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Merge tag 'v5.1-rc3' into devel

Linux 5.1-rc3
This commit is contained in:
Linus Walleij 2019-04-08 13:03:09 +02:00
Родитель 27157af663 79a3aaa7b8
Коммит 26af34079f
836 изменённых файлов: 11496 добавлений и 9786 удалений

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@ -224,3 +224,5 @@ Yakir Yang <kuankuan.y@gmail.com> <ykk@rock-chips.com>
Yusuke Goda <goda.yusuke@renesas.com>
Gustavo Padovan <gustavo@las.ic.unicamp.br>
Gustavo Padovan <padovan@profusion.mobi>
Changbin Du <changbin.du@intel.com> <changbin.du@intel.com>
Changbin Du <changbin.du@intel.com> <changbin.du@gmail.com>

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@ -16,6 +16,7 @@ Required properties:
- "renesas,irqc-r8a7793" (R-Car M2-N)
- "renesas,irqc-r8a7794" (R-Car E2)
- "renesas,intc-ex-r8a774a1" (RZ/G2M)
- "renesas,intc-ex-r8a774c0" (RZ/G2E)
- "renesas,intc-ex-r8a7795" (R-Car H3)
- "renesas,intc-ex-r8a7796" (R-Car M3-W)
- "renesas,intc-ex-r8a77965" (R-Car M3-N)

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@ -12,10 +12,15 @@ Required properties:
Subnodes:
The integrated switch subnode should be specified according to the binding
described in dsa/dsa.txt. As the QCA8K switches do not have a N:N mapping of
port and PHY id, each subnode describing a port needs to have a valid phandle
referencing the internal PHY connected to it. The CPU port of this switch is
always port 0.
described in dsa/dsa.txt. If the QCA8K switch is connect to a SoC's external
mdio-bus each subnode describing a port needs to have a valid phandle
referencing the internal PHY it is connected to. This is because there's no
N:N mapping of port and PHY id.
Don't use mixed external and internal mdio-bus configurations, as this is
not supported by the hardware.
The CPU port of this switch is always port 0.
A CPU port node has the following optional node:
@ -31,8 +36,9 @@ For QCA8K the 'fixed-link' sub-node supports only the following properties:
- 'full-duplex' (boolean, optional), to indicate that full duplex is
used. When absent, half duplex is assumed.
Example:
Examples:
for the external mdio-bus configuration:
&mdio0 {
phy_port1: phy@0 {
@ -55,12 +61,12 @@ Example:
reg = <4>;
};
switch0@0 {
switch@10 {
compatible = "qca,qca8337";
#address-cells = <1>;
#size-cells = <0>;
reg = <0>;
reg = <0x10>;
ports {
#address-cells = <1>;
@ -108,3 +114,56 @@ Example:
};
};
};
for the internal master mdio-bus configuration:
&mdio0 {
switch@10 {
compatible = "qca,qca8337";
#address-cells = <1>;
#size-cells = <0>;
reg = <0x10>;
ports {
#address-cells = <1>;
#size-cells = <0>;
port@0 {
reg = <0>;
label = "cpu";
ethernet = <&gmac1>;
phy-mode = "rgmii";
fixed-link {
speed = 1000;
full-duplex;
};
};
port@1 {
reg = <1>;
label = "lan1";
};
port@2 {
reg = <2>;
label = "lan2";
};
port@3 {
reg = <3>;
label = "lan3";
};
port@4 {
reg = <4>;
label = "lan4";
};
port@5 {
reg = <5>;
label = "wan";
};
};
};
};

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@ -16,6 +16,7 @@ Required properties:
* "mediatek,mt8127-uart" for MT8127 compatible UARTS
* "mediatek,mt8135-uart" for MT8135 compatible UARTS
* "mediatek,mt8173-uart" for MT8173 compatible UARTS
* "mediatek,mt8183-uart", "mediatek,mt6577-uart" for MT8183 compatible UARTS
* "mediatek,mt6577-uart" for MT6577 and all of the above
- reg: The base address of the UART register bank.

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@ -12,11 +12,13 @@ CONTENTS
(4) Filesystem context security.
(5) VFS filesystem context operations.
(5) VFS filesystem context API.
(6) Parameter description.
(6) Superblock creation helpers.
(7) Parameter helper functions.
(7) Parameter description.
(8) Parameter helper functions.
========
@ -41,12 +43,15 @@ The creation of new mounts is now to be done in a multistep process:
(7) Destroy the context.
To support this, the file_system_type struct gains a new field:
To support this, the file_system_type struct gains two new fields:
int (*init_fs_context)(struct fs_context *fc);
const struct fs_parameter_description *parameters;
which is invoked to set up the filesystem-specific parts of a filesystem
context, including the additional space.
The first is invoked to set up the filesystem-specific parts of a filesystem
context, including the additional space, and the second points to the
parameter description for validation at registration time and querying by a
future system call.
Note that security initialisation is done *after* the filesystem is called so
that the namespaces may be adjusted first.
@ -73,9 +78,9 @@ context. This is represented by the fs_context structure:
void *s_fs_info;
unsigned int sb_flags;
unsigned int sb_flags_mask;
unsigned int s_iflags;
unsigned int lsm_flags;
enum fs_context_purpose purpose:8;
bool sloppy:1;
bool silent:1;
...
};
@ -141,6 +146,10 @@ The fs_context fields are as follows:
Which bits SB_* flags are to be set/cleared in super_block::s_flags.
(*) unsigned int s_iflags
These will be bitwise-OR'd with s->s_iflags when a superblock is created.
(*) enum fs_context_purpose
This indicates the purpose for which the context is intended. The
@ -150,17 +159,6 @@ The fs_context fields are as follows:
FS_CONTEXT_FOR_SUBMOUNT -- New automatic submount of extant mount
FS_CONTEXT_FOR_RECONFIGURE -- Change an existing mount
(*) bool sloppy
(*) bool silent
These are set if the sloppy or silent mount options are given.
[NOTE] sloppy is probably unnecessary when userspace passes over one
option at a time since the error can just be ignored if userspace deems it
to be unimportant.
[NOTE] silent is probably redundant with sb_flags & SB_SILENT.
The mount context is created by calling vfs_new_fs_context() or
vfs_dup_fs_context() and is destroyed with put_fs_context(). Note that the
structure is not refcounted.
@ -342,28 +340,47 @@ number of operations used by the new mount code for this purpose:
It should return 0 on success or a negative error code on failure.
=================================
VFS FILESYSTEM CONTEXT OPERATIONS
=================================
==========================
VFS FILESYSTEM CONTEXT API
==========================
There are four operations for creating a filesystem context and
one for destroying a context:
There are four operations for creating a filesystem context and one for
destroying a context:
(*) struct fs_context *vfs_new_fs_context(struct file_system_type *fs_type,
struct dentry *reference,
unsigned int sb_flags,
unsigned int sb_flags_mask,
enum fs_context_purpose purpose);
(*) struct fs_context *fs_context_for_mount(
struct file_system_type *fs_type,
unsigned int sb_flags);
Create a filesystem context for a given filesystem type and purpose. This
allocates the filesystem context, sets the superblock flags, initialises
the security and calls fs_type->init_fs_context() to initialise the
filesystem private data.
Allocate a filesystem context for the purpose of setting up a new mount,
whether that be with a new superblock or sharing an existing one. This
sets the superblock flags, initialises the security and calls
fs_type->init_fs_context() to initialise the filesystem private data.
reference can be NULL or it may indicate the root dentry of a superblock
that is going to be reconfigured (FS_CONTEXT_FOR_RECONFIGURE) or
the automount point that triggered a submount (FS_CONTEXT_FOR_SUBMOUNT).
This is provided as a source of namespace information.
fs_type specifies the filesystem type that will manage the context and
sb_flags presets the superblock flags stored therein.
(*) struct fs_context *fs_context_for_reconfigure(
struct dentry *dentry,
unsigned int sb_flags,
unsigned int sb_flags_mask);
Allocate a filesystem context for the purpose of reconfiguring an
existing superblock. dentry provides a reference to the superblock to be
configured. sb_flags and sb_flags_mask indicate which superblock flags
need changing and to what.
(*) struct fs_context *fs_context_for_submount(
struct file_system_type *fs_type,
struct dentry *reference);
Allocate a filesystem context for the purpose of creating a new mount for
an automount point or other derived superblock. fs_type specifies the
filesystem type that will manage the context and the reference dentry
supplies the parameters. Namespaces are propagated from the reference
dentry's superblock also.
Note that it's not a requirement that the reference dentry be of the same
filesystem type as fs_type.
(*) struct fs_context *vfs_dup_fs_context(struct fs_context *src_fc);
@ -390,20 +407,6 @@ context pointer or a negative error code.
For the remaining operations, if an error occurs, a negative error code will be
returned.
(*) int vfs_get_tree(struct fs_context *fc);
Get or create the mountable root and superblock, using the parameters in
the filesystem context to select/configure the superblock. This invokes
the ->validate() op and then the ->get_tree() op.
[NOTE] ->validate() could perhaps be rolled into ->get_tree() and
->reconfigure().
(*) struct vfsmount *vfs_create_mount(struct fs_context *fc);
Create a mount given the parameters in the specified filesystem context.
Note that this does not attach the mount to anything.
(*) int vfs_parse_fs_param(struct fs_context *fc,
struct fs_parameter *param);
@ -432,17 +435,80 @@ returned.
clear the pointer, but then becomes responsible for disposing of the
object.
(*) int vfs_parse_fs_string(struct fs_context *fc, char *key,
(*) int vfs_parse_fs_string(struct fs_context *fc, const char *key,
const char *value, size_t v_size);
A wrapper around vfs_parse_fs_param() that just passes a constant string.
A wrapper around vfs_parse_fs_param() that copies the value string it is
passed.
(*) int generic_parse_monolithic(struct fs_context *fc, void *data);
Parse a sys_mount() data page, assuming the form to be a text list
consisting of key[=val] options separated by commas. Each item in the
list is passed to vfs_mount_option(). This is the default when the
->parse_monolithic() operation is NULL.
->parse_monolithic() method is NULL.
(*) int vfs_get_tree(struct fs_context *fc);
Get or create the mountable root and superblock, using the parameters in
the filesystem context to select/configure the superblock. This invokes
the ->get_tree() method.
(*) struct vfsmount *vfs_create_mount(struct fs_context *fc);
Create a mount given the parameters in the specified filesystem context.
Note that this does not attach the mount to anything.
===========================
SUPERBLOCK CREATION HELPERS
===========================
A number of VFS helpers are available for use by filesystems for the creation
or looking up of superblocks.
(*) struct super_block *
sget_fc(struct fs_context *fc,
int (*test)(struct super_block *sb, struct fs_context *fc),
int (*set)(struct super_block *sb, struct fs_context *fc));
This is the core routine. If test is non-NULL, it searches for an
existing superblock matching the criteria held in the fs_context, using
the test function to match them. If no match is found, a new superblock
is created and the set function is called to set it up.
Prior to the set function being called, fc->s_fs_info will be transferred
to sb->s_fs_info - and fc->s_fs_info will be cleared if set returns
success (ie. 0).
The following helpers all wrap sget_fc():
(*) int vfs_get_super(struct fs_context *fc,
enum vfs_get_super_keying keying,
int (*fill_super)(struct super_block *sb,
struct fs_context *fc))
This creates/looks up a deviceless superblock. The keying indicates how
many superblocks of this type may exist and in what manner they may be
shared:
(1) vfs_get_single_super
Only one such superblock may exist in the system. Any further
attempt to get a new superblock gets this one (and any parameter
differences are ignored).
(2) vfs_get_keyed_super
Multiple superblocks of this type may exist and they're keyed on
their s_fs_info pointer (for example this may refer to a
namespace).
(3) vfs_get_independent_super
Multiple independent superblocks of this type may exist. This
function never matches an existing one and always creates a new
one.
=====================
@ -454,35 +520,22 @@ There's a core description struct that links everything together:
struct fs_parameter_description {
const char name[16];
u8 nr_params;
u8 nr_alt_keys;
u8 nr_enums;
bool ignore_unknown;
bool no_source;
const char *const *keys;
const struct constant_table *alt_keys;
const struct fs_parameter_spec *specs;
const struct fs_parameter_enum *enums;
};
For example:
enum afs_param {
enum {
Opt_autocell,
Opt_bar,
Opt_dyn,
Opt_foo,
Opt_source,
nr__afs_params
};
static const struct fs_parameter_description afs_fs_parameters = {
.name = "kAFS",
.nr_params = nr__afs_params,
.nr_alt_keys = ARRAY_SIZE(afs_param_alt_keys),
.nr_enums = ARRAY_SIZE(afs_param_enums),
.keys = afs_param_keys,
.alt_keys = afs_param_alt_keys,
.specs = afs_param_specs,
.enums = afs_param_enums,
};
@ -494,28 +547,24 @@ The members are as follows:
The name to be used in error messages generated by the parse helper
functions.
(2) u8 nr_params;
(2) const struct fs_parameter_specification *specs;
The number of discrete parameter identifiers. This indicates the number
of elements in the ->types[] array and also limits the values that may be
used in the values that the ->keys[] array maps to.
Table of parameter specifications, terminated with a null entry, where the
entries are of type:
It is expected that, for example, two parameters that are related, say
"acl" and "noacl" with have the same ID, but will be flagged to indicate
that one is the inverse of the other. The value can then be picked out
from the parse result.
(3) const struct fs_parameter_specification *specs;
Table of parameter specifications, where the entries are of type:
struct fs_parameter_type {
enum fs_parameter_spec type:8;
u8 flags;
struct fs_parameter_spec {
const char *name;
u8 opt;
enum fs_parameter_type type:8;
unsigned short flags;
};
and the parameter identifier is the index to the array. 'type' indicates
the desired value type and must be one of:
The 'name' field is a string to match exactly to the parameter key (no
wildcards, patterns and no case-independence) and 'opt' is the value that
will be returned by the fs_parser() function in the case of a successful
match.
The 'type' field indicates the desired value type and must be one of:
TYPE NAME EXPECTED VALUE RESULT IN
======================= ======================= =====================
@ -525,85 +574,65 @@ The members are as follows:
fs_param_is_u32_octal 32-bit octal int result->uint_32
fs_param_is_u32_hex 32-bit hex int result->uint_32
fs_param_is_s32 32-bit signed int result->int_32
fs_param_is_u64 64-bit unsigned int result->uint_64
fs_param_is_enum Enum value name result->uint_32
fs_param_is_string Arbitrary string param->string
fs_param_is_blob Binary blob param->blob
fs_param_is_blockdev Blockdev path * Needs lookup
fs_param_is_path Path * Needs lookup
fs_param_is_fd File descriptor param->file
And each parameter can be qualified with 'flags':
fs_param_v_optional The value is optional
fs_param_neg_with_no If key name is prefixed with "no", it is false
fs_param_neg_with_empty If value is "", it is false
fs_param_deprecated The parameter is deprecated.
For example:
static const struct fs_parameter_spec afs_param_specs[nr__afs_params] = {
[Opt_autocell] = { fs_param_is flag },
[Opt_bar] = { fs_param_is_enum },
[Opt_dyn] = { fs_param_is flag },
[Opt_foo] = { fs_param_is_bool, fs_param_neg_with_no },
[Opt_source] = { fs_param_is_string },
};
fs_param_is_fd File descriptor result->int_32
Note that if the value is of fs_param_is_bool type, fs_parse() will try
to match any string value against "0", "1", "no", "yes", "false", "true".
[!] NOTE that the table must be sorted according to primary key name so
that ->keys[] is also sorted.
Each parameter can also be qualified with 'flags':
(4) const char *const *keys;
fs_param_v_optional The value is optional
fs_param_neg_with_no result->negated set if key is prefixed with "no"
fs_param_neg_with_empty result->negated set if value is ""
fs_param_deprecated The parameter is deprecated.
Table of primary key names for the parameters. There must be one entry
per defined parameter. The table is optional if ->nr_params is 0. The
table is just an array of names e.g.:
These are wrapped with a number of convenience wrappers:
static const char *const afs_param_keys[nr__afs_params] = {
[Opt_autocell] = "autocell",
[Opt_bar] = "bar",
[Opt_dyn] = "dyn",
[Opt_foo] = "foo",
[Opt_source] = "source",
MACRO SPECIFIES
======================= ===============================================
fsparam_flag() fs_param_is_flag
fsparam_flag_no() fs_param_is_flag, fs_param_neg_with_no
fsparam_bool() fs_param_is_bool
fsparam_u32() fs_param_is_u32
fsparam_u32oct() fs_param_is_u32_octal
fsparam_u32hex() fs_param_is_u32_hex
fsparam_s32() fs_param_is_s32
fsparam_u64() fs_param_is_u64
fsparam_enum() fs_param_is_enum
fsparam_string() fs_param_is_string
fsparam_blob() fs_param_is_blob
fsparam_bdev() fs_param_is_blockdev
fsparam_path() fs_param_is_path
fsparam_fd() fs_param_is_fd
all of which take two arguments, name string and option number - for
example:
static const struct fs_parameter_spec afs_param_specs[] = {
fsparam_flag ("autocell", Opt_autocell),
fsparam_flag ("dyn", Opt_dyn),
fsparam_string ("source", Opt_source),
fsparam_flag_no ("foo", Opt_foo),
{}
};
[!] NOTE that the table must be sorted such that the table can be searched
with bsearch() using strcmp(). This means that the Opt_* values must
correspond to the entries in this table.
(5) const struct constant_table *alt_keys;
u8 nr_alt_keys;
Table of additional key names and their mappings to parameter ID plus the
number of elements in the table. This is optional. The table is just an
array of { name, integer } pairs, e.g.:
static const struct constant_table afs_param_keys[] = {
{ "baz", Opt_bar },
{ "dynamic", Opt_dyn },
};
[!] NOTE that the table must be sorted such that strcmp() can be used with
bsearch() to search the entries.
The parameter ID can also be fs_param_key_removed to indicate that a
deprecated parameter has been removed and that an error will be given.
This differs from fs_param_deprecated where the parameter may still have
an effect.
Further, the behaviour of the parameter may differ when an alternate name
is used (for instance with NFS, "v3", "v4.2", etc. are alternate names).
An addition macro, __fsparam() is provided that takes an additional pair
of arguments to specify the type and the flags for anything that doesn't
match one of the above macros.
(6) const struct fs_parameter_enum *enums;
u8 nr_enums;
Table of enum value names to integer mappings and the number of elements
stored therein. This is of type:
Table of enum value names to integer mappings, terminated with a null
entry. This is of type:
struct fs_parameter_enum {
u8 param_id;
u8 opt;
char name[14];
u8 value;
};
@ -621,11 +650,6 @@ The members are as follows:
try to look the value up in the enum table and the result will be stored
in the parse result.
(7) bool no_source;
If this is set, fs_parse() will ignore any "source" parameter and not
pass it to the filesystem.
The parser should be pointed to by the parser pointer in the file_system_type
struct as this will provide validation on registration (if
CONFIG_VALIDATE_FS_PARSER=y) and will allow the description to be queried from
@ -650,9 +674,8 @@ process the parameters it is given.
int value;
};
and it must be sorted such that it can be searched using bsearch() using
strcmp(). If a match is found, the corresponding value is returned. If a
match isn't found, the not_found value is returned instead.
If a match is found, the corresponding value is returned. If a match
isn't found, the not_found value is returned instead.
(*) bool validate_constant_table(const struct constant_table *tbl,
size_t tbl_size,
@ -665,36 +688,36 @@ process the parameters it is given.
should just be set to lie inside the low-to-high range.
If all is good, true is returned. If the table is invalid, errors are
logged to dmesg, the stack is dumped and false is returned.
logged to dmesg and false is returned.
(*) bool fs_validate_description(const struct fs_parameter_description *desc);
This performs some validation checks on a parameter description. It
returns true if the description is good and false if it is not. It will
log errors to dmesg if validation fails.
(*) int fs_parse(struct fs_context *fc,
const struct fs_param_parser *parser,
const struct fs_parameter_description *desc,
struct fs_parameter *param,
struct fs_param_parse_result *result);
struct fs_parse_result *result);
This is the main interpreter of parameters. It uses the parameter
description (parser) to look up the name of the parameter to use and to
convert that to a parameter ID (stored in result->key).
description to look up a parameter by key name and to convert that to an
option number (which it returns).
If successful, and if the parameter type indicates the result is a
boolean, integer or enum type, the value is converted by this function and
the result stored in result->{boolean,int_32,uint_32}.
the result stored in result->{boolean,int_32,uint_32,uint_64}.
If a match isn't initially made, the key is prefixed with "no" and no
value is present then an attempt will be made to look up the key with the
prefix removed. If this matches a parameter for which the type has flag
fs_param_neg_with_no set, then a match will be made and the value will be
set to false/0/NULL.
fs_param_neg_with_no set, then a match will be made and result->negated
will be set to true.
If the parameter is successfully matched and, optionally, parsed
correctly, 1 is returned. If the parameter isn't matched and
parser->ignore_unknown is set, then 0 is returned. Otherwise -EINVAL is
returned.
(*) bool fs_validate_description(const struct fs_parameter_description *desc);
This is validates the parameter description. It returns true if the
description is good and false if it is not.
If the parameter isn't matched, -ENOPARAM will be returned; if the
parameter is matched, but the value is erroneous, -EINVAL will be
returned; otherwise the parameter's option number will be returned.
(*) int fs_lookup_param(struct fs_context *fc,
struct fs_parameter *value,

