OpenCloudOS-Kernel/include/linux/resctrl.h

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/* SPDX-License-Identifier: GPL-2.0 */
#ifndef _RESCTRL_H
#define _RESCTRL_H
x86/resctrl: Split struct rdt_resource resctrl is the defacto Linux ABI for SoC resource partitioning features. To support it on another architecture, it needs to be abstracted from the features provided by Intel RDT and AMD PQoS, and moved to /fs/. struct rdt_resource contains a mix of architecture private details and properties of the filesystem interface user-space uses. Start by splitting struct rdt_resource, into an architecture private 'hw' struct, which contains the common resctrl structure that would be used by any architecture. The foreach helpers are most commonly used by the filesystem code, and should return the common resctrl structure. for_each_rdt_resource() is changed to walk the common structure in its parent arch private structure. Move as much of the structure as possible into the common structure in the core code's header file. The x86 hardware accessors remain part of the architecture private code, as do num_closid, mon_scale and mbm_width. mon_scale and mbm_width are used to detect overflow of the hardware counters, and convert them from their native size to bytes. Any cross-architecture abstraction should be in terms of bytes, making these properties private. The hardware's num_closid is kept in the private structure to force the filesystem code to use a helper to access it. MPAM would return a single value for the system, regardless of the resource. Using the helper prevents this field from being confused with the version of num_closid that is being exposed to user-space (added in a later patch). After this split, filesystem code touching a 'hw' struct indicates where an abstraction is needed. Splitting this structure only moves types around, and should not lead to any change in behaviour. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-2-james.morse@arm.com
2021-07-29 01:06:14 +08:00
#include <linux/kernel.h>
#include <linux/list.h>
#include <linux/pid.h>
#ifdef CONFIG_PROC_CPU_RESCTRL
int proc_resctrl_show(struct seq_file *m,
struct pid_namespace *ns,
struct pid *pid,
struct task_struct *tsk);
#endif
/* max value for struct rdt_domain's mbps_val */
#define MBA_MAX_MBPS U32_MAX
x86/resctrl: Label the resources with their configuration type The names of resources are used for the schema name presented to user-space. The name used is rooted in a structure provided by the architecture code because the names are different when CDP is enabled. x86 implements this by swapping between two sets of resource structures based on their alloc_enabled flag. The type of configuration in-use is encoded in the name (and cbm_idx_offset). Once the CDP behaviour is moved into the parts of resctrl that will move to /fs/, there will be two struct resctrl_schema for one struct rdt_resource. The schema describes the type of configuration being applied to the resource. The name of the schema should be generated by resctrl, base on the type of configuration. To do this struct resctrl_schema needs to store the type of configuration in use for a schema. Create an enum resctrl_conf_type describing the options, and add it to struct resctrl_schema. The underlying resources are still separate, as cbm_idx_offset is still in use. Temporarily label all the entries in rdt_resources_all[] and copy that value to struct resctrl_schema. Copying the value ensures there is no mismatch while the filesystem parts of resctrl are modified to use the schema. Once the resources are merged, the filesystem code can assign this value based on the schema being created. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-6-james.morse@arm.com
2021-07-29 01:06:18 +08:00
/**
* enum resctrl_conf_type - The type of configuration.
* @CDP_NONE: No prioritisation, both code and data are controlled or monitored.
* @CDP_CODE: Configuration applies to instruction fetches.
* @CDP_DATA: Configuration applies to reads and writes.
*/
enum resctrl_conf_type {
CDP_NONE,
CDP_CODE,
CDP_DATA,
};
#define CDP_NUM_TYPES (CDP_DATA + 1)
/*
* Event IDs, the values match those used to program IA32_QM_EVTSEL before
* reading IA32_QM_CTR on RDT systems.
