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diff --git a/doc/blktrace.tex b/doc/blktrace.tex new file mode 100644 index 0000000..54fe451 --- /dev/null +++ b/doc/blktrace.tex @@ -0,0 +1,814 @@ +\documentclass{article} + +% +% Copyright (C) 2005, 2006 Alan D. Brunelle <Alan.Brunelle@hp.com> +% +% This program is free software; you can redistribute it and/or modify +% it under the terms of the GNU General Public License as published by +% the Free Software Foundation; either version 2 of the License, or +% (at your option) any later version. +% +% This program is distributed in the hope that it will be useful, +% but WITHOUT ANY WARRANTY; without even the implied warranty of +% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +% GNU General Public License for more details. +% +% You should have received a copy of the GNU General Public License +% along with this program; if not, write to the Free Software +% Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +% + +\title{blktrace User Guide} +\author{blktrace: Jens Axboe (jens.axboe@oracle.com)\\ + User Guide: Alan D. Brunelle (Alan.Brunelle@hp.com)} +\date{27 May 2008} + +\begin{document} +\maketitle +%--------------------- +\section{\label{sec:intro}Introduction} + +blktrace is a block layer IO tracing mechanism which provides detailed +information about request queue operations up to user space. There are +three major components that are provided: + +\begin{description} + \item[Kernel patch] A patch to the Linux kernel which includes the + kernel event logging interfaces, and patches to areas within the block + layer to emit event traces. If you run a 2.6.17-rc1 or newer kernel, + you don't need to patch blktrace support as it is already included. + + \item[blktrace] A utility which transfers event traces from the kernel + into either long-term on-disk storage, or provides direct formatted + output (via blkparse). + + \item[blkparse] A utility which formats events stored in files, or when + run in \emph{live} mode directly outputs data collected by blktrace. +\end{description} + +\subsection{blktrace Download Area} + +The blktrace and blkparse utilities and associated kernel patch are provided +as part of the following git repository: + +git://git.kernel.org/pub/scm/linux/kernel/git/axboe/blktrace.git bt + +%-------------------------- +\newpage\section{\label{sec:quick-start}Quick Start Guide} + +The following sections outline some quick steps towards utilizing +blktrace. Some of the specific instructions below may need to be tailored +to your environment. + +\subsection{\label{sec:get-blktrace}Retrieving blktrace} + +As noted above, the kernel patch along with the blktrace and blkparse utilities are stored in a git repository. One simple way to get going would be: + +\begin{verbatim} +% git clone git://git.kernel.org/pub/scm/linux/kernel/git/axboe/blktrace.git bt +% cd bt +% git checkout +\end{verbatim} + +\subsection{\label{sec:patching}Patching and configuring the Linux kernel} + +A patch for a \emph{specific Linux kernel} is provided in bt/kernel (where +\emph{bt} is the name of the directory from the above git sequence). The +detailed actual patching instructions for a Linux kernel is outside the +scope of this document, but the following may be used as a sample template. +Note that you may skip this step, if you kernel is at least 2.6.17-rc1. + +As an example, bt/kernel contains blk-trace-2.6.14-rc1-git-G2, download +linux-2.6.13.tar.bz2 and patch-2.6.14-rc1.bz2 + +\begin{verbatim} +% tar xjf linux-2.6.13.tar.bz2 +% mv linux-2.6.13 linux-2.6.14-rc1 +% cd linux-2.6.14-rc1 +% bunzip2 -c ../patch-2.6.14-rc1.bz2 | patch -p1 +\end{verbatim} + +At this point you may (optionally) remove linux-2.6.13.tar.bz2 and +patch-2.6.14-rc1.bz2. + +At this point you should configure the Linux kernel for your specific +system -- again, outside the scope of this document -- and then enable +\emph{Support for tracing block io actions.