freebsd-nq/sys/xen/interface/sysctl.h
Justin T. Gibbs a8f6ac0573 Upgrade Xen interface headers to Xen 4.2.1.
Move FreeBSD from interface version 0x00030204 to 0x00030208.
Updates are required to our grant table implementation before we
can bump this further.

sys/xen/hvm.h:
	Replace the implementation of hvm_get_parameter(), formerly located
	in sys/xen/interface/hvm/params.h.  Linux has a similar file which
	primarily stores this function.

sys/xen/xenstore/xenstore.c:
	Include new xen/hvm.h header file to get hvm_get_parameter().

sys/amd64/include/xen/xen-os.h:
sys/i386/include/xen/xen-os.h:
	Correctly protect function definition and variables from being
	included into assembly files in xen-os.h

	Xen memory barriers are now prefixed with "xen_" to avoid conflicts
	with OS native primatives.  Define Xen memory barriers in terms of
	the native FreeBSD primatives.

Sponsored by:	Spectra Logic Corporation
Reviewed by:	Roger Pau Monné
Tested by:	Roger Pau Monné
Obtained from:	Roger Pau Monné (bug fixes)
2013-06-14 23:43:44 +00:00

656 lines
24 KiB
C

/******************************************************************************
* sysctl.h
*
* System management operations. For use by node control stack.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*
* Copyright (c) 2002-2006, K Fraser
*/
#ifndef __XEN_PUBLIC_SYSCTL_H__
#define __XEN_PUBLIC_SYSCTL_H__
#if !defined(__XEN__) && !defined(__XEN_TOOLS__)
#error "sysctl operations are intended for use by node control tools only"
#endif
#include "xen.h"
#include "domctl.h"
#define XEN_SYSCTL_INTERFACE_VERSION 0x00000009
/*
* Read console content from Xen buffer ring.
*/
/* XEN_SYSCTL_readconsole */
struct xen_sysctl_readconsole {
/* IN: Non-zero -> clear after reading. */
uint8_t clear;
/* IN: Non-zero -> start index specified by @index field. */
uint8_t incremental;
uint8_t pad0, pad1;
/*
* IN: Start index for consuming from ring buffer (if @incremental);
* OUT: End index after consuming from ring buffer.
*/
uint32_t index;
/* IN: Virtual address to write console data. */
XEN_GUEST_HANDLE_64(char) buffer;
/* IN: Size of buffer; OUT: Bytes written to buffer. */
uint32_t count;
};
typedef struct xen_sysctl_readconsole xen_sysctl_readconsole_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_readconsole_t);
/* Get trace buffers machine base address */
/* XEN_SYSCTL_tbuf_op */
struct xen_sysctl_tbuf_op {
/* IN variables */
#define XEN_SYSCTL_TBUFOP_get_info 0
#define XEN_SYSCTL_TBUFOP_set_cpu_mask 1
#define XEN_SYSCTL_TBUFOP_set_evt_mask 2
#define XEN_SYSCTL_TBUFOP_set_size 3
#define XEN_SYSCTL_TBUFOP_enable 4
#define XEN_SYSCTL_TBUFOP_disable 5
uint32_t cmd;
/* IN/OUT variables */
struct xenctl_cpumap cpu_mask;
uint32_t evt_mask;
/* OUT variables */
uint64_aligned_t buffer_mfn;
uint32_t size; /* Also an IN variable! */
};
typedef struct xen_sysctl_tbuf_op xen_sysctl_tbuf_op_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_tbuf_op_t);
/*
* Get physical information about the host machine
*/
/* XEN_SYSCTL_physinfo */
/* (x86) The platform supports HVM guests. */
#define _XEN_SYSCTL_PHYSCAP_hvm 0
#define XEN_SYSCTL_PHYSCAP_hvm (1u<<_XEN_SYSCTL_PHYSCAP_hvm)
/* (x86) The platform supports HVM-guest direct access to I/O devices. */
#define _XEN_SYSCTL_PHYSCAP_hvm_directio 1
#define XEN_SYSCTL_PHYSCAP_hvm_directio (1u<<_XEN_SYSCTL_PHYSCAP_hvm_directio)
struct xen_sysctl_physinfo {
uint32_t threads_per_core;
uint32_t cores_per_socket;
uint32_t nr_cpus; /* # CPUs currently online */
uint32_t max_cpu_id; /* Largest possible CPU ID on this host */
uint32_t nr_nodes; /* # nodes currently online */
uint32_t max_node_id; /* Largest possible node ID on this host */
uint32_t cpu_khz;
uint64_aligned_t total_pages;
uint64_aligned_t free_pages;
uint64_aligned_t scrub_pages;
uint32_t hw_cap[8];
/* XEN_SYSCTL_PHYSCAP_??? */
uint32_t capabilities;
};
typedef struct xen_sysctl_physinfo xen_sysctl_physinfo_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_physinfo_t);
/*
* Get the ID of the current scheduler.
