1*8be545baSRichard Henderson /* 2*8be545baSRichard Henderson * Physical memory management API 3*8be545baSRichard Henderson * 4*8be545baSRichard Henderson * Copyright 2011 Red Hat, Inc. and/or its affiliates 5*8be545baSRichard Henderson * 6*8be545baSRichard Henderson * Authors: 7*8be545baSRichard Henderson * Avi Kivity <avi@redhat.com> 8*8be545baSRichard Henderson * 9*8be545baSRichard Henderson * This work is licensed under the terms of the GNU GPL, version 2. See 10*8be545baSRichard Henderson * the COPYING file in the top-level directory. 11*8be545baSRichard Henderson * 12*8be545baSRichard Henderson */ 13*8be545baSRichard Henderson 14*8be545baSRichard Henderson #ifndef SYSTEM_MEMORY_H 15*8be545baSRichard Henderson #define SYSTEM_MEMORY_H 16*8be545baSRichard Henderson 17*8be545baSRichard Henderson #include "exec/cpu-common.h" 18*8be545baSRichard Henderson #include "exec/hwaddr.h" 19*8be545baSRichard Henderson #include "exec/memattrs.h" 20*8be545baSRichard Henderson #include "exec/memop.h" 21*8be545baSRichard Henderson #include "exec/ramlist.h" 22*8be545baSRichard Henderson #include "exec/tswap.h" 23*8be545baSRichard Henderson #include "qemu/bswap.h" 24*8be545baSRichard Henderson #include "qemu/queue.h" 25*8be545baSRichard Henderson #include "qemu/int128.h" 26*8be545baSRichard Henderson #include "qemu/range.h" 27*8be545baSRichard Henderson #include "qemu/notify.h" 28*8be545baSRichard Henderson #include "qom/object.h" 29*8be545baSRichard Henderson #include "qemu/rcu.h" 30*8be545baSRichard Henderson 31*8be545baSRichard Henderson #define RAM_ADDR_INVALID (~(ram_addr_t)0) 32*8be545baSRichard Henderson 33*8be545baSRichard Henderson #define MAX_PHYS_ADDR_SPACE_BITS 62 34*8be545baSRichard Henderson #define MAX_PHYS_ADDR (((hwaddr)1 << MAX_PHYS_ADDR_SPACE_BITS) - 1) 35*8be545baSRichard Henderson 36*8be545baSRichard Henderson #define TYPE_MEMORY_REGION "memory-region" 37*8be545baSRichard Henderson DECLARE_INSTANCE_CHECKER(MemoryRegion, MEMORY_REGION, 38*8be545baSRichard Henderson TYPE_MEMORY_REGION) 39*8be545baSRichard Henderson 40*8be545baSRichard Henderson #define TYPE_IOMMU_MEMORY_REGION "iommu-memory-region" 41*8be545baSRichard Henderson typedef struct IOMMUMemoryRegionClass IOMMUMemoryRegionClass; 42*8be545baSRichard Henderson DECLARE_OBJ_CHECKERS(IOMMUMemoryRegion, IOMMUMemoryRegionClass, 43*8be545baSRichard Henderson IOMMU_MEMORY_REGION, TYPE_IOMMU_MEMORY_REGION) 44*8be545baSRichard Henderson 45*8be545baSRichard Henderson #define TYPE_RAM_DISCARD_MANAGER "ram-discard-manager" 46*8be545baSRichard Henderson typedef struct RamDiscardManagerClass RamDiscardManagerClass; 47*8be545baSRichard Henderson typedef struct RamDiscardManager RamDiscardManager; 48*8be545baSRichard Henderson DECLARE_OBJ_CHECKERS(RamDiscardManager, RamDiscardManagerClass, 49*8be545baSRichard Henderson RAM_DISCARD_MANAGER, TYPE_RAM_DISCARD_MANAGER); 50*8be545baSRichard Henderson 51*8be545baSRichard Henderson #ifdef CONFIG_FUZZ 52*8be545baSRichard Henderson void fuzz_dma_read_cb(size_t addr, 53*8be545baSRichard Henderson size_t len, 54*8be545baSRichard Henderson MemoryRegion *mr); 55*8be545baSRichard Henderson #else 56*8be545baSRichard Henderson static inline void fuzz_dma_read_cb(size_t addr, 57*8be545baSRichard Henderson size_t len, 58*8be545baSRichard Henderson MemoryRegion *mr) 59*8be545baSRichard Henderson { 60*8be545baSRichard Henderson /* Do Nothing */ 61*8be545baSRichard Henderson } 62*8be545baSRichard Henderson #endif 63*8be545baSRichard Henderson 64*8be545baSRichard Henderson /* Possible bits for global_dirty_log_{start|stop} */ 65*8be545baSRichard Henderson 66*8be545baSRichard Henderson /* Dirty tracking enabled because migration is running */ 67*8be545baSRichard Henderson #define GLOBAL_DIRTY_MIGRATION (1U << 0) 68*8be545baSRichard Henderson 69*8be545baSRichard Henderson /* Dirty tracking enabled because measuring dirty rate */ 70*8be545baSRichard Henderson #define GLOBAL_DIRTY_DIRTY_RATE (1U << 1) 71*8be545baSRichard Henderson 72*8be545baSRichard Henderson /* Dirty tracking enabled because dirty limit */ 73*8be545baSRichard Henderson #define GLOBAL_DIRTY_LIMIT (1U << 2) 74*8be545baSRichard Henderson 75*8be545baSRichard Henderson #define GLOBAL_DIRTY_MASK (0x7) 76*8be545baSRichard Henderson 77*8be545baSRichard Henderson extern unsigned int global_dirty_tracking; 78*8be545baSRichard Henderson 79*8be545baSRichard Henderson typedef struct MemoryRegionOps MemoryRegionOps; 80*8be545baSRichard Henderson 81*8be545baSRichard Henderson struct ReservedRegion { 82*8be545baSRichard Henderson Range range; 83*8be545baSRichard Henderson unsigned type; 84*8be545baSRichard Henderson }; 85*8be545baSRichard Henderson 86*8be545baSRichard Henderson /** 87*8be545baSRichard Henderson * struct MemoryRegionSection: describes a fragment of a #MemoryRegion 88*8be545baSRichard Henderson * 89*8be545baSRichard Henderson * @mr: the region, or %NULL if empty 90*8be545baSRichard Henderson * @fv: the flat view of the address space the region is mapped in 91*8be545baSRichard Henderson * @offset_within_region: the beginning of the section, relative to @mr's start 92*8be545baSRichard Henderson * @size: the size of the section; will not exceed @mr's boundaries 93*8be545baSRichard Henderson * @offset_within_address_space: the address of the first byte of the section 94*8be545baSRichard Henderson * relative to the region's address space 95*8be545baSRichard Henderson * @readonly: writes to this section are ignored 96*8be545baSRichard Henderson * @nonvolatile: this section is non-volatile 97*8be545baSRichard Henderson * @unmergeable: this section should not get merged with adjacent sections 98*8be545baSRichard Henderson */ 99*8be545baSRichard Henderson struct MemoryRegionSection { 100*8be545baSRichard Henderson Int128 size; 101*8be545baSRichard Henderson MemoryRegion *mr; 102*8be545baSRichard Henderson FlatView *fv; 103*8be545baSRichard Henderson hwaddr offset_within_region; 104*8be545baSRichard Henderson hwaddr offset_within_address_space; 105*8be545baSRichard Henderson bool readonly; 106*8be545baSRichard Henderson bool nonvolatile; 107*8be545baSRichard Henderson bool unmergeable; 108*8be545baSRichard Henderson }; 109*8be545baSRichard Henderson 110*8be545baSRichard Henderson typedef struct IOMMUTLBEntry IOMMUTLBEntry; 111*8be545baSRichard Henderson 112*8be545baSRichard Henderson /* See address_space_translate: bit 0 is read, bit 1 is write. */ 113*8be545baSRichard Henderson typedef enum { 114*8be545baSRichard Henderson IOMMU_NONE = 0, 115*8be545baSRichard Henderson IOMMU_RO = 1, 116*8be545baSRichard Henderson IOMMU_WO = 2, 117*8be545baSRichard Henderson IOMMU_RW = 3, 118*8be545baSRichard Henderson } IOMMUAccessFlags; 119*8be545baSRichard Henderson 120*8be545baSRichard Henderson #define IOMMU_ACCESS_FLAG(r, w) (((r) ? IOMMU_RO : 0) | ((w) ? IOMMU_WO : 0)) 121*8be545baSRichard Henderson 122*8be545baSRichard Henderson struct IOMMUTLBEntry { 123*8be545baSRichard Henderson AddressSpace *target_as; 124*8be545baSRichard Henderson hwaddr iova; 125*8be545baSRichard Henderson hwaddr translated_addr; 126*8be545baSRichard Henderson hwaddr addr_mask; /* 0xfff = 4k translation */ 127*8be545baSRichard Henderson IOMMUAccessFlags perm; 128*8be545baSRichard Henderson }; 129*8be545baSRichard Henderson 130*8be545baSRichard Henderson /* 131*8be545baSRichard Henderson * Bitmap for different IOMMUNotifier capabilities. Each notifier can 132*8be545baSRichard Henderson * register with one or multiple IOMMU Notifier capability bit(s). 133*8be545baSRichard Henderson * 134*8be545baSRichard Henderson * Normally there're two use cases for the notifiers: 135*8be545baSRichard Henderson * 136*8be545baSRichard Henderson * (1) When the device needs accurate synchronizations of the vIOMMU page 137*8be545baSRichard Henderson * tables, it needs to register with both MAP|UNMAP notifies (which 138*8be545baSRichard Henderson * is defined as IOMMU_NOTIFIER_IOTLB_EVENTS below). 139*8be545baSRichard Henderson * 140*8be545baSRichard Henderson * Regarding to accurate synchronization, it's when the notified 141*8be545baSRichard Henderson * device maintains a shadow page table and must be notified on each 142*8be545baSRichard Henderson * guest MAP (page table entry creation) and UNMAP (invalidation) 143*8be545baSRichard Henderson * events (e.g. VFIO). Both notifications must be accurate so that 144*8be545baSRichard Henderson * the shadow page table is fully in sync with the guest view. 145*8be545baSRichard Henderson * 146*8be545baSRichard Henderson * (2) When the device doesn't need accurate synchronizations of the 147*8be545baSRichard Henderson * vIOMMU page tables, it needs to register only with UNMAP or 148*8be545baSRichard Henderson * DEVIOTLB_UNMAP notifies. 149*8be545baSRichard Henderson * 150*8be545baSRichard Henderson * It's when the device maintains a cache of IOMMU translations 151*8be545baSRichard Henderson * (IOTLB) and is able to fill that cache by requesting translations 152*8be545baSRichard Henderson * from the vIOMMU through a protocol similar to ATS (Address 153*8be545baSRichard Henderson * Translation Service). 154*8be545baSRichard Henderson * 155*8be545baSRichard Henderson * Note that in this mode the vIOMMU will not maintain a shadowed 156*8be545baSRichard Henderson * page table for the address space, and the UNMAP messages can cover 157*8be545baSRichard Henderson * more than the pages that used to get mapped. The IOMMU notifiee 158*8be545baSRichard Henderson * should be able to take care of over-sized invalidations. 159*8be545baSRichard Henderson */ 160*8be545baSRichard Henderson typedef enum { 161*8be545baSRichard Henderson IOMMU_NOTIFIER_NONE = 0, 162*8be545baSRichard Henderson /* Notify cache invalidations */ 163*8be545baSRichard Henderson IOMMU_NOTIFIER_UNMAP = 0x1, 164*8be545baSRichard Henderson /* Notify entry changes (newly created entries) */ 165*8be545baSRichard Henderson IOMMU_NOTIFIER_MAP = 0x2, 166*8be545baSRichard Henderson /* Notify changes on device IOTLB entries */ 167*8be545baSRichard Henderson IOMMU_NOTIFIER_DEVIOTLB_UNMAP = 0x04, 168*8be545baSRichard Henderson } IOMMUNotifierFlag; 169*8be545baSRichard Henderson 170*8be545baSRichard Henderson #define IOMMU_NOTIFIER_IOTLB_EVENTS (IOMMU_NOTIFIER_MAP | IOMMU_NOTIFIER_UNMAP) 171*8be545baSRichard Henderson #define IOMMU_NOTIFIER_DEVIOTLB_EVENTS IOMMU_NOTIFIER_DEVIOTLB_UNMAP 172*8be545baSRichard Henderson #define IOMMU_NOTIFIER_ALL (IOMMU_NOTIFIER_IOTLB_EVENTS | \ 173*8be545baSRichard Henderson IOMMU_NOTIFIER_DEVIOTLB_EVENTS) 174*8be545baSRichard Henderson 175*8be545baSRichard Henderson struct IOMMUNotifier; 176*8be545baSRichard Henderson typedef void (*IOMMUNotify)(struct IOMMUNotifier *notifier, 177*8be545baSRichard Henderson IOMMUTLBEntry *data); 178*8be545baSRichard Henderson 179*8be545baSRichard Henderson struct IOMMUNotifier { 180*8be545baSRichard Henderson IOMMUNotify notify; 181*8be545baSRichard Henderson IOMMUNotifierFlag notifier_flags; 182*8be545baSRichard Henderson /* Notify for address space range start <= addr <= end */ 183*8be545baSRichard Henderson hwaddr start; 184*8be545baSRichard Henderson hwaddr end; 185*8be545baSRichard Henderson int iommu_idx; 186*8be545baSRichard Henderson QLIST_ENTRY(IOMMUNotifier) node; 187*8be545baSRichard Henderson }; 188*8be545baSRichard Henderson typedef struct IOMMUNotifier IOMMUNotifier; 189*8be545baSRichard Henderson 190*8be545baSRichard Henderson typedef struct IOMMUTLBEvent { 191*8be545baSRichard Henderson IOMMUNotifierFlag type; 192*8be545baSRichard Henderson IOMMUTLBEntry entry; 193*8be545baSRichard Henderson } IOMMUTLBEvent; 194*8be545baSRichard Henderson 195*8be545baSRichard Henderson /* RAM is pre-allocated and passed into qemu_ram_alloc_from_ptr */ 196*8be545baSRichard Henderson #define RAM_PREALLOC (1 << 0) 197*8be545baSRichard Henderson 198*8be545baSRichard Henderson /* RAM is mmap-ed with MAP_SHARED */ 199*8be545baSRichard Henderson #define RAM_SHARED (1 << 1) 200*8be545baSRichard Henderson 201*8be545baSRichard Henderson /* Only a portion of RAM (used_length) is actually used, and migrated. 202*8be545baSRichard Henderson * Resizing RAM while migrating can result in the migration being canceled. 203*8be545baSRichard Henderson */ 204*8be545baSRichard Henderson #define RAM_RESIZEABLE (1 << 2) 205*8be545baSRichard Henderson 206*8be545baSRichard Henderson /* UFFDIO_ZEROPAGE is available on this RAMBlock to atomically 207*8be545baSRichard Henderson * zero the page and wake waiting processes. 208*8be545baSRichard Henderson * (Set during postcopy) 209*8be545baSRichard Henderson */ 210*8be545baSRichard Henderson #define RAM_UF_ZEROPAGE (1 << 3) 211*8be545baSRichard Henderson 212*8be545baSRichard Henderson /* RAM can be migrated */ 213*8be545baSRichard Henderson #define RAM_MIGRATABLE (1 << 4) 214*8be545baSRichard Henderson 215*8be545baSRichard Henderson /* RAM is a persistent kind memory */ 216*8be545baSRichard Henderson #define RAM_PMEM (1 << 5) 217*8be545baSRichard Henderson 218*8be545baSRichard Henderson 219*8be545baSRichard Henderson /* 220*8be545baSRichard Henderson * UFFDIO_WRITEPROTECT is used on this RAMBlock to 221*8be545baSRichard Henderson * support 'write-tracking' migration type. 222*8be545baSRichard Henderson * Implies ram_state->ram_wt_enabled. 223*8be545baSRichard Henderson */ 224*8be545baSRichard Henderson #define RAM_UF_WRITEPROTECT (1 << 6) 225*8be545baSRichard Henderson 226*8be545baSRichard Henderson /* 227*8be545baSRichard Henderson * RAM is mmap-ed with MAP_NORESERVE. When set, reserving swap space (or huge 228*8be545baSRichard Henderson * pages if applicable) is skipped: will bail out if not supported. When not 229*8be545baSRichard Henderson * set, the OS will do the reservation, if supported for the memory type. 230*8be545baSRichard Henderson */ 231*8be545baSRichard Henderson #define RAM_NORESERVE (1 << 7) 232*8be545baSRichard Henderson 233*8be545baSRichard Henderson /* RAM that isn't accessible through normal means. */ 234*8be545baSRichard Henderson #define RAM_PROTECTED (1 << 8) 235*8be545baSRichard Henderson 236*8be545baSRichard Henderson /* RAM is an mmap-ed named file */ 237*8be545baSRichard Henderson #define RAM_NAMED_FILE (1 << 9) 238*8be545baSRichard Henderson 239*8be545baSRichard Henderson /* RAM is mmap-ed read-only */ 240*8be545baSRichard Henderson #define RAM_READONLY (1 << 10) 241*8be545baSRichard Henderson 242*8be545baSRichard Henderson /* RAM FD is opened read-only */ 243*8be545baSRichard Henderson #define RAM_READONLY_FD (1 << 11) 244*8be545baSRichard Henderson 245*8be545baSRichard Henderson /* RAM can be private that has kvm guest memfd backend */ 246*8be545baSRichard Henderson #define RAM_GUEST_MEMFD (1 << 12) 247*8be545baSRichard Henderson 248*8be545baSRichard Henderson /* 249*8be545baSRichard Henderson * In RAMBlock creation functions, if MAP_SHARED is 0 in the flags parameter, 250*8be545baSRichard Henderson * the implementation may still create a shared mapping if other conditions 251*8be545baSRichard Henderson * require it. Callers who specifically want a private mapping, eg objects 252*8be545baSRichard Henderson * specified by the user, must pass RAM_PRIVATE. 253*8be545baSRichard Henderson * After RAMBlock creation, MAP_SHARED in the block's flags indicates whether 254*8be545baSRichard Henderson * the block is shared or private, and MAP_PRIVATE is omitted. 255*8be545baSRichard Henderson */ 256*8be545baSRichard Henderson #define RAM_PRIVATE (1 << 13) 257*8be545baSRichard Henderson 258*8be545baSRichard Henderson static inline void iommu_notifier_init(IOMMUNotifier *n, IOMMUNotify fn, 259*8be545baSRichard Henderson IOMMUNotifierFlag flags, 260*8be545baSRichard Henderson hwaddr start, hwaddr end, 261*8be545baSRichard Henderson int iommu_idx) 262*8be545baSRichard Henderson { 263*8be545baSRichard Henderson n->notify = fn; 264*8be545baSRichard Henderson n->notifier_flags = flags; 265*8be545baSRichard Henderson n->start = start; 266*8be545baSRichard Henderson n->end = end; 267*8be545baSRichard Henderson n->iommu_idx = iommu_idx; 268*8be545baSRichard Henderson } 269*8be545baSRichard Henderson 270*8be545baSRichard Henderson /* 271*8be545baSRichard Henderson * Memory region callbacks 272*8be545baSRichard Henderson */ 273*8be545baSRichard Henderson struct MemoryRegionOps { 274*8be545baSRichard Henderson /* Read from the memory region. @addr is relative to @mr; @size is 275*8be545baSRichard Henderson * in bytes. */ 276*8be545baSRichard Henderson uint64_t (*read)(void *opaque, 277*8be545baSRichard Henderson hwaddr addr, 278*8be545baSRichard Henderson unsigned size); 279*8be545baSRichard Henderson /* Write to the memory region. @addr is relative to @mr; @size is 280*8be545baSRichard Henderson * in bytes. */ 281*8be545baSRichard Henderson void (*write)(void *opaque, 282*8be545baSRichard Henderson hwaddr addr, 283*8be545baSRichard Henderson uint64_t data, 284*8be545baSRichard Henderson unsigned size); 285*8be545baSRichard Henderson 286*8be545baSRichard Henderson MemTxResult (*read_with_attrs)(void *opaque, 287*8be545baSRichard Henderson hwaddr addr, 288*8be545baSRichard Henderson uint64_t *data, 289*8be545baSRichard Henderson unsigned size, 290*8be545baSRichard Henderson MemTxAttrs attrs); 291*8be545baSRichard Henderson MemTxResult (*write_with_attrs)(void *opaque, 292*8be545baSRichard Henderson hwaddr addr, 293*8be545baSRichard Henderson uint64_t data, 294*8be545baSRichard Henderson unsigned size, 295*8be545baSRichard Henderson MemTxAttrs attrs); 296*8be545baSRichard Henderson 297*8be545baSRichard Henderson enum device_endian endianness; 298*8be545baSRichard Henderson /* Guest-visible constraints: */ 299*8be545baSRichard Henderson struct { 300*8be545baSRichard Henderson /* If nonzero, specify bounds on access sizes beyond which a machine 301*8be545baSRichard Henderson * check is thrown. 302*8be545baSRichard Henderson */ 303*8be545baSRichard Henderson unsigned min_access_size; 304*8be545baSRichard Henderson unsigned max_access_size; 305*8be545baSRichard Henderson /* If true, unaligned accesses are supported. Otherwise unaligned 306*8be545baSRichard Henderson * accesses throw machine checks. 307*8be545baSRichard Henderson */ 308*8be545baSRichard Henderson bool unaligned; 309*8be545baSRichard Henderson /* 310*8be545baSRichard Henderson * If present, and returns #false, the transaction is not accepted 311*8be545baSRichard Henderson * by the device (and results in machine dependent behaviour such 312*8be545baSRichard Henderson * as a machine check exception). 313*8be545baSRichard Henderson */ 314*8be545baSRichard Henderson bool (*accepts)(void *opaque, hwaddr addr, 315*8be545baSRichard Henderson unsigned size, bool is_write, 316*8be545baSRichard Henderson MemTxAttrs attrs); 317*8be545baSRichard Henderson } valid; 318*8be545baSRichard Henderson /* Internal implementation constraints: */ 319*8be545baSRichard Henderson struct { 320*8be545baSRichard Henderson /* If nonzero, specifies the minimum size implemented. Smaller sizes 321*8be545baSRichard Henderson * will be rounded upwards and a partial result will be returned. 322*8be545baSRichard Henderson */ 323*8be545baSRichard Henderson unsigned min_access_size; 324*8be545baSRichard Henderson /* If nonzero, specifies the maximum size implemented. Larger sizes 325*8be545baSRichard Henderson * will be done as a series of accesses with smaller sizes. 326*8be545baSRichard Henderson */ 327*8be545baSRichard Henderson unsigned max_access_size; 328*8be545baSRichard Henderson /* If true, unaligned accesses are supported. Otherwise all accesses 329*8be545baSRichard Henderson * are converted to (possibly multiple) naturally aligned accesses. 330*8be545baSRichard Henderson */ 331*8be545baSRichard Henderson bool unaligned; 332*8be545baSRichard Henderson } impl; 333*8be545baSRichard Henderson }; 334*8be545baSRichard Henderson 335*8be545baSRichard Henderson typedef struct MemoryRegionClass { 336*8be545baSRichard Henderson /* private */ 337*8be545baSRichard Henderson ObjectClass parent_class; 338*8be545baSRichard Henderson } MemoryRegionClass; 339*8be545baSRichard Henderson 340*8be545baSRichard Henderson 341*8be545baSRichard Henderson enum IOMMUMemoryRegionAttr { 342*8be545baSRichard Henderson IOMMU_ATTR_SPAPR_TCE_FD 343*8be545baSRichard Henderson }; 344*8be545baSRichard Henderson 345*8be545baSRichard Henderson /* 346*8be545baSRichard Henderson * IOMMUMemoryRegionClass: 347*8be545baSRichard Henderson * 348*8be545baSRichard Henderson * All IOMMU implementations need to subclass TYPE_IOMMU_MEMORY_REGION 349*8be545baSRichard Henderson * and provide an implementation of at least the @translate method here 350*8be545baSRichard Henderson * to handle requests to the memory region. Other methods are optional. 351*8be545baSRichard Henderson * 352*8be545baSRichard Henderson * The IOMMU implementation must use the IOMMU notifier infrastructure 353*8be545baSRichard Henderson * to report whenever mappings are changed, by calling 354*8be545baSRichard Henderson * memory_region_notify_iommu() (or, if necessary, by calling 355*8be545baSRichard Henderson * memory_region_notify_iommu_one() for each registered notifier). 356*8be545baSRichard Henderson * 357*8be545baSRichard Henderson * Conceptually an IOMMU provides a mapping from input address 358*8be545baSRichard Henderson * to an output TLB entry. If the IOMMU is aware of memory transaction 359*8be545baSRichard Henderson * attributes and the output TLB entry depends on the transaction 360*8be545baSRichard Henderson * attributes, we represent this using IOMMU indexes. Each index 361*8be545baSRichard Henderson * selects a particular translation table that the IOMMU has: 362*8be545baSRichard Henderson * 363*8be545baSRichard Henderson * @attrs_to_index returns the IOMMU index for a set of transaction attributes 364*8be545baSRichard Henderson * 365*8be545baSRichard Henderson * @translate takes an input address and an IOMMU index 366*8be545baSRichard Henderson * 367*8be545baSRichard Henderson * and the mapping returned can only depend on the input address and the 368*8be545baSRichard Henderson * IOMMU index. 369*8be545baSRichard Henderson * 370*8be545baSRichard Henderson * Most IOMMUs don't care about the transaction attributes and support 371*8be545baSRichard Henderson * only a single IOMMU index. A more complex IOMMU might have one index 372*8be545baSRichard Henderson * for secure transactions and one for non-secure transactions. 373*8be545baSRichard Henderson */ 374*8be545baSRichard Henderson struct IOMMUMemoryRegionClass { 375*8be545baSRichard Henderson /* private: */ 376*8be545baSRichard Henderson MemoryRegionClass parent_class; 377*8be545baSRichard Henderson 378*8be545baSRichard Henderson /* public: */ 379*8be545baSRichard Henderson /** 380*8be545baSRichard Henderson * @translate: 381*8be545baSRichard Henderson * 382*8be545baSRichard Henderson * Return a TLB entry that contains a given address. 383*8be545baSRichard Henderson * 384*8be545baSRichard Henderson * The IOMMUAccessFlags indicated via @flag are optional and may 385*8be545baSRichard Henderson * be specified as IOMMU_NONE to indicate that the caller needs 386*8be545baSRichard Henderson * the full translation information for both reads and writes. If 387*8be545baSRichard Henderson * the access flags are specified then the IOMMU implementation 388*8be545baSRichard Henderson * may use this as an optimization, to stop doing a page table 389*8be545baSRichard Henderson * walk as soon as it knows that the requested permissions are not 390*8be545baSRichard Henderson * allowed. If IOMMU_NONE is passed then the IOMMU must do the 391*8be545baSRichard Henderson * full page table walk and report the permissions in the returned 392*8be545baSRichard Henderson * IOMMUTLBEntry. (Note that this implies that an IOMMU may not 393*8be545baSRichard Henderson * return different mappings for reads and writes.) 394*8be545baSRichard Henderson * 395*8be545baSRichard Henderson * The returned information remains valid while the caller is 396*8be545baSRichard Henderson * holding the big QEMU lock or is inside an RCU critical section; 397*8be545baSRichard Henderson * if the caller wishes to cache the mapping beyond that it must 398*8be545baSRichard Henderson * register an IOMMU notifier so it can invalidate its cached 399*8be545baSRichard Henderson * information when the IOMMU mapping changes. 400*8be545baSRichard Henderson * 401*8be545baSRichard Henderson * @iommu: the IOMMUMemoryRegion 402*8be545baSRichard Henderson * 403*8be545baSRichard Henderson * @hwaddr: address to be translated within the memory region 404*8be545baSRichard Henderson * 405*8be545baSRichard Henderson * @flag: requested access permission 406*8be545baSRichard Henderson * 407*8be545baSRichard Henderson * @iommu_idx: IOMMU index for the translation 408*8be545baSRichard Henderson */ 409*8be545baSRichard Henderson IOMMUTLBEntry (*translate)(IOMMUMemoryRegion *iommu, hwaddr addr, 410*8be545baSRichard Henderson IOMMUAccessFlags flag, int iommu_idx); 411*8be545baSRichard Henderson /** 412*8be545baSRichard Henderson * @get_min_page_size: 413*8be545baSRichard Henderson * 414*8be545baSRichard Henderson * Returns minimum supported page size in bytes. 