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@ -36,6 +36,7 @@ Supported adapters:
* Intel Cannon Lake (PCH)
* Intel Cedar Fork (PCH)
* Intel Ice Lake (PCH)
* Intel Comet Lake (PCH)
Datasheets: Publicly available at the Intel website
On Intel Patsburg and later chipsets, both the normal host SMBus controller

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@ -50,7 +50,7 @@ the excellent reporting over at LWN.net or read the original code.
patchset
[PATCH net-next v4 0/9] socket sendmsg MSG_ZEROCOPY
http://lkml.kernel.org/r/20170803202945.70750-1-willemdebruijn.kernel@gmail.com
https://lkml.kernel.org/netdev/20170803202945.70750-1-willemdebruijn.kernel@gmail.com
Interface

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@ -131,6 +131,19 @@ it to the maintainer to figure out what is the most recent and current
version that should be applied. If there is any doubt, the maintainer
will reply and ask what should be done.
Q: I made changes to only a few patches in a patch series should I resend only those changed?
--------------------------------------------------------------------------------------------
A: No, please resend the entire patch series and make sure you do number your
patches such that it is clear this is the latest and greatest set of patches
that can be applied.
Q: I submitted multiple versions of a patch series and it looks like a version other than the last one has been accepted, what should I do?
-------------------------------------------------------------------------------------------------------------------------------------------
A: There is no revert possible, once it is pushed out, it stays like that.
Please send incremental versions on top of what has been merged in order to fix
the patches the way they would look like if your latest patch series was to be
merged.
Q: How can I tell what patches are queued up for backporting to the various stable releases?
--------------------------------------------------------------------------------------------
A: Normally Greg Kroah-Hartman collects stable commits himself, but for

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@ -44,10 +44,10 @@ including the Netfilter hooks and the flowtable fastpath bypass.
/ \ / \ |Routing | / \
--> ingress ---> prerouting ---> |decision| | postrouting |--> neigh_xmit
\_________/ \__________/ ---------- \____________/ ^
| ^ | | ^ |
flowtable | | ____\/___ | |
| | | / \ | |
__\/___ | --------->| forward |------------ |
| ^ | ^ |
flowtable | ____\/___ | |
| | / \ | |
__\/___ | | forward |------------ |
|-----| | \_________/ |
|-----| | 'flow offload' rule |
|-----| | adds entry to |

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@ -413,7 +413,7 @@ algorithm.
.. _F-RTO: https://tools.ietf.org/html/rfc5682
TCP Fast Path
============
=============
When kernel receives a TCP packet, it has two paths to handler the
packet, one is fast path, another is slow path. The comment in kernel
code provides a good explanation of them, I pasted them below::
@ -681,6 +681,7 @@ The TCP stack receives an out of order duplicate packet, so it sends a
DSACK to the sender.
* TcpExtTCPDSACKRecv
The TCP stack receives a DSACK, which indicates an acknowledged
duplicate packet is received.
@ -690,7 +691,7 @@ The TCP stack receives a DSACK, which indicate an out of order
duplicate packet is received.
invalid SACK and DSACK
====================
======================
When a SACK (or DSACK) block is invalid, a corresponding counter would
be updated. The validation method is base on the start/end sequence
number of the SACK block. For more details, please refer the comment
@ -704,11 +705,13 @@ explaination:
.. _Add counters for discarded SACK blocks: https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/commit/?id=18f02545a9a16c9a89778b91a162ad16d510bb32
* TcpExtTCPSACKDiscard
This counter indicates how many SACK blocks are invalid. If the invalid
SACK block is caused by ACK recording, the TCP stack will only ignore
it and won't update this counter.
* TcpExtTCPDSACKIgnoredOld and TcpExtTCPDSACKIgnoredNoUndo
When a DSACK block is invalid, one of these two counters would be
updated. Which counter will be updated depends on the undo_marker flag
of the TCP socket. If the undo_marker is not set, the TCP stack isn't
@ -719,7 +722,7 @@ will be updated. If the undo_marker is set, TcpExtTCPDSACKIgnoredOld
will be updated. As implied in its name, it might be an old packet.
SACK shift
=========
==========
The linux networking stack stores data in sk_buff struct (skb for
short). If a SACK block acrosses multiple skb, the TCP stack will try
to re-arrange data in these skb. E.g. if a SACK block acknowledges seq
@ -730,12 +733,15 @@ seq 14 to 20. All data in skb2 will be moved to skb1, and skb2 will be
discard, this operation is 'merge'.
* TcpExtTCPSackShifted
A skb is shifted
* TcpExtTCPSackMerged
A skb is merged
* TcpExtTCPSackShiftFallback
A skb should be shifted or merged, but the TCP stack doesn't do it for
some reasons.

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@ -5,25 +5,32 @@ The Definitive KVM (Kernel-based Virtual Machine) API Documentation
----------------------
The kvm API is a set of ioctls that are issued to control various aspects
of a virtual machine. The ioctls belong to three classes
of a virtual machine. The ioctls belong to three classes:
- System ioctls: These query and set global attributes which affect the
whole kvm subsystem. In addition a system ioctl is used to create
virtual machines
virtual machines.
- VM ioctls: These query and set attributes that affect an entire virtual
machine, for example memory layout. In addition a VM ioctl is used to
create virtual cpus (vcpus).
create virtual cpus (vcpus) and devices.
Only run VM ioctls from the same process (address space) that was used
to create the VM.
VM ioctls must be issued from the same process (address space) that was
used to create the VM.
- vcpu ioctls: These query and set attributes that control the operation
of a single virtual cpu.
Only run vcpu ioctls from the same thread that was used to create the
vcpu.
vcpu ioctls should be issued from the same thread that was used to create
the vcpu, except for asynchronous vcpu ioctl that are marked as such in
the documentation. Otherwise, the first ioctl after switching threads
could see a performance impact.
- device ioctls: These query and set attributes that control the operation
of a single device.
device ioctls must be issued from the same process (address space) that
was used to create the VM.
2. File descriptors
-------------------
@ -32,17 +39,34 @@ The kvm API is centered around file descriptors. An initial
open("/dev/kvm") obtains a handle to the kvm subsystem; this handle
can be used to issue system ioctls. A KVM_CREATE_VM ioctl on this
handle will create a VM file descriptor which can be used to issue VM
ioctls. A KVM_CREATE_VCPU ioctl on a VM fd will create a virtual cpu
and return a file descriptor pointing to it. Finally, ioctls on a vcpu
fd can be used to control the vcpu, including the important task of
actually running guest code.
ioctls. A KVM_CREATE_VCPU or KVM_CREATE_DEVICE ioctl on a VM fd will
create a virtual cpu or device and return a file descriptor pointing to
the new resource. Finally, ioctls on a vcpu or device fd can be used
to control the vcpu or device. For vcpus, this includes the important
task of actually running guest code.
In general file descriptors can be migrated among processes by means
of fork() and the SCM_RIGHTS facility of unix domain socket. These
kinds of tricks are explicitly not supported by kvm. While they will
not cause harm to the host, their actual behavior is not guaranteed by
the API. The only supported use is one virtual machine per process,
and one vcpu per thread.
the API. See "General description" for details on the ioctl usage
model that is supported by KVM.
It is important to note that althought VM ioctls may only be issued from
the process that created the VM, a VM's lifecycle is associated with its
file descriptor, not its creator (process). In other words, the VM and
its resources, *including the associated address space*, are not freed
until the last reference to the VM's file descriptor has been released.
For example, if fork() is issued after ioctl(KVM_CREATE_VM), the VM will
not be freed until both the parent (original) process and its child have
put their references to the VM's file descriptor.
Because a VM's resources are not freed until the last reference to its
file descriptor is released, creating additional references to a VM via
via fork(), dup(), etc... without careful consideration is strongly
discouraged and may have unwanted side effects, e.g. memory allocated
by and on behalf of the VM's process may not be freed/unaccounted when
the VM is shut down.
It is important to note that althought VM ioctls may only be issued from
@ -515,11 +539,15 @@ c) KVM_INTERRUPT_SET_LEVEL
Note that any value for 'irq' other than the ones stated above is invalid
and incurs unexpected behavior.
This is an asynchronous vcpu ioctl and can be invoked from any thread.
MIPS:
Queues an external interrupt to be injected into the virtual CPU. A negative
interrupt number dequeues the interrupt.
This is an asynchronous vcpu ioctl and can be invoked from any thread.
4.17 KVM_DEBUG_GUEST
@ -1086,14 +1114,12 @@ struct kvm_userspace_memory_region {
#define KVM_MEM_LOG_DIRTY_PAGES (1UL << 0)
#define KVM_MEM_READONLY (1UL << 1)
This ioctl allows the user to create or modify a guest physical memory
slot. When changing an existing slot, it may be moved in the guest
physical memory space, or its flags may be modified. It may not be
resized. Slots may not overlap in guest physical address space.
Bits 0-15 of "slot" specifies the slot id and this value should be
less than the maximum number of user memory slots supported per VM.
The maximum allowed slots can be queried using KVM_CAP_NR_MEMSLOTS,
if this capability is supported by the architecture.
This ioctl allows the user to create, modify or delete a guest physical
memory slot. Bits 0-15 of "slot" specify the slot id and this value
should be less than the maximum number of user memory slots supported per
VM. The maximum allowed slots can be queried using KVM_CAP_NR_MEMSLOTS,
if this capability is supported by the architecture. Slots may not
overlap in guest physical address space.
If KVM_CAP_MULTI_ADDRESS_SPACE is available, bits 16-31 of "slot"
specifies the address space which is being modified. They must be
@ -1102,6 +1128,10 @@ KVM_CAP_MULTI_ADDRESS_SPACE capability. Slots in separate address spaces
are unrelated; the restriction on overlapping slots only applies within
each address space.
Deleting a slot is done by passing zero for memory_size. When changing
an existing slot, it may be moved in the guest physical memory space,
or its flags may be modified, but it may not be resized.
Memory for the region is taken starting at the address denoted by the
field userspace_addr, which must point at user addressable memory for
the entire memory slot size. Any object may back this memory, including
@ -2493,7 +2523,7 @@ KVM_S390_MCHK (vm, vcpu) - machine check interrupt; cr 14 bits in parm,
machine checks needing further payload are not
supported by this ioctl)
Note that the vcpu ioctl is asynchronous to vcpu execution.
This is an asynchronous vcpu ioctl and can be invoked from any thread.
4.78 KVM_PPC_GET_HTAB_FD
@ -3042,8 +3072,7 @@ KVM_S390_INT_EMERGENCY - sigp emergency; parameters in .emerg
KVM_S390_INT_EXTERNAL_CALL - sigp external call; parameters in .extcall
KVM_S390_MCHK - machine check interrupt; parameters in .mchk
Note that the vcpu ioctl is asynchronous to vcpu execution.
This is an asynchronous vcpu ioctl and can be invoked from any thread.
4.94 KVM_S390_GET_IRQ_STATE