*/
/* XEN_SYSCTL_sched_id */
struct xen_sysctl_sched_id {
/* OUT variable */
uint32_t sched_id;
};
typedef struct xen_sysctl_sched_id xen_sysctl_sched_id_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_sched_id_t);
/* Interface for controlling Xen software performance counters. */
/* XEN_SYSCTL_perfc_op */
/* Sub-operations: */
#define XEN_SYSCTL_PERFCOP_reset 1 /* Reset all counters to zero. */
#define XEN_SYSCTL_PERFCOP_query 2 /* Get perfctr information. */
struct xen_sysctl_perfc_desc {
char name[80]; /* name of perf counter */
uint32_t nr_vals; /* number of values for this counter */
};
typedef struct xen_sysctl_perfc_desc xen_sysctl_perfc_desc_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_perfc_desc_t);
typedef uint32_t xen_sysctl_perfc_val_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_perfc_val_t);
struct xen_sysctl_perfc_op {
/* IN variables. */
uint32_t cmd; /* XEN_SYSCTL_PERFCOP_??? */
/* OUT variables. */
uint32_t nr_counters; /* number of counters description */
uint32_t nr_vals; /* number of values */
/* counter information (or NULL) */
XEN_GUEST_HANDLE_64(xen_sysctl_perfc_desc_t) desc;
/* counter values (or NULL) */
XEN_GUEST_HANDLE_64(xen_sysctl_perfc_val_t) val;
};
typedef struct xen_sysctl_perfc_op xen_sysctl_perfc_op_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_perfc_op_t);
/* XEN_SYSCTL_getdomaininfolist */
struct xen_sysctl_getdomaininfolist {
/* IN variables. */
domid_t first_domain;
uint32_t max_domains;
XEN_GUEST_HANDLE_64(xen_domctl_getdomaininfo_t) buffer;
/* OUT variables. */
uint32_t num_domains;
};
typedef struct xen_sysctl_getdomaininfolist xen_sysctl_getdomaininfolist_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_getdomaininfolist_t);
/* Inject debug keys into Xen. */
/* XEN_SYSCTL_debug_keys */
struct xen_sysctl_debug_keys {
/* IN variables. */
XEN_GUEST_HANDLE_64(char) keys;
uint32_t nr_keys;
};
typedef struct xen_sysctl_debug_keys xen_sysctl_debug_keys_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_debug_keys_t);
/* Get physical CPU information. */
/* XEN_SYSCTL_getcpuinfo */
struct xen_sysctl_cpuinfo {
uint64_aligned_t idletime;
};
typedef struct xen_sysctl_cpuinfo xen_sysctl_cpuinfo_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_cpuinfo_t);
struct xen_sysctl_getcpuinfo {
/* IN variables. */
uint32_t max_cpus;
XEN_GUEST_HANDLE_64(xen_sysctl_cpuinfo_t) info;
/* OUT variables. */
uint32_t nr_cpus;
};
typedef struct xen_sysctl_getcpuinfo xen_sysctl_getcpuinfo_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_getcpuinfo_t);
/* XEN_SYSCTL_availheap */
struct xen_sysctl_availheap {
/* IN variables. */
uint32_t min_bitwidth; /* Smallest address width (zero if don't care). */
uint32_t max_bitwidth; /* Largest address width (zero if don't care). */
int32_t node; /* NUMA node of interest (-1 for all nodes). */
/* OUT variables. */
uint64_aligned_t avail_bytes;/* Bytes available in the specified region. */
