grub-luks2-improved-stable/040_all_grub-0.96-nxstack.patch

Fix NX segfaulting on amd64.

Patch by Peter Jones.

http://lists.gnu.org/archive/html/bug-grub/2005-03/msg00011.html

--- grub-0.97/grub/asmstub.c
+++ grub-0.97/grub/asmstub.c
@@ -42,6 +42,7 @@
 #include <sys/time.h>
 #include <termios.h>
 #include <signal.h>
+#include <sys/mman.h>
 
 #ifdef __linux__
 # include <sys/ioctl.h>		/* ioctl */
@@ -79,7 +80,7 @@
 struct apm_info apm_bios_info;
 
 /* Emulation requirements. */
-char *grub_scratch_mem = 0;
+void *grub_scratch_mem = 0;
 
 struct geometry *disks = 0;
 
@@ -103,14 +104,62 @@
 static unsigned int serial_speed;
 #endif /* SIMULATE_SLOWNESS_OF_SERIAL */
 
+/* This allocates page-aligned storage of the specified size, which must be
+ * a multiple of the page size as determined by calling sysconf(_SC_PAGESIZE)
+ */
+#ifdef __linux__
+static void *
+grub_mmap_alloc(size_t len)
+{
+  int mmap_flags = MAP_ANONYMOUS|MAP_PRIVATE|MAP_EXECUTABLE;
+
+#ifdef MAP_32BIT
+  mmap_flags |= MAP_32BIT;
+#endif
+  /* Mark the simulated stack executable, as GCC uses stack trampolines
+   * to implement nested functions. */
+  return mmap(NULL, len, PROT_READ|PROT_WRITE|PROT_EXEC, mmap_flags, -1, 0);
+}
+#else /* !defined(__linux__) */
+static void *
+grub_mmap_alloc(size_t len)
+{
+  int fd = 0, offset = 0, ret = 0;
+  void *pa = MAP_FAILED; 
+  char template[] = "/tmp/grub_mmap_alloc_XXXXXX";
+  errno_t e;
+
+  fd = mkstemp(template);
+  if (fd < 0)
+    return pa;
+
+  unlink(template);
+
+  ret = ftruncate(fd, len);
+  if (ret < 0)
+    return pa;
+
+  /* Mark the simulated stack executable, as GCC uses stack trampolines
+   * to implement nested functions. */
+  pa = mmap(NULL, len, PROT_READ|PROT_WRITE|PROT_EXEC,
+                  MAP_PRIVATE|MAP_EXECUTABLE, fd, offset);
+
+  e = errno;
+  close(fd);
+  errno = e;
+  return pa;
+}
+#endif /* defined(__linux__) */
+
 /* The main entry point into this mess. */
 int
 grub_stage2 (void)
 {
   /* These need to be static, because they survive our stack transitions. */
   static int status = 0;
-  static char *realstack;
-  char *scratch, *simstack;
+  static void *realstack;
+  void *simstack_alloc_base, *simstack;
+  size_t simstack_size, page_size;
   int i;
 
   /* We need a nested function so that we get a clean stack frame,
@@ -140,9 +189,35 @@
   }
 
   assert (grub_scratch_mem == 0);
-  scratch = malloc (0x100000 + EXTENDED_MEMSIZE + 15);
-  assert (scratch);
-  grub_scratch_mem = (char *) ((((int) scratch) >> 4) << 4);
+
+  /* Allocate enough pages for 0x100000 + EXTENDED_SIZE + 15, and
+   * make sure the memory is aligned to a multiple of the system's
+   * page size */
+  page_size = sysconf (_SC_PAGESIZE);
+  simstack_size = ( 0x100000 + EXTENDED_MEMSIZE + 15);
+  if (simstack_size % page_size)
+    {
+      /* If we're not on a page_size boundary, round up to the next one */
+      simstack_size &= ~(page_size-1);
+      simstack_size += page_size;
+    }
+
+  /* Add one for a PROT_NONE boundary page at each end. */
+  simstack_size += 2 * page_size;
+
+  simstack_alloc_base = grub_mmap_alloc(simstack_size);
+  assert (simstack_alloc_base != MAP_FAILED);
+
+  /* mark pages above and below our simstack area as innaccessable.
+   * If the implementation we're using doesn't support that, then the
+   * new protection modes are undefined.  It's safe to just ignore
+   * them, though.  It'd be nice if we knew that we'd get a SEGV for
+   * touching the area, but that's all.  it'd be nice to have. */
+  mprotect (simstack_alloc_base, page_size, PROT_NONE);
+  mprotect ((void *)((unsigned long)simstack_alloc_base +
+                         simstack_size - page_size),  page_size, PROT_NONE);
+
+  grub_scratch_mem = (void *)((unsigned long)simstack_alloc_base + page_size);
 