} To do this, run + +\begin{verbatim} +% make menuconfig or make xconfig, or edit .config, or ... +\end{verbatim} + +and navigate through \emph{Device Drivers} and \emph{Block devices} +and then down to \emph{Support for tracing block io actions} and hit Y. + +Install the new kernel (and modules\ldots) and reboot. + +\subsection{\label{sec:mount}Mounting the debugfs file system} + +blktrace utilizes files under the debug file system, and thus must have +the mount point set up -- mounted on the directory /sys/kernel/debug. +To do this one may do either of the following: + +\begin{enumerate} + \item Manually mount after each boot: +\begin{verbatim} +% mount -t debugfs debugfs /sys/kernel/debug +\end{verbatim} + + \item Add an entry into /etc/fstab, and have it done automatically at + each boot\footnote{Note: after adding the entry to /etc/fstab, you + could then mount the directory this time only by doing: \% mount debug}: +\begin{verbatim} +debug /sys/kernel/debug debugfs default 0 0 +\end{verbatim} +\end{enumerate} + +\subsection{\label{sec:build}Build the tools} + +To build and install the tools, execute the following sequence (as root): + +\begin{verbatim} +% cd bt +% make && make install +\end{verbatim} + +\subsection{\label{sec:live-blktrace}blktrace -- live} + +Now to simply watch what is going on for a specific disk (to stop the +trace, hit control-C): + +\begin{verbatim} +% blktrace -d /dev/sda -o - | blkparse -i - + 8,0 3 1 0.000000000 697 G W 223490 + 8 [kjournald] + 8,0 3 2 0.000001829 697 P R [kjournald] + 8,0 3 3 0.000002197 697 Q W 223490 + 8 [kjournald] + 8,0 3 4 0.000005533 697 M W 223498 + 8 [kjournald] + 8,0 3 5 0.000008607 697 M W 223506 + 8 [kjournald] + 8,0 3 6 0.000011569 697 M W 223514 + 8 [kjournald] + 8,0 3 7 0.000014407 697 M W 223522 + 8 [kjournald] + 8,0 3 8 0.000017367 697 M W 223530 + 8 [kjournald] + 8,0 3 9 0.000020161 697 M W 223538 + 8 [kjournald] + 8,0 3 10 0.000024062 697 D W 223490 + 56 [kjournald] + 8,0 1 11 0.009507758 0 C W 223490 + 56 [0] + 8,0 1 12 0.009538995 697 G W 223546 + 8 [kjournald] + 8,0 1 13 0.009540033 697 P R [kjournald] + 8,0 1 14 0.009540313 697 Q W 223546 + 8 [kjournald] + 8,0 1 15 0.009542980 697 D W 223546 + 8 [kjournald] + 8,0 1 16 0.013542170 0 C W 223546 + 8 [0] +... +^C +... +CPU1 (8,0): + Reads Queued: 0, 0KiB Writes Queued: 7, 128KiB + Read Dispatches: 0, 0KiB Write Dispatches: 7, 128KiB + Reads Completed: 0, 0KiB Writes Completed: 11, 168KiB + Read Merges: 0 Write Merges: 25 + IO unplugs: 0 Timer unplugs: 0 +... +CPU3 (8,0): + Reads Queued: 0, 0KiB Writes Queued: 1, 28KiB + Read Dispatches: 0, 0KiB Write Dispatches: 1, 28KiB + Reads Completed: 0, 0KiB Writes Completed: 0, 0KiB + Read Merges: 0 Write Merges: 6 + IO unplugs: 0 Timer unplugs: 0 + +Total (8,0): + Reads Queued: 0, 0KiB Writes Queued: 11, 168KiB + Read Dispatches: 0, 0KiB Write Dispatches: 11, 168KiB + Reads Completed: 0, 0KiB Writes Completed: 11, 168KiB + Read Merges: 0 Write Merges: 31 + IO unplugs: 0 Timer unplugs: 3 + +Events (8,0): 89 entries, 0 skips +\end{verbatim} + +A \emph{btrace} script is included in the distribution to ease live +tracing of devices. The above could also be accomplished by issuing: + +\begin{verbatim} +% btrace /dev/sda +\end{verbatim} + +By default, \emph{btrace} runs the trace in quiet mode so it will not +include statistics when you break the run. Add the \emph{-S} option to +get that dumped as well. + +\subsection{\label{sec:pc-blktrace}blktrace -- SCSI commands} + +The previous section showed typical file system io actions, but blktrace +can also show SCSI commands going in and out of the queue as submitted +by applications using the SCSI Generic (\emph{sg}) interface. + +\begin{verbatim} +% btrace /dev/cdrom +[...] + 3,0 0 25 0.004884107 13528 G R 0 + 0 [inquiry] + 3,0 0 26 0.004890361 13528 I R 56 (12 00 00 00 38 ..) [inquiry] + 3,0 0 27 0.004891223 13528 P R [inquiry] + 3,0 0 28 0.004893250 13528 D R 56 (12 00 00 00 38 ..) [inquiry] + 3,0 0 29 0.005344910 0 C R (12 00 00 00 38 ..) [0] +\end{verbatim} + +Here we see a program issuing an INQUIRY command to the CDROM device. +The program requested a read of 56 bytes of data, the CDB is included +in parenthesis after the data length. The completion event shows shows +that the command completed successfully. Tracing SCSI commands can be +very useful for debugging problems with programs talking directly to the +device. An example of that would be \emph{cdrecord} burning. + +\subsection{\label{sec:blktrace-post}blktrace -- post-processing} + +Another way to run blktrace is to have blktrace save data away for later +formatting by blkparse. This would be useful if you want to get +measurements while running specific loads. + +To do this, one would specify the device (or devices) to be watched. Then +go run you test cases. Stop the trace, and at your leisure utilize +blkparse to see the results. + +In this example, devices /dev/sdaa, /dev/sdc and /dev/sdo are used in an +LVM volume called adb3/vol. + +\begin{verbatim} +% blktrace /dev/sdaa /dev/sdc /dev/sdo & +[1] 9713 +% +% mkfs -t ext3 /dev/adb3/vol +mke2fs 1.35 (28-Feb-2004) +Filesystem label= +OS type: Linux +Block size=4096 (log=2) +Fragment size=4096 (log=2) +16793600 inodes, 33555456 blocks +1677772 blocks (5.00%) reserved for the super user +First data block=0 +Maximum filesystem blocks=4294967296 +1025 block groups +32768 blocks per group, 32768 fragments per group +16384 inodes per group +Superblock backups stored on blocks: + 32768, 98304, 163840, 229376, 294912, 819200, 884736, 1605632, 2654208, + 4096000, 7962624, 11239424, 20480000, 23887872 + +Writing inode tables: done +Creating journal (8192 blocks): done +Writing superblocks and filesystem accounting information: done + +This filesystem will be automatically checked every 27 mounts or +180 days, whichever comes first. Use tune2fs -c or -i to override. +% +% kill -15 9713 +\end{verbatim} + +Then you could process the events later: + +\begin{verbatim} +% +% blkparse sdaa sdc sdo > events +% less events + 8,32 1 1 0.000000000 9728 G R 384 + 32 [mkfs.ext3] + 8,32 1 2 0.000001959 9728 P R [mkfs.ext3] + 8,32 1 3 0.000002446 9728 Q R 384 + 32 [mkfs.ext3] + 8,32 1 4 0.000005110 9728 D R 384 + 32 [mkfs.ext3] + 8,32 3 5 0.000200570 0 C R 384 + 32 [0] + 8,224 3 1 0.021658989 9728 G R 384 + 32 [mkfs.ext3] +... + 65,160 3 163392 41.117070504 0 C W 87469088 + 1376 [0] + 8,32 3 163374 41.122683668 0 C W 88168160 + 1376 [0] + 65,160 3 163393 41.129952433 0 C W 87905984 + 1376 [0] + 65,160 3 163394 41.130049431 0 D W 89129344 + 1376 [swapper] + 65,160 3 163395 41.130067135 0 D W 89216704 + 1376 [swapper] + 65,160 3 163396 41.130083785 0 D W 89304096 + 1376 [swapper] + 65,160 3 163397 41.130099455 0 D W 89391488 + 1376 [swapper] + 65,160 3 163398 41.130114732 0 D W 89478848 + 1376 [swapper] + 65,160 3 163399 41.130128885 0 D W 89481536 + 64 [swapper] + 8,32 3 163375 41.134758196 0 C W 86333152 + 1376 [0] + 65,160 3 163400 41.142229726 0 C W 89129344 + 1376 [0] + 65,160 3 163401 41.144952314 0 C W 89481536 + 64 [0] + 8,32 3 163376 41.147441930 0 C W 88342912 + 1376 [0] + 65,160 3 163402 41.155869604 0 C W 89478848 + 1376 [0] + 8,32 3 163377 41.159466082 0 C W 86245760 + 1376 [0] + 65,160 3 163403 41.166944976 0 C W 89216704 + 1376 [0] + 65,160 3 163404 41.178968252 0 C W 89304096 + 1376 [0] + 65,160 3 163405 41.191860173 0 C W 89391488 + 1376 [0] +... +Events (sdo): 0 entries, 0 skips + +CPU0 (65,160): + Reads Queued: 0, 0KiB Writes Queued: 9, 5,520KiB + Read Dispatches: 0, 0KiB Write Dispatches: 0, 0KiB + Reads Completed: 0, 0KiB Writes Completed: 0, 0KiB + Read Merges: 0 Write Merges: 336 + IO unplugs: 0 Timer unplugs: 0 +CPU1 (65,160): + Reads Queued: 2,411, 38,576KiB Writes Queued: 769, 425,408KiB + Read Dispatches: 2,407, 38,512KiB Write Dispatches: 118, 61,680KiB + Reads Completed: 0, 0KiB Writes Completed: 0, 0KiB + Read Merges: 0 Write Merges: 25,819 + IO unplugs: 0 Timer unplugs: 4 +CPU2 (65,160): + Reads Queued: 2, 32KiB Writes Queued: 18, 10,528KiB + Read Dispatches: 2, 32KiB Write Dispatches: 3, 1,344KiB + Reads Completed: 0, 0KiB Writes Completed: 0, 0KiB + Read Merges: 0 Write Merges: 640 + IO unplugs: 0 Timer unplugs: 0 +CPU3 (65,160): + Reads Queued: 20,572, 329,152KiB Writes Queued: 594, 279,712KiB + Read Dispatches: 20,576, 329,216KiB Write Dispatches: 1,474, 740,720KiB + Reads Completed: 22,985, 367,760KiB Writes Completed: 1,390, 721,168KiB + Read Merges: 0 Write Merges: 16,888 + IO unplugs: 0 Timer unplugs: 0 + +Total (65,160): + Reads Queued: 22,985, 367,760KiB Writes Queued: 1,390, 721,168KiB + Read Dispatches: 22,985, 367,760KiB Write Dispatches: 1,595, 803,744KiB + Reads Completed: 22,985, 367,760KiB Writes Completed: 1,390, 721,168KiB + Read Merges: 0 Write