Convert shadow paging to use 32 PAE (Direct Paging)

[palacios.git] / palacios / src / palacios / vmm_direct_paging_32pae.h

diff --git a/palacios/src/palacios/vmm_direct_paging_32pae.h b/palacios/src/palacios/vmm_direct_paging_32pae.h
index ff526ed..7414a02 100644 (file)
--- a/palacios/src/palacios/vmm_direct_paging_32pae.h
+++ b/palacios/src/palacios/vmm_direct_paging_32pae.h
@@ -31,87 +31,173 @@
 static inline int handle_passthrough_pagefault_32pae(struct guest_info * info, 
                                                     addr_t fault_addr, 
                                                     pf_error_t error_code) {
-  pdpe32pae_t * pdpe = CR3_TO_PDPE32PAE_VA(info->ctrl_regs.cr3);
-  pde32pae_t * pde = NULL;
-  pte32pae_t * pte = NULL;
-  addr_t host_addr = 0;
+    pdpe32pae_t * pdpe = NULL;
+    pde32pae_t * pde = NULL;
+    pte32pae_t * pte = NULL;
+    addr_t host_addr = 0;
 
-  int pdpe_index = PDPE32PAE_INDEX(fault_addr);
-  int pde_index = PDE32PAE_INDEX(fault_addr);
-  int pte_index = PTE32PAE_INDEX(fault_addr);
+    int pdpe_index = PDPE32PAE_INDEX(fault_addr);
+    int pde_index = PDE32PAE_INDEX(fault_addr);
+    int pte_index = PTE32PAE_INDEX(fault_addr);
+    
 
-  struct v3_shadow_region * region =  v3_get_shadow_region(info, fault_addr);
+    struct v3_mem_region * region =  v3_get_mem_region(info->vm_info, info->vcpu_id, fault_addr);
   
-  if ((region == NULL) || 
-      (region->host_type == SHDW_REGION_INVALID)) {
-    PrintError("Invalid region in passthrough page fault 32PAE, addr=%p\n", 
-              (void *)fault_addr);
-    return -1;
-  }
+    if (region == NULL) {
+       PrintError(info->vm_info, info, "Invalid region in passthrough page fault 32PAE, addr=%p\n", 
+                  (void *)fault_addr);
+       return -1;
+    }
 
-  host_addr = v3_get_shadow_addr(region, fault_addr);
+    PrintDebug(info->vm_info, info, "Direct Paging 32PAE page fault handler=%p\n", (void *)fault_addr);
 
-  // Fix up the PDPE entry
-  if (pdpe[pdpe_index].present == 0) {
-    pde = (pde32pae_t *)create_generic_pt_page();
-   
-    pdpe[pdpe_index].present = 1;
-    // Set default PDPE Flags...
-    pdpe[pdpe_index].pd_base_addr = PAGE_BASE_ADDR((addr_t)V3_PAddr(pde));    
-  } else {
-    pde = V3_VAddr((void*)BASE_TO_PAGE_ADDR(pdpe[pdpe_index].pd_base_addr));
-  }
+    // Lookup the correct PDPE address based on the PAGING MODE
+    if (info->shdw_pg_mode == SHADOW_PAGING) {
+       pdpe = CR3_TO_PDPE32PAE_VA(info->ctrl_regs.cr3);
+    } else {
+       pdpe = CR3_TO_PDPE32PAE_VA(info->direct_map_pt);
+    }
+ 
+    PrintDebug(info->vm_info, info, "Top level pdpe error pdp address=%p\n", (void *)pdpe);
+    // Fix up the PDPE entry
+    if (pdpe[pdpe_index].present == 0) {
+       pde = (pde32pae_t *)create_generic_pt_page(info);
+        PrintDebug(info->vm_info, info, "Creating a new pd page=%p\n", (void *)pde);
+       pdpe[pdpe_index].present = 1;
+       // Set default PDPE Flags...
+       pdpe[pdpe_index].pd_base_addr = PAGE_BASE_ADDR((addr_t)V3_PAddr(pde));    
+    } else {
+       pde = V3_VAddr((void*)BASE_TO_PAGE_ADDR(pdpe[pdpe_index].pd_base_addr));
+    }
+    PrintDebug(info->vm_info, info, "Handling pde error pd base address =%p\n", (void *)pde);
 
+    // Fix up the PDE entry
+    if (pde[pde_index].present == 0) {
+       pte = (pte32pae_t *)create_generic_pt_page(info);
+        PrintDebug(info->vm_info, info, "Creating a new pt page=%p\n", (void *)pte);
+       pde[pde_index].present = 1;
+       pde[pde_index].writable = 1;
+       pde[pde_index].user_page = 1;
 
-  // Fix up the PDE entry
-  if (pde[pde_index].present == 0) {
-    pte = (pte32pae_t *)create_generic_pt_page();
+       pde[pde_index].pt_base_addr = PAGE_BASE_ADDR((addr_t)V3_PAddr(pte));
+    } else {
+       pte = V3_VAddr((void*)BASE_TO_PAGE_ADDR(pde[pde_index].pt_base_addr));
+    }
 
