mirror of https://gitee.com/openkylin/linux.git
Merge git://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux
This commit is contained in:
commit
ddb5388ffd
8
CREDITS
8
CREDITS
|
@ -1507,6 +1507,14 @@ S: 312/107 Canberra Avenue
|
|||
S: Griffith, ACT 2603
|
||||
S: Australia
|
||||
|
||||
N: Andreas Herrmann
|
||||
E: herrmann.der.user@gmail.com
|
||||
E: herrmann.der.user@googlemail.com
|
||||
D: Key developer of x86/AMD64
|
||||
D: Author of AMD family 15h processor power monitoring driver
|
||||
D: Maintainer of AMD Athlon 64 and Opteron processor frequency driver
|
||||
S: Germany
|
||||
|
||||
N: Sebastian Hetze
|
||||
E: she@lunetix.de
|
||||
D: German Linux Documentation,
|
||||
|
|
|
@ -19,6 +19,25 @@ Description:
|
|||
Set to 0 to pad all frames. Set greater than tx_max to
|
||||
disable all padding.
|
||||
|
||||
What: /sys/class/net/<iface>/cdc_ncm/ndp_to_end
|
||||
Date: Dec 2015
|
||||
KernelVersion: 4.5
|
||||
Contact: Bjørn Mork <bjorn@mork.no>
|
||||
Description:
|
||||
Boolean attribute showing the status of the "NDP to
|
||||
end" quirk. Defaults to 'N', except for devices
|
||||
already known to need it enabled.
|
||||
|
||||
The "NDP to end" quirk makes the driver place the NDP
|
||||
(the packet index table) after the payload. The NCM
|
||||
specification does not mandate this, but some devices
|
||||
are known to be more restrictive. Write 'Y' to this
|
||||
attribute for temporary testing of a suspect device
|
||||
failing to work with the default driver settings.
|
||||
|
||||
A device entry should be added to the driver if this
|
||||
quirk is found to be required.
|
||||
|
||||
What: /sys/class/net/<iface>/cdc_ncm/rx_max
|
||||
Date: May 2014
|
||||
KernelVersion: 3.16
|
||||
|
|
|
@ -8,7 +8,7 @@ Description:
|
|||
|
||||
What: /sys/class/net/<mesh_iface>/mesh/<vlan_subdir>/ap_isolation
|
||||
Date: May 2011
|
||||
Contact: Antonio Quartulli <antonio@meshcoding.com>
|
||||
Contact: Antonio Quartulli <a@unstable.cc>
|
||||
Description:
|
||||
Indicates whether the data traffic going from a
|
||||
wireless client to another wireless client will be
|
||||
|
@ -70,7 +70,7 @@ Description:
|
|||
|
||||
What: /sys/class/net/<mesh_iface>/mesh/isolation_mark
|
||||
Date: Nov 2013
|
||||
Contact: Antonio Quartulli <antonio@meshcoding.com>
|
||||
Contact: Antonio Quartulli <a@unstable.cc>
|
||||
Description:
|
||||
Defines the isolation mark (and its bitmask) which
|
||||
is used to classify clients as "isolated" by the
|
||||
|
|
|
@ -0,0 +1,23 @@
|
|||
What: /sys/class/net/<iface>/qmi/raw_ip
|
||||
Date: Dec 2015
|
||||
KernelVersion: 4.4
|
||||
Contact: Bjørn Mork <bjorn@mork.no>
|
||||
Description:
|
||||
Boolean. Default: 'N'
|
||||
|
||||
Set this to 'Y' to change the network device link
|
||||
framing from '802.3' to 'raw-ip'.
|
||||
|
||||
The netdev will change to reflect the link framing
|
||||
mode. The netdev is an ordinary ethernet device in
|
||||
'802.3' mode, and the driver expects to exchange
|
||||
frames with an ethernet header over the USB link. The
|
||||
netdev is a headerless p-t-p device in 'raw-ip' mode,
|
||||
and the driver expects to echange IPv4 or IPv6 packets
|
||||
without any L2 header over the USB link.
|
||||
|
||||
Userspace is in full control of firmware configuration
|
||||
through the delegation of the QMI protocol. Userspace
|
||||
is responsible for coordination of driver and firmware
|
||||
link framing mode, changing this setting to 'Y' if the
|
||||
firmware is configured for 'raw-ip' mode.
|
|
@ -238,78 +238,26 @@ X!Isound/sound_firmware.c
|
|||
!Iinclude/media/videobuf2-memops.h
|
||||
</sect1>
|
||||
<sect1><title>Digital TV (DVB) devices</title>
|
||||
!Idrivers/media/dvb-core/dvb_ca_en50221.h
|
||||
!Idrivers/media/dvb-core/dvb_frontend.h
|
||||
<sect1><title>Digital TV Common functions</title>
|
||||
!Idrivers/media/dvb-core/dvb_math.h
|
||||
!Idrivers/media/dvb-core/dvb_ringbuffer.h
|
||||
!Idrivers/media/dvb-core/dvbdev.h
|
||||
<sect1><title>Digital TV Demux API</title>
|
||||
<para>The kernel demux API defines a driver-internal interface for
|
||||
registering low-level, hardware specific driver to a hardware
|
||||
independent demux layer. It is only of interest for Digital TV
|
||||
device driver writers. The header file for this API is named
|
||||
<constant>demux.h</constant> and located in
|
||||
<constant>drivers/media/dvb-core</constant>.</para>
|
||||
|
||||
<para>The demux API should be implemented for each demux in the
|
||||
system. It is used to select the TS source of a demux and to manage
|
||||
the demux resources. When the demux client allocates a resource via
|
||||
the demux API, it receives a pointer to the API of that
|
||||
resource.</para>
|
||||
<para>Each demux receives its TS input from a DVB front-end or from
|
||||
memory, as set via this demux API. In a system with more than one
|
||||
front-end, the API can be used to select one of the DVB front-ends
|
||||
as a TS source for a demux, unless this is fixed in the HW platform.
|
||||
The demux API only controls front-ends regarding to their connections
|
||||
with demuxes; the APIs used to set the other front-end parameters,
|
||||
such as tuning, are not defined in this document.</para>
|
||||
<para>The functions that implement the abstract interface demux should
|
||||
be defined static or module private and registered to the Demux
|
||||
core for external access. It is not necessary to implement every
|
||||
function in the struct <constant>dmx_demux</constant>. For example,
|
||||
a demux interface might support Section filtering, but not PES
|
||||
filtering. The API client is expected to check the value of any
|
||||
function pointer before calling the function: the value of NULL means
|
||||
that the “function is not available”.</para>
|
||||
<para>Whenever the functions of the demux API modify shared data,
|
||||
the possibilities of lost update and race condition problems should
|
||||
be addressed, e.g. by protecting parts of code with mutexes.</para>
|
||||
<para>Note that functions called from a bottom half context must not
|
||||
sleep. Even a simple memory allocation without using GFP_ATOMIC can
|
||||
result in a kernel thread being put to sleep if swapping is needed.
|
||||
For example, the Linux kernel calls the functions of a network device
|
||||
interface from a bottom half context. Thus, if a demux API function
|
||||
is called from network device code, the function must not sleep.
|
||||
</para>
|
||||
</sect1>
|
||||
|
||||
<section id="demux_callback_api">
|
||||
<title>Demux Callback API</title>
|
||||
<para>This kernel-space API comprises the callback functions that
|
||||
deliver filtered data to the demux client. Unlike the other DVB
|
||||
kABIs, these functions are provided by the client and called from
|
||||
the demux code.</para>
|
||||
<para>The function pointers of this abstract interface are not
|
||||
packed into a structure as in the other demux APIs, because the
|
||||
callback functions are registered and used independent of each
|
||||
other. As an example, it is possible for the API client to provide
|
||||
several callback functions for receiving TS packets and no
|
||||
callbacks for PES packets or sections.</para>
|
||||
<para>The functions that implement the callback API need not be
|
||||
re-entrant: when a demux driver calls one of these functions,
|
||||
the driver is not allowed to call the function again before
|
||||
the original call returns. If a callback is triggered by a
|
||||
hardware interrupt, it is recommended to use the Linux
|
||||
“bottom half” mechanism or start a tasklet instead of
|
||||
making the callback function call directly from a hardware
|
||||
interrupt.</para>
|
||||
<para>This mechanism is implemented by
|
||||
<link linkend='API-dmx-ts-cb'>dmx_ts_cb()</link> and
|
||||
<link linkend='API-dmx-section-cb'>dmx_section_cb()</link>.</para>
|
||||
</section>
|
||||
|
||||
</sect1>
|
||||
<sect1><title>Digital TV Frontend kABI</title>
|
||||
!Pdrivers/media/dvb-core/dvb_frontend.h Digital TV Frontend
|
||||
!Idrivers/media/dvb-core/dvb_frontend.h
|
||||
</sect1>
|
||||
<sect1><title>Digital TV Demux kABI</title>
|
||||
!Pdrivers/media/dvb-core/demux.h Digital TV Demux
|
||||
<sect1><title>Demux Callback API</title>
|
||||
!Pdrivers/media/dvb-core/demux.h Demux Callback
|
||||
</sect1>
|
||||
!Idrivers/media/dvb-core/demux.h
|
||||
</sect1>
|
||||
</sect1>
|
||||
<sect1><title>Digital TV Conditional Access kABI</title>
|
||||
!Idrivers/media/dvb-core/dvb_ca_en50221.h
|
||||
</sect1>
|
||||
</sect1>
|
||||
<sect1><title>Remote Controller devices</title>
|
||||
!Iinclude/media/rc-core.h
|
||||
!Iinclude/media/lirc_dev.h
|
||||
|
|
|
@ -199,8 +199,10 @@ DVB_DOCUMENTED = \
|
|||
#
|
||||
|
||||
install_media_images = \
|
||||
$(Q)-mkdir $(MEDIA_OBJ_DIR)/media_api; \
|
||||
cp $(OBJIMGFILES) $(MEDIA_SRC_DIR)/*.svg $(MEDIA_SRC_DIR)/v4l/*.svg $(MEDIA_OBJ_DIR)/media_api
|
||||
$(Q)if [ "x$(findstring media_api.xml,$(DOCBOOKS))" != "x" ]; then \
|
||||
mkdir -p $(MEDIA_OBJ_DIR)/media_api; \
|
||||
cp $(OBJIMGFILES) $(MEDIA_SRC_DIR)/*.svg $(MEDIA_SRC_DIR)/v4l/*.svg $(MEDIA_OBJ_DIR)/media_api; \
|
||||
fi
|
||||
|
||||
$(MEDIA_OBJ_DIR)/%: $(MEDIA_SRC_DIR)/%.b64
|
||||
$(Q)base64 -d $< >$@
|
||||
|
|
|
@ -76,7 +76,7 @@ int main(void)
|
|||
|
||||
<para>NOTE: While it is possible to directly call the Kernel code like the
|
||||
above example, it is strongly recommended to use
|
||||
<ulink url="http://linuxtv.org/docs/libdvbv5/index.html">libdvbv5</ulink>,
|
||||
<ulink url="https://linuxtv.org/docs/libdvbv5/index.html">libdvbv5</ulink>,
|
||||
as it provides abstraction to work with the supported digital TV standards
|
||||
and provides methods for usual operations like program scanning and to
|
||||
read/write channel descriptor files.</para>
|
||||
|
|
|
@ -3,7 +3,7 @@
|
|||
</para>
|
||||
<para>NOTE: This section is out of date, and the code below won't even
|
||||
compile. Please refer to the
|
||||
<ulink url="http://linuxtv.org/docs/libdvbv5/index.html">libdvbv5</ulink>
|
||||
<ulink url="https://linuxtv.org/docs/libdvbv5/index.html">libdvbv5</ulink>
|
||||
for updated/recommended examples.
|
||||
</para>
|
||||
|
||||
|
|
|
@ -32,7 +32,7 @@ and filtering several section and PES data streams at the same time.
|
|||
new standard Linux DVB API. As a commitment to the development of
|
||||
terminals based on open standards, Nokia and Convergence made it
|
||||
available to all Linux developers and published it on
|
||||
<ulink url="http://www.linuxtv.org/" /> in September 2000.
|
||||
<ulink url="https://linuxtv.org" /> in September 2000.
|
||||
Convergence is the maintainer of the Linux DVB API. Together with the
|
||||
LinuxTV community (i.e. you, the reader of this document), the Linux DVB
|
||||
API will be constantly reviewed and improved. With the Linux driver for
|
||||
|
|
|
@ -5,7 +5,7 @@
|
|||
* This program can be used and distributed without restrictions.
|
||||
*
|
||||
* This program is provided with the V4L2 API
|
||||
* see http://linuxtv.org/docs.php for more information
|
||||
* see https://linuxtv.org/docs.php for more information
|
||||
*/
|
||||
|
||||
#include <stdio.h>
|
||||
|
|
|
@ -2666,7 +2666,7 @@ is useful to display images captured with V4L2 devices.</para>
|
|||
<para>V4L2 does not support digital terrestrial, cable or
|
||||
satellite broadcast. A separate project aiming at digital receivers
|
||||
exists. You can find its homepage at <ulink
|
||||
url="http://linuxtv.org">http://linuxtv.org</ulink>. The Linux DVB API
|
||||
url="https://linuxtv.org">https://linuxtv.org</ulink>. The Linux DVB API
|
||||
has no connection to the V4L2 API except that drivers for hybrid
|
||||
hardware may support both.</para>
|
||||
</section>
|
||||
|
|
|
@ -699,7 +699,7 @@ linkend="v4l2-buf-type" /></entry>
|
|||
buffer. It depends on the negotiated data format and may change with
|
||||
each buffer for compressed variable size data like JPEG images.
|
||||
Drivers must set this field when <structfield>type</structfield>
|
||||
refers to an input stream, applications when it refers to an output stream.
|
||||
refers to a capture stream, applications when it refers to an output stream.
|
||||
If the application sets this to 0 for an output stream, then
|
||||
<structfield>bytesused</structfield> will be set to the size of the
|
||||
buffer (see the <structfield>length</structfield> field of this struct) by
|
||||
|
@ -720,14 +720,14 @@ linkend="buffer-flags" />.</entry>
|
|||
<entry>Indicates the field order of the image in the
|
||||
buffer, see <xref linkend="v4l2-field" />. This field is not used when
|
||||
the buffer contains VBI data. Drivers must set it when
|
||||
<structfield>type</structfield> refers to an input stream,
|
||||
<structfield>type</structfield> refers to a capture stream,
|
||||
applications when it refers to an output stream.</entry>
|
||||
</row>
|
||||
<row>
|
||||
<entry>struct timeval</entry>
|
||||
<entry><structfield>timestamp</structfield></entry>
|
||||
<entry></entry>
|
||||
<entry><para>For input streams this is time when the first data
|
||||
<entry><para>For capture streams this is time when the first data
|
||||
byte was captured, as returned by the
|
||||
<function>clock_gettime()</function> function for the relevant
|
||||
clock id; see <constant>V4L2_BUF_FLAG_TIMESTAMP_*</constant> in
|
||||
|
@ -866,7 +866,7 @@ must set this to 0.</entry>
|
|||
<entry></entry>
|
||||
<entry>The number of bytes occupied by data in the plane
|
||||
(its payload). Drivers must set this field when <structfield>type</structfield>
|
||||
refers to an input stream, applications when it refers to an output stream.
|
||||
refers to a capture stream, applications when it refers to an output stream.
|
||||
If the application sets this to 0 for an output stream, then
|
||||
<structfield>bytesused</structfield> will be set to the size of the
|
||||
plane (see the <structfield>length</structfield> field of this struct)
|
||||
|
@ -919,7 +919,7 @@ must set this to 0.</entry>
|
|||
<entry></entry>
|
||||
<entry>Offset in bytes to video data in the plane.
|
||||
Drivers must set this field when <structfield>type</structfield>
|
||||
refers to an input stream, applications when it refers to an output stream.
|
||||
refers to a capture stream, applications when it refers to an output stream.
|
||||
Note that data_offset is included in <structfield>bytesused</structfield>.
|
||||
So the size of the image in the plane is
|
||||
<structfield>bytesused</structfield>-<structfield>data_offset</structfield> at
|
||||
|
|
|
@ -151,6 +151,16 @@ Rubli, Andy Walls, Muralidharan Karicheri, Mauro Carvalho Chehab,
|
|||
structs, ioctls) must be noted in more detail in the history chapter
|
||||
(compat.xml), along with the possible impact on existing drivers and
|
||||
applications. -->
|
||||
<revision>
|
||||
<revnumber>4.5</revnumber>
|
||||
<date>2015-10-29</date>
|
||||
<authorinitials>rr</authorinitials>
|
||||
<revremark>Extend vidioc-g-ext-ctrls;. Replace ctrl_class with a new
|
||||
union with ctrl_class and which. Which is used to select the current value of
|
||||
the control or the default value.
|
||||
</revremark>
|
||||
</revision>
|
||||
|
||||
<revision>
|
||||
<revnumber>4.4</revnumber>
|
||||
<date>2015-05-26</date>
|
||||
|
|
|
@ -58,7 +58,7 @@
|
|||
<para>This ioctl is used to create buffers for <link linkend="mmap">memory
|
||||
mapped</link> or <link linkend="userp">user pointer</link> or <link
|
||||
linkend="dmabuf">DMA buffer</link> I/O. It can be used as an alternative or in
|
||||
addition to the <constant>VIDIOC_REQBUFS</constant> ioctl, when a tighter
|
||||
addition to the &VIDIOC-REQBUFS; ioctl, when a tighter
|
||||
control over buffers is required. This ioctl can be called multiple times to
|
||||
create buffers of different sizes.</para>
|
||||
|
||||
|
@ -71,30 +71,28 @@ zeroed.</para>
|
|||
|
||||
<para>The <structfield>format</structfield> field specifies the image format
|
||||
that the buffers must be able to handle. The application has to fill in this
|
||||
&v4l2-format;. Usually this will be done using the
|
||||
<constant>VIDIOC_TRY_FMT</constant> or <constant>VIDIOC_G_FMT</constant> ioctl()
|
||||
to ensure that the requested format is supported by the driver. Unsupported
|
||||
formats will result in an error.</para>
|
||||
&v4l2-format;. Usually this will be done using the &VIDIOC-TRY-FMT; or &VIDIOC-G-FMT; ioctls
|
||||
to ensure that the requested format is supported by the driver.
|
||||
Based on the format's <structfield>type</structfield> field the requested buffer
|
||||
size (for single-planar) or plane sizes (for multi-planar formats) will be
|
||||
used for the allocated buffers. The driver may return an error if the size(s)
|
||||
are not supported by the hardware (usually because they are too small).</para>
|
||||
|
||||
<para>The buffers created by this ioctl will have as minimum size the size
|
||||
defined by the <structfield>format.pix.sizeimage</structfield> field. If the
|
||||
defined by the <structfield>format.pix.sizeimage</structfield> field (or the
|
||||
corresponding fields for other format types). Usually if the
|
||||
<structfield>format.pix.sizeimage</structfield> field is less than the minimum
|
||||
required for the given format, then <structfield>sizeimage</structfield> will be
|
||||
increased by the driver to that minimum to allocate the buffers. If it is
|
||||
larger, then the value will be used as-is. The same applies to the
|
||||
<structfield>sizeimage</structfield> field of the
|
||||
<structname>v4l2_plane_pix_format</structname> structure in the case of
|
||||
multiplanar formats.</para>
|
||||
required for the given format, then an error will be returned since drivers will
|
||||
typically not allow this. If it is larger, then the value will be used as-is.
|
||||
In other words, the driver may reject the requested size, but if it is accepted
|
||||
the driver will use it unchanged.</para>
|
||||
|
||||
<para>When the ioctl is called with a pointer to this structure the driver
|
||||
will attempt to allocate up to the requested number of buffers and store the
|
||||
actual number allocated and the starting index in the
|
||||
<structfield>count</structfield> and the <structfield>index</structfield> fields
|
||||
respectively. On return <structfield>count</structfield> can be smaller than
|
||||
the number requested. The driver may also increase buffer sizes if required,
|
||||
however, it will not update <structfield>sizeimage</structfield> field values.
|
||||
The user has to use <constant>VIDIOC_QUERYBUF</constant> to retrieve that
|
||||
information.</para>
|
||||
the number requested.</para>
|
||||
|
||||
<table pgwide="1" frame="none" id="v4l2-create-buffers">
|
||||
<title>struct <structname>v4l2_create_buffers</structname></title>
|
||||
|
|
|
@ -99,7 +99,7 @@ if the driver supports writing registers to the device.</para>
|
|||
<para>We recommended the <application>v4l2-dbg</application>
|
||||
utility over calling this ioctl directly. It is available from the
|
||||
LinuxTV v4l-dvb repository; see <ulink
|
||||
url="http://linuxtv.org/repo/">http://linuxtv.org/repo/</ulink> for
|
||||
url="https://linuxtv.org/repo/">https://linuxtv.org/repo/</ulink> for
|
||||
access instructions.</para>
|
||||
|
||||
<!-- Note for convenience vidioc-dbg-g-register.sgml
|
||||
|
|
|
@ -117,7 +117,7 @@ However when a driver supports these ioctls it must also support
|
|||
<para>We recommended the <application>v4l2-dbg</application>
|
||||
utility over calling these ioctls directly. It is available from the
|
||||
LinuxTV v4l-dvb repository; see <ulink
|
||||
url="http://linuxtv.org/repo/">http://linuxtv.org/repo/</ulink> for
|
||||
url="https://linuxtv.org/repo/">https://linuxtv.org/repo/</ulink> for
|
||||
access instructions.</para>
|
||||
|
||||
<!-- Note for convenience vidioc-dbg-g-chip-info.sgml
|
||||
|
|
|
@ -198,7 +198,7 @@ video4linux-list@redhat.com on 17 Oct 2002
|
|||
<constant>V4L2_STD_ATSC_16_VSB</constant> are U.S. terrestrial digital
|
||||
TV standards. Presently the V4L2 API does not support digital TV. See
|
||||
also the Linux DVB API at <ulink
|
||||
url="http://linuxtv.org">http://linuxtv.org</ulink>.</para>
|
||||
url="https://linuxtv.org">https://linuxtv.org</ulink>.</para>
|
||||
<para><programlisting>
|
||||
#define V4L2_STD_PAL_BG (V4L2_STD_PAL_B |\
|
||||
V4L2_STD_PAL_B1 |\
|
||||
|
|
|
@ -61,7 +61,7 @@ must belong to the same control class.</para>
|
|||
|
||||
<para>Applications must always fill in the
|
||||
<structfield>count</structfield>,
|
||||
<structfield>ctrl_class</structfield>,
|
||||
<structfield>which</structfield>,
|
||||
<structfield>controls</structfield> and
|
||||
<structfield>reserved</structfield> fields of &v4l2-ext-controls;, and
|
||||
initialize the &v4l2-ext-control; array pointed to by the
|
||||
|
@ -109,7 +109,7 @@ the driver whether wrong values are automatically adjusted to a valid
|
|||
value or if an error is returned.</para>
|
||||
|
||||
<para>When the <structfield>id</structfield> or
|
||||
<structfield>ctrl_class</structfield> is invalid drivers return an
|
||||
<structfield>which</structfield> is invalid drivers return an
|
||||
&EINVAL;. When the value is out of bounds drivers can choose to take
|
||||
the closest valid value or return an &ERANGE;, whatever seems more
|
||||
appropriate. In the first case the new value is set in
|
||||
|
@ -223,7 +223,12 @@ Valid if <constant>V4L2_CTRL_FLAG_HAS_PAYLOAD</constant> is set for this control
|
|||
<tgroup cols="3">
|
||||
&cs-str;
|
||||
<tbody valign="top">
|
||||
<row>
|
||||
<entry>union</entry>
|
||||
<entry>(anonymous)</entry>
|
||||
</row>
|
||||
<row>
|
||||
<entry></entry>
|
||||
<entry>__u32</entry>
|
||||
<entry><structfield>ctrl_class</structfield></entry>
|
||||
<entry>The control class to which all controls belong, see
|
||||
|
@ -233,6 +238,23 @@ belong to any control class. Whether drivers support this can be tested by setti
|
|||
<structfield>ctrl_class</structfield> to 0 and calling <constant>VIDIOC_TRY_EXT_CTRLS</constant>
|
||||
with a <structfield>count</structfield> of 0. If that succeeds, then the driver
|
||||
supports this feature.</entry>
|
||||
</row>
|
||||
<row>
|
||||
<entry></entry>
|
||||
<entry>__u32</entry>
|
||||
<entry><structfield>which</structfield></entry>
|
||||
<entry><para>Which value of the control to get/set/try. <constant>V4L2_CTRL_WHICH_CUR_VAL</constant>
|
||||
will return the current value of the control and <constant>V4L2_CTRL_WHICH_DEF_VAL</constant> will
|
||||
return the default value of the control. Please note that you can only get the default value of the
|
||||
control, you cannot set or try it.</para>
|
||||
<para>For backwards compatibility you can also use a control class here (see
|
||||
<xref linkend="ctrl-class" />). In that case all controls have to belong to that
|
||||
control class. This usage is deprecated, instead just use <constant>V4L2_CTRL_WHICH_CUR_VAL</constant>.