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@ -142,7 +142,7 @@ Shadow pages contain the following information:
If clear, this page corresponds to a guest page table denoted by the gfn
field.
role.quadrant:
When role.cr4_pae=0, the guest uses 32-bit gptes while the host uses 64-bit
When role.gpte_is_8_bytes=0, the guest uses 32-bit gptes while the host uses 64-bit
sptes. That means a guest page table contains more ptes than the host,
so multiple shadow pages are needed to shadow one guest page.
For first-level shadow pages, role.quadrant can be 0 or 1 and denotes the
@ -158,9 +158,9 @@ Shadow pages contain the following information:
The page is invalid and should not be used. It is a root page that is
currently pinned (by a cpu hardware register pointing to it); once it is
unpinned it will be destroyed.
role.cr4_pae:
Contains the value of cr4.pae for which the page is valid (e.g. whether
32-bit or 64-bit gptes are in use).
role.gpte_is_8_bytes:
Reflects the size of the guest PTE for which the page is valid, i.e. '1'
if 64-bit gptes are in use, '0' if 32-bit gptes are in use.
role.nxe:
Contains the value of efer.nxe for which the page is valid.
role.cr0_wp:
@ -173,6 +173,9 @@ Shadow pages contain the following information:
Contains the value of cr4.smap && !cr0.wp for which the page is valid
(pages for which this is true are different from other pages; see the
treatment of cr0.wp=0 below).
role.ept_sp:
This is a virtual flag to denote a shadowed nested EPT page. ept_sp
is true if "cr0_wp && smap_andnot_wp", an otherwise invalid combination.
role.smm:
Is 1 if the page is valid in system management mode. This field
determines which of the kvm_memslots array was used to build this

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@ -2356,7 +2356,7 @@ F: arch/arm/mm/cache-uniphier.c
F: arch/arm64/boot/dts/socionext/uniphier*
F: drivers/bus/uniphier-system-bus.c
F: drivers/clk/uniphier/
F: drivers/dmaengine/uniphier-mdmac.c
F: drivers/dma/uniphier-mdmac.c
F: drivers/gpio/gpio-uniphier.c
F: drivers/i2c/busses/i2c-uniphier*
F: drivers/irqchip/irq-uniphier-aidet.c
@ -6408,7 +6408,6 @@ L: linux-kernel@vger.kernel.org
T: git git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip.git locking/core
S: Maintained
F: kernel/futex.c
F: kernel/futex_compat.c
F: include/asm-generic/futex.h
F: include/linux/futex.h
F: include/uapi/linux/futex.h
@ -8096,6 +8095,16 @@ F: include/linux/iommu.h
F: include/linux/of_iommu.h
F: include/linux/iova.h
IO_URING
M: Jens Axboe <axboe@kernel.dk>
L: linux-block@vger.kernel.org
L: linux-fsdevel@vger.kernel.org
T: git git://git.kernel.dk/linux-block
T: git git://git.kernel.dk/liburing
S: Maintained
F: fs/io_uring.c
F: include/uapi/linux/io_uring.h
IP MASQUERADING
M: Juanjo Ciarlante <jjciarla@raiz.uncu.edu.ar>
S: Maintained

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@ -2,7 +2,7 @@
VERSION = 5
PATCHLEVEL = 1
SUBLEVEL = 0
EXTRAVERSION = -rc1
EXTRAVERSION = -rc3
NAME = Shy Crocodile
# *DOCUMENTATION*
@ -31,26 +31,12 @@ _all:
# descending is started. They are now explicitly listed as the
# prepare rule.
# Ugly workaround for Debian make-kpkg:
# make-kpkg directly includes the top Makefile of Linux kernel. In such a case,
# skip sub-make to support debian_* targets in ruleset/kernel_version.mk, but
# displays warning to discourage such abusage.
ifneq ($(word 2, $(MAKEFILE_LIST)),)
$(warning Do not include top Makefile of Linux Kernel)
sub-make-done := 1
MAKEFLAGS += -rR
endif
ifneq ($(sub-make-done),1)
ifneq ($(sub_make_done),1)
# Do not use make's built-in rules and variables
# (this increases performance and avoids hard-to-debug behaviour)
MAKEFLAGS += -rR
# 'MAKEFLAGS += -rR' does not become immediately effective for old
# GNU Make versions. Cancel implicit rules for this Makefile.
$(lastword $(MAKEFILE_LIST)): ;
# Avoid funny character set dependencies
unexport LC_ALL
LC_COLLATE=C
@ -153,6 +139,7 @@ $(if $(KBUILD_OUTPUT),, \
# 'sub-make' below.
MAKEFLAGS += --include-dir=$(CURDIR)
need-sub-make := 1
else
# Do not print "Entering directory ..." at all for in-tree build.
@ -160,6 +147,18 @@ MAKEFLAGS += --no-print-directory
endif # ifneq ($(KBUILD_OUTPUT),)
ifneq ($(filter 3.%,$(MAKE_VERSION)),)
# 'MAKEFLAGS += -rR' does not immediately become effective for GNU Make 3.x
# We need to invoke sub-make to avoid implicit rules in the top Makefile.
need-sub-make := 1
# Cancel implicit rules for this Makefile.
$(lastword $(MAKEFILE_LIST)): ;
endif
export sub_make_done := 1
ifeq ($(need-sub-make),1)
PHONY += $(MAKECMDGOALS) sub-make
$(filter-out _all sub-make $(CURDIR)/Makefile, $(MAKECMDGOALS)) _all: sub-make
@ -167,12 +166,15 @@ $(filter-out _all sub-make $(CURDIR)/Makefile, $(MAKECMDGOALS)) _all: sub-make
# Invoke a second make in the output directory, passing relevant variables
sub-make:
$(Q)$(MAKE) sub-make-done=1 \
$(Q)$(MAKE) \
$(if $(KBUILD_OUTPUT),-C $(KBUILD_OUTPUT) KBUILD_SRC=$(CURDIR)) \
-f $(CURDIR)/Makefile $(filter-out _all sub-make,$(MAKECMDGOALS))
else # sub-make-done
endif # need-sub-make
endif # sub_make_done
# We process the rest of the Makefile if this is the final invocation of make
ifeq ($(need-sub-make),)
# Do not print "Entering directory ...",
# but we want to display it when entering to the output directory
@ -497,7 +499,8 @@ outputmakefile:
ifneq ($(KBUILD_SRC),)
$(Q)ln -fsn $(srctree) source
$(Q)$(CONFIG_SHELL) $(srctree)/scripts/mkmakefile $(srctree)
$(Q){ echo "# this is build directory, ignore it"; echo "*"; } > .gitignore
$(Q)test -e .gitignore || \
{ echo "# this is build directory, ignore it"; echo "*"; } > .gitignore
endif
ifneq ($(shell $(CC) --version 2>&1 | head -n 1 | grep clang),)
@ -677,7 +680,7 @@ KBUILD_CFLAGS += $(call cc-disable-warning, format-overflow)
KBUILD_CFLAGS += $(call cc-disable-warning, int-in-bool-context)
ifdef CONFIG_CC_OPTIMIZE_FOR_SIZE
KBUILD_CFLAGS += $(call cc-option,-Oz,-Os)
KBUILD_CFLAGS += -Os
else
KBUILD_CFLAGS += -O2
endif
@ -950,9 +953,11 @@ mod_sign_cmd = true
endif
export mod_sign_cmd
HOST_LIBELF_LIBS = $(shell pkg-config libelf --libs 2>/dev/null || echo -lelf)
ifdef CONFIG_STACK_VALIDATION
has_libelf := $(call try-run,\
echo "int main() {}" | $(HOSTCC) -xc -o /dev/null -lelf -,1,0)
echo "int main() {}" | $(HOSTCC) -xc -o /dev/null $(HOST_LIBELF_LIBS) -,1,0)
ifeq ($(has_libelf),1)
objtool_target := tools/objtool FORCE
else
@ -1757,7 +1762,7 @@ existing-targets := $(wildcard $(sort $(targets)))
endif # ifeq ($(config-targets),1)
endif # ifeq ($(mixed-targets),1)
endif # sub-make-done
endif # need-sub-make
PHONY += FORCE
FORCE:

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@ -6,6 +6,7 @@ generic-y += exec.h
generic-y += export.h
generic-y += fb.h
generic-y += irq_work.h
generic-y += kvm_para.h
generic-y += mcs_spinlock.h
generic-y += mm-arch-hooks.h
generic-y += preempt.h

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@ -1,2 +0,0 @@
/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
#include <asm-generic/kvm_para.h>

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@ -144,11 +144,11 @@ config ARC_CPU_770
Support for ARC770 core introduced with Rel 4.10 (Summer 2011)
This core has a bunch of cool new features:
-MMU-v3: Variable Page Sz (4k, 8k, 16k), bigger J-TLB (128x4)
Shared Address Spaces (for sharing TLB entries in MMU)
Shared Address Spaces (for sharing TLB entries in MMU)
-Caches: New Prog Model, Region Flush
-Insns: endian swap, load-locked/store-conditional, time-stamp-ctr
endif #ISA_ARCOMPACT
endif #ISA_ARCOMPACT
config ARC_CPU_HS
bool "ARC-HS"
@ -198,7 +198,7 @@ config ARC_SMP_HALT_ON_RESET
at designated entry point. For other case, all jump to common
entry point and spin wait for Master's signal.
endif #SMP
endif #SMP
config ARC_MCIP
bool "ARConnect Multicore IP (MCIP) Support "
@ -249,7 +249,7 @@ config ARC_CACHE_VIPT_ALIASING
bool "Support VIPT Aliasing D$"
depends on ARC_HAS_DCACHE && ISA_ARCOMPACT
endif #ARC_CACHE
endif #ARC_CACHE
config ARC_HAS_ICCM
bool "Use ICCM"
@ -370,7 +370,7 @@ config ARC_FPU_SAVE_RESTORE
based on actual usage of FPU by a task. Thus our implemn does
this for all tasks in system.
endif #ISA_ARCOMPACT
endif #ISA_ARCOMPACT
config ARC_CANT_LLSC
def_bool n
@ -386,6 +386,15 @@ config ARC_HAS_SWAPE
if ISA_ARCV2
config ARC_USE_UNALIGNED_MEM_ACCESS
bool "Enable unaligned access in HW"
default y
select HAVE_EFFICIENT_UNALIGNED_ACCESS
help
The ARC HS architecture supports unaligned memory access
which is disabled by default. Enable unaligned access in
hardware and use software to use it
config ARC_HAS_LL64
bool "Insn: 64bit LDD/STD"
help
@ -414,7 +423,7 @@ config ARC_IRQ_NO_AUTOSAVE
This is programmable and can be optionally disabled in which case
software INTERRUPT_PROLOGUE/EPILGUE do the needed work
endif # ISA_ARCV2
endif # ISA_ARCV2
endmenu # "ARC CPU Configuration"

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@ -28,6 +28,12 @@ cflags-$(CONFIG_ARC_HAS_SWAPE) += -mswape
ifdef CONFIG_ISA_ARCV2
ifdef CONFIG_ARC_USE_UNALIGNED_MEM_ACCESS
cflags-y += -munaligned-access
else
cflags-y += -mno-unaligned-access
endif
ifndef CONFIG_ARC_HAS_LL64
cflags-y += -mno-ll64
endif

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@ -38,7 +38,7 @@
clock-div = <6>;
};
iomux: iomux@FF10601c {
iomux: iomux@ff10601c {
/* Port 1 */
pctl_tsin_s0: pctl-tsin-s0 { /* Serial TS-in 0 */
abilis,function = "mis0";
@ -162,182 +162,182 @@
};
};
gpioa: gpio@FF140000 {
gpioa: gpio@ff140000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF140000 0x1000>;
reg = <0xff140000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <3>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioa";
};
gpiob: gpio@FF141000 {
gpiob: gpio@ff141000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF141000 0x1000>;
reg = <0xff141000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <2>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiob";
};
gpioc: gpio@FF142000 {
gpioc: gpio@ff142000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF142000 0x1000>;
reg = <0xff142000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <3>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioc";
};
gpiod: gpio@FF143000 {
gpiod: gpio@ff143000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF143000 0x1000>;
reg = <0xff143000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <2>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiod";
};
gpioe: gpio@FF144000 {
gpioe: gpio@ff144000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF144000 0x1000>;
reg = <0xff144000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <3>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioe";
};
gpiof: gpio@FF145000 {
gpiof: gpio@ff145000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF145000 0x1000>;
reg = <0xff145000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <2>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiof";
};
gpiog: gpio@FF146000 {
gpiog: gpio@ff146000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF146000 0x1000>;
reg = <0xff146000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <3>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiog";
};
gpioh: gpio@FF147000 {
gpioh: gpio@ff147000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF147000 0x1000>;
reg = <0xff147000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <2>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioh";
};
gpioi: gpio@FF148000 {
gpioi: gpio@ff148000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF148000 0x1000>;
reg = <0xff148000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <12>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioi";
};
gpioj: gpio@FF149000 {
gpioj: gpio@ff149000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF149000 0x1000>;
reg = <0xff149000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <32>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioj";
};
gpiok: gpio@FF14a000 {
gpiok: gpio@ff14a000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF14A000 0x1000>;
reg = <0xff14a000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <22>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiok";
};
gpiol: gpio@FF14b000 {
gpiol: gpio@ff14b000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF14B000 0x1000>;
reg = <0xff14b000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <4>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiol";
};
gpiom: gpio@FF14c000 {
gpiom: gpio@ff14c000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF14C000 0x1000>;
reg = <0xff14c000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <4>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiom";
};
gpion: gpio@FF14d000 {
gpion: gpio@ff14d000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF14D000 0x1000>;
reg = <0xff14d000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <5>;