*/
enum resctrl_event_id {
QOS_L3_OCCUP_EVENT_ID = 0x01,
QOS_L3_MBM_TOTAL_EVENT_ID = 0x02,
QOS_L3_MBM_LOCAL_EVENT_ID = 0x03,
};
/**
* struct resctrl_staged_config - parsed configuration to be applied
* @new_ctrl: new ctrl value to be loaded
* @have_new_ctrl: whether the user provided new_ctrl is valid
*/
struct resctrl_staged_config {
u32 new_ctrl;
bool have_new_ctrl;
};
/**
* struct rdt_domain - group of CPUs sharing a resctrl resource
* @list: all instances of this resource
* @id: unique id for this instance
* @cpu_mask: which CPUs share this resource
* @rmid_busy_llc: bitmap of which limbo RMIDs are above threshold
* @mbm_total: saved state for MBM total bandwidth
* @mbm_local: saved state for MBM local bandwidth
* @mbm_over: worker to periodically read MBM h/w counters
* @cqm_limbo: worker to periodically read CQM h/w counters
* @mbm_work_cpu: worker CPU for MBM h/w counters
* @cqm_work_cpu: worker CPU for CQM h/w counters
* @plr: pseudo-locked region (if any) associated with domain
* @staged_config: parsed configuration to be applied
* @mbps_val: When mba_sc is enabled, this holds the array of user
* specified control values for mba_sc in MBps, indexed
* by closid
*/
struct rdt_domain {
struct list_head list;
int id;
struct cpumask cpu_mask;
unsigned long *rmid_busy_llc;
struct mbm_state *mbm_total;
struct mbm_state *mbm_local;
struct delayed_work mbm_over;
struct delayed_work cqm_limbo;
int mbm_work_cpu;
int cqm_work_cpu;
struct pseudo_lock_region *plr;
struct resctrl_staged_config staged_config[CDP_NUM_TYPES];
u32 *mbps_val;
};
x86/resctrl: Split struct rdt_resource resctrl is the defacto Linux ABI for SoC resource partitioning features. To support it on another architecture, it needs to be abstracted from the features provided by Intel RDT and AMD PQoS, and moved to /fs/. struct rdt_resource contains a mix of architecture private details and properties of the filesystem interface user-space uses. Start by splitting struct rdt_resource, into an architecture private 'hw' struct, which contains the common resctrl structure that would be used by any architecture. The foreach helpers are most commonly used by the filesystem code, and should return the common resctrl structure. for_each_rdt_resource() is changed to walk the common structure in its parent arch private structure. Move as much of the structure as possible into the common structure in the core code's header file. The x86 hardware accessors remain part of the architecture private code, as do num_closid, mon_scale and mbm_width. mon_scale and mbm_width are used to detect overflow of the hardware counters, and convert them from their native size to bytes. Any cross-architecture abstraction should be in terms of bytes, making these properties private. The hardware's num_closid is kept in the private structure to force the filesystem code to use a helper to access it. MPAM would return a single value for the system, regardless of the resource. Using the helper prevents this field from being confused with the version of num_closid that is being exposed to user-space (added in a later patch). After this split, filesystem code touching a 'hw' struct indicates where an abstraction is needed. Splitting this structure only moves types around, and should not lead to any change in behaviour. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-2-james.morse@arm.com
2021-07-29 01:06:14 +08:00
/**
* struct resctrl_cache - Cache allocation related data
* @cbm_len: Length of the cache bit mask
* @min_cbm_bits: Minimum number of consecutive bits to be set
* @shareable_bits: Bitmask of shareable resource with other
* executing entities
* @arch_has_sparse_bitmaps: True if a bitmap like f00f is valid.
* @arch_has_empty_bitmaps: True if the '0' bitmap is valid.
* @arch_has_per_cpu_cfg: True if QOS_CFG register for this cache
* level has CPU scope.
