[linux.git] / Documentation / s390 / monreader.txt


Date  : 2004-Nov-26
Author: Gerald Schaefer ([email protected])


             Linux API for read access to z/VM Monitor Records
             =================================================


Description
===========
This item delivers a new Linux API in the form of a misc char device that is
usable from user space and allows read access to the z/VM Monitor Records
collected by the *MONITOR System Service of z/VM.


User Requirements
=================
The z/VM guest on which you want to access this API needs to be configured in
order to allow IUCV connections to the *MONITOR service, i.e. it needs the
IUCV *MONITOR statement in its user entry. If the monitor DCSS to be used is
restricted (likely), you also need the NAMESAVE <DCSS NAME> statement.
This item will use the IUCV device driver to access the z/VM services, so you
need a kernel with IUCV support. You also need z/VM version 4.4 or 5.1.

There are two options for being able to load the monitor DCSS (examples assume
that the monitor DCSS begins at 144 MB and ends at 152 MB). You can query the
location of the monitor DCSS with the Class E privileged CP command Q NSS MAP
(the values BEGPAG and ENDPAG are given in units of 4K pages).

See also "CP Command and Utility Reference" (SC24-6081-00) for more information
on the DEF STOR and Q NSS MAP commands, as well as "Saved Segments Planning
and Administration" (SC24-6116-00) for more information on DCSSes.

1st option:
-----------
You can use the CP command DEF STOR CONFIG to define a "memory hole" in your
guest virtual storage around the address range of the DCSS.

Example: DEF STOR CONFIG 0.140M 200M.200M

This defines two blocks of storage, the first is 140MB in size an begins at
address 0MB, the second is 200MB in size and begins at address 200MB,
resulting in a total storage of 340MB. Note that the first block should
always start at 0 and be at least 64MB in size.

2nd option:
-----------
Your guest virtual storage has to end below the starting address of the DCSS
and you have to specify the "mem=" kernel parameter in your parmfile with a
value greater than the ending address of the DCSS.

Example: DEF STOR 140M

This defines 140MB storage size for your guest, the parameter "mem=160M" is
added to the parmfile.


User Interface
==============
The char device is implemented as a kernel module named "monreader",
which can be loaded via the modprobe command, or it can be compiled into the
kernel instead. There is one optional module (or kernel) parameter, "mondcss",
to specify the name of the monitor DCSS. If the module is compiled into the
kernel, the kernel parameter "monreader.mondcss=<DCSS NAME>" can be specified
in the parmfile.

The default name for the DCSS is "MONDCSS" if none is specified. In case that
there are other users already connected to the *MONITOR service (e.g.
Performance Toolkit), the monitor DCSS is already defined and you have to use
the same DCSS. The CP command Q MONITOR (Class E privileged) shows the name
of the monitor DCSS, if already defined, and the users connected to the
*MONITOR service.
Refer to the "z/VM Performance" book (SC24-6109-00) on how to create a monitor
DCSS if your z/VM doesn't have one already, you need Class E privileges to
define and save a DCSS.

Example:
--------
modprobe monreader mondcss=MYDCSS

This loads the module and sets the DCSS name to "MYDCSS".

NOTE:
-----
This API provides no interface to control the *MONITOR service, e.g. specify
which data should be collected. This can be done by the CP command MONITOR
(Class E privileged), see "CP Command and Utility Reference".

Device nodes with udev:
-----------------------
After loading the module, a char device will be created along with the device
node /<udev directory>/monreader.

Device nodes without udev:
--------------------------
If your distribution does not support udev, a device node will not be created
automatically and you have to create it manually after loading the module.
Therefore you need to know the major and minor numbers of the device. These
numbers can be found in /sys/class/misc/monreader/dev.
Typing cat /sys/class/misc/monreader/dev will give an output of the form
<major>:<minor>. The device node can be created via the mknod command, enter
mknod <name> c <major> <minor>, where <name> is the name of the device node
to be created.