|
||||
There are some very old drivers that do not yet support <constant>V4L2_CTRL_WHICH_CUR_VAL</constant>
|
||||
and that require a control class here. You can test for such drivers by setting ctrl_class to
|
||||
<constant>V4L2_CTRL_WHICH_CUR_VAL</constant> and calling VIDIOC_TRY_EXT_CTRLS with a count of 0.
|
||||
If that fails, then the driver does not support <constant>V4L2_CTRL_WHICH_CUR_VAL</constant>.</para>
|
||||
</entry>
|
||||
</row>
|
||||
<row>
|
||||
<entry>__u32</entry>
|
||||
|
@ -390,7 +412,7 @@ These controls are described in <xref linkend="rf-tuner-controls" />.</entry>
|
|||
<listitem>
|
||||
<para>The &v4l2-ext-control; <structfield>id</structfield>
|
||||
is invalid, the &v4l2-ext-controls;
|
||||
<structfield>ctrl_class</structfield> is invalid, or the &v4l2-ext-control;
|
||||
<structfield>which</structfield> is invalid, or the &v4l2-ext-control;
|
||||
<structfield>value</structfield> was inappropriate (e.g. the given menu
|
||||
index is not supported by the driver). This error code is
|
||||
also returned by the <constant>VIDIOC_S_EXT_CTRLS</constant> and
|
||||
|
|
|
@ -19,10 +19,10 @@
|
|||
<!ENTITY cs-def "<colspec colname='c1' colwidth='3*' /><colspec colname='c2' colwidth='1*' /><colspec colname='c3' colwidth='4*' /><spanspec spanname='hspan' namest='c1' nameend='c3' />">
|
||||
|
||||
<!-- Video for Linux mailing list address. -->
|
||||
<!ENTITY v4l-ml "<ulink url='http://www.linuxtv.org/lists.php'>http://www.linuxtv.org/lists.php</ulink>">
|
||||
<!ENTITY v4l-ml "<ulink url='https://linuxtv.org/lists.php'>https://linuxtv.org/lists.php</ulink>">
|
||||
|
||||
<!-- LinuxTV v4l-dvb repository. -->
|
||||
<!ENTITY v4l-dvb "<ulink url='http://linuxtv.org/repo/'>http://linuxtv.org/repo/</ulink>">
|
||||
<!ENTITY v4l-dvb "<ulink url='https://linuxtv.org/repo/'>https://linuxtv.org/repo/</ulink>">
|
||||
<!ENTITY dash-ent-8 "<entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry>">
|
||||
<!ENTITY dash-ent-10 "<entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry>">
|
||||
<!ENTITY dash-ent-12 "<entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry><entry>-</entry>">
|
||||
|
@ -91,7 +91,7 @@
|
|||
components, like mixers, PCM capture, PCM playback, etc, which
|
||||
are controlled via ALSA API.</para>
|
||||
<para>For additional information and for the latest development code,
|
||||
see: <ulink url="http://linuxtv.org">http://linuxtv.org</ulink>.</para>
|
||||
see: <ulink url="https://linuxtv.org">https://linuxtv.org</ulink>.</para>
|
||||
<para>For discussing improvements, reporting troubles, sending new drivers, etc, please mail to: <ulink url="http://vger.kernel.org/vger-lists.html#linux-media">Linux Media Mailing List (LMML).</ulink>.</para>
|
||||
</preface>
|
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style="font-size:10px;font-style:normal;font-variant:normal;font-weight:normal;font-stretch:normal;text-align:center;line-height:125%;letter-spacing:0px;word-spacing:0px;writing-mode:lr-tb;text-anchor:middle;fill:#000000;fill-opacity:1;stroke:none;font-family:Symbol;-inkscape-font-specification:Symbol"
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style="font-size:10px;font-style:normal;font-variant:normal;font-weight:normal;font-stretch:normal;text-align:center;line-height:125%;letter-spacing:0px;word-spacing:0px;writing-mode:lr-tb;text-anchor:middle;fill:#000000;fill-opacity:1;stroke:none;font-family:Symbol;-inkscape-font-specification:Symbol"
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sodipodi:role="line"
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id="tspan4650-77-7"
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x="256.75986"
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y="586.99133">QS</tspan></text>
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sodipodi:type="arc"
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sodipodi:rx="10.960155"
|
||||
sodipodi:ry="10.253048"
|
||||
d="m 358.86939,132.62237 a 10.960155,10.253048 0 1 1 -0.0228,0"
|
||||
transform="translate(-101.74328,440.93395)"
|
||||
sodipodi:start="4.7135481"
|
||||
sodipodi:end="10.994651"
|
||||
sodipodi:open="true" />
|
||||
<text
|
||||
xml:space="preserve"
|
||||
style="font-size:10px;font-style:normal;font-variant:normal;font-weight:normal;font-stretch:normal;text-align:center;line-height:125%;letter-spacing:0px;word-spacing:0px;writing-mode:lr-tb;text-anchor:middle;fill:#000000;fill-opacity:1;stroke:none;font-family:Symbol;-inkscape-font-specification:Symbol"
|
||||
x="546.22791"
|
||||
y="213.91006"
|
||||
id="text4461-2-5"
|
||||
sodipodi:linespacing="125%"><tspan
|
||||
sodipodi:role="line"
|
||||
id="tspan4463-2-6"
|
||||
x="546.22791"
|
||||
y="213.91006">thread3()</tspan></text>
|
||||
<text
|
||||
xml:space="preserve"
|
||||
style="font-size:10px;font-style:normal;font-variant:normal;font-weight:normal;font-stretch:normal;text-align:center;line-height:125%;letter-spacing:0px;word-spacing:0px;writing-mode:lr-tb;text-anchor:middle;fill:#000000;fill-opacity:1;stroke:none;font-family:Symbol;-inkscape-font-specification:Symbol"
|
||||
x="684.00067"
|
||||
y="213.91006"
|
||||
id="text4461-2-1"
|
||||
sodipodi:linespacing="125%"><tspan
|
||||
sodipodi:role="line"
|
||||
id="tspan4463-2-0"
|
||||
x="684.00067"
|
||||
y="213.91006">thread4()</tspan></text>
|
||||
</g>
|
||||
</svg>
|
After Width: | Height: | Size: 29 KiB |
File diff suppressed because it is too large
Load Diff
File diff suppressed because it is too large
Load Diff
|
@ -0,0 +1,108 @@
|
|||
#!/bin/sh
|
||||
#
|
||||
# Usage: sh htmlqqz.sh file
|
||||
#
|
||||
# Extracts and converts quick quizzes in a proto-HTML document file.htmlx.
|
||||
# Commands, all of which must be on a line by themselves:
|
||||
#
|
||||
# "<p>@@QQ@@": Start of a quick quiz.
|
||||
# "<p>@@QQA@@": Start of a quick-quiz answer.
|
||||
# "<p>@@QQE@@": End of a quick-quiz answer, and thus of the quick quiz.
|
||||
# "<p>@@QQAL@@": Place to put quick-quiz answer list.
|
||||
#
|
||||
# Places the result in file.html.
|
||||
#
|
||||
# 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, you can access it online at
|
||||
# http://www.gnu.org/licenses/gpl-2.0.html.
|
||||
#
|
||||
# Copyright (c) 2013 Paul E. McKenney, IBM Corporation.
|
||||
|
||||
fn=$1
|
||||
if test ! -r $fn.htmlx
|
||||
then
|
||||
echo "Error: $fn.htmlx unreadable."
|
||||
exit 1
|
||||
fi
|
||||
|
||||
echo "<!-- DO NOT HAND EDIT. -->" > $fn.html
|
||||
echo "<!-- Instead, edit $fn.htmlx and run 'sh htmlqqz.sh $fn' -->" >> $fn.html
|
||||
awk < $fn.htmlx >> $fn.html '
|
||||
|
||||
state == "" && $1 != "<p>@@QQ@@" && $1 != "<p>@@QQAL@@" {
|
||||
print $0;
|
||||
if ($0 ~ /^<p>@@QQ/)
|
||||
print "Bad Quick Quiz command: " NR " (expected <p>@@QQ@@ or <p>@@QQAL@@)." > "/dev/stderr"
|
||||
next;
|
||||
}
|
||||
|
||||
state == "" && $1 == "<p>@@QQ@@" {
|
||||
qqn++;
|
||||
qqlineno = NR;
|
||||
haveqq = 1;
|
||||
state = "qq";
|
||||
print "<p><a name=\"Quick Quiz " qqn "\"><b>Quick Quiz " qqn "</b>:</a>"
|
||||
next;
|
||||
}
|
||||
|
||||
state == "qq" && $1 != "<p>@@QQA@@" {
|
||||
qq[qqn] = qq[qqn] $0 "\n";
|
||||
print $0
|
||||
if ($0 ~ /^<p>@@QQ/)
|
||||
print "Bad Quick Quiz command: " NR ". (expected <p>@@QQA@@)" > "/dev/stderr"
|
||||
next;
|
||||
}
|
||||
|
||||
state == "qq" && $1 == "<p>@@QQA@@" {
|
||||
state = "qqa";
|
||||
print "<br><a href=\"#qq" qqn "answer\">Answer</a>"
|
||||
next;
|
||||
}
|
||||
|
||||
state == "qqa" && $1 != "<p>@@QQE@@" {
|
||||
qqa[qqn] = qqa[qqn] $0 "\n";
|
||||
if ($0 ~ /^<p>@@QQ/)
|
||||
print "Bad Quick Quiz command: " NR " (expected <p>@@QQE@@)." > "/dev/stderr"
|
||||
next;
|
||||
}
|
||||
|
||||
state == "qqa" && $1 == "<p>@@QQE@@" {
|
||||
state = "";
|
||||
next;
|
||||
}
|
||||
|
||||
state == "" && $1 == "<p>@@QQAL@@" {
|
||||
haveqq = "";
|
||||
print "<h3><a name=\"Answers to Quick Quizzes\">"
|
||||
print "Answers to Quick Quizzes</a></h3>"
|
||||
print "";
|
||||
for (i = 1; i <= qqn; i++) {
|
||||
print "<a name=\"qq" i "answer\"></a>"
|
||||
print "<p><b>Quick Quiz " i "</b>:"
|
||||
print qq[i];
|
||||
print "";
|
||||
print "</p><p><b>Answer</b>:"
|
||||
print qqa[i];
|
||||
print "";
|
||||
print "</p><p><a href=\"#Quick%20Quiz%20" i "\"><b>Back to Quick Quiz " i "</b>.</a>"
|
||||
print "";
|
||||
}
|
||||
next;
|
||||
}
|
||||
|
||||
END {
|
||||
if (state != "")
|
||||
print "Unterminated Quick Quiz: " qqlineno "." > "/dev/stderr"
|
||||
else if (haveqq)
|
||||
print "Missing \"<p>@@QQAL@@\", no Quick Quiz." > "/dev/stderr"
|
||||
}'
|
|
@ -0,0 +1,58 @@
|
|||
Silicon Errata and Software Workarounds
|
||||
=======================================
|
||||
|
||||
Author: Will Deacon <will.deacon@arm.com>
|
||||
Date : 27 November 2015
|
||||
|
||||
It is an unfortunate fact of life that hardware is often produced with
|
||||
so-called "errata", which can cause it to deviate from the architecture
|
||||
under specific circumstances. For hardware produced by ARM, these
|
||||
errata are broadly classified into the following categories:
|
||||
|
||||
Category A: A critical error without a viable workaround.
|
||||
Category B: A significant or critical error with an acceptable
|
||||
workaround.
|
||||
Category C: A minor error that is not expected to occur under normal
|
||||
operation.
|
||||
|
||||
For more information, consult one of the "Software Developers Errata
|
||||
Notice" documents available on infocenter.arm.com (registration
|
||||
required).
|
||||
|
||||
As far as Linux is concerned, Category B errata may require some special
|
||||
treatment in the operating system. For example, avoiding a particular
|
||||
sequence of code, or configuring the processor in a particular way. A
|
||||
less common situation may require similar actions in order to declassify
|
||||
a Category A erratum into a Category C erratum. These are collectively
|
||||
known as "software workarounds" and are only required in the minority of
|
||||
cases (e.g. those cases that both require a non-secure workaround *and*
|
||||
can be triggered by Linux).
|
||||
|
||||
For software workarounds that may adversely impact systems unaffected by
|
||||
the erratum in question, a Kconfig entry is added under "Kernel
|
||||
Features" -> "ARM errata workarounds via the alternatives framework".
|
||||
These are enabled by default and patched in at runtime when an affected
|
||||
CPU is detected. For less-intrusive workarounds, a Kconfig option is not
|
||||
available and the code is structured (preferably with a comment) in such
|
||||
a way that the erratum will not be hit.
|
||||
|
||||
This approach can make it slightly onerous to determine exactly which
|
||||
errata are worked around in an arbitrary kernel source tree, so this
|
||||
file acts as a registry of software workarounds in the Linux Kernel and
|
||||
will be updated when new workarounds are committed and backported to
|
||||
stable kernels.
|
||||
|
||||
| Implementor | Component | Erratum ID | Kconfig |
|
||||
+----------------+-----------------+-----------------+-------------------------+
|
||||
| ARM | Cortex-A53 | #826319 | ARM64_ERRATUM_826319 |
|
||||
| ARM | Cortex-A53 | #827319 | ARM64_ERRATUM_827319 |
|
||||
| ARM | Cortex-A53 | #824069 | ARM64_ERRATUM_824069 |
|
||||
| ARM | Cortex-A53 | #819472 | ARM64_ERRATUM_819472 |
|
||||
| ARM | Cortex-A53 | #845719 | ARM64_ERRATUM_845719 |
|
||||
| ARM | Cortex-A53 | #843419 | ARM64_ERRATUM_843419 |
|
||||
| ARM | Cortex-A57 | #832075 | ARM64_ERRATUM_832075 |
|
||||
| ARM | Cortex-A57 | #852523 | N/A |
|
||||
| ARM | Cortex-A57 | #834220 | ARM64_ERRATUM_834220 |
|
||||
| | | | |
|
||||
| Cavium | ThunderX ITS | #22375, #24313 | CAVIUM_ERRATUM_22375 |
|
||||
| Cavium | ThunderX GICv3 | #23154 | CAVIUM_ERRATUM_23154 |
|
|
@ -24,7 +24,5 @@ net_prio.txt
|
|||
- Network priority cgroups details and usages.
|
||||
pids.txt
|
||||
- Process number cgroups details and usages.
|
||||
resource_counter.txt
|
||||
- Resource Counter API.
|
||||
unified-hierarchy.txt
|
||||
- Description the new/next cgroup interface.
|
|
@ -84,8 +84,7 @@ Throttling/Upper Limit policy
|
|||
|
||||
- Run dd to read a file and see if rate is throttled to 1MB/s or not.
|
||||
|
||||
# dd if=/mnt/common/zerofile of=/dev/null bs=4K count=1024
|
||||
# iflag=direct
|
||||
# dd iflag=direct if=/mnt/common/zerofile of=/dev/null bs=4K count=1024
|
||||
1024+0 records in
|
||||
1024+0 records out
|
||||
4194304 bytes (4.2 MB) copied, 4.0001 s, 1.0 MB/s
|
||||
|
@ -374,82 +373,3 @@ One can experience an overall throughput drop if you have created multiple
|
|||
groups and put applications in that group which are not driving enough
|
||||
IO to keep disk busy. In that case set group_idle=0, and CFQ will not idle
|
||||
on individual groups and throughput should improve.
|
||||
|
||||
Writeback
|
||||
=========
|
||||
|
||||
Page cache is dirtied through buffered writes and shared mmaps and
|
||||
written asynchronously to the backing filesystem by the writeback
|
||||
mechanism. Writeback sits between the memory and IO domains and
|
||||
regulates the proportion of dirty memory by balancing dirtying and
|
||||
write IOs.
|
||||
|
||||
On traditional cgroup hierarchies, relationships between different
|
||||
controllers cannot be established making it impossible for writeback
|
||||
to operate accounting for cgroup resource restrictions and all
|
||||
writeback IOs are attributed to the root cgroup.
|
||||
|
||||
If both the blkio and memory controllers are used on the v2 hierarchy
|
||||
and the filesystem supports cgroup writeback, writeback operations
|
||||
correctly follow the resource restrictions imposed by both memory and
|
||||
blkio controllers.
|
||||
|
||||
Writeback examines both system-wide and per-cgroup dirty memory status
|
||||
and enforces the more restrictive of the two. Also, writeback control
|
||||
parameters which are absolute values - vm.dirty_bytes and
|
||||
vm.dirty_background_bytes - are distributed across cgroups according
|
||||
to their current writeback bandwidth.
|
||||
|
||||
There's a peculiarity stemming from the discrepancy in ownership
|
||||
granularity between memory controller and writeback. While memory
|
||||
controller tracks ownership per page, writeback operates on inode
|
||||
basis. cgroup writeback bridges the gap by tracking ownership by
|
||||
inode but migrating ownership if too many foreign pages, pages which
|
||||
don't match the current inode ownership, have been encountered while
|
||||
writing back the inode.
|
||||
|
||||
This is a conscious design choice as writeback operations are
|
||||
inherently tied to inodes making strictly following page ownership
|
||||
complicated and inefficient. The only use case which suffers from
|
||||
this compromise is multiple cgroups concurrently dirtying disjoint
|
||||
regions of the same inode, which is an unlikely use case and decided
|
||||
to be unsupported. Note that as memory controller assigns page
|
||||
ownership on the first use and doesn't update it until the page is
|
||||
released, even if cgroup writeback strictly follows page ownership,
|
||||
multiple cgroups dirtying overlapping areas wouldn't work as expected.
|
||||
In general, write-sharing an inode across multiple cgroups is not well
|
||||
supported.
|
||||
|
||||
Filesystem support for cgroup writeback
|
||||
---------------------------------------
|
||||
|
||||
A filesystem can make writeback IOs cgroup-aware by updating
|
||||
address_space_operations->writepage[s]() to annotate bio's using the
|
||||
following two functions.
|
||||
|
||||
* wbc_init_bio(@wbc, @bio)
|
||||
|
||||
Should be called for each bio carrying writeback data and associates
|
||||
the bio with the inode's owner cgroup. Can be called anytime
|
||||
between bio allocation and submission.
|
||||
|
||||
* wbc_account_io(@wbc, @page, @bytes)
|
||||
|
||||
Should be called for each data segment being written out. While
|
||||
this function doesn't care exactly when it's called during the
|
||||
writeback session, it's the easiest and most natural to call it as
|
||||
data segments are added to a bio.
|
||||
|
||||
With writeback bio's annotated, cgroup support can be enabled per
|
||||
super_block by setting MS_CGROUPWB in ->s_flags. This allows for
|
||||
selective disabling of cgroup writeback support which is helpful when
|
||||
certain filesystem features, e.g. journaled data mode, are
|
||||
incompatible.
|
||||
|
||||
wbc_init_bio() binds the specified bio to its cgroup. Depending on
|
||||
the configuration, the bio may be executed at a lower priority and if
|
||||
the writeback session is holding shared resources, e.g. a journal
|
||||
entry, may lead to priority inversion. There is no one easy solution
|
||||
for the problem. Filesystems can try to work around specific problem
|
||||
cases by skipping wbc_init_bio() or using bio_associate_blkcg()
|
||||
directly.
|
File diff suppressed because it is too large
Load Diff
|
@ -1,647 +0,0 @@
|
|||
|
||||
Cgroup unified hierarchy
|
||||
|
||||
April, 2014 Tejun Heo <tj@kernel.org>
|
||||
|
||||
This document describes the changes made by unified hierarchy and
|
||||
their rationales. It will eventually be merged into the main cgroup
|
||||
documentation.
|
||||
|
||||
CONTENTS
|
||||
|
||||
1. Background
|
||||
2. Basic Operation
|
||||
2-1. Mounting
|
||||
2-2. cgroup.subtree_control
|
||||
2-3. cgroup.controllers
|
||||
3. Structural Constraints
|
||||
3-1. Top-down
|
||||
3-2. No internal tasks
|
||||
4. Delegation
|
||||
4-1. Model of delegation
|
||||
4-2. Common ancestor rule
|
||||
5. Other Changes
|
||||
5-1. [Un]populated Notification
|
||||
5-2. Other Core Changes
|
||||
5-3. Controller File Conventions
|
||||
5-3-1. Format
|
||||
5-3-2. Control Knobs
|
||||
5-4. Per-Controller Changes
|
||||
5-4-1. io
|
||||
5-4-2. cpuset
|
||||
5-4-3. memory
|
||||
6. Planned Changes
|
||||
6-1. CAP for resource control
|
||||
|
||||
|
||||
1. Background
|
||||
|
||||
cgroup allows an arbitrary number of hierarchies and each hierarchy
|
||||
can host any number of controllers. While this seems to provide a
|
||||
high level of flexibility, it isn't quite useful in practice.
|
||||
|
||||
For example, as there is only one instance of each controller, utility
|
||||
type controllers such as freezer which can be useful in all
|
||||
hierarchies can only be used in one. The issue is exacerbated by the
|
||||
fact that controllers can't be moved around once hierarchies are
|
||||
populated. Another issue is that all controllers bound to a hierarchy
|
||||
are forced to have exactly the same view of the hierarchy. It isn't
|
||||
possible to vary the granularity depending on the specific controller.
|
||||
|
||||
In practice, these issues heavily limit which controllers can be put
|
||||
on the same hierarchy and most configurations resort to putting each
|
||||
controller on its own hierarchy. Only closely related ones, such as
|
||||
the cpu and cpuacct controllers, make sense to put on the same
|
||||
hierarchy. This often means that userland ends up managing multiple
|
||||
similar hierarchies repeating the same steps on each hierarchy
|
||||
whenever a hierarchy management operation is necessary.
|
||||
|
||||
Unfortunately, support for multiple hierarchies comes at a steep cost.
|
||||
Internal implementation in cgroup core proper is dazzlingly
|
||||
complicated but more importantly the support for multiple hierarchies
|
||||
restricts how cgroup is used in general and what controllers can do.
|
||||
|
||||
There's no limit on how many hierarchies there may be, which means
|
||||
that a task's cgroup membership can't be described in finite length.
|
||||
The key may contain any varying number of entries and is unlimited in
|
||||
length, which makes it highly awkward to handle and leads to addition
|
||||
of controllers which exist only to identify membership, which in turn
|
||||
exacerbates the original problem.
|
||||
|
||||
Also, as a controller can't have any expectation regarding what shape
|
||||
of hierarchies other controllers would be on, each controller has to
|
||||
assume that all other controllers are operating on completely
|
||||
orthogonal hierarchies. This makes it impossible, or at least very
|
||||
cumbersome, for controllers to cooperate with each other.
|
||||
|
||||
In most use cases, putting controllers on hierarchies which are
|
||||
completely orthogonal to each other isn't necessary. What usually is
|
||||
called for is the ability to have differing levels of granularity
|
||||
depending on the specific controller. In other words, hierarchy may
|
||||
be collapsed from leaf towards root when viewed from specific
|
||||
controllers. For example, a given configuration might not care about
|
||||
how memory is distributed beyond a certain level while still wanting
|
||||
to control how CPU cycles are distributed.
|
||||
|
||||
Unified hierarchy is the next version of cgroup interface. It aims to
|
||||
address the aforementioned issues by having more structure while
|
||||
retaining enough flexibility for most use cases. Various other
|
||||
general and controller-specific interface issues are also addressed in
|
||||
the process.
|
||||
|
||||
|
||||
2. Basic Operation
|
||||
|
||||
2-1. Mounting
|
||||
|
||||
Currently, unified hierarchy can be mounted with the following mount
|
||||
command. Note that this is still under development and scheduled to
|
||||
change soon.
|
||||
|
||||
mount -t cgroup -o __DEVEL__sane_behavior cgroup $MOUNT_POINT
|
||||
|
||||
All controllers which support the unified hierarchy and are not bound
|
||||
to other hierarchies are automatically bound to unified hierarchy and
|
||||
show up at the root of it. Controllers which are enabled only in the
|
||||
root of unified hierarchy can be bound to other hierarchies. This
|
||||
allows mixing unified hierarchy with the traditional multiple
|
||||
hierarchies in a fully backward compatible way.
|
||||
|
||||
A controller can be moved across hierarchies only after the controller
|
||||
is no longer referenced in its current hierarchy. Because per-cgroup
|
||||
controller states are destroyed asynchronously and controllers may
|
||||
have lingering references, a controller may not show up immediately on
|
||||
the unified hierarchy after the final umount of the previous
|
||||
hierarchy. Similarly, a controller should be fully disabled to be
|
||||
moved out of the unified hierarchy and it may take some time for the
|
||||
disabled controller to become available for other hierarchies;
|
||||
furthermore, due to dependencies among controllers, other controllers
|
||||
may need to be disabled too.
|
||||
|
||||
While useful for development and manual configurations, dynamically
|
||||
moving controllers between the unified and other hierarchies is
|
||||
strongly discouraged for production use. It is recommended to decide
|
||||
the hierarchies and controller associations before starting using the
|
||||
controllers.
|
||||
|
||||
|
||||
2-2. cgroup.subtree_control
|
||||
|
||||
All cgroups on unified hierarchy have a "cgroup.subtree_control" file
|
||||
which governs which controllers are enabled on the children of the
|
||||
cgroup. Let's assume a hierarchy like the following.