415*8be545baSRichard Henderson * 416*8be545baSRichard Henderson * If this method is not provided then the minimum is assumed to 417*8be545baSRichard Henderson * be TARGET_PAGE_SIZE. 418*8be545baSRichard Henderson * 419*8be545baSRichard Henderson * @iommu: the IOMMUMemoryRegion 420*8be545baSRichard Henderson */ 421*8be545baSRichard Henderson uint64_t (*get_min_page_size)(IOMMUMemoryRegion *iommu); 422*8be545baSRichard Henderson /** 423*8be545baSRichard Henderson * @notify_flag_changed: 424*8be545baSRichard Henderson * 425*8be545baSRichard Henderson * Called when IOMMU Notifier flag changes (ie when the set of 426*8be545baSRichard Henderson * events which IOMMU users are requesting notification for changes). 427*8be545baSRichard Henderson * Optional method -- need not be provided if the IOMMU does not 428*8be545baSRichard Henderson * need to know exactly which events must be notified. 429*8be545baSRichard Henderson * 430*8be545baSRichard Henderson * @iommu: the IOMMUMemoryRegion 431*8be545baSRichard Henderson * 432*8be545baSRichard Henderson * @old_flags: events which previously needed to be notified 433*8be545baSRichard Henderson * 434*8be545baSRichard Henderson * @new_flags: events which now need to be notified 435*8be545baSRichard Henderson * 436*8be545baSRichard Henderson * Returns 0 on success, or a negative errno; in particular 437*8be545baSRichard Henderson * returns -EINVAL if the new flag bitmap is not supported by the 438*8be545baSRichard Henderson * IOMMU memory region. In case of failure, the error object 439*8be545baSRichard Henderson * must be created 440*8be545baSRichard Henderson */ 441*8be545baSRichard Henderson int (*notify_flag_changed)(IOMMUMemoryRegion *iommu, 442*8be545baSRichard Henderson IOMMUNotifierFlag old_flags, 443*8be545baSRichard Henderson IOMMUNotifierFlag new_flags, 444*8be545baSRichard Henderson Error **errp); 445*8be545baSRichard Henderson /** 446*8be545baSRichard Henderson * @replay: 447*8be545baSRichard Henderson * 448*8be545baSRichard Henderson * Called to handle memory_region_iommu_replay(). 449*8be545baSRichard Henderson * 450*8be545baSRichard Henderson * The default implementation of memory_region_iommu_replay() is to 451*8be545baSRichard Henderson * call the IOMMU translate method for every page in the address space 452*8be545baSRichard Henderson * with flag == IOMMU_NONE and then call the notifier if translate 453*8be545baSRichard Henderson * returns a valid mapping. If this method is implemented then it 454*8be545baSRichard Henderson * overrides the default behaviour, and must provide the full semantics 455*8be545baSRichard Henderson * of memory_region_iommu_replay(), by calling @notifier for every 456*8be545baSRichard Henderson * translation present in the IOMMU. 457*8be545baSRichard Henderson * 458*8be545baSRichard Henderson * Optional method -- an IOMMU only needs to provide this method 459*8be545baSRichard Henderson * if the default is inefficient or produces undesirable side effects. 460*8be545baSRichard Henderson * 461*8be545baSRichard Henderson * Note: this is not related to record-and-replay functionality. 462*8be545baSRichard Henderson */ 463*8be545baSRichard Henderson void (*replay)(IOMMUMemoryRegion *iommu, IOMMUNotifier *notifier); 464*8be545baSRichard Henderson 465*8be545baSRichard Henderson /** 466*8be545baSRichard Henderson * @get_attr: 467*8be545baSRichard Henderson * 468*8be545baSRichard Henderson * Get IOMMU misc attributes. This is an optional method that 469*8be545baSRichard Henderson * can be used to allow users of the IOMMU to get implementation-specific 470*8be545baSRichard Henderson * information. The IOMMU implements this method to handle calls 471*8be545baSRichard Henderson * by IOMMU users to memory_region_iommu_get_attr() by filling in 472*8be545baSRichard Henderson * the arbitrary data pointer for any IOMMUMemoryRegionAttr values that 473*8be545baSRichard Henderson * the IOMMU supports. If the method is unimplemented then 474*8be545baSRichard Henderson * memory_region_iommu_get_attr() will always return -EINVAL. 475*8be545baSRichard Henderson * 476*8be545baSRichard Henderson * @iommu: the IOMMUMemoryRegion 477*8be545baSRichard Henderson * 478*8be545baSRichard Henderson * @attr: attribute being queried 479*8be545baSRichard Henderson * 480*8be545baSRichard Henderson * @data: memory to fill in with the attribute data 481*8be545baSRichard Henderson * 482*8be545baSRichard Henderson * Returns 0 on success, or a negative errno; in particular 483*8be545baSRichard Henderson * returns -EINVAL for unrecognized or unimplemented attribute types. 484*8be545baSRichard Henderson */ 485*8be545baSRichard Henderson int (*get_attr)(IOMMUMemoryRegion *iommu, enum IOMMUMemoryRegionAttr attr, 486*8be545baSRichard Henderson void *data); 487*8be545baSRichard Henderson 488*8be545baSRichard Henderson /** 489*8be545baSRichard Henderson * @attrs_to_index: 490*8be545baSRichard Henderson * 491*8be545baSRichard Henderson * Return the IOMMU index to use for a given set of transaction attributes. 492*8be545baSRichard Henderson * 493*8be545baSRichard Henderson * Optional method: if an IOMMU only supports a single IOMMU index then 494*8be545baSRichard Henderson * the default implementation of memory_region_iommu_attrs_to_index() 495*8be545baSRichard Henderson * will return 0. 496*8be545baSRichard Henderson * 497*8be545baSRichard Henderson * The indexes supported by an IOMMU must be contiguous, starting at 0. 498*8be545baSRichard Henderson * 499*8be545baSRichard Henderson * @iommu: the IOMMUMemoryRegion 500*8be545baSRichard Henderson * @attrs: memory transaction attributes 501*8be545baSRichard Henderson */ 502*8be545baSRichard Henderson int (*attrs_to_index)(IOMMUMemoryRegion *iommu, MemTxAttrs attrs); 503*8be545baSRichard Henderson 504*8be545baSRichard Henderson /** 505*8be545baSRichard Henderson * @num_indexes: 506*8be545baSRichard Henderson * 507*8be545baSRichard Henderson * Return the number of IOMMU indexes this IOMMU supports. 508*8be545baSRichard Henderson * 509*8be545baSRichard Henderson * Optional method: if this method is not provided, then 510*8be545baSRichard Henderson * memory_region_iommu_num_indexes() will return 1, indicating that 511*8be545baSRichard Henderson * only a single IOMMU index is supported. 512*8be545baSRichard Henderson * 513*8be545baSRichard Henderson * @iommu: the IOMMUMemoryRegion 514*8be545baSRichard Henderson */ 515*8be545baSRichard Henderson int (*num_indexes)(IOMMUMemoryRegion *iommu); 516*8be545baSRichard Henderson }; 517*8be545baSRichard Henderson 518*8be545baSRichard Henderson typedef struct RamDiscardListener RamDiscardListener; 519*8be545baSRichard Henderson typedef int (*NotifyRamPopulate)(RamDiscardListener *rdl, 520*8be545baSRichard Henderson MemoryRegionSection *section); 521*8be545baSRichard Henderson typedef void (*NotifyRamDiscard)(RamDiscardListener *rdl, 522*8be545baSRichard Henderson MemoryRegionSection *section); 523*8be545baSRichard Henderson 524*8be545baSRichard Henderson struct RamDiscardListener { 525*8be545baSRichard Henderson /* 526*8be545baSRichard Henderson * @notify_populate: 527*8be545baSRichard Henderson * 528*8be545baSRichard Henderson * Notification that previously discarded memory is about to get populated. 529*8be545baSRichard Henderson * Listeners are able to object. If any listener objects, already 530*8be545baSRichard Henderson * successfully notified listeners are notified about a discard again. 531*8be545baSRichard Henderson * 532*8be545baSRichard Henderson * @rdl: the #RamDiscardListener getting notified 533*8be545baSRichard Henderson * @section: the #MemoryRegionSection to get populated. The section 534*8be545baSRichard Henderson * is aligned within the memory region to the minimum granularity 535*8be545baSRichard Henderson * unless it would exceed the registered section. 536*8be545baSRichard Henderson * 537*8be545baSRichard Henderson * Returns 0 on success. If the notification is rejected by the listener, 538*8be545baSRichard Henderson * an error is returned. 539*8be545baSRichard Henderson */ 540*8be545baSRichard Henderson NotifyRamPopulate notify_populate; 541*8be545baSRichard Henderson 542*8be545baSRichard Henderson /* 543*8be545baSRichard Henderson * @notify_discard: 544*8be545baSRichard Henderson * 545*8be545baSRichard Henderson * Notification that previously populated memory was discarded successfully 546*8be545baSRichard Henderson * and listeners should drop all references to such memory and prevent 547*8be545baSRichard Henderson * new population (e.g., unmap). 548*8be545baSRichard Henderson * 549*8be545baSRichard Henderson * @rdl: the #RamDiscardListener getting notified 550*8be545baSRichard Henderson * @section: the #MemoryRegionSection to get populated. The section 551*8be545baSRichard Henderson * is aligned within the memory region to the minimum granularity 552*8be545baSRichard Henderson * unless it would exceed the registered section. 553*8be545baSRichard Henderson */ 554*8be545baSRichard Henderson NotifyRamDiscard notify_discard; 555*8be545baSRichard Henderson 556*8be545baSRichard Henderson /* 557*8be545baSRichard Henderson * @double_discard_supported: 558*8be545baSRichard Henderson * 559*8be545baSRichard Henderson * The listener suppors getting @notify_discard notifications that span 560*8be545baSRichard Henderson * already discarded parts. 561*8be545baSRichard Henderson */ 562*8be545baSRichard Henderson bool double_discard_supported; 563*8be545baSRichard Henderson 564*8be545baSRichard Henderson MemoryRegionSection *section; 565*8be545baSRichard Henderson QLIST_ENTRY(RamDiscardListener) next; 566*8be545baSRichard Henderson }; 567*8be545baSRichard Henderson 568*8be545baSRichard Henderson static inline void ram_discard_listener_init(RamDiscardListener *rdl, 569*8be545baSRichard Henderson NotifyRamPopulate populate_fn, 570*8be545baSRichard Henderson NotifyRamDiscard discard_fn, 571*8be545baSRichard Henderson bool double_discard_supported) 572*8be545baSRichard Henderson { 573*8be545baSRichard Henderson rdl->notify_populate = populate_fn; 574*8be545baSRichard Henderson rdl->notify_discard = discard_fn; 575*8be545baSRichard Henderson rdl->double_discard_supported = double_discard_supported; 576*8be545baSRichard Henderson } 577*8be545baSRichard Henderson 578*8be545baSRichard Henderson typedef int (*ReplayRamPopulate)(MemoryRegionSection *section, void *opaque); 579*8be545baSRichard Henderson typedef void (*ReplayRamDiscard)(MemoryRegionSection *section, void *opaque); 580*8be545baSRichard Henderson 581*8be545baSRichard Henderson /* 582*8be545baSRichard Henderson * RamDiscardManagerClass: 583*8be545baSRichard Henderson * 584*8be545baSRichard Henderson * A #RamDiscardManager coordinates which parts of specific RAM #MemoryRegion 585*8be545baSRichard Henderson * regions are currently populated to be used/accessed by the VM, notifying 586*8be545baSRichard Henderson * after parts were discarded (freeing up memory) and before parts will be 587*8be545baSRichard Henderson * populated (consuming memory), to be used/accessed by the VM. 588*8be545baSRichard Henderson * 589*8be545baSRichard Henderson * A #RamDiscardManager can only be set for a RAM #MemoryRegion while the 590*8be545baSRichard Henderson * #MemoryRegion isn't mapped into an address space yet (either directly 591*8be545baSRichard Henderson * or via an alias); it cannot change while the #MemoryRegion is 592*8be545baSRichard Henderson * mapped into an address space. 593*8be545baSRichard Henderson * 594*8be545baSRichard Henderson * The #RamDiscardManager is intended to be used by technologies that are 595*8be545baSRichard Henderson * incompatible with discarding of RAM (e.g., VFIO, which may pin all 596*8be545baSRichard Henderson * memory inside a #MemoryRegion), and require proper coordination to only 597*8be545baSRichard Henderson * map the currently populated parts, to hinder parts that are expected to 598*8be545baSRichard Henderson * remain discarded from silently getting populated and consuming memory. 599*8be545baSRichard Henderson * Technologies that support discarding of RAM don't have to bother and can 600*8be545baSRichard Henderson * simply map the whole #MemoryRegion. 601*8be545baSRichard Henderson * 602*8be545baSRichard Henderson * An example #RamDiscardManager is virtio-mem, which logically (un)plugs 603*8be545baSRichard Henderson * memory within an assigned RAM #MemoryRegion, coordinated with the VM. 604*8be545baSRichard Henderson * Logically unplugging memory consists of discarding RAM. The VM agreed to not 605*8be545baSRichard Henderson * access unplugged (discarded) memory - especially via DMA. virtio-mem will 606*8be545baSRichard Henderson * properly coordinate with listeners before memory is plugged (populated), 607*8be545baSRichard Henderson * and after memory is unplugged (discarded). 608*8be545baSRichard Henderson * 609*8be545baSRichard Henderson * Listeners are called in multiples of the minimum granularity (unless it 610*8be545baSRichard Henderson * would exceed the registered range) and changes are aligned to the minimum 611*8be545baSRichard Henderson * granularity within the #MemoryRegion. Listeners have to prepare for memory 612*8be545baSRichard Henderson * becoming discarded in a different granularity than it was populated and the 613*8be545baSRichard Henderson * other way around. 614*8be545baSRichard Henderson */ 615*8be545baSRichard Henderson struct RamDiscardManagerClass { 616*8be545baSRichard Henderson /* private */ 617*8be545baSRichard Henderson InterfaceClass parent_class; 618*8be545baSRichard Henderson 619*8be545baSRichard Henderson /* public */ 620*8be545baSRichard Henderson 621*8be545baSRichard Henderson /** 622*8be545baSRichard Henderson * @get_min_granularity: 623*8be545baSRichard Henderson * 624*8be545baSRichard Henderson * Get the minimum granularity in which listeners will get notified 625*8be545baSRichard Henderson * about changes within the #MemoryRegion via the #RamDiscardManager. 626*8be545baSRichard Henderson * 627*8be545baSRichard Henderson * @rdm: the #RamDiscardManager 628*8be545baSRichard Henderson * @mr: the #MemoryRegion 629*8be545baSRichard Henderson * 630*8be545baSRichard Henderson * Returns the minimum granularity. 631*8be545baSRichard Henderson */ 632*8be545baSRichard Henderson uint64_t (*get_min_granularity)(const RamDiscardManager *rdm, 633*8be545baSRichard Henderson const MemoryRegion *mr); 634*8be545baSRichard Henderson 635*8be545baSRichard Henderson /** 636*8be545baSRichard Henderson * @is_populated: 637*8be545baSRichard Henderson * 638*8be545baSRichard Henderson * Check whether the given #MemoryRegionSection is completely populated 639*8be545baSRichard Henderson * (i.e., no parts are currently discarded) via the #RamDiscardManager. 640*8be545baSRichard Henderson * There are no alignment requirements. 641*8be545baSRichard Henderson * 642*8be545baSRichard Henderson * @rdm: the #RamDiscardManager 643*8be545baSRichard Henderson * @section: the #MemoryRegionSection 644*8be545baSRichard Henderson * 645*8be545baSRichard Henderson * Returns whether the given range is completely populated. 646*8be545baSRichard Henderson */ 647*8be545baSRichard Henderson bool (*is_populated)(const RamDiscardManager *rdm, 648*8be545baSRichard Henderson const MemoryRegionSection *section); 649*8be545baSRichard Henderson 650*8be545baSRichard Henderson /** 651*8be545baSRichard Henderson * @replay_populated: 652*8be545baSRichard Henderson * 653*8be545baSRichard Henderson * Call the #ReplayRamPopulate callback for all populated parts within the 654*8be545baSRichard Henderson * #MemoryRegionSection via the #RamDiscardManager. 655*8be545baSRichard Henderson * 656*8be545baSRichard Henderson * In case any call fails, no further calls are made. 657*8be545baSRichard Henderson * 658*8be545baSRichard Henderson * @rdm: the #RamDiscardManager 659*8be545baSRichard Henderson * @section: the #MemoryRegionSection 660*8be545baSRichard Henderson * @replay_fn: the #ReplayRamPopulate callback 661*8be545baSRichard Henderson * @opaque: pointer to forward to the callback 662*8be545baSRichard Henderson * 663*8be545baSRichard Henderson * Returns 0 on success, or a negative error if any notification failed. 664*8be545baSRichard Henderson */ 665*8be545baSRichard Henderson int (*replay_populated)(const RamDiscardManager *rdm, 666*8be545baSRichard Henderson MemoryRegionSection *section, 667*8be545baSRichard Henderson ReplayRamPopulate replay_fn, void *opaque); 668*8be545baSRichard Henderson 669*8be545baSRichard Henderson /** 670*8be545baSRichard Henderson * @replay_discarded: 671*8be545baSRichard Henderson * 672*8be545baSRichard Henderson * Call the #ReplayRamDiscard callback for all discarded parts within the 673*8be545baSRichard Henderson * #MemoryRegionSection via the #RamDiscardManager. 674*8be545baSRichard Henderson * 675*8be545baSRichard Henderson * @rdm: the #RamDiscardManager 676*8be545baSRichard Henderson * @section: the #MemoryRegionSection 677*8be545baSRichard Henderson * @replay_fn: the #ReplayRamDiscard callback 678*8be545baSRichard Henderson * @opaque: pointer to forward to the callback 679*8be545baSRichard Henderson */ 680*8be545baSRichard Henderson void (*replay_discarded)(const RamDiscardManager *rdm, 681*8be545baSRichard Henderson MemoryRegionSection *section, 682*8be545baSRichard Henderson ReplayRamDiscard replay_fn, void *opaque); 683*8be545baSRichard Henderson 684*8be545baSRichard Henderson /** 685*8be545baSRichard Henderson * @register_listener: 686*8be545baSRichard Henderson * 687*8be545baSRichard Henderson * Register a #RamDiscardListener for the given #MemoryRegionSection and 688*8be545baSRichard Henderson * immediately notify the #RamDiscardListener about all populated parts 689*8be545baSRichard Henderson * within the #MemoryRegionSection via the #RamDiscardManager. 690*8be545baSRichard Henderson * 691*8be545baSRichard Henderson * In case any notification fails, no further notifications are triggered 692*8be545baSRichard Henderson * and an error is logged. 693*8be545baSRichard Henderson * 694*8be545baSRichard Henderson * @rdm: the #RamDiscardManager 695*8be545baSRichard Henderson * @rdl: the #RamDiscardListener 696*8be545baSRichard Henderson * @section: the #MemoryRegionSection 697*8be545baSRichard Henderson */ 698*8be545baSRichard Henderson void (*register_listener)(RamDiscardManager *rdm, 699*8be545baSRichard Henderson RamDiscardListener *rdl, 700*8be545baSRichard Henderson MemoryRegionSection *section); 701*8be545baSRichard Henderson 702*8be545baSRichard Henderson /** 703*8be545baSRichard Henderson * @unregister_listener: 704*8be545baSRichard Henderson * 705*8be545baSRichard Henderson * Unregister a previously registered #RamDiscardListener via the 706*8be545baSRichard Henderson * #RamDiscardManager after notifying the #RamDiscardListener about all 707*8be545baSRichard Henderson * populated parts becoming unpopulated within the registered 708*8be545baSRichard Henderson * #MemoryRegionSection. 709*8be545baSRichard Henderson * 710*8be545baSRichard Henderson * @rdm: the #RamDiscardManager 711*8be545baSRichard Henderson * @rdl: the #RamDiscardListener 712*8be545baSRichard Henderson */ 713*8be545baSRichard Henderson void (*unregister_listener)(RamDiscardManager *rdm, 714*8be545baSRichard Henderson RamDiscardListener *rdl); 715*8be545baSRichard Henderson }; 716*8be545baSRichard Henderson 717*8be545baSRichard Henderson uint64_t ram_discard_manager_get_min_granularity(const RamDiscardManager *rdm, 718*8be545baSRichard Henderson const MemoryRegion *mr); 719*8be545baSRichard Henderson 720*8be545baSRichard Henderson bool ram_discard_manager_is_populated(const RamDiscardManager *rdm, 721*8be545baSRichard Henderson const MemoryRegionSection *section); 722*8be545baSRichard Henderson 723*8be545baSRichard Henderson int ram_discard_manager_replay_populated(const RamDiscardManager *rdm, 724*8be545baSRichard Henderson MemoryRegionSection *section, 725*8be545baSRichard Henderson ReplayRamPopulate replay_fn, 726*8be545baSRichard Henderson void *opaque); 727*8be545baSRichard Henderson 728*8be545baSRichard Henderson void ram_discard_manager_replay_discarded(const RamDiscardManager *rdm, 729*8be545baSRichard Henderson MemoryRegionSection *section, 730*8be545baSRichard Henderson ReplayRamDiscard replay_fn, 731*8be545baSRichard Henderson void *opaque); 732*8be545baSRichard Henderson 733*8be545baSRichard Henderson void ram_discard_manager_register_listener(RamDiscardManager *rdm, 734*8be545baSRichard Henderson RamDiscardListener *rdl, 735*8be545baSRichard Henderson MemoryRegionSection *section); 736*8be545baSRichard Henderson 737*8be545baSRichard Henderson void ram_discard_manager_unregister_listener(RamDiscardManager *rdm, 738*8be545baSRichard Henderson RamDiscardListener *rdl); 739*8be545baSRichard Henderson 740*8be545baSRichard Henderson /** 741*8be545baSRichard Henderson * memory_get_xlat_addr: Extract addresses from a TLB entry 742*8be545baSRichard Henderson * 743*8be545baSRichard Henderson * @iotlb: pointer to an #IOMMUTLBEntry 744*8be545baSRichard Henderson * @vaddr: virtual address 745*8be545baSRichard Henderson * @ram_addr: RAM address 746*8be545baSRichard Henderson * @read_only: indicates if writes are allowed 747*8be545baSRichard Henderson * @mr_has_discard_manager: indicates memory is controlled by a 748*8be545baSRichard Henderson * RamDiscardManager 749*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 750*8be545baSRichard Henderson * 751*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 752*8be545baSRichard Henderson */ 753*8be545baSRichard Henderson bool memory_get_xlat_addr(IOMMUTLBEntry *iotlb, void **vaddr, 754*8be545baSRichard Henderson ram_addr_t *ram_addr, bool *read_only, 755*8be545baSRichard Henderson bool *mr_has_discard_manager, Error **errp); 756*8be545baSRichard Henderson 757*8be545baSRichard Henderson typedef struct CoalescedMemoryRange CoalescedMemoryRange; 758*8be545baSRichard Henderson typedef struct MemoryRegionIoeventfd MemoryRegionIoeventfd; 759*8be545baSRichard Henderson 760*8be545baSRichard Henderson /** MemoryRegion: 761*8be545baSRichard Henderson * 762*8be545baSRichard Henderson * A struct representing a memory region. 763*8be545baSRichard Henderson */ 764*8be545baSRichard Henderson struct MemoryRegion { 765*8be545baSRichard Henderson Object parent_obj; 766*8be545baSRichard Henderson 767*8be545baSRichard Henderson /* private: */ 768*8be545baSRichard Henderson 769*8be545baSRichard Henderson /* The following fields should fit in a cache line */ 770*8be545baSRichard Henderson bool romd_mode; 771*8be545baSRichard Henderson bool ram; 772*8be545baSRichard Henderson bool subpage; 773*8be545baSRichard Henderson bool readonly; /* For RAM regions */ 774*8be545baSRichard Henderson bool nonvolatile; 775*8be545baSRichard Henderson bool rom_device; 776*8be545baSRichard Henderson bool flush_coalesced_mmio; 777*8be545baSRichard Henderson bool unmergeable; 778*8be545baSRichard Henderson uint8_t dirty_log_mask; 779*8be545baSRichard Henderson bool is_iommu; 780*8be545baSRichard Henderson RAMBlock *ram_block; 781*8be545baSRichard Henderson Object *owner; 782*8be545baSRichard Henderson /* owner as TYPE_DEVICE. Used for re-entrancy checks in MR access hotpath */ 783*8be545baSRichard Henderson DeviceState *dev; 784*8be545baSRichard Henderson 785*8be545baSRichard Henderson const MemoryRegionOps *ops; 786*8be545baSRichard Henderson void *opaque; 787*8be545baSRichard Henderson MemoryRegion *container; 788*8be545baSRichard Henderson int mapped_via_alias; /* Mapped via an alias, container might be NULL */ 789*8be545baSRichard Henderson Int128 size; 790*8be545baSRichard Henderson hwaddr addr; 791*8be545baSRichard Henderson void (*destructor)(MemoryRegion *mr); 792*8be545baSRichard Henderson uint64_t align; 793*8be545baSRichard Henderson bool terminates; 794*8be545baSRichard Henderson bool ram_device; 795*8be545baSRichard Henderson bool enabled; 796*8be545baSRichard Henderson uint8_t vga_logging_count; 797*8be545baSRichard Henderson MemoryRegion *alias; 798*8be545baSRichard Henderson hwaddr alias_offset; 799*8be545baSRichard Henderson int32_t priority; 800*8be545baSRichard Henderson QTAILQ_HEAD(, MemoryRegion) subregions; 801*8be545baSRichard Henderson QTAILQ_ENTRY(MemoryRegion) subregions_link; 802*8be545baSRichard Henderson QTAILQ_HEAD(, CoalescedMemoryRange) coalesced; 803*8be545baSRichard Henderson const char *name; 804*8be545baSRichard Henderson unsigned ioeventfd_nb; 805*8be545baSRichard Henderson MemoryRegionIoeventfd *ioeventfds; 806*8be545baSRichard Henderson RamDiscardManager *rdm; /* Only for RAM */ 807*8be545baSRichard Henderson 808*8be545baSRichard Henderson /* For devices designed to perform re-entrant IO into their own IO MRs */ 809*8be545baSRichard Henderson bool disable_reentrancy_guard; 810*8be545baSRichard Henderson }; 811*8be545baSRichard Henderson 812*8be545baSRichard Henderson struct IOMMUMemoryRegion { 813*8be545baSRichard Henderson MemoryRegion parent_obj; 814*8be545baSRichard Henderson 815*8be545baSRichard Henderson QLIST_HEAD(, IOMMUNotifier) iommu_notify; 816*8be545baSRichard Henderson IOMMUNotifierFlag iommu_notify_flags; 817*8be545baSRichard Henderson }; 818*8be545baSRichard Henderson 819*8be545baSRichard Henderson #define IOMMU_NOTIFIER_FOREACH(n, mr) \ 820*8be545baSRichard Henderson QLIST_FOREACH((n), &(mr)->iommu_notify, node) 821*8be545baSRichard Henderson 822*8be545baSRichard Henderson #define MEMORY_LISTENER_PRIORITY_MIN 0 823*8be545baSRichard Henderson #define MEMORY_LISTENER_PRIORITY_ACCEL 10 824*8be545baSRichard Henderson #define MEMORY_LISTENER_PRIORITY_DEV_BACKEND 10 825*8be545baSRichard Henderson 826*8be545baSRichard Henderson /** 827*8be545baSRichard Henderson * struct MemoryListener: callbacks structure for updates to the physical memory map 828*8be545baSRichard Henderson * 829*8be545baSRichard Henderson * Allows a component to adjust to changes in the guest-visible memory map. 830*8be545baSRichard Henderson * Use with memory_listener_register() and memory_listener_unregister(). 