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/* SPDX-License-Identifier: GPL-2.0 */
#ifndef _RESCTRL_H
#define _RESCTRL_H
#include <linux/cacheinfo.h>
#include <linux/kernel.h>
#include <linux/list.h>
#include <linux/pid.h>
/* CLOSID, RMID value used by the default control group */
#define RESCTRL_RESERVED_CLOSID 0
#define RESCTRL_RESERVED_RMID 0
#define RESCTRL_PICK_ANY_CPU -1
#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
/**
* 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;
};
enum resctrl_domain_type {
RESCTRL_CTRL_DOMAIN,
RESCTRL_MON_DOMAIN,
};
/**
* struct rdt_domain_hdr - common header for different domain types
* @list: all instances of this resource
* @id: unique id for this instance
* @type: type of this instance
* @cpu_mask: which CPUs share this resource
*/
struct rdt_domain_hdr {
struct list_head list;
int id;
enum resctrl_domain_type type;
struct cpumask cpu_mask;
};
/**
* struct rdt_ctrl_domain - group of CPUs sharing a resctrl control resource
* @hdr: common header for different domain types
* @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_ctrl_domain {
struct rdt_domain_hdr hdr;
struct pseudo_lock_region *plr;
struct resctrl_staged_config staged_config[CDP_NUM_TYPES];
u32 *mbps_val;
};
/**
* struct rdt_mon_domain - group of CPUs sharing a resctrl monitor resource
* @hdr: common header for different domain types
* @ci: cache info for this domain
* @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
*/
struct rdt_mon_domain {
struct rdt_domain_hdr hdr;
struct cacheinfo *ci;
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 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.
* The value 0 means the architecture can support
* zero CBM.
* @shareable_bits: Bitmask of shareable resource with other
* executing entities
* @arch_has_sparse_bitmasks: True if a bitmask like f00f 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_bitmasks;
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;
enum resctrl_scope {
RESCTRL_L2_CACHE = 2,
RESCTRL_L3_CACHE = 3,
RESCTRL_L3_NODE,
};
/**
* 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
* @ctrl_scope: Scope of this resource for control functions
* @mon_scope: Scope of this resource for monitor functions
* @cache: Cache allocation related data
* @membw: If the component has bandwidth controls, their properties.
* @ctrl_domains: RCU list of all control domains for this resource
* @mon_domains: RCU list of all monitor 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
*/
struct rdt_resource {
int rid;
bool alloc_capable;
bool mon_capable;
int num_rmid;
enum resctrl_scope ctrl_scope;
enum resctrl_scope mon_scope;
struct resctrl_cache cache;
struct resctrl_membw membw;
struct list_head ctrl_domains;
struct list_head mon_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,
struct rdt_ctrl_domain *d);
struct list_head evt_list;
unsigned long fflags;
bool cdp_capable;
};
/**
* 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.
* @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];
enum resctrl_conf_type conf_type;
struct rdt_resource *res;
u32 num_closid;
};
/* The number of closid supported by this resource regardless of CDP */
u32 resctrl_arch_get_num_closid(struct rdt_resource *r);
u32 resctrl_arch_system_num_rmid_idx(void);
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_ctrl_domain *d,
u32 closid, enum resctrl_conf_type t, u32 cfg_val);
u32 resctrl_arch_get_config(struct rdt_resource *r, struct rdt_ctrl_domain *d,
u32 closid, enum resctrl_conf_type type);
int resctrl_online_ctrl_domain(struct rdt_resource *r, struct rdt_ctrl_domain *d);
int resctrl_online_mon_domain(struct rdt_resource *r, struct rdt_mon_domain *d);
void resctrl_offline_ctrl_domain(struct rdt_resource *r, struct rdt_ctrl_domain *d);
void resctrl_offline_mon_domain(struct rdt_resource *r, struct rdt_mon_domain *d);
void resctrl_online_cpu(unsigned int cpu);
void resctrl_offline_cpu(unsigned int cpu);
/**
* 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.
* @closid: closid that matches the rmid. Depending on the architecture, the
* counter may match traffic of both @closid and @rmid, or @rmid
* only.
* @rmid: rmid of the counter to read.
* @eventid: eventid to read, e.g. L3 occupancy.
* @val: result of the counter read in bytes.
* @arch_mon_ctx: An architecture specific value from
* resctrl_arch_mon_ctx_alloc(), for MPAM this identifies
* the hardware monitor allocated for this read request.
*
* Some architectures need to sleep when first programming some of the counters.
* (specifically: arm64's MPAM cache occupancy counters can return 'not ready'
* for a short period of time). Call from a non-migrateable process context on
* a CPU that belongs to domain @d. e.g. use smp_call_on_cpu() or
* schedule_work_on(). This function can be called with interrupts masked,
* e.g. using smp_call_function_any(), but may consistently return an error.
*
* Return:
* 0 on success, or -EIO, -EINVAL etc on error.
*/
int resctrl_arch_rmid_read(struct rdt_resource *r, struct rdt_mon_domain *d,
u32 closid, u32 rmid, enum resctrl_event_id eventid,
u64 *val, void *arch_mon_ctx);
/**
* resctrl_arch_rmid_read_context_check() - warn about invalid contexts
*
* When built with CONFIG_DEBUG_ATOMIC_SLEEP generate a warning when
* resctrl_arch_rmid_read() is called with preemption disabled.
*
* The contract with resctrl_arch_rmid_read() is that if interrupts
* are unmasked, it can sleep. This allows NOHZ_FULL systems to use an
* IPI, (and fail if the call needed to sleep), while most of the time
* the work is scheduled, allowing the call to sleep.
*/
static inline void resctrl_arch_rmid_read_context_check(void)
{
if (!irqs_disabled())
might_sleep();
}
/**
* resctrl_arch_reset_rmid() - Reset any private state associated with rmid
* and eventid.
* @r: The domain's resource.
* @d: The rmid's domain.
* @closid: closid that matches the rmid. Depending on the architecture, the
* counter may match traffic of both @closid and @rmid, or @rmid only.
* @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_mon_domain *d,
u32 closid, u32 rmid,
enum resctrl_event_id eventid);
/**
* resctrl_arch_reset_rmid_all() - Reset all private state associated with
* all rmids and eventids.
* @r: The resctrl resource.
* @d: The domain for which all architectural counter state will
* be cleared.
*
* This can be called from any CPU.
*/
void resctrl_arch_reset_rmid_all(struct rdt_resource *r, struct rdt_mon_domain *d);
extern unsigned int resctrl_rmid_realloc_threshold;
extern unsigned int resctrl_rmid_realloc_limit;
#endif /* _RESCTRL_H */
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