Merges: 43,683 + IO unplugs: 0 Timer unplugs: 4 +... +\end{verbatim} + +%---------------------------- +\newpage\section{\label{sec:blktrace-ug}blktrace User Guide} + +The \emph{blktrace} utility extracts event traces from the kernel (via +the relaying through the debug file system). Some background details +concerning the run-time behaviour of blktrace will help to understand some +of the more arcane command line options: + +\begin{itemize} + \item blktrace receives data from the kernel in buffers passed up + through the debug file system (relay). Each device being traced has + a file created in the mounted directory for the debugfs, which defaults + to \emph{/sys/kernel/debug} -- this can be overridden with the \emph{-r} + command line argument. + + \item blktrace defaults to collecting \emph{all} events that can be + traced. To limit the events being captured, you can specify one or + more filter masks via the \emph{-a} option. + + Alternatively, one may specify the entire mask utilizing a hexadecimal + value that is version-specific. (Requires understanding of the internal + representation of the filter mask.) + + \item As noted above, the events are passed up via a series of buffers + stored into debugfs files. The size and number of buffers can be + specified via the \emph{-b} and \emph{-n} arguments respectively. + + \item blktrace stores the extracted data into files stored in the + \emph{local} directory. The format of the file names is (by default) + \emph{device}.blktrace.\emph{cpu}, where \emph{device} is the base + device name (e.g, if we are tracing /dev/sda, the base device name would + be \emph{sda}); and \emph{cpu} identifies a CPU for the event stream. + + The \emph{device} portion of the event file name can be changed via + the \emph{-o} option. + + \item blktrace may also be run concurrently with blkparse to produce + \emph{live} output -- to do this specify \emph{-o -} for blktrace. + + \item The default behaviour for blktrace is to run forever until explicitly killed by the user (via a control-C, or \emph{kill} utility invocation). There are two ways to modify this: + + \begin{enumerate} + \item You may utilize the blktrace utility itself to \emph{kill} + a running trace -- via the \emph{-k} option. + + \item You can specify a run-time duration for blktrace via the + \emph{-w} option -- then blktrace will run for the specified number + of seconds, and then halt. + \end{enumerate} +\end{itemize} + +\subsection{\label{sec:blktrace-args}Command line arguments} +\begin{tabular}{|l|l|l|}\hline +Short & Long & Description \\ \hline\hline +-A \emph{hex-mask} & --set-mask=\emph{hex-mask} & Set filter mask to \emph{hex-mask} \\ \hline +-a \emph{mask} & --act-mask=\emph{mask} & Add \emph{mask} to current filter (see below for masks) \\ \hline +-b \emph{size} & --buffer-size=\emph{size} & Specifies buffer size for event extraction (scaled by $2^{10}$) \\ \hline +-d \emph{dev} & --dev=\emph{dev} & Adds \emph{dev} as a device to trace \\ \hline +-k & --kill & Kill on-going trace \\ \hline +-n \emph{num-sub} & --num-sub=\emph{num-sub} & Specifies number of buffers to use \\ \hline +-o \emph{file} & --output=\emph{file} & Prepend \emph{file} to output file name(s) \\ \hline +-r \emph{rel-path} & --relay=\emph{rel-path} & Specifies debugfs mount point \\ \hline +-V & --version & Outputs version \\ \hline +-w \emph{seconds} & --stopwatch=\emph{seconds} & Sets run time to the number of seconds specified \\ \hline +-I \emph{devs file}& --input-devs=\emph{devs file}& Adds devices found in \emph{devs file} to list of devices to trace. \\ + & & (One device per line.) \\ \hline +\end{tabular} + +\subsubsection{\label{sec:filter-mask}Filter Masks} +The following masks may be passed with the \emph{-a} command line +option, multiple filters may be combined via multiple \emph{-a} command +line options.