Просмотреть файл

@ -37,27 +37,27 @@
};
soc100 {
uart@FF100000 {
uart@ff100000 {
pinctrl-names = "default";
pinctrl-0 = <&pctl_uart0>;
};
ethernet@FE100000 {
ethernet@fe100000 {
phy-mode = "rgmii";
};
i2c0: i2c@FF120000 {
i2c0: i2c@ff120000 {
i2c-sda-hold-time-ns = <432>;
};
i2c1: i2c@FF121000 {
i2c1: i2c@ff121000 {
i2c-sda-hold-time-ns = <432>;
};
i2c2: i2c@FF122000 {
i2c2: i2c@ff122000 {
i2c-sda-hold-time-ns = <432>;
};
i2c3: i2c@FF123000 {
i2c3: i2c@ff123000 {
i2c-sda-hold-time-ns = <432>;
};
i2c4: i2c@FF124000 {
i2c4: i2c@ff124000 {
i2c-sda-hold-time-ns = <432>;
};

Просмотреть файл

@ -38,7 +38,7 @@
clock-div = <6>;
};
iomux: iomux@FF10601c {
iomux: iomux@ff10601c {
/* Port 1 */
pctl_tsin_s0: pctl-tsin-s0 { /* Serial TS-in 0 */
abilis,function = "mis0";
@ -171,182 +171,182 @@
};
};
gpioa: gpio@FF140000 {
gpioa: gpio@ff140000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF140000 0x1000>;
reg = <0xff140000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <3>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioa";
};
gpiob: gpio@FF141000 {
gpiob: gpio@ff141000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF141000 0x1000>;
reg = <0xff141000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <2>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiob";
};
gpioc: gpio@FF142000 {
gpioc: gpio@ff142000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF142000 0x1000>;
reg = <0xff142000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <3>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioc";
};
gpiod: gpio@FF143000 {
gpiod: gpio@ff143000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF143000 0x1000>;
reg = <0xff143000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <2>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiod";
};
gpioe: gpio@FF144000 {
gpioe: gpio@ff144000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF144000 0x1000>;
reg = <0xff144000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <3>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioe";
};
gpiof: gpio@FF145000 {
gpiof: gpio@ff145000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF145000 0x1000>;
reg = <0xff145000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <2>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiof";
};
gpiog: gpio@FF146000 {
gpiog: gpio@ff146000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF146000 0x1000>;
reg = <0xff146000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <3>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiog";
};
gpioh: gpio@FF147000 {
gpioh: gpio@ff147000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF147000 0x1000>;
reg = <0xff147000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <2>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioh";
};
gpioi: gpio@FF148000 {
gpioi: gpio@ff148000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF148000 0x1000>;
reg = <0xff148000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <12>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioi";
};
gpioj: gpio@FF149000 {
gpioj: gpio@ff149000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF149000 0x1000>;
reg = <0xff149000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <32>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpioj";
};
gpiok: gpio@FF14a000 {
gpiok: gpio@ff14a000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF14A000 0x1000>;
reg = <0xff14a000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <22>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiok";
};
gpiol: gpio@FF14b000 {
gpiol: gpio@ff14b000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF14B000 0x1000>;
reg = <0xff14b000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <4>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiol";
};
gpiom: gpio@FF14c000 {
gpiom: gpio@ff14c000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF14C000 0x1000>;
reg = <0xff14c000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <4>;
gpio-ranges = <&iomux 0 0 0>;
gpio-ranges-group-names = "gpiom";
};
gpion: gpio@FF14d000 {
gpion: gpio@ff14d000 {
compatible = "abilis,tb10x-gpio";
interrupt-controller;
#interrupt-cells = <1>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <27 2>;
reg = <0xFF14D000 0x1000>;
reg = <0xff14d000 0x1000>;
gpio-controller;
#gpio-cells = <2>;
abilis,ngpio = <5>;

Просмотреть файл

@ -37,27 +37,27 @@
};
soc100 {
uart@FF100000 {
uart@ff100000 {
pinctrl-names = "default";
pinctrl-0 = <&pctl_uart0>;
};
ethernet@FE100000 {
ethernet@fe100000 {
phy-mode = "rgmii";
};
i2c0: i2c@FF120000 {
i2c0: i2c@ff120000 {
i2c-sda-hold-time-ns = <432>;
};
i2c1: i2c@FF121000 {
i2c1: i2c@ff121000 {
i2c-sda-hold-time-ns = <432>;
};
i2c2: i2c@FF122000 {
i2c2: i2c@ff122000 {
i2c-sda-hold-time-ns = <432>;
};
i2c3: i2c@FF123000 {
i2c3: i2c@ff123000 {
i2c-sda-hold-time-ns = <432>;
};
i2c4: i2c@FF124000 {
i2c4: i2c@ff124000 {
i2c-sda-hold-time-ns = <432>;
};

Просмотреть файл

@ -54,7 +54,7 @@
#size-cells = <1>;
device_type = "soc";
ranges = <0xfe000000 0xfe000000 0x02000000
0x000F0000 0x000F0000 0x00010000>;
0x000f0000 0x000f0000 0x00010000>;
compatible = "abilis,tb10x", "simple-bus";
pll0: oscillator {
@ -75,10 +75,10 @@
clock-output-names = "ahb_clk";
};
iomux: iomux@FF10601c {
iomux: iomux@ff10601c {
compatible = "abilis,tb10x-iomux";
#gpio-range-cells = <3>;
reg = <0xFF10601c 0x4>;
reg = <0xff10601c 0x4>;
};
intc: interrupt-controller {
@ -88,7 +88,7 @@
};
tb10x_ictl: pic@fe002000 {
compatible = "abilis,tb10x-ictl";
reg = <0xFE002000 0x20>;
reg = <0xfe002000 0x20>;
interrupt-controller;
#interrupt-cells = <2>;
interrupt-parent = <&intc>;
@ -96,27 +96,27 @@
20 21 22 23 24 25 26 27 28 29 30 31>;
};
uart@FF100000 {
uart@ff100000 {
compatible = "snps,dw-apb-uart";
reg = <0xFF100000 0x100>;
reg = <0xff100000 0x100>;
clock-frequency = <166666666>;
interrupts = <25 8>;
reg-shift = <2>;
reg-io-width = <4>;
interrupt-parent = <&tb10x_ictl>;
};
ethernet@FE100000 {
ethernet@fe100000 {
compatible = "snps,dwmac-3.70a","snps,dwmac";
reg = <0xFE100000 0x1058>;
reg = <0xfe100000 0x1058>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <6 8>;
interrupt-names = "macirq";
clocks = <&ahb_clk>;
clock-names = "stmmaceth";
};
dma@FE000000 {
dma@fe000000 {
compatible = "snps,dma-spear1340";
reg = <0xFE000000 0x400>;
reg = <0xfe000000 0x400>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <14 8>;
dma-channels = <6>;
@ -132,70 +132,70 @@
multi-block = <1 1 1 1 1 1>;
};
i2c0: i2c@FF120000 {
i2c0: i2c@ff120000 {
#address-cells = <1>;
#size-cells = <0>;
compatible = "snps,designware-i2c";
reg = <0xFF120000 0x1000>;
reg = <0xff120000 0x1000>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <12 8>;
clocks = <&ahb_clk>;
};
i2c1: i2c@FF121000 {
i2c1: i2c@ff121000 {
#address-cells = <1>;
#size-cells = <0>;
compatible = "snps,designware-i2c";
reg = <0xFF121000 0x1000>;
reg = <0xff121000 0x1000>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <12 8>;
clocks = <&ahb_clk>;
};
i2c2: i2c@FF122000 {
i2c2: i2c@ff122000 {
#address-cells = <1>;
#size-cells = <0>;
compatible = "snps,designware-i2c";
reg = <0xFF122000 0x1000>;
reg = <0xff122000 0x1000>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <12 8>;
clocks = <&ahb_clk>;
};
i2c3: i2c@FF123000 {
i2c3: i2c@ff123000 {
#address-cells = <1>;
#size-cells = <0>;
compatible = "snps,designware-i2c";
reg = <0xFF123000 0x1000>;
reg = <0xff123000 0x1000>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <12 8>;
clocks = <&ahb_clk>;
};
i2c4: i2c@FF124000 {
i2c4: i2c@ff124000 {
#address-cells = <1>;
#size-cells = <0>;
compatible = "snps,designware-i2c";
reg = <0xFF124000 0x1000>;
reg = <0xff124000 0x1000>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <12 8>;
clocks = <&ahb_clk>;
};
spi0: spi@0xFE010000 {
spi0: spi@fe010000 {
#address-cells = <1>;
#size-cells = <0>;
cell-index = <0>;
compatible = "abilis,tb100-spi";
num-cs = <1>;
reg = <0xFE010000 0x20>;
reg = <0xfe010000 0x20>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <26 8>;
clocks = <&ahb_clk>;
};
spi1: spi@0xFE011000 {
spi1: spi@fe011000 {
#address-cells = <1>;
#size-cells = <0>;
cell-index = <1>;
compatible = "abilis,tb100-spi";
num-cs = <2>;
reg = <0xFE011000 0x20>;
reg = <0xfe011000 0x20>;
interrupt-parent = <&tb10x_ictl>;
interrupts = <10 8>;
clocks = <&ahb_clk>;
@ -226,23 +226,23 @@
interrupts = <20 2>, <19 2>;
interrupt-names = "cmd_irq", "event_irq";
};
tb10x_mdsc0: tb10x-mdscr@FF300000 {
tb10x_mdsc0: tb10x-mdscr@ff300000 {
compatible = "abilis,tb100-mdscr";
reg = <0xFF300000 0x7000>;
reg = <0xff300000 0x7000>;
tb100-mdscr-manage-tsin;
};
tb10x_mscr0: tb10x-mdscr@FF307000 {
tb10x_mscr0: tb10x-mdscr@ff307000 {
compatible = "abilis,tb100-mdscr";
reg = <0xFF307000 0x7000>;
reg = <0xff307000 0x7000>;
};
tb10x_scr0: tb10x-mdscr@ff30e000 {
compatible = "abilis,tb100-mdscr";
reg = <0xFF30e000 0x4000>;
reg = <0xff30e000 0x4000>;
tb100-mdscr-manage-tsin;
};
tb10x_scr1: tb10x-mdscr@ff312000 {
compatible = "abilis,tb100-mdscr";
reg = <0xFF312000 0x4000>;
reg = <0xff312000 0x4000>;
tb100-mdscr-manage-tsin;
};
tb10x_wfb: tb10x-wfb@ff319000 {

Просмотреть файл

@ -41,7 +41,7 @@
* this GPIO block ORs all interrupts on CPU card (creg,..)
* to uplink only 1 IRQ to ARC core intc
*/
dw-apb-gpio@0x2000 {
dw-apb-gpio@2000 {
compatible = "snps,dw-apb-gpio";
reg = < 0x2000 0x80 >;
#address-cells = <1>;
@ -60,7 +60,7 @@
};
};
debug_uart: dw-apb-uart@0x5000 {
debug_uart: dw-apb-uart@5000 {
compatible = "snps,dw-apb-uart";
reg = <0x5000 0x100>;
clock-frequency = <33333000>;
@ -88,7 +88,7 @@
* avoid duplicating the MB dtsi file given that IRQ from
* this intc to cpu intc are different for axs101 and axs103
*/
mb_intc: dw-apb-ictl@0xe0012000 {
mb_intc: dw-apb-ictl@e0012000 {
#interrupt-cells = <1>;
compatible = "snps,dw-apb-ictl";
reg = < 0x0 0xe0012000 0x0 0x200 >;

Просмотреть файл

@ -55,7 +55,7 @@
* this GPIO block ORs all interrupts on CPU card (creg,..)
* to uplink only 1 IRQ to ARC core intc
*/
dw-apb-gpio@0x2000 {
dw-apb-gpio@2000 {
compatible = "snps,dw-apb-gpio";
reg = < 0x2000 0x80 >;
#address-cells = <1>;
@ -74,7 +74,7 @@
};
};
debug_uart: dw-apb-uart@0x5000 {
debug_uart: dw-apb-uart@5000 {
compatible = "snps,dw-apb-uart";
reg = <0x5000 0x100>;
clock-frequency = <33333000>;
@ -102,19 +102,19 @@
* external DMA buffer located outside of IOC aperture.
*/
axs10x_mb {
ethernet@0x18000 {
ethernet@18000 {
dma-coherent;
};
ehci@0x40000 {
ehci@40000 {
dma-coherent;
};
ohci@0x60000 {
ohci@60000 {
dma-coherent;
};
mmc@0x15000 {
mmc@15000 {
dma-coherent;
};
};
@ -132,7 +132,7 @@
* avoid duplicating the MB dtsi file given that IRQ from
* this intc to cpu intc are different for axs101 and axs103
*/
mb_intc: dw-apb-ictl@0xe0012000 {
mb_intc: dw-apb-ictl@e0012000 {
#interrupt-cells = <1>;
compatible = "snps,dw-apb-ictl";
reg = < 0x0 0xe0012000 0x0 0x200 >;
@ -153,7 +153,7 @@
#size-cells = <2>;
ranges;
/*
* Move frame buffer out of IOC aperture (0x8z-0xAz).
* Move frame buffer out of IOC aperture (0x8z-0xaz).
*/
frame_buffer: frame_buffer@be000000 {
compatible = "shared-dma-pool";

Просмотреть файл

@ -62,7 +62,7 @@
* this GPIO block ORs all interrupts on CPU card (creg,..)
* to uplink only 1 IRQ to ARC core intc
*/
dw-apb-gpio@0x2000 {
dw-apb-gpio@2000 {
compatible = "snps,dw-apb-gpio";
reg = < 0x2000 0x80 >;
#address-cells = <1>;
@ -81,7 +81,7 @@
};
};
debug_uart: dw-apb-uart@0x5000 {
debug_uart: dw-apb-uart@5000 {
compatible = "snps,dw-apb-uart";
reg = <0x5000 0x100>;
clock-frequency = <33333000>;
@ -109,19 +109,19 @@
* external DMA buffer located outside of IOC aperture.
*/
axs10x_mb {
ethernet@0x18000 {
ethernet@18000 {
dma-coherent;
};
ehci@0x40000 {
ehci@40000 {
dma-coherent;
};
ohci@0x60000 {
ohci@60000 {
dma-coherent;
};
mmc@0x15000 {
mmc@15000 {
dma-coherent;
};
};
@ -138,7 +138,7 @@
* avoid duplicating the MB dtsi file given that IRQ from
* this intc to cpu intc are different for axs101 and axs103
*/
mb_intc: dw-apb-ictl@0xe0012000 {
mb_intc: dw-apb-ictl@e0012000 {
#interrupt-cells = <1>;
compatible = "snps,dw-apb-ictl";
reg = < 0x0 0xe0012000 0x0 0x200 >;
@ -159,7 +159,7 @@
#size-cells = <2>;
ranges;
/*
* Move frame buffer out of IOC aperture (0x8z-0xAz).
* Move frame buffer out of IOC aperture (0x8z-0xaz).
*/
frame_buffer: frame_buffer@be000000 {
compatible = "shared-dma-pool";

