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e0cb42ae4b
In Xen 4.7 we are refactoring parts libxenctrl into a number of separate libraries which will provide backward and forward API and ABI compatiblity. One such library will be libxenforeignmemory which provides access to privileged foreign mappings and which will provide an interface equivalent to xc_map_foreign_{pages,bulk}. The new xenforeignmemory_map() function behaves like xc_map_foreign_pages() when the err argument is NULL and like xc_map_foreign_bulk() when err is non-NULL, which maps into the shim here onto checking err == NULL and calling the appropriate old function. Note that xenforeignmemory_map() takes the number of pages before the arrays themselves, in order to support potentially future use of variable-length-arrays in the prototype (in the future, when Xen's baseline toolchain requirements are new enough to ensure VLAs are supported). In preparation for adding support for libxenforeignmemory add support to the <=4.0 and <=4.6 compat code in xen_common.h to allow us to switch to using the new API. These shims will disappear for versions of Xen which include libxenforeignmemory. Since libxenforeignmemory will have its own handle type but for <= 4.6 the functionality is provided by using a libxenctrl handle we introduce a new global xen_fmem alongside the existing xen_xc. In fact we make xen_fmem a pointer to the existing xen_xc, which then works correctly with both <=4.0 (xc handle is an int) and <=4.6 (xc handle is a pointer). In the latter case xen_fmem is actually a double indirect pointer, but it all falls out in the wash. Unlike libxenctrl libxenforeignmemory has an explicit unmap function, rather than just specifying that munmap should be used, so the unmap paths are updated to use xenforeignmemory_unmap, which is a shim for munmap on these versions of xen. The mappings in xen-hvm.c do not appear to be unmapped (which makes sense for a qemu-dm process) In fb_disconnect this results in a change from simply mmap over the existing mapping (with an implicit munmap) to expliclty unmapping with xenforeignmemory_unmap and then mapping the required anonymous memory in the same hole. I don't think this is a problem since any other thread which was racily touching this region would already be running the risk of hitting the mapping halfway through the call. If this is thought to be a problem then we could consider adding an extra API to the libxenforeignmemory interface to replace a foreign mapping with anonymous shared memory, but I'd prefer not to. Signed-off-by: Ian Campbell <ian.campbell@citrix.com> Reviewed-by: Stefano Stabellini <stefano.stabellini@eu.citrix.com> Signed-off-by: Stefano Stabellini <stefano.stabellini@eu.citrix.com>
458 lines
13 KiB
C
458 lines
13 KiB
C
/*
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* Copyright (C) 2011 Citrix Ltd.
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*
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* This work is licensed under the terms of the GNU GPL, version 2. See
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* the COPYING file in the top-level directory.
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*
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* Contributions after 2012-01-13 are licensed under the terms of the
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* GNU GPL, version 2 or (at your option) any later version.
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*/
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#include "config.h"
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#include <sys/resource.h>
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#include "hw/xen/xen_backend.h"
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#include "sysemu/blockdev.h"
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#include "qemu/bitmap.h"
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#include <xen/hvm/params.h>
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#include <sys/mman.h>
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#include "sysemu/xen-mapcache.h"
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#include "trace.h"
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//#define MAPCACHE_DEBUG
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#ifdef MAPCACHE_DEBUG
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# define DPRINTF(fmt, ...) do { \
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fprintf(stderr, "xen_mapcache: " fmt, ## __VA_ARGS__); \
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} while (0)
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#else
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# define DPRINTF(fmt, ...) do { } while (0)
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#endif
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#if HOST_LONG_BITS == 32
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# define MCACHE_BUCKET_SHIFT 16
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# define MCACHE_MAX_SIZE (1UL<<31) /* 2GB Cap */
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#else
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# define MCACHE_BUCKET_SHIFT 20
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# define MCACHE_MAX_SIZE (1UL<<35) /* 32GB Cap */
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#endif
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#define MCACHE_BUCKET_SIZE (1UL << MCACHE_BUCKET_SHIFT)
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/* This is the size of the virtual address space reserve to QEMU that will not
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* be use by MapCache.
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* From empirical tests I observed that qemu use 75MB more than the
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* max_mcache_size.
