* These limitations are worked around in this test by using a large enough
* region of memory for each vCPU such that the number of translations cached in
* the TLB and the number of pages held in pagevecs are a small fraction of the
- * overall workload. And if either of those conditions are not true this test
- * will fail rather than silently passing.
+ * overall workload. And if either of those conditions are not true (for example
+ * in nesting, where TLB size is unlimited) this test will print a warning
+ * rather than silently passing.
*/
#include <inttypes.h>
#include <limits.h>
vcpu_idx, no_pfn, pages);
/*
- * Test that at least 90% of memory has been marked idle (the rest might
- * not be marked idle because the pages have not yet made it to an LRU
- * list or the translations are still cached in the TLB). 90% is
+ * Check that at least 90% of memory has been marked idle (the rest
+ * might not be marked idle because the pages have not yet made it to an
+ * LRU list or the translations are still cached in the TLB). 90% is
* arbitrary; high enough that we ensure most memory access went through
* access tracking but low enough as to not make the test too brittle
* over time and across architectures.
+ *
+ * Note that when run in nested virtualization, this check will trigger
+ * much more frequently because TLB size is unlimited and since no flush
+ * happens, much more pages are cached there and guest won't see the
+ * "idle" bit cleared.
*/
- TEST_ASSERT(still_idle < pages / 10,
- "vCPU%d: Too many pages still idle (%"PRIu64 " out of %"
- PRIu64 ").\n",
- vcpu_idx, still_idle, pages);
+ if (still_idle < pages / 10)
+ printf("WARNING: vCPU%d: Too many pages still idle (%" PRIu64
+ "out of %" PRIu64 "), this will affect performance results"
+ ".\n",
+ vcpu_idx, still_idle, pages);
close(page_idle_fd);
close(pagemap_fd);