};
typedef struct xen_sysctl_availheap xen_sysctl_availheap_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_availheap_t);
/* XEN_SYSCTL_get_pmstat */
struct pm_px_val {
uint64_aligned_t freq; /* Px core frequency */
uint64_aligned_t residency; /* Px residency time */
uint64_aligned_t count; /* Px transition count */
};
typedef struct pm_px_val pm_px_val_t;
DEFINE_XEN_GUEST_HANDLE(pm_px_val_t);
struct pm_px_stat {
uint8_t total; /* total Px states */
uint8_t usable; /* usable Px states */
uint8_t last; /* last Px state */
uint8_t cur; /* current Px state */
XEN_GUEST_HANDLE_64(uint64) trans_pt; /* Px transition table */
XEN_GUEST_HANDLE_64(pm_px_val_t) pt;
};
typedef struct pm_px_stat pm_px_stat_t;
DEFINE_XEN_GUEST_HANDLE(pm_px_stat_t);
struct pm_cx_stat {
uint32_t nr; /* entry nr in triggers & residencies, including C0 */
uint32_t last; /* last Cx state */
uint64_aligned_t idle_time; /* idle time from boot */
XEN_GUEST_HANDLE_64(uint64) triggers; /* Cx trigger counts */
XEN_GUEST_HANDLE_64(uint64) residencies; /* Cx residencies */
uint64_aligned_t pc2;
uint64_aligned_t pc3;
uint64_aligned_t pc6;
uint64_aligned_t pc7;
uint64_aligned_t cc3;
uint64_aligned_t cc6;
uint64_aligned_t cc7;
};
struct xen_sysctl_get_pmstat {
#define PMSTAT_CATEGORY_MASK 0xf0
#define PMSTAT_PX 0x10
#define PMSTAT_CX 0x20
#define PMSTAT_get_max_px (PMSTAT_PX | 0x1)
#define PMSTAT_get_pxstat (PMSTAT_PX | 0x2)
#define PMSTAT_reset_pxstat (PMSTAT_PX | 0x3)
#define PMSTAT_get_max_cx (PMSTAT_CX | 0x1)
#define PMSTAT_get_cxstat (PMSTAT_CX | 0x2)
#define PMSTAT_reset_cxstat (PMSTAT_CX | 0x3)
uint32_t type;
uint32_t cpuid;
union {
struct pm_px_stat getpx;
struct pm_cx_stat getcx;
/* other struct for tx, etc */
} u;
};
typedef struct xen_sysctl_get_pmstat xen_sysctl_get_pmstat_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_get_pmstat_t);
/* XEN_SYSCTL_cpu_hotplug */
struct xen_sysctl_cpu_hotplug {
/* IN variables */
uint32_t cpu; /* Physical cpu. */
#define XEN_SYSCTL_CPU_HOTPLUG_ONLINE 0
#define XEN_SYSCTL_CPU_HOTPLUG_OFFLINE 1
uint32_t op; /* hotplug opcode */
};
typedef struct xen_sysctl_cpu_hotplug xen_sysctl_cpu_hotplug_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_cpu_hotplug_t);
/*
* Get/set xen power management, include
* 1. cpufreq governors and related parameters
*/
/* XEN_SYSCTL_pm_op */
struct xen_userspace {
uint32_t scaling_setspeed;
};
typedef struct xen_userspace xen_userspace_t;
struct xen_ondemand {
uint32_t sampling_rate_max;
uint32_t sampling_rate_min;
uint32_t sampling_rate;
uint32_t up_threshold;
};
typedef struct xen_ondemand xen_ondemand_t;
/*
* cpufreq para name of this structure named
* same as sysfs file name of native linux
*/
#define CPUFREQ_NAME_LEN 16
struct xen_get_cpufreq_para {
/* IN/OUT variable */
uint32_t cpu_num;
uint32_t freq_num;
uint32_t gov_num;
/* for all governors */
/* OUT variable */
XEN_GUEST_HANDLE_64(uint32) affected_cpus;