Просмотреть файл

@ -72,7 +72,7 @@
};
};
gmac: ethernet@0x18000 {
gmac: ethernet@18000 {
#interrupt-cells = <1>;
compatible = "snps,dwmac";
reg = < 0x18000 0x2000 >;
@ -88,13 +88,13 @@
mac-address = [00 00 00 00 00 00]; /* Filled in by U-Boot */
};
ehci@0x40000 {
ehci@40000 {
compatible = "generic-ehci";
reg = < 0x40000 0x100 >;
interrupts = < 8 >;
};
ohci@0x60000 {
ohci@60000 {
compatible = "generic-ohci";
reg = < 0x60000 0x100 >;
interrupts = < 8 >;
@ -118,7 +118,7 @@
* dw_mci_pltfm_prepare_command() is used in generic platform
* code.
*/
mmc@0x15000 {
mmc@15000 {
compatible = "altr,socfpga-dw-mshc";
reg = < 0x15000 0x400 >;
fifo-depth = < 16 >;
@ -129,7 +129,7 @@
bus-width = < 4 >;
};
uart@0x20000 {
uart@20000 {
compatible = "snps,dw-apb-uart";
reg = <0x20000 0x100>;
clock-frequency = <33333333>;
@ -139,7 +139,7 @@
reg-io-width = <4>;
};
uart@0x21000 {
uart@21000 {
compatible = "snps,dw-apb-uart";
reg = <0x21000 0x100>;
clock-frequency = <33333333>;
@ -150,7 +150,7 @@
};
/* UART muxed with USB data port (ttyS3) */
uart@0x22000 {
uart@22000 {
compatible = "snps,dw-apb-uart";
reg = <0x22000 0x100>;
clock-frequency = <33333333>;
@ -160,7 +160,7 @@
reg-io-width = <4>;
};
i2c@0x1d000 {
i2c@1d000 {
compatible = "snps,designware-i2c";
reg = <0x1d000 0x100>;
clock-frequency = <400000>;
@ -177,7 +177,7 @@
#sound-dai-cells = <0>;
};
i2c@0x1f000 {
i2c@1f000 {
compatible = "snps,designware-i2c";
#address-cells = <1>;
#size-cells = <0>;
@ -218,13 +218,13 @@
};
};
eeprom@0x54{
eeprom@54{
compatible = "atmel,24c01";
reg = <0x54>;
pagesize = <0x8>;
};
eeprom@0x57{
eeprom@57{
compatible = "atmel,24c04";
reg = <0x57>;
pagesize = <0x8>;

Просмотреть файл

@ -110,12 +110,12 @@
cgu_rst: reset-controller@8a0 {
compatible = "snps,hsdk-reset";
#reset-cells = <1>;
reg = <0x8A0 0x4>, <0xFF0 0x4>;
reg = <0x8a0 0x4>, <0xff0 0x4>;
};
core_clk: core-clk@0 {
compatible = "snps,hsdk-core-pll-clock";
reg = <0x00 0x10>, <0x14B8 0x4>;
reg = <0x00 0x10>, <0x14b8 0x4>;
#clock-cells = <0>;
clocks = <&input_clk>;
@ -167,6 +167,18 @@
#clock-cells = <0>;
};
dmac_core_clk: dmac-core-clk {
compatible = "fixed-clock";
clock-frequency = <400000000>;
#clock-cells = <0>;
};
dmac_cfg_clk: dmac-gpu-cfg-clk {
compatible = "fixed-clock";
clock-frequency = <200000000>;
#clock-cells = <0>;
};
gmac: ethernet@8000 {
#interrupt-cells = <1>;
compatible = "snps,dwmac";
@ -200,6 +212,7 @@
compatible = "snps,hsdk-v1.0-ohci", "generic-ohci";
reg = <0x60000 0x100>;
interrupts = <15>;
resets = <&cgu_rst HSDK_USB_RESET>;
dma-coherent;
};
@ -207,6 +220,7 @@
compatible = "snps,hsdk-v1.0-ehci", "generic-ehci";
reg = <0x40000 0x100>;
interrupts = <15>;
resets = <&cgu_rst HSDK_USB_RESET>;
dma-coherent;
};
@ -237,6 +251,21 @@
reg = <0>;
};
};
dmac: dmac@80000 {
compatible = "snps,axi-dma-1.01a";
reg = <0x80000 0x400>;
interrupts = <27>;
clocks = <&dmac_core_clk>, <&dmac_cfg_clk>;
clock-names = "core-clk", "cfgr-clk";
dma-channels = <4>;
snps,dma-masters = <2>;
snps,data-width = <3>;
snps,block-size = <4096 4096 4096 4096>;
snps,priority = <0 1 2 3>;
snps,axi-max-burst-len = <16>;
};
};
memory@80000000 {

Просмотреть файл

@ -36,7 +36,7 @@
#interrupt-cells = <1>;
};
debug_uart: dw-apb-uart@0x5000 {
debug_uart: dw-apb-uart@5000 {
compatible = "snps,dw-apb-uart";
reg = <0x5000 0x100>;
clock-frequency = <2403200>;
@ -49,7 +49,7 @@
};
mb_intc: dw-apb-ictl@0xe0012000 {
mb_intc: dw-apb-ictl@e0012000 {
#interrupt-cells = <1>;
compatible = "snps,dw-apb-ictl";
reg = < 0xe0012000 0x200 >;

Просмотреть файл

@ -44,7 +44,7 @@
#interrupt-cells = <1>;
};
debug_uart: dw-apb-uart@0x5000 {
debug_uart: dw-apb-uart@5000 {
compatible = "snps,dw-apb-uart";
reg = <0x5000 0x100>;
clock-frequency = <2403200>;
@ -57,7 +57,7 @@
};
mb_intc: dw-apb-ictl@0xe0012000 {
mb_intc: dw-apb-ictl@e0012000 {
#interrupt-cells = <1>;
compatible = "snps,dw-apb-ictl";
reg = < 0xe0012000 0x200 >;

Просмотреть файл

@ -36,7 +36,7 @@
};
};
ethernet@0x18000 {
ethernet@18000 {
#interrupt-cells = <1>;
compatible = "snps,dwmac";
reg = < 0x18000 0x2000 >;
@ -49,13 +49,13 @@
clock-names = "stmmaceth";
};
ehci@0x40000 {
ehci@40000 {
compatible = "generic-ehci";
reg = < 0x40000 0x100 >;
interrupts = < 8 >;
};
uart@0x20000 {
uart@20000 {
compatible = "snps,dw-apb-uart";
reg = <0x20000 0x100>;
clock-frequency = <2403200>;
@ -65,7 +65,7 @@
reg-io-width = <4>;
};
uart@0x21000 {
uart@21000 {
compatible = "snps,dw-apb-uart";
reg = <0x21000 0x100>;
clock-frequency = <2403200>;
@ -75,7 +75,7 @@
reg-io-width = <4>;
};
uart@0x22000 {
uart@22000 {
compatible = "snps,dw-apb-uart";
reg = <0x22000 0x100>;
clock-frequency = <2403200>;
@ -101,7 +101,7 @@
interrupt-names = "arc_ps2_irq";
};
mmc@0x15000 {
mmc@15000 {
compatible = "snps,dw-mshc";
reg = <0x15000 0x400>;
fifo-depth = <1024>;
@ -117,11 +117,11 @@
* Embedded Vision subsystem UIO mappings; only relevant for EV VDK
*
* This node is intentionally put outside of MB above becase
* it maps areas outside of MB's 0xEz-0xFz.
* it maps areas outside of MB's 0xez-0xfz.
*/
uio_ev: uio@0xD0000000 {
uio_ev: uio@d0000000 {
compatible = "generic-uio";
reg = <0xD0000000 0x2000 0xD1000000 0x2000 0x90000000 0x10000000 0xC0000000 0x10000000>;
reg = <0xd0000000 0x2000 0xd1000000 0x2000 0x90000000 0x10000000 0xc0000000 0x10000000>;
reg-names = "ev_gsa", "ev_ctrl", "ev_shared_mem", "ev_code_mem";
interrupt-parent = <&mb_intc>;
interrupts = <23>;

Просмотреть файл

@ -8,6 +8,7 @@ CONFIG_NAMESPACES=y
# CONFIG_UTS_NS is not set
# CONFIG_PID_NS is not set
CONFIG_BLK_DEV_INITRD=y
CONFIG_BLK_DEV_RAM=y
CONFIG_EMBEDDED=y
CONFIG_PERF_EVENTS=y
# CONFIG_VM_EVENT_COUNTERS is not set

Просмотреть файл

@ -11,6 +11,7 @@ generic-y += hardirq.h
generic-y += hw_irq.h
generic-y += irq_regs.h
generic-y += irq_work.h
generic-y += kvm_para.h
generic-y += local.h
generic-y += local64.h
generic-y += mcs_spinlock.h

Просмотреть файл

@ -82,6 +82,7 @@
#define ECR_V_DTLB_MISS 0x05
#define ECR_V_PROTV 0x06
#define ECR_V_TRAP 0x09
#define ECR_V_MISALIGN 0x0d
#endif
/* DTLB Miss and Protection Violation Cause Codes */
@ -167,14 +168,6 @@ struct bcr_mpy {
#endif
};
struct bcr_extn_xymem {
#ifdef CONFIG_CPU_BIG_ENDIAN
unsigned int ram_org:2, num_banks:4, bank_sz:4, ver:8;
#else
unsigned int ver:8, bank_sz:4, num_banks:4, ram_org:2;
#endif
};
struct bcr_iccm_arcompact {
#ifdef CONFIG_CPU_BIG_ENDIAN
unsigned int base:16, pad:5, sz:3, ver:8;
@ -312,7 +305,7 @@ struct cpuinfo_arc {
struct cpuinfo_arc_bpu bpu;
struct bcr_identity core;
struct bcr_isa_arcv2 isa;
const char *details, *name;
const char *release, *name;
unsigned int vec_base;
struct cpuinfo_arc_ccm iccm, dccm;
struct {
@ -322,7 +315,6 @@ struct cpuinfo_arc {
timer0:1, timer1:1, rtc:1, gfrc:1, pad4:4;
} extn;
struct bcr_mpy extn_mpy;
struct bcr_extn_xymem extn_xymem;
};
extern struct cpuinfo_arc cpuinfo_arc700[];

Просмотреть файл

@ -44,7 +44,13 @@
#define ARCV2_IRQ_DEF_PRIO 1
/* seed value for status register */
#define ISA_INIT_STATUS_BITS (STATUS_IE_MASK | STATUS_AD_MASK | \
#ifdef CONFIG_ARC_USE_UNALIGNED_MEM_ACCESS
#define __AD_ENB STATUS_AD_MASK
#else
#define __AD_ENB 0
#endif
#define ISA_INIT_STATUS_BITS (STATUS_IE_MASK | __AD_ENB | \
(ARCV2_IRQ_DEF_PRIO << 1))
#ifndef __ASSEMBLY__

Просмотреть файл

@ -105,10 +105,10 @@ static const char * const arc_pmu_ev_hw_map[] = {
[PERF_COUNT_HW_INSTRUCTIONS] = "iall",
/* All jump instructions that are taken */
[PERF_COUNT_HW_BRANCH_INSTRUCTIONS] = "ijmptak",
[PERF_COUNT_ARC_BPOK] = "bpok", /* NP-NT, PT-T, PNT-NT */
#ifdef CONFIG_ISA_ARCV2
[PERF_COUNT_HW_BRANCH_MISSES] = "bpmp",
#else
[PERF_COUNT_ARC_BPOK] = "bpok", /* NP-NT, PT-T, PNT-NT */
[PERF_COUNT_HW_BRANCH_MISSES] = "bpfail", /* NP-T, PT-NT, PNT-T */
#endif
[PERF_COUNT_ARC_LDC] = "imemrdc", /* Instr: mem read cached */

Просмотреть файл

@ -21,8 +21,6 @@ static inline void arch_spin_lock(arch_spinlock_t *lock)
{
unsigned int val;
smp_mb();
__asm__ __volatile__(
"1: llock %[val], [%[slock]] \n"
" breq %[val], %[LOCKED], 1b \n" /* spin while LOCKED */
@ -34,6 +32,14 @@ static inline void arch_spin_lock(arch_spinlock_t *lock)
[LOCKED] "r" (__ARCH_SPIN_LOCK_LOCKED__)
: "memory", "cc");
/*
* ACQUIRE barrier to ensure load/store after taking the lock
* don't "bleed-up" out of the critical section (leak-in is allowed)
* http://www.spinics.net/lists/kernel/msg2010409.html
*
* ARCv2 only has load-load, store-store and all-all barrier
* thus need the full all-all barrier
*/
smp_mb();
}
@ -42,8 +48,6 @@ static inline int arch_spin_trylock(arch_spinlock_t *lock)
{
unsigned int val, got_it = 0;
smp_mb();
__asm__ __volatile__(
"1: llock %[val], [%[slock]] \n"
" breq %[val], %[LOCKED], 4f \n" /* already LOCKED, just bail */
@ -67,9 +71,7 @@ static inline void arch_spin_unlock(arch_spinlock_t *lock)
{
smp_mb();
lock->slock = __ARCH_SPIN_LOCK_UNLOCKED__;
smp_mb();
WRITE_ONCE(lock->slock, __ARCH_SPIN_LOCK_UNLOCKED__);
}
/*
@ -81,8 +83,6 @@ static inline void arch_read_lock(arch_rwlock_t *rw)
{
unsigned int val;
smp_mb();
/*
* zero means writer holds the lock exclusively, deny Reader.
* Otherwise grant lock to first/subseq reader
@ -113,8 +113,6 @@ static inline int arch_read_trylock(arch_rwlock_t *rw)
{
unsigned int val, got_it = 0;
smp_mb();
__asm__ __volatile__(
"1: llock %[val], [%[rwlock]] \n"
" brls %[val], %[WR_LOCKED], 4f\n" /* <= 0: already write locked, bail */
@ -140,8 +138,6 @@ static inline void arch_write_lock(arch_rwlock_t *rw)
{
unsigned int val;
smp_mb();
/*
* If reader(s) hold lock (lock < __ARCH_RW_LOCK_UNLOCKED__),
* deny writer. Otherwise if unlocked grant to writer
@ -175,8 +171,6 @@ static inline int arch_write_trylock(arch_rwlock_t *rw)
{
unsigned int val, got_it = 0;
smp_mb();
__asm__ __volatile__(
"1: llock %[val], [%[rwlock]] \n"
" brne %[val], %[UNLOCKED], 4f \n" /* !UNLOCKED, bail */
@ -217,17 +211,13 @@ static inline void arch_read_unlock(arch_rwlock_t *rw)
: [val] "=&r" (val)
: [rwlock] "r" (&(rw->counter))
: "memory", "cc");
smp_mb();
}
static inline void arch_write_unlock(arch_rwlock_t *rw)
{
smp_mb();
rw->counter = __ARCH_RW_LOCK_UNLOCKED__;
smp_mb();
WRITE_ONCE(rw->counter, __ARCH_RW_LOCK_UNLOCKED__);
}
#else /* !CONFIG_ARC_HAS_LLSC */
@ -237,10 +227,9 @@ static inline void arch_spin_lock(arch_spinlock_t *lock)
unsigned int val = __ARCH_SPIN_LOCK_LOCKED__;
/*
* This smp_mb() is technically superfluous, we only need the one
* after the lock for providing the ACQUIRE semantics.
* However doing the "right" thing was regressing hackbench
* so keeping this, pending further investigation
* Per lkmm, smp_mb() is only required after _lock (and before_unlock)
* for ACQ and REL semantics respectively. However EX based spinlocks
* need the extra smp_mb to workaround a hardware quirk.
*/
smp_mb();
@ -257,14 +246,6 @@ static inline void arch_spin_lock(arch_spinlock_t *lock)
#endif
: "memory");
/*
* ACQUIRE barrier to ensure load/store after taking the lock
* don't "bleed-up" out of the critical section (leak-in is allowed)
* http://www.spinics.net/lists/kernel/msg2010409.html
*
* ARCv2 only has load-load, store-store and all-all barrier
* thus need the full all-all barrier
*/
smp_mb();
}
@ -309,8 +290,7 @@ static inline void arch_spin_unlock(arch_spinlock_t *lock)
: "memory");
/*
* superfluous, but keeping for now - see pairing version in
* arch_spin_lock above
* see pairing version/comment in arch_spin_lock above
*/
smp_mb();
}
@ -344,7 +324,6 @@ static inline int arch_read_trylock(arch_rwlock_t *rw)
arch_spin_unlock(&(rw->lock_mutex));
local_irq_restore(flags);
smp_mb();
return ret;
}