831*8be545baSRichard Henderson */ 832*8be545baSRichard Henderson struct MemoryListener { 833*8be545baSRichard Henderson /** 834*8be545baSRichard Henderson * @begin: 835*8be545baSRichard Henderson * 836*8be545baSRichard Henderson * Called at the beginning of an address space update transaction. 837*8be545baSRichard Henderson * Followed by calls to #MemoryListener.region_add(), 838*8be545baSRichard Henderson * #MemoryListener.region_del(), #MemoryListener.region_nop(), 839*8be545baSRichard Henderson * #MemoryListener.log_start() and #MemoryListener.log_stop() in 840*8be545baSRichard Henderson * increasing address order. 841*8be545baSRichard Henderson * 842*8be545baSRichard Henderson * @listener: The #MemoryListener. 843*8be545baSRichard Henderson */ 844*8be545baSRichard Henderson void (*begin)(MemoryListener *listener); 845*8be545baSRichard Henderson 846*8be545baSRichard Henderson /** 847*8be545baSRichard Henderson * @commit: 848*8be545baSRichard Henderson * 849*8be545baSRichard Henderson * Called at the end of an address space update transaction, 850*8be545baSRichard Henderson * after the last call to #MemoryListener.region_add(), 851*8be545baSRichard Henderson * #MemoryListener.region_del() or #MemoryListener.region_nop(), 852*8be545baSRichard Henderson * #MemoryListener.log_start() and #MemoryListener.log_stop(). 853*8be545baSRichard Henderson * 854*8be545baSRichard Henderson * @listener: The #MemoryListener. 855*8be545baSRichard Henderson */ 856*8be545baSRichard Henderson void (*commit)(MemoryListener *listener); 857*8be545baSRichard Henderson 858*8be545baSRichard Henderson /** 859*8be545baSRichard Henderson * @region_add: 860*8be545baSRichard Henderson * 861*8be545baSRichard Henderson * Called during an address space update transaction, 862*8be545baSRichard Henderson * for a section of the address space that is new in this address space 863*8be545baSRichard Henderson * space since the last transaction. 864*8be545baSRichard Henderson * 865*8be545baSRichard Henderson * @listener: The #MemoryListener. 866*8be545baSRichard Henderson * @section: The new #MemoryRegionSection. 867*8be545baSRichard Henderson */ 868*8be545baSRichard Henderson void (*region_add)(MemoryListener *listener, MemoryRegionSection *section); 869*8be545baSRichard Henderson 870*8be545baSRichard Henderson /** 871*8be545baSRichard Henderson * @region_del: 872*8be545baSRichard Henderson * 873*8be545baSRichard Henderson * Called during an address space update transaction, 874*8be545baSRichard Henderson * for a section of the address space that has disappeared in the address 875*8be545baSRichard Henderson * space since the last transaction. 876*8be545baSRichard Henderson * 877*8be545baSRichard Henderson * @listener: The #MemoryListener. 878*8be545baSRichard Henderson * @section: The old #MemoryRegionSection. 879*8be545baSRichard Henderson */ 880*8be545baSRichard Henderson void (*region_del)(MemoryListener *listener, MemoryRegionSection *section); 881*8be545baSRichard Henderson 882*8be545baSRichard Henderson /** 883*8be545baSRichard Henderson * @region_nop: 884*8be545baSRichard Henderson * 885*8be545baSRichard Henderson * Called during an address space update transaction, 886*8be545baSRichard Henderson * for a section of the address space that is in the same place in the address 887*8be545baSRichard Henderson * space as in the last transaction. 888*8be545baSRichard Henderson * 889*8be545baSRichard Henderson * @listener: The #MemoryListener. 890*8be545baSRichard Henderson * @section: The #MemoryRegionSection. 891*8be545baSRichard Henderson */ 892*8be545baSRichard Henderson void (*region_nop)(MemoryListener *listener, MemoryRegionSection *section); 893*8be545baSRichard Henderson 894*8be545baSRichard Henderson /** 895*8be545baSRichard Henderson * @log_start: 896*8be545baSRichard Henderson * 897*8be545baSRichard Henderson * Called during an address space update transaction, after 898*8be545baSRichard Henderson * one of #MemoryListener.region_add(), #MemoryListener.region_del() or 899*8be545baSRichard Henderson * #MemoryListener.region_nop(), if dirty memory logging clients have 900*8be545baSRichard Henderson * become active since the last transaction. 901*8be545baSRichard Henderson * 902*8be545baSRichard Henderson * @listener: The #MemoryListener. 903*8be545baSRichard Henderson * @section: The #MemoryRegionSection. 904*8be545baSRichard Henderson * @old: A bitmap of dirty memory logging clients that were active in 905*8be545baSRichard Henderson * the previous transaction. 906*8be545baSRichard Henderson * @new: A bitmap of dirty memory logging clients that are active in 907*8be545baSRichard Henderson * the current transaction. 908*8be545baSRichard Henderson */ 909*8be545baSRichard Henderson void (*log_start)(MemoryListener *listener, MemoryRegionSection *section, 910*8be545baSRichard Henderson int old_val, int new_val); 911*8be545baSRichard Henderson 912*8be545baSRichard Henderson /** 913*8be545baSRichard Henderson * @log_stop: 914*8be545baSRichard Henderson * 915*8be545baSRichard Henderson * Called during an address space update transaction, after 916*8be545baSRichard Henderson * one of #MemoryListener.region_add(), #MemoryListener.region_del() or 917*8be545baSRichard Henderson * #MemoryListener.region_nop() and possibly after 918*8be545baSRichard Henderson * #MemoryListener.log_start(), if dirty memory logging clients have 919*8be545baSRichard Henderson * become inactive since the last transaction. 920*8be545baSRichard Henderson * 921*8be545baSRichard Henderson * @listener: The #MemoryListener. 922*8be545baSRichard Henderson * @section: The #MemoryRegionSection. 923*8be545baSRichard Henderson * @old: A bitmap of dirty memory logging clients that were active in 924*8be545baSRichard Henderson * the previous transaction. 925*8be545baSRichard Henderson * @new: A bitmap of dirty memory logging clients that are active in 926*8be545baSRichard Henderson * the current transaction. 927*8be545baSRichard Henderson */ 928*8be545baSRichard Henderson void (*log_stop)(MemoryListener *listener, MemoryRegionSection *section, 929*8be545baSRichard Henderson int old_val, int new_val); 930*8be545baSRichard Henderson 931*8be545baSRichard Henderson /** 932*8be545baSRichard Henderson * @log_sync: 933*8be545baSRichard Henderson * 934*8be545baSRichard Henderson * Called by memory_region_snapshot_and_clear_dirty() and 935*8be545baSRichard Henderson * memory_global_dirty_log_sync(), before accessing QEMU's "official" 936*8be545baSRichard Henderson * copy of the dirty memory bitmap for a #MemoryRegionSection. 937*8be545baSRichard Henderson * 938*8be545baSRichard Henderson * @listener: The #MemoryListener. 939*8be545baSRichard Henderson * @section: The #MemoryRegionSection. 940*8be545baSRichard Henderson */ 941*8be545baSRichard Henderson void (*log_sync)(MemoryListener *listener, MemoryRegionSection *section); 942*8be545baSRichard Henderson 943*8be545baSRichard Henderson /** 944*8be545baSRichard Henderson * @log_sync_global: 945*8be545baSRichard Henderson * 946*8be545baSRichard Henderson * This is the global version of @log_sync when the listener does 947*8be545baSRichard Henderson * not have a way to synchronize the log with finer granularity. 948*8be545baSRichard Henderson * When the listener registers with @log_sync_global defined, then 949*8be545baSRichard Henderson * its @log_sync must be NULL. Vice versa. 950*8be545baSRichard Henderson * 951*8be545baSRichard Henderson * @listener: The #MemoryListener. 952*8be545baSRichard Henderson * @last_stage: The last stage to synchronize the log during migration. 953*8be545baSRichard Henderson * The caller should guarantee that the synchronization with true for 954*8be545baSRichard Henderson * @last_stage is triggered for once after all VCPUs have been stopped. 955*8be545baSRichard Henderson */ 956*8be545baSRichard Henderson void (*log_sync_global)(MemoryListener *listener, bool last_stage); 957*8be545baSRichard Henderson 958*8be545baSRichard Henderson /** 959*8be545baSRichard Henderson * @log_clear: 960*8be545baSRichard Henderson * 961*8be545baSRichard Henderson * Called before reading the dirty memory bitmap for a 962*8be545baSRichard Henderson * #MemoryRegionSection. 963*8be545baSRichard Henderson * 964*8be545baSRichard Henderson * @listener: The #MemoryListener. 965*8be545baSRichard Henderson * @section: The #MemoryRegionSection. 966*8be545baSRichard Henderson */ 967*8be545baSRichard Henderson void (*log_clear)(MemoryListener *listener, MemoryRegionSection *section); 968*8be545baSRichard Henderson 969*8be545baSRichard Henderson /** 970*8be545baSRichard Henderson * @log_global_start: 971*8be545baSRichard Henderson * 972*8be545baSRichard Henderson * Called by memory_global_dirty_log_start(), which 973*8be545baSRichard Henderson * enables the %DIRTY_LOG_MIGRATION client on all memory regions in 974*8be545baSRichard Henderson * the address space. #MemoryListener.log_global_start() is also 975*8be545baSRichard Henderson * called when a #MemoryListener is added, if global dirty logging is 976*8be545baSRichard Henderson * active at that time. 977*8be545baSRichard Henderson * 978*8be545baSRichard Henderson * @listener: The #MemoryListener. 979*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 980*8be545baSRichard Henderson * 981*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 982*8be545baSRichard Henderson */ 983*8be545baSRichard Henderson bool (*log_global_start)(MemoryListener *listener, Error **errp); 984*8be545baSRichard Henderson 985*8be545baSRichard Henderson /** 986*8be545baSRichard Henderson * @log_global_stop: 987*8be545baSRichard Henderson * 988*8be545baSRichard Henderson * Called by memory_global_dirty_log_stop(), which 989*8be545baSRichard Henderson * disables the %DIRTY_LOG_MIGRATION client on all memory regions in 990*8be545baSRichard Henderson * the address space. 991*8be545baSRichard Henderson * 992*8be545baSRichard Henderson * @listener: The #MemoryListener. 993*8be545baSRichard Henderson */ 994*8be545baSRichard Henderson void (*log_global_stop)(MemoryListener *listener); 995*8be545baSRichard Henderson 996*8be545baSRichard Henderson /** 997*8be545baSRichard Henderson * @log_global_after_sync: 998*8be545baSRichard Henderson * 999*8be545baSRichard Henderson * Called after reading the dirty memory bitmap 1000*8be545baSRichard Henderson * for any #MemoryRegionSection. 1001*8be545baSRichard Henderson * 1002*8be545baSRichard Henderson * @listener: The #MemoryListener. 1003*8be545baSRichard Henderson */ 1004*8be545baSRichard Henderson void (*log_global_after_sync)(MemoryListener *listener); 1005*8be545baSRichard Henderson 1006*8be545baSRichard Henderson /** 1007*8be545baSRichard Henderson * @eventfd_add: 1008*8be545baSRichard Henderson * 1009*8be545baSRichard Henderson * Called during an address space update transaction, 1010*8be545baSRichard Henderson * for a section of the address space that has had a new ioeventfd 1011*8be545baSRichard Henderson * registration since the last transaction. 1012*8be545baSRichard Henderson * 1013*8be545baSRichard Henderson * @listener: The #MemoryListener. 1014*8be545baSRichard Henderson * @section: The new #MemoryRegionSection. 1015*8be545baSRichard Henderson * @match_data: The @match_data parameter for the new ioeventfd. 1016*8be545baSRichard Henderson * @data: The @data parameter for the new ioeventfd. 1017*8be545baSRichard Henderson * @e: The #EventNotifier parameter for the new ioeventfd. 1018*8be545baSRichard Henderson */ 1019*8be545baSRichard Henderson void (*eventfd_add)(MemoryListener *listener, MemoryRegionSection *section, 1020*8be545baSRichard Henderson bool match_data, uint64_t data, EventNotifier *e); 1021*8be545baSRichard Henderson 1022*8be545baSRichard Henderson /** 1023*8be545baSRichard Henderson * @eventfd_del: 1024*8be545baSRichard Henderson * 1025*8be545baSRichard Henderson * Called during an address space update transaction, 1026*8be545baSRichard Henderson * for a section of the address space that has dropped an ioeventfd 1027*8be545baSRichard Henderson * registration since the last transaction. 1028*8be545baSRichard Henderson * 1029*8be545baSRichard Henderson * @listener: The #MemoryListener. 1030*8be545baSRichard Henderson * @section: The new #MemoryRegionSection. 1031*8be545baSRichard Henderson * @match_data: The @match_data parameter for the dropped ioeventfd. 1032*8be545baSRichard Henderson * @data: The @data parameter for the dropped ioeventfd. 1033*8be545baSRichard Henderson * @e: The #EventNotifier parameter for the dropped ioeventfd. 1034*8be545baSRichard Henderson */ 1035*8be545baSRichard Henderson void (*eventfd_del)(MemoryListener *listener, MemoryRegionSection *section, 1036*8be545baSRichard Henderson bool match_data, uint64_t data, EventNotifier *e); 1037*8be545baSRichard Henderson 1038*8be545baSRichard Henderson /** 1039*8be545baSRichard Henderson * @coalesced_io_add: 1040*8be545baSRichard Henderson * 1041*8be545baSRichard Henderson * Called during an address space update transaction, 1042*8be545baSRichard Henderson * for a section of the address space that has had a new coalesced 1043*8be545baSRichard Henderson * MMIO range registration since the last transaction. 1044*8be545baSRichard Henderson * 1045*8be545baSRichard Henderson * @listener: The #MemoryListener. 1046*8be545baSRichard Henderson * @section: The new #MemoryRegionSection. 1047*8be545baSRichard Henderson * @addr: The starting address for the coalesced MMIO range. 1048*8be545baSRichard Henderson * @len: The length of the coalesced MMIO range. 1049*8be545baSRichard Henderson */ 1050*8be545baSRichard Henderson void (*coalesced_io_add)(MemoryListener *listener, MemoryRegionSection *section, 1051*8be545baSRichard Henderson hwaddr addr, hwaddr len); 1052*8be545baSRichard Henderson 1053*8be545baSRichard Henderson /** 1054*8be545baSRichard Henderson * @coalesced_io_del: 1055*8be545baSRichard Henderson * 1056*8be545baSRichard Henderson * Called during an address space update transaction, 1057*8be545baSRichard Henderson * for a section of the address space that has dropped a coalesced 1058*8be545baSRichard Henderson * MMIO range since the last transaction. 1059*8be545baSRichard Henderson * 1060*8be545baSRichard Henderson * @listener: The #MemoryListener. 1061*8be545baSRichard Henderson * @section: The new #MemoryRegionSection. 1062*8be545baSRichard Henderson * @addr: The starting address for the coalesced MMIO range. 1063*8be545baSRichard Henderson * @len: The length of the coalesced MMIO range. 1064*8be545baSRichard Henderson */ 1065*8be545baSRichard Henderson void (*coalesced_io_del)(MemoryListener *listener, MemoryRegionSection *section, 1066*8be545baSRichard Henderson hwaddr addr, hwaddr len); 1067*8be545baSRichard Henderson /** 1068*8be545baSRichard Henderson * @priority: 1069*8be545baSRichard Henderson * 1070*8be545baSRichard Henderson * Govern the order in which memory listeners are invoked. Lower priorities 1071*8be545baSRichard Henderson * are invoked earlier for "add" or "start" callbacks, and later for "delete" 1072*8be545baSRichard Henderson * or "stop" callbacks. 1073*8be545baSRichard Henderson */ 1074*8be545baSRichard Henderson unsigned priority; 1075*8be545baSRichard Henderson 1076*8be545baSRichard Henderson /** 1077*8be545baSRichard Henderson * @name: 1078*8be545baSRichard Henderson * 1079*8be545baSRichard Henderson * Name of the listener. It can be used in contexts where we'd like to 1080*8be545baSRichard Henderson * identify one memory listener with the rest. 1081*8be545baSRichard Henderson */ 1082*8be545baSRichard Henderson const char *name; 1083*8be545baSRichard Henderson 1084*8be545baSRichard Henderson /* private: */ 1085*8be545baSRichard Henderson AddressSpace *address_space; 1086*8be545baSRichard Henderson QTAILQ_ENTRY(MemoryListener) link; 1087*8be545baSRichard Henderson QTAILQ_ENTRY(MemoryListener) link_as; 1088*8be545baSRichard Henderson }; 1089*8be545baSRichard Henderson 1090*8be545baSRichard Henderson typedef struct AddressSpaceMapClient { 1091*8be545baSRichard Henderson QEMUBH *bh; 1092*8be545baSRichard Henderson QLIST_ENTRY(AddressSpaceMapClient) link; 1093*8be545baSRichard Henderson } AddressSpaceMapClient; 1094*8be545baSRichard Henderson 1095*8be545baSRichard Henderson #define DEFAULT_MAX_BOUNCE_BUFFER_SIZE (4096) 1096*8be545baSRichard Henderson 1097*8be545baSRichard Henderson /** 1098*8be545baSRichard Henderson * struct AddressSpace: describes a mapping of addresses to #MemoryRegion objects 1099*8be545baSRichard Henderson */ 1100*8be545baSRichard Henderson struct AddressSpace { 1101*8be545baSRichard Henderson /* private: */ 1102*8be545baSRichard Henderson struct rcu_head rcu; 1103*8be545baSRichard Henderson char *name; 1104*8be545baSRichard Henderson MemoryRegion *root; 1105*8be545baSRichard Henderson 1106*8be545baSRichard Henderson /* Accessed via RCU. */ 1107*8be545baSRichard Henderson struct FlatView *current_map; 1108*8be545baSRichard Henderson 1109*8be545baSRichard Henderson int ioeventfd_nb; 1110*8be545baSRichard Henderson int ioeventfd_notifiers; 1111*8be545baSRichard Henderson struct MemoryRegionIoeventfd *ioeventfds; 1112*8be545baSRichard Henderson QTAILQ_HEAD(, MemoryListener) listeners; 1113*8be545baSRichard Henderson QTAILQ_ENTRY(AddressSpace) address_spaces_link; 1114*8be545baSRichard Henderson 1115*8be545baSRichard Henderson /* 1116*8be545baSRichard Henderson * Maximum DMA bounce buffer size used for indirect memory map requests. 1117*8be545baSRichard Henderson * This limits the total size of bounce buffer allocations made for 1118*8be545baSRichard Henderson * DMA requests to indirect memory regions within this AddressSpace. DMA 1119*8be545baSRichard Henderson * requests that exceed the limit (e.g. due to overly large requested size 1120*8be545baSRichard Henderson * or concurrent DMA requests having claimed too much buffer space) will be 1121*8be545baSRichard Henderson * rejected and left to the caller to handle. 1122*8be545baSRichard Henderson */ 1123*8be545baSRichard Henderson size_t max_bounce_buffer_size; 1124*8be545baSRichard Henderson /* Total size of bounce buffers currently allocated, atomically accessed */ 1125*8be545baSRichard Henderson size_t bounce_buffer_size; 1126*8be545baSRichard Henderson /* List of callbacks to invoke when buffers free up */ 1127*8be545baSRichard Henderson QemuMutex map_client_list_lock; 1128*8be545baSRichard Henderson QLIST_HEAD(, AddressSpaceMapClient) map_client_list; 1129*8be545baSRichard Henderson }; 1130*8be545baSRichard Henderson 1131*8be545baSRichard Henderson typedef struct AddressSpaceDispatch AddressSpaceDispatch; 1132*8be545baSRichard Henderson typedef struct FlatRange FlatRange; 1133*8be545baSRichard Henderson 1134*8be545baSRichard Henderson /* Flattened global view of current active memory hierarchy. Kept in sorted 1135*8be545baSRichard Henderson * order. 1136*8be545baSRichard Henderson */ 1137*8be545baSRichard Henderson struct FlatView { 1138*8be545baSRichard Henderson struct rcu_head rcu; 1139*8be545baSRichard Henderson unsigned ref; 1140*8be545baSRichard Henderson FlatRange *ranges; 1141*8be545baSRichard Henderson unsigned nr; 1142*8be545baSRichard Henderson unsigned nr_allocated; 1143*8be545baSRichard Henderson struct AddressSpaceDispatch *dispatch; 1144*8be545baSRichard Henderson MemoryRegion *root; 1145*8be545baSRichard Henderson }; 1146*8be545baSRichard Henderson 1147*8be545baSRichard Henderson static inline FlatView *address_space_to_flatview(AddressSpace *as) 1148*8be545baSRichard Henderson { 1149*8be545baSRichard Henderson return qatomic_rcu_read(&as->current_map); 1150*8be545baSRichard Henderson } 1151*8be545baSRichard Henderson 1152*8be545baSRichard Henderson /** 1153*8be545baSRichard Henderson * typedef flatview_cb: callback for flatview_for_each_range() 1154*8be545baSRichard Henderson * 1155*8be545baSRichard Henderson * @start: start address of the range within the FlatView 1156*8be545baSRichard Henderson * @len: length of the range in bytes 1157*8be545baSRichard Henderson * @mr: MemoryRegion covering this range 1158*8be545baSRichard Henderson * @offset_in_region: offset of the first byte of the range within @mr 1159*8be545baSRichard Henderson * @opaque: data pointer passed to flatview_for_each_range() 1160*8be545baSRichard Henderson * 1161*8be545baSRichard Henderson * Returns: true to stop the iteration, false to keep going. 1162*8be545baSRichard Henderson */ 1163*8be545baSRichard Henderson typedef bool (*flatview_cb)(Int128 start, 1164*8be545baSRichard Henderson Int128 len, 1165*8be545baSRichard Henderson const MemoryRegion *mr, 1166*8be545baSRichard Henderson hwaddr offset_in_region, 1167*8be545baSRichard Henderson void *opaque); 1168*8be545baSRichard Henderson 1169*8be545baSRichard Henderson /** 1170*8be545baSRichard Henderson * flatview_for_each_range: Iterate through a FlatView 1171*8be545baSRichard Henderson * @fv: the FlatView to iterate through 1172*8be545baSRichard Henderson * @cb: function to call for each range 1173*8be545baSRichard Henderson * @opaque: opaque data pointer to pass to @cb 1174*8be545baSRichard Henderson * 1175*8be545baSRichard Henderson * A FlatView is made up of a list of non-overlapping ranges, each of 1176*8be545baSRichard Henderson * which is a slice of a MemoryRegion. This function iterates through 1177*8be545baSRichard Henderson * each range in @fv, calling @cb. The callback function can terminate 1178*8be545baSRichard Henderson * iteration early by returning 'true'. 1179*8be545baSRichard Henderson */ 1180*8be545baSRichard Henderson void flatview_for_each_range(FlatView *fv, flatview_cb cb, void *opaque); 1181*8be545baSRichard Henderson 1182*8be545baSRichard Henderson static inline bool MemoryRegionSection_eq(MemoryRegionSection *a, 1183*8be545baSRichard Henderson MemoryRegionSection *b) 1184*8be545baSRichard Henderson { 1185*8be545baSRichard Henderson return a->mr == b->mr && 1186*8be545baSRichard Henderson a->fv == b->fv && 1187*8be545baSRichard Henderson a->offset_within_region == b->offset_within_region && 1188*8be545baSRichard Henderson a->offset_within_address_space == b->offset_within_address_space && 1189*8be545baSRichard Henderson int128_eq(a->size, b->size) && 1190*8be545baSRichard Henderson a->readonly == b->readonly && 1191*8be545baSRichard Henderson a->nonvolatile == b->nonvolatile; 1192*8be545baSRichard Henderson } 1193*8be545baSRichard Henderson 1194*8be545baSRichard Henderson /** 1195*8be545baSRichard Henderson * memory_region_section_new_copy: Copy a memory region section 1196*8be545baSRichard Henderson * 1197*8be545baSRichard Henderson * Allocate memory for a new copy, copy the memory region section, and 1198*8be545baSRichard Henderson * properly take a reference on all relevant members. 1199*8be545baSRichard Henderson * 1200*8be545baSRichard Henderson * @s: the #MemoryRegionSection to copy 1201*8be545baSRichard Henderson */ 1202*8be545baSRichard Henderson MemoryRegionSection *memory_region_section_new_copy(MemoryRegionSection *s); 1203*8be545baSRichard Henderson 1204*8be545baSRichard Henderson /** 1205*8be545baSRichard Henderson * memory_region_section_free_copy: Free a copied memory region section 1206*8be545baSRichard Henderson * 1207*8be545baSRichard Henderson * Free a copy of a memory section created via memory_region_section_new_copy(). 1208*8be545baSRichard Henderson * properly dropping references on all relevant members. 1209*8be545baSRichard Henderson * 1210*8be545baSRichard Henderson * @s: the #MemoryRegionSection to copy 1211*8be545baSRichard Henderson */ 1212*8be545baSRichard Henderson void memory_region_section_free_copy(MemoryRegionSection *s); 1213*8be545baSRichard Henderson 1214*8be545baSRichard Henderson /** 1215*8be545baSRichard Henderson * memory_region_init: Initialize a memory region 1216*8be545baSRichard Henderson * 1217*8be545baSRichard Henderson * The region typically acts as a container for other memory regions. Use 1218*8be545baSRichard Henderson * memory_region_add_subregion() to add subregions. 1219*8be545baSRichard Henderson * 1220*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized 1221*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1222*8be545baSRichard Henderson * @name: used for debugging; not visible to the user or ABI 1223*8be545baSRichard Henderson * @size: size of the region; any subregions beyond this size will be clipped 1224*8be545baSRichard Henderson */ 1225*8be545baSRichard Henderson void memory_region_init(MemoryRegion *mr, 1226*8be545baSRichard Henderson Object *owner, 1227*8be545baSRichard Henderson const char *name, 1228*8be545baSRichard Henderson uint64_t size); 1229*8be545baSRichard Henderson 1230*8be545baSRichard Henderson /** 1231*8be545baSRichard Henderson * memory_region_ref: Add 1 to a memory region's reference count 1232*8be545baSRichard Henderson * 1233*8be545baSRichard Henderson * Whenever memory regions are accessed outside the BQL, they need to be 1234*8be545baSRichard Henderson * preserved against hot-unplug. MemoryRegions actually do not have their 1235*8be545baSRichard Henderson * own reference count; they piggyback on a QOM object, their "owner". 