   /* FIXME: simulate the memory holes using mprot, if available. */
 
@@ -215,7 +290,7 @@
   device_map = 0;
   free (disks);
   disks = 0;
-  free (scratch);
+  munmap(simstack_alloc_base, simstack_size);
   grub_scratch_mem = 0;
 
   if (serial_device)
--- grub-0.97/stage2/builtins.c
+++ grub-0.97/stage2/builtins.c
@@ -131,63 +131,98 @@
 }
 
 
+/* blocklist_read_helper nee disk_read_blocklist_func was a nested
+ * function, to which pointers were taken and exposed globally.  Even
+ * in the GNU-C nested functions extension, they have local linkage,
+ * and aren't guaranteed to be accessable *at all* outside of their 
+ * containing scope.
+ *
+ * Above and beyond all of that, the variables within blocklist_func_context
+ * are originally local variables, with local (not even static) linkage,
+ * from within blocklist_func.  These were each referenced by
+ * disk_read_blocklist_func, which is only called from other functions
+ * through a globally scoped pointer.
+ * 
+ * The documentation in GCC actually uses the words "all hell will break
+ * loose" to describe this scenario.
+ *
+ * Also, "start_sector" was also used uninitialized, but gcc doesn't warn
+ * about it (possibly because of the scoping madness?)
+ */
+   
+static struct {
+       int start_sector;
+       int num_sectors;
+       int num_entries;
+       int last_length;
+} blocklist_func_context = {
+       .start_sector = 0,
+       .num_sectors = 0,
+       .num_entries = 0,
+       .last_length = 0
+};
+
+/* Collect contiguous blocks into one entry as many as possible,
+   and print the blocklist notation on the screen.  */
+static void
+blocklist_read_helper (int sector, int offset, int length)
+{
+  int *start_sector = &blocklist_func_context.start_sector;
+  int *num_sectors = &blocklist_func_context.num_sectors;
+  int *num_entries = &blocklist_func_context.num_entries;
+  int *last_length = &blocklist_func_context.last_length;
+
+  if (*num_sectors > 0)
+  {
+    if (*start_sector + *num_sectors == sector
+      && offset == 0 && *last_length == SECTOR_SIZE)
+    {
+      *num_sectors++;
+      *last_length = length;
+      return;
+    }
+    else
+    {
+      if (*last_length == SECTOR_SIZE)
+        grub_printf ("%s%d+%d", *num_entries ? "," : "",
+          *start_sector - part_start, *num_sectors);
+      else if (*num_sectors > 1)
+        grub_printf ("%s%d+%d,%d[0-%d]", *num_entries ? "," : "",
+          *start_sector - part_start, *num_sectors-1,
+          *start_sector + *num_sectors-1 - part_start, 
+          *last_length);
+      else
+        grub_printf ("%s%d[0-%d]", *num_entries ? "," : "",
+          *start_sector - part_start, *last_length);
+      *num_entries++;
+      *num_sectors = 0;
+    }
+  }
+
+  if (offset > 0)
+  {
+    grub_printf("%s%d[%d-%d]", *num_entries ? "," : "",
+          sector-part_start, offset, offset+length);
+    *num_entries++;
+  }
+  else
+  {
+    *start_sector = sector;
+    *num_sectors = 1;
+    *last_length = length;
+  }
+}
+
 /* blocklist */
 static int
 blocklist_func (char *arg, int flags)
 {
   char *dummy = (char *) RAW_ADDR (0x100000);
-  int start_sector;
-  int num_sectors = 0;
-  int num_entries = 0;
-  int last_length = 0;
-
-  auto void disk_read_blocklist_func (int sector, int offset, int length);
-  
-  /* Collect contiguous blocks into one entry as many as possible,
-     and print the blocklist notation on the screen.  */
-  auto void disk_read_blocklist_func (int sector, int offset, int length)
-    {
-      if (num_sectors > 0)
-	{
-	  if (start_sector + num_sectors == sector
-	      && offset == 0 && last_length == SECTOR_SIZE)
-	    {
-	      num_sectors++;
-	      last_length = length;
-	      return;
-	    }
-	  else
-	    {
-	      if (last_length == SECTOR_SIZE)
-		grub_printf ("%s%d+%d", num_entries ? "," : "",
-			     start_sector - part_start, num_sectors);
-	      else if (num_sectors > 1)
-		grub_printf ("%s%d+%d,%d[0-%d]", num_entries ? "," : "",
-			     start_sector - part_start, num_sectors-1,
-			     start_sector + num_sectors-1 - part_start, 
-			     last_length);
-	      else
-		grub_printf ("%s%d[0-%d]", num_entries ? "," : "",
-			     start_sector - part_start, last_length);
-	      num_entries++;
-	      num_sectors = 0;
-	    }
-	}
-
-      if (offset > 0)
-	{
-	  grub_printf("%s%d[%d-%d]", num_entries ? "," : "",
-		      sector-part_start, offset, offset+length);
-	  num_entries++;
-	}
-      else
-	{
-	  start_sector = sector;
-	  num_sectors = 1;
-	  last_length = length;
-	}
-    }
 
