/* * libqos malloc support * * Copyright (c) 2014 * * Author: * John Snow * * This work is licensed under the terms of the GNU GPL, version 2 or later. * See the COPYING file in the top-level directory. */ #include "qemu/osdep.h" #include "malloc.h" #include "qemu/host-utils.h" typedef struct MemBlock { QTAILQ_ENTRY(MemBlock) MLIST_ENTNAME; uint64_t size; uint64_t addr; } MemBlock; #define DEFAULT_PAGE_SIZE 4096 static void mlist_delete(MemList *list, MemBlock *node) { g_assert(list && node); QTAILQ_REMOVE(list, node, MLIST_ENTNAME); g_free(node); } static MemBlock *mlist_find_key(MemList *head, uint64_t addr) { MemBlock *node; QTAILQ_FOREACH(node, head, MLIST_ENTNAME) { if (node->addr == addr) { return node; } } return NULL; } static MemBlock *mlist_find_space(MemList *head, uint64_t size) { MemBlock *node; QTAILQ_FOREACH(node, head, MLIST_ENTNAME) { if (node->size >= size) { return node; } } return NULL; } static MemBlock *mlist_sort_insert(MemList *head, MemBlock *insr) { MemBlock *node; g_assert(head && insr); QTAILQ_FOREACH(node, head, MLIST_ENTNAME) { if (insr->addr < node->addr) { QTAILQ_INSERT_BEFORE(node, insr, MLIST_ENTNAME); return insr; } } QTAILQ_INSERT_TAIL(head, insr, MLIST_ENTNAME); return insr; } static inline uint64_t mlist_boundary(MemBlock *node) { return node->size + node->addr; } static MemBlock *mlist_join(MemList *head, MemBlock *left, MemBlock *right) { g_assert(head && left && right); left->size += right->size; mlist_delete(head, right); return left; } static void mlist_coalesce(MemList *head, MemBlock *node) { g_assert(node); MemBlock *left; MemBlock *right; char merge; do { merge = 0; left = QTAILQ_PREV(node, MLIST_ENTNAME); right = QTAILQ_NEXT(node, MLIST_ENTNAME); /* clowns to the left of me */ if (left && mlist_boundary(left) == node->addr) { node = mlist_join(head, left, node); merge = 1; } /* jokers to the right */ if (right && mlist_boundary(node) == right->addr) { node = mlist_join(head, node, right); merge = 1; } } while (merge); } static MemBlock *mlist_new(uint64_t addr, uint64_t size) { MemBlock *block; if (!size) { return NULL; } block = g_new0(MemBlock, 1); block->addr = addr; block->size = size; return block; } static uint64_t mlist_fulfill(QGuestAllocator *s, MemBlock *freenode, uint64_t size) { uint64_t addr; MemBlock *usednode; g_assert(freenode); g_assert_cmpint(freenode->size, >=, size); addr = freenode->addr; if (freenode->size == size) { /* re-use this freenode as our used node */ QTAILQ_REMOVE(s->free, freenode, MLIST_ENTNAME); usednode = freenode; } else { /* adjust the free node and create a new used node */ freenode->addr += size; freenode->size -= size; usednode = mlist_new(addr, size); } mlist_sort_insert(s->used, usednode); return addr; } /* To assert the correctness of the list. * Used only if ALLOC_PARANOID is set. */ static void mlist_check(QGuestAllocator *s) { MemBlock *node; uint64_t addr = s->start > 0 ? s->start - 1 : 0; uint64_t next = s->start; QTAILQ_FOREACH(node, s->free, MLIST_ENTNAME) { g_assert_cmpint(node->addr, >, addr); g_assert_cmpint(node->addr, >=, next); addr = node->addr; next = node->addr + node->size; } addr = s->start > 0 ? s->start - 1 : 0; next = s->start; QTAILQ_FOREACH(node, s->used, MLIST_ENTNAME) { g_assert_cmpint(node->addr, >, addr); g_assert_cmpint(node->addr, >=, next); addr = node->addr; next = node->addr + node->size; } } static uint64_t mlist_alloc(QGuestAllocator *s, uint64_t size) { MemBlock *node; node = mlist_find_space(s->free, size); if (!node) { fprintf(stderr, "Out of guest memory.