|
||||
|
||||
root - A - B - C
|
||||
\ D
|
||||
|
||||
root's "cgroup.subtree_control" file determines which controllers are
|
||||
enabled on A. A's on B. B's on C and D. This coincides with the
|
||||
fact that controllers on the immediate sub-level are used to
|
||||
distribute the resources of the parent. In fact, it's natural to
|
||||
assume that resource control knobs of a child belong to its parent.
|
||||
Enabling a controller in a "cgroup.subtree_control" file declares that
|
||||
distribution of the respective resources of the cgroup will be
|
||||
controlled. Note that this means that controller enable states are
|
||||
shared among siblings.
|
||||
|
||||
When read, the file contains a space-separated list of currently
|
||||
enabled controllers. A write to the file should contain a
|
||||
space-separated list of controllers with '+' or '-' prefixed (without
|
||||
the quotes). Controllers prefixed with '+' are enabled and '-'
|
||||
disabled. If a controller is listed multiple times, the last entry
|
||||
wins. The specific operations are executed atomically - either all
|
||||
succeed or fail.
|
||||
|
||||
|
||||
2-3. cgroup.controllers
|
||||
|
||||
Read-only "cgroup.controllers" file contains a space-separated list of
|
||||
controllers which can be enabled in the cgroup's
|
||||
"cgroup.subtree_control" file.
|
||||
|
||||
In the root cgroup, this lists controllers which are not bound to
|
||||
other hierarchies and the content changes as controllers are bound to
|
||||
and unbound from other hierarchies.
|
||||
|
||||
In non-root cgroups, the content of this file equals that of the
|
||||
parent's "cgroup.subtree_control" file as only controllers enabled
|
||||
from the parent can be used in its children.
|
||||
|
||||
|
||||
3. Structural Constraints
|
||||
|
||||
3-1. Top-down
|
||||
|
||||
As it doesn't make sense to nest control of an uncontrolled resource,
|
||||
all non-root "cgroup.subtree_control" files can only contain
|
||||
controllers which are enabled in the parent's "cgroup.subtree_control"
|
||||
file. A controller can be enabled only if the parent has the
|
||||
controller enabled and a controller can't be disabled if one or more
|
||||
children have it enabled.
|
||||
|
||||
|
||||
3-2. No internal tasks
|
||||
|
||||
One long-standing issue that cgroup faces is the competition between
|
||||
tasks belonging to the parent cgroup and its children cgroups. This
|
||||
is inherently nasty as two different types of entities compete and
|
||||
there is no agreed-upon obvious way to handle it. Different
|
||||
controllers are doing different things.
|
||||
|
||||
The cpu controller considers tasks and cgroups as equivalents and maps
|
||||
nice levels to cgroup weights. This works for some cases but falls
|
||||
flat when children should be allocated specific ratios of CPU cycles
|
||||
and the number of internal tasks fluctuates - the ratios constantly
|
||||
change as the number of competing entities fluctuates. There also are
|
||||
other issues. The mapping from nice level to weight isn't obvious or
|
||||
universal, and there are various other knobs which simply aren't
|
||||
available for tasks.
|
||||
|
||||
The io controller implicitly creates a hidden leaf node for each
|
||||
cgroup to host the tasks. The hidden leaf has its own copies of all
|
||||
the knobs with "leaf_" prefixed. While this allows equivalent control
|
||||
over internal tasks, it's with serious drawbacks. It always adds an
|
||||
extra layer of nesting which may not be necessary, makes the interface
|
||||
messy and significantly complicates the implementation.
|
||||
|
||||
The memory controller currently doesn't have a way to control what
|
||||
happens between internal tasks and child cgroups and the behavior is
|
||||
not clearly defined. There have been attempts to add ad-hoc behaviors
|
||||
and knobs to tailor the behavior to specific workloads. Continuing
|
||||
this direction will lead to problems which will be extremely difficult
|
||||
to resolve in the long term.
|
||||
|
||||
Multiple controllers struggle with internal tasks and came up with
|
||||
different ways to deal with it; unfortunately, all the approaches in
|
||||
use now are severely flawed and, furthermore, the widely different
|
||||
behaviors make cgroup as whole highly inconsistent.
|
||||
|
||||
It is clear that this is something which needs to be addressed from
|
||||
cgroup core proper in a uniform way so that controllers don't need to
|
||||
worry about it and cgroup as a whole shows a consistent and logical
|
||||
behavior. To achieve that, unified hierarchy enforces the following
|
||||
structural constraint:
|
||||
|
||||
Except for the root, only cgroups which don't contain any task may
|
||||
have controllers enabled in their "cgroup.subtree_control" files.
|
||||
|
||||
Combined with other properties, this guarantees that, when a
|
||||
controller is looking at the part of the hierarchy which has it
|
||||
enabled, tasks are always only on the leaves. This rules out
|
||||
situations where child cgroups compete against internal tasks of the
|
||||
parent.
|
||||
|
||||
There are two things to note. Firstly, the root cgroup is exempt from
|
||||
the restriction. Root contains tasks and anonymous resource
|
||||
consumption which can't be associated with any other cgroup and
|
||||
requires special treatment from most controllers. How resource
|
||||
consumption in the root cgroup is governed is up to each controller.
|
||||
|
||||
Secondly, the restriction doesn't take effect if there is no enabled
|
||||
controller in the cgroup's "cgroup.subtree_control" file. This is
|
||||
important as otherwise it wouldn't be possible to create children of a
|
||||
populated cgroup. To control resource distribution of a cgroup, the
|
||||
cgroup must create children and transfer all its tasks to the children
|
||||
before enabling controllers in its "cgroup.subtree_control" file.
|
||||
|
||||
|
||||
4. Delegation
|
||||
|
||||
4-1. Model of delegation
|
||||
|
||||
A cgroup can be delegated to a less privileged user by granting write
|
||||
access of the directory and its "cgroup.procs" file to the user. Note
|
||||
that the resource control knobs in a given directory concern the
|
||||
resources of the parent and thus must not be delegated along with the
|
||||
directory.
|
||||
|
||||
Once delegated, the user can build sub-hierarchy under the directory,
|
||||
organize processes as it sees fit and further distribute the resources
|
||||
it got from the parent. The limits and other settings of all resource
|
||||
controllers are hierarchical and regardless of what happens in the
|
||||
delegated sub-hierarchy, nothing can escape the resource restrictions
|
||||
imposed by the parent.
|
||||
|
||||
Currently, cgroup doesn't impose any restrictions on the number of
|
||||
cgroups in or nesting depth of a delegated sub-hierarchy; however,
|
||||
this may in the future be limited explicitly.
|
||||
|
||||
|
||||
4-2. Common ancestor rule
|
||||
|
||||
On the unified hierarchy, to write to a "cgroup.procs" file, in
|
||||
addition to the usual write permission to the file and uid match, the
|
||||
writer must also have write access to the "cgroup.procs" file of the
|
||||
common ancestor of the source and destination cgroups. This prevents
|
||||
delegatees from smuggling processes across disjoint sub-hierarchies.
|
||||
|
||||
Let's say cgroups C0 and C1 have been delegated to user U0 who created
|
||||
C00, C01 under C0 and C10 under C1 as follows.
|
||||
|
||||
~~~~~~~~~~~~~ - C0 - C00
|
||||
~ cgroup ~ \ C01
|
||||
~ hierarchy ~
|
||||
~~~~~~~~~~~~~ - C1 - C10
|
||||
|
||||
C0 and C1 are separate entities in terms of resource distribution
|
||||
regardless of their relative positions in the hierarchy. The
|
||||
resources the processes under C0 are entitled to are controlled by
|
||||
C0's ancestors and may be completely different from C1. It's clear
|
||||
that the intention of delegating C0 to U0 is allowing U0 to organize
|
||||
the processes under C0 and further control the distribution of C0's
|
||||
resources.
|
||||
|
||||
On traditional hierarchies, if a task has write access to "tasks" or
|
||||
"cgroup.procs" file of a cgroup and its uid agrees with the target, it
|
||||
can move the target to the cgroup. In the above example, U0 will not
|
||||
only be able to move processes in each sub-hierarchy but also across
|
||||
the two sub-hierarchies, effectively allowing it to violate the
|
||||
organizational and resource restrictions implied by the hierarchical
|
||||
structure above C0 and C1.
|
||||
|
||||
On the unified hierarchy, let's say U0 wants to write the pid of a
|
||||
process which has a matching uid and is currently in C10 into
|
||||
"C00/cgroup.procs". U0 obviously has write access to the file and
|
||||
migration permission on the process; however, the common ancestor of
|
||||
the source cgroup C10 and the destination cgroup C00 is above the
|
||||
points of delegation and U0 would not have write access to its
|
||||
"cgroup.procs" and thus be denied with -EACCES.
|
||||
|
||||
|
||||
5. Other Changes
|
||||
|
||||
5-1. [Un]populated Notification
|
||||
|
||||
cgroup users often need a way to determine when a cgroup's
|
||||
subhierarchy becomes empty so that it can be cleaned up. cgroup
|
||||
currently provides release_agent for it; unfortunately, this mechanism
|
||||
is riddled with issues.
|
||||
|
||||
- It delivers events by forking and execing a userland binary
|
||||
specified as the release_agent. This is a long deprecated method of
|
||||
notification delivery. It's extremely heavy, slow and cumbersome to
|
||||
integrate with larger infrastructure.
|
||||
|
||||
- There is single monitoring point at the root. There's no way to
|
||||
delegate management of a subtree.
|
||||
|
||||
- The event isn't recursive. It triggers when a cgroup doesn't have
|
||||
any tasks or child cgroups. Events for internal nodes trigger only
|
||||
after all children are removed. This again makes it impossible to
|
||||
delegate management of a subtree.
|
||||
|
||||
- Events are filtered from the kernel side. A "notify_on_release"
|
||||
file is used to subscribe to or suppress release events. This is
|
||||
unnecessarily complicated and probably done this way because event
|
||||
delivery itself was expensive.
|
||||
|
||||
Unified hierarchy implements "populated" field in "cgroup.events"
|
||||
interface file which can be used to monitor whether the cgroup's
|
||||
subhierarchy has tasks in it or not. Its value is 0 if there is no
|
||||
task in the cgroup and its descendants; otherwise, 1. poll and
|
||||
[id]notify events are triggered when the value changes.
|
||||
|
||||
This is significantly lighter and simpler and trivially allows
|
||||
delegating management of subhierarchy - subhierarchy monitoring can
|
||||
block further propagation simply by putting itself or another process
|
||||
in the subhierarchy and monitor events that it's interested in from
|
||||
there without interfering with monitoring higher in the tree.
|
||||
|
||||
In unified hierarchy, the release_agent mechanism is no longer
|
||||
supported and the interface files "release_agent" and
|
||||
"notify_on_release" do not exist.
|
||||
|
||||
|
||||
5-2. Other Core Changes
|
||||
|
||||
- None of the mount options is allowed.
|
||||
|
||||
- remount is disallowed.
|
||||
|
||||
- rename(2) is disallowed.
|
||||
|
||||
- The "tasks" file is removed. Everything should at process
|
||||
granularity. Use the "cgroup.procs" file instead.
|
||||
|
||||
- The "cgroup.procs" file is not sorted. pids will be unique unless
|
||||
they got recycled in-between reads.
|
||||
|
||||
- The "cgroup.clone_children" file is removed.
|
||||
|
||||
- /proc/PID/cgroup keeps reporting the cgroup that a zombie belonged
|
||||
to before exiting. If the cgroup is removed before the zombie is
|
||||
reaped, " (deleted)" is appeneded to the path.
|
||||
|
||||
|
||||
5-3. Controller File Conventions
|
||||
|
||||
5-3-1. Format
|
||||
|
||||
In general, all controller files should be in one of the following
|
||||
formats whenever possible.
|
||||
|
||||
- Values only files
|
||||
|
||||
VAL0 VAL1...\n
|
||||
|
||||
- Flat keyed files
|
||||
|
||||
KEY0 VAL0\n
|
||||
KEY1 VAL1\n
|
||||
...
|
||||
|
||||
- Nested keyed files
|
||||
|
||||
KEY0 SUB_KEY0=VAL00 SUB_KEY1=VAL01...
|
||||
KEY1 SUB_KEY0=VAL10 SUB_KEY1=VAL11...
|
||||
...
|
||||
|
||||
For a writeable file, the format for writing should generally match
|
||||
reading; however, controllers may allow omitting later fields or
|
||||
implement restricted shortcuts for most common use cases.
|
||||
|
||||
For both flat and nested keyed files, only the values for a single key
|
||||
can be written at a time. For nested keyed files, the sub key pairs
|
||||
may be specified in any order and not all pairs have to be specified.
|
||||
|
||||
|
||||
5-3-2. Control Knobs
|
||||
|
||||
- Settings for a single feature should generally be implemented in a
|
||||
single file.
|
||||
|
||||
- In general, the root cgroup should be exempt from resource control
|
||||
and thus shouldn't have resource control knobs.
|
||||
|
||||
- If a controller implements ratio based resource distribution, the
|
||||
control knob should be named "weight" and have the range [1, 10000]
|
||||
and 100 should be the default value. The values are chosen to allow
|
||||
enough and symmetric bias in both directions while keeping it
|
||||
intuitive (the default is 100%).
|
||||
|
||||
- If a controller implements an absolute resource guarantee and/or
|
||||
limit, the control knobs should be named "min" and "max"
|
||||
respectively. If a controller implements best effort resource
|
||||
gurantee and/or limit, the control knobs should be named "low" and
|
||||
"high" respectively.
|
||||
|
||||
In the above four control files, the special token "max" should be
|
||||
used to represent upward infinity for both reading and writing.
|
||||
|
||||
- If a setting has configurable default value and specific overrides,
|
||||
the default settings should be keyed with "default" and appear as
|
||||
the first entry in the file. Specific entries can use "default" as
|
||||
its value to indicate inheritance of the default value.
|
||||
|
||||
- For events which are not very high frequency, an interface file
|
||||
"events" should be created which lists event key value pairs.
|
||||
Whenever a notifiable event happens, file modified event should be
|
||||
generated on the file.
|
||||
|
||||
|
||||
5-4. Per-Controller Changes
|
||||
|
||||
5-4-1. io
|
||||
|
||||
- blkio is renamed to io. The interface is overhauled anyway. The
|
||||
new name is more in line with the other two major controllers, cpu
|
||||
and memory, and better suited given that it may be used for cgroup
|
||||
writeback without involving block layer.
|
||||
|
||||
- Everything including stat is always hierarchical making separate
|
||||
recursive stat files pointless and, as no internal node can have
|
||||
tasks, leaf weights are meaningless. The operation model is
|
||||
simplified and the interface is overhauled accordingly.
|
||||
|
||||
io.stat
|
||||
|
||||
The stat file. The reported stats are from the point where
|
||||
bio's are issued to request_queue. The stats are counted
|
||||
independent of which policies are enabled. Each line in the
|
||||
file follows the following format. More fields may later be
|
||||
added at the end.
|
||||
|
||||
$MAJ:$MIN rbytes=$RBYTES wbytes=$WBYTES rios=$RIOS wrios=$WIOS
|
||||
|
||||
io.weight
|
||||
|
||||
The weight setting, currently only available and effective if
|
||||
cfq-iosched is in use for the target device. The weight is
|
||||
between 1 and 10000 and defaults to 100. The first line
|
||||
always contains the default weight in the following format to
|
||||
use when per-device setting is missing.
|
||||
|
||||
default $WEIGHT
|
||||
|
||||
Subsequent lines list per-device weights of the following
|
||||
format.
|
||||
|
||||
$MAJ:$MIN $WEIGHT
|
||||
|
||||
Writing "$WEIGHT" or "default $WEIGHT" changes the default
|
||||
setting. Writing "$MAJ:$MIN $WEIGHT" sets per-device weight
|
||||
while "$MAJ:$MIN default" clears it.
|
||||
|
||||
This file is available only on non-root cgroups.
|
||||
|
||||
io.max
|
||||
|
||||
The maximum bandwidth and/or iops setting, only available if
|
||||
blk-throttle is enabled. The file is of the following format.
|
||||
|
||||
$MAJ:$MIN rbps=$RBPS wbps=$WBPS riops=$RIOPS wiops=$WIOPS
|
||||
|
||||
${R|W}BPS are read/write bytes per second and ${R|W}IOPS are
|
||||
read/write IOs per second. "max" indicates no limit. Writing
|
||||
to the file follows the same format but the individual
|
||||
settings may be omitted or specified in any order.
|
||||
|
||||
This file is available only on non-root cgroups.
|
||||
|
||||
|
||||
5-4-2. cpuset
|
||||
|
||||
- Tasks are kept in empty cpusets after hotplug and take on the masks
|
||||
of the nearest non-empty ancestor, instead of being moved to it.
|
||||
|
||||
- A task can be moved into an empty cpuset, and again it takes on the
|
||||
masks of the nearest non-empty ancestor.
|
||||
|
||||
|
||||
5-4-3. memory
|
||||
|
||||
- use_hierarchy is on by default and the cgroup file for the flag is
|
||||
not created.
|
||||
|
||||
- The original lower boundary, the soft limit, is defined as a limit
|
||||
that is per default unset. As a result, the set of cgroups that
|
||||
global reclaim prefers is opt-in, rather than opt-out. The costs
|
||||
for optimizing these mostly negative lookups are so high that the
|
||||
implementation, despite its enormous size, does not even provide the
|
||||
basic desirable behavior. First off, the soft limit has no
|
||||
hierarchical meaning. All configured groups are organized in a
|
||||
global rbtree and treated like equal peers, regardless where they
|
||||
are located in the hierarchy. This makes subtree delegation
|
||||
impossible. Second, the soft limit reclaim pass is so aggressive
|
||||
that it not just introduces high allocation latencies into the
|
||||
system, but also impacts system performance due to overreclaim, to
|
||||
the point where the feature becomes self-defeating.
|
||||
|
||||
The memory.low boundary on the other hand is a top-down allocated
|
||||
reserve. A cgroup enjoys reclaim protection when it and all its
|
||||
ancestors are below their low boundaries, which makes delegation of
|
||||
subtrees possible. Secondly, new cgroups have no reserve per
|
||||
default and in the common case most cgroups are eligible for the
|
||||
preferred reclaim pass. This allows the new low boundary to be
|
||||
efficiently implemented with just a minor addition to the generic
|
||||
reclaim code, without the need for out-of-band data structures and
|
||||
reclaim passes. Because the generic reclaim code considers all
|
||||
cgroups except for the ones running low in the preferred first
|
||||
reclaim pass, overreclaim of individual groups is eliminated as
|
||||
well, resulting in much better overall workload performance.
|
||||
|
||||
- The original high boundary, the hard limit, is defined as a strict
|
||||
limit that can not budge, even if the OOM killer has to be called.
|
||||
But this generally goes against the goal of making the most out of
|
||||
the available memory. The memory consumption of workloads varies
|
||||
during runtime, and that requires users to overcommit. But doing
|
||||
that with a strict upper limit requires either a fairly accurate
|
||||
prediction of the working set size or adding slack to the limit.
|
||||
Since working set size estimation is hard and error prone, and
|
||||
getting it wrong results in OOM kills, most users tend to err on the
|
||||
side of a looser limit and end up wasting precious resources.
|
||||
|
||||
The memory.high boundary on the other hand can be set much more
|
||||
conservatively. When hit, it throttles allocations by forcing them
|
||||
into direct reclaim to work off the excess, but it never invokes the
|
||||
OOM killer. As a result, a high boundary that is chosen too
|
||||
aggressively will not terminate the processes, but instead it will
|
||||
lead to gradual performance degradation. The user can monitor this
|
||||
and make corrections until the minimal memory footprint that still
|
||||
gives acceptable performance is found.
|
||||
|
||||
In extreme cases, with many concurrent allocations and a complete
|
||||
breakdown of reclaim progress within the group, the high boundary
|
||||
can be exceeded. But even then it's mostly better to satisfy the
|
||||
allocation from the slack available in other groups or the rest of
|
||||
the system than killing the group. Otherwise, memory.max is there
|
||||
to limit this type of spillover and ultimately contain buggy or even
|
||||
malicious applications.
|
||||
|
||||
- The original control file names are unwieldy and inconsistent in
|
||||
many different ways. For example, the upper boundary hit count is
|
||||
exported in the memory.failcnt file, but an OOM event count has to
|
||||
be manually counted by listening to memory.oom_control events, and
|
||||
lower boundary / soft limit events have to be counted by first
|
||||
setting a threshold for that value and then counting those events.
|
||||
Also, usage and limit files encode their units in the filename.
|
||||
That makes the filenames very long, even though this is not
|
||||
information that a user needs to be reminded of every time they type
|
||||
out those names.
|
||||
|
||||
To address these naming issues, as well as to signal clearly that
|
||||
the new interface carries a new configuration model, the naming
|
||||
conventions in it necessarily differ from the old interface.
|
||||
|
||||
- The original limit files indicate the state of an unset limit with a
|
||||
Very High Number, and a configured limit can be unset by echoing -1
|
||||
into those files. But that very high number is implementation and
|
||||
architecture dependent and not very descriptive. And while -1 can
|
||||
be understood as an underflow into the highest possible value, -2 or
|
||||
-10M etc. do not work, so it's not consistent.
|
||||
|
||||
memory.low, memory.high, and memory.max will use the string "max" to
|
||||
indicate and set the highest possible value.
|
||||
|
||||
6. Planned Changes
|
||||
|
||||
6-1. CAP for resource control
|
||||
|
||||
Unified hierarchy will require one of the capabilities(7), which is
|
||||
yet to be decided, for all resource control related knobs. Process
|
||||
organization operations - creation of sub-cgroups and migration of
|
||||
processes in sub-hierarchies may be delegated by changing the
|
||||
ownership and/or permissions on the cgroup directory and
|
||||
"cgroup.procs" interface file; however, all operations which affect
|
||||
resource control - writes to a "cgroup.subtree_control" file or any
|
||||
controller-specific knobs - will require an explicit CAP privilege.
|
||||
|
||||
This, in part, is to prevent the cgroup interface from being
|
||||
inadvertently promoted to programmable API used by non-privileged
|
||||
binaries. cgroup exposes various aspects of the system in ways which
|
||||
aren't properly abstracted for direct consumption by regular programs.
|
||||
This is an administration interface much closer to sysctl knobs than
|
||||
system calls. Even the basic access model, being filesystem path
|
||||
based, isn't suitable for direct consumption. There's no way to
|
||||
access "my cgroup" in a race-free way or make multiple operations
|
||||
atomic against migration to another cgroup.
|
||||
|
||||
Another aspect is that, for better or for worse, the cgroup interface
|
||||
goes through far less scrutiny than regular interfaces for
|
||||
unprivileged userland. The upside is that cgroup is able to expose
|
||||
useful features which may not be suitable for general consumption in a
|
||||
reasonable time frame. It provides a relatively short path between
|
||||
internal details and userland-visible interface. Of course, this
|
||||
shortcut comes with high risk. We go through what we go through for
|
||||
general kernel APIs for good reasons. It may end up leaking internal
|
||||
details in a way which can exert significant pain by locking the
|
||||
kernel into a contract that can't be maintained in a reasonable
|
||||
manner.
|
||||
|
||||
Also, due to the specific nature, cgroup and its controllers don't
|
||||
tend to attract attention from a wide scope of developers. cgroup's
|
||||
short history is already fraught with severely mis-designed
|
||||
interfaces, unnecessary commitments to and exposing of internal
|
||||
details, broken and dangerous implementations of various features.
|
||||
|
||||
Keeping cgroup as an administration interface is both advantageous for
|
||||
its role and imperative given its nature. Some of the cgroup features
|
||||
may make sense for unprivileged access. If deemed justified, those
|
||||
must be further abstracted and implemented as a different interface,
|
||||
be it a system call or process-private filesystem, and survive through
|
||||
the scrutiny that any interface for general consumption is required to
|
||||
go through.
|
||||
|
||||
Requiring CAP is not a complete solution but should serve as a
|
||||
significant deterrent against spraying cgroup usages in non-privileged
|
||||
programs.
|
|
@ -1,61 +1,131 @@
|
|||
Intel P-state driver
|
||||
Intel P-State driver
|
||||
--------------------
|
||||
|
||||
This driver provides an interface to control the P state selection for
|
||||
SandyBridge+ Intel processors. The driver can operate two different
|
||||
modes based on the processor model, legacy mode and Hardware P state (HWP)
|
||||
mode.
|
||||
This driver provides an interface to control the P-State selection for the
|
||||
SandyBridge+ Intel processors.
|
||||
|
||||
In legacy mode, the Intel P-state implements two internal governors,
|
||||
performance and powersave, that differ from the general cpufreq governors of
|
||||
the same name (the general cpufreq governors implement target(), whereas the
|
||||
internal Intel P-state governors implement setpolicy()). The internal
|
||||
performance governor sets the max_perf_pct and min_perf_pct to 100; that is,
|
||||
the governor selects the highest available P state to maximize the performance
|
||||
of the core. The internal powersave governor selects the appropriate P state
|
||||
based on the current load on the CPU.
|
||||
The following document explains P-States:
|
||||
http://events.linuxfoundation.org/sites/events/files/slides/LinuxConEurope_2015.pdf
|
||||
As stated in the document, P-State doesn’t exactly mean a frequency. However, for
|
||||
the sake of the relationship with cpufreq, P-State and frequency are used
|
||||
interchangeably.