+  int *start_sector = &blocklist_func_context.start_sector;
+  int *num_sectors = &blocklist_func_context.num_sectors;
+  int *num_entries = &blocklist_func_context.num_entries;
+  
   /* Open the file.  */
   if (! grub_open (arg))
     return 1;
@@ -204,15 +241,15 @@
   grub_printf (")");
 
   /* Read in the whole file to DUMMY.  */
-  disk_read_hook = disk_read_blocklist_func;
+  disk_read_hook = blocklist_read_helper;
   if (! grub_read (dummy, -1))
     goto fail;
 
   /* The last entry may not be printed yet.  Don't check if it is a
    * full sector, since it doesn't matter if we read too much. */
-  if (num_sectors > 0)
-    grub_printf ("%s%d+%d", num_entries ? "," : "",
-		 start_sector - part_start, num_sectors);
+  if (*num_sectors > 0)
+	grub_printf ("%s%d+%d", *num_entries ? "," : "",
+                *start_sector - part_start, *num_sectors);
 
   grub_printf ("\n");
   
@@ -1868,6 +1905,77 @@
 
 
 /* install */
+static struct {
+       int saved_sector;
+       int installaddr;
+       int installlist;
+       char *stage2_first_buffer;
+} install_func_context = {
+       .saved_sector = 0,
+       .installaddr = 0,
+       .installlist = 0,
+       .stage2_first_buffer = NULL,
+};
+
+/* Save the first sector of Stage2 in STAGE2_SECT.  */
+/* Formerly disk_read_savesect_func with local scope inside install_func */
+static void
+install_savesect_helper(int sector, int offset, int length)
+{
+  if (debug)
+    printf ("[%d]", sector);
+
+  /* ReiserFS has files which sometimes contain data not aligned
+     on sector boundaries.  Returning an error is better than
+     silently failing. */
+  if (offset != 0 || length != SECTOR_SIZE)
+    errnum = ERR_UNALIGNED;
+
+  install_func_context.saved_sector = sector;
+}
+
+/* Write SECTOR to INSTALLLIST, and update INSTALLADDR and  INSTALLSECT.  */
+/* Formerly disk_read_blocklist_func with local scope inside install_func */
+static void
+install_blocklist_helper (int sector, int offset, int length)
+{
+  int *installaddr = &install_func_context.installaddr;
+  int *installlist = &install_func_context.installlist;
+  char **stage2_first_buffer = &install_func_context.stage2_first_buffer;
+  /* Was the last sector full? */
+  static int last_length = SECTOR_SIZE;
+
+  if (debug)
+    printf("[%d]", sector);
+
+  if (offset != 0 || last_length != SECTOR_SIZE)
+    {
+      /* We found a non-sector-aligned data block. */
+      errnum = ERR_UNALIGNED;
+      return;
+    }
+
+  last_length = length;
+
+  if (*((unsigned long *) (*installlist - 4))
+      + *((unsigned short *) *installlist) != sector
+      || *installlist == (int) *stage2_first_buffer + SECTOR_SIZE + 4)
+    {
+      *installlist -= 8;
+
+      if (*((unsigned long *) (*installlist - 8)))
+        errnum = ERR_WONT_FIT;
+      else
+        {
+          *((unsigned short *) (*installlist + 2)) = (*installaddr >> 4);
+          *((unsigned long *) (*installlist - 4)) = sector;
+        }
+    }
+
+  *((unsigned short *) *installlist) += 1;
+  *installaddr += 512;
+}
+
 static int
 install_func (char *arg, int flags)
 {
@@ -1875,8 +1983,12 @@
   char *stage1_buffer = (char *) RAW_ADDR (0x100000);
   char *stage2_buffer = stage1_buffer + SECTOR_SIZE;