XEN_GUEST_HANDLE_64(uint32) scaling_available_frequencies;
XEN_GUEST_HANDLE_64(char) scaling_available_governors;
char scaling_driver[CPUFREQ_NAME_LEN];
uint32_t cpuinfo_cur_freq;
uint32_t cpuinfo_max_freq;
uint32_t cpuinfo_min_freq;
uint32_t scaling_cur_freq;
char scaling_governor[CPUFREQ_NAME_LEN];
uint32_t scaling_max_freq;
uint32_t scaling_min_freq;
/* for specific governor */
union {
struct xen_userspace userspace;
struct xen_ondemand ondemand;
} u;
int32_t turbo_enabled;
};
struct xen_set_cpufreq_gov {
char scaling_governor[CPUFREQ_NAME_LEN];
};
struct xen_set_cpufreq_para {
#define SCALING_MAX_FREQ 1
#define SCALING_MIN_FREQ 2
#define SCALING_SETSPEED 3
#define SAMPLING_RATE 4
#define UP_THRESHOLD 5
uint32_t ctrl_type;
uint32_t ctrl_value;
};
struct xen_sysctl_pm_op {
#define PM_PARA_CATEGORY_MASK 0xf0
#define CPUFREQ_PARA 0x10
/* cpufreq command type */
#define GET_CPUFREQ_PARA (CPUFREQ_PARA | 0x01)
#define SET_CPUFREQ_GOV (CPUFREQ_PARA | 0x02)
#define SET_CPUFREQ_PARA (CPUFREQ_PARA | 0x03)
#define GET_CPUFREQ_AVGFREQ (CPUFREQ_PARA | 0x04)
/* set/reset scheduler power saving option */
#define XEN_SYSCTL_pm_op_set_sched_opt_smt 0x21
/* cpuidle max_cstate access command */
#define XEN_SYSCTL_pm_op_get_max_cstate 0x22
#define XEN_SYSCTL_pm_op_set_max_cstate 0x23
/* set scheduler migration cost value */
#define XEN_SYSCTL_pm_op_set_vcpu_migration_delay 0x24
#define XEN_SYSCTL_pm_op_get_vcpu_migration_delay 0x25
/* enable/disable turbo mode when in dbs governor */
#define XEN_SYSCTL_pm_op_enable_turbo 0x26
#define XEN_SYSCTL_pm_op_disable_turbo 0x27
uint32_t cmd;
uint32_t cpuid;
union {
struct xen_get_cpufreq_para get_para;
struct xen_set_cpufreq_gov set_gov;
struct xen_set_cpufreq_para set_para;
uint64_aligned_t get_avgfreq;
uint32_t set_sched_opt_smt;
uint32_t get_max_cstate;
uint32_t set_max_cstate;
uint32_t get_vcpu_migration_delay;
uint32_t set_vcpu_migration_delay;
} u;
};
/* XEN_SYSCTL_page_offline_op */
struct xen_sysctl_page_offline_op {
/* IN: range of page to be offlined */
#define sysctl_page_offline 1
#define sysctl_page_online 2
#define sysctl_query_page_offline 3
uint32_t cmd;
uint32_t start;
uint32_t end;
/* OUT: result of page offline request */
/*
* bit 0~15: result flags
* bit 16~31: owner
*/
XEN_GUEST_HANDLE(uint32) status;
};
#define PG_OFFLINE_STATUS_MASK (0xFFUL)
/* The result is invalid, i.e. HV does not handle it */
#define PG_OFFLINE_INVALID (0x1UL << 0)
#define PG_OFFLINE_OFFLINED (0x1UL << 1)
#define PG_OFFLINE_PENDING (0x1UL << 2)
#define PG_OFFLINE_FAILED (0x1UL << 3)
#define PG_OFFLINE_AGAIN (0x1UL << 4)
#define PG_ONLINE_FAILED PG_OFFLINE_FAILED
#define PG_ONLINE_ONLINED PG_OFFLINE_OFFLINED
#define PG_OFFLINE_STATUS_OFFLINED (0x1UL << 1)
#define PG_OFFLINE_STATUS_ONLINE (0x1UL << 2)
#define PG_OFFLINE_STATUS_OFFLINE_PENDING (0x1UL << 3)
#define PG_OFFLINE_STATUS_BROKEN (0x1UL << 4)
#define PG_OFFLINE_MISC_MASK (0xFFUL << 4)