|
||||
|
||||
In HWP mode P state selection is implemented in the processor
|
||||
itself. The driver provides the interfaces between the cpufreq core and
|
||||
the processor to control P state selection based on user preferences
|
||||
and reporting frequency to the cpufreq core. In this mode the
|
||||
internal Intel P-state governor code is disabled.
|
||||
Understanding the cpufreq core governors and policies are important before
|
||||
discussing more details about the Intel P-State driver. Based on what callbacks
|
||||
a cpufreq driver provides to the cpufreq core, it can support two types of
|
||||
drivers:
|
||||
- with target_index() callback: In this mode, the drivers using cpufreq core
|
||||
simply provide the minimum and maximum frequency limits and an additional
|
||||
interface target_index() to set the current frequency. The cpufreq subsystem
|
||||
has a number of scaling governors ("performance", "powersave", "ondemand",
|
||||
etc.). Depending on which governor is in use, cpufreq core will call for
|
||||
transitions to a specific frequency using target_index() callback.
|
||||
- setpolicy() callback: In this mode, drivers do not provide target_index()
|
||||
callback, so cpufreq core can't request a transition to a specific frequency.
|
||||
The driver provides minimum and maximum frequency limits and callbacks to set a
|
||||
policy. The policy in cpufreq sysfs is referred to as the "scaling governor".
|
||||
The cpufreq core can request the driver to operate in any of the two policies:
|
||||
"performance: and "powersave". The driver decides which frequency to use based
|
||||
on the above policy selection considering minimum and maximum frequency limits.
|
||||
|
||||
In addition to the interfaces provided by the cpufreq core for
|
||||
controlling frequency the driver provides sysfs files for
|
||||
controlling P state selection. These files have been added to
|
||||
/sys/devices/system/cpu/intel_pstate/
|
||||
The Intel P-State driver falls under the latter category, which implements the
|
||||
setpolicy() callback. This driver decides what P-State to use based on the
|
||||
requested policy from the cpufreq core. If the processor is capable of
|
||||
selecting its next P-State internally, then the driver will offload this
|
||||
responsibility to the processor (aka HWP: Hardware P-States). If not, the
|
||||
driver implements algorithms to select the next P-State.
|
||||
|
||||
max_perf_pct: limits the maximum P state that will be requested by
|
||||
the driver stated as a percentage of the available performance. The
|
||||
available (P states) performance may be reduced by the no_turbo
|
||||
Since these policies are implemented in the driver, they are not same as the
|
||||
cpufreq scaling governors implementation, even if they have the same name in
|
||||
the cpufreq sysfs (scaling_governors). For example the "performance" policy is
|
||||
similar to cpufreq’s "performance" governor, but "powersave" is completely
|
||||
different than the cpufreq "powersave" governor. The strategy here is similar
|
||||
to cpufreq "ondemand", where the requested P-State is related to the system load.
|
||||
|
||||
Sysfs Interface
|
||||
|
||||
In addition to the frequency-controlling interfaces provided by the cpufreq
|
||||
core, the driver provides its own sysfs files to control the P-State selection.
|
||||
These files have been added to /sys/devices/system/cpu/intel_pstate/.
|
||||
Any changes made to these files are applicable to all CPUs (even in a
|
||||
multi-package system).
|
||||
|
||||
max_perf_pct: Limits the maximum P-State that will be requested by
|
||||
the driver. It states it as a percentage of the available performance. The
|
||||
available (P-State) performance may be reduced by the no_turbo
|
||||
setting described below.
|
||||
|
||||
min_perf_pct: limits the minimum P state that will be requested by
|
||||
the driver stated as a percentage of the max (non-turbo)
|
||||
min_perf_pct: Limits the minimum P-State that will be requested by
|
||||
the driver. It states it as a percentage of the max (non-turbo)
|
||||
performance level.
|
||||
|
||||
no_turbo: limits the driver to selecting P states below the turbo
|
||||
no_turbo: Limits the driver to selecting P-State below the turbo
|
||||
frequency range.
|
||||
|
||||
turbo_pct: displays the percentage of the total performance that
|
||||
is supported by hardware that is in the turbo range. This number
|
||||
turbo_pct: Displays the percentage of the total performance that
|
||||
is supported by hardware that is in the turbo range. This number
|
||||
is independent of whether turbo has been disabled or not.
|
||||
|
||||
num_pstates: displays the number of pstates that are supported
|
||||
by hardware. This number is independent of whether turbo has
|
||||
num_pstates: Displays the number of P-States that are supported
|
||||
by hardware. This number is independent of whether turbo has
|
||||
been disabled or not.
|
||||
|
||||
For example, if a system has these parameters:
|
||||
Max 1 core turbo ratio: 0x21 (Max 1 core ratio is the maximum P-State)
|
||||
Max non turbo ratio: 0x17
|
||||
Minimum ratio : 0x08 (Here the ratio is called max efficiency ratio)
|
||||
|
||||
Sysfs will show :
|
||||
max_perf_pct:100, which corresponds to 1 core ratio
|
||||
min_perf_pct:24, max_efficiency_ratio / max 1 Core ratio
|
||||
no_turbo:0, turbo is not disabled
|
||||
num_pstates:26 = (max 1 Core ratio - Max Efficiency Ratio + 1)
|
||||
turbo_pct:39 = (max 1 core ratio - max non turbo ratio) / num_pstates
|
||||
|
||||
Refer to "Intel® 64 and IA-32 Architectures Software Developer’s Manual
|
||||
Volume 3: System Programming Guide" to understand ratios.
|
||||
|
||||
cpufreq sysfs for Intel P-State
|
||||
|
||||
Since this driver registers with cpufreq, cpufreq sysfs is also presented.
|
||||
There are some important differences, which need to be considered.
|
||||
|
||||
scaling_cur_freq: This displays the real frequency which was used during
|
||||
the last sample period instead of what is requested. Some other cpufreq driver,
|
||||
like acpi-cpufreq, displays what is requested (Some changes are on the
|
||||
way to fix this for acpi-cpufreq driver). The same is true for frequencies
|
||||
displayed at /proc/cpuinfo.
|
||||
|
||||
scaling_governor: This displays current active policy. Since each CPU has a
|
||||
cpufreq sysfs, it is possible to set a scaling governor to each CPU. But this
|
||||
is not possible with Intel P-States, as there is one common policy for all
|
||||
CPUs. Here, the last requested policy will be applicable to all CPUs. It is
|
||||
suggested that one use the cpupower utility to change policy to all CPUs at the
|
||||
same time.
|
||||
|
||||
scaling_setspeed: This attribute can never be used with Intel P-State.
|
||||
|
||||
scaling_max_freq/scaling_min_freq: This interface can be used similarly to
|
||||
the max_perf_pct/min_perf_pct of Intel P-State sysfs. However since frequencies
|
||||
are converted to nearest possible P-State, this is prone to rounding errors.
|
||||
This method is not preferred to limit performance.
|
||||
|
||||
affected_cpus: Not used
|
||||
related_cpus: Not used
|
||||
|
||||
For contemporary Intel processors, the frequency is controlled by the
|
||||
processor itself and the P-states exposed to software are related to
|
||||
processor itself and the P-State exposed to software is related to
|
||||
performance levels. The idea that frequency can be set to a single
|
||||
frequency is fiction for Intel Core processors. Even if the scaling
|
||||
driver selects a single P state the actual frequency the processor
|
||||
frequency is fictional for Intel Core processors. Even if the scaling
|
||||
driver selects a single P-State, the actual frequency the processor
|
||||
will run at is selected by the processor itself.
|
||||
|
||||
For legacy mode debugfs files have also been added to allow tuning of
|
||||
the internal governor algorythm. These files are located at
|
||||
/sys/kernel/debug/pstate_snb/ These files are NOT present in HWP mode.
|
||||
Tuning Intel P-State driver
|
||||
|
||||
When HWP mode is not used, debugfs files have also been added to allow the
|
||||
tuning of the internal governor algorithm. These files are located at
|
||||
/sys/kernel/debug/pstate_snb/. The algorithm uses a PID (Proportional
|
||||
Integral Derivative) controller. The PID tunable parameters are:
|
||||
|
||||
deadband
|
||||
d_gain_pct
|
||||
|
@ -63,3 +133,90 @@ the internal governor algorythm. These files are located at
|
|||
p_gain_pct
|
||||
sample_rate_ms
|
||||
setpoint
|
||||
|
||||
To adjust these parameters, some understanding of driver implementation is
|
||||
necessary. There are some tweeks described here, but be very careful. Adjusting
|
||||
them requires expert level understanding of power and performance relationship.
|
||||
These limits are only useful when the "powersave" policy is active.
|
||||
|
||||
-To make the system more responsive to load changes, sample_rate_ms can
|
||||
be adjusted (current default is 10ms).
|
||||
-To make the system use higher performance, even if the load is lower, setpoint
|
||||
can be adjusted to a lower number. This will also lead to faster ramp up time
|
||||
to reach the maximum P-State.
|
||||
If there are no derivative and integral coefficients, The next P-State will be
|
||||
equal to:
|
||||
current P-State - ((setpoint - current cpu load) * p_gain_pct)
|
||||
|
||||
For example, if the current PID parameters are (Which are defaults for the core
|
||||
processors like SandyBridge):
|
||||
deadband = 0
|
||||
d_gain_pct = 0
|
||||
i_gain_pct = 0
|
||||
p_gain_pct = 20
|
||||
sample_rate_ms = 10
|
||||
setpoint = 97
|
||||
|
||||
If the current P-State = 0x08 and current load = 100, this will result in the
|
||||
next P-State = 0x08 - ((97 - 100) * 0.2) = 8.6 (rounded to 9). Here the P-State
|
||||
goes up by only 1. If during next sample interval the current load doesn't
|
||||
change and still 100, then P-State goes up by one again. This process will
|
||||
continue as long as the load is more than the setpoint until the maximum P-State
|
||||
is reached.
|
||||
|
||||
For the same load at setpoint = 60, this will result in the next P-State
|
||||
= 0x08 - ((60 - 100) * 0.2) = 16
|
||||
So by changing the setpoint from 97 to 60, there is an increase of the
|
||||
next P-State from 9 to 16. So this will make processor execute at higher
|
||||
P-State for the same CPU load. If the load continues to be more than the
|
||||
setpoint during next sample intervals, then P-State will go up again till the
|
||||
maximum P-State is reached. But the ramp up time to reach the maximum P-State
|
||||
will be much faster when the setpoint is 60 compared to 97.
|
||||
|
||||
Debugging Intel P-State driver
|
||||
|
||||
Event tracing
|
||||
To debug P-State transition, the Linux event tracing interface can be used.
|
||||
There are two specific events, which can be enabled (Provided the kernel
|
||||
configs related to event tracing are enabled).
|
||||
|
||||
# cd /sys/kernel/debug/tracing/
|
||||
# echo 1 > events/power/pstate_sample/enable
|
||||
# echo 1 > events/power/cpu_frequency/enable
|
||||
# cat trace
|
||||
gnome-terminal--4510 [001] ..s. 1177.680733: pstate_sample: core_busy=107
|
||||
scaled=94 from=26 to=26 mperf=1143818 aperf=1230607 tsc=29838618
|
||||
freq=2474476
|
||||
cat-5235 [002] ..s. 1177.681723: cpu_frequency: state=2900000 cpu_id=2
|
||||
|
||||
|
||||
Using ftrace
|
||||
|
||||
If function level tracing is required, the Linux ftrace interface can be used.
|
||||
For example if we want to check how often a function to set a P-State is
|
||||
called, we can set ftrace filter to intel_pstate_set_pstate.
|
||||
|
||||
# cd /sys/kernel/debug/tracing/
|
||||
# cat available_filter_functions | grep -i pstate
|
||||
intel_pstate_set_pstate
|
||||
intel_pstate_cpu_init
|
||||
...
|
||||
|
||||
# echo intel_pstate_set_pstate > set_ftrace_filter
|
||||
# echo function > current_tracer
|
||||
# cat trace | head -15
|
||||
# tracer: function
|
||||
#
|
||||
# entries-in-buffer/entries-written: 80/80 #P:4
|
||||
#
|
||||
# _-----=> irqs-off
|
||||
# / _----=> need-resched
|
||||
# | / _---=> hardirq/softirq
|
||||
# || / _--=> preempt-depth
|
||||
# ||| / delay
|
||||
# TASK-PID CPU# |||| TIMESTAMP FUNCTION
|
||||
# | | | |||| | |
|
||||
Xorg-3129 [000] ..s. 2537.644844: intel_pstate_set_pstate <-intel_pstate_timer_func
|
||||
gnome-terminal--4510 [002] ..s. 2537.649844: intel_pstate_set_pstate <-intel_pstate_timer_func
|
||||
gnome-shell-3409 [001] ..s. 2537.650850: intel_pstate_set_pstate <-intel_pstate_timer_func
|
||||
<idle>-0 [000] ..s. 2537.654843: intel_pstate_set_pstate <-intel_pstate_timer_func
|
||||
|
|
|
@ -159,8 +159,8 @@ to be strictly associated with a P-state.
|
|||
|
||||
2.2 cpuinfo_transition_latency:
|
||||
-------------------------------
|
||||
The cpuinfo_transition_latency field is 0. The PCC specification does
|
||||
not include a field to expose this value currently.
|
||||
The cpuinfo_transition_latency field is CPUFREQ_ETERNAL. The PCC specification
|
||||
does not include a field to expose this value currently.
|
||||
|
||||
2.3 cpuinfo_cur_freq:
|
||||
---------------------
|
||||
|
|
|
@ -18,11 +18,11 @@ Construction Parameters
|
|||
|
||||
0 is the original format used in the Chromium OS.
|
||||
The salt is appended when hashing, digests are stored continuously and
|
||||
the rest of the block is padded with zeros.
|
||||
the rest of the block is padded with zeroes.
|
||||
|
||||
1 is the current format that should be used for new devices.
|
||||
The salt is prepended when hashing and each digest is
|
||||
padded with zeros to the power of two.
|
||||
padded with zeroes to the power of two.
|
||||
|
||||
<dev>
|
||||
This is the device containing data, the integrity of which needs to be
|
||||
|
@ -79,6 +79,37 @@ restart_on_corruption
|
|||
not compatible with ignore_corruption and requires user space support to
|
||||
avoid restart loops.
|
||||
|
||||
ignore_zero_blocks
|
||||
Do not verify blocks that are expected to contain zeroes and always return
|
||||
zeroes instead. This may be useful if the partition contains unused blocks
|
||||
that are not guaranteed to contain zeroes.
|
||||
|
||||
use_fec_from_device <fec_dev>
|
||||
Use forward error correction (FEC) to recover from corruption if hash
|
||||
verification fails. Use encoding data from the specified device. This
|
||||
may be the same device where data and hash blocks reside, in which case
|
||||
fec_start must be outside data and hash areas.
|
||||
|
||||
If the encoding data covers additional metadata, it must be accessible
|
||||
on the hash device after the hash blocks.
|
||||
|
||||
Note: block sizes for data and hash devices must match. Also, if the
|
||||
verity <dev> is encrypted the <fec_dev> should be too.
|
||||
|
||||
fec_roots <num>
|
||||
Number of generator roots. This equals to the number of parity bytes in
|
||||
the encoding data. For example, in RS(M, N) encoding, the number of roots
|
||||
is M-N.
|
||||
|
||||
fec_blocks <num>
|
||||
The number of encoding data blocks on the FEC device. The block size for
|
||||
the FEC device is <data_block_size>.
|
||||
|
||||
fec_start <offset>
|
||||
This is the offset, in <data_block_size> blocks, from the start of the
|
||||
FEC device to the beginning of the encoding data.
|
||||
|
||||
|
||||
Theory of operation
|
||||
===================
|
||||
|
||||
|
@ -98,6 +129,11 @@ per-block basis. This allows for a lightweight hash computation on first read
|
|||
into the page cache. Block hashes are stored linearly, aligned to the nearest
|
||||
block size.
|
||||
|
||||
If forward error correction (FEC) support is enabled any recovery of
|
||||
corrupted data will be verified using the cryptographic hash of the
|
||||
corresponding data. This is why combining error correction with
|
||||
integrity checking is essential.
|
||||
|
||||
Hash Tree
|
||||
---------
|
||||
|
||||
|
|
|
@ -242,6 +242,23 @@ nodes to be present and contain the properties described below.
|
|||
Definition: Specifies the syscon node controlling the cpu core
|
||||
power domains.
|
||||
|
||||
- dynamic-power-coefficient
|
||||
Usage: optional
|
||||
Value type: <prop-encoded-array>
|
||||
Definition: A u32 value that represents the running time dynamic
|
||||
power coefficient in units of mW/MHz/uVolt^2. The
|
||||
coefficient can either be calculated from power
|
||||
measurements or derived by analysis.
|
||||
|
||||
The dynamic power consumption of the CPU is
|
||||
proportional to the square of the Voltage (V) and
|
||||
the clock frequency (f). The coefficient is used to
|
||||
calculate the dynamic power as below -
|
||||
|
||||
Pdyn = dynamic-power-coefficient * V^2 * f
|
||||
|
||||
where voltage is in uV, frequency is in MHz.
|
||||
|
||||
Example 1 (dual-cluster big.LITTLE system 32-bit):
|
||||
|
||||
cpus {
|
||||
|
|
|
@ -1,7 +1,8 @@
|
|||
* ARM L2 Cache Controller
|
||||
|
||||
ARM cores often have a separate level 2 cache controller. There are various
|
||||
implementations of the L2 cache controller with compatible programming models.
|
||||
ARM cores often have a separate L2C210/L2C220/L2C310 (also known as PL210/PL220/
|
||||
PL310 and variants) based level 2 cache controller. All these various implementations
|
||||
of the L2 cache controller have compatible programming models (Note 1).
|
||||
Some of the properties that are just prefixed "cache-*" are taken from section
|
||||
3.7.3 of the ePAPR v1.1 specification which can be found at:
|
||||
https://www.power.org/wp-content/uploads/2012/06/Power_ePAPR_APPROVED_v1.1.pdf
|
||||
|
@ -67,12 +68,17 @@ Optional properties:
|
|||
disable if zero.
|
||||
- arm,prefetch-offset : Override prefetch offset value. Valid values are
|
||||
0-7, 15, 23, and 31.
|
||||
- arm,shared-override : The default behavior of the pl310 cache controller with
|
||||
respect to the shareable attribute is to transform "normal memory
|
||||
non-cacheable transactions" into "cacheable no allocate" (for reads) or
|
||||
"write through no write allocate" (for writes).
|
||||
- arm,shared-override : The default behavior of the L220 or PL310 cache
|
||||
controllers with respect to the shareable attribute is to transform "normal
|
||||
memory non-cacheable transactions" into "cacheable no allocate" (for reads)
|
||||
or "write through no write allocate" (for writes).
|
||||
On systems where this may cause DMA buffer corruption, this property must be
|
||||
specified to indicate that such transforms are precluded.
|
||||
- arm,parity-enable : enable parity checking on the L2 cache (L220 or PL310).
|
||||
- arm,parity-disable : disable parity checking on the L2 cache (L220 or PL310).
|
||||
- arm,outer-sync-disable : disable the outer sync operation on the L2 cache.
|
||||
Some core tiles, especially ARM PB11MPCore have a faulty L220 cache that
|
||||
will randomly hang unless outer sync operations are disabled.
|
||||
- prefetch-data : Data prefetch. Value: <0> (forcibly disable), <1>
|
||||
(forcibly enable), property absent (retain settings set by firmware)
|
||||
- prefetch-instr : Instruction prefetch. Value: <0> (forcibly disable),
|
||||
|
@ -91,3 +97,9 @@ L2: cache-controller {
|
|||
cache-level = <2>;
|
||||
interrupts = <45>;
|
||||
};
|
||||
|
||||
Note 1: The description in this document doesn't apply to integrated L2
|
||||
cache controllers as found in e.g. Cortex-A15/A7/A57/A53. These
|
||||
integrated L2 controllers are assumed to be all preconfigured by
|
||||
early secure boot code. Thus no need to deal with their configuration
|
||||
in the kernel at all.
|
|
@ -9,8 +9,9 @@ Required properties:
|
|||
- compatible : should be one of
|
||||
"apm,potenza-pmu"
|
||||
"arm,armv8-pmuv3"
|
||||
"arm.cortex-a57-pmu"
|
||||
"arm.cortex-a53-pmu"
|
||||
"arm,cortex-a72-pmu"
|
||||
"arm,cortex-a57-pmu"
|
||||
"arm,cortex-a53-pmu"
|
||||
"arm,cortex-a17-pmu"
|
||||
"arm,cortex-a15-pmu"
|
||||
"arm,cortex-a12-pmu"
|
||||
|
|
|
@ -4,7 +4,9 @@ SATA nodes are defined to describe on-chip Serial ATA controllers.
|
|||
Each SATA controller should have its own node.
|
||||
|
||||
Required properties:
|
||||
- compatible : compatible list, may contain "brcm,bcm7445-ahci" and/or
|
||||
- compatible : should be one or more of
|
||||
"brcm,bcm7425-ahci"
|
||||
"brcm,bcm7445-ahci"
|
||||
"brcm,sata3-ahci"
|
||||
- reg : register mappings for AHCI and SATA_TOP_CTRL
|
||||
- reg-names : "ahci" and "top-ctrl"
|
||||
|
|
|
@ -8,6 +8,7 @@ Required properties:
|
|||
- "renesas,sata-r8a7790" for R-Car H2 other than ES1
|
||||
- "renesas,sata-r8a7791" for R-Car M2-W
|
||||
- "renesas,sata-r8a7793" for R-Car M2-N
|
||||
- "renesas,sata-r8a7795" for R-Car H3
|
||||
- reg : address and length of the SATA registers;
|
||||
- interrupts : must consist of one interrupt specifier.
|
||||
- clocks : must contain a reference to the functional clock.
|
||||
|
|
|
@ -0,0 +1,91 @@
|
|||
Binding for ST's CPUFreq driver
|
||||
===============================
|
||||
|
||||
ST's CPUFreq driver attempts to read 'process' and 'version' attributes
|
||||
from the SoC, then supplies the OPP framework with 'prop' and 'supported
|
||||
hardware' information respectively. The framework is then able to read
|
||||
the DT and operate in the usual way.
|
||||
|
||||
For more information about the expected DT format [See: ../opp/opp.txt].
|
||||
|
||||
Frequency Scaling only
|
||||
----------------------
|
||||
|
||||
No vendor specific driver required for this.
|
||||
|
||||
Located in CPU's node:
|
||||
|
||||
- operating-points : [See: ../power/opp.txt]
|
||||
|
||||
Example [safe]
|
||||
--------------
|
||||
|
||||
cpus {
|
||||
cpu@0 {
|
||||
/* kHz uV */
|
||||
operating-points = <1500000 0
|
||||
1200000 0
|
||||
800000 0
|
||||
500000 0>;
|
||||
};
|
||||
};
|
||||
|
||||
Dynamic Voltage and Frequency Scaling (DVFS)
|
||||
--------------------------------------------
|
||||
|
||||
This requires the ST CPUFreq driver to supply 'process' and 'version' info.
|
||||
|
||||
Located in CPU's node:
|
||||
|
||||
- operating-points-v2 : [See ../power/opp.txt]
|
||||
|
||||
Example [unsafe]
|
||||
----------------
|
||||
|
||||
cpus {
|
||||
cpu@0 {
|
||||
operating-points-v2 = <&cpu0_opp_table>;
|
||||
};
|
||||
};
|
||||
|
||||
cpu0_opp_table: opp_table {
|
||||
compatible = "operating-points-v2";
|
||||
|
||||
/* ############################################################### */
|
||||
/* # WARNING: Do not attempt to copy/replicate these nodes, # */
|
||||
/* # they are only to be supplied by the bootloader !!! # */
|
||||
/* ############################################################### */
|
||||
opp0 {
|
||||
/* Major Minor Substrate */
|
||||
/* 2 all all */
|
||||
opp-supported-hw = <0x00000004 0xffffffff 0xffffffff>;
|
||||
opp-hz = /bits/ 64 <1500000000>;
|
||||
clock-latency-ns = <10000000>;
|
||||
|
||||
opp-microvolt-pcode0 = <1200000>;
|
||||
opp-microvolt-pcode1 = <1200000>;
|
||||
opp-microvolt-pcode2 = <1200000>;
|
||||
opp-microvolt-pcode3 = <1200000>;
|
||||
opp-microvolt-pcode4 = <1170000>;
|
||||
opp-microvolt-pcode5 = <1140000>;
|
||||
opp-microvolt-pcode6 = <1100000>;
|
||||
opp-microvolt-pcode7 = <1070000>;
|
||||
};
|
||||
|
||||
opp1 {
|
||||
/* Major Minor Substrate */
|
||||
/* all all all */
|
||||
opp-supported-hw = <0xffffffff 0xffffffff 0xffffffff>;
|
||||
opp-hz = /bits/ 64 <1200000000>;
|
||||
clock-latency-ns = <10000000>;
|
||||
|
||||
opp-microvolt-pcode0 = <1110000>;
|
||||
opp-microvolt-pcode1 = <1150000>;
|
||||
opp-microvolt-pcode2 = <1100000>;
|
||||
opp-microvolt-pcode3 = <1080000>;
|
||||
opp-microvolt-pcode4 = <1040000>;
|
||||
opp-microvolt-pcode5 = <1020000>;
|
||||
opp-microvolt-pcode6 = <980000>;
|
||||
opp-microvolt-pcode7 = <930000>;
|
||||
};
|
||||
};
|
|
@ -0,0 +1,29 @@
|
|||
Rockchip Electronics And Security Accelerator
|
||||
|
||||
Required properties:
|
||||
- compatible: Should be "rockchip,rk3288-crypto"
|
||||
- reg: Base physical address of the engine and length of memory mapped
|
||||
region
|
||||
- interrupts: Interrupt number
|
||||
- clocks: Reference to the clocks about crypto
|
||||
- clock-names: "aclk" used to clock data
|
||||
"hclk" used to clock data
|
||||
"sclk" used to clock crypto accelerator
|
||||
"apb_pclk" used to clock dma
|
||||
- resets: Must contain an entry for each entry in reset-names.
