/* * virresctrl.h: * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see * . */ #pragma once #include "internal.h" #include "virbitmap.h" #include "virutil.h" #include "virenum.h" typedef enum { VIR_CACHE_TYPE_BOTH, VIR_CACHE_TYPE_CODE, VIR_CACHE_TYPE_DATA, VIR_CACHE_TYPE_LAST } virCacheType; VIR_ENUM_DECL(virCache); VIR_ENUM_DECL(virCacheKernel); typedef enum { VIR_RESCTRL_MONITOR_TYPE_UNSUPPORT, VIR_RESCTRL_MONITOR_TYPE_CACHE, VIR_RESCTRL_MONITOR_TYPE_MEMBW, VIR_RESCTRL_MONITOR_TYPE_LAST } virResctrlMonitorType; VIR_ENUM_DECL(virResctrlMonitorPrefix); typedef struct _virResctrlInfoPerCache virResctrlInfoPerCache; typedef virResctrlInfoPerCache *virResctrlInfoPerCachePtr; struct _virResctrlInfoPerCache { /* Smallest possible increase of the allocation size in bytes */ unsigned long long granularity; /* Minimal allocatable size in bytes (if different from granularity) */ unsigned long long min; /* Type of the allocation */ virCacheType scope; /* Maximum number of simultaneous allocations */ unsigned int max_allocation; }; typedef struct _virResctrlInfoMemBWPerNode virResctrlInfoMemBWPerNode; typedef virResctrlInfoMemBWPerNode *virResctrlInfoMemBWPerNodePtr; struct _virResctrlInfoMemBWPerNode { /* Smallest possible increase of the allocation bandwidth in percentage */ unsigned int granularity; /* Minimal allocatable bandwidth in percentage */ unsigned int min; /* Maximum number of simultaneous allocations */ unsigned int max_allocation; }; typedef struct _virResctrlInfoMon virResctrlInfoMon; typedef virResctrlInfoMon *virResctrlInfoMonPtr; struct _virResctrlInfoMon { /* Maximum number of simultaneous monitors */ unsigned int max_monitor; /* null-terminal string list for monitor features */ char **features; /* Number of monitor features */ size_t nfeatures; /* Monitor type */ virResctrlMonitorType type; /* This adjustable value affects the final reuse of resources used by * monitor. After the action of removing a monitor, the kernel may not * release all hardware resources that monitor used immediately if the * cache occupancy value associated with 'removed' monitor is above this * threshold. Once the cache occupancy is below this threshold, the * underlying hardware resource will be reclaimed and be put into the * resource pool for next reusing.*/ unsigned int cache_reuse_threshold; /* The cache 'level' that has the monitor capability */ unsigned int cache_level; }; typedef struct _virResctrlInfo virResctrlInfo; typedef virResctrlInfo *virResctrlInfoPtr; virResctrlInfoPtr virResctrlInfoNew(void); int virResctrlInfoGetCache(virResctrlInfoPtr resctrl, unsigned int level, unsigned long long size, size_t *ncontrols, virResctrlInfoPerCachePtr **controls); int virResctrlInfoGetMemoryBandwidth(virResctrlInfoPtr resctrl, unsigned int level, virResctrlInfoMemBWPerNodePtr control); /* Alloc-related things */ typedef struct _virResctrlAlloc virResctrlAlloc; typedef virResctrlAlloc *virResctrlAllocPtr; typedef int virResctrlAllocForeachCacheCallback(unsigned int level, virCacheType type, unsigned int cache, unsigned long long size, void *opaque); typedef int virResctrlAllocForeachMemoryCallback(unsigned int id, unsigned int size, void *opaque); virResctrlAllocPtr virResctrlAllocNew(void); bool virResctrlAllocIsEmpty(virResctrlAllocPtr alloc); int virResctrlAllocSetCacheSize(virResctrlAllocPtr alloc, unsigned int level, virCacheType type, unsigned int cache, unsigned long long size); int virResctrlAllocForeachCache(virResctrlAllocPtr alloc, virResctrlAllocForeachCacheCallback cb, void *opaque); int virResctrlAllocSetMemoryBandwidth(virResctrlAllocPtr alloc, unsigned int id, unsigned int memory_bandwidth); int virResctrlAllocForeachMemory(virResctrlAllocPtr resctrl, virResctrlAllocForeachMemoryCallback cb, void *opaque); int virResctrlAllocSetID(virResctrlAllocPtr alloc, const char *id); const char * virResctrlAllocGetID(virResctrlAllocPtr alloc); char * virResctrlAllocFormat(virResctrlAllocPtr alloc); int virResctrlAllocDeterminePath(virResctrlAllocPtr alloc, const char *machinename); int virResctrlAllocCreate(virResctrlInfoPtr r_info, virResctrlAllocPtr alloc, const char *machinename); int virResctrlAllocAddPID(virResctrlAllocPtr alloc, pid_t pid); int virResctrlAllocRemove(virResctrlAllocPtr alloc); void virResctrlInfoMonFree(virResctrlInfoMonPtr mon); int virResctrlInfoGetMonitorPrefix(virResctrlInfoPtr resctrl, const char *prefix, virResctrlInfoMonPtr *monitor); /* Monitor-related things */ typedef struct _virResctrlMonitor virResctrlMonitor; typedef virResctrlMonitor *virResctrlMonitorPtr; typedef struct _virResctrlMonitorStats virResctrlMonitorStats; typedef virResctrlMonitorStats *virResctrlMonitorStatsPtr; struct _virResctrlMonitorStats { unsigned int id; unsigned int val; }; virResctrlMonitorPtr virResctrlMonitorNew(void); int virResctrlMonitorDeterminePath(virResctrlMonitorPtr monitor, const char *machinename); int virResctrlMonitorAddPID(virResctrlMonitorPtr monitor, pid_t pid); int virResctrlMonitorCreate(virResctrlMonitorPtr monitor, const char *machinename); int virResctrlMonitorSetID(virResctrlMonitorPtr monitor, const char *id); const char * virResctrlMonitorGetID(virResctrlMonitorPtr monitor); void virResctrlMonitorSetAlloc(virResctrlMonitorPtr monitor, virResctrlAllocPtr alloc); int virResctrlMonitorRemove(virResctrlMonitorPtr monitor); int virResctrlMonitorGetCacheOccupancy(virResctrlMonitorPtr monitor, virResctrlMonitorStatsPtr **stats, size_t *nstats); void virResctrlMonitorFreeStats(virResctrlMonitorStatsPtr *stats, size_t nstats);