*/
struct resctrl_cache {
unsigned int cbm_len;
unsigned int min_cbm_bits;
unsigned int shareable_bits;
bool arch_has_sparse_bitmaps;
bool arch_has_empty_bitmaps;
bool arch_has_per_cpu_cfg;
};
/**
* enum membw_throttle_mode - System's memory bandwidth throttling mode
* @THREAD_THROTTLE_UNDEFINED: Not relevant to the system
* @THREAD_THROTTLE_MAX: Memory bandwidth is throttled at the core
* always using smallest bandwidth percentage
* assigned to threads, aka "max throttling"
* @THREAD_THROTTLE_PER_THREAD: Memory bandwidth is throttled at the thread
*/
enum membw_throttle_mode {
THREAD_THROTTLE_UNDEFINED = 0,
THREAD_THROTTLE_MAX,
THREAD_THROTTLE_PER_THREAD,
};
/**
* struct resctrl_membw - Memory bandwidth allocation related data
* @min_bw: Minimum memory bandwidth percentage user can request
* @bw_gran: Granularity at which the memory bandwidth is allocated
* @delay_linear: True if memory B/W delay is in linear scale
* @arch_needs_linear: True if we can't configure non-linear resources
* @throttle_mode: Bandwidth throttling mode when threads request
* different memory bandwidths
* @mba_sc: True if MBA software controller(mba_sc) is enabled
* @mb_map: Mapping of memory B/W percentage to memory B/W delay
*/
struct resctrl_membw {
u32 min_bw;
u32 bw_gran;
u32 delay_linear;
bool arch_needs_linear;
enum membw_throttle_mode throttle_mode;
bool mba_sc;
u32 *mb_map;
};
struct rdt_parse_data;
struct resctrl_schema;
x86/resctrl: Split struct rdt_resource resctrl is the defacto Linux ABI for SoC resource partitioning features. To support it on another architecture, it needs to be abstracted from the features provided by Intel RDT and AMD PQoS, and moved to /fs/. struct rdt_resource contains a mix of architecture private details and properties of the filesystem interface user-space uses. Start by splitting struct rdt_resource, into an architecture private 'hw' struct, which contains the common resctrl structure that would be used by any architecture. The foreach helpers are most commonly used by the filesystem code, and should return the common resctrl structure. for_each_rdt_resource() is changed to walk the common structure in its parent arch private structure. Move as much of the structure as possible into the common structure in the core code's header file. The x86 hardware accessors remain part of the architecture private code, as do num_closid, mon_scale and mbm_width. mon_scale and mbm_width are used to detect overflow of the hardware counters, and convert them from their native size to bytes. Any cross-architecture abstraction should be in terms of bytes, making these properties private. The hardware's num_closid is kept in the private structure to force the filesystem code to use a helper to access it. MPAM would return a single value for the system, regardless of the resource. Using the helper prevents this field from being confused with the version of num_closid that is being exposed to user-space (added in a later patch). After this split, filesystem code touching a 'hw' struct indicates where an abstraction is needed. Splitting this structure only moves types around, and should not lead to any change in behaviour. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-2-james.morse@arm.com
2021-07-29 01:06:14 +08:00
/**
* struct rdt_resource - attributes of a resctrl resource
* @rid: The index of the resource
* @alloc_capable: Is allocation available on this machine
* @mon_capable: Is monitor feature available on this machine
* @num_rmid: Number of RMIDs available
* @cache_level: Which cache level defines scope of this resource
* @cache: Cache allocation related data
* @membw: If the component has bandwidth controls, their properties.
* @domains: All domains for this resource
* @name: Name to use in "schemata" file.
* @data_width: Character width of data when displaying
* @default_ctrl: Specifies default cache cbm or memory B/W percent.