|
||||
See ../reset/reset.txt for details.
|
||||
- reset-names: Must include the name "crypto-rst".
|
||||
|
||||
Examples:
|
||||
|
||||
crypto: cypto-controller@ff8a0000 {
|
||||
compatible = "rockchip,rk3288-crypto";
|
||||
reg = <0xff8a0000 0x4000>;
|
||||
interrupts = <GIC_SPI 48 IRQ_TYPE_LEVEL_HIGH>;
|
||||
clocks = <&cru ACLK_CRYPTO>, <&cru HCLK_CRYPTO>,
|
||||
<&cru SCLK_CRYPTO>, <&cru ACLK_DMAC1>;
|
||||
clock-names = "aclk", "hclk", "sclk", "apb_pclk";
|
||||
resets = <&cru SRST_CRYPTO>;
|
||||
reset-names = "crypto-rst";
|
||||
status = "okay";
|
||||
};
|
|
@ -4,7 +4,7 @@ Allwinner Sunxi NMI Controller
|
|||
Required properties:
|
||||
|
||||
- compatible : should be "allwinner,sun7i-a20-sc-nmi" or
|
||||
"allwinner,sun6i-a31-sc-nmi"
|
||||
"allwinner,sun6i-a31-sc-nmi" or "allwinner,sun9i-a80-nmi"
|
||||
- reg : Specifies base physical address and size of the registers.
|
||||
- interrupt-controller : Identifies the node as an interrupt controller
|
||||
- #interrupt-cells : Specifies the number of cells needed to encode an
|
|
@ -18,6 +18,7 @@ Main node required properties:
|
|||
"arm,cortex-a9-gic"
|
||||
"arm,gic-400"
|
||||
"arm,pl390"
|
||||
"arm,tc11mp-gic"
|
||||
"brcm,brahma-b15-gic"
|
||||
"qcom,msm-8660-qgic"
|
||||
"qcom,msm-qgic2"
|
||||
|
|
|
@ -0,0 +1,74 @@
|
|||
Hisilicon mbigen device tree bindings.
|
||||
=======================================
|
||||
|
||||
Mbigen means: message based interrupt generator.
|
||||
|
||||
MBI is kind of msi interrupt only used on Non-PCI devices.
|
||||
|
||||
To reduce the wired interrupt number connected to GIC,
|
||||
Hisilicon designed mbigen to collect and generate interrupt.
|
||||
|
||||
|
||||
Non-pci devices can connect to mbigen and generate the
|
||||
interrupt by writing ITS register.
|
||||
|
||||
The mbigen chip and devices connect to mbigen have the following properties:
|
||||
|
||||
Mbigen main node required properties:
|
||||
-------------------------------------------
|
||||
- compatible: Should be "hisilicon,mbigen-v2"
|
||||
|
||||
- reg: Specifies the base physical address and size of the Mbigen
|
||||
registers.
|
||||
|
||||
- interrupt controller: Identifies the node as an interrupt controller
|
||||
|
||||
- msi-parent: Specifies the MSI controller this mbigen use.
|
||||
For more detail information,please refer to the generic msi-parent binding in
|
||||
Documentation/devicetree/bindings/interrupt-controller/msi.txt.
|
||||
|
||||
- num-pins: the total number of pins implemented in this Mbigen
|
||||
instance.
|
||||
|
||||
- #interrupt-cells : Specifies the number of cells needed to encode an
|
||||
interrupt source. The value must be 2.
|
||||
|
||||
The 1st cell is hardware pin number of the interrupt.This number is local to
|
||||
each mbigen chip and in the range from 0 to the maximum interrupts number
|
||||
of the mbigen.
|
||||
|
||||
The 2nd cell is the interrupt trigger type.
|
||||
The value of this cell should be:
|
||||
1: rising edge triggered
|
||||
or
|
||||
4: high level triggered
|
||||
|
||||
Examples:
|
||||
|
||||
mbigen_device_gmac:intc {
|
||||
compatible = "hisilicon,mbigen-v2";
|
||||
reg = <0x0 0xc0080000 0x0 0x10000>;
|
||||
interrupt-controller;
|
||||
msi-parent = <&its_dsa 0x40b1c>;
|
||||
num-pins = <9>;
|
||||
#interrupt-cells = <2>;
|
||||
};
|
||||
|
||||
Devices connect to mbigen required properties:
|
||||
----------------------------------------------------
|
||||
-interrupt-parent: Specifies the mbigen device node which device connected.
|
||||
|
||||
-interrupts:Specifies the interrupt source.
|
||||
For the specific information of each cell in this property,please refer to
|
||||
the "interrupt-cells" description mentioned above.
|
||||
|
||||
Examples:
|
||||
gmac0: ethernet@c2080000 {
|
||||
#address-cells = <1>;
|
||||
#size-cells = <0>;
|
||||
reg = <0 0xc2080000 0 0x20000>,
|
||||
<0 0xc0000000 0 0x1000>;
|
||||
interrupt-parent = <&mbigen_device_gmac>;
|
||||
interrupts = <656 1>,
|
||||
<657 1>;
|
||||
};
|
|
@ -0,0 +1,16 @@
|
|||
TS-4800 FPGA interrupt controller
|
||||
|
||||
TS-4800 FPGA has an internal interrupt controller. When one of the
|
||||
interrupts is triggered, the SoC is notified, usually using a GPIO as
|
||||
parent interrupt source.
|
||||
|
||||
Required properties:
|
||||
- compatible: should be "technologic,ts4800-irqc"
|
||||
- interrupt-controller: identifies the node as an interrupt controller
|
||||
- reg: physical base address of the controller and length of memory mapped
|
||||
region
|
||||
- #interrupt-cells: specifies the number of cells needed to encode an interrupt
|
||||
source, should be 1.
|
||||
- interrupt-parent: phandle to the parent interrupt controller this one is
|
||||
cascaded from
|
||||
- interrupts: specifies the interrupt line in the interrupt-parent controller
|
|
@ -35,7 +35,7 @@ Required properties (tsin (child) node):
|
|||
|
||||
- tsin-num : tsin id of the InputBlock (must be between 0 to 6)
|
||||
- i2c-bus : phandle to the I2C bus DT node which the demodulators & tuners on this tsin channel are connected.
|
||||
- rst-gpio : reset gpio for this tsin channel.
|
||||
- reset-gpios : reset gpio for this tsin channel.
|
||||
|
||||
Optional properties (tsin (child) node):
|
||||
|
||||
|
@ -55,27 +55,27 @@ Example:
|
|||
status = "okay";
|
||||
reg = <0x08a20000 0x10000>, <0x08a00000 0x4000>;
|
||||
reg-names = "stfe", "stfe-ram";
|
||||
interrupts = <0 34 0>, <0 35 0>;
|
||||
interrupts = <GIC_SPI 34 IRQ_TYPE_NONE>, <GIC_SPI 35 IRQ_TYPE_NONE>;
|
||||
interrupt-names = "stfe-error-irq", "stfe-idle-irq";
|
||||
|
||||
pinctrl-names = "tsin0-serial", "tsin0-parallel", "tsin3-serial",
|
||||
"tsin4-serial", "tsin5-serial";
|
||||
|
||||
pinctrl-0 = <&pinctrl_tsin0_serial>;
|
||||
pinctrl-1 = <&pinctrl_tsin0_parallel>;
|
||||
pinctrl-2 = <&pinctrl_tsin3_serial>;
|
||||
pinctrl-3 = <&pinctrl_tsin4_serial_alt3>;
|
||||
pinctrl-4 = <&pinctrl_tsin5_serial_alt1>;
|
||||
|
||||
pinctrl-names = "tsin0-serial",
|
||||
"tsin0-parallel",
|
||||
"tsin3-serial",
|
||||
"tsin4-serial",
|
||||
"tsin5-serial";
|
||||
clocks = <&clk_s_c0_flexgen CLK_PROC_STFE>;
|
||||
clock-names = "stfe";
|
||||
clock-names = "c8sectpfe";
|
||||
|
||||
/* tsin0 is TSA on NIMA */
|
||||
tsin0: port@0 {
|
||||
tsin-num = <0>;
|
||||
serial-not-parallel;
|
||||
i2c-bus = <&ssc2>;
|
||||
rst-gpio = <&pio15 4 0>;
|
||||
reset-gpios = <&pio15 4 GPIO_ACTIVE_HIGH>;
|
||||
dvb-card = <STV0367_TDA18212_NIMA_1>;
|
||||
};
|
||||
|
||||
|
@ -83,7 +83,7 @@ Example:
|
|||
tsin-num = <3>;
|
||||
serial-not-parallel;
|
||||
i2c-bus = <&ssc3>;
|
||||
rst-gpio = <&pio15 7 0>;
|
||||
reset-gpios = <&pio15 7 GPIO_ACTIVE_HIGH>;
|
||||
dvb-card = <STV0367_TDA18212_NIMB_1>;
|
||||
};
|
||||
};
|
||||
|
|
|
@ -11,6 +11,7 @@ Required properties:
|
|||
- "renesas,mmcif-r8a7740" for the MMCIF found in r8a7740 SoCs
|
||||
- "renesas,mmcif-r8a7790" for the MMCIF found in r8a7790 SoCs
|
||||
- "renesas,mmcif-r8a7791" for the MMCIF found in r8a7791 SoCs
|
||||
- "renesas,mmcif-r8a7793" for the MMCIF found in r8a7793 SoCs
|
||||
- "renesas,mmcif-r8a7794" for the MMCIF found in r8a7794 SoCs
|
||||
|
||||
- clocks: reference to the functional clock
|
||||
|
|
|
@ -31,6 +31,8 @@ A switch child node has the following optional property:
|
|||
switch. Must be set if the switch can not detect
|
||||
the presence and/or size of a connected EEPROM,
|
||||
otherwise optional.
|
||||
- reset-gpios : phandle and specifier to a gpio line connected to
|
||||
reset pin of the switch chip.
|
||||
|
||||
A switch may have multiple "port" children nodes
|
||||
|
||||
|
@ -114,6 +116,7 @@ Example:
|
|||
#size-cells = <0>;
|
||||
reg = <17 1>; /* MDIO address 17, switch 1 in tree */
|
||||
mii-bus = <&mii_bus1>;
|
||||
reset-gpios = <&gpio5 1 GPIO_ACTIVE_LOW>;
|
||||
|
||||
switch1port0: port@0 {
|
||||
reg = <0>;
|
||||
|
|
|
@ -1,7 +1,12 @@
|
|||
Hisilicon MDIO bus controller
|
||||
|
||||
Properties:
|
||||
- compatible: "hisilicon,mdio","hisilicon,hns-mdio".
|
||||
- compatible: can be one of:
|
||||
"hisilicon,hns-mdio"
|
||||
"hisilicon,mdio"
|
||||
"hisilicon,hns-mdio" is recommended to be used for hip05 and later SOCs,
|
||||
while "hisilicon,mdio" is optional for backwards compatibility only on
|
||||
hip04 Soc.
|
||||
- reg: The base address of the MDIO bus controller register bank.
|
||||
- #address-cells: Must be <1>.
|
||||
- #size-cells: Must be <0>. MDIO addresses have no size component.
|
||||
|
|
|
@ -0,0 +1,18 @@
|
|||
* ADF7242 IEEE 802.15.4 *
|
||||
|
||||
Required properties:
|
||||
- compatible: should be "adi,adf7242"
|
||||
- spi-max-frequency: maximal bus speed (12.5 MHz)
|
||||
- reg: the chipselect index
|
||||
- interrupts: the interrupt generated by the device via pin IRQ1.
|
||||
IRQ_TYPE_LEVEL_HIGH (4) or IRQ_TYPE_EDGE_FALLING (1)
|
||||
|
||||
Example:
|
||||
|
||||
adf7242@0 {
|
||||
compatible = "adi,adf7242";
|
||||
spi-max-frequency = <10000000>;
|
||||
reg = <0>;
|
||||
interrupts = <98 IRQ_TYPE_LEVEL_HIGH>;
|
||||
interrupt-parent = <&gpio3>;
|
||||
};
|
|
@ -4,6 +4,7 @@ Required properties:
|
|||
- compatible: Should be "cdns,[<chip>-]{macb|gem}"
|
||||
Use "cdns,at91sam9260-macb" for Atmel at91sam9 SoCs or the 10/100Mbit IP
|
||||
available on sama5d3 SoCs.
|
||||
Use "cdns,np4-macb" for NP4 SoC devices.
|
||||
Use "cdns,at32ap7000-macb" for other 10/100 usage or use the generic form: "cdns,macb".
|
||||
Use "cdns,pc302-gem" for Picochip picoXcell pc302 and later devices based on
|
||||
the Cadence GEM, or the generic form: "cdns,gem".
|
||||
|
@ -19,6 +20,9 @@ Required properties:
|
|||
Optional elements: 'tx_clk'
|
||||
- clocks: Phandles to input clocks.
|
||||
|
||||
Optional properties for PHY child node:
|
||||
- reset-gpios : Should specify the gpio for phy reset
|
||||
|
||||
Examples:
|
||||
|
||||
macb0: ethernet@fffc4000 {
|
||||
|
@ -29,4 +33,8 @@ Examples:
|
|||
local-mac-address = [3a 0e 03 04 05 06];
|
||||
clock-names = "pclk", "hclk", "tx_clk";
|
||||
clocks = <&clkc 30>, <&clkc 30>, <&clkc 13>;
|
||||
ethernet-phy@1 {
|
||||
reg = <0x1>;
|
||||
reset-gpios = <&pioE 6 1>;
|
||||
};
|
||||
};
|
||||
|
|
|
@ -1,8 +1,9 @@
|
|||
Micrel KSZ9021/KSZ9031 Gigabit Ethernet PHY
|
||||
|
||||
Some boards require special tuning values, particularly when it comes to
|
||||
clock delays. You can specify clock delay values by adding
|
||||
micrel-specific properties to an Ethernet OF device node.
|
||||
Some boards require special tuning values, particularly when it comes
|
||||
to clock delays. You can specify clock delay values in the PHY OF
|
||||
device node. Deprecated, but still supported, these properties can
|
||||
also be added to an Ethernet OF device node.
|
||||
|
||||
Note that these settings are applied after any phy-specific fixup from
|
||||
phy_fixup_list (see phy_init_hw() from drivers/net/phy/phy_device.c),
|
||||
|
@ -57,16 +58,6 @@ KSZ9031:
|
|||
|
||||
Examples:
|
||||
|
||||
/* Attach to an Ethernet device with autodetected PHY */
|
||||
&enet {
|
||||
rxc-skew-ps = <3000>;
|
||||
rxdv-skew-ps = <0>;
|
||||
txc-skew-ps = <3000>;
|
||||
txen-skew-ps = <0>;
|
||||
status = "okay";
|
||||
};
|
||||
|
||||
/* Attach to an explicitly-specified PHY */
|
||||
mdio {
|
||||
phy0: ethernet-phy@0 {
|
||||
rxc-skew-ps = <3000>;
|
||||
|
|
|
@ -0,0 +1,50 @@
|
|||
* STMicroelectronics : NFC Transceiver ST95HF
|
||||
|
||||
ST NFC Transceiver is required to attach with SPI bus.
|
||||
ST95HF node should be defined in DT as SPI slave device of SPI
|
||||
master with which ST95HF transceiver is physically connected.
|
||||
The properties defined below are required to be the part of DT
|
||||
to include ST95HF transceiver into the platform.
|
||||
|
||||
Required properties:
|
||||
===================
|
||||
- reg: Address of SPI slave "ST95HF transceiver" on SPI master bus.
|
||||
|
||||
- compatible: should be "st,st95hf" for ST95HF NFC transceiver
|
||||
|
||||
- spi-max-frequency: Max. operating SPI frequency for ST95HF
|
||||
transceiver.
|
||||
|
||||
- enable-gpio: GPIO line to enable ST95HF transceiver.
|
||||
|
||||
- interrupt-parent : Standard way to specify the controller to which
|
||||
ST95HF transceiver's interrupt is routed.
|
||||
|
||||
- interrupts : Standard way to define ST95HF transceiver's out
|
||||
interrupt.
|
||||
|
||||
Optional property:
|
||||
=================
|
||||
- st95hfvin-supply : This is an optional property. It contains a
|
||||
phandle to ST95HF transceiver's regulator supply node in DT.
|
||||
|
||||
Example:
|
||||
=======
|
||||
spi@9840000 {
|
||||
reg = <0x9840000 0x110>;
|
||||
#address-cells = <1>;
|
||||
#size-cells = <0>;
|
||||
cs-gpios = <&pio0 4>;
|
||||
status = "okay";
|
||||
|
||||
st95hf@0{
|
||||
reg = <0>;
|
||||
compatible = "st,st95hf";
|
||||
status = "okay";
|
||||
spi-max-frequency = <1000000>;
|
||||
enable-gpio = <&pio4 0>;
|
||||
interrupt-parent = <&pio0>;
|
||||
interrupts = <7 IRQ_TYPE_EDGE_FALLING>;
|
||||
};
|
||||
|
||||
};
|
|
@ -5,8 +5,18 @@ interface contains.
|
|||
|
||||
Required properties:
|
||||
- compatible: "renesas,etheravb-r8a7790" if the device is a part of R8A7790 SoC.
|
||||
"renesas,etheravb-r8a7791" if the device is a part of R8A7791 SoC.
|
||||
"renesas,etheravb-r8a7792" if the device is a part of R8A7792 SoC.
|
||||
"renesas,etheravb-r8a7793" if the device is a part of R8A7793 SoC.
|
||||
"renesas,etheravb-r8a7794" if the device is a part of R8A7794 SoC.
|
||||
"renesas,etheravb-r8a7795" if the device is a part of R8A7795 SoC.
|
||||
"renesas,etheravb-rcar-gen2" for generic R-Car Gen 2 compatible interface.
|
||||
"renesas,etheravb-rcar-gen3" for generic R-Car Gen 3 compatible interface.
|
||||
|
||||
When compatible with the generic version, nodes must list the
|
||||
SoC-specific version corresponding to the platform first
|
||||
followed by the generic version.
|
||||
|
||||
- reg: offset and length of (1) the register block and (2) the stream buffer.
|
||||
- interrupts: A list of interrupt-specifiers, one for each entry in
|
||||
interrupt-names.
|
||||
|
@ -37,7 +47,7 @@ Optional properties:
|
|||
Example:
|
||||
|
||||
ethernet@e6800000 {
|
||||
compatible = "renesas,etheravb-r8a7795";
|
||||
compatible = "renesas,etheravb-r8a7795", "renesas,etheravb-rcar-gen3";
|
||||
reg = <0 0xe6800000 0 0x800>, <0 0xe6a00000 0 0x10000>;
|
||||
interrupt-parent = <&gic>;
|
||||
interrupts = <GIC_SPI 39 IRQ_TYPE_LEVEL_HIGH>,
|
||||
|
|
|
@ -11,6 +11,8 @@ Required properties:
|
|||
designware version numbers documented in stmmac.txt
|
||||
- altr,sysmgr-syscon : Should be the phandle to the system manager node that
|
||||
encompasses the glue register, the register offset, and the register shift.
|
||||
- altr,f2h_ptp_ref_clk use f2h_ptp_ref_clk instead of default eosc1 clock
|
||||
for ptp ref clk. This affects all emacs as the clock is common.
|
||||
|
||||
Optional properties:
|
||||
altr,emac-splitter: Should be the phandle to the emac splitter soft IP node if
|
||||
|
|
|
@ -35,18 +35,18 @@ Optional properties:
|
|||
- reset-names: Should contain the reset signal name "stmmaceth", if a
|
||||
reset phandle is given
|
||||
- max-frame-size: See ethernet.txt file in the same directory
|
||||
- clocks: If present, the first clock should be the GMAC main clock and
|
||||
the second clock should be peripheral's register interface clock. Further
|
||||
clocks may be specified in derived bindings.
|
||||
- clock-names: One name for each entry in the clocks property, the
|
||||
first one should be "stmmaceth" and the second one should be "pclk".
|
||||
- clk_ptp_ref: this is the PTP reference clock; in case of the PTP is
|
||||
available this clock is used for programming the Timestamp Addend Register.
|
||||
If not passed then the system clock will be used and this is fine on some
|
||||
platforms.
|
||||
- clocks: If present, the first clock should be the GMAC main clock
|
||||
The optional second clock should be peripheral's register interface clock.
|
||||
The third optional clock should be the ptp reference clock.
|
||||
Further clocks may be specified in derived bindings.
|
||||
- clock-names: One name for each entry in the clocks property.
|
||||
The first one should be "stmmaceth".
|
||||
The optional second one should be "pclk".
|
||||
The optional third one should be "clk_ptp_ref".
|
||||
- snps,burst_len: The AXI burst lenth value of the AXI BUS MODE register.
|
||||
- tx-fifo-depth: See ethernet.txt file in the same directory
|
||||
- rx-fifo-depth: See ethernet.txt file in the same directory
|
||||
- mdio: with compatible = "snps,dwmac-mdio", create and register mdio bus.
|
||||
|
||||
Examples:
|
||||
|
||||
|
@ -65,4 +65,11 @@ Examples:
|
|||
tx-fifo-depth = <16384>;
|
||||
clocks = <&clock>;
|
||||
clock-names = "stmmaceth";
|
||||
mdio0 {
|
||||
#address-cells = <1>;
|
||||
#size-cells = <0>;
|
||||
compatible = "snps,dwmac-mdio";
|
||||
phy1: ethernet-phy@0 {
|
||||
};
|
||||
};
|
||||
};
|
||||
|
|
|
@ -45,21 +45,10 @@ Devices supporting OPPs must set their "operating-points-v2" property with
|
|||
phandle to a OPP table in their DT node. The OPP core will use this phandle to
|
||||
find the operating points for the device.
|
||||
|
||||
Devices may want to choose OPP tables at runtime and so can provide a list of
|
||||
phandles here. But only *one* of them should be chosen at runtime. This must be
|
||||
accompanied by a corresponding "operating-points-names" property, to uniquely
|
||||
identify the OPP tables.
|
||||
|
||||
If required, this can be extended for SoC vendor specfic bindings. Such bindings
|
||||
should be documented as Documentation/devicetree/bindings/power/<vendor>-opp.txt
|
||||
and should have a compatible description like: "operating-points-v2-<vendor>".
|
||||
|
||||
Optional properties:
|
||||
- operating-points-names: Names of OPP tables (required if multiple OPP
|
||||
tables are present), to uniquely identify them. The same list must be present
|
||||
for all the CPUs which are sharing clock/voltage rails and hence the OPP
|
||||
tables.
|
||||
|
||||
* OPP Table Node
|
||||
|
||||
This describes the OPPs belonging to a device. This node can have following
|
||||
|
@ -100,6 +89,14 @@ Optional properties:
|
|||
Entries for multiple regulators must be present in the same order as
|
||||
regulators are specified in device's DT node.
|
||||
|
||||
- opp-microvolt-<name>: Named opp-microvolt property. This is exactly similar to
|
||||
the above opp-microvolt property, but allows multiple voltage ranges to be
|
||||
provided for the same OPP. At runtime, the platform can pick a <name> and
|
||||
matching opp-microvolt-<name> property will be enabled for all OPPs. If the
|
||||
platform doesn't pick a specific <name> or the <name> doesn't match with any
|
||||
opp-microvolt-<name> properties, then opp-microvolt property shall be used, if
|
||||
present.
|
||||
|
||||
- opp-microamp: The maximum current drawn by the device in microamperes
|
||||
considering system specific parameters (such as transients, process, aging,
|
||||
maximum operating temperature range etc.) as necessary. This may be used to
|
||||
|
@ -112,6 +109,9 @@ Optional properties:
|
|||
for few regulators, then this should be marked as zero for them. If it isn't
|
||||
required for any regulator, then this property need not be present.
|
||||
|
||||
- opp-microamp-<name>: Named opp-microamp property. Similar to
|
||||
opp-microvolt-<name> property, but for microamp instead.
|
||||
|
||||
- clock-latency-ns: Specifies the maximum possible transition latency (in
|
||||
nanoseconds) for switching to this OPP from any other OPP.
|
||||
|
||||
|
@ -123,6 +123,26 @@ Optional properties:
|
|||
- opp-suspend: Marks the OPP to be used during device suspend. Only one OPP in
|
||||
the table should have this.
|
||||
|
||||
- opp-supported-hw: This enables us to select only a subset of OPPs from the
|
||||
larger OPP table, based on what version of the hardware we are running on. We
|
||||
still can't have multiple nodes with the same opp-hz value in OPP table.
|
||||
|
||||
It's an user defined array containing a hierarchy of hardware version numbers,
|
||||
supported by the OPP. For example: a platform with hierarchy of three levels
|
||||
of versions (A, B and C), this field should be like <X Y Z>, where X
|
||||
corresponds to Version hierarchy A, Y corresponds to version hierarchy B and Z
|
||||
corresponds to version hierarchy C.