Example:
--------
# modprobe monreader
# cat /sys/class/misc/monreader/dev
10:63
# mknod /dev/monreader c 10 63

This loads the module with the default monitor DCSS (MONDCSS) and creates a
device node.

File operations:
----------------
The following file operations are supported: open, release, read, poll.
There are two alternative methods for reading: either non-blocking read in
conjunction with polling, or blocking read without polling. IOCTLs are not
supported.

Read:
-----
Reading from the device provides a 12 Byte monitor control element (MCE),
followed by a set of one or more contiguous monitor records (similar to the
output of the CMS utility MONWRITE without the 4K control blocks). The MCE
contains information on the type of the following record set (sample/event
data), the monitor domains contained within it and the start and end address
of the record set in the monitor DCSS. The start and end address can be used
to determine the size of the record set, the end address is the address of the
last byte of data. The start address is needed to handle "end-of-frame" records
correctly (domain 1, record 13), i.e. it can be used to determine the record
start offset relative to a 4K page (frame) boundary.

See "Appendix A: *MONITOR" in the "z/VM Performance" document for a description
of the monitor control element layout. The layout of the monitor records can
be found here (z/VM 5.1): http://www.vm.ibm.com/pubs/mon510/index.html

The layout of the data stream provided by the monreader device is as follows:
...
<0 byte read>
<first MCE>              \
<first set of records>    |
...                       |- data set
<last MCE>                |
<last set of records>    /
<0 byte read>
...

There may be more than one combination of MCE and corresponding record set
within one data set and the end of each data set is indicated by a successful
read with a return value of 0 (0 byte read).
Any received data must be considered invalid until a complete set was
read successfully, including the closing 0 byte read. Therefore you should
always read the complete set into a buffer before processing the data.

The maximum size of a data set can be as large as the size of the
monitor DCSS, so design the buffer adequately or use dynamic memory allocation.
The size of the monitor DCSS will be printed into syslog after loading the
module. You can also use the (Class E privileged) CP command Q NSS MAP to
list all available segments and information about them.

As with most char devices, error conditions are indicated by returning a
negative value for the number of bytes read. In this case, the errno variable
indicates the error condition:

EIO: reply failed, read data is invalid and the application
     should discard the data read since the last successful read with 0 size.
EFAULT: copy_to_user failed, read data is invalid and the application should
        discard the data read since the last successful read with 0 size.
EAGAIN: occurs on a non-blocking read if there is no data available at the
        moment. There is no data missing or corrupted, just try again or rather
        use polling for non-blocking reads.
EOVERFLOW: message limit reached, the data read since the last successful
           read with 0 size is valid but subsequent records may be missing.

In the last case (EOVERFLOW) there may be missing data, in the first two cases
(EIO, EFAULT) there will be missing data. It's up to the application if it will
continue reading subsequent data or rather exit.

Open:
-----
Only one user is allowed to open the char device. If it is already in use, the
open function will fail (return a negative value) and set errno to EBUSY.
The open function may also fail if an IUCV connection to the *MONITOR service
cannot be established. In this case errno will be set to EIO and an error
message with an IPUSER SEVER code will be printed into syslog. The IPUSER SEVER
codes are described in the "z/VM Performance" book, Appendix A.