-    pde[pde_index].present = 1;
-    pde[pde_index].writable = 1;
-    pde[pde_index].user_page = 1;
+    PrintDebug(info->vm_info, info, "Handling pte error pt base address=%p\n", (void *)pte);
+    // Fix up the PTE entry
+    if (pte[pte_index].present == 0) {
+       pte[pte_index].user_page = 1;
+
+       if ((region->flags.alloced == 1) && 
+           (region->flags.read == 1)) {
+
+           pte[pte_index].present = 1;
+
+           if (region->flags.write == 1) {
+               pte[pte_index].writable = 1;
+           } else {
+               pte[pte_index].writable = 0;
+           }
+
+           if (v3_gpa_to_hpa(info, fault_addr, &host_addr) == -1) {
+               PrintError(info->vm_info, info, "Could not translate fault address (%p)\n", (void *)fault_addr);
+               return -1;
+           }
+
+           pte[pte_index].page_base_addr = PAGE_BASE_ADDR(host_addr);
+            PrintDebug(info->vm_info, info, "PTE mapped to =%p\n", (void *)host_addr);
+            PrintDebug(info->vm_info, info, "PTE is =%llx\n", *(uint64_t *)&(pte[pte_index]));
+       } else {
+           return region->unhandled(info, fault_addr, fault_addr, region, error_code);
+       }
+    } else {
+       return region->unhandled(info, fault_addr, fault_addr, region, error_code);
+    }
+   
+    PrintDebug(info->vm_info, info, "Handler ends with fault address=%p\n", (void *)fault_addr);
 
-    pde[pde_index].pt_base_addr = PAGE_BASE_ADDR((addr_t)V3_PAddr(pte));
-  } else {
-    pte = V3_VAddr((void*)BASE_TO_PAGE_ADDR(pde[pde_index].pt_base_addr));
-  }
+    return 0;
+}
 
 
-  // Fix up the PTE entry
-  if (pte[pte_index].present == 0) {
-    pte[pte_index].user_page = 1;
+static inline int invalidate_addr_32pae_internal(struct guest_info * info, addr_t inv_addr,
+                                                addr_t *actual_start, uint64_t *actual_size) {
+    pdpe32pae_t * pdpe = NULL;
+    pde32pae_t * pde = NULL;
+    pte32pae_t * pte = NULL;
 
-    if (region->host_type == SHDW_REGION_ALLOCATED) {
-      // Full access
-      pte[pte_index].present = 1;
-      pte[pte_index].writable = 1;
 
-      pte[pte_index].page_base_addr = PAGE_BASE_ADDR(host_addr);
+    // TODO:
+    // Call INVLPGA
 
-    } else if (region->host_type == SHDW_REGION_WRITE_HOOK) {
-      // Only trap writes
-     pte[pte_index].present = 1; 
-     pte[pte_index].writable = 0;
+    // clear the page table entry
+    int pdpe_index = PDPE32PAE_INDEX(inv_addr);
+    int pde_index = PDE32PAE_INDEX(inv_addr);
+    int pte_index = PTE32PAE_INDEX(inv_addr);
 
-     pte[pte_index].page_base_addr = PAGE_BASE_ADDR(host_addr);
+    
+    // Lookup the correct PDE address based on the PAGING MODE
+    if (info->shdw_pg_mode == SHADOW_PAGING) {
+       pdpe = CR3_TO_PDPE32PAE_VA(info->ctrl_regs.cr3);
+    } else {
+       pdpe = CR3_TO_PDPE32PAE_VA(info->direct_map_pt);
+    }    
 
-    } else if (region->host_type == SHDW_REGION_FULL_HOOK) {
-      // trap all accesses
-      return v3_handle_mem_full_hook(info, fault_addr, fault_addr, region, error_code);
 
-    } else {
-      PrintError("Unknown Region Type...\n");
-      return -1;
+    if (pdpe[pdpe_index].present == 0) {
+        *actual_start = BASE_TO_PAGE_ADDR_1GB(PAGE_BASE_ADDR_1GB(inv_addr));
+        *actual_size = PAGE_SIZE_1GB;
+       return 0;
     }
-  }
+
+    pde = V3_VAddr((void*)BASE_TO_PAGE_ADDR(pdpe[pdpe_index].pd_base_addr));
+
+    if (pde[pde_index].present == 0) {
+        *actual_start = BASE_TO_PAGE_ADDR_2MB(PAGE_BASE_ADDR_2MB(inv_addr));
+        *actual_size = PAGE_SIZE_2MB;
+       return 0;
+    } else if (pde[pde_index].large_page) {
+       pde[pde_index].present = 0;
+        *actual_start = BASE_TO_PAGE_ADDR_2MB(PAGE_BASE_ADDR_2MB(inv_addr));
+        *actual_size = PAGE_SIZE_2MB;
+       return 0;
+    }
+
+    pte = V3_VAddr((void*)BASE_TO_PAGE_ADDR(pde[pde_index].pt_base_addr));
+
+    pte[pte_index].present = 0;
+
+    *actual_start = BASE_TO_PAGE_ADDR_4KB(PAGE_BASE_ADDR_4KB(inv_addr));
+    *actual_size = PAGE_SIZE_4KB;
+    return 0;
+}
+
+
+
+static inline int invalidate_addr_32pae(struct guest_info * core, addr_t inv_addr)
+{
+  addr_t start;
+  uint64_t len;
+  
+  return invalidate_addr_32pae_internal(core,inv_addr,&start,&len);
+}
    
-  if ( (region->host_type == SHDW_REGION_WRITE_HOOK) && 
-       (error_code.write == 1) ) {
-    return v3_handle_mem_wr_hook(info, fault_addr, fault_addr, region, error_code);
+static inline int invalidate_addr_32pae_range(struct guest_info * core, addr_t inv_addr_start, addr_t inv_addr_end)
+{
+  addr_t next;
+  addr_t start;
+  uint64_t len;
+  int rc;
+  
+  for (next=inv_addr_start; next<=inv_addr_end; ) {
+    rc = invalidate_addr_32pae_internal(core,next,&start, &len);
+    if (rc) { 
+      return rc;
+    }
+    next = start + len;
   }
-
   return 0;
 }
 
-
 #endif