|
||||
|
||||
Each level of hierarchy is represented by a 32 bit value, and so there can be
|
||||
only 32 different supported version per hierarchy. i.e. 1 bit per version. A
|
||||
value of 0xFFFFFFFF will enable the OPP for all versions for that hierarchy
|
||||
level. And a value of 0x00000000 will disable the OPP completely, and so we
|
||||
never want that to happen.
|
||||
|
||||
If 32 values aren't sufficient for a version hierarchy, than that version
|
||||
hierarchy can be contained in multiple 32 bit values. i.e. <X Y Z1 Z2> in the
|
||||
above example, Z1 & Z2 refer to the version hierarchy Z.
|
||||
|
||||
- status: Marks the node enabled/disabled.
|
||||
|
||||
Example 1: Single cluster Dual-core ARM cortex A9, switch DVFS states together.
|
||||
|
@ -157,20 +177,20 @@ Example 1: Single cluster Dual-core ARM cortex A9, switch DVFS states together.
|
|||
compatible = "operating-points-v2";
|
||||
opp-shared;
|
||||
|
||||
opp00 {
|
||||
opp@1000000000 {
|
||||
opp-hz = /bits/ 64 <1000000000>;
|
||||
opp-microvolt = <970000 975000 985000>;
|
||||
opp-microamp = <70000>;
|
||||
clock-latency-ns = <300000>;
|
||||
opp-suspend;
|
||||
};
|
||||
opp01 {
|
||||
opp@1100000000 {
|
||||
opp-hz = /bits/ 64 <1100000000>;
|
||||
opp-microvolt = <980000 1000000 1010000>;
|
||||
opp-microamp = <80000>;
|
||||
clock-latency-ns = <310000>;
|
||||
};
|
||||
opp02 {
|
||||
opp@1200000000 {
|
||||
opp-hz = /bits/ 64 <1200000000>;
|
||||
opp-microvolt = <1025000>;
|
||||
clock-latency-ns = <290000>;
|
||||
|
@ -236,20 +256,20 @@ independently.
|
|||
* independently.
|
||||
*/
|
||||
|
||||
opp00 {
|
||||
opp@1000000000 {
|
||||
opp-hz = /bits/ 64 <1000000000>;
|
||||
opp-microvolt = <970000 975000 985000>;
|
||||
opp-microamp = <70000>;
|
||||
clock-latency-ns = <300000>;
|
||||
opp-suspend;
|
||||
};
|
||||
opp01 {
|
||||
opp@1100000000 {
|
||||
opp-hz = /bits/ 64 <1100000000>;
|
||||
opp-microvolt = <980000 1000000 1010000>;
|
||||
opp-microamp = <80000>;
|
||||
clock-latency-ns = <310000>;
|
||||
};
|
||||
opp02 {
|
||||
opp@1200000000 {
|
||||
opp-hz = /bits/ 64 <1200000000>;
|
||||
opp-microvolt = <1025000>;
|
||||
opp-microamp = <90000;
|
||||
|
@ -312,20 +332,20 @@ DVFS state together.
|
|||
compatible = "operating-points-v2";
|
||||
opp-shared;
|
||||
|
||||
opp00 {
|
||||
opp@1000000000 {
|
||||
opp-hz = /bits/ 64 <1000000000>;
|
||||
opp-microvolt = <970000 975000 985000>;
|
||||
opp-microamp = <70000>;
|
||||
clock-latency-ns = <300000>;
|
||||
opp-suspend;
|
||||
};
|
||||
opp01 {
|
||||
opp@1100000000 {
|
||||
opp-hz = /bits/ 64 <1100000000>;
|
||||
opp-microvolt = <980000 1000000 1010000>;
|
||||
opp-microamp = <80000>;
|
||||
clock-latency-ns = <310000>;
|
||||
};
|
||||
opp02 {
|
||||
opp@1200000000 {
|
||||
opp-hz = /bits/ 64 <1200000000>;
|
||||
opp-microvolt = <1025000>;
|
||||
opp-microamp = <90000>;
|
||||
|
@ -338,20 +358,20 @@ DVFS state together.
|
|||
compatible = "operating-points-v2";
|
||||
opp-shared;
|
||||
|
||||
opp10 {
|
||||
opp@1300000000 {
|
||||
opp-hz = /bits/ 64 <1300000000>;
|
||||
opp-microvolt = <1045000 1050000 1055000>;
|
||||
opp-microamp = <95000>;
|
||||
clock-latency-ns = <400000>;
|
||||
opp-suspend;
|
||||
};
|
||||
opp11 {
|
||||
opp@1400000000 {
|
||||
opp-hz = /bits/ 64 <1400000000>;
|
||||
opp-microvolt = <1075000>;
|
||||
opp-microamp = <100000>;
|
||||
clock-latency-ns = <400000>;
|
||||
};
|
||||
opp12 {
|
||||
opp@1500000000 {
|
||||
opp-hz = /bits/ 64 <1500000000>;
|
||||
opp-microvolt = <1010000 1100000 1110000>;
|
||||
opp-microamp = <95000>;
|
||||
|
@ -378,7 +398,7 @@ Example 4: Handling multiple regulators
|
|||
compatible = "operating-points-v2";
|
||||
opp-shared;
|
||||
|
||||
opp00 {
|
||||
opp@1000000000 {
|
||||
opp-hz = /bits/ 64 <1000000000>;
|
||||
opp-microvolt = <970000>, /* Supply 0 */
|
||||
<960000>, /* Supply 1 */
|
||||
|
@ -391,7 +411,7 @@ Example 4: Handling multiple regulators
|
|||
|
||||
/* OR */
|
||||
|
||||
opp00 {
|
||||
opp@1000000000 {
|
||||
opp-hz = /bits/ 64 <1000000000>;
|
||||
opp-microvolt = <970000 975000 985000>, /* Supply 0 */
|
||||
<960000 965000 975000>, /* Supply 1 */
|
||||
|
@ -404,7 +424,7 @@ Example 4: Handling multiple regulators
|
|||
|
||||
/* OR */
|
||||
|
||||
opp00 {
|
||||
opp@1000000000 {
|
||||
opp-hz = /bits/ 64 <1000000000>;
|
||||
opp-microvolt = <970000 975000 985000>, /* Supply 0 */
|
||||
<960000 965000 975000>, /* Supply 1 */
|
||||
|
@ -417,7 +437,8 @@ Example 4: Handling multiple regulators
|
|||
};
|
||||
};
|
||||
|
||||
Example 5: Multiple OPP tables
|
||||
Example 5: opp-supported-hw
|
||||
(example: three level hierarchy of versions: cuts, substrate and process)
|
||||
|
||||
/ {
|
||||
cpus {
|
||||
|
@ -426,40 +447,73 @@ Example 5: Multiple OPP tables
|
|||
...
|
||||
|
||||
cpu-supply = <&cpu_supply>
|
||||
operating-points-v2 = <&cpu0_opp_table_slow>, <&cpu0_opp_table_fast>;
|
||||
operating-points-names = "slow", "fast";
|
||||
operating-points-v2 = <&cpu0_opp_table_slow>;
|
||||
};
|
||||
};
|
||||
|
||||
cpu0_opp_table_slow: opp_table_slow {
|
||||
opp_table {
|
||||
compatible = "operating-points-v2";
|
||||
status = "okay";
|
||||
opp-shared;
|
||||
|
||||
opp00 {
|
||||
opp@600000000 {
|
||||
/*
|
||||
* Supports all substrate and process versions for 0xF
|
||||
* cuts, i.e. only first four cuts.
|
||||
*/
|
||||
opp-supported-hw = <0xF 0xFFFFFFFF 0xFFFFFFFF>
|
||||
opp-hz = /bits/ 64 <600000000>;
|
||||
opp-microvolt = <900000 915000 925000>;
|
||||
...
|
||||
};
|
||||
|
||||
opp01 {
|
||||
opp@800000000 {
|
||||
/*
|
||||
* Supports:
|
||||
* - cuts: only one, 6th cut (represented by 6th bit).
|
||||
* - substrate: supports 16 different substrate versions
|
||||
* - process: supports 9 different process versions
|
||||
*/
|
||||
opp-supported-hw = <0x20 0xff0000ff 0x0000f4f0>
|
||||
opp-hz = /bits/ 64 <800000000>;
|
||||
...
|
||||
};
|
||||
};
|
||||
|
||||
cpu0_opp_table_fast: opp_table_fast {
|
||||
compatible = "operating-points-v2";
|
||||
status = "okay";
|
||||
opp-shared;
|
||||
|
||||
opp10 {
|
||||
opp-hz = /bits/ 64 <1000000000>;
|
||||
...
|
||||
};
|
||||
|
||||
opp11 {
|
||||
opp-hz = /bits/ 64 <1100000000>;
|
||||
opp-microvolt = <900000 915000 925000>;
|
||||
...
|
||||
};
|
||||
};
|
||||
};
|
||||
|
||||
Example 6: opp-microvolt-<name>, opp-microamp-<name>:
|
||||
(example: device with two possible microvolt ranges: slow and fast)
|
||||
|
||||
/ {
|
||||
cpus {
|
||||
cpu@0 {
|
||||
compatible = "arm,cortex-a7";
|
||||
...
|
||||
|
||||
operating-points-v2 = <&cpu0_opp_table>;
|
||||
};
|
||||
};
|
||||
|
||||
cpu0_opp_table: opp_table0 {
|
||||
compatible = "operating-points-v2";
|
||||
opp-shared;
|
||||
|
||||
opp@1000000000 {
|
||||
opp-hz = /bits/ 64 <1000000000>;
|
||||
opp-microvolt-slow = <900000 915000 925000>;
|
||||
opp-microvolt-fast = <970000 975000 985000>;
|
||||
opp-microamp-slow = <70000>;
|
||||
opp-microamp-fast = <71000>;
|
||||
};
|
||||
|
||||
opp@1200000000 {
|
||||
opp-hz = /bits/ 64 <1200000000>;
|
||||
opp-microvolt-slow = <900000 915000 925000>, /* Supply vcc0 */
|
||||
<910000 925000 935000>; /* Supply vcc1 */
|
||||
opp-microvolt-fast = <970000 975000 985000>, /* Supply vcc0 */
|
||||
<960000 965000 975000>; /* Supply vcc1 */
|
||||
opp-microamp = <70000>; /* Will be used for both slow/fast */
|
||||
};
|
||||
};
|
||||
};
|
||||
|
|
|
@ -17,7 +17,10 @@ Required properties:
|
|||
"allwinner,sun8i-a23-pinctrl"
|
||||
"allwinner,sun8i-a23-r-pinctrl"
|
||||
"allwinner,sun8i-a33-pinctrl"
|
||||
"allwinner,sun9i-a80-pinctrl"
|
||||
"allwinner,sun9i-a80-r-pinctrl"
|
||||
"allwinner,sun8i-a83t-pinctrl"
|
||||
"allwinner,sun8i-h3-pinctrl"
|
||||
|
||||
- reg: Should contain the register physical address and length for the
|
||||
pin controller.
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
Broadcom Cygnus GPIO/PINCONF Controller
|
||||
Broadcom iProc GPIO/PINCONF Controller
|
||||
|
||||
Required properties:
|
||||
|
||||
|
@ -7,9 +7,12 @@ Required properties:
|
|||
"brcm,cygnus-crmu-gpio" or "brcm,iproc-gpio"
|
||||
|
||||
- reg:
|
||||
Define the base and range of the I/O address space that contains the Cygnus
|
||||
Define the base and range of the I/O address space that contains SoC
|
||||
GPIO/PINCONF controller registers
|
||||
|
||||
- ngpios:
|
||||
Total number of in-use slots in GPIO controller
|
||||
|
||||
- #gpio-cells:
|
||||
Must be two. The first cell is the GPIO pin number (within the
|
||||
controller's pin space) and the second cell is used for the following:
|
||||
|
@ -57,6 +60,7 @@ Example:
|
|||
compatible = "brcm,cygnus-ccm-gpio";
|
||||
reg = <0x1800a000 0x50>,
|
||||
<0x0301d164 0x20>;
|
||||
ngpios = <24>;
|
||||
#gpio-cells = <2>;
|
||||
gpio-controller;
|
||||
interrupts = <GIC_SPI 84 IRQ_TYPE_LEVEL_HIGH>;
|
||||
|
@ -78,6 +82,7 @@ Example:
|
|||
gpio_asiu: gpio@180a5000 {
|
||||
compatible = "brcm,cygnus-asiu-gpio";
|
||||
reg = <0x180a5000 0x668>;
|
||||
ngpios = <146>;
|
||||
#gpio-cells = <2>;
|
||||
gpio-controller;
|
||||
interrupts = <GIC_SPI 174 IRQ_TYPE_LEVEL_HIGH>;
|
|
@ -0,0 +1,80 @@
|
|||
Broadcom Northstar plus (NSP) GPIO/PINCONF Controller
|
||||
|
||||
Required properties:
|
||||
- compatible:
|
||||
Must be "brcm,nsp-gpio-a"
|
||||
|
||||
- reg:
|
||||
Should contain the register physical address and length for each of
|
||||
GPIO base, IO control registers
|
||||
|
||||
- #gpio-cells:
|
||||
Must be two. The first cell is the GPIO pin number (within the
|
||||
controller's pin space) and the second cell is used for the following:
|
||||
bit[0]: polarity (0 for active high and 1 for active low)
|
||||
|
||||
- gpio-controller:
|
||||
Specifies that the node is a GPIO controller
|
||||
|
||||
- ngpios:
|
||||
Number of gpios supported (58x25 supports 32 and 58x23 supports 24)
|
||||
|
||||
Optional properties:
|
||||
- interrupts:
|
||||
Interrupt ID
|
||||
|
||||
- interrupt-controller:
|
||||
Specifies that the node is an interrupt controller
|
||||
|
||||
- gpio-ranges:
|
||||
Specifies the mapping between gpio controller and pin-controllers pins.
|
||||
This requires 4 fields in cells defined as -
|
||||
1. Phandle of pin-controller.
|
||||
2. GPIO base pin offset.
|
||||
3 Pin-control base pin offset.
|
||||
4. number of gpio pins which are linearly mapped from pin base.
|
||||
|
||||
Supported generic PINCONF properties in child nodes:
|
||||
- pins:
|
||||
The list of pins (within the controller's own pin space) that properties
|
||||
in the node apply to. Pin names are "gpio-<pin>"
|
||||
|
||||
- bias-disable:
|
||||
Disable pin bias
|
||||
|
||||
- bias-pull-up:
|
||||
Enable internal pull up resistor
|
||||
|
||||
- bias-pull-down:
|
||||
Enable internal pull down resistor
|
||||
|
||||
- drive-strength:
|
||||
Valid drive strength values include 2, 4, 6, 8, 10, 12, 14, 16 (mA)
|
||||
|
||||
Example:
|
||||
|
||||
gpioa: gpio@18000020 {
|
||||
compatible = "brcm,nsp-gpio-a";
|
||||
reg = <0x18000020 0x100>,
|
||||
<0x1803f1c4 0x1c>;
|
||||
#gpio-cells = <2>;
|
||||
gpio-controller;
|
||||
ngpios = <32>;
|
||||
gpio-ranges = <&pinctrl 0 0 31>;
|
||||
interrupt-controller;
|
||||
interrupts = <GIC_SPI 85 IRQ_TYPE_LEVEL_HIGH>;
|
||||
|
||||
/* Hog a few default settings */
|
||||
pinctrl-names = "default";
|
||||
pinctrl-0 = <&led>;
|
||||
led: led {
|
||||
pins = "gpio-1";
|
||||
bias-pull-up;
|
||||
};
|
||||
|
||||
pwr: pwr {
|
||||
gpio-hog;
|
||||
gpios = <3 1>;
|
||||
output-high;
|
||||
};
|
||||
};
|
|
@ -1,7 +1,16 @@
|
|||
Lantiq XWAY pinmux controller
|
||||
|
||||
Required properties:
|
||||
- compatible: "lantiq,pinctrl-xway" or "lantiq,pinctrl-xr9"
|
||||
- compatible: "lantiq,pinctrl-xway", (DEPRECATED: Use "lantiq,pinctrl-danube")
|
||||
"lantiq,pinctrl-xr9", (DEPRECATED: Use "lantiq,xrx100-pinctrl" or
|
||||
"lantiq,xrx200-pinctrl")
|
||||
"lantiq,pinctrl-ase", (DEPRECATED: Use "lantiq,ase-pinctrl")
|
||||
"lantiq,<chip>-pinctrl", where <chip> is:
|
||||
"ase" (XWAY AMAZON Family)
|
||||
"danube" (XWAY DANUBE Family)
|
||||
"xrx100" (XWAY xRX100 Family)
|
||||
"xrx200" (XWAY xRX200 Family)
|
||||
"xrx300" (XWAY xRX300 Family)
|
||||
- reg: Should contain the physical address and length of the gpio/pinmux
|
||||
register range
|
||||
|
||||
|
@ -36,19 +45,87 @@ Required subnode-properties:
|
|||
|
||||
Valid values for group and function names:
|
||||
|
||||
XWAY: (DEPRECATED: Use DANUBE)
|
||||
mux groups:
|
||||
exin0, exin1, exin2, jtag, ebu a23, ebu a24, ebu a25, ebu clk, ebu cs1,
|
||||
ebu wait, nand ale, nand cs1, nand cle, spi, spi_cs1, spi_cs2, spi_cs3,
|
||||
spi_cs4, spi_cs5, spi_cs6, asc0, asc0 cts rts, stp, nmi , gpt1, gpt2,
|
||||
spi_cs4, spi_cs5, spi_cs6, asc0, asc0 cts rts, stp, nmi, gpt1, gpt2,
|
||||
gpt3, clkout0, clkout1, clkout2, clkout3, gnt1, gnt2, gnt3, req1, req2,
|
||||
req3
|
||||
|
||||
additional mux groups (XR9 only):
|
||||
mdio, nand rdy, nand rd, exin3, exin4, gnt4, req4
|
||||
functions:
|
||||
spi, asc, cgu, jtag, exin, stp, gpt, nmi, pci, ebu
|
||||
|
||||
XR9: ( DEPRECATED: Use xRX100/xRX200)
|
||||
mux groups:
|
||||
exin0, exin1, exin2, exin3, exin4, jtag, ebu a23, ebu a24, ebu a25,
|
||||
ebu clk, ebu cs1, ebu wait, nand ale, nand cs1, nand cle, nand rdy,
|
||||
nand rd, spi, spi_cs1, spi_cs2, spi_cs3, spi_cs4, spi_cs5, spi_cs6,
|
||||
asc0, asc0 cts rts, stp, nmi, gpt1, gpt2, gpt3, clkout0, clkout1,
|
||||
clkout2, clkout3, gnt1, gnt2, gnt3, gnt4, req1, req2, req3, req4, mdio,
|
||||
gphy0 led0, gphy0 led1, gphy0 led2, gphy1 led0, gphy1 led1, gphy1 led2
|
||||
|
||||
functions:
|
||||
spi, asc, cgu, jtag, exin, stp, gpt, nmi, pci, ebu, mdio
|
||||
spi, asc, cgu, jtag, exin, stp, gpt, nmi, pci, ebu, mdio, gphy
|
||||
|
||||
AMAZON:
|
||||
mux groups:
|
||||
exin0, exin1, exin2, jtag, spi_di, spi_do, spi_clk, spi_cs1, spi_cs2,
|
||||
spi_cs3, spi_cs4, spi_cs5, spi_cs6, asc, stp, gpt1, gpt2, gpt3, clkout0,
|
||||
clkout1, clkout2, mdio, dfe led0, dfe led1, ephy led0, ephy led1, ephy led2
|
||||
|
||||
functions:
|
||||
spi, asc, cgu, jtag, exin, stp, gpt, mdio, ephy, dfe
|
||||
|
||||
DANUBE:
|
||||
mux groups:
|
||||
exin0, exin1, exin2, jtag, ebu a23, ebu a24, ebu a25, ebu clk, ebu cs1,
|
||||
ebu wait, nand ale, nand cs1, nand cle, spi_di, spi_do, spi_clk, spi_cs1,
|
||||
spi_cs2, spi_cs3, spi_cs4, spi_cs5, spi_cs6, asc0, asc0 cts rts, stp, nmi,
|
||||
gpt1, gpt2, gpt3, clkout0, clkout1, clkout2, clkout3, gnt1, gnt2, gnt3,
|
||||
req1, req2, req3, dfe led0, dfe led1
|
||||
|
||||
functions:
|
||||
spi, asc, cgu, jtag, exin, stp, gpt, nmi, pci, ebu, dfe
|
||||
|
||||
xRX100:
|
||||
mux groups:
|
||||
exin0, exin1, exin2, exin3, exin4, ebu a23, ebu a24, ebu a25, ebu clk,
|
||||
ebu cs1, ebu wait, nand ale, nand cs1, nand cle, nand rdy, nand rd,
|
||||
spi_di, spi_do, spi_clk, spi_cs1, spi_cs2, spi_cs3, spi_cs4, spi_cs5,
|
||||
spi_cs6, asc0, asc0 cts rts, stp, nmi, gpt1, gpt2, gpt3, clkout0, clkout1,
|
||||
clkout2, clkout3, gnt1, gnt2, gnt3, gnt4, req1, req2, req3, req4, mdio,
|
||||
dfe led0, dfe led1
|
||||
|
||||
functions:
|
||||
spi, asc, cgu, exin, stp, gpt, nmi, pci, ebu, mdio, dfe
|
||||
|
||||
xRX200:
|
||||
mux groups:
|
||||
exin0, exin1, exin2, exin3, exin4, ebu a23, ebu a24, ebu a25, ebu clk,
|
||||
ebu cs1, ebu wait, nand ale, nand cs1, nand cle, nand rdy, nand rd,
|
||||
spi_di, spi_do, spi_clk, spi_cs1, spi_cs2, spi_cs3, spi_cs4, spi_cs5,
|
||||
spi_cs6, usif uart_rx, usif uart_tx, usif uart_rts, usif uart_cts,
|
||||
usif uart_dtr, usif uart_dsr, usif uart_dcd, usif uart_ri, usif spi_di,
|
||||
usif spi_do, usif spi_clk, usif spi_cs0, usif spi_cs1, usif spi_cs2,
|
||||
stp, nmi, gpt1, gpt2, gpt3, clkout0, clkout1, clkout2, clkout3, gnt1,
|
||||
gnt2, gnt3, gnt4, req1, req2, req3, req4, mdio, dfe led0, dfe led1,
|
||||
gphy0 led0, gphy0 led1, gphy0 led2, gphy1 led0, gphy1 led1, gphy1 led2
|
||||
|
||||
functions:
|
||||
spi, usif, cgu, exin, stp, gpt, nmi, pci, ebu, mdio, dfe, gphy
|
||||
|
||||
xRX300:
|
||||
mux groups:
|
||||
exin0, exin1, exin2, exin4, nand ale, nand cs0, nand cs1, nand cle,
|
||||
nand rdy, nand rd, nand_d0, nand_d1, nand_d2, nand_d3, nand_d4, nand_d5,
|
||||
nand_d6, nand_d7, nand_d1, nand wr, nand wp, nand se, spi_di, spi_do,
|
||||
spi_clk, spi_cs1, spi_cs4, spi_cs6, usif uart_rx, usif uart_tx,
|
||||
usif spi_di, usif spi_do, usif spi_clk, usif spi_cs0, stp, clkout2,
|
||||
mdio, dfe led0, dfe led1, ephy0 led0, ephy0 led1, ephy1 led0, ephy1 led1
|
||||
|
||||
functions:
|
||||
spi, usif, cgu, exin, stp, ebu, mdio, dfe, ephy
|
||||
|
||||
|
||||
Definition of pin configurations:
|
||||
|
@ -62,15 +139,32 @@ Optional subnode-properties:
|
|||
0: none, 1: down, 2: up.
|
||||
- lantiq,open-drain: Boolean, enables open-drain on the defined pin.
|
||||
|
||||
Valid values for XWAY pin names:
|
||||
Valid values for XWAY pin names: (DEPRECATED: Use DANUBE)
|
||||
Pinconf pins can be referenced via the names io0-io31.
|
||||
|
||||
Valid values for XR9 pin names:
|
||||
Valid values for XR9 pin names: (DEPRECATED: Use xrX100/xRX200)
|
||||
Pinconf pins can be referenced via the names io0-io55.
|
||||
|
||||
Valid values for AMAZON pin names:
|
||||
Pinconf pins can be referenced via the names io0-io31.
|
||||
|
||||
Valid values for DANUBE pin names:
|
||||
Pinconf pins can be referenced via the names io0-io31.
|
||||
|
||||
Valid values for xRX100 pin names:
|
||||
Pinconf pins can be referenced via the names io0-io55.
|
||||
|
||||
Valid values for xRX200 pin names:
|
||||
Pinconf pins can be referenced via the names io0-io49.
|
||||
|
||||
Valid values for xRX300 pin names:
|
||||
Pinconf pins can be referenced via the names io0-io1,io3-io6,io8-io11,
|
||||
io13-io19,io23-io27,io34-io36,
|
||||
io42-io43,io48-io61.