NOTE:
-----
As soon as the device is opened, incoming messages will be accepted and they
will account for the message limit, i.e. opening the device without reading
from it will provoke the "message limit reached" error (EOVERFLOW error code)
eventually.
Commit	Line	Data
1da177e4 LT	1
	2	Date : 2004-Nov-26
	3	Author: Gerald Schaefer ([email protected])
	4
	5
	6	Linux API for read access to z/VM Monitor Records
	7	=================================================
	8
	9
	10	Description
	11	===========
	12	This item delivers a new Linux API in the form of a misc char device that is
c98be0c9	13	usable from user space and allows read access to the z/VM Monitor Records
1da177e4 LT	14	collected by the *MONITOR System Service of z/VM.
	15
	16
	17	User Requirements
	18	=================
	19	The z/VM guest on which you want to access this API needs to be configured in
	20	order to allow IUCV connections to the *MONITOR service, i.e. it needs the
	21	IUCV *MONITOR statement in its user entry. If the monitor DCSS to be used is
	22	restricted (likely), you also need the NAMESAVE <DCSS NAME> statement.
	23	This item will use the IUCV device driver to access the z/VM services, so you
	24	need a kernel with IUCV support. You also need z/VM version 4.4 or 5.1.
	25
	26	There are two options for being able to load the monitor DCSS (examples assume
	27	that the monitor DCSS begins at 144 MB and ends at 152 MB). You can query the
	28	location of the monitor DCSS with the Class E privileged CP command Q NSS MAP
	29	(the values BEGPAG and ENDPAG are given in units of 4K pages).
	30
	31	See also "CP Command and Utility Reference" (SC24-6081-00) for more information
	32	on the DEF STOR and Q NSS MAP commands, as well as "Saved Segments Planning
	33	and Administration" (SC24-6116-00) for more information on DCSSes.
	34
	35	1st option:
	36	-----------
	37	You can use the CP command DEF STOR CONFIG to define a "memory hole" in your
	38	guest virtual storage around the address range of the DCSS.
	39
	40	Example: DEF STOR CONFIG 0.140M 200M.200M
	41
	42	This defines two blocks of storage, the first is 140MB in size an begins at
	43	address 0MB, the second is 200MB in size and begins at address 200MB,
	44	resulting in a total storage of 340MB. Note that the first block should
	45	always start at 0 and be at least 64MB in size.
	46
	47	2nd option:
	48	-----------
	49	Your guest virtual storage has to end below the starting address of the DCSS
	50	and you have to specify the "mem=" kernel parameter in your parmfile with a
	51	value greater than the ending address of the DCSS.
	52
	53	Example: DEF STOR 140M
	54
	55	This defines 140MB storage size for your guest, the parameter "mem=160M" is
	56	added to the parmfile.
	57
	58
	59	User Interface
	60	==============
	61	The char device is implemented as a kernel module named "monreader",
	62	which can be loaded via the modprobe command, or it can be compiled into the
	63	kernel instead. There is one optional module (or kernel) parameter, "mondcss",
	64	to specify the name of the monitor DCSS. If the module is compiled into the
	65	kernel, the kernel parameter "monreader.mondcss=<DCSS NAME>" can be specified
	66	in the parmfile.
	67
	68	The default name for the DCSS is "MONDCSS" if none is specified. In case that
	69	there are other users already connected to the *MONITOR service (e.g.
	70	Performance Toolkit), the monitor DCSS is already defined and you have to use
	71	the same DCSS. The CP command Q MONITOR (Class E privileged) shows the name
	72	of the monitor DCSS, if already defined, and the users connected to the
	73	*MONITOR service.
	74	Refer to the "z/VM Performance" book (SC24-6109-00) on how to create a monitor
	75	DCSS if your z/VM doesn't have one already, you need Class E privileges to
	76	define and save a DCSS.
	77
78	Example:
79	--------
80	modprobe monreader mondcss=MYDCSS
81
82	This loads the module and sets the DCSS name to "MYDCSS".
83
84	NOTE:
85	-----
53cb4726	86	This API provides no interface to control the *MONITOR service, e.g. specify
1da177e4 LT	87	which data should be collected. This can be done by the CP command MONITOR
	88	(Class E privileged), see "CP Command and Utility Reference".
	89
	90	Device nodes with udev:
	91	-----------------------
	92	After loading the module, a char device will be created along with the device
	93	node /<udev directory>/monreader.
	94
	95	Device nodes without udev:
	96	--------------------------
	97	If your distribution does not support udev, a device node will not be created
	98	automatically and you have to create it manually after loading the module.
	99	Therefore you need to know the major and minor numbers of the device. These
	100	numbers can be found in /sys/class/misc/monreader/dev.