/* valid when PG_OFFLINE_FAILED or PG_OFFLINE_PENDING */
#define PG_OFFLINE_XENPAGE (0x1UL << 8)
#define PG_OFFLINE_DOM0PAGE (0x1UL << 9)
#define PG_OFFLINE_ANONYMOUS (0x1UL << 10)
#define PG_OFFLINE_NOT_CONV_RAM (0x1UL << 11)
#define PG_OFFLINE_OWNED (0x1UL << 12)
#define PG_OFFLINE_BROKEN (0x1UL << 13)
#define PG_ONLINE_BROKEN PG_OFFLINE_BROKEN
#define PG_OFFLINE_OWNER_SHIFT 16
/* XEN_SYSCTL_lockprof_op */
/* Sub-operations: */
#define XEN_SYSCTL_LOCKPROF_reset 1 /* Reset all profile data to zero. */
#define XEN_SYSCTL_LOCKPROF_query 2 /* Get lock profile information. */
/* Record-type: */
#define LOCKPROF_TYPE_GLOBAL 0 /* global lock, idx meaningless */
#define LOCKPROF_TYPE_PERDOM 1 /* per-domain lock, idx is domid */
#define LOCKPROF_TYPE_N 2 /* number of types */
struct xen_sysctl_lockprof_data {
char name[40]; /* lock name (may include up to 2 %d specifiers) */
int32_t type; /* LOCKPROF_TYPE_??? */
int32_t idx; /* index (e.g. domain id) */
uint64_aligned_t lock_cnt; /* # of locking succeeded */
uint64_aligned_t block_cnt; /* # of wait for lock */
uint64_aligned_t lock_time; /* nsecs lock held */
uint64_aligned_t block_time; /* nsecs waited for lock */
};
typedef struct xen_sysctl_lockprof_data xen_sysctl_lockprof_data_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_lockprof_data_t);
struct xen_sysctl_lockprof_op {
/* IN variables. */
uint32_t cmd; /* XEN_SYSCTL_LOCKPROF_??? */
uint32_t max_elem; /* size of output buffer */
/* OUT variables (query only). */
uint32_t nr_elem; /* number of elements available */
uint64_aligned_t time; /* nsecs of profile measurement */
/* profile information (or NULL) */
XEN_GUEST_HANDLE_64(xen_sysctl_lockprof_data_t) data;
};
typedef struct xen_sysctl_lockprof_op xen_sysctl_lockprof_op_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_lockprof_op_t);
/* XEN_SYSCTL_topologyinfo */
#define INVALID_TOPOLOGY_ID (~0U)
struct xen_sysctl_topologyinfo {
/*
* IN: maximum addressable entry in the caller-provided arrays.
* OUT: largest cpu identifier in the system.
* If OUT is greater than IN then the arrays are truncated!
* If OUT is leass than IN then the array tails are not written by sysctl.
*/
uint32_t max_cpu_index;
/*
* If not NULL, these arrays are filled with core/socket/node identifier
* for each cpu.
* If a cpu has no core/socket/node information (e.g., cpu not present)
* then the sentinel value ~0u is written to each array.
* The number of array elements written by the sysctl is:
* min(@max_cpu_index_IN,@max_cpu_index_OUT)+1
*/
XEN_GUEST_HANDLE_64(uint32) cpu_to_core;
XEN_GUEST_HANDLE_64(uint32) cpu_to_socket;
XEN_GUEST_HANDLE_64(uint32) cpu_to_node;
};
typedef struct xen_sysctl_topologyinfo xen_sysctl_topologyinfo_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_topologyinfo_t);
/* XEN_SYSCTL_numainfo */
#define INVALID_NUMAINFO_ID (~0U)
struct xen_sysctl_numainfo {
/*
* IN: maximum addressable entry in the caller-provided arrays.
