// Need to fix this....
return PAGE_SIZE_4KB;
-
-
-#if 0
- struct v3_mem_region * base_reg = &(info->vm_info->mem_map.base_region);
-
- /* If the guest has been configured for 2MiB pages, then we must check for hooked regions of
- * memory which may overlap with the 2MiB page containing the faulting address (due to
- * potentially differing access policies in place for e.g. i/o devices and APIC). A 2MiB page
- * can be used if a) no region overlaps the page [or b) a region does overlap but fully contains
- * the page]. The [bracketed] text pertains to the #if 0'd code below, state D. TODO modify this
- * note if someone decides to enable this optimization. It can be tested with the SeaStar
- * mapping.
- *
- * Examples: (CAPS regions are returned by v3_get_next_mem_region; state A returns the base reg)
- *
- * |region| |region| 2MiB mapped (state A)
- * |reg| |REG| 2MiB mapped (state B)
- * |region| |reg| |REG| |region| |reg| 4KiB mapped (state C)
- * |reg| |reg| |--REGION---| [2MiB mapped (state D)]
- * |--------------------------------------------| RAM
- * ^ fault addr
- * |----|----|----|----|----|page|----|----|----| 2MB pages
- * >>>>>>>>>>>>>>>>>>>> search space
- */
- addr_t pg_start = 0UL, pg_end = 0UL; // 2MiB page containing the faulting address
- struct v3_mem_region * pg_next_reg = NULL; // next immediate mem reg after page start addr
- bool use_large_page = false;
-
- if (region == NULL) {
- PrintError("%s: invalid region, addr=%p\n", __FUNCTION__, (void *)fault_addr);
- return -1;
- }
-
- // set use_large_page here
- if (info->vm_info->paging_size == PAGING_2MB) {
-
- // guest page maps to a host page + offset (so when we shift, it aligns with a host page)
- pg_start = PAGE_ADDR_2MB(fault_addr);
- pg_end = (pg_start + PAGE_SIZE_2MB);
-
- PrintDebug("%s: page [%p,%p) contains address\n", __FUNCTION__, (void *)pg_start, (void *)pg_end);
-
- pg_next_reg = v3_get_next_mem_region(info->vm_info, info->cpu_id, pg_start);
-
- if (pg_next_reg == NULL) {
- PrintError("%s: Error: address not in base region, %p\n", __FUNCTION__, (void *)fault_addr);
- return -1;
- }
-
- if (pg_next_reg->base == 1) { // next region == base region
- use_large_page = 1; // State A
- } else {
-#if 0 // State B/C and D optimization
- use_large_page = (pg_next_reg->guest_end >= pg_end) &&
- ((pg_next_reg->guest_start >= pg_end) || (pg_next_reg->guest_start <= pg_start));
- PrintDebug("%s: region [%p,%p) %s partial overlap with page\n", __FUNCTION__,
- (void *)pg_next_reg->guest_start, (void *)pg_next_reg->guest_end,
- (use_large_page ? "does not have" : "has"));
-#else // State B/C
- use_large_page = (pg_next_reg->guest_start >= pg_end);
- PrintDebug("%s: region [%p,%p) %s overlap with page\n", __FUNCTION__,
- (void *)pg_next_reg->guest_start, (void *)pg_next_reg->guest_end,
- (use_large_page ? "does not have" : "has"));
-#endif
- }
- }
-
- PrintDebug("%s: Address gets a 2MiB page? %s\n", __FUNCTION__, (use_large_page ? "yes" : "no"));
-#endif
}
pde = V3_VAddr((void*)BASE_TO_PAGE_ADDR_4KB(pdpe[pdpe_index].pd_base_addr));
}
- // Fix up the 2MiB PDE and exit here
- if (page_size == PAGE_SIZE_2MB) {
- pde2mb = (pde64_2MB_t *)pde; // all but these two lines are the same for PTE
- pde2mb[pde_index].large_page = 1;
-
- if (pde2mb[pde_index].present == 0) {
- pde2mb[pde_index].user_page = 1;
-
- if ( (region->flags.alloced == 1) &&
- (region->flags.read == 1)) {
- // Full access
- pde2mb[pde_index].present = 1;
-
- if (region->flags.write == 1) {
- pde2mb[pde_index].writable = 1;
- } else {
- pde2mb[pde_index].writable = 0;
- }
-
- if (v3_gpa_to_hpa(core, fault_addr, &host_addr) == -1) {
- PrintError("Error Could not translate fault addr (%p)\n", (void *)fault_addr);
- return -1;
- }
-
- pde2mb[pde_index].page_base_addr = PAGE_BASE_ADDR_2MB(host_addr);
- } else {
- return region->unhandled(core, fault_addr, fault_addr, region, error_code);
- }
- } else {
- // We fix all permissions on the first pass,
- // so we only get here if its an unhandled exception
-
- return region->unhandled(core, fault_addr, fault_addr, region, error_code);
- }
-
- // All done
- return 0;
- }
+
// Continue with the 4KiB page heirarchy