1236*8be545baSRichard Henderson * This function adds a reference to the owner. 1237*8be545baSRichard Henderson * 1238*8be545baSRichard Henderson * All MemoryRegions must have an owner if they can disappear, even if the 1239*8be545baSRichard Henderson * device they belong to operates exclusively under the BQL. This is because 1240*8be545baSRichard Henderson * the region could be returned at any time by memory_region_find, and this 1241*8be545baSRichard Henderson * is usually under guest control. 1242*8be545baSRichard Henderson * 1243*8be545baSRichard Henderson * @mr: the #MemoryRegion 1244*8be545baSRichard Henderson */ 1245*8be545baSRichard Henderson void memory_region_ref(MemoryRegion *mr); 1246*8be545baSRichard Henderson 1247*8be545baSRichard Henderson /** 1248*8be545baSRichard Henderson * memory_region_unref: Remove 1 to a memory region's reference count 1249*8be545baSRichard Henderson * 1250*8be545baSRichard Henderson * Whenever memory regions are accessed outside the BQL, they need to be 1251*8be545baSRichard Henderson * preserved against hot-unplug. MemoryRegions actually do not have their 1252*8be545baSRichard Henderson * own reference count; they piggyback on a QOM object, their "owner". 1253*8be545baSRichard Henderson * This function removes a reference to the owner and possibly destroys it. 1254*8be545baSRichard Henderson * 1255*8be545baSRichard Henderson * @mr: the #MemoryRegion 1256*8be545baSRichard Henderson */ 1257*8be545baSRichard Henderson void memory_region_unref(MemoryRegion *mr); 1258*8be545baSRichard Henderson 1259*8be545baSRichard Henderson /** 1260*8be545baSRichard Henderson * memory_region_init_io: Initialize an I/O memory region. 1261*8be545baSRichard Henderson * 1262*8be545baSRichard Henderson * Accesses into the region will cause the callbacks in @ops to be called. 1263*8be545baSRichard Henderson * if @size is nonzero, subregions will be clipped to @size. 1264*8be545baSRichard Henderson * 1265*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1266*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1267*8be545baSRichard Henderson * @ops: a structure containing read and write callbacks to be used when 1268*8be545baSRichard Henderson * I/O is performed on the region. 1269*8be545baSRichard Henderson * @opaque: passed to the read and write callbacks of the @ops structure. 1270*8be545baSRichard Henderson * @name: used for debugging; not visible to the user or ABI 1271*8be545baSRichard Henderson * @size: size of the region. 1272*8be545baSRichard Henderson */ 1273*8be545baSRichard Henderson void memory_region_init_io(MemoryRegion *mr, 1274*8be545baSRichard Henderson Object *owner, 1275*8be545baSRichard Henderson const MemoryRegionOps *ops, 1276*8be545baSRichard Henderson void *opaque, 1277*8be545baSRichard Henderson const char *name, 1278*8be545baSRichard Henderson uint64_t size); 1279*8be545baSRichard Henderson 1280*8be545baSRichard Henderson /** 1281*8be545baSRichard Henderson * memory_region_init_ram_nomigrate: Initialize RAM memory region. Accesses 1282*8be545baSRichard Henderson * into the region will modify memory 1283*8be545baSRichard Henderson * directly. 1284*8be545baSRichard Henderson * 1285*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1286*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1287*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1288*8be545baSRichard Henderson * must be unique within any device 1289*8be545baSRichard Henderson * @size: size of the region. 1290*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1291*8be545baSRichard Henderson * 1292*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1293*8be545baSRichard Henderson * RAM memory region to be migrated; that is the responsibility of the caller. 1294*8be545baSRichard Henderson * 1295*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1296*8be545baSRichard Henderson */ 1297*8be545baSRichard Henderson bool memory_region_init_ram_nomigrate(MemoryRegion *mr, 1298*8be545baSRichard Henderson Object *owner, 1299*8be545baSRichard Henderson const char *name, 1300*8be545baSRichard Henderson uint64_t size, 1301*8be545baSRichard Henderson Error **errp); 1302*8be545baSRichard Henderson 1303*8be545baSRichard Henderson /** 1304*8be545baSRichard Henderson * memory_region_init_ram_flags_nomigrate: Initialize RAM memory region. 1305*8be545baSRichard Henderson * Accesses into the region will 1306*8be545baSRichard Henderson * modify memory directly. 1307*8be545baSRichard Henderson * 1308*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1309*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1310*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1311*8be545baSRichard Henderson * must be unique within any device 1312*8be545baSRichard Henderson * @size: size of the region. 1313*8be545baSRichard Henderson * @ram_flags: RamBlock flags. Supported flags: RAM_SHARED, RAM_NORESERVE, 1314*8be545baSRichard Henderson * RAM_GUEST_MEMFD. 1315*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1316*8be545baSRichard Henderson * 1317*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1318*8be545baSRichard Henderson * RAM memory region to be migrated; that is the responsibility of the caller. 1319*8be545baSRichard Henderson * 1320*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1321*8be545baSRichard Henderson */ 1322*8be545baSRichard Henderson bool memory_region_init_ram_flags_nomigrate(MemoryRegion *mr, 1323*8be545baSRichard Henderson Object *owner, 1324*8be545baSRichard Henderson const char *name, 1325*8be545baSRichard Henderson uint64_t size, 1326*8be545baSRichard Henderson uint32_t ram_flags, 1327*8be545baSRichard Henderson Error **errp); 1328*8be545baSRichard Henderson 1329*8be545baSRichard Henderson /** 1330*8be545baSRichard Henderson * memory_region_init_resizeable_ram: Initialize memory region with resizable 1331*8be545baSRichard Henderson * RAM. Accesses into the region will 1332*8be545baSRichard Henderson * modify memory directly. Only an initial 1333*8be545baSRichard Henderson * portion of this RAM is actually used. 1334*8be545baSRichard Henderson * Changing the size while migrating 1335*8be545baSRichard Henderson * can result in the migration being 1336*8be545baSRichard Henderson * canceled. 1337*8be545baSRichard Henderson * 1338*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1339*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1340*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1341*8be545baSRichard Henderson * must be unique within any device 1342*8be545baSRichard Henderson * @size: used size of the region. 1343*8be545baSRichard Henderson * @max_size: max size of the region. 1344*8be545baSRichard Henderson * @resized: callback to notify owner about used size change. 1345*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1346*8be545baSRichard Henderson * 1347*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1348*8be545baSRichard Henderson * RAM memory region to be migrated; that is the responsibility of the caller. 1349*8be545baSRichard Henderson * 1350*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1351*8be545baSRichard Henderson */ 1352*8be545baSRichard Henderson bool memory_region_init_resizeable_ram(MemoryRegion *mr, 1353*8be545baSRichard Henderson Object *owner, 1354*8be545baSRichard Henderson const char *name, 1355*8be545baSRichard Henderson uint64_t size, 1356*8be545baSRichard Henderson uint64_t max_size, 1357*8be545baSRichard Henderson void (*resized)(const char*, 1358*8be545baSRichard Henderson uint64_t length, 1359*8be545baSRichard Henderson void *host), 1360*8be545baSRichard Henderson Error **errp); 1361*8be545baSRichard Henderson #ifdef CONFIG_POSIX 1362*8be545baSRichard Henderson 1363*8be545baSRichard Henderson /** 1364*8be545baSRichard Henderson * memory_region_init_ram_from_file: Initialize RAM memory region with a 1365*8be545baSRichard Henderson * mmap-ed backend. 1366*8be545baSRichard Henderson * 1367*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1368*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1369*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1370*8be545baSRichard Henderson * must be unique within any device 1371*8be545baSRichard Henderson * @size: size of the region. 1372*8be545baSRichard Henderson * @align: alignment of the region base address; if 0, the default alignment 1373*8be545baSRichard Henderson * (getpagesize()) will be used. 1374*8be545baSRichard Henderson * @ram_flags: RamBlock flags. Supported flags: RAM_SHARED, RAM_PMEM, 1375*8be545baSRichard Henderson * RAM_NORESERVE, RAM_PROTECTED, RAM_NAMED_FILE, RAM_READONLY, 1376*8be545baSRichard Henderson * RAM_READONLY_FD, RAM_GUEST_MEMFD 1377*8be545baSRichard Henderson * @path: the path in which to allocate the RAM. 1378*8be545baSRichard Henderson * @offset: offset within the file referenced by path 1379*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1380*8be545baSRichard Henderson * 1381*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1382*8be545baSRichard Henderson * RAM memory region to be migrated; that is the responsibility of the caller. 1383*8be545baSRichard Henderson * 1384*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1385*8be545baSRichard Henderson */ 1386*8be545baSRichard Henderson bool memory_region_init_ram_from_file(MemoryRegion *mr, 1387*8be545baSRichard Henderson Object *owner, 1388*8be545baSRichard Henderson const char *name, 1389*8be545baSRichard Henderson uint64_t size, 1390*8be545baSRichard Henderson uint64_t align, 1391*8be545baSRichard Henderson uint32_t ram_flags, 1392*8be545baSRichard Henderson const char *path, 1393*8be545baSRichard Henderson ram_addr_t offset, 1394*8be545baSRichard Henderson Error **errp); 1395*8be545baSRichard Henderson 1396*8be545baSRichard Henderson /** 1397*8be545baSRichard Henderson * memory_region_init_ram_from_fd: Initialize RAM memory region with a 1398*8be545baSRichard Henderson * mmap-ed backend. 1399*8be545baSRichard Henderson * 1400*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1401*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1402*8be545baSRichard Henderson * @name: the name of the region. 1403*8be545baSRichard Henderson * @size: size of the region. 1404*8be545baSRichard Henderson * @ram_flags: RamBlock flags. Supported flags: RAM_SHARED, RAM_PMEM, 1405*8be545baSRichard Henderson * RAM_NORESERVE, RAM_PROTECTED, RAM_NAMED_FILE, RAM_READONLY, 1406*8be545baSRichard Henderson * RAM_READONLY_FD, RAM_GUEST_MEMFD 1407*8be545baSRichard Henderson * @fd: the fd to mmap. 1408*8be545baSRichard Henderson * @offset: offset within the file referenced by fd 1409*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1410*8be545baSRichard Henderson * 1411*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1412*8be545baSRichard Henderson * RAM memory region to be migrated; that is the responsibility of the caller. 1413*8be545baSRichard Henderson * 1414*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1415*8be545baSRichard Henderson */ 1416*8be545baSRichard Henderson bool memory_region_init_ram_from_fd(MemoryRegion *mr, 1417*8be545baSRichard Henderson Object *owner, 1418*8be545baSRichard Henderson const char *name, 1419*8be545baSRichard Henderson uint64_t size, 1420*8be545baSRichard Henderson uint32_t ram_flags, 1421*8be545baSRichard Henderson int fd, 1422*8be545baSRichard Henderson ram_addr_t offset, 1423*8be545baSRichard Henderson Error **errp); 1424*8be545baSRichard Henderson #endif 1425*8be545baSRichard Henderson 1426*8be545baSRichard Henderson /** 1427*8be545baSRichard Henderson * memory_region_init_ram_ptr: Initialize RAM memory region from a 1428*8be545baSRichard Henderson * user-provided pointer. Accesses into the 1429*8be545baSRichard Henderson * region will modify memory directly. 1430*8be545baSRichard Henderson * 1431*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1432*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1433*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1434*8be545baSRichard Henderson * must be unique within any device 1435*8be545baSRichard Henderson * @size: size of the region. 1436*8be545baSRichard Henderson * @ptr: memory to be mapped; must contain at least @size bytes. 1437*8be545baSRichard Henderson * 1438*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1439*8be545baSRichard Henderson * RAM memory region to be migrated; that is the responsibility of the caller. 1440*8be545baSRichard Henderson */ 1441*8be545baSRichard Henderson void memory_region_init_ram_ptr(MemoryRegion *mr, 1442*8be545baSRichard Henderson Object *owner, 1443*8be545baSRichard Henderson const char *name, 1444*8be545baSRichard Henderson uint64_t size, 1445*8be545baSRichard Henderson void *ptr); 1446*8be545baSRichard Henderson 1447*8be545baSRichard Henderson /** 1448*8be545baSRichard Henderson * memory_region_init_ram_device_ptr: Initialize RAM device memory region from 1449*8be545baSRichard Henderson * a user-provided pointer. 1450*8be545baSRichard Henderson * 1451*8be545baSRichard Henderson * A RAM device represents a mapping to a physical device, such as to a PCI 1452*8be545baSRichard Henderson * MMIO BAR of an vfio-pci assigned device. The memory region may be mapped 1453*8be545baSRichard Henderson * into the VM address space and access to the region will modify memory 1454*8be545baSRichard Henderson * directly. However, the memory region should not be included in a memory 1455*8be545baSRichard Henderson * dump (device may not be enabled/mapped at the time of the dump), and 1456*8be545baSRichard Henderson * operations incompatible with manipulating MMIO should be avoided. Replaces 1457*8be545baSRichard Henderson * skip_dump flag. 1458*8be545baSRichard Henderson * 1459*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1460*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1461*8be545baSRichard Henderson * @name: the name of the region. 1462*8be545baSRichard Henderson * @size: size of the region. 1463*8be545baSRichard Henderson * @ptr: memory to be mapped; must contain at least @size bytes. 1464*8be545baSRichard Henderson * 1465*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1466*8be545baSRichard Henderson * RAM memory region to be migrated; that is the responsibility of the caller. 1467*8be545baSRichard Henderson * (For RAM device memory regions, migrating the contents rarely makes sense.) 1468*8be545baSRichard Henderson */ 1469*8be545baSRichard Henderson void memory_region_init_ram_device_ptr(MemoryRegion *mr, 1470*8be545baSRichard Henderson Object *owner, 1471*8be545baSRichard Henderson const char *name, 1472*8be545baSRichard Henderson uint64_t size, 1473*8be545baSRichard Henderson void *ptr); 1474*8be545baSRichard Henderson 1475*8be545baSRichard Henderson /** 1476*8be545baSRichard Henderson * memory_region_init_alias: Initialize a memory region that aliases all or a 1477*8be545baSRichard Henderson * part of another memory region. 1478*8be545baSRichard Henderson * 1479*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1480*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1481*8be545baSRichard Henderson * @name: used for debugging; not visible to the user or ABI 1482*8be545baSRichard Henderson * @orig: the region to be referenced; @mr will be equivalent to 1483*8be545baSRichard Henderson * @orig between @offset and @offset + @size - 1. 1484*8be545baSRichard Henderson * @offset: start of the section in @orig to be referenced. 1485*8be545baSRichard Henderson * @size: size of the region. 1486*8be545baSRichard Henderson */ 1487*8be545baSRichard Henderson void memory_region_init_alias(MemoryRegion *mr, 1488*8be545baSRichard Henderson Object *owner, 1489*8be545baSRichard Henderson const char *name, 1490*8be545baSRichard Henderson MemoryRegion *orig, 1491*8be545baSRichard Henderson hwaddr offset, 1492*8be545baSRichard Henderson uint64_t size); 1493*8be545baSRichard Henderson 1494*8be545baSRichard Henderson /** 1495*8be545baSRichard Henderson * memory_region_init_rom_nomigrate: Initialize a ROM memory region. 1496*8be545baSRichard Henderson * 1497*8be545baSRichard Henderson * This has the same effect as calling memory_region_init_ram_nomigrate() 1498*8be545baSRichard Henderson * and then marking the resulting region read-only with 1499*8be545baSRichard Henderson * memory_region_set_readonly(). 1500*8be545baSRichard Henderson * 1501*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1502*8be545baSRichard Henderson * RAM side of the memory region to be migrated; that is the responsibility 1503*8be545baSRichard Henderson * of the caller. 1504*8be545baSRichard Henderson * 1505*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1506*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1507*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1508*8be545baSRichard Henderson * must be unique within any device 1509*8be545baSRichard Henderson * @size: size of the region. 1510*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1511*8be545baSRichard Henderson * 1512*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1513*8be545baSRichard Henderson */ 1514*8be545baSRichard Henderson bool memory_region_init_rom_nomigrate(MemoryRegion *mr, 1515*8be545baSRichard Henderson Object *owner, 1516*8be545baSRichard Henderson const char *name, 1517*8be545baSRichard Henderson uint64_t size, 1518*8be545baSRichard Henderson Error **errp); 1519*8be545baSRichard Henderson 1520*8be545baSRichard Henderson /** 1521*8be545baSRichard Henderson * memory_region_init_rom_device_nomigrate: Initialize a ROM memory region. 1522*8be545baSRichard Henderson * Writes are handled via callbacks. 1523*8be545baSRichard Henderson * 1524*8be545baSRichard Henderson * Note that this function does not do anything to cause the data in the 1525*8be545baSRichard Henderson * RAM side of the memory region to be migrated; that is the responsibility 1526*8be545baSRichard Henderson * of the caller. 1527*8be545baSRichard Henderson * 1528*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1529*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1530*8be545baSRichard Henderson * @ops: callbacks for write access handling (must not be NULL). 1531*8be545baSRichard Henderson * @opaque: passed to the read and write callbacks of the @ops structure. 1532*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1533*8be545baSRichard Henderson * must be unique within any device 1534*8be545baSRichard Henderson * @size: size of the region. 1535*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1536*8be545baSRichard Henderson * 1537*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1538*8be545baSRichard Henderson */ 1539*8be545baSRichard Henderson bool memory_region_init_rom_device_nomigrate(MemoryRegion *mr, 1540*8be545baSRichard Henderson Object *owner, 1541*8be545baSRichard Henderson const MemoryRegionOps *ops, 1542*8be545baSRichard Henderson void *opaque, 1543*8be545baSRichard Henderson const char *name, 1544*8be545baSRichard Henderson uint64_t size, 1545*8be545baSRichard Henderson Error **errp); 1546*8be545baSRichard Henderson 1547*8be545baSRichard Henderson /** 1548*8be545baSRichard Henderson * memory_region_init_iommu: Initialize a memory region of a custom type 1549*8be545baSRichard Henderson * that translates addresses 1550*8be545baSRichard Henderson * 1551*8be545baSRichard Henderson * An IOMMU region translates addresses and forwards accesses to a target 1552*8be545baSRichard Henderson * memory region. 1553*8be545baSRichard Henderson * 1554*8be545baSRichard Henderson * The IOMMU implementation must define a subclass of TYPE_IOMMU_MEMORY_REGION. 1555*8be545baSRichard Henderson * @_iommu_mr should be a pointer to enough memory for an instance of 1556*8be545baSRichard Henderson * that subclass, @instance_size is the size of that subclass, and 1557*8be545baSRichard Henderson * @mrtypename is its name. This function will initialize @_iommu_mr as an 1558*8be545baSRichard Henderson * instance of the subclass, and its methods will then be called to handle 1559*8be545baSRichard Henderson * accesses to the memory region. See the documentation of 1560*8be545baSRichard Henderson * #IOMMUMemoryRegionClass for further details. 1561*8be545baSRichard Henderson * 1562*8be545baSRichard Henderson * @_iommu_mr: the #IOMMUMemoryRegion to be initialized 1563*8be545baSRichard Henderson * @instance_size: the IOMMUMemoryRegion subclass instance size 1564*8be545baSRichard Henderson * @mrtypename: the type name of the #IOMMUMemoryRegion 1565*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1566*8be545baSRichard Henderson * @name: used for debugging; not visible to the user or ABI 1567*8be545baSRichard Henderson * @size: size of the region. 1568*8be545baSRichard Henderson */ 1569*8be545baSRichard Henderson void memory_region_init_iommu(void *_iommu_mr, 1570*8be545baSRichard Henderson size_t instance_size, 1571*8be545baSRichard Henderson const char *mrtypename, 1572*8be545baSRichard Henderson Object *owner, 1573*8be545baSRichard Henderson const char *name, 1574*8be545baSRichard Henderson uint64_t size); 1575*8be545baSRichard Henderson 1576*8be545baSRichard Henderson /** 1577*8be545baSRichard Henderson * memory_region_init_ram - Initialize RAM memory region. Accesses into the 1578*8be545baSRichard Henderson * region will modify memory directly. 1579*8be545baSRichard Henderson * 1580*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized 1581*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count (must be 1582*8be545baSRichard Henderson * TYPE_DEVICE or a subclass of TYPE_DEVICE, or NULL) 1583*8be545baSRichard Henderson * @name: name of the memory region 1584*8be545baSRichard Henderson * @size: size of the region in bytes 1585*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1586*8be545baSRichard Henderson * 1587*8be545baSRichard Henderson * This function allocates RAM for a board model or device, and 1588*8be545baSRichard Henderson * arranges for it to be migrated (by calling vmstate_register_ram() 1589*8be545baSRichard Henderson * if @owner is a DeviceState, or vmstate_register_ram_global() if 1590*8be545baSRichard Henderson * @owner is NULL). 1591*8be545baSRichard Henderson * 1592*8be545baSRichard Henderson * TODO: Currently we restrict @owner to being either NULL (for 1593*8be545baSRichard Henderson * global RAM regions with no owner) or devices, so that we can 1594*8be545baSRichard Henderson * give the RAM block a unique name for migration purposes. 1595*8be545baSRichard Henderson * We should lift this restriction and allow arbitrary Objects. 1596*8be545baSRichard Henderson * If you pass a non-NULL non-device @owner then we will assert. 1597*8be545baSRichard Henderson * 1598*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1599*8be545baSRichard Henderson */ 1600*8be545baSRichard Henderson bool memory_region_init_ram(MemoryRegion *mr, 1601*8be545baSRichard Henderson Object *owner, 1602*8be545baSRichard Henderson const char *name, 1603*8be545baSRichard Henderson uint64_t size, 1604*8be545baSRichard Henderson Error **errp); 1605*8be545baSRichard Henderson 1606*8be545baSRichard Henderson bool memory_region_init_ram_guest_memfd(MemoryRegion *mr, 1607*8be545baSRichard Henderson Object *owner, 1608*8be545baSRichard Henderson const char *name, 1609*8be545baSRichard Henderson uint64_t size, 1610*8be545baSRichard Henderson Error **errp); 1611*8be545baSRichard Henderson 1612*8be545baSRichard Henderson /** 1613*8be545baSRichard Henderson * memory_region_init_rom: Initialize a ROM memory region. 1614*8be545baSRichard Henderson * 1615*8be545baSRichard Henderson * This has the same effect as calling memory_region_init_ram() 1616*8be545baSRichard Henderson * and then marking the resulting region read-only with 1617*8be545baSRichard Henderson * memory_region_set_readonly(). This includes arranging for the 1618*8be545baSRichard Henderson * contents to be migrated. 1619*8be545baSRichard Henderson * 1620*8be545baSRichard Henderson * TODO: Currently we restrict @owner to being either NULL (for 1621*8be545baSRichard Henderson * global RAM regions with no owner) or devices, so that we can 1622*8be545baSRichard Henderson * give the RAM block a unique name for migration purposes. 1623*8be545baSRichard Henderson * We should lift this restriction and allow arbitrary Objects. 1624*8be545baSRichard Henderson * If you pass a non-NULL non-device @owner then we will assert. 1625*8be545baSRichard Henderson * 1626*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1627*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1628*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1629*8be545baSRichard Henderson * must be unique within any device 1630*8be545baSRichard Henderson * @size: size of the region. 