\smallskip + +\begin{tabular}{|l|l|}\hline +barrier & \emph{barrier} attribute \\ \hline +complete & \emph{completed} by driver \\ \hline +fs & \emph{FS} requests \\ \hline +issue & \emph{issued} to driver \\ \hline +pc & \emph{packet command} events \\ \hline +queue & \emph{queue} operations \\ \hline +read & \emph{read} traces \\ \hline +requeue & \emph{requeue} operations \\ \hline +sync & \emph{synchronous} attribute \\ \hline +write & \emph{write} traces \\ \hline +notify & \emph{notify} trace messages \\ \hline +\end{tabular} + +\subsubsection{\label{sec:request-types}Request types} +blktrace disguingishes between two types of block layer requests, +file system and scsi commands. The former are dubbed \emph{fs} +requests, the latter \emph{pc} requests. File system requests are +normal read/write operations, ie any type of read or write from a +specific disk location at a given size. These requests typically +originate from a user process, but they may also be initiated by +the vm flushing dirty data to disk or the file system syncing +a super or journal block to disk. \emph{pc} requests are SCSI +commands. blktrace sends the command data block as a payload +so that blkparse can decode it. + +%---------------------------- +\newpage\section{\label{sec:blkparse-ug}blkparse User Guide} + +The \emph{blkparse} utility will attempt to combine streams of events +for various devices on various CPUs, and produce a formatted output of +the event information. As with blktrace, some details concerning blkparse +will help in understanding the command line options presented below. + +\begin{itemize} + \item By default, blkparse expects to run in a post-processing mode + -- one where the trace events have been saved by a previous run + of blktrace, and blkparse is combining event streams and dumping + formatted data. + + blkparse \emph{may} be run in a \emph{live} manner concurrently with + blktrace by specifying \emph{-i -} to blkparse, and combining it with + the live option for blktrace. An example would be: + + \begin{verbatim} + % blktrace -d /dev/sda -o - | blkparse -i - + \end{verbatim} + + \item You can set how many blkparse batches event reads via the + \emph{-b} option, the default is to handle events in batches of 512. + + \item If you have saved event traces in blktrace with different output + names (via the \emph{-o} option to blktrace), you must specify the + same \emph{input} name via the \emph{-i} option. + + \item The format of the output data can be controlled via the \emph{-f} + or \emph{-F} options -- see section~\ref{sec:blkparse-format} for details. + + By default, blkparse sends formatted data to standard output. This may + be changed via the \emph{-o} option, or text output can be disabled + via the\emph{-O} option. A merged binary stream can be produced using + the \emph{-d} option. + +\end{itemize} + +\newpage\subsection{\label{sec:blkparse-args}Command line arguments} +\begin{tabular}{|l|l|l|}\hline +Short & Long & Description \\ \hline\hline +-b \emph{batch} & --batch={batch} & Standard input read batching \\ \hline + +-i \emph{file} & --input=\emph{file} & Specifies base name for input files -- default is \emph{device}.blktrace.\emph{cpu}. \\ + & & As noted above, specifying \emph{-i -} runs in \emph{live} mode with blktrace \\ + & & (reading data from standard in). \\ \hline + +-F \emph{typ,fmt} & --format=\emph{typ,fmt} & Sets output format \\ +-f \emph{fmt} & --format-spec=\emph{fmt} & (See section~\ref{sec:blkparse-format} for details.) \\ + & & \\ + & & The -f form specifies a format for all events \\ + & & \\ + & & The -F form allows one to specify a format for a specific \\ + & & event type. The single-character \emph{typ} field is one of the \\ + & & action specifiers in section~\ref{sec:act-table} \\ \hline + + +-m & --missing & Print missing entries\\ \hline + +-h & --hash-by-name & Hash processes by name, not by PID\\ \hline + +-o \emph{file} & --output=\emph{file} & Output file \\ \hline +-O & --no-text-output & Do \emph{not} produce text output, used for binary (-d) only \\ \hline + +-d \emph{file} & --dump-binary=\emph{file} & Binary output file \\ \hline + +-q & --quiet & Quite mode \\ \hline + +-s & --per-program-stats & Displays data sorted by program \\ \hline + +-t & --track-ios & Display time deltas per IO \\ \hline + +-w \emph{span} & --stopwatch=\emph{span} & Display traces for the \emph{span} specified -- where span can be: \\ + & & \emph{end-time} -- Display traces from time 0 through \emph{end-time} (in ns) \\ + & & or \\ + & & \emph{start:end-time} -- Display traces from