|
||||
|
||||
Example:
|
||||
gpio: pinmux@E100B10 {
|
||||
compatible = "lantiq,pinctrl-xway";
|
||||
compatible = "lantiq,danube-pinctrl";
|
||||
pinctrl-names = "default";
|
||||
pinctrl-0 = <&state_default>;
|
||||
|
||||
|
|
|
@ -4,10 +4,11 @@ The Mediatek's Pin controller is used to control SoC pins.
|
|||
|
||||
Required properties:
|
||||
- compatible: value should be one of the following.
|
||||
(a) "mediatek,mt8135-pinctrl", compatible with mt8135 pinctrl.
|
||||
(b) "mediatek,mt8173-pinctrl", compatible with mt8173 pinctrl.
|
||||
(c) "mediatek,mt6397-pinctrl", compatible with mt6397 pinctrl.
|
||||
(d) "mediatek,mt8127-pinctrl", compatible with mt8127 pinctrl.
|
||||
"mediatek,mt2701-pinctrl", compatible with mt2701 pinctrl.
|
||||
"mediatek,mt6397-pinctrl", compatible with mt6397 pinctrl.
|
||||
"mediatek,mt8127-pinctrl", compatible with mt8127 pinctrl.
|
||||
"mediatek,mt8135-pinctrl", compatible with mt8135 pinctrl.
|
||||
"mediatek,mt8173-pinctrl", compatible with mt8173 pinctrl.
|
||||
- pins-are-numbered: Specify the subnodes are using numbered pinmux to
|
||||
specify pins.
|
||||
- gpio-controller : Marks the device node as a gpio controller.
|
||||
|
|
|
@ -0,0 +1,199 @@
|
|||
Qualcomm MSM8996 TLMM block
|
||||
|
||||
This binding describes the Top Level Mode Multiplexer block found in the
|
||||
MSM8996 platform.
|
||||
|
||||
- compatible:
|
||||
Usage: required
|
||||
Value type: <string>
|
||||
Definition: must be "qcom,msm8996-pinctrl"
|
||||
|
||||
- reg:
|
||||
Usage: required
|
||||
Value type: <prop-encoded-array>
|
||||
Definition: the base address and size of the TLMM register space.
|
||||
|
||||
- interrupts:
|
||||
Usage: required
|
||||
Value type: <prop-encoded-array>
|
||||
Definition: should specify the TLMM summary IRQ.
|
||||
|
||||
- interrupt-controller:
|
||||
Usage: required
|
||||
Value type: <none>
|
||||
Definition: identifies this node as an interrupt controller
|
||||
|
||||
- #interrupt-cells:
|
||||
Usage: required
|
||||
Value type: <u32>
|
||||
Definition: must be 2. Specifying the pin number and flags, as defined
|
||||
in <dt-bindings/interrupt-controller/irq.h>
|
||||
|
||||
- gpio-controller:
|
||||
Usage: required
|
||||
Value type: <none>
|
||||
Definition: identifies this node as a gpio controller
|
||||
|
||||
- #gpio-cells:
|
||||
Usage: required
|
||||
Value type: <u32>
|
||||
Definition: must be 2. Specifying the pin number and flags, as defined
|
||||
in <dt-bindings/gpio/gpio.h>
|
||||
|
||||
Please refer to ../gpio/gpio.txt and ../interrupt-controller/interrupts.txt for
|
||||
a general description of GPIO and interrupt bindings.
|
||||
|
||||
Please refer to pinctrl-bindings.txt in this directory for details of the
|
||||
common pinctrl bindings used by client devices, including the meaning of the
|
||||
phrase "pin configuration node".
|
||||
|
||||
The pin configuration nodes act as a container for an arbitrary number of
|
||||
subnodes. Each of these subnodes represents some desired configuration for a
|
||||
pin, a group, or a list of pins or groups. This configuration can include the
|
||||
mux function to select on those pin(s)/group(s), and various pin configuration
|
||||
parameters, such as pull-up, drive strength, etc.
|
||||
|
||||
|
||||
PIN CONFIGURATION NODES:
|
||||
|
||||
The name of each subnode is not important; all subnodes should be enumerated
|
||||
and processed purely based on their content.
|
||||
|
||||
Each subnode only affects those parameters that are explicitly listed. In
|
||||
other words, a subnode that lists a mux function but no pin configuration
|
||||
parameters implies no information about any pin configuration parameters.
|
||||
Similarly, a pin subnode that describes a pullup parameter implies no
|
||||
information about e.g. the mux function.
|
||||
|
||||
|
||||
The following generic properties as defined in pinctrl-bindings.txt are valid
|
||||
to specify in a pin configuration subnode:
|
||||
|
||||
- pins:
|
||||
Usage: required
|
||||
Value type: <string-array>
|
||||
Definition: List of gpio pins affected by the properties specified in
|
||||
this subnode.
|
||||
|
||||
Valid pins are:
|
||||
gpio0-gpio149
|
||||
Supports mux, bias and drive-strength
|
||||
|
||||
sdc1_clk, sdc1_cmd, sdc1_data sdc2_clk, sdc2_cmd,
|
||||
sdc2_data sdc1_rclk
|
||||
Supports bias and drive-strength
|
||||
|
||||
- function:
|
||||
Usage: required
|
||||
Value type: <string>
|
||||
Definition: Specify the alternative function to be configured for the
|
||||
specified pins. Functions are only valid for gpio pins.
|
||||
Valid values are:
|
||||
|
||||
blsp_uart1, blsp_spi1, blsp_i2c1, blsp_uim1, atest_tsens,
|
||||
bimc_dte1, dac_calib0, blsp_spi8, blsp_uart8, blsp_uim8,
|
||||
qdss_cti_trig_out_b, bimc_dte0, dac_calib1, qdss_cti_trig_in_b,
|
||||
dac_calib2, atest_tsens2, atest_usb1, blsp_spi10, blsp_uart10,
|
||||
blsp_uim10, atest_bbrx1, atest_usb13, atest_bbrx0, atest_usb12,
|
||||
mdp_vsync, edp_lcd, blsp_i2c10, atest_gpsadc1, atest_usb11,
|
||||
atest_gpsadc0, edp_hot, atest_usb10, m_voc, dac_gpio, atest_char,
|
||||
cam_mclk, pll_bypassnl, qdss_stm7, blsp_i2c8, qdss_tracedata_b,
|
||||
pll_reset, qdss_stm6, qdss_stm5, qdss_stm4, atest_usb2, cci_i2c,
|
||||
qdss_stm3, dac_calib3, atest_usb23, atest_char3, dac_calib4,
|
||||
qdss_stm2, atest_usb22, atest_char2, qdss_stm1, dac_calib5,
|
||||
atest_usb21, atest_char1, dbg_out, qdss_stm0, dac_calib6,
|
||||
atest_usb20, atest_char0, dac_calib10, qdss_stm10,
|
||||
qdss_cti_trig_in_a, cci_timer4, blsp_spi6, blsp_uart6, blsp_uim6,
|
||||
blsp2_spi, qdss_stm9, qdss_cti_trig_out_a, dac_calib11,
|
||||
qdss_stm8, cci_timer0, qdss_stm13, dac_calib7, cci_timer1,
|
||||
qdss_stm12, dac_calib8, cci_timer2, blsp1_spi, qdss_stm11,
|
||||
dac_calib9, cci_timer3, cci_async, dac_calib12, blsp_i2c6,
|
||||
qdss_tracectl_a, dac_calib13, qdss_traceclk_a, dac_calib14,
|
||||
dac_calib15, hdmi_rcv, dac_calib16, hdmi_cec, pwr_modem,
|
||||
dac_calib17, hdmi_ddc, pwr_nav, dac_calib18, pwr_crypto,
|
||||
dac_calib19, hdmi_hot, dac_calib20, dac_calib21, pci_e0,
|
||||
dac_calib22, dac_calib23, dac_calib24, tsif1_sync, dac_calib25,
|
||||
sd_write, tsif1_error, blsp_spi2, blsp_uart2, blsp_uim2,
|
||||
qdss_cti, blsp_i2c2, blsp_spi3, blsp_uart3, blsp_uim3, blsp_i2c3,
|
||||
uim3, blsp_spi9, blsp_uart9, blsp_uim9, blsp10_spi, blsp_i2c9,
|
||||
blsp_spi7, blsp_uart7, blsp_uim7, qdss_tracedata_a, blsp_i2c7,
|
||||
qua_mi2s, gcc_gp1_clk_a, ssc_irq, uim4, blsp_spi11, blsp_uart11,
|
||||
blsp_uim11, gcc_gp2_clk_a, gcc_gp3_clk_a, blsp_i2c11, cri_trng0,
|
||||
cri_trng1, cri_trng, qdss_stm18, pri_mi2s, qdss_stm17, blsp_spi4,
|
||||
blsp_uart4, blsp_uim4, qdss_stm16, qdss_stm15, blsp_i2c4,
|
||||
qdss_stm14, dac_calib26, spkr_i2s, audio_ref, lpass_slimbus,
|
||||
isense_dbg, tsense_pwm1, tsense_pwm2, btfm_slimbus, ter_mi2s,
|
||||
qdss_stm22, qdss_stm21, qdss_stm20, qdss_stm19, gcc_gp1_clk_b,
|
||||
sec_mi2s, blsp_spi5, blsp_uart5, blsp_uim5, gcc_gp2_clk_b,
|
||||
gcc_gp3_clk_b, blsp_i2c5, blsp_spi12, blsp_uart12, blsp_uim12,
|
||||
qdss_stm25, qdss_stm31, blsp_i2c12, qdss_stm30, qdss_stm29,
|
||||
tsif1_clk, qdss_stm28, tsif1_en, tsif1_data, sdc4_cmd, qdss_stm27,
|
||||
qdss_traceclk_b, tsif2_error, sdc43, vfr_1, qdss_stm26, tsif2_clk,
|
||||
sdc4_clk, qdss_stm24, tsif2_en, sdc42, qdss_stm23, qdss_tracectl_b,
|
||||
sd_card, tsif2_data, sdc41, tsif2_sync, sdc40, mdp_vsync_p_b,
|
||||
ldo_en, mdp_vsync_s_b, ldo_update, blsp11_uart_tx_b, blsp11_uart_rx_b,
|
||||
blsp11_i2c_sda_b, prng_rosc, blsp11_i2c_scl_b, uim2, uim1, uim_batt,
|
||||
pci_e2, pa_indicator, adsp_ext, ddr_bist, qdss_tracedata_11,
|
||||
qdss_tracedata_12, modem_tsync, nav_dr, nav_pps, pci_e1, gsm_tx,
|
||||
qspi_cs, ssbi2, ssbi1, mss_lte, qspi_clk, qspi0, qspi1, qspi2, qspi3,
|
||||
gpio
|
||||
|
||||
- bias-disable:
|
||||
Usage: optional
|
||||
Value type: <none>
|
||||
Definition: The specified pins should be configued as no pull.
|
||||
|
||||
- bias-pull-down:
|
||||
Usage: optional
|
||||
Value type: <none>
|
||||
Definition: The specified pins should be configued as pull down.
|
||||
|
||||
- bias-pull-up:
|
||||
Usage: optional
|
||||
Value type: <none>
|
||||
Definition: The specified pins should be configued as pull up.
|
||||
|
||||
- output-high:
|
||||
Usage: optional
|
||||
Value type: <none>
|
||||
Definition: The specified pins are configured in output mode, driven
|
||||
high.
|
||||
Not valid for sdc pins.
|
||||
|
||||
- output-low:
|
||||
Usage: optional
|
||||
Value type: <none>
|
||||
Definition: The specified pins are configured in output mode, driven
|
||||
low.
|
||||
Not valid for sdc pins.
|
||||
|
||||
- drive-strength:
|
||||
Usage: optional
|
||||
Value type: <u32>
|
||||
Definition: Selects the drive strength for the specified pins, in mA.
|
||||
Valid values are: 2, 4, 6, 8, 10, 12, 14 and 16
|
||||
|
||||
Example:
|
||||
|
||||
tlmm: pinctrl@01010000 {
|
||||
compatible = "qcom,msm8996-pinctrl";
|
||||
reg = <0x01010000 0x300000>;
|
||||
interrupts = <0 208 0>;
|
||||
gpio-controller;
|
||||
#gpio-cells = <2>;
|
||||
interrupt-controller;
|
||||
#interrupt-cells = <2>;
|
||||
|
||||
uart_console_active: uart_console_active {
|
||||
mux {
|
||||
pins = "gpio4", "gpio5";
|
||||
function = "blsp_uart8";
|
||||
};
|
||||
|
||||
config {
|
||||
pins = "gpio4", "gpio5";
|
||||
drive-strength = <2>;
|
||||
bias-disable;
|
||||
};
|
||||
};
|
||||
};
|
|
@ -14,6 +14,7 @@ PMIC's from Qualcomm.
|
|||
"qcom,pm8917-gpio"
|
||||
"qcom,pm8921-gpio"
|
||||
"qcom,pm8941-gpio"
|
||||
"qcom,pm8994-gpio"
|
||||
"qcom,pma8084-gpio"
|
||||
|
||||
- reg:
|
||||
|
@ -79,6 +80,7 @@ to specify in a pin configuration subnode:
|
|||
gpio1-gpio38 for pm8917
|
||||
gpio1-gpio44 for pm8921
|
||||
gpio1-gpio36 for pm8941
|
||||
gpio1-gpio22 for pm8994
|
||||
gpio1-gpio22 for pma8084
|
||||
|
||||
- function:
|
||||
|
|
|
@ -15,6 +15,7 @@ of PMIC's from Qualcomm.
|
|||
"qcom,pm8917-mpp",
|
||||
"qcom,pm8921-mpp",
|
||||
"qcom,pm8941-mpp",
|
||||
"qcom,pm8994-mpp",
|
||||
"qcom,pma8084-mpp",
|
||||
|
||||
- reg:
|
||||
|
|
|
@ -21,7 +21,8 @@ defined as gpio sub-nodes of the pinmux controller.
|
|||
Required properties for iomux controller:
|
||||
- compatible: one of "rockchip,rk2928-pinctrl", "rockchip,rk3066a-pinctrl"
|
||||
"rockchip,rk3066b-pinctrl", "rockchip,rk3188-pinctrl"
|
||||
"rockchip,rk3288-pinctrl", "rockchip,rk3368-pinctrl"
|
||||
"rockchip,rk3228-pinctrl", "rockchip,rk3288-pinctrl"
|
||||
"rockchip,rk3368-pinctrl"
|
||||
- rockchip,grf: phandle referencing a syscon providing the
|
||||
"general register files"
|
||||
|
||||
|
|
|
@ -17,6 +17,7 @@ Required Properties:
|
|||
- "samsung,exynos4x12-pinctrl": for Exynos4x12 compatible pin-controller.
|
||||
- "samsung,exynos5250-pinctrl": for Exynos5250 compatible pin-controller.
|
||||
- "samsung,exynos5260-pinctrl": for Exynos5260 compatible pin-controller.
|
||||
- "samsung,exynos5410-pinctrl": for Exynos5410 compatible pin-controller.
|
||||
- "samsung,exynos5420-pinctrl": for Exynos5420 compatible pin-controller.
|
||||
- "samsung,exynos7-pinctrl": for Exynos7 compatible pin-controller.
|
||||
|
||||
|
|
|
@ -45,7 +45,7 @@ Supported devices
|
|||
See the LinuxTV DVB Wiki at www.linuxtv.org for a complete list of
|
||||
cards/drivers/firmwares:
|
||||
|
||||
http://www.linuxtv.org/wiki/index.php/DVB_USB
|
||||
https://linuxtv.org/wiki/index.php/DVB_USB
|
||||
|
||||
0. History & News:
|
||||
2005-06-30 - added support for WideView WT-220U (Thanks to Steve Chang)
|
||||
|
@ -121,7 +121,7 @@ working.
|
|||
Have a look at the Wikipage for the DVB-USB-drivers to find out, which firmware
|
||||
you need for your device:
|
||||
|
||||
http://www.linuxtv.org/wiki/index.php/DVB_USB
|
||||
https://linuxtv.org/wiki/index.php/DVB_USB
|
||||
|
||||
1.2. Compiling
|
||||
|
||||
|
|
|
@ -76,7 +76,7 @@ Some very frequently asked questions about linuxtv-dvb
|
|||
the TuxBox CVS many interesting DVB applications and the dBox2
|
||||
DVB source
|
||||
|
||||
http://www.linuxtv.org/downloads/
|
||||
https://linuxtv.org/downloads
|
||||
DVB Swiss Army Knife library and utilities
|
||||
|
||||
http://www.nenie.org/misc/mpsys/
|
||||
|
|
|
@ -152,7 +152,7 @@ sub tda10046lifeview {
|
|||
|
||||
sub av7110 {
|
||||
my $sourcefile = "dvb-ttpci-01.fw-261d";
|
||||
my $url = "http://www.linuxtv.org/downloads/firmware/$sourcefile";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/$sourcefile";
|
||||
my $hash = "603431b6259715a8e88f376a53b64e2f";
|
||||
my $outfile = "dvb-ttpci-01.fw";
|
||||
|
||||
|
@ -303,7 +303,7 @@ sub vp7049 {
|
|||
}
|
||||
|
||||
sub dibusb {
|
||||
my $url = "http://www.linuxtv.org/downloads/firmware/dvb-usb-dibusb-5.0.0.11.fw";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/dvb-usb-dibusb-5.0.0.11.fw";
|
||||
my $outfile = "dvb-dibusb-5.0.0.11.fw";
|
||||
my $hash = "fa490295a527360ca16dcdf3224ca243";
|
||||
|
||||
|
@ -351,7 +351,7 @@ sub nxt2004 {
|
|||
|
||||
sub or51211 {
|
||||
my $fwfile = "dvb-fe-or51211.fw";
|
||||
my $url = "http://linuxtv.org/downloads/firmware/$fwfile";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/$fwfile";
|
||||
my $hash = "d830949c771a289505bf9eafc225d491";
|
||||
|
||||
checkstandard();
|
||||
|
@ -364,7 +364,7 @@ sub or51211 {
|
|||
|
||||
sub cx231xx {
|
||||
my $fwfile = "v4l-cx231xx-avcore-01.fw";
|
||||
my $url = "http://linuxtv.org/downloads/firmware/$fwfile";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/$fwfile";
|
||||
my $hash = "7d3bb956dc9df0eafded2b56ba57cc42";
|
||||
|
||||
checkstandard();
|
||||
|
@ -376,7 +376,7 @@ sub cx231xx {
|
|||
}
|
||||
|
||||
sub cx18 {
|
||||
my $url = "http://linuxtv.org/downloads/firmware/";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/";
|
||||
|
||||
my %files = (
|
||||
'v4l-cx23418-apu.fw' => '588f081b562f5c653a3db1ad8f65939a',
|
||||
|
@ -450,7 +450,7 @@ sub mpc718 {
|
|||
}
|
||||
|
||||
sub cx23885 {
|
||||
my $url = "http://linuxtv.org/downloads/firmware/";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/";
|
||||
|
||||
my %files = (
|
||||
'v4l-cx23885-avcore-01.fw' => 'a9f8f5d901a7fb42f552e1ee6384f3bb',
|
||||
|
@ -472,7 +472,7 @@ sub cx23885 {
|
|||
}
|
||||
|
||||
sub pvrusb2 {
|
||||
my $url = "http://linuxtv.org/downloads/firmware/";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/";
|
||||
|
||||
my %files = (
|
||||
'v4l-cx25840.fw' => 'dadb79e9904fc8af96e8111d9cb59320',
|
||||
|
@ -494,7 +494,7 @@ sub pvrusb2 {
|
|||
|
||||
sub or51132_qam {
|
||||
my $fwfile = "dvb-fe-or51132-qam.fw";
|
||||
my $url = "http://linuxtv.org/downloads/firmware/$fwfile";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/$fwfile";
|
||||
my $hash = "7702e8938612de46ccadfe9b413cb3b5";
|
||||
|
||||
checkstandard();
|
||||
|
@ -507,7 +507,7 @@ sub or51132_qam {
|
|||
|
||||
sub or51132_vsb {
|
||||
my $fwfile = "dvb-fe-or51132-vsb.fw";
|
||||
my $url = "http://linuxtv.org/downloads/firmware/$fwfile";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/$fwfile";
|
||||
my $hash = "c16208e02f36fc439a557ad4c613364a";
|
||||
|
||||
checkstandard();
|
||||
|
@ -519,7 +519,7 @@ sub or51132_vsb {
|
|||
}
|
||||
|
||||
sub bluebird {
|
||||
my $url = "http://www.linuxtv.org/download/dvb/firmware/dvb-usb-bluebird-01.fw";
|
||||
my $url = "https://linuxtv.org/download/dvb/firmware/dvb-usb-bluebird-01.fw";
|
||||
my $outfile = "dvb-usb-bluebird-01.fw";
|
||||
my $hash = "658397cb9eba9101af9031302671f49d";
|
||||
|
||||
|
@ -677,7 +677,7 @@ sub drxk_hauppauge_hvr930c {
|
|||
}
|
||||
|
||||
sub drxk_terratec_h5 {
|
||||
my $url = "http://www.linuxtv.org/downloads/firmware/";
|
||||
my $url = "https://linuxtv.org/downloads/firmware/";
|
||||
my $hash = "19000dada8e2741162ccc50cc91fa7f1";
|
||||
my $fwfile = "dvb-usb-terratec-h5-drxk.fw";
|
||||
|
||||
|
|
|
@ -2,12 +2,12 @@ Linux Digital Video Broadcast (DVB) subsystem
|
|||
=============================================
|
||||
|
||||
The main development site and CVS repository for these
|
||||
drivers is http://linuxtv.org/.
|
||||
drivers is https://linuxtv.org.
|
||||
|
||||
The developer mailing list linux-dvb is also hosted there,
|
||||
see http://linuxtv.org/lists.php. Please check
|
||||
the archive http://linuxtv.org/pipermail/linux-dvb/
|
||||
and the Wiki http://linuxtv.org/wiki/
|
||||
see https://linuxtv.org/lists.php. Please check
|
||||
the archive https://linuxtv.org/pipermail/linux-dvb/
|
||||
and the Wiki https://linuxtv.org/wiki/
|
||||
before asking newbie questions on the list.
|
||||
|
||||
API documentation, utilities and test/example programs
|
||||
|
@ -16,7 +16,7 @@ are available as part of the old driver package for Linux 2.4
|
|||
We plan to split this into separate packages, but it's not
|
||||
been done yet.
|
||||
|
||||
http://linuxtv.org/downloads/
|
||||
https://linuxtv.org/downloads/
|
||||
|
||||
What's inside this directory:
|
||||
|
||||
|
|
|
@ -1,9 +1,13 @@
|
|||
EDAC - Error Detection And Correction
|
||||
=====================================
|
||||
|
||||
"bluesmoke" was the name for this device driver when it was "out-of-tree"
|
||||
and maintained at sourceforge.net. When it was pushed into 2.6.16 for the
|
||||
first time, it was renamed to 'EDAC'.
|
||||
"bluesmoke" was the name for this device driver when it
|
||||
was "out-of-tree" and maintained at sourceforge.net -
|
||||
bluesmoke.sourceforge.net. That site is mostly archaic now and can be
|
||||
used only for historical purposes.
|
||||
|
||||
When the subsystem was pushed into 2.6.16 for the first time, it was
|
||||
renamed to 'EDAC'.
|
||||
|
||||
PURPOSE
|
||||
-------
|
||||
|
|
|
@ -10,6 +10,7 @@ modules that can be used to test the following notifiers.
|
|||
* PM notifier
|
||||
* Memory hotplug notifier
|
||||
* powerpc pSeries reconfig notifier
|
||||
* Netdevice notifier
|
||||
|
||||
CPU notifier error injection module
|
||||
-----------------------------------
|
||||
|
@ -87,6 +88,30 @@ Possible pSeries reconfig notifier events to be failed are:
|
|||
* PSERIES_DRCONF_MEM_ADD
|
||||
* PSERIES_DRCONF_MEM_REMOVE
|
||||
|
||||
Netdevice notifier error injection module
|
||||
----------------------------------------------
|
||||
This feature is controlled through debugfs interface
|
||||
/sys/kernel/debug/notifier-error-inject/netdev/actions/<notifier event>/error
|
||||
|
||||
Netdevice notifier events which can be failed are:
|
||||
|
||||
* NETDEV_REGISTER
|
||||
* NETDEV_CHANGEMTU
|
||||
* NETDEV_CHANGENAME
|
||||
* NETDEV_PRE_UP
|
||||
* NETDEV_PRE_TYPE_CHANGE
|
||||
* NETDEV_POST_INIT
|
||||
* NETDEV_PRECHANGEMTU
|
||||
* NETDEV_PRECHANGEUPPER
|
||||
* NETDEV_CHANGEUPPER
|
||||
|
||||
Example: Inject netdevice mtu change error (-22 == -EINVAL)
|
||||
|
||||
# cd /sys/kernel/debug/notifier-error-inject/netdev
|
||||
# echo -22 > actions/NETDEV_CHANGEMTU/error
|
||||
# ip link set eth0 mtu 1024
|
||||
RTNETLINK answers: Invalid argument
|
||||
|
||||
For more usage examples
|
||||
-----------------------
|
||||
There are tools/testing/selftests using the notifier error injection features
|
||||
|
|
|
@ -33,7 +33,7 @@
|
|||
| sh: | TODO |
|
||||
| sparc: | TODO |
|
||||
| tile: | ok |
|
||||
| um: | TODO |
|
||||
| um: | ok |
|
||||
| unicore32: | TODO |
|
||||
| x86: | ok |
|
||||
| xtensa: | TODO |
|
||||
|
|
|
@ -9,7 +9,7 @@
|
|||
| alpha: | .. |
|
||||
| arc: | TODO |
|
||||
| arm: | ok |
|
||||
| arm64: | .. |
|
||||
| arm64: | ok |
|
||||
| avr32: | TODO |
|
||||
| blackfin: | TODO |
|
||||
| c6x: | TODO |
|
||||
|
|
|
@ -50,8 +50,7 @@ prototypes:
|
|||
int (*rename2) (struct inode *, struct dentry *,
|
||||
struct inode *, struct dentry *, unsigned int);
|
||||
int (*readlink) (struct dentry *, char __user *,int);
|
||||
const char *(*follow_link) (struct dentry *, void **);
|
||||
void (*put_link) (struct inode *, void *);
|
||||
const char *(*get_link) (struct dentry *, struct inode *, void **);
|
||||
void (*truncate) (struct inode *);
|
||||
int (*permission) (struct inode *, int, unsigned int);
|
||||
int (*get_acl)(struct inode *, int);
|
||||
|
@ -83,8 +82,7 @@ rmdir: yes (both) (see below)
|
|||
rename: yes (all) (see below)
|
||||
rename2: yes (all) (see below)
|
||||
readlink: no
|
||||
follow_link: no
|
||||
put_link: no
|
||||
get_link: no
|
||||
setattr: yes
|
||||
permission: no (may not block if called in rcu-walk mode)
|
||||
get_acl: no
|
||||
|
|
|
@ -51,15 +51,27 @@ configfs tree is always there, whether mounted on /config or not.