1631*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1632*8be545baSRichard Henderson * 1633*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1634*8be545baSRichard Henderson */ 1635*8be545baSRichard Henderson bool memory_region_init_rom(MemoryRegion *mr, 1636*8be545baSRichard Henderson Object *owner, 1637*8be545baSRichard Henderson const char *name, 1638*8be545baSRichard Henderson uint64_t size, 1639*8be545baSRichard Henderson Error **errp); 1640*8be545baSRichard Henderson 1641*8be545baSRichard Henderson /** 1642*8be545baSRichard Henderson * memory_region_init_rom_device: Initialize a ROM memory region. 1643*8be545baSRichard Henderson * Writes are handled via callbacks. 1644*8be545baSRichard Henderson * 1645*8be545baSRichard Henderson * This function initializes a memory region backed by RAM for reads 1646*8be545baSRichard Henderson * and callbacks for writes, and arranges for the RAM backing to 1647*8be545baSRichard Henderson * be migrated (by calling vmstate_register_ram() 1648*8be545baSRichard Henderson * if @owner is a DeviceState, or vmstate_register_ram_global() if 1649*8be545baSRichard Henderson * @owner is NULL). 1650*8be545baSRichard Henderson * 1651*8be545baSRichard Henderson * TODO: Currently we restrict @owner to being either NULL (for 1652*8be545baSRichard Henderson * global RAM regions with no owner) or devices, so that we can 1653*8be545baSRichard Henderson * give the RAM block a unique name for migration purposes. 1654*8be545baSRichard Henderson * We should lift this restriction and allow arbitrary Objects. 1655*8be545baSRichard Henderson * If you pass a non-NULL non-device @owner then we will assert. 1656*8be545baSRichard Henderson * 1657*8be545baSRichard Henderson * @mr: the #MemoryRegion to be initialized. 1658*8be545baSRichard Henderson * @owner: the object that tracks the region's reference count 1659*8be545baSRichard Henderson * @ops: callbacks for write access handling (must not be NULL). 1660*8be545baSRichard Henderson * @opaque: passed to the read and write callbacks of the @ops structure. 1661*8be545baSRichard Henderson * @name: Region name, becomes part of RAMBlock name used in migration stream 1662*8be545baSRichard Henderson * must be unique within any device 1663*8be545baSRichard Henderson * @size: size of the region. 1664*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1665*8be545baSRichard Henderson * 1666*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 1667*8be545baSRichard Henderson */ 1668*8be545baSRichard Henderson bool memory_region_init_rom_device(MemoryRegion *mr, 1669*8be545baSRichard Henderson Object *owner, 1670*8be545baSRichard Henderson const MemoryRegionOps *ops, 1671*8be545baSRichard Henderson void *opaque, 1672*8be545baSRichard Henderson const char *name, 1673*8be545baSRichard Henderson uint64_t size, 1674*8be545baSRichard Henderson Error **errp); 1675*8be545baSRichard Henderson 1676*8be545baSRichard Henderson 1677*8be545baSRichard Henderson /** 1678*8be545baSRichard Henderson * memory_region_owner: get a memory region's owner. 1679*8be545baSRichard Henderson * 1680*8be545baSRichard Henderson * @mr: the memory region being queried. 1681*8be545baSRichard Henderson */ 1682*8be545baSRichard Henderson Object *memory_region_owner(MemoryRegion *mr); 1683*8be545baSRichard Henderson 1684*8be545baSRichard Henderson /** 1685*8be545baSRichard Henderson * memory_region_size: get a memory region's size. 1686*8be545baSRichard Henderson * 1687*8be545baSRichard Henderson * @mr: the memory region being queried. 1688*8be545baSRichard Henderson */ 1689*8be545baSRichard Henderson uint64_t memory_region_size(MemoryRegion *mr); 1690*8be545baSRichard Henderson 1691*8be545baSRichard Henderson /** 1692*8be545baSRichard Henderson * memory_region_is_ram: check whether a memory region is random access 1693*8be545baSRichard Henderson * 1694*8be545baSRichard Henderson * Returns %true if a memory region is random access. 1695*8be545baSRichard Henderson * 1696*8be545baSRichard Henderson * @mr: the memory region being queried 1697*8be545baSRichard Henderson */ 1698*8be545baSRichard Henderson static inline bool memory_region_is_ram(MemoryRegion *mr) 1699*8be545baSRichard Henderson { 1700*8be545baSRichard Henderson return mr->ram; 1701*8be545baSRichard Henderson } 1702*8be545baSRichard Henderson 1703*8be545baSRichard Henderson /** 1704*8be545baSRichard Henderson * memory_region_is_ram_device: check whether a memory region is a ram device 1705*8be545baSRichard Henderson * 1706*8be545baSRichard Henderson * Returns %true if a memory region is a device backed ram region 1707*8be545baSRichard Henderson * 1708*8be545baSRichard Henderson * @mr: the memory region being queried 1709*8be545baSRichard Henderson */ 1710*8be545baSRichard Henderson bool memory_region_is_ram_device(MemoryRegion *mr); 1711*8be545baSRichard Henderson 1712*8be545baSRichard Henderson /** 1713*8be545baSRichard Henderson * memory_region_is_romd: check whether a memory region is in ROMD mode 1714*8be545baSRichard Henderson * 1715*8be545baSRichard Henderson * Returns %true if a memory region is a ROM device and currently set to allow 1716*8be545baSRichard Henderson * direct reads. 1717*8be545baSRichard Henderson * 1718*8be545baSRichard Henderson * @mr: the memory region being queried 1719*8be545baSRichard Henderson */ 1720*8be545baSRichard Henderson static inline bool memory_region_is_romd(MemoryRegion *mr) 1721*8be545baSRichard Henderson { 1722*8be545baSRichard Henderson return mr->rom_device && mr->romd_mode; 1723*8be545baSRichard Henderson } 1724*8be545baSRichard Henderson 1725*8be545baSRichard Henderson /** 1726*8be545baSRichard Henderson * memory_region_is_protected: check whether a memory region is protected 1727*8be545baSRichard Henderson * 1728*8be545baSRichard Henderson * Returns %true if a memory region is protected RAM and cannot be accessed 1729*8be545baSRichard Henderson * via standard mechanisms, e.g. DMA. 1730*8be545baSRichard Henderson * 1731*8be545baSRichard Henderson * @mr: the memory region being queried 1732*8be545baSRichard Henderson */ 1733*8be545baSRichard Henderson bool memory_region_is_protected(MemoryRegion *mr); 1734*8be545baSRichard Henderson 1735*8be545baSRichard Henderson /** 1736*8be545baSRichard Henderson * memory_region_has_guest_memfd: check whether a memory region has guest_memfd 1737*8be545baSRichard Henderson * associated 1738*8be545baSRichard Henderson * 1739*8be545baSRichard Henderson * Returns %true if a memory region's ram_block has valid guest_memfd assigned. 1740*8be545baSRichard Henderson * 1741*8be545baSRichard Henderson * @mr: the memory region being queried 1742*8be545baSRichard Henderson */ 1743*8be545baSRichard Henderson bool memory_region_has_guest_memfd(MemoryRegion *mr); 1744*8be545baSRichard Henderson 1745*8be545baSRichard Henderson /** 1746*8be545baSRichard Henderson * memory_region_get_iommu: check whether a memory region is an iommu 1747*8be545baSRichard Henderson * 1748*8be545baSRichard Henderson * Returns pointer to IOMMUMemoryRegion if a memory region is an iommu, 1749*8be545baSRichard Henderson * otherwise NULL. 1750*8be545baSRichard Henderson * 1751*8be545baSRichard Henderson * @mr: the memory region being queried 1752*8be545baSRichard Henderson */ 1753*8be545baSRichard Henderson static inline IOMMUMemoryRegion *memory_region_get_iommu(MemoryRegion *mr) 1754*8be545baSRichard Henderson { 1755*8be545baSRichard Henderson if (mr->alias) { 1756*8be545baSRichard Henderson return memory_region_get_iommu(mr->alias); 1757*8be545baSRichard Henderson } 1758*8be545baSRichard Henderson if (mr->is_iommu) { 1759*8be545baSRichard Henderson return (IOMMUMemoryRegion *) mr; 1760*8be545baSRichard Henderson } 1761*8be545baSRichard Henderson return NULL; 1762*8be545baSRichard Henderson } 1763*8be545baSRichard Henderson 1764*8be545baSRichard Henderson /** 1765*8be545baSRichard Henderson * memory_region_get_iommu_class_nocheck: returns iommu memory region class 1766*8be545baSRichard Henderson * if an iommu or NULL if not 1767*8be545baSRichard Henderson * 1768*8be545baSRichard Henderson * Returns pointer to IOMMUMemoryRegionClass if a memory region is an iommu, 1769*8be545baSRichard Henderson * otherwise NULL. This is fast path avoiding QOM checking, use with caution. 1770*8be545baSRichard Henderson * 1771*8be545baSRichard Henderson * @iommu_mr: the memory region being queried 1772*8be545baSRichard Henderson */ 1773*8be545baSRichard Henderson static inline IOMMUMemoryRegionClass *memory_region_get_iommu_class_nocheck( 1774*8be545baSRichard Henderson IOMMUMemoryRegion *iommu_mr) 1775*8be545baSRichard Henderson { 1776*8be545baSRichard Henderson return (IOMMUMemoryRegionClass *) (((Object *)iommu_mr)->class); 1777*8be545baSRichard Henderson } 1778*8be545baSRichard Henderson 1779*8be545baSRichard Henderson #define memory_region_is_iommu(mr) (memory_region_get_iommu(mr) != NULL) 1780*8be545baSRichard Henderson 1781*8be545baSRichard Henderson /** 1782*8be545baSRichard Henderson * memory_region_iommu_get_min_page_size: get minimum supported page size 1783*8be545baSRichard Henderson * for an iommu 1784*8be545baSRichard Henderson * 1785*8be545baSRichard Henderson * Returns minimum supported page size for an iommu. 1786*8be545baSRichard Henderson * 1787*8be545baSRichard Henderson * @iommu_mr: the memory region being queried 1788*8be545baSRichard Henderson */ 1789*8be545baSRichard Henderson uint64_t memory_region_iommu_get_min_page_size(IOMMUMemoryRegion *iommu_mr); 1790*8be545baSRichard Henderson 1791*8be545baSRichard Henderson /** 1792*8be545baSRichard Henderson * memory_region_notify_iommu: notify a change in an IOMMU translation entry. 1793*8be545baSRichard Henderson * 1794*8be545baSRichard Henderson * Note: for any IOMMU implementation, an in-place mapping change 1795*8be545baSRichard Henderson * should be notified with an UNMAP followed by a MAP. 1796*8be545baSRichard Henderson * 1797*8be545baSRichard Henderson * @iommu_mr: the memory region that was changed 1798*8be545baSRichard Henderson * @iommu_idx: the IOMMU index for the translation table which has changed 1799*8be545baSRichard Henderson * @event: TLB event with the new entry in the IOMMU translation table. 1800*8be545baSRichard Henderson * The entry replaces all old entries for the same virtual I/O address 1801*8be545baSRichard Henderson * range. 1802*8be545baSRichard Henderson */ 1803*8be545baSRichard Henderson void memory_region_notify_iommu(IOMMUMemoryRegion *iommu_mr, 1804*8be545baSRichard Henderson int iommu_idx, 1805*8be545baSRichard Henderson const IOMMUTLBEvent event); 1806*8be545baSRichard Henderson 1807*8be545baSRichard Henderson /** 1808*8be545baSRichard Henderson * memory_region_notify_iommu_one: notify a change in an IOMMU translation 1809*8be545baSRichard Henderson * entry to a single notifier 1810*8be545baSRichard Henderson * 1811*8be545baSRichard Henderson * This works just like memory_region_notify_iommu(), but it only 1812*8be545baSRichard Henderson * notifies a specific notifier, not all of them. 1813*8be545baSRichard Henderson * 1814*8be545baSRichard Henderson * @notifier: the notifier to be notified 1815*8be545baSRichard Henderson * @event: TLB event with the new entry in the IOMMU translation table. 1816*8be545baSRichard Henderson * The entry replaces all old entries for the same virtual I/O address 1817*8be545baSRichard Henderson * range. 1818*8be545baSRichard Henderson */ 1819*8be545baSRichard Henderson void memory_region_notify_iommu_one(IOMMUNotifier *notifier, 1820*8be545baSRichard Henderson const IOMMUTLBEvent *event); 1821*8be545baSRichard Henderson 1822*8be545baSRichard Henderson /** 1823*8be545baSRichard Henderson * memory_region_unmap_iommu_notifier_range: notify a unmap for an IOMMU 1824*8be545baSRichard Henderson * translation that covers the 1825*8be545baSRichard Henderson * range of a notifier 1826*8be545baSRichard Henderson * 1827*8be545baSRichard Henderson * @notifier: the notifier to be notified 1828*8be545baSRichard Henderson */ 1829*8be545baSRichard Henderson void memory_region_unmap_iommu_notifier_range(IOMMUNotifier *notifier); 1830*8be545baSRichard Henderson 1831*8be545baSRichard Henderson 1832*8be545baSRichard Henderson /** 1833*8be545baSRichard Henderson * memory_region_register_iommu_notifier: register a notifier for changes to 1834*8be545baSRichard Henderson * IOMMU translation entries. 1835*8be545baSRichard Henderson * 1836*8be545baSRichard Henderson * Returns 0 on success, or a negative errno otherwise. In particular, 1837*8be545baSRichard Henderson * -EINVAL indicates that at least one of the attributes of the notifier 1838*8be545baSRichard Henderson * is not supported (flag/range) by the IOMMU memory region. In case of error 1839*8be545baSRichard Henderson * the error object must be created. 1840*8be545baSRichard Henderson * 1841*8be545baSRichard Henderson * @mr: the memory region to observe 1842*8be545baSRichard Henderson * @n: the IOMMUNotifier to be added; the notify callback receives a 1843*8be545baSRichard Henderson * pointer to an #IOMMUTLBEntry as the opaque value; the pointer 1844*8be545baSRichard Henderson * ceases to be valid on exit from the notifier. 1845*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 1846*8be545baSRichard Henderson */ 1847*8be545baSRichard Henderson int memory_region_register_iommu_notifier(MemoryRegion *mr, 1848*8be545baSRichard Henderson IOMMUNotifier *n, Error **errp); 1849*8be545baSRichard Henderson 1850*8be545baSRichard Henderson /** 1851*8be545baSRichard Henderson * memory_region_iommu_replay: replay existing IOMMU translations to 1852*8be545baSRichard Henderson * a notifier with the minimum page granularity returned by 1853*8be545baSRichard Henderson * mr->iommu_ops->get_page_size(). 1854*8be545baSRichard Henderson * 1855*8be545baSRichard Henderson * Note: this is not related to record-and-replay functionality. 1856*8be545baSRichard Henderson * 1857*8be545baSRichard Henderson * @iommu_mr: the memory region to observe 1858*8be545baSRichard Henderson * @n: the notifier to which to replay iommu mappings 1859*8be545baSRichard Henderson */ 1860*8be545baSRichard Henderson void memory_region_iommu_replay(IOMMUMemoryRegion *iommu_mr, IOMMUNotifier *n); 1861*8be545baSRichard Henderson 1862*8be545baSRichard Henderson /** 1863*8be545baSRichard Henderson * memory_region_unregister_iommu_notifier: unregister a notifier for 1864*8be545baSRichard Henderson * changes to IOMMU translation entries. 1865*8be545baSRichard Henderson * 1866*8be545baSRichard Henderson * @mr: the memory region which was observed and for which notify_stopped() 1867*8be545baSRichard Henderson * needs to be called 1868*8be545baSRichard Henderson * @n: the notifier to be removed. 1869*8be545baSRichard Henderson */ 1870*8be545baSRichard Henderson void memory_region_unregister_iommu_notifier(MemoryRegion *mr, 1871*8be545baSRichard Henderson IOMMUNotifier *n); 1872*8be545baSRichard Henderson 1873*8be545baSRichard Henderson /** 1874*8be545baSRichard Henderson * memory_region_iommu_get_attr: return an IOMMU attr if get_attr() is 1875*8be545baSRichard Henderson * defined on the IOMMU. 1876*8be545baSRichard Henderson * 1877*8be545baSRichard Henderson * Returns 0 on success, or a negative errno otherwise. In particular, 1878*8be545baSRichard Henderson * -EINVAL indicates that the IOMMU does not support the requested 1879*8be545baSRichard Henderson * attribute. 1880*8be545baSRichard Henderson * 1881*8be545baSRichard Henderson * @iommu_mr: the memory region 1882*8be545baSRichard Henderson * @attr: the requested attribute 1883*8be545baSRichard Henderson * @data: a pointer to the requested attribute data 1884*8be545baSRichard Henderson */ 1885*8be545baSRichard Henderson int memory_region_iommu_get_attr(IOMMUMemoryRegion *iommu_mr, 1886*8be545baSRichard Henderson enum IOMMUMemoryRegionAttr attr, 1887*8be545baSRichard Henderson void *data); 1888*8be545baSRichard Henderson 1889*8be545baSRichard Henderson /** 1890*8be545baSRichard Henderson * memory_region_iommu_attrs_to_index: return the IOMMU index to 1891*8be545baSRichard Henderson * use for translations with the given memory transaction attributes. 1892*8be545baSRichard Henderson * 1893*8be545baSRichard Henderson * @iommu_mr: the memory region 1894*8be545baSRichard Henderson * @attrs: the memory transaction attributes 1895*8be545baSRichard Henderson */ 1896*8be545baSRichard Henderson int memory_region_iommu_attrs_to_index(IOMMUMemoryRegion *iommu_mr, 1897*8be545baSRichard Henderson MemTxAttrs attrs); 1898*8be545baSRichard Henderson 1899*8be545baSRichard Henderson /** 1900*8be545baSRichard Henderson * memory_region_iommu_num_indexes: return the total number of IOMMU 1901*8be545baSRichard Henderson * indexes that this IOMMU supports. 1902*8be545baSRichard Henderson * 1903*8be545baSRichard Henderson * @iommu_mr: the memory region 1904*8be545baSRichard Henderson */ 1905*8be545baSRichard Henderson int memory_region_iommu_num_indexes(IOMMUMemoryRegion *iommu_mr); 1906*8be545baSRichard Henderson 1907*8be545baSRichard Henderson /** 1908*8be545baSRichard Henderson * memory_region_name: get a memory region's name 1909*8be545baSRichard Henderson * 1910*8be545baSRichard Henderson * Returns the string that was used to initialize the memory region. 1911*8be545baSRichard Henderson * 1912*8be545baSRichard Henderson * @mr: the memory region being queried 1913*8be545baSRichard Henderson */ 1914*8be545baSRichard Henderson const char *memory_region_name(const MemoryRegion *mr); 1915*8be545baSRichard Henderson 1916*8be545baSRichard Henderson /** 1917*8be545baSRichard Henderson * memory_region_is_logging: return whether a memory region is logging writes 1918*8be545baSRichard Henderson * 1919*8be545baSRichard Henderson * Returns %true if the memory region is logging writes for the given client 1920*8be545baSRichard Henderson * 1921*8be545baSRichard Henderson * @mr: the memory region being queried 1922*8be545baSRichard Henderson * @client: the client being queried 1923*8be545baSRichard Henderson */ 1924*8be545baSRichard Henderson bool memory_region_is_logging(MemoryRegion *mr, uint8_t client); 1925*8be545baSRichard Henderson 1926*8be545baSRichard Henderson /** 1927*8be545baSRichard Henderson * memory_region_get_dirty_log_mask: return the clients for which a 1928*8be545baSRichard Henderson * memory region is logging writes. 1929*8be545baSRichard Henderson * 1930*8be545baSRichard Henderson * Returns a bitmap of clients, in which the DIRTY_MEMORY_* constants 1931*8be545baSRichard Henderson * are the bit indices. 1932*8be545baSRichard Henderson * 1933*8be545baSRichard Henderson * @mr: the memory region being queried 1934*8be545baSRichard Henderson */ 1935*8be545baSRichard Henderson uint8_t memory_region_get_dirty_log_mask(MemoryRegion *mr); 1936*8be545baSRichard Henderson 1937*8be545baSRichard Henderson /** 1938*8be545baSRichard Henderson * memory_region_is_rom: check whether a memory region is ROM 1939*8be545baSRichard Henderson * 1940*8be545baSRichard Henderson * Returns %true if a memory region is read-only memory. 1941*8be545baSRichard Henderson * 1942*8be545baSRichard Henderson * @mr: the memory region being queried 1943*8be545baSRichard Henderson */ 1944*8be545baSRichard Henderson static inline bool memory_region_is_rom(MemoryRegion *mr) 1945*8be545baSRichard Henderson { 1946*8be545baSRichard Henderson return mr->ram && mr->readonly; 1947*8be545baSRichard Henderson } 1948*8be545baSRichard Henderson 1949*8be545baSRichard Henderson /** 1950*8be545baSRichard Henderson * memory_region_is_nonvolatile: check whether a memory region is non-volatile 1951*8be545baSRichard Henderson * 1952*8be545baSRichard Henderson * Returns %true is a memory region is non-volatile memory. 1953*8be545baSRichard Henderson * 1954*8be545baSRichard Henderson * @mr: the memory region being queried 1955*8be545baSRichard Henderson */ 1956*8be545baSRichard Henderson static inline bool memory_region_is_nonvolatile(MemoryRegion *mr) 1957*8be545baSRichard Henderson { 1958*8be545baSRichard Henderson return mr->nonvolatile; 1959*8be545baSRichard Henderson } 1960*8be545baSRichard Henderson 1961*8be545baSRichard Henderson /** 1962*8be545baSRichard Henderson * memory_region_get_fd: Get a file descriptor backing a RAM memory region. 1963*8be545baSRichard Henderson * 1964*8be545baSRichard Henderson * Returns a file descriptor backing a file-based RAM memory region, 1965*8be545baSRichard Henderson * or -1 if the region is not a file-based RAM memory region. 1966*8be545baSRichard Henderson * 1967*8be545baSRichard Henderson * @mr: the RAM or alias memory region being queried. 1968*8be545baSRichard Henderson */ 1969*8be545baSRichard Henderson int memory_region_get_fd(MemoryRegion *mr); 1970*8be545baSRichard Henderson 1971*8be545baSRichard Henderson /** 1972*8be545baSRichard Henderson * memory_region_from_host: Convert a pointer into a RAM memory region 1973*8be545baSRichard Henderson * and an offset within it. 1974*8be545baSRichard Henderson * 1975*8be545baSRichard Henderson * Given a host pointer inside a RAM memory region (created with 1976*8be545baSRichard Henderson * memory_region_init_ram() or memory_region_init_ram_ptr()), return 1977*8be545baSRichard Henderson * the MemoryRegion and the offset within it. 1978*8be545baSRichard Henderson * 1979*8be545baSRichard Henderson * Use with care; by the time this function returns, the returned pointer is 1980*8be545baSRichard Henderson * not protected by RCU anymore. If the caller is not within an RCU critical 1981*8be545baSRichard Henderson * section and does not hold the BQL, it must have other means of 1982*8be545baSRichard Henderson * protecting the pointer, such as a reference to the region that includes 1983*8be545baSRichard Henderson * the incoming ram_addr_t. 1984*8be545baSRichard Henderson * 1985*8be545baSRichard Henderson * @ptr: the host pointer to be converted 1986*8be545baSRichard Henderson * @offset: the offset within memory region 1987*8be545baSRichard Henderson */ 1988*8be545baSRichard Henderson MemoryRegion *memory_region_from_host(void *ptr, ram_addr_t *offset); 1989*8be545baSRichard Henderson 1990*8be545baSRichard Henderson /** 1991*8be545baSRichard Henderson * memory_region_get_ram_ptr: Get a pointer into a RAM memory region. 1992*8be545baSRichard Henderson * 1993*8be545baSRichard Henderson * Returns a host pointer to a RAM memory region (created with 1994*8be545baSRichard Henderson * memory_region_init_ram() or memory_region_init_ram_ptr()). 1995*8be545baSRichard Henderson * 1996*8be545baSRichard Henderson * Use with care; by the time this function returns, the returned pointer is 1997*8be545baSRichard Henderson * not protected by RCU anymore. If the caller is not within an RCU critical 1998*8be545baSRichard Henderson * section and does not hold the BQL, it must have other means of 1999*8be545baSRichard Henderson * protecting the pointer, such as a reference to the region that includes 2000*8be545baSRichard Henderson * the incoming ram_addr_t. 2001*8be545baSRichard Henderson * 2002*8be545baSRichard Henderson * @mr: the memory region being queried. 2003*8be545baSRichard Henderson */ 2004*8be545baSRichard Henderson void *memory_region_get_ram_ptr(MemoryRegion *mr); 2005*8be545baSRichard Henderson 2006*8be545baSRichard Henderson /* memory_region_ram_resize: Resize a RAM region. 2007*8be545baSRichard Henderson * 2008*8be545baSRichard Henderson * Resizing RAM while migrating can result in the migration being canceled. 2009*8be545baSRichard Henderson * Care has to be taken if the guest might have already detected the memory. 2010*8be545baSRichard Henderson * 2011*8be545baSRichard Henderson * @mr: a memory region created with @memory_region_init_resizeable_ram. 2012*8be545baSRichard Henderson * @newsize: the new size the region 2013*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 2014*8be545baSRichard Henderson */ 2015*8be545baSRichard Henderson void memory_region_ram_resize(MemoryRegion *mr, ram_addr_t newsize, 2016*8be545baSRichard Henderson Error **errp); 2017*8be545baSRichard Henderson 2018*8be545baSRichard Henderson /** 2019*8be545baSRichard Henderson * memory_region_msync: Synchronize selected address range of 2020*8be545baSRichard Henderson * a memory mapped region 2021*8be545baSRichard Henderson * 2022*8be545baSRichard Henderson * @mr: the memory region to be msync 2023*8be545baSRichard Henderson * @addr: the initial address of the range to be sync 2024*8be545baSRichard Henderson * @size: the size of the range to be sync 2025*8be545baSRichard Henderson */ 2026*8be545baSRichard Henderson void memory_region_msync(MemoryRegion *mr, hwaddr addr, hwaddr size); 2027*8be545baSRichard Henderson 2028*8be545baSRichard Henderson /** 2029*8be545baSRichard Henderson * memory_region_writeback: Trigger cache writeback for 2030*8be545baSRichard Henderson * selected address range 2031*8be545baSRichard Henderson * 2032*8be545baSRichard Henderson * @mr: the memory region to be updated 2033*8be545baSRichard Henderson * @addr: the initial address of the range to be written back 2034*8be545baSRichard Henderson * @size: the size of the range to be written back 2035*8be545baSRichard Henderson */ 2036*8be545baSRichard Henderson void memory_region_writeback(MemoryRegion *mr, hwaddr addr, hwaddr size); 2037*8be545baSRichard Henderson 2038*8be545baSRichard Henderson /** 2039*8be545baSRichard Henderson * memory_region_set_log: Turn dirty logging on or off for a region. 