time \emph{start} \\ + & & through {end-time} (in ns). \\ \hline + +-M & --no-msgs & Do not add messages to binary output file \\\hline +-v & --verbose & More verbose marginal on marginal errors \\ \hline +-V & --version & Display version \\ \hline + +\end{tabular} + +\newpage +\subsection{\label{sec:blkparse-actions}Trace actions} + +\begin{description} + \item[C -- complete] A previously issued request has been completed. + The output will detail the sector and size of that request, as well + as the success or failure of it. + + \item[D -- issued] A request that previously resided on the block layer + queue or in the io scheduler has been sent to the driver. + + \item[I -- inserted] A request is being sent to the io scheduler for + addition to the internal queue and later service by the driver. The + request is fully formed at this time. + + \item[Q -- queued] This notes intent to queue io at the given location. + No real requests exists yet. + + \item[B -- bounced] The data pages attached to this \emph{bio} are + not reachable by the hardware and must be bounced to a lower memory + location. This causes a big slowdown in io performance, since the data + must be copied to/from kernel buffers. Usually this can be fixed with + using better hardware - either a better io controller, or a platform + with an IOMMU. + + \item[m -- message] Text message generated via kernel call to + \texttt{blk\_add\_trace\_msg}. + + \item[M -- back merge] A previously inserted request exists that ends + on the boundary of where this io begins, so the io scheduler can merge + them together. + + \item[F -- front merge] Same as the back merge, except this io ends + where a previously inserted requests starts. + + \item[G -- get request] To send any type of request to a block device, + a \emph{struct request} container must be allocated first. + + \item[S -- sleep] No available request structures were available, so + the issuer has to wait for one to be freed. + + \item[P -- plug] When io is queued to a previously empty block device + queue, Linux will plug the queue in anticipation of future ios being + added before this data is needed. + + \item[U -- unplug] Some request data already queued in the device, + start sending requests to the driver. This may happen automatically + if a timeout period has passed (see next entry) or if a number of + requests have been added to the queue. + + \item[T -- unplug due to timer] If nobody requests the io that was queued + after plugging the queue, Linux will automatically unplug it after a + defined period has passed. + + \item[X -- split] On raid or device mapper setups, an incoming io may + straddle a device or internal zone and needs to be chopped up into + smaller pieces for service. This may indicate a performance problem due + to a bad setup of that raid/dm device, but may also just be part of + normal boundary conditions. dm is notably bad at this and will clone + lots of io. + + \item[A -- remap] For stacked devices, incoming io is remapped to device + below it in the io stack. The remap action details what exactly is + being remapped to what. + +\end{description} + +\subsection{\label{sec:blkparse-format}Output Description and Formatting} + +The output from blkparse can be tailored for specific use - in particular, +to ease parsing of output, and/or limit output fields to those the user +wants to see. The data for fields which can be output include: + +\smallskip +\begin{tabular}{|l|l|}\hline +Field & Description \\ +Specifier & \\ \hline\hline +\emph{a} & Action, a (small) string (1 or 2 characters) -- see table below for more details \\ \hline +\emph{c} & CPU id \\ \hline +\emph{C} & Command \\ \hline +\emph{d} & RWBS field, a (small) string (1-3 characters) -- see section below for more details \\ \hline +\emph{D} & 7-character string containing the major and minor numbers of +the event's device \\ + & (separated by a comma). \\ \hline +\emph{e} & Error value \\ \hline +\emph{m} & Minor number of event's device. \\ \hline +\emph{M} & Major number of event's device. \\ \hline +\emph{n} & Number of blocks \\ \hline +\emph{N} & Number of bytes \\ \hline +\emph{p} & Process ID \\ \hline +\emph{P} & Display packet data -- series of