Просмотреть файл

@ -1,2 +1 @@
generic-y += kvm_para.h
generic-y += ucontext.h

Просмотреть файл

@ -54,7 +54,12 @@
; gcc 7.3.1 (ARC GNU 2018.03) onwards generates unaligned access
; by default
lr r5, [status32]
#ifdef CONFIG_ARC_USE_UNALIGNED_MEM_ACCESS
bset r5, r5, STATUS_AD_BIT
#else
; Although disabled at reset, bootloader might have enabled it
bclr r5, r5, STATUS_AD_BIT
#endif
kflag r5
#endif
.endm
@ -106,6 +111,7 @@ ENTRY(stext)
; r2 = pointer to uboot provided cmdline or external DTB in mem
; These are handled later in handle_uboot_args()
st r0, [@uboot_tag]
st r1, [@uboot_magic]
st r2, [@uboot_arg]
; setup "current" tsk and optionally cache it in dedicated r25

Просмотреть файл

@ -95,7 +95,7 @@ void arc_init_IRQ(void)
/* setup status32, don't enable intr yet as kernel doesn't want */
tmp = read_aux_reg(ARC_REG_STATUS32);
tmp |= STATUS_AD_MASK | (ARCV2_IRQ_DEF_PRIO << 1);
tmp |= ARCV2_IRQ_DEF_PRIO << 1;
tmp &= ~STATUS_IE_MASK;
asm volatile("kflag %0 \n"::"r"(tmp));
}

Просмотреть файл

@ -36,6 +36,7 @@ unsigned int intr_to_DE_cnt;
/* Part of U-boot ABI: see head.S */
int __initdata uboot_tag;
int __initdata uboot_magic;
char __initdata *uboot_arg;
const struct machine_desc *machine_desc;
@ -44,29 +45,24 @@ struct task_struct *_current_task[NR_CPUS]; /* For stack switching */
struct cpuinfo_arc cpuinfo_arc700[NR_CPUS];
static const struct id_to_str arc_cpu_rel[] = {
static const struct id_to_str arc_legacy_rel[] = {
/* ID.ARCVER, Release */
#ifdef CONFIG_ISA_ARCOMPACT
{ 0x34, "R4.10"},
{ 0x35, "R4.11"},
{ 0x34, "R4.10"},
{ 0x35, "R4.11"},
#else
{ 0x51, "R2.0" },
{ 0x52, "R2.1" },
{ 0x53, "R3.0" },
{ 0x54, "R3.10a" },
{ 0x51, "R2.0" },
{ 0x52, "R2.1" },
{ 0x53, "R3.0" },
#endif
{ 0x00, NULL }
{ 0x00, NULL }
};
static const struct id_to_str arc_cpu_nm[] = {
#ifdef CONFIG_ISA_ARCOMPACT
{ 0x20, "ARC 600" },
{ 0x30, "ARC 770" }, /* 750 identified seperately */
#else
{ 0x40, "ARC EM" },
{ 0x50, "ARC HS38" },
{ 0x54, "ARC HS48" },
#endif
{ 0x00, "Unknown" }
static const struct id_to_str arc_cpu_rel[] = {
/* UARCH.MAJOR, Release */
{ 0, "R3.10a"},
{ 1, "R3.50a"},
{ 0xFF, NULL }
};
static void read_decode_ccm_bcr(struct cpuinfo_arc *cpu)
@ -116,31 +112,72 @@ static void read_decode_ccm_bcr(struct cpuinfo_arc *cpu)
}
}
static void decode_arc_core(struct cpuinfo_arc *cpu)
{
struct bcr_uarch_build_arcv2 uarch;
const struct id_to_str *tbl;
/*
* Up until (including) the first core4 release (0x54) things were
* simple: AUX IDENTITY.ARCVER was sufficient to identify arc family
* and release: 0x50 to 0x53 was HS38, 0x54 was HS48 (dual issue)
*/
if (cpu->core.family < 0x54) { /* includes arc700 */
for (tbl = &arc_legacy_rel[0]; tbl->id != 0; tbl++) {
if (cpu->core.family == tbl->id) {
cpu->release = tbl->str;
break;
}
}
if (is_isa_arcompact())
cpu->name = "ARC700";
else if (tbl->str)
cpu->name = "HS38";
else
cpu->name = cpu->release = "Unknown";
return;
}
/*
* However the subsequent HS release (same 0x54) allow HS38 or HS48
* configurations and encode this info in a different BCR.
* The BCR was introduced in 0x54 so can't be read unconditionally.
*/
READ_BCR(ARC_REG_MICRO_ARCH_BCR, uarch);
if (uarch.prod == 4) {
cpu->name = "HS48";
cpu->extn.dual = 1;
} else {
cpu->name = "HS38";
}
for (tbl = &arc_cpu_rel[0]; tbl->id != 0xFF; tbl++) {
if (uarch.maj == tbl->id) {
cpu->release = tbl->str;
break;
}
}
}
static void read_arc_build_cfg_regs(void)
{
struct bcr_timer timer;
struct bcr_generic bcr;
struct cpuinfo_arc *cpu = &cpuinfo_arc700[smp_processor_id()];
const struct id_to_str *tbl;
struct bcr_isa_arcv2 isa;
struct bcr_actionpoint ap;
FIX_PTR(cpu);
READ_BCR(AUX_IDENTITY, cpu->core);
for (tbl = &arc_cpu_rel[0]; tbl->id != 0; tbl++) {
if (cpu->core.family == tbl->id) {
cpu->details = tbl->str;
break;
}
}
for (tbl = &arc_cpu_nm[0]; tbl->id != 0; tbl++) {
if ((cpu->core.family & 0xF4) == tbl->id)
break;
}
cpu->name = tbl->str;
decode_arc_core(cpu);
READ_BCR(ARC_REG_TIMERS_BCR, timer);
cpu->extn.timer0 = timer.t0;
@ -151,16 +188,6 @@ static void read_arc_build_cfg_regs(void)
READ_BCR(ARC_REG_MUL_BCR, cpu->extn_mpy);
cpu->extn.norm = read_aux_reg(ARC_REG_NORM_BCR) > 1 ? 1 : 0; /* 2,3 */
cpu->extn.barrel = read_aux_reg(ARC_REG_BARREL_BCR) > 1 ? 1 : 0; /* 2,3 */
cpu->extn.swap = read_aux_reg(ARC_REG_SWAP_BCR) ? 1 : 0; /* 1,3 */
cpu->extn.crc = read_aux_reg(ARC_REG_CRC_BCR) ? 1 : 0;
cpu->extn.minmax = read_aux_reg(ARC_REG_MIXMAX_BCR) > 1 ? 1 : 0; /* 2 */
cpu->extn.swape = (cpu->core.family >= 0x34) ? 1 :
IS_ENABLED(CONFIG_ARC_HAS_SWAPE);
READ_BCR(ARC_REG_XY_MEM_BCR, cpu->extn_xymem);
/* Read CCM BCRs for boot reporting even if not enabled in Kconfig */
read_decode_ccm_bcr(cpu);
@ -198,30 +225,12 @@ static void read_arc_build_cfg_regs(void)
cpu->bpu.num_pred = 2048 << bpu.pte;
cpu->bpu.ret_stk = 4 << bpu.rse;
if (cpu->core.family >= 0x54) {
/* if dual issue hardware, is it enabled ? */
if (cpu->extn.dual) {
unsigned int exec_ctrl;
struct bcr_uarch_build_arcv2 uarch;
/*
* The first 0x54 core (uarch maj:min 0:1 or 0:2) was
* dual issue only (HS4x). But next uarch rev (1:0)
* allows it be configured for single issue (HS3x)
* Ensure we fiddle with dual issue only on HS4x
*/
READ_BCR(ARC_REG_MICRO_ARCH_BCR, uarch);
if (uarch.prod == 4) {
unsigned int exec_ctrl;
/* dual issue hardware always present */
cpu->extn.dual = 1;
READ_BCR(AUX_EXEC_CTRL, exec_ctrl);
/* dual issue hardware enabled ? */
cpu->extn.dual_enb = !(exec_ctrl & 1);
}
READ_BCR(AUX_EXEC_CTRL, exec_ctrl);
cpu->extn.dual_enb = !(exec_ctrl & 1);
}
}
@ -263,7 +272,8 @@ static char *arc_cpu_mumbojumbo(int cpu_id, char *buf, int len)
{
struct cpuinfo_arc *cpu = &cpuinfo_arc700[cpu_id];
struct bcr_identity *core = &cpu->core;
int i, n = 0, ua = 0;
char mpy_opt[16];
int n = 0;
FIX_PTR(cpu);
@ -272,7 +282,7 @@ static char *arc_cpu_mumbojumbo(int cpu_id, char *buf, int len)
core->family, core->cpu_id, core->chip_id);
n += scnprintf(buf + n, len - n, "processor [%d]\t: %s %s (%s ISA) %s%s%s\n",
cpu_id, cpu->name, cpu->details,
cpu_id, cpu->name, cpu->release,
is_isa_arcompact() ? "ARCompact" : "ARCv2",
IS_AVAIL1(cpu->isa.be, "[Big-Endian]"),
IS_AVAIL3(cpu->extn.dual, cpu->extn.dual_enb, " Dual-Issue "));
@ -283,61 +293,50 @@ static char *arc_cpu_mumbojumbo(int cpu_id, char *buf, int len)
IS_AVAIL2(cpu->extn.rtc, "RTC [UP 64-bit] ", CONFIG_ARC_TIMERS_64BIT),
IS_AVAIL2(cpu->extn.gfrc, "GFRC [SMP 64-bit] ", CONFIG_ARC_TIMERS_64BIT));
#ifdef __ARC_UNALIGNED__
ua = 1;
#endif
n += i = scnprintf(buf + n, len - n, "%s%s%s%s%s%s",
IS_AVAIL2(cpu->isa.atomic, "atomic ", CONFIG_ARC_HAS_LLSC),
IS_AVAIL2(cpu->isa.ldd, "ll64 ", CONFIG_ARC_HAS_LL64),
IS_AVAIL1(cpu->isa.unalign, "unalign "), IS_USED_RUN(ua));
if (i)
n += scnprintf(buf + n, len - n, "\n\t\t: ");
if (cpu->extn_mpy.ver) {
if (cpu->extn_mpy.ver <= 0x2) { /* ARCompact */
n += scnprintf(buf + n, len - n, "mpy ");
if (is_isa_arcompact()) {
scnprintf(mpy_opt, 16, "mpy");
} else {
int opt = 2; /* stock MPY/MPYH */
if (cpu->extn_mpy.dsp) /* OPT 7-9 */
opt = cpu->extn_mpy.dsp + 6;
n += scnprintf(buf + n, len - n, "mpy[opt %d] ", opt);
scnprintf(mpy_opt, 16, "mpy[opt %d] ", opt);
}
}
n += scnprintf(buf + n, len - n, "%s%s%s%s%s%s%s%s\n",
IS_AVAIL1(cpu->isa.div_rem, "div_rem "),
IS_AVAIL1(cpu->extn.norm, "norm "),
IS_AVAIL1(cpu->extn.barrel, "barrel-shift "),
IS_AVAIL1(cpu->extn.swap, "swap "),
IS_AVAIL1(cpu->extn.minmax, "minmax "),
IS_AVAIL1(cpu->extn.crc, "crc "),
IS_AVAIL2(cpu->extn.swape, "swape", CONFIG_ARC_HAS_SWAPE));
IS_AVAIL2(cpu->isa.atomic, "atomic ", CONFIG_ARC_HAS_LLSC),
IS_AVAIL2(cpu->isa.ldd, "ll64 ", CONFIG_ARC_HAS_LL64),
IS_AVAIL2(cpu->isa.unalign, "unalign ", CONFIG_ARC_USE_UNALIGNED_MEM_ACCESS),
IS_AVAIL1(cpu->extn_mpy.ver, mpy_opt),
IS_AVAIL1(cpu->isa.div_rem, "div_rem "));
if (cpu->bpu.ver)
if (cpu->bpu.ver) {
n += scnprintf(buf + n, len - n,
"BPU\t\t: %s%s match, cache:%d, Predict Table:%d Return stk: %d",
IS_AVAIL1(cpu->bpu.full, "full"),
IS_AVAIL1(!cpu->bpu.full, "partial"),
cpu->bpu.num_cache, cpu->bpu.num_pred, cpu->bpu.ret_stk);
if (is_isa_arcv2()) {
struct bcr_lpb lpb;
if (is_isa_arcv2()) {
struct bcr_lpb lpb;
READ_BCR(ARC_REG_LPB_BUILD, lpb);
if (lpb.ver) {
unsigned int ctl;
ctl = read_aux_reg(ARC_REG_LPB_CTRL);
READ_BCR(ARC_REG_LPB_BUILD, lpb);
if (lpb.ver) {
unsigned int ctl;
ctl = read_aux_reg(ARC_REG_LPB_CTRL);
n += scnprintf(buf + n, len - n, " Loop Buffer:%d %s",
lpb.entries,
IS_DISABLED_RUN(!ctl));
n += scnprintf(buf + n, len - n, " Loop Buffer:%d %s",
lpb.entries,
IS_DISABLED_RUN(!ctl));
}
}
n += scnprintf(buf + n, len - n, "\n");
}
n += scnprintf(buf + n, len - n, "\n");
return buf;
}
@ -390,11 +389,6 @@ static char *arc_extn_mumbojumbo(int cpu_id, char *buf, int len)
}
}
n += scnprintf(buf + n, len - n, "OS ABI [v%d]\t: %s\n",
EF_ARC_OSABI_CURRENT >> 8,
EF_ARC_OSABI_CURRENT == EF_ARC_OSABI_V3 ?
"no-legacy-syscalls" : "64-bit data any register aligned");
return buf;
}
@ -497,6 +491,8 @@ static inline bool uboot_arg_invalid(unsigned long addr)
#define UBOOT_TAG_NONE 0
#define UBOOT_TAG_CMDLINE 1
#define UBOOT_TAG_DTB 2
/* We always pass 0 as magic from U-boot */
#define UBOOT_MAGIC_VALUE 0
void __init handle_uboot_args(void)
{
@ -511,6 +507,11 @@ void __init handle_uboot_args(void)
goto ignore_uboot_args;
}
if (uboot_magic != UBOOT_MAGIC_VALUE) {
pr_warn(IGNORE_ARGS "non zero uboot magic\n");
goto ignore_uboot_args;
}
if (uboot_tag != UBOOT_TAG_NONE &&
uboot_arg_invalid((unsigned long)uboot_arg)) {
pr_warn(IGNORE_ARGS "invalid uboot arg: '%px'\n", uboot_arg);