2040*8be545baSRichard Henderson * 2041*8be545baSRichard Henderson * Turns dirty logging on or off for a specified client (display, migration). 2042*8be545baSRichard Henderson * Only meaningful for RAM regions. 2043*8be545baSRichard Henderson * 2044*8be545baSRichard Henderson * @mr: the memory region being updated. 2045*8be545baSRichard Henderson * @log: whether dirty logging is to be enabled or disabled. 2046*8be545baSRichard Henderson * @client: the user of the logging information; %DIRTY_MEMORY_VGA only. 2047*8be545baSRichard Henderson */ 2048*8be545baSRichard Henderson void memory_region_set_log(MemoryRegion *mr, bool log, unsigned client); 2049*8be545baSRichard Henderson 2050*8be545baSRichard Henderson /** 2051*8be545baSRichard Henderson * memory_region_set_dirty: Mark a range of bytes as dirty in a memory region. 2052*8be545baSRichard Henderson * 2053*8be545baSRichard Henderson * Marks a range of bytes as dirty, after it has been dirtied outside 2054*8be545baSRichard Henderson * guest code. 2055*8be545baSRichard Henderson * 2056*8be545baSRichard Henderson * @mr: the memory region being dirtied. 2057*8be545baSRichard Henderson * @addr: the address (relative to the start of the region) being dirtied. 2058*8be545baSRichard Henderson * @size: size of the range being dirtied. 2059*8be545baSRichard Henderson */ 2060*8be545baSRichard Henderson void memory_region_set_dirty(MemoryRegion *mr, hwaddr addr, 2061*8be545baSRichard Henderson hwaddr size); 2062*8be545baSRichard Henderson 2063*8be545baSRichard Henderson /** 2064*8be545baSRichard Henderson * memory_region_clear_dirty_bitmap - clear dirty bitmap for memory range 2065*8be545baSRichard Henderson * 2066*8be545baSRichard Henderson * This function is called when the caller wants to clear the remote 2067*8be545baSRichard Henderson * dirty bitmap of a memory range within the memory region. This can 2068*8be545baSRichard Henderson * be used by e.g. KVM to manually clear dirty log when 2069*8be545baSRichard Henderson * KVM_CAP_MANUAL_DIRTY_LOG_PROTECT is declared support by the host 2070*8be545baSRichard Henderson * kernel. 2071*8be545baSRichard Henderson * 2072*8be545baSRichard Henderson * @mr: the memory region to clear the dirty log upon 2073*8be545baSRichard Henderson * @start: start address offset within the memory region 2074*8be545baSRichard Henderson * @len: length of the memory region to clear dirty bitmap 2075*8be545baSRichard Henderson */ 2076*8be545baSRichard Henderson void memory_region_clear_dirty_bitmap(MemoryRegion *mr, hwaddr start, 2077*8be545baSRichard Henderson hwaddr len); 2078*8be545baSRichard Henderson 2079*8be545baSRichard Henderson /** 2080*8be545baSRichard Henderson * memory_region_snapshot_and_clear_dirty: Get a snapshot of the dirty 2081*8be545baSRichard Henderson * bitmap and clear it. 2082*8be545baSRichard Henderson * 2083*8be545baSRichard Henderson * Creates a snapshot of the dirty bitmap, clears the dirty bitmap and 2084*8be545baSRichard Henderson * returns the snapshot. The snapshot can then be used to query dirty 2085*8be545baSRichard Henderson * status, using memory_region_snapshot_get_dirty. Snapshotting allows 2086*8be545baSRichard Henderson * querying the same page multiple times, which is especially useful for 2087*8be545baSRichard Henderson * display updates where the scanlines often are not page aligned. 2088*8be545baSRichard Henderson * 2089*8be545baSRichard Henderson * The dirty bitmap region which gets copied into the snapshot (and 2090*8be545baSRichard Henderson * cleared afterwards) can be larger than requested. The boundaries 2091*8be545baSRichard Henderson * are rounded up/down so complete bitmap longs (covering 64 pages on 2092*8be545baSRichard Henderson * 64bit hosts) can be copied over into the bitmap snapshot. Which 2093*8be545baSRichard Henderson * isn't a problem for display updates as the extra pages are outside 2094*8be545baSRichard Henderson * the visible area, and in case the visible area changes a full 2095*8be545baSRichard Henderson * display redraw is due anyway. Should other use cases for this 2096*8be545baSRichard Henderson * function emerge we might have to revisit this implementation 2097*8be545baSRichard Henderson * detail. 2098*8be545baSRichard Henderson * 2099*8be545baSRichard Henderson * Use g_free to release DirtyBitmapSnapshot. 2100*8be545baSRichard Henderson * 2101*8be545baSRichard Henderson * @mr: the memory region being queried. 2102*8be545baSRichard Henderson * @addr: the address (relative to the start of the region) being queried. 2103*8be545baSRichard Henderson * @size: the size of the range being queried. 2104*8be545baSRichard Henderson * @client: the user of the logging information; typically %DIRTY_MEMORY_VGA. 2105*8be545baSRichard Henderson */ 2106*8be545baSRichard Henderson DirtyBitmapSnapshot *memory_region_snapshot_and_clear_dirty(MemoryRegion *mr, 2107*8be545baSRichard Henderson hwaddr addr, 2108*8be545baSRichard Henderson hwaddr size, 2109*8be545baSRichard Henderson unsigned client); 2110*8be545baSRichard Henderson 2111*8be545baSRichard Henderson /** 2112*8be545baSRichard Henderson * memory_region_snapshot_get_dirty: Check whether a range of bytes is dirty 2113*8be545baSRichard Henderson * in the specified dirty bitmap snapshot. 2114*8be545baSRichard Henderson * 2115*8be545baSRichard Henderson * @mr: the memory region being queried. 2116*8be545baSRichard Henderson * @snap: the dirty bitmap snapshot 2117*8be545baSRichard Henderson * @addr: the address (relative to the start of the region) being queried. 2118*8be545baSRichard Henderson * @size: the size of the range being queried. 2119*8be545baSRichard Henderson */ 2120*8be545baSRichard Henderson bool memory_region_snapshot_get_dirty(MemoryRegion *mr, 2121*8be545baSRichard Henderson DirtyBitmapSnapshot *snap, 2122*8be545baSRichard Henderson hwaddr addr, hwaddr size); 2123*8be545baSRichard Henderson 2124*8be545baSRichard Henderson /** 2125*8be545baSRichard Henderson * memory_region_reset_dirty: Mark a range of pages as clean, for a specified 2126*8be545baSRichard Henderson * client. 2127*8be545baSRichard Henderson * 2128*8be545baSRichard Henderson * Marks a range of pages as no longer dirty. 2129*8be545baSRichard Henderson * 2130*8be545baSRichard Henderson * @mr: the region being updated. 2131*8be545baSRichard Henderson * @addr: the start of the subrange being cleaned. 2132*8be545baSRichard Henderson * @size: the size of the subrange being cleaned. 2133*8be545baSRichard Henderson * @client: the user of the logging information; %DIRTY_MEMORY_MIGRATION or 2134*8be545baSRichard Henderson * %DIRTY_MEMORY_VGA. 2135*8be545baSRichard Henderson */ 2136*8be545baSRichard Henderson void memory_region_reset_dirty(MemoryRegion *mr, hwaddr addr, 2137*8be545baSRichard Henderson hwaddr size, unsigned client); 2138*8be545baSRichard Henderson 2139*8be545baSRichard Henderson /** 2140*8be545baSRichard Henderson * memory_region_flush_rom_device: Mark a range of pages dirty and invalidate 2141*8be545baSRichard Henderson * TBs (for self-modifying code). 2142*8be545baSRichard Henderson * 2143*8be545baSRichard Henderson * The MemoryRegionOps->write() callback of a ROM device must use this function 2144*8be545baSRichard Henderson * to mark byte ranges that have been modified internally, such as by directly 2145*8be545baSRichard Henderson * accessing the memory returned by memory_region_get_ram_ptr(). 2146*8be545baSRichard Henderson * 2147*8be545baSRichard Henderson * This function marks the range dirty and invalidates TBs so that TCG can 2148*8be545baSRichard Henderson * detect self-modifying code. 2149*8be545baSRichard Henderson * 2150*8be545baSRichard Henderson * @mr: the region being flushed. 2151*8be545baSRichard Henderson * @addr: the start, relative to the start of the region, of the range being 2152*8be545baSRichard Henderson * flushed. 2153*8be545baSRichard Henderson * @size: the size, in bytes, of the range being flushed. 2154*8be545baSRichard Henderson */ 2155*8be545baSRichard Henderson void memory_region_flush_rom_device(MemoryRegion *mr, hwaddr addr, hwaddr size); 2156*8be545baSRichard Henderson 2157*8be545baSRichard Henderson /** 2158*8be545baSRichard Henderson * memory_region_set_readonly: Turn a memory region read-only (or read-write) 2159*8be545baSRichard Henderson * 2160*8be545baSRichard Henderson * Allows a memory region to be marked as read-only (turning it into a ROM). 2161*8be545baSRichard Henderson * only useful on RAM regions. 2162*8be545baSRichard Henderson * 2163*8be545baSRichard Henderson * @mr: the region being updated. 2164*8be545baSRichard Henderson * @readonly: whether the region is to be ROM or RAM. 2165*8be545baSRichard Henderson */ 2166*8be545baSRichard Henderson void memory_region_set_readonly(MemoryRegion *mr, bool readonly); 2167*8be545baSRichard Henderson 2168*8be545baSRichard Henderson /** 2169*8be545baSRichard Henderson * memory_region_set_nonvolatile: Turn a memory region non-volatile 2170*8be545baSRichard Henderson * 2171*8be545baSRichard Henderson * Allows a memory region to be marked as non-volatile. 2172*8be545baSRichard Henderson * only useful on RAM regions. 2173*8be545baSRichard Henderson * 2174*8be545baSRichard Henderson * @mr: the region being updated. 2175*8be545baSRichard Henderson * @nonvolatile: whether the region is to be non-volatile. 2176*8be545baSRichard Henderson */ 2177*8be545baSRichard Henderson void memory_region_set_nonvolatile(MemoryRegion *mr, bool nonvolatile); 2178*8be545baSRichard Henderson 2179*8be545baSRichard Henderson /** 2180*8be545baSRichard Henderson * memory_region_rom_device_set_romd: enable/disable ROMD mode 2181*8be545baSRichard Henderson * 2182*8be545baSRichard Henderson * Allows a ROM device (initialized with memory_region_init_rom_device() to 2183*8be545baSRichard Henderson * set to ROMD mode (default) or MMIO mode. When it is in ROMD mode, the 2184*8be545baSRichard Henderson * device is mapped to guest memory and satisfies read access directly. 2185*8be545baSRichard Henderson * When in MMIO mode, reads are forwarded to the #MemoryRegion.read function. 2186*8be545baSRichard Henderson * Writes are always handled by the #MemoryRegion.write function. 2187*8be545baSRichard Henderson * 2188*8be545baSRichard Henderson * @mr: the memory region to be updated 2189*8be545baSRichard Henderson * @romd_mode: %true to put the region into ROMD mode 2190*8be545baSRichard Henderson */ 2191*8be545baSRichard Henderson void memory_region_rom_device_set_romd(MemoryRegion *mr, bool romd_mode); 2192*8be545baSRichard Henderson 2193*8be545baSRichard Henderson /** 2194*8be545baSRichard Henderson * memory_region_set_coalescing: Enable memory coalescing for the region. 2195*8be545baSRichard Henderson * 2196*8be545baSRichard Henderson * Enabled writes to a region to be queued for later processing. MMIO ->write 2197*8be545baSRichard Henderson * callbacks may be delayed until a non-coalesced MMIO is issued. 2198*8be545baSRichard Henderson * Only useful for IO regions. Roughly similar to write-combining hardware. 2199*8be545baSRichard Henderson * 2200*8be545baSRichard Henderson * @mr: the memory region to be write coalesced 2201*8be545baSRichard Henderson */ 2202*8be545baSRichard Henderson void memory_region_set_coalescing(MemoryRegion *mr); 2203*8be545baSRichard Henderson 2204*8be545baSRichard Henderson /** 2205*8be545baSRichard Henderson * memory_region_add_coalescing: Enable memory coalescing for a sub-range of 2206*8be545baSRichard Henderson * a region. 2207*8be545baSRichard Henderson * 2208*8be545baSRichard Henderson * Like memory_region_set_coalescing(), but works on a sub-range of a region. 2209*8be545baSRichard Henderson * Multiple calls can be issued coalesced disjoint ranges. 2210*8be545baSRichard Henderson * 2211*8be545baSRichard Henderson * @mr: the memory region to be updated. 2212*8be545baSRichard Henderson * @offset: the start of the range within the region to be coalesced. 2213*8be545baSRichard Henderson * @size: the size of the subrange to be coalesced. 2214*8be545baSRichard Henderson */ 2215*8be545baSRichard Henderson void memory_region_add_coalescing(MemoryRegion *mr, 2216*8be545baSRichard Henderson hwaddr offset, 2217*8be545baSRichard Henderson uint64_t size); 2218*8be545baSRichard Henderson 2219*8be545baSRichard Henderson /** 2220*8be545baSRichard Henderson * memory_region_clear_coalescing: Disable MMIO coalescing for the region. 2221*8be545baSRichard Henderson * 2222*8be545baSRichard Henderson * Disables any coalescing caused by memory_region_set_coalescing() or 2223*8be545baSRichard Henderson * memory_region_add_coalescing(). Roughly equivalent to uncacheble memory 2224*8be545baSRichard Henderson * hardware. 2225*8be545baSRichard Henderson * 2226*8be545baSRichard Henderson * @mr: the memory region to be updated. 2227*8be545baSRichard Henderson */ 2228*8be545baSRichard Henderson void memory_region_clear_coalescing(MemoryRegion *mr); 2229*8be545baSRichard Henderson 2230*8be545baSRichard Henderson /** 2231*8be545baSRichard Henderson * memory_region_set_flush_coalesced: Enforce memory coalescing flush before 2232*8be545baSRichard Henderson * accesses. 2233*8be545baSRichard Henderson * 2234*8be545baSRichard Henderson * Ensure that pending coalesced MMIO request are flushed before the memory 2235*8be545baSRichard Henderson * region is accessed. This property is automatically enabled for all regions 2236*8be545baSRichard Henderson * passed to memory_region_set_coalescing() and memory_region_add_coalescing(). 2237*8be545baSRichard Henderson * 2238*8be545baSRichard Henderson * @mr: the memory region to be updated. 2239*8be545baSRichard Henderson */ 2240*8be545baSRichard Henderson void memory_region_set_flush_coalesced(MemoryRegion *mr); 2241*8be545baSRichard Henderson 2242*8be545baSRichard Henderson /** 2243*8be545baSRichard Henderson * memory_region_clear_flush_coalesced: Disable memory coalescing flush before 2244*8be545baSRichard Henderson * accesses. 2245*8be545baSRichard Henderson * 2246*8be545baSRichard Henderson * Clear the automatic coalesced MMIO flushing enabled via 2247*8be545baSRichard Henderson * memory_region_set_flush_coalesced. Note that this service has no effect on 2248*8be545baSRichard Henderson * memory regions that have MMIO coalescing enabled for themselves. For them, 2249*8be545baSRichard Henderson * automatic flushing will stop once coalescing is disabled. 2250*8be545baSRichard Henderson * 2251*8be545baSRichard Henderson * @mr: the memory region to be updated. 2252*8be545baSRichard Henderson */ 2253*8be545baSRichard Henderson void memory_region_clear_flush_coalesced(MemoryRegion *mr); 2254*8be545baSRichard Henderson 2255*8be545baSRichard Henderson /** 2256*8be545baSRichard Henderson * memory_region_add_eventfd: Request an eventfd to be triggered when a word 2257*8be545baSRichard Henderson * is written to a location. 2258*8be545baSRichard Henderson * 2259*8be545baSRichard Henderson * Marks a word in an IO region (initialized with memory_region_init_io()) 2260*8be545baSRichard Henderson * as a trigger for an eventfd event. The I/O callback will not be called. 2261*8be545baSRichard Henderson * The caller must be prepared to handle failure (that is, take the required 2262*8be545baSRichard Henderson * action if the callback _is_ called). 2263*8be545baSRichard Henderson * 2264*8be545baSRichard Henderson * @mr: the memory region being updated. 2265*8be545baSRichard Henderson * @addr: the address within @mr that is to be monitored 2266*8be545baSRichard Henderson * @size: the size of the access to trigger the eventfd 2267*8be545baSRichard Henderson * @match_data: whether to match against @data, instead of just @addr 2268*8be545baSRichard Henderson * @data: the data to match against the guest write 2269*8be545baSRichard Henderson * @e: event notifier to be triggered when @addr, @size, and @data all match. 2270*8be545baSRichard Henderson **/ 2271*8be545baSRichard Henderson void memory_region_add_eventfd(MemoryRegion *mr, 2272*8be545baSRichard Henderson hwaddr addr, 2273*8be545baSRichard Henderson unsigned size, 2274*8be545baSRichard Henderson bool match_data, 2275*8be545baSRichard Henderson uint64_t data, 2276*8be545baSRichard Henderson EventNotifier *e); 2277*8be545baSRichard Henderson 2278*8be545baSRichard Henderson /** 2279*8be545baSRichard Henderson * memory_region_del_eventfd: Cancel an eventfd. 2280*8be545baSRichard Henderson * 2281*8be545baSRichard Henderson * Cancels an eventfd trigger requested by a previous 2282*8be545baSRichard Henderson * memory_region_add_eventfd() call. 2283*8be545baSRichard Henderson * 2284*8be545baSRichard Henderson * @mr: the memory region being updated. 2285*8be545baSRichard Henderson * @addr: the address within @mr that is to be monitored 2286*8be545baSRichard Henderson * @size: the size of the access to trigger the eventfd 2287*8be545baSRichard Henderson * @match_data: whether to match against @data, instead of just @addr 2288*8be545baSRichard Henderson * @data: the data to match against the guest write 2289*8be545baSRichard Henderson * @e: event notifier to be triggered when @addr, @size, and @data all match. 2290*8be545baSRichard Henderson */ 2291*8be545baSRichard Henderson void memory_region_del_eventfd(MemoryRegion *mr, 2292*8be545baSRichard Henderson hwaddr addr, 2293*8be545baSRichard Henderson unsigned size, 2294*8be545baSRichard Henderson bool match_data, 2295*8be545baSRichard Henderson uint64_t data, 2296*8be545baSRichard Henderson EventNotifier *e); 2297*8be545baSRichard Henderson 2298*8be545baSRichard Henderson /** 2299*8be545baSRichard Henderson * memory_region_add_subregion: Add a subregion to a container. 2300*8be545baSRichard Henderson * 2301*8be545baSRichard Henderson * Adds a subregion at @offset. The subregion may not overlap with other 2302*8be545baSRichard Henderson * subregions (except for those explicitly marked as overlapping). A region 2303*8be545baSRichard Henderson * may only be added once as a subregion (unless removed with 2304*8be545baSRichard Henderson * memory_region_del_subregion()); use memory_region_init_alias() if you 2305*8be545baSRichard Henderson * want a region to be a subregion in multiple locations. 2306*8be545baSRichard Henderson * 2307*8be545baSRichard Henderson * @mr: the region to contain the new subregion; must be a container 2308*8be545baSRichard Henderson * initialized with memory_region_init(). 2309*8be545baSRichard Henderson * @offset: the offset relative to @mr where @subregion is added. 2310*8be545baSRichard Henderson * @subregion: the subregion to be added. 2311*8be545baSRichard Henderson */ 2312*8be545baSRichard Henderson void memory_region_add_subregion(MemoryRegion *mr, 2313*8be545baSRichard Henderson hwaddr offset, 2314*8be545baSRichard Henderson MemoryRegion *subregion); 2315*8be545baSRichard Henderson /** 2316*8be545baSRichard Henderson * memory_region_add_subregion_overlap: Add a subregion to a container 2317*8be545baSRichard Henderson * with overlap. 2318*8be545baSRichard Henderson * 2319*8be545baSRichard Henderson * Adds a subregion at @offset. The subregion may overlap with other 2320*8be545baSRichard Henderson * subregions. Conflicts are resolved by having a higher @priority hide a 2321*8be545baSRichard Henderson * lower @priority. Subregions without priority are taken as @priority 0. 2322*8be545baSRichard Henderson * A region may only be added once as a subregion (unless removed with 2323*8be545baSRichard Henderson * memory_region_del_subregion()); use memory_region_init_alias() if you 2324*8be545baSRichard Henderson * want a region to be a subregion in multiple locations. 2325*8be545baSRichard Henderson * 2326*8be545baSRichard Henderson * @mr: the region to contain the new subregion; must be a container 2327*8be545baSRichard Henderson * initialized with memory_region_init(). 2328*8be545baSRichard Henderson * @offset: the offset relative to @mr where @subregion is added. 2329*8be545baSRichard Henderson * @subregion: the subregion to be added. 2330*8be545baSRichard Henderson * @priority: used for resolving overlaps; highest priority wins. 2331*8be545baSRichard Henderson */ 2332*8be545baSRichard Henderson void memory_region_add_subregion_overlap(MemoryRegion *mr, 2333*8be545baSRichard Henderson hwaddr offset, 2334*8be545baSRichard Henderson MemoryRegion *subregion, 2335*8be545baSRichard Henderson int priority); 2336*8be545baSRichard Henderson 2337*8be545baSRichard Henderson /** 2338*8be545baSRichard Henderson * memory_region_get_ram_addr: Get the ram address associated with a memory 2339*8be545baSRichard Henderson * region 2340*8be545baSRichard Henderson * 2341*8be545baSRichard Henderson * @mr: the region to be queried 2342*8be545baSRichard Henderson */ 2343*8be545baSRichard Henderson ram_addr_t memory_region_get_ram_addr(MemoryRegion *mr); 2344*8be545baSRichard Henderson 2345*8be545baSRichard Henderson uint64_t memory_region_get_alignment(const MemoryRegion *mr); 2346*8be545baSRichard Henderson /** 2347*8be545baSRichard Henderson * memory_region_del_subregion: Remove a subregion. 2348*8be545baSRichard Henderson * 2349*8be545baSRichard Henderson * Removes a subregion from its container. 2350*8be545baSRichard Henderson * 2351*8be545baSRichard Henderson * @mr: the container to be updated. 2352*8be545baSRichard Henderson * @subregion: the region being removed; must be a current subregion of @mr. 2353*8be545baSRichard Henderson */ 2354*8be545baSRichard Henderson void memory_region_del_subregion(MemoryRegion *mr, 2355*8be545baSRichard Henderson MemoryRegion *subregion); 2356*8be545baSRichard Henderson 2357*8be545baSRichard Henderson /* 2358*8be545baSRichard Henderson * memory_region_set_enabled: dynamically enable or disable a region 2359*8be545baSRichard Henderson * 2360*8be545baSRichard Henderson * Enables or disables a memory region. A disabled memory region 2361*8be545baSRichard Henderson * ignores all accesses to itself and its subregions. It does not 2362*8be545baSRichard Henderson * obscure sibling subregions with lower priority - it simply behaves as 2363*8be545baSRichard Henderson * if it was removed from the hierarchy. 2364*8be545baSRichard Henderson * 2365*8be545baSRichard Henderson * Regions default to being enabled. 2366*8be545baSRichard Henderson * 2367*8be545baSRichard Henderson * @mr: the region to be updated 2368*8be545baSRichard Henderson * @enabled: whether to enable or disable the region 2369*8be545baSRichard Henderson */ 2370*8be545baSRichard Henderson void memory_region_set_enabled(MemoryRegion *mr, bool enabled); 2371*8be545baSRichard Henderson 2372*8be545baSRichard Henderson /* 2373*8be545baSRichard Henderson * memory_region_set_address: dynamically update the address of a region 2374*8be545baSRichard Henderson * 2375*8be545baSRichard Henderson * Dynamically updates the address of a region, relative to its container. 2376*8be545baSRichard Henderson * May be used on regions are currently part of a memory hierarchy. 2377*8be545baSRichard Henderson * 2378*8be545baSRichard Henderson * @mr: the region to be updated 2379*8be545baSRichard Henderson * @addr: new address, relative to container region 2380*8be545baSRichard Henderson */ 2381*8be545baSRichard Henderson void memory_region_set_address(MemoryRegion *mr, hwaddr addr); 2382*8be545baSRichard Henderson 2383*8be545baSRichard Henderson /* 2384*8be545baSRichard Henderson * memory_region_set_size: dynamically update the size of a region. 2385*8be545baSRichard Henderson * 2386*8be545baSRichard Henderson * Dynamically updates the size of a region. 2387*8be545baSRichard Henderson * 2388*8be545baSRichard Henderson * @mr: the region to be updated 2389*8be545baSRichard Henderson * @size: used size of the region. 2390*8be545baSRichard Henderson */ 2391*8be545baSRichard Henderson void memory_region_set_size(MemoryRegion *mr, uint64_t size); 2392*8be545baSRichard Henderson 2393*8be545baSRichard Henderson /* 2394*8be545baSRichard Henderson * memory_region_set_alias_offset: dynamically update a memory alias's offset 2395*8be545baSRichard Henderson * 2396*8be545baSRichard Henderson * Dynamically updates the offset into the target region that an alias points 2397*8be545baSRichard Henderson * to, as if the fourth argument to memory_region_init_alias() has changed. 2398*8be545baSRichard Henderson * 2399*8be545baSRichard Henderson * @mr: the #MemoryRegion to be updated; should be an alias. 2400*8be545baSRichard Henderson * @offset: the new offset into the target memory region 2401*8be545baSRichard Henderson */ 2402*8be545baSRichard Henderson void memory_region_set_alias_offset(MemoryRegion *mr, 2403*8be545baSRichard Henderson hwaddr offset); 2404*8be545baSRichard Henderson 2405*8be545baSRichard Henderson /* 2406*8be545baSRichard Henderson * memory_region_set_unmergeable: Set a memory region unmergeable 2407*8be545baSRichard Henderson * 2408*8be545baSRichard Henderson * Mark a memory region unmergeable, resulting in the memory region (or 2409*8be545baSRichard Henderson * everything contained in a memory region container) not getting merged when 2410*8be545baSRichard Henderson * simplifying the address space and notifying memory listeners. Consequently, 2411*8be545baSRichard Henderson * memory listeners will never get notified about ranges that are larger than 2412*8be545baSRichard Henderson * the original memory regions. 