hexadecimal values\\ \hline +\emph{s} & Sequence numbers \\ \hline +\emph{S} & Sector number \\ \hline +\emph{t} & Time stamp (nanoseconds) \\ \hline +\emph{T} & Time stamp (seconds) \\ \hline +\emph{u} & Elapsed value in microseconds (\emph{-t} command line option) \\ \hline +\emph{U} & Payload unsigned integer \\ \hline +\end{tabular} + +Note that the user can optionally specify field display width, and +optionally a left-aligned specifier. These precede field specifiers, +with a '\%' character, followed by the optional left-alignment specifer +(-) followed by the width (a decimal number) and then the field. + +Thus, to specify the command in a 12-character field that is left aligned: + +\begin{verbatim} +-f "%-12C" +\end{verbatim} + +\newpage +\subsubsection{\label{sec:act-table}Action Table} +The following table shows the various actions which may be output. + +\begin{tabular}{|l|l|}\hline +Act & Description \\ \hline\hline +A & IO was remapped to a different device \\ \hline +B & IO bounced \\ \hline +C & IO completion \\ \hline +D & IO issued to driver \\ \hline +F & IO front merged with request on queue \\ \hline +G & Get request \\ \hline +I & IO inserted onto request queue \\ \hline +M & IO back merged with request on queue \\ \hline +P & Plug request \\ \hline +Q & IO handled by request queue code \\ \hline +S & Sleep request \\ \hline +T & Unplug due to timeout \\ \hline +U & Unplug request \\ \hline +X & Split \\ \hline +\end{tabular} + +\subsubsection{\label{sec:act-table}RWBS Description} +This is a small string containing at least one character ('R' for read, +'W' for write, or 'D' for block discard operation), and optionally either +a 'B' (for barrier operations) or 'S' (for synchronous operations). + +\subsubsection{\label{sec:default-output}Default output} + +The standard \emph{header} (or initial fields displayed) include: + +\begin{verbatim} +"%D %2c %8s %5T.%9t %5p %2a %3d " +\end{verbatim} + +Breaking this down: + +\begin{description} + \item[\%D] Displays the event's device major/minor as: \%3d,\%-3d. + \item[\%2c] CPU ID (2-character field). + \item[\%8s] Sequence number + \item[\%5T.\%9t] 5-charcter field for the seconds portion of the + time stamp and a 9-character field for the nanoseconds in the time stamp. + \item[\%5p] 5-character field for the process ID. + \item[\%2a] 2-character field for one of the actions. + \item[\%3d] 3-character field for the RWBS data. +\end{description} + +Seeing this in action: + +\begin{verbatim} + 8,0 3 1 0.000000000 697 G W 223490 + 8 [kjournald] +\end{verbatim} + +The header is the data in this line up to the 223490 (starting block). + +The default output for all event types includes this header. + +\paragraph{Default output per action} + +\begin{description} + \item[C -- complete] If a payload is present, this is presented between + parenthesis following the header, followed by the error value. + + If no payload is present, the sector and number of blocks are presented + (with an intervening plus (+) character). If the \emph{-t} option + was specified, then the elapsed time is presented. In either case, + it is followed by the error value for the completion. + + \item[D -- issued] + \item[I -- inserted] + \item[Q -- queued] + \item[B -- bounced] If a payload is present, the number of payload bytes + is output, followed by the payload in hexadecimal between parenthesis. + + If no payload is present, the sector and number of blocks are presented + (with an intervening plus (+) character). If the \emph{-t} option was + specified, then the elapsed time is presented (in parenthesis). In + either case, it is followed by the command associated with the event + (surrounded by square brackets). + + \item[M -- back merge] + \item[F -- front merge] + \item[G -- get request] + \item[S -- sleep] The starting sector and number of blocks is output + (with an intervening plus (+) character), followed by the command + associated with the event (surrounded by square brackets). + + \item[P -- plug] The command associated with the event (surrounded by + square brackets) is output. + + \item[U -- unplug] + \item[T -- unplug due to timer] The command associated with the event + (surrounded by square brackets) is