   char *old_sect = stage2_buffer + SECTOR_SIZE;
-  char *stage2_first_buffer = old_sect + SECTOR_SIZE;
-  char *stage2_second_buffer = stage2_first_buffer + SECTOR_SIZE;
+  /* stage2_first_buffer used to be defined as:
+   * char *stage2_first_buffer = old_sect + SECTOR_SIZE;  */
+  char **stage2_first_buffer = &install_func_context.stage2_first_buffer;
+  /* and stage2_second_buffer was:
+   * char *stage2_second_buffer = stage2_first_buffer + SECTOR_SIZE; */
+  char *stage2_second_buffer = old_sect + SECTOR_SIZE + SECTOR_SIZE;
   /* XXX: Probably SECTOR_SIZE is reasonable.  */
   char *config_filename = stage2_second_buffer + SECTOR_SIZE;
   char *dummy = config_filename + SECTOR_SIZE;
@@ -1885,10 +1997,11 @@
   int src_drive, src_partition, src_part_start;
   int i;
   struct geometry dest_geom, src_geom;
-  int saved_sector;
+  int *saved_sector = &install_func_context.saved_sector;
   int stage2_first_sector, stage2_second_sector;
   char *ptr;
-  int installaddr, installlist;
+  int *installaddr = &install_func_context.installaddr;
+  int *installlist = &install_func_context.installlist;
   /* Point to the location of the name of a configuration file in Stage 2.  */
   char *config_file_location;
   /* If FILE is a Stage 1.5?  */
@@ -1897,67 +2010,13 @@
   int is_open = 0;
   /* If LBA is forced?  */
   int is_force_lba = 0;
-  /* Was the last sector full? */
-  int last_length = SECTOR_SIZE;
-  
+
+  *stage2_first_buffer = old_sect + SECTOR_SIZE;
 #ifdef GRUB_UTIL
   /* If the Stage 2 is in a partition mounted by an OS, this will store
      the filename under the OS.  */
   char *stage2_os_file = 0;
 #endif /* GRUB_UTIL */
-  
-  auto void disk_read_savesect_func (int sector, int offset, int length);
-  auto void disk_read_blocklist_func (int sector, int offset, int length);
-  
-  /* Save the first sector of Stage2 in STAGE2_SECT.  */
-  auto void disk_read_savesect_func (int sector, int offset, int length)
-    {
-      if (debug)
-	printf ("[%d]", sector);
-
-      /* ReiserFS has files which sometimes contain data not aligned
-         on sector boundaries.  Returning an error is better than
-         silently failing. */
-      if (offset != 0 || length != SECTOR_SIZE)
-	errnum = ERR_UNALIGNED;
-
-      saved_sector = sector;
-    }
-
-  /* Write SECTOR to INSTALLLIST, and update INSTALLADDR and
-     INSTALLSECT.  */
-  auto void disk_read_blocklist_func (int sector, int offset, int length)
-    {
-      if (debug)
-	printf("[%d]", sector);
-
-      if (offset != 0 || last_length != SECTOR_SIZE)
-	{
-	  /* We found a non-sector-aligned data block. */
-	  errnum = ERR_UNALIGNED;
-	  return;
-	}
-
-      last_length = length;
-
-      if (*((unsigned long *) (installlist - 4))
-	  + *((unsigned short *) installlist) != sector
-	  || installlist == (int) stage2_first_buffer + SECTOR_SIZE + 4)
-	{
-	  installlist -= 8;
-
-	  if (*((unsigned long *) (installlist - 8)))
-	    errnum = ERR_WONT_FIT;
-	  else
-	    {
-	      *((unsigned short *) (installlist + 2)) = (installaddr >> 4);
-	      *((unsigned long *) (installlist - 4)) = sector;
-	    }
-	}
-
-      *((unsigned short *) installlist) += 1;
-      installaddr += 512;
-    }
 