2413*8be545baSRichard Henderson * 2414*8be545baSRichard Henderson * This is primarily useful when multiple aliases to a RAM memory region are 2415*8be545baSRichard Henderson * mapped into a memory region container, and updates (e.g., enable/disable or 2416*8be545baSRichard Henderson * map/unmap) of individual memory region aliases are not supposed to affect 2417*8be545baSRichard Henderson * other memory regions in the same container. 2418*8be545baSRichard Henderson * 2419*8be545baSRichard Henderson * @mr: the #MemoryRegion to be updated 2420*8be545baSRichard Henderson * @unmergeable: whether to mark the #MemoryRegion unmergeable 2421*8be545baSRichard Henderson */ 2422*8be545baSRichard Henderson void memory_region_set_unmergeable(MemoryRegion *mr, bool unmergeable); 2423*8be545baSRichard Henderson 2424*8be545baSRichard Henderson /** 2425*8be545baSRichard Henderson * memory_region_present: checks if an address relative to a @container 2426*8be545baSRichard Henderson * translates into #MemoryRegion within @container 2427*8be545baSRichard Henderson * 2428*8be545baSRichard Henderson * Answer whether a #MemoryRegion within @container covers the address 2429*8be545baSRichard Henderson * @addr. 2430*8be545baSRichard Henderson * 2431*8be545baSRichard Henderson * @container: a #MemoryRegion within which @addr is a relative address 2432*8be545baSRichard Henderson * @addr: the area within @container to be searched 2433*8be545baSRichard Henderson */ 2434*8be545baSRichard Henderson bool memory_region_present(MemoryRegion *container, hwaddr addr); 2435*8be545baSRichard Henderson 2436*8be545baSRichard Henderson /** 2437*8be545baSRichard Henderson * memory_region_is_mapped: returns true if #MemoryRegion is mapped 2438*8be545baSRichard Henderson * into another memory region, which does not necessarily imply that it is 2439*8be545baSRichard Henderson * mapped into an address space. 2440*8be545baSRichard Henderson * 2441*8be545baSRichard Henderson * @mr: a #MemoryRegion which should be checked if it's mapped 2442*8be545baSRichard Henderson */ 2443*8be545baSRichard Henderson bool memory_region_is_mapped(MemoryRegion *mr); 2444*8be545baSRichard Henderson 2445*8be545baSRichard Henderson /** 2446*8be545baSRichard Henderson * memory_region_get_ram_discard_manager: get the #RamDiscardManager for a 2447*8be545baSRichard Henderson * #MemoryRegion 2448*8be545baSRichard Henderson * 2449*8be545baSRichard Henderson * The #RamDiscardManager cannot change while a memory region is mapped. 2450*8be545baSRichard Henderson * 2451*8be545baSRichard Henderson * @mr: the #MemoryRegion 2452*8be545baSRichard Henderson */ 2453*8be545baSRichard Henderson RamDiscardManager *memory_region_get_ram_discard_manager(MemoryRegion *mr); 2454*8be545baSRichard Henderson 2455*8be545baSRichard Henderson /** 2456*8be545baSRichard Henderson * memory_region_has_ram_discard_manager: check whether a #MemoryRegion has a 2457*8be545baSRichard Henderson * #RamDiscardManager assigned 2458*8be545baSRichard Henderson * 2459*8be545baSRichard Henderson * @mr: the #MemoryRegion 2460*8be545baSRichard Henderson */ 2461*8be545baSRichard Henderson static inline bool memory_region_has_ram_discard_manager(MemoryRegion *mr) 2462*8be545baSRichard Henderson { 2463*8be545baSRichard Henderson return !!memory_region_get_ram_discard_manager(mr); 2464*8be545baSRichard Henderson } 2465*8be545baSRichard Henderson 2466*8be545baSRichard Henderson /** 2467*8be545baSRichard Henderson * memory_region_set_ram_discard_manager: set the #RamDiscardManager for a 2468*8be545baSRichard Henderson * #MemoryRegion 2469*8be545baSRichard Henderson * 2470*8be545baSRichard Henderson * This function must not be called for a mapped #MemoryRegion, a #MemoryRegion 2471*8be545baSRichard Henderson * that does not cover RAM, or a #MemoryRegion that already has a 2472*8be545baSRichard Henderson * #RamDiscardManager assigned. 2473*8be545baSRichard Henderson * 2474*8be545baSRichard Henderson * @mr: the #MemoryRegion 2475*8be545baSRichard Henderson * @rdm: #RamDiscardManager to set 2476*8be545baSRichard Henderson */ 2477*8be545baSRichard Henderson void memory_region_set_ram_discard_manager(MemoryRegion *mr, 2478*8be545baSRichard Henderson RamDiscardManager *rdm); 2479*8be545baSRichard Henderson 2480*8be545baSRichard Henderson /** 2481*8be545baSRichard Henderson * memory_region_find: translate an address/size relative to a 2482*8be545baSRichard Henderson * MemoryRegion into a #MemoryRegionSection. 2483*8be545baSRichard Henderson * 2484*8be545baSRichard Henderson * Locates the first #MemoryRegion within @mr that overlaps the range 2485*8be545baSRichard Henderson * given by @addr and @size. 2486*8be545baSRichard Henderson * 2487*8be545baSRichard Henderson * Returns a #MemoryRegionSection that describes a contiguous overlap. 2488*8be545baSRichard Henderson * It will have the following characteristics: 2489*8be545baSRichard Henderson * - @size = 0 iff no overlap was found 2490*8be545baSRichard Henderson * - @mr is non-%NULL iff an overlap was found 2491*8be545baSRichard Henderson * 2492*8be545baSRichard Henderson * Remember that in the return value the @offset_within_region is 2493*8be545baSRichard Henderson * relative to the returned region (in the .@mr field), not to the 2494*8be545baSRichard Henderson * @mr argument. 2495*8be545baSRichard Henderson * 2496*8be545baSRichard Henderson * Similarly, the .@offset_within_address_space is relative to the 2497*8be545baSRichard Henderson * address space that contains both regions, the passed and the 2498*8be545baSRichard Henderson * returned one. However, in the special case where the @mr argument 2499*8be545baSRichard Henderson * has no container (and thus is the root of the address space), the 2500*8be545baSRichard Henderson * following will hold: 2501*8be545baSRichard Henderson * - @offset_within_address_space >= @addr 2502*8be545baSRichard Henderson * - @offset_within_address_space + .@size <= @addr + @size 2503*8be545baSRichard Henderson * 2504*8be545baSRichard Henderson * @mr: a MemoryRegion within which @addr is a relative address 2505*8be545baSRichard Henderson * @addr: start of the area within @as to be searched 2506*8be545baSRichard Henderson * @size: size of the area to be searched 2507*8be545baSRichard Henderson */ 2508*8be545baSRichard Henderson MemoryRegionSection memory_region_find(MemoryRegion *mr, 2509*8be545baSRichard Henderson hwaddr addr, uint64_t size); 2510*8be545baSRichard Henderson 2511*8be545baSRichard Henderson /** 2512*8be545baSRichard Henderson * memory_global_dirty_log_sync: synchronize the dirty log for all memory 2513*8be545baSRichard Henderson * 2514*8be545baSRichard Henderson * Synchronizes the dirty page log for all address spaces. 2515*8be545baSRichard Henderson * 2516*8be545baSRichard Henderson * @last_stage: whether this is the last stage of live migration 2517*8be545baSRichard Henderson */ 2518*8be545baSRichard Henderson void memory_global_dirty_log_sync(bool last_stage); 2519*8be545baSRichard Henderson 2520*8be545baSRichard Henderson /** 2521*8be545baSRichard Henderson * memory_global_after_dirty_log_sync: synchronize the dirty log for all memory 2522*8be545baSRichard Henderson * 2523*8be545baSRichard Henderson * Synchronizes the vCPUs with a thread that is reading the dirty bitmap. 2524*8be545baSRichard Henderson * This function must be called after the dirty log bitmap is cleared, and 2525*8be545baSRichard Henderson * before dirty guest memory pages are read. If you are using 2526*8be545baSRichard Henderson * #DirtyBitmapSnapshot, memory_region_snapshot_and_clear_dirty() takes 2527*8be545baSRichard Henderson * care of doing this. 2528*8be545baSRichard Henderson */ 2529*8be545baSRichard Henderson void memory_global_after_dirty_log_sync(void); 2530*8be545baSRichard Henderson 2531*8be545baSRichard Henderson /** 2532*8be545baSRichard Henderson * memory_region_transaction_begin: Start a transaction. 2533*8be545baSRichard Henderson * 2534*8be545baSRichard Henderson * During a transaction, changes will be accumulated and made visible 2535*8be545baSRichard Henderson * only when the transaction ends (is committed). 2536*8be545baSRichard Henderson */ 2537*8be545baSRichard Henderson void memory_region_transaction_begin(void); 2538*8be545baSRichard Henderson 2539*8be545baSRichard Henderson /** 2540*8be545baSRichard Henderson * memory_region_transaction_commit: Commit a transaction and make changes 2541*8be545baSRichard Henderson * visible to the guest. 2542*8be545baSRichard Henderson */ 2543*8be545baSRichard Henderson void memory_region_transaction_commit(void); 2544*8be545baSRichard Henderson 2545*8be545baSRichard Henderson /** 2546*8be545baSRichard Henderson * memory_listener_register: register callbacks to be called when memory 2547*8be545baSRichard Henderson * sections are mapped or unmapped into an address 2548*8be545baSRichard Henderson * space 2549*8be545baSRichard Henderson * 2550*8be545baSRichard Henderson * @listener: an object containing the callbacks to be called 2551*8be545baSRichard Henderson * @filter: if non-%NULL, only regions in this address space will be observed 2552*8be545baSRichard Henderson */ 2553*8be545baSRichard Henderson void memory_listener_register(MemoryListener *listener, AddressSpace *filter); 2554*8be545baSRichard Henderson 2555*8be545baSRichard Henderson /** 2556*8be545baSRichard Henderson * memory_listener_unregister: undo the effect of memory_listener_register() 2557*8be545baSRichard Henderson * 2558*8be545baSRichard Henderson * @listener: an object containing the callbacks to be removed 2559*8be545baSRichard Henderson */ 2560*8be545baSRichard Henderson void memory_listener_unregister(MemoryListener *listener); 2561*8be545baSRichard Henderson 2562*8be545baSRichard Henderson /** 2563*8be545baSRichard Henderson * memory_global_dirty_log_start: begin dirty logging for all regions 2564*8be545baSRichard Henderson * 2565*8be545baSRichard Henderson * @flags: purpose of starting dirty log, migration or dirty rate 2566*8be545baSRichard Henderson * @errp: pointer to Error*, to store an error if it happens. 2567*8be545baSRichard Henderson * 2568*8be545baSRichard Henderson * Return: true on success, else false setting @errp with error. 2569*8be545baSRichard Henderson */ 2570*8be545baSRichard Henderson bool memory_global_dirty_log_start(unsigned int flags, Error **errp); 2571*8be545baSRichard Henderson 2572*8be545baSRichard Henderson /** 2573*8be545baSRichard Henderson * memory_global_dirty_log_stop: end dirty logging for all regions 2574*8be545baSRichard Henderson * 2575*8be545baSRichard Henderson * @flags: purpose of stopping dirty log, migration or dirty rate 2576*8be545baSRichard Henderson */ 2577*8be545baSRichard Henderson void memory_global_dirty_log_stop(unsigned int flags); 2578*8be545baSRichard Henderson 2579*8be545baSRichard Henderson void mtree_info(bool flatview, bool dispatch_tree, bool owner, bool disabled); 2580*8be545baSRichard Henderson 2581*8be545baSRichard Henderson bool memory_region_access_valid(MemoryRegion *mr, hwaddr addr, 2582*8be545baSRichard Henderson unsigned size, bool is_write, 2583*8be545baSRichard Henderson MemTxAttrs attrs); 2584*8be545baSRichard Henderson 2585*8be545baSRichard Henderson /** 2586*8be545baSRichard Henderson * memory_region_dispatch_read: perform a read directly to the specified 2587*8be545baSRichard Henderson * MemoryRegion. 2588*8be545baSRichard Henderson * 2589*8be545baSRichard Henderson * @mr: #MemoryRegion to access 2590*8be545baSRichard Henderson * @addr: address within that region 2591*8be545baSRichard Henderson * @pval: pointer to uint64_t which the data is written to 2592*8be545baSRichard Henderson * @op: size, sign, and endianness of the memory operation 2593*8be545baSRichard Henderson * @attrs: memory transaction attributes to use for the access 2594*8be545baSRichard Henderson */ 2595*8be545baSRichard Henderson MemTxResult memory_region_dispatch_read(MemoryRegion *mr, 2596*8be545baSRichard Henderson hwaddr addr, 2597*8be545baSRichard Henderson uint64_t *pval, 2598*8be545baSRichard Henderson MemOp op, 2599*8be545baSRichard Henderson MemTxAttrs attrs); 2600*8be545baSRichard Henderson /** 2601*8be545baSRichard Henderson * memory_region_dispatch_write: perform a write directly to the specified 2602*8be545baSRichard Henderson * MemoryRegion. 2603*8be545baSRichard Henderson * 2604*8be545baSRichard Henderson * @mr: #MemoryRegion to access 2605*8be545baSRichard Henderson * @addr: address within that region 2606*8be545baSRichard Henderson * @data: data to write 2607*8be545baSRichard Henderson * @op: size, sign, and endianness of the memory operation 2608*8be545baSRichard Henderson * @attrs: memory transaction attributes to use for the access 2609*8be545baSRichard Henderson */ 2610*8be545baSRichard Henderson MemTxResult memory_region_dispatch_write(MemoryRegion *mr, 2611*8be545baSRichard Henderson hwaddr addr, 2612*8be545baSRichard Henderson uint64_t data, 2613*8be545baSRichard Henderson MemOp op, 2614*8be545baSRichard Henderson MemTxAttrs attrs); 2615*8be545baSRichard Henderson 2616*8be545baSRichard Henderson /** 2617*8be545baSRichard Henderson * address_space_init: initializes an address space 2618*8be545baSRichard Henderson * 2619*8be545baSRichard Henderson * @as: an uninitialized #AddressSpace 2620*8be545baSRichard Henderson * @root: a #MemoryRegion that routes addresses for the address space 2621*8be545baSRichard Henderson * @name: an address space name. The name is only used for debugging 2622*8be545baSRichard Henderson * output. 2623*8be545baSRichard Henderson */ 2624*8be545baSRichard Henderson void address_space_init(AddressSpace *as, MemoryRegion *root, const char *name); 2625*8be545baSRichard Henderson 2626*8be545baSRichard Henderson /** 2627*8be545baSRichard Henderson * address_space_destroy: destroy an address space 2628*8be545baSRichard Henderson * 2629*8be545baSRichard Henderson * Releases all resources associated with an address space. After an address space 2630*8be545baSRichard Henderson * is destroyed, its root memory region (given by address_space_init()) may be destroyed 2631*8be545baSRichard Henderson * as well. 2632*8be545baSRichard Henderson * 2633*8be545baSRichard Henderson * @as: address space to be destroyed 2634*8be545baSRichard Henderson */ 2635*8be545baSRichard Henderson void address_space_destroy(AddressSpace *as); 2636*8be545baSRichard Henderson 2637*8be545baSRichard Henderson /** 2638*8be545baSRichard Henderson * address_space_remove_listeners: unregister all listeners of an address space 2639*8be545baSRichard Henderson * 2640*8be545baSRichard Henderson * Removes all callbacks previously registered with memory_listener_register() 2641*8be545baSRichard Henderson * for @as. 2642*8be545baSRichard Henderson * 2643*8be545baSRichard Henderson * @as: an initialized #AddressSpace 2644*8be545baSRichard Henderson */ 2645*8be545baSRichard Henderson void address_space_remove_listeners(AddressSpace *as); 2646*8be545baSRichard Henderson 2647*8be545baSRichard Henderson /** 2648*8be545baSRichard Henderson * address_space_rw: read from or write to an address space. 2649*8be545baSRichard Henderson * 2650*8be545baSRichard Henderson * Return a MemTxResult indicating whether the operation succeeded 2651*8be545baSRichard Henderson * or failed (eg unassigned memory, device rejected the transaction, 2652*8be545baSRichard Henderson * IOMMU fault). 2653*8be545baSRichard Henderson * 2654*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 2655*8be545baSRichard Henderson * @addr: address within that address space 2656*8be545baSRichard Henderson * @attrs: memory transaction attributes 2657*8be545baSRichard Henderson * @buf: buffer with the data transferred 2658*8be545baSRichard Henderson * @len: the number of bytes to read or write 2659*8be545baSRichard Henderson * @is_write: indicates the transfer direction 2660*8be545baSRichard Henderson */ 2661*8be545baSRichard Henderson MemTxResult address_space_rw(AddressSpace *as, hwaddr addr, 2662*8be545baSRichard Henderson MemTxAttrs attrs, void *buf, 2663*8be545baSRichard Henderson hwaddr len, bool is_write); 2664*8be545baSRichard Henderson 2665*8be545baSRichard Henderson /** 2666*8be545baSRichard Henderson * address_space_write: write to address space. 2667*8be545baSRichard Henderson * 2668*8be545baSRichard Henderson * Return a MemTxResult indicating whether the operation succeeded 2669*8be545baSRichard Henderson * or failed (eg unassigned memory, device rejected the transaction, 2670*8be545baSRichard Henderson * IOMMU fault). 2671*8be545baSRichard Henderson * 2672*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 2673*8be545baSRichard Henderson * @addr: address within that address space 2674*8be545baSRichard Henderson * @attrs: memory transaction attributes 2675*8be545baSRichard Henderson * @buf: buffer with the data transferred 2676*8be545baSRichard Henderson * @len: the number of bytes to write 2677*8be545baSRichard Henderson */ 2678*8be545baSRichard Henderson MemTxResult address_space_write(AddressSpace *as, hwaddr addr, 2679*8be545baSRichard Henderson MemTxAttrs attrs, 2680*8be545baSRichard Henderson const void *buf, hwaddr len); 2681*8be545baSRichard Henderson 2682*8be545baSRichard Henderson /** 2683*8be545baSRichard Henderson * address_space_write_rom: write to address space, including ROM. 2684*8be545baSRichard Henderson * 2685*8be545baSRichard Henderson * This function writes to the specified address space, but will 2686*8be545baSRichard Henderson * write data to both ROM and RAM. This is used for non-guest 2687*8be545baSRichard Henderson * writes like writes from the gdb debug stub or initial loading 2688*8be545baSRichard Henderson * of ROM contents. 2689*8be545baSRichard Henderson * 2690*8be545baSRichard Henderson * Note that portions of the write which attempt to write data to 2691*8be545baSRichard Henderson * a device will be silently ignored -- only real RAM and ROM will 2692*8be545baSRichard Henderson * be written to. 2693*8be545baSRichard Henderson * 2694*8be545baSRichard Henderson * Return a MemTxResult indicating whether the operation succeeded 2695*8be545baSRichard Henderson * or failed (eg unassigned memory, device rejected the transaction, 2696*8be545baSRichard Henderson * IOMMU fault). 2697*8be545baSRichard Henderson * 2698*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 2699*8be545baSRichard Henderson * @addr: address within that address space 2700*8be545baSRichard Henderson * @attrs: memory transaction attributes 2701*8be545baSRichard Henderson * @buf: buffer with the data transferred 2702*8be545baSRichard Henderson * @len: the number of bytes to write 2703*8be545baSRichard Henderson */ 2704*8be545baSRichard Henderson MemTxResult address_space_write_rom(AddressSpace *as, hwaddr addr, 2705*8be545baSRichard Henderson MemTxAttrs attrs, 2706*8be545baSRichard Henderson const void *buf, hwaddr len); 2707*8be545baSRichard Henderson 2708*8be545baSRichard Henderson /* address_space_ld*: load from an address space 2709*8be545baSRichard Henderson * address_space_st*: store to an address space 2710*8be545baSRichard Henderson * 2711*8be545baSRichard Henderson * These functions perform a load or store of the byte, word, 2712*8be545baSRichard Henderson * longword or quad to the specified address within the AddressSpace. 2713*8be545baSRichard Henderson * The _le suffixed functions treat the data as little endian; 2714*8be545baSRichard Henderson * _be indicates big endian; no suffix indicates "same endianness 2715*8be545baSRichard Henderson * as guest CPU". 2716*8be545baSRichard Henderson * 2717*8be545baSRichard Henderson * The "guest CPU endianness" accessors are deprecated for use outside 2718*8be545baSRichard Henderson * target-* code; devices should be CPU-agnostic and use either the LE 2719*8be545baSRichard Henderson * or the BE accessors. 2720*8be545baSRichard Henderson * 2721*8be545baSRichard Henderson * @as #AddressSpace to be accessed 2722*8be545baSRichard Henderson * @addr: address within that address space 2723*8be545baSRichard Henderson * @val: data value, for stores 2724*8be545baSRichard Henderson * @attrs: memory transaction attributes 2725*8be545baSRichard Henderson * @result: location to write the success/failure of the transaction; 2726*8be545baSRichard Henderson * if NULL, this information is discarded 2727*8be545baSRichard Henderson */ 2728*8be545baSRichard Henderson 2729*8be545baSRichard Henderson #define SUFFIX 2730*8be545baSRichard Henderson #define ARG1 as 2731*8be545baSRichard Henderson #define ARG1_DECL AddressSpace *as 2732*8be545baSRichard Henderson #include "exec/memory_ldst.h.inc" 2733*8be545baSRichard Henderson 2734*8be545baSRichard Henderson static inline void stl_phys_notdirty(AddressSpace *as, hwaddr addr, uint32_t val) 2735*8be545baSRichard Henderson { 2736*8be545baSRichard Henderson address_space_stl_notdirty(as, addr, val, 2737*8be545baSRichard Henderson MEMTXATTRS_UNSPECIFIED, NULL); 2738*8be545baSRichard Henderson } 2739*8be545baSRichard Henderson 2740*8be545baSRichard Henderson #define SUFFIX 2741*8be545baSRichard Henderson #define ARG1 as 2742*8be545baSRichard Henderson #define ARG1_DECL AddressSpace *as 2743*8be545baSRichard Henderson #include "exec/memory_ldst_phys.h.inc" 2744*8be545baSRichard Henderson 2745*8be545baSRichard Henderson struct MemoryRegionCache { 2746*8be545baSRichard Henderson uint8_t *ptr; 2747*8be545baSRichard Henderson hwaddr xlat; 2748*8be545baSRichard Henderson hwaddr len; 2749*8be545baSRichard Henderson FlatView *fv; 2750*8be545baSRichard Henderson MemoryRegionSection mrs; 2751*8be545baSRichard Henderson bool is_write; 2752*8be545baSRichard Henderson }; 2753*8be545baSRichard Henderson 2754*8be545baSRichard Henderson /* address_space_ld*_cached: load from a cached #MemoryRegion 2755*8be545baSRichard Henderson * address_space_st*_cached: store into a cached #MemoryRegion 2756*8be545baSRichard Henderson * 2757*8be545baSRichard Henderson * These functions perform a load or store of the byte, word, 2758*8be545baSRichard Henderson * longword or quad to the specified address. The address is 2759*8be545baSRichard Henderson * a physical address in the AddressSpace, but it must lie within 2760*8be545baSRichard Henderson * a #MemoryRegion that was mapped with address_space_cache_init. 2761*8be545baSRichard Henderson * 2762*8be545baSRichard Henderson * The _le suffixed functions treat the data as little endian; 2763*8be545baSRichard Henderson * _be indicates big endian; no suffix indicates "same endianness 2764*8be545baSRichard Henderson * as guest CPU". 2765*8be545baSRichard Henderson * 2766*8be545baSRichard Henderson * The "guest CPU endianness" accessors are deprecated for use outside 2767*8be545baSRichard Henderson * target-* code; devices should be CPU-agnostic and use either the LE 2768*8be545baSRichard Henderson * or the BE accessors. 2769*8be545baSRichard Henderson * 2770*8be545baSRichard Henderson * @cache: previously initialized #MemoryRegionCache to be accessed 2771*8be545baSRichard Henderson * @addr: address within the address space 2772*8be545baSRichard Henderson * @val: data value, for stores 2773*8be545baSRichard Henderson * @attrs: memory transaction attributes 2774*8be545baSRichard Henderson * @result: location to write the success/failure of the transaction; 2775*8be545baSRichard Henderson * if NULL, this information is discarded 2776*8be545baSRichard Henderson */ 2777*8be545baSRichard Henderson 2778*8be545baSRichard Henderson #define SUFFIX _cached_slow 2779*8be545baSRichard Henderson #define ARG1 cache 2780*8be545baSRichard Henderson #define ARG1_DECL MemoryRegionCache *cache 2781*8be545baSRichard Henderson #include "exec/memory_ldst.h.inc" 2782*8be545baSRichard Henderson 2783*8be545baSRichard Henderson /* Inline fast path for direct RAM access. */ 2784*8be545baSRichard Henderson static inline uint8_t address_space_ldub_cached(MemoryRegionCache *cache, 2785*8be545baSRichard Henderson hwaddr addr, MemTxAttrs attrs, MemTxResult *result) 2786*8be545baSRichard Henderson { 2787*8be545baSRichard Henderson assert(addr < cache->len); 2788*8be545baSRichard Henderson if (likely(cache->ptr)) { 2789*8be545baSRichard Henderson return ldub_p(cache->ptr + addr); 2790*8be545baSRichard Henderson } else { 2791*8be545baSRichard Henderson return address_space_ldub_cached_slow(cache, addr, attrs, result); 2792*8be545baSRichard Henderson } 2793*8be545baSRichard Henderson } 2794*8be545baSRichard Henderson 2795*8be545baSRichard Henderson static inline void address_space_stb_cached(MemoryRegionCache *cache, 2796*8be545baSRichard Henderson hwaddr addr, uint8_t val, MemTxAttrs attrs, MemTxResult *result) 2797*8be545baSRichard Henderson { 2798*8be545baSRichard Henderson assert(addr < cache->len); 2799*8be545baSRichard Henderson if (likely(cache->ptr)) { 2800*8be545baSRichard Henderson stb_p(cache->ptr + addr, val); 2801*8be545baSRichard Henderson } else { 2802*8be545baSRichard Henderson address_space_stb_cached_slow(cache, addr, val, attrs, result); 2803*8be545baSRichard Henderson } 2804*8be545baSRichard Henderson } 2805*8be545baSRichard Henderson 2806*8be545baSRichard Henderson #define ENDIANNESS 2807*8be545baSRichard Henderson #include "exec/memory_ldst_cached.h.inc" 2808*8be545baSRichard Henderson 2809*8be545baSRichard Henderson #define ENDIANNESS _le 2810*8be545baSRichard Henderson #include "exec/memory_ldst_cached.h.inc" 2811*8be545baSRichard Henderson 2812*8be545baSRichard Henderson #define ENDIANNESS _be 2813*8be545baSRichard Henderson #include "exec/memory_ldst_cached.h.inc" 2814*8be545baSRichard Henderson 2815*8be545baSRichard Henderson #define SUFFIX _cached 2816*8be545baSRichard Henderson #define ARG1 cache 2817*8be545baSRichard Henderson #define ARG1_DECL MemoryRegionCache *cache 2818*8be545baSRichard Henderson #include "exec/memory_ldst_phys.h.inc" 2819*8be545baSRichard Henderson 2820*8be545baSRichard Henderson /* address_space_cache_init: prepare for repeated access to a physical 2821*8be545baSRichard Henderson * memory region 2822*8be545baSRichard Henderson * 2823*8be545baSRichard Henderson * @cache: #MemoryRegionCache to be filled 2824*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 2825*8be545baSRichard Henderson * @addr: address within that address space 2826*8be545baSRichard Henderson * @len: length of buffer 2827*8be545baSRichard Henderson * @is_write: indicates the transfer direction 2828*8be545baSRichard Henderson * 2829*8be545baSRichard Henderson * Will only work with RAM, and may map a subset of the requested range by 2830*8be545baSRichard Henderson * returning a value that is less than @len. On failure, return a negative 2831*8be545baSRichard Henderson * errno value. 