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*/
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#define NON_MCACHE_MEMORY_SIZE (80 * 1024 * 1024)
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typedef struct MapCacheEntry {
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hwaddr paddr_index;
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uint8_t *vaddr_base;
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unsigned long *valid_mapping;
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uint8_t lock;
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hwaddr size;
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struct MapCacheEntry *next;
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} MapCacheEntry;
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typedef struct MapCacheRev {
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uint8_t *vaddr_req;
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hwaddr paddr_index;
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hwaddr size;
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QTAILQ_ENTRY(MapCacheRev) next;
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} MapCacheRev;
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typedef struct MapCache {
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MapCacheEntry *entry;
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unsigned long nr_buckets;
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QTAILQ_HEAD(map_cache_head, MapCacheRev) locked_entries;
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/* For most cases (>99.9%), the page address is the same. */
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MapCacheEntry *last_entry;
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unsigned long max_mcache_size;
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unsigned int mcache_bucket_shift;
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phys_offset_to_gaddr_t phys_offset_to_gaddr;
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QemuMutex lock;
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void *opaque;
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} MapCache;
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static MapCache *mapcache;
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static inline void mapcache_lock(void)
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{
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qemu_mutex_lock(&mapcache->lock);
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}
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static inline void mapcache_unlock(void)
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{
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qemu_mutex_unlock(&mapcache->lock);
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}
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static inline int test_bits(int nr, int size, const unsigned long *addr)
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{
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unsigned long res = find_next_zero_bit(addr, size + nr, nr);
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if (res >= nr + size)
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return 1;
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else
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return 0;
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}
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void xen_map_cache_init(phys_offset_to_gaddr_t f, void *opaque)
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{
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unsigned long size;
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struct rlimit rlimit_as;
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mapcache = g_malloc0(sizeof (MapCache));
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mapcache->phys_offset_to_gaddr = f;
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mapcache->opaque = opaque;
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qemu_mutex_init(&mapcache->lock);
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QTAILQ_INIT(&mapcache->locked_entries);
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if (geteuid() == 0) {
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rlimit_as.rlim_cur = RLIM_INFINITY;
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rlimit_as.rlim_max = RLIM_INFINITY;
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mapcache->max_mcache_size = MCACHE_MAX_SIZE;
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} else {
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getrlimit(RLIMIT_AS, &rlimit_as);
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rlimit_as.rlim_cur = rlimit_as.rlim_max;
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if (rlimit_as.rlim_max != RLIM_INFINITY) {
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fprintf(stderr, "Warning: QEMU's maximum size of virtual"
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" memory is not infinity.\n");
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}
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if (rlimit_as.rlim_max < MCACHE_MAX_SIZE + NON_MCACHE_MEMORY_SIZE) {
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mapcache->max_mcache_size = rlimit_as.rlim_max -
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NON_MCACHE_MEMORY_SIZE;
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} else {
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mapcache->max_mcache_size = MCACHE_MAX_SIZE;
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}
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}
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setrlimit(RLIMIT_AS, &rlimit_as);
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mapcache->nr_buckets =
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(((mapcache->max_mcache_size >> XC_PAGE_SHIFT) +
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(1UL << (MCACHE_BUCKET_SHIFT - XC_PAGE_SHIFT)) - 1) >>
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(MCACHE_BUCKET_SHIFT - XC_PAGE_SHIFT));
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size = mapcache->nr_buckets * sizeof (MapCacheEntry);
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size = (size + XC_PAGE_SIZE - 1) & ~(XC_PAGE_SIZE - 1);
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DPRINTF("%s, nr_buckets = %lx size %lu\n", __func__,
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mapcache->nr_buckets, size);
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mapcache->entry = g_malloc0(size);
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}
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static void xen_remap_bucket(MapCacheEntry *entry,
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hwaddr size,
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hwaddr address_index)
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{
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uint8_t *vaddr_base;
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xen_pfn_t *pfns;
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int *err;
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unsigned int i;
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hwaddr nb_pfn = size >> XC_PAGE_SHIFT;
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trace_xen_remap_bucket(address_index);
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pfns = g_malloc0(nb_pfn * sizeof (xen_pfn_t));
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err = g_malloc0(nb_pfn * sizeof (int));
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if (entry->vaddr_base != NULL) {
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if (munmap(entry->vaddr_base, entry->size) != 0) {
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perror("unmap fails");
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exit(-1);
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}
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}
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g_free(entry->valid_mapping);
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entry->valid_mapping = NULL;
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for (i = 0; i < nb_pfn; i++) {
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pfns[i] = (address_index << (MCACHE_BUCKET_SHIFT-XC_PAGE_SHIFT)) + i;
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}
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vaddr_base = xenforeignmemory_map(xen_fmem, xen_domid, PROT_READ|PROT_WRITE,
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nb_pfn, pfns, err);
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if (vaddr_base == NULL) {
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perror("xenforeignmemory_map");
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exit(-1);
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}
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entry->vaddr_base = vaddr_base;
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entry->paddr_index = address_index;
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entry->size = size;
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entry->valid_mapping = (unsigned long *) g_malloc0(sizeof(unsigned long) *