Просмотреть файл

@ -145,7 +145,8 @@ static void show_ecr_verbose(struct pt_regs *regs)
} else if (vec == ECR_V_PROTV) {
if (cause_code == ECR_C_PROTV_INST_FETCH)
pr_cont("Execute from Non-exec Page\n");
else if (cause_code == ECR_C_PROTV_MISALIG_DATA)
else if (cause_code == ECR_C_PROTV_MISALIG_DATA &&
IS_ENABLED(CONFIG_ISA_ARCOMPACT))
pr_cont("Misaligned r/w from 0x%08lx\n", address);
else
pr_cont("%s access not allowed on page\n",
@ -161,6 +162,8 @@ static void show_ecr_verbose(struct pt_regs *regs)
pr_cont("Bus Error from Data Mem\n");
else
pr_cont("Bus Error, check PRM\n");
} else if (vec == ECR_V_MISALIGN) {
pr_cont("Misaligned r/w from 0x%08lx\n", address);
#endif
} else if (vec == ECR_V_TRAP) {
if (regs->ecr_param == 5)

Просмотреть файл

@ -8,4 +8,10 @@
lib-y := strchr-700.o strcpy-700.o strlen.o memcmp.o
lib-$(CONFIG_ISA_ARCOMPACT) += memcpy-700.o memset.o strcmp.o
lib-$(CONFIG_ISA_ARCV2) += memcpy-archs.o memset-archs.o strcmp-archs.o
lib-$(CONFIG_ISA_ARCV2) += memset-archs.o strcmp-archs.o
ifdef CONFIG_ARC_USE_UNALIGNED_MEM_ACCESS
lib-$(CONFIG_ISA_ARCV2) +=memcpy-archs-unaligned.o
else
lib-$(CONFIG_ISA_ARCV2) +=memcpy-archs.o
endif

Просмотреть файл

@ -0,0 +1,47 @@
/* SPDX-License-Identifier: GPL-2.0+ */
/*
* ARCv2 memcpy implementation optimized for unaligned memory access using.
*
* Copyright (C) 2019 Synopsys
* Author: Eugeniy Paltsev <Eugeniy.Paltsev@synopsys.com>
*/
#include <linux/linkage.h>
#ifdef CONFIG_ARC_HAS_LL64
# define LOADX(DST,RX) ldd.ab DST, [RX, 8]
# define STOREX(SRC,RX) std.ab SRC, [RX, 8]
# define ZOLSHFT 5
# define ZOLAND 0x1F
#else
# define LOADX(DST,RX) ld.ab DST, [RX, 4]
# define STOREX(SRC,RX) st.ab SRC, [RX, 4]
# define ZOLSHFT 4
# define ZOLAND 0xF
#endif
ENTRY_CFI(memcpy)
mov r3, r0 ; don;t clobber ret val
lsr.f lp_count, r2, ZOLSHFT
lpnz @.Lcopy32_64bytes
;; LOOP START
LOADX (r6, r1)
LOADX (r8, r1)
LOADX (r10, r1)
LOADX (r4, r1)
STOREX (r6, r3)
STOREX (r8, r3)
STOREX (r10, r3)
STOREX (r4, r3)
.Lcopy32_64bytes:
and.f lp_count, r2, ZOLAND ;Last remaining 31 bytes
lpnz @.Lcopyremainingbytes
;; LOOP START
ldb.ab r5, [r1, 1]
stb.ab r5, [r3, 1]
.Lcopyremainingbytes:
j [blink]
END_CFI(memcpy)

Просмотреть файл

@ -26,8 +26,8 @@ config EZNPS_MTM_EXT
help
Here we add new hierarchy for CPUs topology.
We got:
Core
Thread
Core
Thread
At the new thread level each CPU represent one HW thread.
At highest hierarchy each core contain 16 threads,
any of them seem like CPU from Linux point of view.
@ -35,10 +35,10 @@ config EZNPS_MTM_EXT
core and HW scheduler round robin between them.
config EZNPS_MEM_ERROR_ALIGN
bool "ARC-EZchip Memory error as an exception"
depends on EZNPS_MTM_EXT
default n
help
bool "ARC-EZchip Memory error as an exception"
depends on EZNPS_MTM_EXT
default n
help
On the real chip of the NPS, user memory errors are handled
as a machine check exception, which is fatal, whereas on
simulator platform for NPS, is handled as a Level 2 interrupt

Просмотреть файл

@ -596,6 +596,7 @@ config ARCH_DAVINCI
select HAVE_IDE
select PM_GENERIC_DOMAINS if PM
select PM_GENERIC_DOMAINS_OF if PM && OF
select REGMAP_MMIO
select RESET_CONTROLLER
select SPARSE_IRQ
select USE_OF

Просмотреть файл

@ -93,7 +93,7 @@
};
&hdmi {
hpd-gpios = <&gpio 46 GPIO_ACTIVE_LOW>;
hpd-gpios = <&gpio 46 GPIO_ACTIVE_HIGH>;
};
&pwm {

Просмотреть файл

@ -114,9 +114,9 @@
reg = <2>;
};
switch@0 {
switch@10 {
compatible = "qca,qca8334";
reg = <0>;
reg = <10>;
switch_ports: ports {
#address-cells = <1>;
@ -125,7 +125,7 @@
ethphy0: port@0 {
reg = <0>;
label = "cpu";
phy-mode = "rgmii";
phy-mode = "rgmii-id";
ethernet = <&fec>;
fixed-link {

Просмотреть файл

@ -264,7 +264,7 @@
pinctrl-2 = <&pinctrl_usdhc3_200mhz>;
vmcc-supply = <&reg_sd3_vmmc>;
cd-gpios = <&gpio1 1 GPIO_ACTIVE_LOW>;
bus-witdh = <4>;
bus-width = <4>;
no-1-8-v;
status = "okay";
};
@ -275,7 +275,7 @@
pinctrl-1 = <&pinctrl_usdhc4_100mhz>;
pinctrl-2 = <&pinctrl_usdhc4_200mhz>;
vmcc-supply = <&reg_sd4_vmmc>;
bus-witdh = <8>;
bus-width = <8>;
no-1-8-v;
non-removable;
status = "okay";

Просмотреть файл

@ -91,6 +91,7 @@
pinctrl-0 = <&pinctrl_enet>;
phy-handle = <&ethphy>;
phy-mode = "rgmii";
phy-reset-duration = <10>; /* in msecs */
phy-reset-gpios = <&gpio3 23 GPIO_ACTIVE_LOW>;
phy-supply = <&vdd_eth_io_reg>;
status = "disabled";

Просмотреть файл

@ -1,4 +1,4 @@
// SPDX-License-Identifier: GPL-2.0
/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (C) 2016 Freescale Semiconductor, Inc.
* Copyright (C) 2017 NXP

Просмотреть файл

@ -213,12 +213,13 @@
gpio-sck = <&gpio0 5 GPIO_ACTIVE_HIGH>;
gpio-mosi = <&gpio0 4 GPIO_ACTIVE_HIGH>;
/*
* It's not actually active high, but the frameworks assume
* the polarity of the passed-in GPIO is "normal" (active
* high) then actively drives the line low to select the
* chip.
* This chipselect is active high. Just setting the flags
* to GPIO_ACTIVE_HIGH is not enough for the SPI DT bindings,
* it will be ignored, only the special "spi-cs-high" flag
* really counts.
*/
cs-gpios = <&gpio0 6 GPIO_ACTIVE_HIGH>;
spi-cs-high;
num-chipselects = <1>;
/*

Просмотреть файл

@ -170,6 +170,9 @@ CONFIG_IMX_SDMA=y
# CONFIG_IOMMU_SUPPORT is not set
CONFIG_IIO=y
CONFIG_FSL_MX25_ADC=y
CONFIG_PWM=y
CONFIG_PWM_IMX1=y
CONFIG_PWM_IMX27=y
CONFIG_EXT4_FS=y
# CONFIG_DNOTIFY is not set
CONFIG_VFAT_FS=y

Просмотреть файл

@ -398,7 +398,7 @@ CONFIG_MAG3110=y
CONFIG_MPL3115=y
CONFIG_PWM=y
CONFIG_PWM_FSL_FTM=y
CONFIG_PWM_IMX=y
CONFIG_PWM_IMX27=y
CONFIG_NVMEM_IMX_OCOTP=y
CONFIG_NVMEM_VF610_OCOTP=y
CONFIG_TEE=y

Просмотреть файл

@ -381,6 +381,17 @@ static inline int kvm_read_guest_lock(struct kvm *kvm,
return ret;
}
static inline int kvm_write_guest_lock(struct kvm *kvm, gpa_t gpa,
const void *data, unsigned long len)
{
int srcu_idx = srcu_read_lock(&kvm->srcu);
int ret = kvm_write_guest(kvm, gpa, data, len);
srcu_read_unlock(&kvm->srcu, srcu_idx);
return ret;
}
static inline void *kvm_get_hyp_vector(void)
{
switch(read_cpuid_part()) {

Просмотреть файл

@ -75,6 +75,8 @@ static inline bool kvm_stage2_has_pud(struct kvm *kvm)
#define S2_PMD_MASK PMD_MASK
#define S2_PMD_SIZE PMD_SIZE
#define S2_PUD_MASK PUD_MASK
#define S2_PUD_SIZE PUD_SIZE
static inline bool kvm_stage2_has_pmd(struct kvm *kvm)
{

Просмотреть файл

@ -3,3 +3,4 @@
generated-y += unistd-common.h
generated-y += unistd-oabi.h
generated-y += unistd-eabi.h
generic-y += kvm_para.h

Просмотреть файл

@ -1,2 +0,0 @@
/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
#include <asm-generic/kvm_para.h>

Просмотреть файл

@ -90,7 +90,7 @@ void __init cns3xxx_map_io(void)
/* used by entry-macro.S */
void __init cns3xxx_init_irq(void)
{
gic_init(0, 29, IOMEM(CNS3XXX_TC11MP_GIC_DIST_BASE_VIRT),
gic_init(IOMEM(CNS3XXX_TC11MP_GIC_DIST_BASE_VIRT),
IOMEM(CNS3XXX_TC11MP_GIC_CPU_BASE_VIRT));
}

Просмотреть файл

@ -16,30 +16,23 @@
#include "cpuidle.h"
#include "hardware.h"
static atomic_t master = ATOMIC_INIT(0);
static DEFINE_SPINLOCK(master_lock);
static int num_idle_cpus = 0;
static DEFINE_SPINLOCK(cpuidle_lock);
static int imx6q_enter_wait(struct cpuidle_device *dev,
struct cpuidle_driver *drv, int index)
{
if (atomic_inc_return(&master) == num_online_cpus()) {
/*
* With this lock, we prevent other cpu to exit and enter
* this function again and become the master.
*/
if (!spin_trylock(&master_lock))
goto idle;
spin_lock(&cpuidle_lock);
if (++num_idle_cpus == num_online_cpus())
imx6_set_lpm(WAIT_UNCLOCKED);
cpu_do_idle();
imx6_set_lpm(WAIT_CLOCKED);
spin_unlock(&master_lock);
goto done;
}
spin_unlock(&cpuidle_lock);
idle:
cpu_do_idle();
done:
atomic_dec(&master);
spin_lock(&cpuidle_lock);
if (num_idle_cpus-- == num_online_cpus())
imx6_set_lpm(WAIT_CLOCKED);
spin_unlock(&cpuidle_lock);
return index;
}

Просмотреть файл

@ -59,6 +59,7 @@ static void __init imx51_m4if_setup(void)
return;
m4if_base = of_iomap(np, 0);
of_node_put(np);
if (!m4if_base) {
pr_err("Unable to map M4IF registers\n");
return;

Просмотреть файл

@ -159,7 +159,6 @@ config ARM64
select IRQ_DOMAIN
select IRQ_FORCED_THREADING
select MODULES_USE_ELF_RELA
select MULTI_IRQ_HANDLER
select NEED_DMA_MAP_STATE
select NEED_SG_DMA_LENGTH
select OF

Просмотреть файл

@ -27,6 +27,7 @@ config ARCH_BCM2835
bool "Broadcom BCM2835 family"
select TIMER_OF
select GPIOLIB
select MFD_CORE
select PINCTRL
select PINCTRL_BCM2835
select ARM_AMBA

Просмотреть файл

@ -321,7 +321,6 @@
nvidia,default-trim = <0x9>;
nvidia,dqs-trim = <63>;
mmc-hs400-1_8v;
supports-cqe;
status = "disabled";
};

Просмотреть файл

@ -2,7 +2,7 @@
/*
* Device Tree Source for the RZ/G2E (R8A774C0) SoC
*
* Copyright (C) 2018 Renesas Electronics Corp.
* Copyright (C) 2018-2019 Renesas Electronics Corp.
*/
#include <dt-bindings/clock/r8a774c0-cpg-mssr.h>
@ -1150,9 +1150,8 @@
<&cpg CPG_CORE R8A774C0_CLK_S3D1C>,
<&scif_clk>;
clock-names = "fck", "brg_int", "scif_clk";
dmas = <&dmac1 0x5b>, <&dmac1 0x5a>,
<&dmac2 0x5b>, <&dmac2 0x5a>;
dma-names = "tx", "rx", "tx", "rx";
dmas = <&dmac0 0x5b>, <&dmac0 0x5a>;
dma-names = "tx", "rx";
power-domains = <&sysc R8A774C0_PD_ALWAYS_ON>;
resets = <&cpg 202>;
status = "disabled";