2832*8be545baSRichard Henderson * 2833*8be545baSRichard Henderson * Because it only works with RAM, this function can be used for 2834*8be545baSRichard Henderson * read-modify-write operations. In this case, is_write should be %true. 2835*8be545baSRichard Henderson * 2836*8be545baSRichard Henderson * Note that addresses passed to the address_space_*_cached functions 2837*8be545baSRichard Henderson * are relative to @addr. 2838*8be545baSRichard Henderson */ 2839*8be545baSRichard Henderson int64_t address_space_cache_init(MemoryRegionCache *cache, 2840*8be545baSRichard Henderson AddressSpace *as, 2841*8be545baSRichard Henderson hwaddr addr, 2842*8be545baSRichard Henderson hwaddr len, 2843*8be545baSRichard Henderson bool is_write); 2844*8be545baSRichard Henderson 2845*8be545baSRichard Henderson /** 2846*8be545baSRichard Henderson * address_space_cache_init_empty: Initialize empty #MemoryRegionCache 2847*8be545baSRichard Henderson * 2848*8be545baSRichard Henderson * @cache: The #MemoryRegionCache to operate on. 2849*8be545baSRichard Henderson * 2850*8be545baSRichard Henderson * Initializes #MemoryRegionCache structure without memory region attached. 2851*8be545baSRichard Henderson * Cache initialized this way can only be safely destroyed, but not used. 2852*8be545baSRichard Henderson */ 2853*8be545baSRichard Henderson static inline void address_space_cache_init_empty(MemoryRegionCache *cache) 2854*8be545baSRichard Henderson { 2855*8be545baSRichard Henderson cache->mrs.mr = NULL; 2856*8be545baSRichard Henderson /* There is no real need to initialize fv, but it makes Coverity happy. */ 2857*8be545baSRichard Henderson cache->fv = NULL; 2858*8be545baSRichard Henderson } 2859*8be545baSRichard Henderson 2860*8be545baSRichard Henderson /** 2861*8be545baSRichard Henderson * address_space_cache_invalidate: complete a write to a #MemoryRegionCache 2862*8be545baSRichard Henderson * 2863*8be545baSRichard Henderson * @cache: The #MemoryRegionCache to operate on. 2864*8be545baSRichard Henderson * @addr: The first physical address that was written, relative to the 2865*8be545baSRichard Henderson * address that was passed to @address_space_cache_init. 2866*8be545baSRichard Henderson * @access_len: The number of bytes that were written starting at @addr. 2867*8be545baSRichard Henderson */ 2868*8be545baSRichard Henderson void address_space_cache_invalidate(MemoryRegionCache *cache, 2869*8be545baSRichard Henderson hwaddr addr, 2870*8be545baSRichard Henderson hwaddr access_len); 2871*8be545baSRichard Henderson 2872*8be545baSRichard Henderson /** 2873*8be545baSRichard Henderson * address_space_cache_destroy: free a #MemoryRegionCache 2874*8be545baSRichard Henderson * 2875*8be545baSRichard Henderson * @cache: The #MemoryRegionCache whose memory should be released. 2876*8be545baSRichard Henderson */ 2877*8be545baSRichard Henderson void address_space_cache_destroy(MemoryRegionCache *cache); 2878*8be545baSRichard Henderson 2879*8be545baSRichard Henderson /* address_space_get_iotlb_entry: translate an address into an IOTLB 2880*8be545baSRichard Henderson * entry. Should be called from an RCU critical section. 2881*8be545baSRichard Henderson */ 2882*8be545baSRichard Henderson IOMMUTLBEntry address_space_get_iotlb_entry(AddressSpace *as, hwaddr addr, 2883*8be545baSRichard Henderson bool is_write, MemTxAttrs attrs); 2884*8be545baSRichard Henderson 2885*8be545baSRichard Henderson /* address_space_translate: translate an address range into an address space 2886*8be545baSRichard Henderson * into a MemoryRegion and an address range into that section. Should be 2887*8be545baSRichard Henderson * called from an RCU critical section, to avoid that the last reference 2888*8be545baSRichard Henderson * to the returned region disappears after address_space_translate returns. 2889*8be545baSRichard Henderson * 2890*8be545baSRichard Henderson * @fv: #FlatView to be accessed 2891*8be545baSRichard Henderson * @addr: address within that address space 2892*8be545baSRichard Henderson * @xlat: pointer to address within the returned memory region section's 2893*8be545baSRichard Henderson * #MemoryRegion. 2894*8be545baSRichard Henderson * @len: pointer to length 2895*8be545baSRichard Henderson * @is_write: indicates the transfer direction 2896*8be545baSRichard Henderson * @attrs: memory attributes 2897*8be545baSRichard Henderson */ 2898*8be545baSRichard Henderson MemoryRegion *flatview_translate(FlatView *fv, 2899*8be545baSRichard Henderson hwaddr addr, hwaddr *xlat, 2900*8be545baSRichard Henderson hwaddr *len, bool is_write, 2901*8be545baSRichard Henderson MemTxAttrs attrs); 2902*8be545baSRichard Henderson 2903*8be545baSRichard Henderson static inline MemoryRegion *address_space_translate(AddressSpace *as, 2904*8be545baSRichard Henderson hwaddr addr, hwaddr *xlat, 2905*8be545baSRichard Henderson hwaddr *len, bool is_write, 2906*8be545baSRichard Henderson MemTxAttrs attrs) 2907*8be545baSRichard Henderson { 2908*8be545baSRichard Henderson return flatview_translate(address_space_to_flatview(as), 2909*8be545baSRichard Henderson addr, xlat, len, is_write, attrs); 2910*8be545baSRichard Henderson } 2911*8be545baSRichard Henderson 2912*8be545baSRichard Henderson /* address_space_access_valid: check for validity of accessing an address 2913*8be545baSRichard Henderson * space range 2914*8be545baSRichard Henderson * 2915*8be545baSRichard Henderson * Check whether memory is assigned to the given address space range, and 2916*8be545baSRichard Henderson * access is permitted by any IOMMU regions that are active for the address 2917*8be545baSRichard Henderson * space. 2918*8be545baSRichard Henderson * 2919*8be545baSRichard Henderson * For now, addr and len should be aligned to a page size. This limitation 2920*8be545baSRichard Henderson * will be lifted in the future. 2921*8be545baSRichard Henderson * 2922*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 2923*8be545baSRichard Henderson * @addr: address within that address space 2924*8be545baSRichard Henderson * @len: length of the area to be checked 2925*8be545baSRichard Henderson * @is_write: indicates the transfer direction 2926*8be545baSRichard Henderson * @attrs: memory attributes 2927*8be545baSRichard Henderson */ 2928*8be545baSRichard Henderson bool address_space_access_valid(AddressSpace *as, hwaddr addr, hwaddr len, 2929*8be545baSRichard Henderson bool is_write, MemTxAttrs attrs); 2930*8be545baSRichard Henderson 2931*8be545baSRichard Henderson /* address_space_map: map a physical memory region into a host virtual address 2932*8be545baSRichard Henderson * 2933*8be545baSRichard Henderson * May map a subset of the requested range, given by and returned in @plen. 2934*8be545baSRichard Henderson * May return %NULL and set *@plen to zero(0), if resources needed to perform 2935*8be545baSRichard Henderson * the mapping are exhausted. 2936*8be545baSRichard Henderson * Use only for reads OR writes - not for read-modify-write operations. 2937*8be545baSRichard Henderson * Use address_space_register_map_client() to know when retrying the map 2938*8be545baSRichard Henderson * operation is likely to succeed. 2939*8be545baSRichard Henderson * 2940*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 2941*8be545baSRichard Henderson * @addr: address within that address space 2942*8be545baSRichard Henderson * @plen: pointer to length of buffer; updated on return 2943*8be545baSRichard Henderson * @is_write: indicates the transfer direction 2944*8be545baSRichard Henderson * @attrs: memory attributes 2945*8be545baSRichard Henderson */ 2946*8be545baSRichard Henderson void *address_space_map(AddressSpace *as, hwaddr addr, 2947*8be545baSRichard Henderson hwaddr *plen, bool is_write, MemTxAttrs attrs); 2948*8be545baSRichard Henderson 2949*8be545baSRichard Henderson /* address_space_unmap: Unmaps a memory region previously mapped by address_space_map() 2950*8be545baSRichard Henderson * 2951*8be545baSRichard Henderson * Will also mark the memory as dirty if @is_write == %true. @access_len gives 2952*8be545baSRichard Henderson * the amount of memory that was actually read or written by the caller. 2953*8be545baSRichard Henderson * 2954*8be545baSRichard Henderson * @as: #AddressSpace used 2955*8be545baSRichard Henderson * @buffer: host pointer as returned by address_space_map() 2956*8be545baSRichard Henderson * @len: buffer length as returned by address_space_map() 2957*8be545baSRichard Henderson * @access_len: amount of data actually transferred 2958*8be545baSRichard Henderson * @is_write: indicates the transfer direction 2959*8be545baSRichard Henderson */ 2960*8be545baSRichard Henderson void address_space_unmap(AddressSpace *as, void *buffer, hwaddr len, 2961*8be545baSRichard Henderson bool is_write, hwaddr access_len); 2962*8be545baSRichard Henderson 2963*8be545baSRichard Henderson /* 2964*8be545baSRichard Henderson * address_space_register_map_client: Register a callback to invoke when 2965*8be545baSRichard Henderson * resources for address_space_map() are available again. 2966*8be545baSRichard Henderson * 2967*8be545baSRichard Henderson * address_space_map may fail when there are not enough resources available, 2968*8be545baSRichard Henderson * such as when bounce buffer memory would exceed the limit. The callback can 2969*8be545baSRichard Henderson * be used to retry the address_space_map operation. Note that the callback 2970*8be545baSRichard Henderson * gets automatically removed after firing. 2971*8be545baSRichard Henderson * 2972*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 2973*8be545baSRichard Henderson * @bh: callback to invoke when address_space_map() retry is appropriate 2974*8be545baSRichard Henderson */ 2975*8be545baSRichard Henderson void address_space_register_map_client(AddressSpace *as, QEMUBH *bh); 2976*8be545baSRichard Henderson 2977*8be545baSRichard Henderson /* 2978*8be545baSRichard Henderson * address_space_unregister_map_client: Unregister a callback that has 2979*8be545baSRichard Henderson * previously been registered and not fired yet. 2980*8be545baSRichard Henderson * 2981*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 2982*8be545baSRichard Henderson * @bh: callback to unregister 2983*8be545baSRichard Henderson */ 2984*8be545baSRichard Henderson void address_space_unregister_map_client(AddressSpace *as, QEMUBH *bh); 2985*8be545baSRichard Henderson 2986*8be545baSRichard Henderson /* Internal functions, part of the implementation of address_space_read. */ 2987*8be545baSRichard Henderson MemTxResult address_space_read_full(AddressSpace *as, hwaddr addr, 2988*8be545baSRichard Henderson MemTxAttrs attrs, void *buf, hwaddr len); 2989*8be545baSRichard Henderson MemTxResult flatview_read_continue(FlatView *fv, hwaddr addr, 2990*8be545baSRichard Henderson MemTxAttrs attrs, void *buf, 2991*8be545baSRichard Henderson hwaddr len, hwaddr addr1, hwaddr l, 2992*8be545baSRichard Henderson MemoryRegion *mr); 2993*8be545baSRichard Henderson void *qemu_map_ram_ptr(RAMBlock *ram_block, ram_addr_t addr); 2994*8be545baSRichard Henderson 2995*8be545baSRichard Henderson /* Internal functions, part of the implementation of address_space_read_cached 2996*8be545baSRichard Henderson * and address_space_write_cached. */ 2997*8be545baSRichard Henderson MemTxResult address_space_read_cached_slow(MemoryRegionCache *cache, 2998*8be545baSRichard Henderson hwaddr addr, void *buf, hwaddr len); 2999*8be545baSRichard Henderson MemTxResult address_space_write_cached_slow(MemoryRegionCache *cache, 3000*8be545baSRichard Henderson hwaddr addr, const void *buf, 3001*8be545baSRichard Henderson hwaddr len); 3002*8be545baSRichard Henderson 3003*8be545baSRichard Henderson int memory_access_size(MemoryRegion *mr, unsigned l, hwaddr addr); 3004*8be545baSRichard Henderson bool prepare_mmio_access(MemoryRegion *mr); 3005*8be545baSRichard Henderson 3006*8be545baSRichard Henderson static inline bool memory_region_supports_direct_access(MemoryRegion *mr) 3007*8be545baSRichard Henderson { 3008*8be545baSRichard Henderson /* ROM DEVICE regions only allow direct access if in ROMD mode. */ 3009*8be545baSRichard Henderson if (memory_region_is_romd(mr)) { 3010*8be545baSRichard Henderson return true; 3011*8be545baSRichard Henderson } 3012*8be545baSRichard Henderson if (!memory_region_is_ram(mr)) { 3013*8be545baSRichard Henderson return false; 3014*8be545baSRichard Henderson } 3015*8be545baSRichard Henderson /* 3016*8be545baSRichard Henderson * RAM DEVICE regions can be accessed directly using memcpy, but it might 3017*8be545baSRichard Henderson * be MMIO and access using mempy can be wrong (e.g., using instructions not 3018*8be545baSRichard Henderson * intended for MMIO access). So we treat this as IO. 3019*8be545baSRichard Henderson */ 3020*8be545baSRichard Henderson return !memory_region_is_ram_device(mr); 3021*8be545baSRichard Henderson } 3022*8be545baSRichard Henderson 3023*8be545baSRichard Henderson static inline bool memory_access_is_direct(MemoryRegion *mr, bool is_write, 3024*8be545baSRichard Henderson MemTxAttrs attrs) 3025*8be545baSRichard Henderson { 3026*8be545baSRichard Henderson if (!memory_region_supports_direct_access(mr)) { 3027*8be545baSRichard Henderson return false; 3028*8be545baSRichard Henderson } 3029*8be545baSRichard Henderson /* Debug access can write to ROM. */ 3030*8be545baSRichard Henderson if (is_write && !attrs.debug) { 3031*8be545baSRichard Henderson return !mr->readonly && !mr->rom_device; 3032*8be545baSRichard Henderson } 3033*8be545baSRichard Henderson return true; 3034*8be545baSRichard Henderson } 3035*8be545baSRichard Henderson 3036*8be545baSRichard Henderson /** 3037*8be545baSRichard Henderson * address_space_read: read from an address space. 3038*8be545baSRichard Henderson * 3039*8be545baSRichard Henderson * Return a MemTxResult indicating whether the operation succeeded 3040*8be545baSRichard Henderson * or failed (eg unassigned memory, device rejected the transaction, 3041*8be545baSRichard Henderson * IOMMU fault). Called within RCU critical section. 3042*8be545baSRichard Henderson * 3043*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 3044*8be545baSRichard Henderson * @addr: address within that address space 3045*8be545baSRichard Henderson * @attrs: memory transaction attributes 3046*8be545baSRichard Henderson * @buf: buffer with the data transferred 3047*8be545baSRichard Henderson * @len: length of the data transferred 3048*8be545baSRichard Henderson */ 3049*8be545baSRichard Henderson static inline __attribute__((__always_inline__)) 3050*8be545baSRichard Henderson MemTxResult address_space_read(AddressSpace *as, hwaddr addr, 3051*8be545baSRichard Henderson MemTxAttrs attrs, void *buf, 3052*8be545baSRichard Henderson hwaddr len) 3053*8be545baSRichard Henderson { 3054*8be545baSRichard Henderson MemTxResult result = MEMTX_OK; 3055*8be545baSRichard Henderson hwaddr l, addr1; 3056*8be545baSRichard Henderson void *ptr; 3057*8be545baSRichard Henderson MemoryRegion *mr; 3058*8be545baSRichard Henderson FlatView *fv; 3059*8be545baSRichard Henderson 3060*8be545baSRichard Henderson if (__builtin_constant_p(len)) { 3061*8be545baSRichard Henderson if (len) { 3062*8be545baSRichard Henderson RCU_READ_LOCK_GUARD(); 3063*8be545baSRichard Henderson fv = address_space_to_flatview(as); 3064*8be545baSRichard Henderson l = len; 3065*8be545baSRichard Henderson mr = flatview_translate(fv, addr, &addr1, &l, false, attrs); 3066*8be545baSRichard Henderson if (len == l && memory_access_is_direct(mr, false, attrs)) { 3067*8be545baSRichard Henderson ptr = qemu_map_ram_ptr(mr->ram_block, addr1); 3068*8be545baSRichard Henderson memcpy(buf, ptr, len); 3069*8be545baSRichard Henderson } else { 3070*8be545baSRichard Henderson result = flatview_read_continue(fv, addr, attrs, buf, len, 3071*8be545baSRichard Henderson addr1, l, mr); 3072*8be545baSRichard Henderson } 3073*8be545baSRichard Henderson } 3074*8be545baSRichard Henderson } else { 3075*8be545baSRichard Henderson result = address_space_read_full(as, addr, attrs, buf, len); 3076*8be545baSRichard Henderson } 3077*8be545baSRichard Henderson return result; 3078*8be545baSRichard Henderson } 3079*8be545baSRichard Henderson 3080*8be545baSRichard Henderson /** 3081*8be545baSRichard Henderson * address_space_read_cached: read from a cached RAM region 3082*8be545baSRichard Henderson * 3083*8be545baSRichard Henderson * @cache: Cached region to be addressed 3084*8be545baSRichard Henderson * @addr: address relative to the base of the RAM region 3085*8be545baSRichard Henderson * @buf: buffer with the data transferred 3086*8be545baSRichard Henderson * @len: length of the data transferred 3087*8be545baSRichard Henderson */ 3088*8be545baSRichard Henderson static inline MemTxResult 3089*8be545baSRichard Henderson address_space_read_cached(MemoryRegionCache *cache, hwaddr addr, 3090*8be545baSRichard Henderson void *buf, hwaddr len) 3091*8be545baSRichard Henderson { 3092*8be545baSRichard Henderson assert(addr < cache->len && len <= cache->len - addr); 3093*8be545baSRichard Henderson fuzz_dma_read_cb(cache->xlat + addr, len, cache->mrs.mr); 3094*8be545baSRichard Henderson if (likely(cache->ptr)) { 3095*8be545baSRichard Henderson memcpy(buf, cache->ptr + addr, len); 3096*8be545baSRichard Henderson return MEMTX_OK; 3097*8be545baSRichard Henderson } else { 3098*8be545baSRichard Henderson return address_space_read_cached_slow(cache, addr, buf, len); 3099*8be545baSRichard Henderson } 3100*8be545baSRichard Henderson } 3101*8be545baSRichard Henderson 3102*8be545baSRichard Henderson /** 3103*8be545baSRichard Henderson * address_space_write_cached: write to a cached RAM region 3104*8be545baSRichard Henderson * 3105*8be545baSRichard Henderson * @cache: Cached region to be addressed 3106*8be545baSRichard Henderson * @addr: address relative to the base of the RAM region 3107*8be545baSRichard Henderson * @buf: buffer with the data transferred 3108*8be545baSRichard Henderson * @len: length of the data transferred 3109*8be545baSRichard Henderson */ 3110*8be545baSRichard Henderson static inline MemTxResult 3111*8be545baSRichard Henderson address_space_write_cached(MemoryRegionCache *cache, hwaddr addr, 3112*8be545baSRichard Henderson const void *buf, hwaddr len) 3113*8be545baSRichard Henderson { 3114*8be545baSRichard Henderson assert(addr < cache->len && len <= cache->len - addr); 3115*8be545baSRichard Henderson if (likely(cache->ptr)) { 3116*8be545baSRichard Henderson memcpy(cache->ptr + addr, buf, len); 3117*8be545baSRichard Henderson return MEMTX_OK; 3118*8be545baSRichard Henderson } else { 3119*8be545baSRichard Henderson return address_space_write_cached_slow(cache, addr, buf, len); 3120*8be545baSRichard Henderson } 3121*8be545baSRichard Henderson } 3122*8be545baSRichard Henderson 3123*8be545baSRichard Henderson /** 3124*8be545baSRichard Henderson * address_space_set: Fill address space with a constant byte. 3125*8be545baSRichard Henderson * 3126*8be545baSRichard Henderson * Return a MemTxResult indicating whether the operation succeeded 3127*8be545baSRichard Henderson * or failed (eg unassigned memory, device rejected the transaction, 3128*8be545baSRichard Henderson * IOMMU fault). 3129*8be545baSRichard Henderson * 3130*8be545baSRichard Henderson * @as: #AddressSpace to be accessed 3131*8be545baSRichard Henderson * @addr: address within that address space 3132*8be545baSRichard Henderson * @c: constant byte to fill the memory 3133*8be545baSRichard Henderson * @len: the number of bytes to fill with the constant byte 3134*8be545baSRichard Henderson * @attrs: memory transaction attributes 3135*8be545baSRichard Henderson */ 3136*8be545baSRichard Henderson MemTxResult address_space_set(AddressSpace *as, hwaddr addr, 3137*8be545baSRichard Henderson uint8_t c, hwaddr len, MemTxAttrs attrs); 3138*8be545baSRichard Henderson 3139*8be545baSRichard Henderson /* 3140*8be545baSRichard Henderson * Inhibit technologies that require discarding of pages in RAM blocks, e.g., 3141*8be545baSRichard Henderson * to manage the actual amount of memory consumed by the VM (then, the memory 3142*8be545baSRichard Henderson * provided by RAM blocks might be bigger than the desired memory consumption). 3143*8be545baSRichard Henderson * This *must* be set if: 3144*8be545baSRichard Henderson * - Discarding parts of a RAM blocks does not result in the change being 3145*8be545baSRichard Henderson * reflected in the VM and the pages getting freed. 3146*8be545baSRichard Henderson * - All memory in RAM blocks is pinned or duplicated, invaldiating any previous 3147*8be545baSRichard Henderson * discards blindly. 3148*8be545baSRichard Henderson * - Discarding parts of a RAM blocks will result in integrity issues (e.g., 3149*8be545baSRichard Henderson * encrypted VMs). 3150*8be545baSRichard Henderson * Technologies that only temporarily pin the current working set of a 3151*8be545baSRichard Henderson * driver are fine, because we don't expect such pages to be discarded 3152*8be545baSRichard Henderson * (esp. based on guest action like balloon inflation). 3153*8be545baSRichard Henderson * 3154*8be545baSRichard Henderson * This is *not* to be used to protect from concurrent discards (esp., 3155*8be545baSRichard Henderson * postcopy). 3156*8be545baSRichard Henderson * 3157*8be545baSRichard Henderson * Returns 0 if successful. Returns -EBUSY if a technology that relies on 3158*8be545baSRichard Henderson * discards to work reliably is active. 3159*8be545baSRichard Henderson */ 3160*8be545baSRichard Henderson int ram_block_discard_disable(bool state); 3161*8be545baSRichard Henderson 3162*8be545baSRichard Henderson /* 3163*8be545baSRichard Henderson * See ram_block_discard_disable(): only disable uncoordinated discards, 3164*8be545baSRichard Henderson * keeping coordinated discards (via the RamDiscardManager) enabled. 3165*8be545baSRichard Henderson */ 3166*8be545baSRichard Henderson int ram_block_uncoordinated_discard_disable(bool state); 3167*8be545baSRichard Henderson 3168*8be545baSRichard Henderson /* 3169*8be545baSRichard Henderson * Inhibit technologies that disable discarding of pages in RAM blocks. 3170*8be545baSRichard Henderson * 3171*8be545baSRichard Henderson * Returns 0 if successful. Returns -EBUSY if discards are already set to 3172*8be545baSRichard Henderson * broken. 3173*8be545baSRichard Henderson */ 3174*8be545baSRichard Henderson int ram_block_discard_require(bool state); 3175*8be545baSRichard Henderson 3176*8be545baSRichard Henderson /* 3177*8be545baSRichard Henderson * See ram_block_discard_require(): only inhibit technologies that disable 3178*8be545baSRichard Henderson * uncoordinated discarding of pages in RAM blocks, allowing co-existence with 3179*8be545baSRichard Henderson * technologies that only inhibit uncoordinated discards (via the 3180*8be545baSRichard Henderson * RamDiscardManager). 3181*8be545baSRichard Henderson */ 3182*8be545baSRichard Henderson int ram_block_coordinated_discard_require(bool state); 3183*8be545baSRichard Henderson 3184*8be545baSRichard Henderson /* 3185*8be545baSRichard Henderson * Test if any discarding of memory in ram blocks is disabled. 3186*8be545baSRichard Henderson */ 3187*8be545baSRichard Henderson bool ram_block_discard_is_disabled(void); 3188*8be545baSRichard Henderson 3189*8be545baSRichard Henderson /* 3190*8be545baSRichard Henderson * Test if any discarding of memory in ram blocks is required to work reliably. 3191*8be545baSRichard Henderson */ 3192*8be545baSRichard Henderson bool ram_block_discard_is_required(void); 3193*8be545baSRichard Henderson 3194*8be545baSRichard Henderson void ram_block_add_cpr_blocker(RAMBlock *rb, Error **errp); 3195*8be545baSRichard Henderson void ram_block_del_cpr_blocker(RAMBlock *rb); 3196*8be545baSRichard Henderson 3197*8be545baSRichard Henderson #endif 3198