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BITS_TO_LONGS(size >> XC_PAGE_SHIFT));
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bitmap_zero(entry->valid_mapping, nb_pfn);
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for (i = 0; i < nb_pfn; i++) {
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if (!err[i]) {
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bitmap_set(entry->valid_mapping, i, 1);
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}
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}
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g_free(pfns);
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g_free(err);
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}
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static uint8_t *xen_map_cache_unlocked(hwaddr phys_addr, hwaddr size,
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uint8_t lock)
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{
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MapCacheEntry *entry, *pentry = NULL;
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hwaddr address_index;
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hwaddr address_offset;
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hwaddr cache_size = size;
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hwaddr test_bit_size;
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bool translated = false;
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tryagain:
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address_index = phys_addr >> MCACHE_BUCKET_SHIFT;
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address_offset = phys_addr & (MCACHE_BUCKET_SIZE - 1);
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trace_xen_map_cache(phys_addr);
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/* test_bit_size is always a multiple of XC_PAGE_SIZE */
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if (size) {
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test_bit_size = size + (phys_addr & (XC_PAGE_SIZE - 1));
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if (test_bit_size % XC_PAGE_SIZE) {
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test_bit_size += XC_PAGE_SIZE - (test_bit_size % XC_PAGE_SIZE);
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}
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} else {
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test_bit_size = XC_PAGE_SIZE;
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}
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if (mapcache->last_entry != NULL &&
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mapcache->last_entry->paddr_index == address_index &&
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!lock && !size &&
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test_bits(address_offset >> XC_PAGE_SHIFT,
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test_bit_size >> XC_PAGE_SHIFT,
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mapcache->last_entry->valid_mapping)) {
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trace_xen_map_cache_return(mapcache->last_entry->vaddr_base + address_offset);
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return mapcache->last_entry->vaddr_base + address_offset;
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}
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/* size is always a multiple of MCACHE_BUCKET_SIZE */
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if (size) {
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cache_size = size + address_offset;
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if (cache_size % MCACHE_BUCKET_SIZE) {
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cache_size += MCACHE_BUCKET_SIZE - (cache_size % MCACHE_BUCKET_SIZE);
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}
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} else {
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cache_size = MCACHE_BUCKET_SIZE;
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}
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entry = &mapcache->entry[address_index % mapcache->nr_buckets];
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while (entry && entry->lock && entry->vaddr_base &&
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(entry->paddr_index != address_index || entry->size != cache_size ||
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!test_bits(address_offset >> XC_PAGE_SHIFT,
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test_bit_size >> XC_PAGE_SHIFT,
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entry->valid_mapping))) {
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pentry = entry;
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entry = entry->next;
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}
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if (!entry) {
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entry = g_malloc0(sizeof (MapCacheEntry));
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pentry->next = entry;
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xen_remap_bucket(entry, cache_size, address_index);
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} else if (!entry->lock) {
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if (!entry->vaddr_base || entry->paddr_index != address_index ||
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entry->size != cache_size ||
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!test_bits(address_offset >> XC_PAGE_SHIFT,
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test_bit_size >> XC_PAGE_SHIFT,
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entry->valid_mapping)) {
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xen_remap_bucket(entry, cache_size, address_index);
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}
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}
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if(!test_bits(address_offset >> XC_PAGE_SHIFT,
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test_bit_size >> XC_PAGE_SHIFT,
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entry->valid_mapping)) {
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mapcache->last_entry = NULL;
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if (!translated && mapcache->phys_offset_to_gaddr) {
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phys_addr = mapcache->phys_offset_to_gaddr(phys_addr, size, mapcache->opaque);
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translated = true;
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goto tryagain;
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}
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trace_xen_map_cache_return(NULL);
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return NULL;
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}
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mapcache->last_entry = entry;
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if (lock) {
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MapCacheRev *reventry = g_malloc0(sizeof(MapCacheRev));
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entry->lock++;
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reventry->vaddr_req = mapcache->last_entry->vaddr_base + address_offset;
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reventry->paddr_index = mapcache->last_entry->paddr_index;
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reventry->size = entry->size;
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QTAILQ_INSERT_HEAD(&mapcache->locked_entries, reventry, next);
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}
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trace_xen_map_cache_return(mapcache->last_entry->vaddr_base + address_offset);
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return mapcache->last_entry->vaddr_base + address_offset;
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}
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uint8_t *xen_map_cache(hwaddr phys_addr, hwaddr size,
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uint8_t lock)
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{
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uint8_t *p;
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mapcache_lock();
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p = xen_map_cache_unlocked(phys_addr, size, lock);
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mapcache_unlock();
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return p;
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}
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ram_addr_t xen_ram_addr_from_mapcache(void *ptr)
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{
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MapCacheEntry *entry = NULL;
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MapCacheRev *reventry;
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hwaddr paddr_index;
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hwaddr size;
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ram_addr_t raddr;
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int found = 0;
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mapcache_lock();