* @format_str: Per resource format string to show domain value
* @parse_ctrlval: Per resource function pointer to parse control values
* @evt_list: List of monitoring events
* @fflags: flags to choose base and info files
* @cdp_capable: Is the CDP feature available on this resource
x86/resctrl: Split struct rdt_resource resctrl is the defacto Linux ABI for SoC resource partitioning features. To support it on another architecture, it needs to be abstracted from the features provided by Intel RDT and AMD PQoS, and moved to /fs/. struct rdt_resource contains a mix of architecture private details and properties of the filesystem interface user-space uses. Start by splitting struct rdt_resource, into an architecture private 'hw' struct, which contains the common resctrl structure that would be used by any architecture. The foreach helpers are most commonly used by the filesystem code, and should return the common resctrl structure. for_each_rdt_resource() is changed to walk the common structure in its parent arch private structure. Move as much of the structure as possible into the common structure in the core code's header file. The x86 hardware accessors remain part of the architecture private code, as do num_closid, mon_scale and mbm_width. mon_scale and mbm_width are used to detect overflow of the hardware counters, and convert them from their native size to bytes. Any cross-architecture abstraction should be in terms of bytes, making these properties private. The hardware's num_closid is kept in the private structure to force the filesystem code to use a helper to access it. MPAM would return a single value for the system, regardless of the resource. Using the helper prevents this field from being confused with the version of num_closid that is being exposed to user-space (added in a later patch). After this split, filesystem code touching a 'hw' struct indicates where an abstraction is needed. Splitting this structure only moves types around, and should not lead to any change in behaviour. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-2-james.morse@arm.com
2021-07-29 01:06:14 +08:00
*/
struct rdt_resource {
int rid;
bool alloc_capable;
bool mon_capable;
int num_rmid;
int cache_level;
struct resctrl_cache cache;
struct resctrl_membw membw;
struct list_head domains;
char *name;
int data_width;
u32 default_ctrl;
const char *format_str;
int (*parse_ctrlval)(struct rdt_parse_data *data,
struct resctrl_schema *s,
x86/resctrl: Split struct rdt_resource resctrl is the defacto Linux ABI for SoC resource partitioning features. To support it on another architecture, it needs to be abstracted from the features provided by Intel RDT and AMD PQoS, and moved to /fs/. struct rdt_resource contains a mix of architecture private details and properties of the filesystem interface user-space uses. Start by splitting struct rdt_resource, into an architecture private 'hw' struct, which contains the common resctrl structure that would be used by any architecture. The foreach helpers are most commonly used by the filesystem code, and should return the common resctrl structure. for_each_rdt_resource() is changed to walk the common structure in its parent arch private structure. Move as much of the structure as possible into the common structure in the core code's header file. The x86 hardware accessors remain part of the architecture private code, as do num_closid, mon_scale and mbm_width. mon_scale and mbm_width are used to detect overflow of the hardware counters, and convert them from their native size to bytes. Any cross-architecture abstraction should be in terms of bytes, making these properties private. The hardware's num_closid is kept in the private structure to force the filesystem code to use a helper to access it. MPAM would return a single value for the system, regardless of the resource. Using the helper prevents this field from being confused with the version of num_closid that is being exposed to user-space (added in a later patch). After this split, filesystem code touching a 'hw' struct indicates where an abstraction is needed. Splitting this structure only moves types around, and should not lead to any change in behaviour. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-2-james.morse@arm.com
2021-07-29 01:06:14 +08:00
struct rdt_domain *d);
struct list_head evt_list;
unsigned long fflags;
bool cdp_capable;
x86/resctrl: Split struct rdt_resource resctrl is the defacto Linux ABI for SoC resource partitioning features. To support it on another architecture, it needs to be abstracted from the features provided by Intel RDT and AMD PQoS, and moved to /fs/. struct rdt_resource contains a mix of architecture private details and properties of the filesystem interface user-space uses. Start by splitting struct rdt_resource, into an architecture private 'hw' struct, which contains the common resctrl structure that would be used by any architecture. The foreach helpers are most commonly used by the filesystem code, and should return the common resctrl structure. for_each_rdt_resource() is changed to walk the common structure in its parent arch private structure. Move as much of the structure as possible into the common structure in the core code's header file. The x86 hardware accessors remain part of the architecture private code, as do num_closid, mon_scale and mbm_width. mon_scale and mbm_width are used to detect overflow of the hardware counters, and convert them from their native size to bytes. Any cross-architecture abstraction should be in terms of bytes, making these properties private. The hardware's num_closid is kept in the private structure to force the filesystem code to use a helper to access it. MPAM would return a single value for the system, regardless of the resource. Using the helper prevents this field from being confused with the version of num_closid that is being exposed to user-space (added in a later patch). After this split, filesystem code touching a 'hw' struct indicates where an abstraction is needed. Splitting this structure only moves types around, and should not lead to any change in behaviour. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-2-james.morse@arm.com
2021-07-29 01:06:14 +08:00
};
/**
* struct resctrl_schema - configuration abilities of a resource presented to
* user-space
* @list: Member of resctrl_schema_all.
