex).

7. Extract the kernel trace buffer (tnfxtract).

8. Disable all probes (prex).

9. Deallocate the kernel trace buffer (prex).

10. Examine the trace file (tnfdump).

A convenient way to follow these steps is to use two shell windows; run an interactive prex session in one, and run your application and tnfxtract in the other.

SEE ALSO

prex(1), tnfdump(1), tnfxtract(1), libtnfctl(3TNF), TNF_PROBE(3TNF), tracing(3TNF), strategy(9E), biodone(9F), physio(9F), buf(9S)