* OUT: largest node identifier in the system.
* If OUT is greater than IN then the arrays are truncated!
*/
uint32_t max_node_index;
/* NB. Entries are 0 if node is not present. */
XEN_GUEST_HANDLE_64(uint64) node_to_memsize;
XEN_GUEST_HANDLE_64(uint64) node_to_memfree;
/*
* Array, of size (max_node_index+1)^2, listing memory access distances
* between nodes. If an entry has no node distance information (e.g., node
* not present) then the value ~0u is written.
*
* Note that the array rows must be indexed by multiplying by the minimum
* of the caller-provided max_node_index and the returned value of
* max_node_index. That is, if the largest node index in the system is
* smaller than the caller can handle, a smaller 2-d array is constructed
* within the space provided by the caller. When this occurs, trailing
* space provided by the caller is not modified. If the largest node index
* in the system is larger than the caller can handle, then a 2-d array of
* the maximum size handleable by the caller is constructed.
*/
XEN_GUEST_HANDLE_64(uint32) node_to_node_distance;
};
typedef struct xen_sysctl_numainfo xen_sysctl_numainfo_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_numainfo_t);
/* XEN_SYSCTL_cpupool_op */
#define XEN_SYSCTL_CPUPOOL_OP_CREATE 1 /* C */
#define XEN_SYSCTL_CPUPOOL_OP_DESTROY 2 /* D */
#define XEN_SYSCTL_CPUPOOL_OP_INFO 3 /* I */
#define XEN_SYSCTL_CPUPOOL_OP_ADDCPU 4 /* A */
#define XEN_SYSCTL_CPUPOOL_OP_RMCPU 5 /* R */
#define XEN_SYSCTL_CPUPOOL_OP_MOVEDOMAIN 6 /* M */
#define XEN_SYSCTL_CPUPOOL_OP_FREEINFO 7 /* F */
#define XEN_SYSCTL_CPUPOOL_PAR_ANY 0xFFFFFFFF
struct xen_sysctl_cpupool_op {
uint32_t op; /* IN */
uint32_t cpupool_id; /* IN: CDIARM OUT: CI */
uint32_t sched_id; /* IN: C OUT: I */
uint32_t domid; /* IN: M */
uint32_t cpu; /* IN: AR */
uint32_t n_dom; /* OUT: I */
struct xenctl_cpumap cpumap; /* OUT: IF */
};
typedef struct xen_sysctl_cpupool_op xen_sysctl_cpupool_op_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_cpupool_op_t);
#define ARINC653_MAX_DOMAINS_PER_SCHEDULE 64
/*
* This structure is used to pass a new ARINC653 schedule from a
* privileged domain (ie dom0) to Xen.