* @name: The name to use in the "schemata" file.
x86/resctrl: Label the resources with their configuration type The names of resources are used for the schema name presented to user-space. The name used is rooted in a structure provided by the architecture code because the names are different when CDP is enabled. x86 implements this by swapping between two sets of resource structures based on their alloc_enabled flag. The type of configuration in-use is encoded in the name (and cbm_idx_offset). Once the CDP behaviour is moved into the parts of resctrl that will move to /fs/, there will be two struct resctrl_schema for one struct rdt_resource. The schema describes the type of configuration being applied to the resource. The name of the schema should be generated by resctrl, base on the type of configuration. To do this struct resctrl_schema needs to store the type of configuration in use for a schema. Create an enum resctrl_conf_type describing the options, and add it to struct resctrl_schema. The underlying resources are still separate, as cbm_idx_offset is still in use. Temporarily label all the entries in rdt_resources_all[] and copy that value to struct resctrl_schema. Copying the value ensures there is no mismatch while the filesystem parts of resctrl are modified to use the schema. Once the resources are merged, the filesystem code can assign this value based on the schema being created. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-6-james.morse@arm.com
2021-07-29 01:06:18 +08:00
* @conf_type: Whether this schema is specific to code/data.
* @res: The resource structure exported by the architecture to describe
* the hardware that is configured by this schema.
* @num_closid: The number of closid that can be used with this schema. When
* features like CDP are enabled, this will be lower than the
* hardware supports for the resource.
*/
struct resctrl_schema {
struct list_head list;
char name[8];
x86/resctrl: Label the resources with their configuration type The names of resources are used for the schema name presented to user-space. The name used is rooted in a structure provided by the architecture code because the names are different when CDP is enabled. x86 implements this by swapping between two sets of resource structures based on their alloc_enabled flag. The type of configuration in-use is encoded in the name (and cbm_idx_offset). Once the CDP behaviour is moved into the parts of resctrl that will move to /fs/, there will be two struct resctrl_schema for one struct rdt_resource. The schema describes the type of configuration being applied to the resource. The name of the schema should be generated by resctrl, base on the type of configuration. To do this struct resctrl_schema needs to store the type of configuration in use for a schema. Create an enum resctrl_conf_type describing the options, and add it to struct resctrl_schema. The underlying resources are still separate, as cbm_idx_offset is still in use. Temporarily label all the entries in rdt_resources_all[] and copy that value to struct resctrl_schema. Copying the value ensures there is no mismatch while the filesystem parts of resctrl are modified to use the schema. Once the resources are merged, the filesystem code can assign this value based on the schema being created. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-6-james.morse@arm.com
2021-07-29 01:06:18 +08:00
enum resctrl_conf_type conf_type;
struct rdt_resource *res;
x86/resctrl: Add resctrl_arch_get_num_closid() To initialise struct resctrl_schema's num_closid, schemata_list_create() reaches into the architectures private structure to retrieve num_closid from the struct rdt_hw_resource. The 'half the closids' behaviour should be part of the filesystem parts of resctrl that are the same on any architecture. struct resctrl_schema's num_closid should include any correction for CDP. Having two properties called num_closid is likely to be confusing when they have different values. Add a helper to read the resource's num_closid from the arch code. This should return the number of closid that the resource supports, regardless of whether CDP is in use. Once the CDP resources are merged, schemata_list_create() can apply the correction itself. Using a type with an obvious size for the arch helper means changing the type of num_closid to u32, which matches the type already used by struct rdtgroup. reset_all_ctrls() does not use resctrl_arch_get_num_closid(), even though it sets up a structure for modifying the hardware. This function will be part of the architecture code, the maximum closid should be the maximum value the hardware has, regardless of the way resctrl is using it. All the uses of num_closid in core.c are naturally part of the architecture specific code. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-9-james.morse@arm.com
2021-07-29 01:06:21 +08:00
u32 num_closid;
};
x86/resctrl: Add resctrl_arch_get_num_closid() To initialise struct resctrl_schema's num_closid, schemata_list_create() reaches into the architectures private structure to retrieve num_closid from the struct rdt_hw_resource. The 'half the closids' behaviour should be part of the filesystem parts of resctrl that are the same on any architecture. struct resctrl_schema's num_closid should include any correction for CDP. Having two properties called num_closid is likely to be confusing when they have different values. Add a helper to read the resource's num_closid from the arch code. This should return the number of closid that the resource supports, regardless of whether CDP is in use. Once the CDP resources are merged, schemata_list_create() can apply the correction itself. Using a type with an obvious size for the arch helper means changing the type of num_closid to u32, which matches the type already used by struct rdtgroup. reset_all_ctrls() does not use resctrl_arch_get_num_closid(), even though it sets up a structure for modifying the hardware. This function will be part of the architecture code, the maximum closid should be the maximum value the hardware has, regardless of the way resctrl is using it. All the uses of num_closid in core.c are naturally part of the architecture specific code. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-9-james.morse@arm.com
2021-07-29 01:06:21 +08:00
/* The number of closid supported by this resource regardless of CDP */
u32 resctrl_arch_get_num_closid(struct rdt_resource *r);
int resctrl_arch_update_domains(struct rdt_resource *r, u32 closid);
/*
* Update the ctrl_val and apply this config right now.