	101	Typing cat /sys/class/misc/monreader/dev will give an output of the form
	102	<major>:<minor>. The device node can be created via the mknod command, enter
	103	mknod <name> c <major> <minor>, where <name> is the name of the device node
	104	to be created.
	105
	106	Example:
	107	--------
	108	# modprobe monreader
	109	# cat /sys/class/misc/monreader/dev
	110	10:63
	111	# mknod /dev/monreader c 10 63
	112
	113	This loads the module with the default monitor DCSS (MONDCSS) and creates a
	114	device node.
	115
	116	File operations:
	117	----------------
	118	The following file operations are supported: open, release, read, poll.
	119	There are two alternative methods for reading: either non-blocking read in
	120	conjunction with polling, or blocking read without polling. IOCTLs are not
	121	supported.
	122
	123	Read:
	124	-----
	125	Reading from the device provides a 12 Byte monitor control element (MCE),
	126	followed by a set of one or more contiguous monitor records (similar to the
	127	output of the CMS utility MONWRITE without the 4K control blocks). The MCE
	128	contains information on the type of the following record set (sample/event
	129	data), the monitor domains contained within it and the start and end address
	130	of the record set in the monitor DCSS. The start and end address can be used
	131	to determine the size of the record set, the end address is the address of the
	132	last byte of data. The start address is needed to handle "end-of-frame" records
	133	correctly (domain 1, record 13), i.e. it can be used to determine the record
	134	start offset relative to a 4K page (frame) boundary.
	135
	136	See "Appendix A: *MONITOR" in the "z/VM Performance" document for a description
	137	of the monitor control element layout. The layout of the monitor records can
	138	be found here (z/VM 5.1): http://www.vm.ibm.com/pubs/mon510/index.html
	139
	140	The layout of the data stream provided by the monreader device is as follows:
	141	...
	142	<0 byte read>
	143	<first MCE> \
	144	<first set of records> \|
	145	... \|- data set
	146	<last MCE> \|
	147	<last set of records> /
	148	<0 byte read>
	149	...
	150
151	There may be more than one combination of MCE and corresponding record set
152	within one data set and the end of each data set is indicated by a successful
153	read with a return value of 0 (0 byte read).
154	Any received data must be considered invalid until a complete set was
155	read successfully, including the closing 0 byte read. Therefore you should
156	always read the complete set into a buffer before processing the data.
157
158	The maximum size of a data set can be as large as the size of the
159	monitor DCSS, so design the buffer adequately or use dynamic memory allocation.
160	The size of the monitor DCSS will be printed into syslog after loading the
161	module. You can also use the (Class E privileged) CP command Q NSS MAP to
162	list all available segments and information about them.
163
164	As with most char devices, error conditions are indicated by returning a
165	negative value for the number of bytes read. In this case, the errno variable
166	indicates the error condition:
167
168	EIO: reply failed, read data is invalid and the application
169	should discard the data read since the last successful read with 0 size.
170	EFAULT: copy_to_user failed, read data is invalid and the application should
171	discard the data read since the last successful read with 0 size.
172	EAGAIN: occurs on a non-blocking read if there is no data available at the
173	moment. There is no data missing or corrupted, just try again or rather
174	use polling for non-blocking reads.
175	EOVERFLOW: message limit reached, the data read since the last successful
176	read with 0 size is valid but subsequent records may be missing.
177
178	In the last case (EOVERFLOW) there may be missing data, in the first two cases
179	(EIO, EFAULT) there will be missing data. It's up to the application if it will
180	continue reading subsequent data or rather exit.
181
182	Open:
183	-----
184	Only one user is allowed to open the char device. If it is already in use, the
185	open function will fail (return a negative value) and set errno to EBUSY.
186	The open function may also fail if an IUCV connection to the *MONITOR service
187	cannot be established. In this case errno will be set to EIO and an error
188	message with an IPUSER SEVER code will be printed into syslog. The IPUSER SEVER
189	codes are described in the "z/VM Performance" book, Appendix A.
190
191	NOTE:
192	-----
193	As soon as the device is opened, incoming messages will be accepted and they
194	will account for the message limit, i.e. opening the device without reading
195	from it will provoke the "message limit reached" error (EOVERFLOW error code)
196	eventually.
197