*/
struct xen_sysctl_arinc653_schedule {
/* major_frame holds the time for the new schedule's major frame
* in nanoseconds. */
uint64_aligned_t major_frame;
/* num_sched_entries holds how many of the entries in the
* sched_entries[] array are valid. */
uint8_t num_sched_entries;
/* The sched_entries array holds the actual schedule entries. */
struct {
/* dom_handle must match a domain's UUID */
xen_domain_handle_t dom_handle;
/* If a domain has multiple VCPUs, vcpu_id specifies which one
* this schedule entry applies to. It should be set to 0 if
* there is only one VCPU for the domain. */
unsigned int vcpu_id;
/* runtime specifies the amount of time that should be allocated
* to this VCPU per major frame. It is specified in nanoseconds */
uint64_aligned_t runtime;
} sched_entries[ARINC653_MAX_DOMAINS_PER_SCHEDULE];
};
typedef struct xen_sysctl_arinc653_schedule xen_sysctl_arinc653_schedule_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_arinc653_schedule_t);
struct xen_sysctl_credit_schedule {
/* Length of timeslice in milliseconds */
#define XEN_SYSCTL_CSCHED_TSLICE_MAX 1000
#define XEN_SYSCTL_CSCHED_TSLICE_MIN 1
unsigned tslice_ms;
/* Rate limit (minimum timeslice) in microseconds */
#define XEN_SYSCTL_SCHED_RATELIMIT_MAX 500000
#define XEN_SYSCTL_SCHED_RATELIMIT_MIN 100
unsigned ratelimit_us;
};
typedef struct xen_sysctl_credit_schedule xen_sysctl_credit_schedule_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_credit_schedule_t);
/* XEN_SYSCTL_scheduler_op */
/* Set or get info? */
#define XEN_SYSCTL_SCHEDOP_putinfo 0
#define XEN_SYSCTL_SCHEDOP_getinfo 1
struct xen_sysctl_scheduler_op {
uint32_t cpupool_id; /* Cpupool whose scheduler is to be targetted. */
uint32_t sched_id; /* XEN_SCHEDULER_* (domctl.h) */
uint32_t cmd; /* XEN_SYSCTL_SCHEDOP_* */
union {
struct xen_sysctl_sched_arinc653 {
XEN_GUEST_HANDLE_64(xen_sysctl_arinc653_schedule_t) schedule;
} sched_arinc653;
struct xen_sysctl_credit_schedule sched_credit;
} u;
};
typedef struct xen_sysctl_scheduler_op xen_sysctl_scheduler_op_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_scheduler_op_t);
struct xen_sysctl {
uint32_t cmd;
#define XEN_SYSCTL_readconsole 1
#define XEN_SYSCTL_tbuf_op 2
#define XEN_SYSCTL_physinfo 3
#define XEN_SYSCTL_sched_id 4
#define XEN_SYSCTL_perfc_op 5
#define XEN_SYSCTL_getdomaininfolist 6
#define XEN_SYSCTL_debug_keys 7
#define XEN_SYSCTL_getcpuinfo 8
#define XEN_SYSCTL_availheap 9
#define XEN_SYSCTL_get_pmstat 10
#define XEN_SYSCTL_cpu_hotplug 11
#define XEN_SYSCTL_pm_op 12
#define XEN_SYSCTL_page_offline_op 14
#define XEN_SYSCTL_lockprof_op 15
#define XEN_SYSCTL_topologyinfo 16
#define XEN_SYSCTL_numainfo 17
#define XEN_SYSCTL_cpupool_op 18
#define XEN_SYSCTL_scheduler_op 19
uint32_t interface_version; /* XEN_SYSCTL_INTERFACE_VERSION */
union {
struct xen_sysctl_readconsole readconsole;
struct xen_sysctl_tbuf_op tbuf_op;
struct xen_sysctl_physinfo physinfo;
struct xen_sysctl_topologyinfo topologyinfo;
struct xen_sysctl_numainfo numainfo;
struct xen_sysctl_sched_id sched_id;
struct xen_sysctl_perfc_op perfc_op;
struct xen_sysctl_getdomaininfolist getdomaininfolist;
struct xen_sysctl_debug_keys debug_keys;
struct xen_sysctl_getcpuinfo getcpuinfo;
struct xen_sysctl_availheap availheap;
struct xen_sysctl_get_pmstat get_pmstat;
struct xen_sysctl_cpu_hotplug cpu_hotplug;
struct xen_sysctl_pm_op pm_op;
struct xen_sysctl_page_offline_op page_offline;
struct xen_sysctl_lockprof_op lockprof_op;
struct xen_sysctl_cpupool_op cpupool_op;
struct xen_sysctl_scheduler_op scheduler_op;
uint8_t pad[128];
} u;
};
typedef struct xen_sysctl xen_sysctl_t;
DEFINE_XEN_GUEST_HANDLE(xen_sysctl_t);
#endif /* __XEN_PUBLIC_SYSCTL_H__ */
/*
* Local variables:
* mode: C
* c-set-style: "BSD"
* c-basic-offset: 4
* tab-width: 4
* indent-tabs-mode: nil
* End:
*/