Просмотреть файл

@ -2,7 +2,7 @@
/*
* Device Tree Source for the R-Car E3 (R8A77990) SoC
*
* Copyright (C) 2018 Renesas Electronics Corp.
* Copyright (C) 2018-2019 Renesas Electronics Corp.
*/
#include <dt-bindings/clock/r8a77990-cpg-mssr.h>
@ -1067,9 +1067,8 @@
<&cpg CPG_CORE R8A77990_CLK_S3D1C>,
<&scif_clk>;
clock-names = "fck", "brg_int", "scif_clk";
dmas = <&dmac1 0x5b>, <&dmac1 0x5a>,
<&dmac2 0x5b>, <&dmac2 0x5a>;
dma-names = "tx", "rx", "tx", "rx";
dmas = <&dmac0 0x5b>, <&dmac0 0x5a>;
dma-names = "tx", "rx";
power-domains = <&sysc R8A77990_PD_ALWAYS_ON>;
resets = <&cpg 202>;
status = "disabled";

Просмотреть файл

@ -77,6 +77,7 @@
#define ARM_CPU_IMP_QCOM 0x51
#define ARM_CPU_IMP_NVIDIA 0x4E
#define ARM_CPU_IMP_FUJITSU 0x46
#define ARM_CPU_IMP_HISI 0x48
#define ARM_CPU_PART_AEM_V8 0xD0F
#define ARM_CPU_PART_FOUNDATION 0xD00
@ -107,6 +108,8 @@
#define FUJITSU_CPU_PART_A64FX 0x001
#define HISI_CPU_PART_TSV110 0xD01
#define MIDR_CORTEX_A53 MIDR_CPU_MODEL(ARM_CPU_IMP_ARM, ARM_CPU_PART_CORTEX_A53)
#define MIDR_CORTEX_A57 MIDR_CPU_MODEL(ARM_CPU_IMP_ARM, ARM_CPU_PART_CORTEX_A57)
#define MIDR_CORTEX_A72 MIDR_CPU_MODEL(ARM_CPU_IMP_ARM, ARM_CPU_PART_CORTEX_A72)
@ -126,10 +129,11 @@
#define MIDR_NVIDIA_DENVER MIDR_CPU_MODEL(ARM_CPU_IMP_NVIDIA, NVIDIA_CPU_PART_DENVER)
#define MIDR_NVIDIA_CARMEL MIDR_CPU_MODEL(ARM_CPU_IMP_NVIDIA, NVIDIA_CPU_PART_CARMEL)
#define MIDR_FUJITSU_A64FX MIDR_CPU_MODEL(ARM_CPU_IMP_FUJITSU, FUJITSU_CPU_PART_A64FX)
#define MIDR_HISI_TSV110 MIDR_CPU_MODEL(ARM_CPU_IMP_HISI, HISI_CPU_PART_TSV110)
/* Fujitsu Erratum 010001 affects A64FX 1.0 and 1.1, (v0r0 and v1r0) */
#define MIDR_FUJITSU_ERRATUM_010001 MIDR_FUJITSU_A64FX
#define MIDR_FUJITSU_ERRATUM_010001_MASK (~MIDR_VARIANT(1))
#define MIDR_FUJITSU_ERRATUM_010001_MASK (~MIDR_CPU_VAR_REV(1, 0))
#define TCR_CLEAR_FUJITSU_ERRATUM_010001 (TCR_NFD1 | TCR_NFD0)
#ifndef __ASSEMBLY__

Просмотреть файл

@ -445,6 +445,17 @@ static inline int kvm_read_guest_lock(struct kvm *kvm,
return ret;
}
static inline int kvm_write_guest_lock(struct kvm *kvm, gpa_t gpa,
const void *data, unsigned long len)
{
int srcu_idx = srcu_read_lock(&kvm->srcu);
int ret = kvm_write_guest(kvm, gpa, data, len);
srcu_read_unlock(&kvm->srcu, srcu_idx);
return ret;
}
#ifdef CONFIG_KVM_INDIRECT_VECTORS
/*
* EL2 vectors can be mapped and rerouted in a number of ways,

Просмотреть файл

@ -963,6 +963,7 @@ static bool unmap_kernel_at_el0(const struct arm64_cpu_capabilities *entry,
MIDR_ALL_VERSIONS(MIDR_CORTEX_A57),
MIDR_ALL_VERSIONS(MIDR_CORTEX_A72),
MIDR_ALL_VERSIONS(MIDR_CORTEX_A73),
MIDR_ALL_VERSIONS(MIDR_HISI_TSV110),
{ /* sentinel */ }
};
char const *str = "command line option";

Просмотреть файл

@ -91,8 +91,6 @@ static void __kprobes arch_simulate_insn(struct kprobe *p, struct pt_regs *regs)
int __kprobes arch_prepare_kprobe(struct kprobe *p)
{
unsigned long probe_addr = (unsigned long)p->addr;
extern char __start_rodata[];
extern char __end_rodata[];
if (probe_addr & 0x3)
return -EINVAL;
@ -100,10 +98,7 @@ int __kprobes arch_prepare_kprobe(struct kprobe *p)
/* copy instruction */
p->opcode = le32_to_cpu(*p->addr);
if (in_exception_text(probe_addr))
return -EINVAL;
if (probe_addr >= (unsigned long) __start_rodata &&
probe_addr <= (unsigned long) __end_rodata)
if (search_exception_tables(probe_addr))
return -EINVAL;
/* decode instruction */
@ -476,26 +471,37 @@ kprobe_breakpoint_handler(struct pt_regs *regs, unsigned int esr)
return DBG_HOOK_HANDLED;
}
bool arch_within_kprobe_blacklist(unsigned long addr)
/*
* Provide a blacklist of symbols identifying ranges which cannot be kprobed.
* This blacklist is exposed to userspace via debugfs (kprobes/blacklist).
*/
int __init arch_populate_kprobe_blacklist(void)
{
if ((addr >= (unsigned long)__kprobes_text_start &&
addr < (unsigned long)__kprobes_text_end) ||
(addr >= (unsigned long)__entry_text_start &&
addr < (unsigned long)__entry_text_end) ||
(addr >= (unsigned long)__idmap_text_start &&
addr < (unsigned long)__idmap_text_end) ||
(addr >= (unsigned long)__hyp_text_start &&
addr < (unsigned long)__hyp_text_end) ||
!!search_exception_tables(addr))
return true;
int ret;
if (!is_kernel_in_hyp_mode()) {
if ((addr >= (unsigned long)__hyp_idmap_text_start &&
addr < (unsigned long)__hyp_idmap_text_end))
return true;
}
return false;
ret = kprobe_add_area_blacklist((unsigned long)__entry_text_start,
(unsigned long)__entry_text_end);
if (ret)
return ret;
ret = kprobe_add_area_blacklist((unsigned long)__irqentry_text_start,
(unsigned long)__irqentry_text_end);
if (ret)
return ret;
ret = kprobe_add_area_blacklist((unsigned long)__exception_text_start,
(unsigned long)__exception_text_end);
if (ret)
return ret;
ret = kprobe_add_area_blacklist((unsigned long)__idmap_text_start,
(unsigned long)__idmap_text_end);
if (ret)
return ret;
ret = kprobe_add_area_blacklist((unsigned long)__hyp_text_start,
(unsigned long)__hyp_text_end);
if (ret || is_kernel_in_hyp_mode())
return ret;
ret = kprobe_add_area_blacklist((unsigned long)__hyp_idmap_text_start,
(unsigned long)__hyp_idmap_text_end);
return ret;
}
void __kprobes __used *trampoline_probe_handler(struct pt_regs *regs)

Просмотреть файл

@ -217,7 +217,7 @@ static void __init request_standard_resources(void)
num_standard_resources = memblock.memory.cnt;
res_size = num_standard_resources * sizeof(*standard_resources);
standard_resources = memblock_alloc_low(res_size, SMP_CACHE_BYTES);
standard_resources = memblock_alloc(res_size, SMP_CACHE_BYTES);
if (!standard_resources)
panic("%s: Failed to allocate %zu bytes\n", __func__, res_size);

Просмотреть файл

@ -143,6 +143,7 @@ void save_stack_trace_regs(struct pt_regs *regs, struct stack_trace *trace)
if (trace->nr_entries < trace->max_entries)
trace->entries[trace->nr_entries++] = ULONG_MAX;
}
EXPORT_SYMBOL_GPL(save_stack_trace_regs);
static noinline void __save_stack_trace(struct task_struct *tsk,
struct stack_trace *trace, unsigned int nosched)

Просмотреть файл

@ -123,6 +123,9 @@ int kvm_reset_vcpu(struct kvm_vcpu *vcpu)
int ret = -EINVAL;
bool loaded;
/* Reset PMU outside of the non-preemptible section */
kvm_pmu_vcpu_reset(vcpu);
preempt_disable();
loaded = (vcpu->cpu != -1);
if (loaded)
@ -170,9 +173,6 @@ int kvm_reset_vcpu(struct kvm_vcpu *vcpu)
vcpu->arch.reset_state.reset = false;
}
/* Reset PMU */
kvm_pmu_vcpu_reset(vcpu);
/* Default workaround setup is enabled (if supported) */
if (kvm_arm_have_ssbd() == KVM_SSBD_KERNEL)
vcpu->arch.workaround_flags |= VCPU_WORKAROUND_2_FLAG;

Просмотреть файл

@ -19,6 +19,7 @@ generic-y += irq_work.h
generic-y += kdebug.h
generic-y += kmap_types.h
generic-y += kprobes.h
generic-y += kvm_para.h
generic-y += local.h
generic-y += mcs_spinlock.h
generic-y += mm-arch-hooks.h

Просмотреть файл

@ -1,2 +1 @@
generic-y += kvm_para.h
generic-y += ucontext.h

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@ -23,6 +23,7 @@ generic-y += irq_work.h
generic-y += kdebug.h
generic-y += kmap_types.h
generic-y += kprobes.h
generic-y += kvm_para.h
generic-y += linkage.h
generic-y += local.h
generic-y += local64.h

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@ -1,2 +1 @@
generic-y += kvm_para.h
generic-y += ucontext.h

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@ -19,6 +19,7 @@ generic-y += irq_work.h
generic-y += kdebug.h
generic-y += kmap_types.h
generic-y += kprobes.h
generic-y += kvm_para.h
generic-y += local.h
generic-y += local64.h
generic-y += mcs_spinlock.h

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@ -1,2 +0,0 @@
/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
#include <asm-generic/kvm_para.h>

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@ -2,6 +2,7 @@ generated-y += syscall_table.h
generic-y += compat.h
generic-y += exec.h
generic-y += irq_work.h
generic-y += kvm_para.h
generic-y += mcs_spinlock.h
generic-y += mm-arch-hooks.h
generic-y += preempt.h

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@ -1,2 +1 @@
generated-y += unistd_64.h
generic-y += kvm_para.h

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@ -13,6 +13,7 @@ generic-y += irq_work.h
generic-y += kdebug.h
generic-y += kmap_types.h
generic-y += kprobes.h
generic-y += kvm_para.h
generic-y += local.h
generic-y += local64.h
generic-y += mcs_spinlock.h

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@ -1,2 +1 @@
generated-y += unistd_32.h
generic-y += kvm_para.h

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@ -17,6 +17,7 @@ generic-y += irq_work.h
generic-y += kdebug.h
generic-y += kmap_types.h
generic-y += kprobes.h
generic-y += kvm_para.h
generic-y += linkage.h
generic-y += local.h
generic-y += local64.h

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@ -1,3 +1,2 @@
generated-y += unistd_32.h
generic-y += kvm_para.h
generic-y += ucontext.h

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@ -24,6 +24,7 @@ void __init bcm47xx_workarounds(void)
case BCM47XX_BOARD_NETGEAR_WNR3500L:
bcm47xx_workarounds_enable_usb_power(12);
break;
case BCM47XX_BOARD_NETGEAR_WNDR3400V2:
case BCM47XX_BOARD_NETGEAR_WNDR3400_V3:
bcm47xx_workarounds_enable_usb_power(21);
break;

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@ -21,15 +21,15 @@
#endif
#ifdef CONFIG_CPU_MICROMIPS
#define NOP_INSN "nop32"
#define B_INSN "b32"
#else
#define NOP_INSN "nop"
#define B_INSN "b"
#endif
static __always_inline bool arch_static_branch(struct static_key *key, bool branch)
{
asm_volatile_goto("1:\t" NOP_INSN "\n\t"
"nop\n\t"
asm_volatile_goto("1:\t" B_INSN " 2f\n\t"
"2:\tnop\n\t"
".pushsection __jump_table, \"aw\"\n\t"
WORD_INSN " 1b, %l[l_yes], %0\n\t"
".popsection\n\t"

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@ -21,13 +21,6 @@
typedef long __kernel_daddr_t;
#define __kernel_daddr_t __kernel_daddr_t
#if (_MIPS_SZLONG == 32)
typedef struct {
long val[2];
} __kernel_fsid_t;
#define __kernel_fsid_t __kernel_fsid_t
#endif
#include <asm-generic/posix_types.h>
#endif /* _ASM_POSIX_TYPES_H */

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@ -140,6 +140,13 @@ SECTIONS
PERCPU_SECTION(1 << CONFIG_MIPS_L1_CACHE_SHIFT)
#endif
#ifdef CONFIG_MIPS_ELF_APPENDED_DTB
.appended_dtb : AT(ADDR(.appended_dtb) - LOAD_OFFSET) {
*(.appended_dtb)
KEEP(*(.appended_dtb))
}
#endif
#ifdef CONFIG_RELOCATABLE
. = ALIGN(4);
@ -164,11 +171,6 @@ SECTIONS
__appended_dtb = .;
/* leave space for appended DTB */
. += 0x100000;
#elif defined(CONFIG_MIPS_ELF_APPENDED_DTB)
.appended_dtb : AT(ADDR(.appended_dtb) - LOAD_OFFSET) {
*(.appended_dtb)
KEEP(*(.appended_dtb))
}
#endif
/*
* Align to 64K in attempt to eliminate holes before the

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@ -103,7 +103,7 @@ static struct irqaction ip6_irqaction = {
static struct irqaction cascade_irqaction = {
.handler = no_action,
.name = "cascade",
.flags = IRQF_NO_THREAD,
.flags = IRQF_NO_THREAD | IRQF_NO_SUSPEND,
};
void __init mach_init_irq(void)

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@ -23,6 +23,7 @@ generic-y += irq_work.h
generic-y += kdebug.h
generic-y += kmap_types.h
generic-y += kprobes.h
generic-y += kvm_para.h
generic-y += local.h
generic-y += mcs_spinlock.h
generic-y += mm-arch-hooks.h

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@ -1,2 +1 @@
generic-y += kvm_para.h
generic-y += ucontext.h

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@ -20,6 +20,7 @@ generic-y += irq_work.h
generic-y += kdebug.h
generic-y += kmap_types.h
generic-y += kprobes.h
generic-y += kvm_para.h
generic-y += local.h
generic-y += mcs_spinlock.h
generic-y += mm-arch-hooks.h

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@ -1,2 +1 @@
generic-y += kvm_para.h
generic-y += ucontext.h

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@ -11,6 +11,7 @@ generic-y += irq_regs.h
generic-y += irq_work.h
generic-y += kdebug.h
generic-y += kprobes.h
generic-y += kvm_para.h
generic-y += local.h
generic-y += local64.h
generic-y += mcs_spinlock.h

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