|
|||
An item is created via mkdir(2). The item's attributes will also
|
||||
appear at this time. readdir(3) can determine what the attributes are,
|
||||
read(2) can query their default values, and write(2) can store new
|
||||
values. Like sysfs, attributes should be ASCII text files, preferably
|
||||
with only one value per file. The same efficiency caveats from sysfs
|
||||
apply. Don't mix more than one attribute in one attribute file.
|
||||
values. Don't mix more than one attribute in one attribute file.
|
||||
|
||||
Like sysfs, configfs expects write(2) to store the entire buffer at
|
||||
once. When writing to configfs attributes, userspace processes should
|
||||
first read the entire file, modify the portions they wish to change, and
|
||||
then write the entire buffer back. Attribute files have a maximum size
|
||||
of one page (PAGE_SIZE, 4096 on i386).
|
||||
There are two types of configfs attributes:
|
||||
|
||||
* Normal attributes, which similar to sysfs attributes, are small ASCII text
|
||||
files, with a maximum size of one page (PAGE_SIZE, 4096 on i386). Preferably
|
||||
only one value per file should be used, and the same caveats from sysfs apply.
|
||||
Configfs expects write(2) to store the entire buffer at once. When writing to
|
||||
normal configfs attributes, userspace processes should first read the entire
|
||||
file, modify the portions they wish to change, and then write the entire
|
||||
buffer back.
|
||||
|
||||
* Binary attributes, which are somewhat similar to sysfs binary attributes,
|
||||
but with a few slight changes to semantics. The PAGE_SIZE limitation does not
|
||||
apply, but the whole binary item must fit in single kernel vmalloc'ed buffer.
|
||||
The write(2) calls from user space are buffered, and the attributes'
|
||||
write_bin_attribute method will be invoked on the final close, therefore it is
|
||||
imperative for user-space to check the return code of close(2) in order to
|
||||
verify that the operation finished successfully.
|
||||
To avoid a malicious user OOMing the kernel, there's a per-binary attribute
|
||||
maximum buffer value.
|
||||
|
||||
When an item needs to be destroyed, remove it with rmdir(2). An
|
||||
item cannot be destroyed if any other item has a link to it (via
|
||||
|
@ -171,6 +183,7 @@ among other things. For that, it needs a type.
|
|||
struct configfs_item_operations *ct_item_ops;
|
||||
struct configfs_group_operations *ct_group_ops;
|
||||
struct configfs_attribute **ct_attrs;
|
||||
struct configfs_bin_attribute **ct_bin_attrs;
|
||||
};
|
||||
|
||||
The most basic function of a config_item_type is to define what
|
||||
|
@ -201,6 +214,32 @@ be called whenever userspace asks for a read(2) on the attribute. If an
|
|||
attribute is writable and provides a ->store method, that method will be
|
||||
be called whenever userspace asks for a write(2) on the attribute.
|
||||
|
||||
[struct configfs_bin_attribute]
|
||||
|
||||
struct configfs_attribute {
|
||||
struct configfs_attribute cb_attr;
|
||||
void *cb_private;
|
||||
size_t cb_max_size;
|
||||
};
|
||||
|
||||
The binary attribute is used when the one needs to use binary blob to
|
||||
appear as the contents of a file in the item's configfs directory.
|
||||
To do so add the binary attribute to the NULL-terminated array
|
||||
config_item_type->ct_bin_attrs, and the item appears in configfs, the
|
||||
attribute file will appear with the configfs_bin_attribute->cb_attr.ca_name
|
||||
filename. configfs_bin_attribute->cb_attr.ca_mode specifies the file
|
||||
permissions.
|
||||
The cb_private member is provided for use by the driver, while the
|
||||
cb_max_size member specifies the maximum amount of vmalloc buffer
|
||||
to be used.
|
||||
|
||||
If binary attribute is readable and the config_item provides a
|
||||
ct_item_ops->read_bin_attribute() method, that method will be called
|
||||
whenever userspace asks for a read(2) on the attribute. The converse
|
||||
will happen for write(2). The reads/writes are bufferred so only a
|
||||
single read/write will occur; the attributes' need not concern itself
|
||||
with it.
|
||||
|
||||
[struct config_group]
|
||||
|
||||
A config_item cannot live in a vacuum. The only way one can be created
|
||||
|
|
|
@ -504,3 +504,20 @@ in your dentry operations instead.
|
|||
[mandatory]
|
||||
__fd_install() & fd_install() can now sleep. Callers should not
|
||||
hold a spinlock or other resources that do not allow a schedule.
|
||||
--
|
||||
[mandatory]
|
||||
any symlink that might use page_follow_link_light/page_put_link() must
|
||||
have inode_nohighmem(inode) called before anything might start playing with
|
||||
its pagecache.
|
||||
--
|
||||
[mandatory]
|
||||
->follow_link() is replaced with ->get_link(); same API, except that
|
||||
* ->get_link() gets inode as a separate argument
|
||||
* ->get_link() may be called in RCU mode - in that case NULL
|
||||
dentry is passed
|
||||
--
|
||||
[mandatory]
|
||||
->get_link() gets struct delayed_call *done now, and should do
|
||||
set_delayed_call() where it used to set *cookie.
|
||||
->put_link() is gone - just give the destructor to set_delayed_call()
|
||||
in ->get_link().
|
||||
|
|
|
@ -350,8 +350,8 @@ struct inode_operations {
|
|||
int (*rename2) (struct inode *, struct dentry *,
|
||||
struct inode *, struct dentry *, unsigned int);
|
||||
int (*readlink) (struct dentry *, char __user *,int);
|
||||
const char *(*follow_link) (struct dentry *, void **);
|
||||
void (*put_link) (struct inode *, void *);
|
||||
const char *(*get_link) (struct dentry *, struct inode *,
|
||||
struct delayed_call *);
|
||||
int (*permission) (struct inode *, int);
|
||||
int (*get_acl)(struct inode *, int);
|
||||
int (*setattr) (struct dentry *, struct iattr *);
|
||||
|
@ -434,20 +434,19 @@ otherwise noted.
|
|||
readlink: called by the readlink(2) system call. Only required if
|
||||
you want to support reading symbolic links
|
||||
|
||||
follow_link: called by the VFS to follow a symbolic link to the
|
||||
get_link: called by the VFS to follow a symbolic link to the
|
||||
inode it points to. Only required if you want to support
|
||||
symbolic links. This method returns the symlink body
|
||||
to traverse (and possibly resets the current position with
|
||||
nd_jump_link()). If the body won't go away until the inode
|
||||
is gone, nothing else is needed; if it needs to be otherwise
|
||||
pinned, the data needed to release whatever we'd grabbed
|
||||
is to be stored in void * variable passed by address to
|
||||
follow_link() instance.
|
||||
|
||||
put_link: called by the VFS to release resources allocated by
|
||||
follow_link(). The cookie stored by follow_link() is passed
|
||||
to this method as the last parameter; only called when
|
||||
cookie isn't NULL.
|
||||
pinned, arrange for its release by having get_link(..., ..., done)
|
||||
do set_delayed_call(done, destructor, argument).
|
||||
In that case destructor(argument) will be called once VFS is
|
||||
done with the body you've returned.
|
||||
May be called in RCU mode; that is indicated by NULL dentry
|
||||
argument. If request can't be handled without leaving RCU mode,
|
||||
have it return ERR_PTR(-ECHILD).
|
||||
|
||||
permission: called by the VFS to check for access rights on a POSIX-like
|
||||
filesystem.
|
||||
|
|
|
@ -1,46 +0,0 @@
|
|||
Kernel driver htu21
|
||||
===================
|
||||
|
||||
Supported chips:
|
||||
* Measurement Specialties HTU21D
|
||||
Prefix: 'htu21'
|
||||
Addresses scanned: none
|
||||
Datasheet: Publicly available at the Measurement Specialties website
|
||||
http://www.meas-spec.com/downloads/HTU21D.pdf
|
||||
|
||||
|
||||
Author:
|
||||
William Markezana <william.markezana@meas-spec.com>
|
||||
|
||||
Description
|
||||
-----------
|
||||
|
||||
The HTU21D is a humidity and temperature sensor in a DFN package of
|
||||
only 3 x 3 mm footprint and 0.9 mm height.
|
||||
|
||||
The devices communicate with the I2C protocol. All sensors are set to the
|
||||
same I2C address 0x40, so an entry with I2C_BOARD_INFO("htu21", 0x40) can
|
||||
be used in the board setup code.
|
||||
|
||||
This driver does not auto-detect devices. You will have to instantiate the
|
||||
devices explicitly. Please see Documentation/i2c/instantiating-devices
|
||||
for details.
|
||||
|
||||
sysfs-Interface
|
||||
---------------
|
||||
|
||||
temp1_input - temperature input
|
||||
humidity1_input - humidity input
|
||||
|
||||
Notes
|
||||
-----
|
||||
|
||||
The driver uses the default resolution settings of 12 bit for humidity and 14
|
||||
bit for temperature, which results in typical measurement times of 11 ms for
|
||||
humidity and 44 ms for temperature. To keep self heating below 0.1 degree
|
||||
Celsius, the device should not be active for more than 10% of the time. For
|
||||
this reason, the driver performs no more than two measurements per second and
|
||||
reports cached information if polled more frequently.
|
||||
|
||||
Different resolutions, the on-chip heater, using the CRC checksum and reading
|
||||
the serial number are not supported yet.
|
|
@ -0,0 +1,61 @@
|
|||
Kernel driver ltc3815
|
||||
=====================
|
||||
|
||||
Supported chips:
|
||||
* Linear Technology LTC3815
|
||||
Prefix: 'ltc3815'
|
||||
Addresses scanned: -
|
||||
Datasheet: http://www.linear.com/product/ltc3815
|
||||
|
||||
Author: Guenter Roeck <linux@roeck-us.net>
|
||||
|
||||
|
||||
Description
|
||||
-----------
|
||||
|
||||
LTC3815 is a Monolithic Synchronous DC/DC Step-Down Converter.
|
||||
|
||||
|
||||
Usage Notes
|
||||
-----------
|
||||
|
||||
This driver does not probe for PMBus devices. You will have to instantiate
|
||||
devices explicitly.
|
||||
|
||||
Example: the following commands will load the driver for an LTC3815
|
||||
at address 0x20 on I2C bus #1:
|
||||
|
||||
# modprobe ltc3815
|
||||
# echo ltc3815 0x20 > /sys/bus/i2c/devices/i2c-1/new_device
|
||||
|
||||
|
||||
Sysfs attributes
|
||||
----------------
|
||||
|
||||
in1_label "vin"
|
||||
in1_input Measured input voltage.
|
||||
in1_alarm Input voltage alarm.
|
||||
in1_highest Highest input voltage.
|
||||
in1_reset_history Reset input voltage history.
|
||||
|
||||
in2_label "vout1".
|
||||
in2_input Measured output voltage.
|
||||
in2_alarm Output voltage alarm.
|
||||
in2_highest Highest output voltage.
|
||||
in2_reset_history Reset output voltage history.
|
||||
|
||||
temp1_input Measured chip temperature.
|
||||
temp1_alarm Temperature alarm.
|
||||
temp1_highest Highest measured temperature.
|
||||
temp1_reset_history Reset temperature history.
|
||||
|
||||
curr1_label "iin".
|
||||
curr1_input Measured input current.
|
||||
curr1_highest Highest input current.
|
||||
curr1_reset_history Reset input current history.
|
||||
|
||||
curr2_label "iout1".
|
||||
curr2_input Measured output current.
|
||||
curr2_alarm Output current alarm.
|
||||
curr2_highest Highest output current.
|
||||
curr2_reset_history Reset output current history.
|
|
@ -472,6 +472,15 @@ bytes respectively. Such letter suffixes can also be entirely omitted.
|
|||
Change the amount of debugging information output
|
||||
when initialising the APIC and IO-APIC components.
|
||||
|
||||
apic_extnmi= [APIC,X86] External NMI delivery setting
|
||||
Format: { bsp (default) | all | none }
|
||||
bsp: External NMI is delivered only to CPU 0
|
||||
all: External NMIs are broadcast to all CPUs as a
|
||||
backup of CPU 0
|
||||
none: External NMI is masked for all CPUs. This is
|
||||
useful so that a dump capture kernel won't be
|
||||
shot down by NMI
|
||||
|
||||
autoconf= [IPV6]
|
||||
See Documentation/networking/ipv6.txt.
|
||||
|
||||
|
@ -3296,18 +3305,35 @@ bytes respectively. Such letter suffixes can also be entirely omitted.
|
|||
rcutorture.verbose= [KNL]
|
||||
Enable additional printk() statements.
|
||||
|
||||
rcupdate.rcu_cpu_stall_suppress= [KNL]
|
||||
Suppress RCU CPU stall warning messages.
|
||||
|
||||
rcupdate.rcu_cpu_stall_timeout= [KNL]
|
||||
Set timeout for RCU CPU stall warning messages.
|
||||
|
||||
rcupdate.rcu_expedited= [KNL]
|
||||
Use expedited grace-period primitives, for
|
||||
example, synchronize_rcu_expedited() instead
|
||||
of synchronize_rcu(). This reduces latency,
|
||||
but can increase CPU utilization, degrade
|
||||
real-time latency, and degrade energy efficiency.
|
||||
No effect on CONFIG_TINY_RCU kernels.
|
||||
|
||||
rcupdate.rcu_cpu_stall_suppress= [KNL]
|
||||
Suppress RCU CPU stall warning messages.
|
||||
rcupdate.rcu_normal= [KNL]
|
||||
Use only normal grace-period primitives,
|
||||
for example, synchronize_rcu() instead of
|
||||
synchronize_rcu_expedited(). This improves
|
||||
real-time latency, CPU utilization, and
|
||||
energy efficiency, but can expose users to
|
||||
increased grace-period latency. This parameter
|
||||
overrides rcupdate.rcu_expedited. No effect on
|
||||
CONFIG_TINY_RCU kernels.
|
||||
|
||||
rcupdate.rcu_cpu_stall_timeout= [KNL]
|
||||
Set timeout for RCU CPU stall warning messages.
|
||||
rcupdate.rcu_normal_after_boot= [KNL]
|
||||
Once boot has completed (that is, after
|
||||
rcu_end_inkernel_boot() has been invoked), use
|
||||
only normal grace-period primitives. No effect
|
||||
on CONFIG_TINY_RCU kernels.
|
||||
|
||||
rcupdate.rcu_task_stall_timeout= [KNL]
|
||||
Set timeout in jiffies for RCU task stall warning
|
||||
|
@ -4114,6 +4140,15 @@ bytes respectively. Such letter suffixes can also be entirely omitted.
|
|||
or other driver-specific files in the
|
||||
Documentation/watchdog/ directory.
|
||||
|
||||
workqueue.watchdog_thresh=
|
||||
If CONFIG_WQ_WATCHDOG is configured, workqueue can
|
||||
warn stall conditions and dump internal state to
|
||||
help debugging. 0 disables workqueue stall
|
||||
detection; otherwise, it's the stall threshold
|
||||
duration in seconds. The default value is 30 and
|
||||
it can be updated at runtime by writing to the
|
||||
corresponding sysfs file.
|
||||
|
||||
workqueue.disable_numa
|
||||
By default, all work items queued to unbound
|
||||
workqueues are affine to the NUMA nodes they're
|
||||
|
|
|
@ -52,6 +52,19 @@ above leaves scope for further attributes should they be needed. If sections
|
|||
of the name don't apply, just leave that section blank.
|
||||
|
||||
|
||||
Brightness setting API
|
||||
======================
|
||||
|
||||
LED subsystem core exposes following API for setting brightness:
|
||||
|
||||
- led_set_brightness : it is guaranteed not to sleep, passing LED_OFF stops
|
||||
blinking,
|
||||
- led_set_brightness_sync : for use cases when immediate effect is desired -
|
||||
it can block the caller for the time required for accessing
|
||||
device registers and can sleep, passing LED_OFF stops hardware
|
||||
blinking, returns -EBUSY if software blink fallback is enabled.
|
||||
|
||||
|
||||
Hardware accelerated blink of LEDs
|
||||
==================================
|
||||
|
||||
|
|
|
@ -194,7 +194,7 @@ There are some minimal guarantees that may be expected of a CPU:
|
|||
(*) On any given CPU, dependent memory accesses will be issued in order, with
|
||||
respect to itself. This means that for:
|
||||
|
||||
WRITE_ONCE(Q, P); smp_read_barrier_depends(); D = READ_ONCE(*Q);
|
||||
Q = READ_ONCE(P); smp_read_barrier_depends(); D = READ_ONCE(*Q);
|
||||
|
||||
the CPU will issue the following memory operations:
|
||||
|
||||
|
@ -202,9 +202,9 @@ There are some minimal guarantees that may be expected of a CPU:
|
|||
|
||||
and always in that order. On most systems, smp_read_barrier_depends()
|
||||
does nothing, but it is required for DEC Alpha. The READ_ONCE()
|
||||
and WRITE_ONCE() are required to prevent compiler mischief. Please
|
||||
note that you should normally use something like rcu_dereference()
|
||||
instead of open-coding smp_read_barrier_depends().
|
||||
is required to prevent compiler mischief. Please note that you
|
||||
should normally use something like rcu_dereference() instead of
|
||||
open-coding smp_read_barrier_depends().
|
||||
|
||||
(*) Overlapping loads and stores within a particular CPU will appear to be
|
||||
ordered within that CPU. This means that for:
|
||||
|
@ -1673,8 +1673,8 @@ There are some more advanced barrier functions:
|
|||
(*) smp_store_mb(var, value)
|
||||
|
||||
This assigns the value to the variable and then inserts a full memory
|
||||
barrier after it, depending on the function. It isn't guaranteed to
|
||||
insert anything more than a compiler barrier in a UP compilation.
|
||||
barrier after it. It isn't guaranteed to insert anything more than a
|
||||
compiler barrier in a UP compilation.
|
||||
|
||||
|
||||
(*) smp_mb__before_atomic();
|
||||
|
|
|
@ -115,14 +115,17 @@ The "bat0" interface can be used like any other regular inter-
|
|||
face. It needs an IP address which can be either statically con-
|
||||
figured or dynamically (by using DHCP or similar services):
|
||||
|
||||
# NodeA: ifconfig bat0 192.168.0.1
|
||||
# NodeB: ifconfig bat0 192.168.0.2
|
||||
# NodeA: ip link set up dev bat0
|
||||
# NodeA: ip addr add 192.168.0.1/24 dev bat0
|
||||
|
||||
# NodeB: ip link set up dev bat0
|
||||
# NodeB: ip addr add 192.168.0.2/24 dev bat0
|
||||
# NodeB: ping 192.168.0.1
|
||||
|
||||
Note: In order to avoid problems remove all IP addresses previ-
|
||||
ously assigned to interfaces now used by batman advanced, e.g.
|
||||
|
||||
# ifconfig eth0 0.0.0.0
|
||||
# ip addr flush dev eth0
|
||||
|
||||
|
||||
LOGGING/DEBUGGING
|
||||
|
|
|
@ -335,6 +335,14 @@ tcp_keepalive_intvl - INTEGER
|
|||
after probes started. Default value: 75sec i.e. connection
|
||||
will be aborted after ~11 minutes of retries.
|
||||
|
||||
tcp_l3mdev_accept - BOOLEAN
|
||||
Enables child sockets to inherit the L3 master device index.
|
||||
Enabling this option allows a "global" listen socket to work
|
||||
across L3 master domains (e.g., VRFs) with connected sockets
|
||||
derived from the listen socket to be bound to the L3 domain in
|
||||
which the packets originated. Only valid when the kernel was
|
||||
compiled with CONFIG_NET_L3_MASTER_DEV.
|
||||
|
||||
tcp_low_latency - BOOLEAN
|
||||
If set, the TCP stack makes decisions that prefer lower
|
||||
latency as opposed to higher throughput. By default, this
|
||||
|
@ -1723,6 +1731,25 @@ addip_enable - BOOLEAN
|
|||
|
||||
Default: 0
|
||||
|
||||
pf_enable - INTEGER
|
||||
Enable or disable pf (pf is short for potentially failed) state. A value
|
||||
of pf_retrans > path_max_retrans also disables pf state. That is, one of
|
||||
both pf_enable and pf_retrans > path_max_retrans can disable pf state.
|
||||
Since pf_retrans and path_max_retrans can be changed by userspace
|
||||
application, sometimes user expects to disable pf state by the value of
|
||||
pf_retrans > path_max_retrans, but occasionally the value of pf_retrans
|
||||
or path_max_retrans is changed by the user application, this pf state is
|
||||
enabled. As such, it is necessary to add this to dynamically enable
|
||||
and disable pf state. See:
|
||||
https://datatracker.ietf.org/doc/draft-ietf-tsvwg-sctp-failover for
|
||||
details.
|
||||
|
||||
1: Enable pf.
|
||||
|
||||
0: Disable pf.
|
||||
|
||||
Default: 1
|
||||
|
||||
addip_noauth_enable - BOOLEAN
|
||||
Dynamic Address Reconfiguration (ADD-IP) requires the use of
|
||||
authentication to protect the operations of adding or removing new
|
||||
|
@ -1799,7 +1826,9 @@ pf_retrans - INTEGER
|
|||
having to reduce path_max_retrans to a very low value. See:
|
||||
http://www.ietf.org/id/draft-nishida-tsvwg-sctp-failover-05.txt
|
||||
for details. Note also that a value of pf_retrans > path_max_retrans
|
||||
disables this feature
|
||||
disables this feature. Since both pf_retrans and path_max_retrans can
|
||||
be changed by userspace application, a variable pf_enable is used to
|
||||
disable pf state.
|
||||
|
||||
Default: 0
|
||||
|
||||
|
|
|
@ -304,8 +304,12 @@ certain netdevs from flooding unicast traffic for which there is no FDB entry.
|
|||
IGMP Snooping
|
||||
^^^^^^^^^^^^^
|
||||
|
||||
XXX: complete this section
|
||||
|
||||
In order to support IGMP snooping, the port netdevs should trap to the bridge
|
||||
driver all IGMP join and leave messages.
|
||||
The bridge multicast module will notify port netdevs on every multicast group
|
||||
changed whether it is static configured or dynamically joined/leave.
|
||||
The hardware implementation should be forwarding all registered multicast
|
||||
traffic groups only to the configured ports.
|
||||
|
||||
L3 Routing Offload
|
||||
------------------
|
||||
|
|
|
@ -999,7 +999,7 @@ from its probe routine to make runtime PM work for the device.
|
|||
|
||||
It is important to remember that the driver's runtime_suspend() callback
|
||||
may be executed right after the usage counter has been decremented, because
|
||||
user space may already have cuased the pm_runtime_allow() helper function
|
||||
user space may already have caused the pm_runtime_allow() helper function
|
||||
unblocking the runtime PM of the device to run via sysfs, so the driver must
|
||||
be prepared to cope with that.
|
||||
|
||||
|
|
|
@ -371,6 +371,12 @@ drivers/base/power/runtime.c and include/linux/pm_runtime.h:
|
|||
- increment the device's usage counter, run pm_runtime_resume(dev) and
|
||||
return its result
|
||||
|
||||
int pm_runtime_get_if_in_use(struct device *dev);
|
||||
- return -EINVAL if 'power.disable_depth' is nonzero; otherwise, if the
|
||||
runtime PM status is RPM_ACTIVE and the runtime PM usage counter is
|
||||
nonzero, increment the counter and return 1; otherwise return 0 without
|
||||
changing the counter
|
||||
|
||||
void pm_runtime_put_noidle(struct device *dev);
|
||||
- decrement the device's usage counter
|
||||
|
||||
|
|
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Reference in New Issue