\n"); g_assert_not_reached(); } return mlist_fulfill(s, node, size); } static void mlist_free(QGuestAllocator *s, uint64_t addr) { MemBlock *node; if (addr == 0) { return; } node = mlist_find_key(s->used, addr); if (!node) { fprintf(stderr, "Error: no record found for an allocation at " "0x%016" PRIx64 ".\n", addr); g_assert_not_reached(); } /* Rip it out of the used list and re-insert back into the free list. */ QTAILQ_REMOVE(s->used, node, MLIST_ENTNAME); mlist_sort_insert(s->free, node); mlist_coalesce(s->free, node); } /* * Mostly for valgrind happiness, but it does offer * a chokepoint for debugging guest memory leaks, too. */ void alloc_destroy(QGuestAllocator *allocator) { MemBlock *node; MemBlock *tmp; QAllocOpts mask; /* Check for guest leaks, and destroy the list. */ QTAILQ_FOREACH_SAFE(node, allocator->used, MLIST_ENTNAME, tmp) { if (allocator->opts & (ALLOC_LEAK_WARN | ALLOC_LEAK_ASSERT)) { fprintf(stderr, "guest malloc leak @ 0x%016" PRIx64 "; " "size 0x%016" PRIx64 ".\n", node->addr, node->size); } if (allocator->opts & (ALLOC_LEAK_ASSERT)) { g_assert_not_reached(); } g_free(node); } /* If we have previously asserted that there are no leaks, then there * should be only one node here with a specific address and size. */ mask = ALLOC_LEAK_ASSERT | ALLOC_PARANOID; QTAILQ_FOREACH_SAFE(node, allocator->free, MLIST_ENTNAME, tmp) { if ((allocator->opts & mask) == mask) { if ((node->addr != allocator->start) || (node->size != allocator->end - allocator->start)) { fprintf(stderr, "Free list is corrupted.\n"); g_assert_not_reached(); } } g_free(node); } g_free(allocator->used); g_free(allocator->free); } uint64_t guest_alloc(QGuestAllocator *allocator, size_t size) { uint64_t rsize = size; uint64_t naddr; if (!size) { return 0; } rsize += (allocator->page_size - 1); rsize &= -allocator->page_size; g_assert_cmpint((allocator->start + rsize), <=, allocator->end); g_assert_cmpint(rsize, >=, size); naddr = mlist_alloc(allocator, rsize); if (allocator->opts & ALLOC_PARANOID) { mlist_check(allocator); } return naddr; } void guest_free(QGuestAllocator *allocator, uint64_t addr) { if (!addr) { return; } mlist_free(allocator, addr); if (allocator->opts & ALLOC_PARANOID) { mlist_check(allocator); } } void alloc_init(QGuestAllocator *s, QAllocOpts opts, uint64_t start, uint64_t end, size_t page_size) { MemBlock *node; s->opts = opts; s->start = start; s->end = end; s->used = g_new(MemList, 1); s->free = g_new(MemList, 1); QTAILQ_INIT(s->used); QTAILQ_INIT(s->free); node = mlist_new(s->start, s->end - s->start); QTAILQ_INSERT_HEAD(s->free, node, MLIST_ENTNAME); s->page_size = page_size; } void alloc_set_flags(QGuestAllocator *allocator, QAllocOpts opts) { allocator->opts |= opts; } void migrate_allocator(QGuestAllocator *src, QGuestAllocator *dst) { MemBlock *node, *tmp; MemList *tmpused, *tmpfree; /* The general memory layout should be equivalent, * though opts can differ. */ g_assert_cmphex(src->start, ==, dst->start); g_assert_cmphex(src->end, ==, dst->end); /* Destroy (silently, regardless of options) the dest-list: */ QTAILQ_FOREACH_SAFE(node, dst->used, MLIST_ENTNAME, tmp) { g_free(node); } QTAILQ_FOREACH_SAFE(node, dst->free, MLIST_ENTNAME, tmp) { g_free(node); } tmpused = dst->used; tmpfree = dst->free; /* Inherit the lists of the source allocator: */ dst->used = src->used; dst->free = src->free; /* Source is now re-initialized, the source memory is 'invalid' now: */ src->used = tmpused; src->free = tmpfree; QTAILQ_INIT(src->used); QTAILQ_INIT(src->free); node = mlist_new(src->start, src->end - src->start); QTAILQ_INSERT_HEAD(src->free, node, MLIST_ENTNAME); return; }