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QTAILQ_FOREACH(reventry, &mapcache->locked_entries, next) {
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if (reventry->vaddr_req == ptr) {
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paddr_index = reventry->paddr_index;
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size = reventry->size;
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found = 1;
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break;
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}
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}
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if (!found) {
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fprintf(stderr, "%s, could not find %p\n", __func__, ptr);
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QTAILQ_FOREACH(reventry, &mapcache->locked_entries, next) {
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DPRINTF(" "TARGET_FMT_plx" -> %p is present\n", reventry->paddr_index,
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reventry->vaddr_req);
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}
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abort();
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return 0;
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}
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entry = &mapcache->entry[paddr_index % mapcache->nr_buckets];
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while (entry && (entry->paddr_index != paddr_index || entry->size != size)) {
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entry = entry->next;
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}
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if (!entry) {
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DPRINTF("Trying to find address %p that is not in the mapcache!\n", ptr);
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raddr = 0;
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} else {
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raddr = (reventry->paddr_index << MCACHE_BUCKET_SHIFT) +
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((unsigned long) ptr - (unsigned long) entry->vaddr_base);
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}
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mapcache_unlock();
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return raddr;
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}
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static void xen_invalidate_map_cache_entry_unlocked(uint8_t *buffer)
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{
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MapCacheEntry *entry = NULL, *pentry = NULL;
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MapCacheRev *reventry;
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hwaddr paddr_index;
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hwaddr size;
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int found = 0;
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QTAILQ_FOREACH(reventry, &mapcache->locked_entries, next) {
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if (reventry->vaddr_req == buffer) {
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paddr_index = reventry->paddr_index;
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size = reventry->size;
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found = 1;
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break;
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}
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}
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if (!found) {
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DPRINTF("%s, could not find %p\n", __func__, buffer);
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QTAILQ_FOREACH(reventry, &mapcache->locked_entries, next) {
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DPRINTF(" "TARGET_FMT_plx" -> %p is present\n", reventry->paddr_index, reventry->vaddr_req);
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}
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return;
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}
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QTAILQ_REMOVE(&mapcache->locked_entries, reventry, next);
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g_free(reventry);
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if (mapcache->last_entry != NULL &&
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mapcache->last_entry->paddr_index == paddr_index) {
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mapcache->last_entry = NULL;
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}
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entry = &mapcache->entry[paddr_index % mapcache->nr_buckets];
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while (entry && (entry->paddr_index != paddr_index || entry->size != size)) {
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pentry = entry;
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entry = entry->next;
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}
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if (!entry) {
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DPRINTF("Trying to unmap address %p that is not in the mapcache!\n", buffer);
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return;
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}
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entry->lock--;
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if (entry->lock > 0 || pentry == NULL) {
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return;
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}
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pentry->next = entry->next;
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if (munmap(entry->vaddr_base, entry->size) != 0) {
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perror("unmap fails");
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exit(-1);
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}
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g_free(entry->valid_mapping);
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g_free(entry);
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}
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void xen_invalidate_map_cache_entry(uint8_t *buffer)
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{
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mapcache_lock();
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xen_invalidate_map_cache_entry_unlocked(buffer);
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mapcache_unlock();
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}
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void xen_invalidate_map_cache(void)
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{
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unsigned long i;
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MapCacheRev *reventry;
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/* Flush pending AIO before destroying the mapcache */
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bdrv_drain_all();
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mapcache_lock();
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QTAILQ_FOREACH(reventry, &mapcache->locked_entries, next) {
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DPRINTF("There should be no locked mappings at this time, "
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"but "TARGET_FMT_plx" -> %p is present\n",
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reventry->paddr_index, reventry->vaddr_req);
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}
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for (i = 0; i < mapcache->nr_buckets; i++) {
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MapCacheEntry *entry = &mapcache->entry[i];
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if (entry->vaddr_base == NULL) {
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continue;
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}
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if (entry->lock > 0) {
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continue;
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}
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if (munmap(entry->vaddr_base, entry->size) != 0) {
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perror("unmap fails");
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exit(-1);
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}
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entry->paddr_index = 0;
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entry->vaddr_base = NULL;
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entry->size = 0;
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g_free(entry->valid_mapping);
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entry->valid_mapping = NULL;
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}
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mapcache->last_entry = NULL;
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mapcache_unlock();
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}
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