output, followed by the number of + requests outstanding. + + \item[X -- split] The original starting sector followed by the new + sector (separated by a slash (/) is output, followed by the command + associated with the event (surrounded by square brackets). + + \item[A -- remap] Sector and length is output, along with the original + device and sector offset. + + \item[m -- message] The supplied message is appended to the end of + the standard header. + +\end{description} + +%------------------------------ +\newpage +\newpage\section*{\label{sec:blktrace-kg}Appendix: blktrace Kernel Guide} + +The blktrace facility provides an efficient event transfer mechanism which +supplies block IO layer state transition data via the relay +filesystem. This section provides some details as to the interfaces +blktrace utilizes in the kernel to effect this. It is good background data +to help understand some of the outputs and command-line options above. + +\subsection{blktrace.h Definitions} +Files which include $<linux/blktrace.h>$ are supplied with the following +definitions: + +\subsubsection{Trace Action Specifiers} +\begin{tabular}{|l|l|}\hline + BLK\_TA\_QUEUE & (RQ) Command queued to request\_queue. \\ + & (BIO) Command queued by elevator. \\ \hline + BLK\_TA\_BACKMERGE & Back merging elevator operation \\ \hline + BLK\_TA\_FRONTMERGE & Front merging elevator operation \\ \hline + BLK\_TA\_GETRQ & Free request retrieved. \\ \hline + BLK\_TA\_SLEEPRQ & No requests available, device unplugged. \\ \hline + BLK\_TA\_REQUEUE & Request requeued. \\ \hline + BLK\_TA\_ISSUE & Command set to driver for request\_queue. \\ \hline + BLK\_TA\_COMPLETE & Command completed by driver. \\ \hline + BLK\_TA\_PLUG & Device is plugged \\ \hline + BLK\_TA\_UNPLUG\_IO & Unplug device as IO is made available. \\ \hline + BLK\_TA\_UNPLUG\_TIMER & Unplug device after timer expired. \\ \hline + BLK\_TA\_INSERT & Insert request into queue. \\ \hline + BLK\_TA\_SPLIT & BIO split into 2 or more requests. \\ \hline + BLK\_TA\_BOUNCE & BIO was bounced \\ \hline + BLK\_TA\_REMAP & BIO was remapped \\ \hline +\end{tabular} + +%.......................................... +\subsection{blktrace.h Routines} +Files which include $<linux/blktrace.h>$ are supplied with the following +kernel routine invocable interfaces: + +\begin{description} + \item[blk\_add\_trace\_rq(struct request\_queue *q, struct request\_queue + *rq, u32 what)] + Adds a trace event describing the state change of the passed in + request\_queue. The \emph{what} parameter describes the change in + the request\_queue state, and is one of the request queue action + specifiers -- BLK\_TA\_QUEUE, BLK\_TA\_REQUEUE, BLK\_TA\_ISSUE, + or BLK\_TA\_COMPLETE. + + \item[blk\_add\_trace\_bio(struct request\_queue *q, struct bio *bio, + u32 what)] + Adds a trace event for the BIO passed in. The \emph{what} parameter + describes the action being performed on the BIO, and is one of + BLK\_TA\_BACKMERGE, BLK\_TA\_FRONTMERGE, or BLK\_TA\_QUEUE. + + \item[blk\_add\_trace\_generic(struct request\_queue *q, struct bio *bio, + int rw, u32 what)] + Adds a \emph{generic} trace event -- not one of the request queue + or BIO traces. The \emph{what} parameter describes the action being + performed on the BIO (if bio is non-NULL), and is one of + BLK\_TA\_PLUG, BLK\_TA\_GETRQ or BLK\_TA\_SLEEPRQ. + + \item[blk\_add\_trace\_pdu\_int(struct request\_queue *q, u32 what, + u32 pdu)] + Adds a trace with some payload data -- in this case, an unsigned + 32-bit entity (the \emph{pdu} parameter). The \emph{what} parameter + describes the nature of the payload, and is one of + BLK\_TA\_UNPLUG\_IO or BLK\_TA\_UNPLUG\_TIMER. + + \item[blk\_add\_trace\_remap(struct request\_queue *q, struct bio *bio, + dev\_t dev, sector\_t sector)] + Adds a trace with a remap event. \emph{dev} and \emph{sector} denote + the original device this \emph{bio} was mapped from. + + \item[blk\_add\_trace\_msg(struct request\_queue *q, char *fmt, ...)] + Adds a formatted message to the output stream. The total message + size can not exceed BLK\_TN\_MSG\_MSG characters (currently + 1024). Standard format conversions are supported (as supplied + by \texttt{vscnprintf}. + +\end{description} +\end{document} |