* Must be called on one of the domain's CPUs.
*/
int resctrl_arch_update_one(struct rdt_resource *r, struct rdt_domain *d,
u32 closid, enum resctrl_conf_type t, u32 cfg_val);
u32 resctrl_arch_get_config(struct rdt_resource *r, struct rdt_domain *d,
u32 closid, enum resctrl_conf_type type);
int resctrl_online_domain(struct rdt_resource *r, struct rdt_domain *d);
void resctrl_offline_domain(struct rdt_resource *r, struct rdt_domain *d);
/**
* resctrl_arch_rmid_read() - Read the eventid counter corresponding to rmid
* for this resource and domain.
* @r: resource that the counter should be read from.
* @d: domain that the counter should be read from.
* @rmid: rmid of the counter to read.
* @eventid: eventid to read, e.g. L3 occupancy.
* @val: result of the counter read in bytes.
*
* Call from process context on a CPU that belongs to domain @d.
*
* Return:
* 0 on success, or -EIO, -EINVAL etc on error.
*/
int resctrl_arch_rmid_read(struct rdt_resource *r, struct rdt_domain *d,
u32 rmid, enum resctrl_event_id eventid, u64 *val);
x86/resctrl: Add resctrl_arch_get_num_closid() To initialise struct resctrl_schema's num_closid, schemata_list_create() reaches into the architectures private structure to retrieve num_closid from the struct rdt_hw_resource. The 'half the closids' behaviour should be part of the filesystem parts of resctrl that are the same on any architecture. struct resctrl_schema's num_closid should include any correction for CDP. Having two properties called num_closid is likely to be confusing when they have different values. Add a helper to read the resource's num_closid from the arch code. This should return the number of closid that the resource supports, regardless of whether CDP is in use. Once the CDP resources are merged, schemata_list_create() can apply the correction itself. Using a type with an obvious size for the arch helper means changing the type of num_closid to u32, which matches the type already used by struct rdtgroup. reset_all_ctrls() does not use resctrl_arch_get_num_closid(), even though it sets up a structure for modifying the hardware. This function will be part of the architecture code, the maximum closid should be the maximum value the hardware has, regardless of the way resctrl is using it. All the uses of num_closid in core.c are naturally part of the architecture specific code. Signed-off-by: James Morse <james.morse@arm.com> Signed-off-by: Borislav Petkov <bp@suse.de> Reviewed-by: Jamie Iles <jamie@nuviainc.com> Reviewed-by: Reinette Chatre <reinette.chatre@intel.com> Tested-by: Babu Moger <babu.moger@amd.com> Link: https://lkml.kernel.org/r/20210728170637.25610-9-james.morse@arm.com
2021-07-29 01:06:21 +08:00
/**
* resctrl_arch_reset_rmid() - Reset any private state associated with rmid
* and eventid.
* @r: The domain's resource.
* @d: The rmid's domain.
* @rmid: The rmid whose counter values should be reset.
* @eventid: The eventid whose counter values should be reset.
*
* This can be called from any CPU.
*/
void resctrl_arch_reset_rmid(struct rdt_resource *r, struct rdt_domain *d,
u32 rmid, enum resctrl_event_id eventid);
2022-09-02 23:48:27 +08:00
extern unsigned int resctrl_rmid_realloc_threshold;
extern unsigned int resctrl_rmid_realloc_limit;
2022-09-02 23:48:27 +08:00
#endif /* _RESCTRL_H */