int node_id = numa_addr_to_node(pg_addr);
//DEBUG("Freeing Memory page %p\n", (void *)pg_addr);
- buddy_free(memzones[node_id], pg_addr, get_order(num_pages * PAGE_SIZE) + PAGE_SHIFT);
+ if (buddy_free(memzones[node_id], pg_addr, get_order(num_pages * PAGE_SIZE) + PAGE_SHIFT)) {
+ // it is possible that the allocation was actually on a different zone,
+ // so, just to be sure, we'll try to dellocate on each
+ for (node_id=0;node_id<numa_num_nodes();node_id++) {
+ if (!buddy_free(memzones[node_id], pg_addr, get_order(num_pages * PAGE_SIZE) + PAGE_SHIFT)) {
+ // successfully freed on different zone, which is also OK
+ break;
+ }
+ }
+ if (node_id==numa_num_nodes()) {
+ ERROR("Unable to free pages -addr=%p, numpages=%llu on any node\n",(void*)pg_addr,num_pages);
+ }
+ }
return;
}
ERROR("Unable to satisfy allocation request\n");
palacios_free(keep);
return -1;
- }
+ }
r->base_addr = page_to_pfn(pgs) << PAGE_SHIFT;
}
{
struct page * pgs;
-
+ int actual_node;
+
// attempt to first allocate below 4 GB for compatibility with
// 32 bit shadow paging
pgs = alloc_pages_node(node_id, GFP_DMA32, MAX_ORDER - 1);
+
if (!pgs) {
INFO("Could not allocate initial memory block for node %d below 4GB\n", node_id);
palacios_deinit_mm();
return -1;
}
+ } else {
+ actual_node=numa_addr_to_node((uintptr_t)(page_to_pfn(pgs) << PAGE_SHIFT));
+ if (actual_node != node_id) {
+ WARNING("Initial 64 bit allocation attempt for node %d resulted in allocation on node %d\n",node_id,actual_node);
+ }
}
+
+ } else {
+ actual_node=numa_addr_to_node((uintptr_t)(page_to_pfn(pgs) << PAGE_SHIFT));
+ if (actual_node != node_id) {
+ WARNING("Initial 32bit-limited allocation attempt for node %d resulted in allocation on node %d\n",node_id,actual_node);
+ }
}
seed_addrs[node_id] = page_to_pfn(pgs) << PAGE_SHIFT;