   /* First, check the GNU-style long option.  */
   while (1)
@@ -1987,10 +2049,10 @@
   addr = skip_to (0, file);
 
   /* Get the installation address.  */
-  if (! safe_parse_maxint (&addr, &installaddr))
+  if (! safe_parse_maxint (&addr, installaddr))
     {
       /* ADDR is not specified.  */
-      installaddr = 0;
+      *installaddr = 0;
       ptr = addr;
       errnum = 0;
     }
@@ -2084,17 +2146,17 @@
     = (dest_drive & BIOS_FLAG_FIXED_DISK);
   
   /* Read the first sector of Stage 2.  */
-  disk_read_hook = disk_read_savesect_func;
-  if (grub_read (stage2_first_buffer, SECTOR_SIZE) != SECTOR_SIZE)
+  disk_read_hook = install_savesect_helper;
+  if (grub_read (*stage2_first_buffer, SECTOR_SIZE) != SECTOR_SIZE)
     goto fail;
 
-  stage2_first_sector = saved_sector;
+  stage2_first_sector = *saved_sector;
   
   /* Read the second sector of Stage 2.  */
   if (grub_read (stage2_second_buffer, SECTOR_SIZE) != SECTOR_SIZE)
     goto fail;
 
-  stage2_second_sector = saved_sector;
+  stage2_second_sector = *saved_sector;
   
   /* Check for the version of Stage 2.  */
   if (*((short *) (stage2_second_buffer + STAGE2_VER_MAJ_OFFS))
@@ -2110,27 +2172,27 @@
 
   /* If INSTALLADDR is not specified explicitly in the command-line,
      determine it by the Stage 2 id.  */
-  if (! installaddr)
+  if (! *installaddr)
     {
       if (! is_stage1_5)
 	/* Stage 2.  */
-	installaddr = 0x8000;
+	*installaddr = 0x8000;
       else
 	/* Stage 1.5.  */
-	installaddr = 0x2000;
+	*installaddr = 0x2000;
     }
 
   *((unsigned long *) (stage1_buffer + STAGE1_STAGE2_SECTOR))
     = stage2_first_sector;
   *((unsigned short *) (stage1_buffer + STAGE1_STAGE2_ADDRESS))
-    = installaddr;
+    = *installaddr;
   *((unsigned short *) (stage1_buffer + STAGE1_STAGE2_SEGMENT))
-    = installaddr >> 4;
+    = *installaddr >> 4;
 
-  i = (int) stage2_first_buffer + SECTOR_SIZE - 4;
+  i = (int) *stage2_first_buffer + SECTOR_SIZE - 4;
   while (*((unsigned long *) i))
     {
-      if (i < (int) stage2_first_buffer
+      if (i < (int) *stage2_first_buffer
 	  || (*((int *) (i - 4)) & 0x80000000)
 	  || *((unsigned short *) i) >= 0xA00
 	  || *((short *) (i + 2)) == 0)
@@ -2144,13 +2206,13 @@
       i -= 8;
     }
 
-  installlist = (int) stage2_first_buffer + SECTOR_SIZE + 4;
-  installaddr += SECTOR_SIZE;
+  *installlist = (int) *stage2_first_buffer + SECTOR_SIZE + 4;
+  *installaddr += SECTOR_SIZE;
   
   /* Read the whole of Stage2 except for the first sector.  */
   grub_seek (SECTOR_SIZE);
 
-  disk_read_hook = disk_read_blocklist_func;
+  disk_read_hook = install_blocklist_helper;
   if (! grub_read (dummy, -1))
     goto fail;
   
@@ -2233,7 +2295,7 @@
 	  /* Skip the first sector.  */
 	  grub_seek (SECTOR_SIZE);
 	  
-	  disk_read_hook = disk_read_savesect_func;
+	  disk_read_hook = install_savesect_helper;
 	  if (grub_read (stage2_buffer, SECTOR_SIZE) != SECTOR_SIZE)
 	    goto fail;
 	  
@@ -2303,7 +2365,7 @@
 	  else
 #endif /* GRUB_UTIL */
 	    {
-	      if (! devwrite (saved_sector - part_start, 1, stage2_buffer))
+	      if (! devwrite (*saved_sector - part_start, 1, stage2_buffer))
 		goto fail;
 	    }
 	}
@@ -2325,7 +2387,7 @@
 	  goto fail;
 	}
 
-      if (fwrite (stage2_first_buffer, 1, SECTOR_SIZE, fp) != SECTOR_SIZE)
+      if (fwrite (*stage2_first_buffer, 1, SECTOR_SIZE, fp) != SECTOR_SIZE)
 	{
 	  fclose (fp);
 	  errnum = ERR_WRITE;
@@ -2352,7 +2414,7 @@
 	goto fail;
 
       if (! devwrite (stage2_first_sector - src_part_start, 1,
-		      stage2_first_buffer))
+		      *stage2_first_buffer))
 	goto fail;
 
       if (! devwrite (stage2_second_sector - src_part_start, 1,
--- grub-0.97/stage2/shared.h
+++ grub-0.97/stage2/shared.h
@@ -36,8 +36,8 @@
 
 /* Maybe redirect memory requests through grub_scratch_mem. */
 #ifdef GRUB_UTIL
-extern char *grub_scratch_mem;
-# define RAW_ADDR(x) ((x) + (int) grub_scratch_mem)
+extern void *grub_scratch_mem;
+# define RAW_ADDR(x) ((x) + (unsigned long) grub_scratch_mem)
 # define RAW_SEG(x) (RAW_ADDR ((x) << 4) >> 4)
 #else
 # define RAW_ADDR(x) (x)
-												Initial import of all packages
											
										
										
											2008-04-06 03:17:02 +02:00
+								Fix NX segfaulting on amd64.
 								Patch by Peter Jones.
 								http://lists.gnu.org/archive/html/bug-grub/2005-03/msg00011.html
 								--- grub-0.97/grub/asmstub.c
 								+++ grub-0.97/grub/asmstub.c
@@ -42,6 +42,7 @@
 								 #include <sys/time.h>
 								 #include <termios.h>
 								 #include <signal.h>
 								+#include <sys/mman.h>
 								 #ifdef __linux__
 								 # include <sys/ioctl.h>		/* ioctl */
@@ -79,7 +80,7 @@
 								 struct apm_info apm_bios_info;
 								 /* Emulation requirements. */
 								-char *grub_scratch_mem = 0;
 								+void *grub_scratch_mem = 0;
 								 struct geometry *disks = 0;
@@ -103,14 +104,62 @@
 								 static unsigned int serial_speed;
 								 #endif /* SIMULATE_SLOWNESS_OF_SERIAL */
 								+/* This allocates page-aligned storage of the specified size, which must be
 								+ * a multiple of the page size as determined by calling sysconf(_SC_PAGESIZE)
 								+ */
 								+#ifdef __linux__
 								+static void *
 								+grub_mmap_alloc(size_t len)
 								+{
 								+  int mmap_flags = MAP_ANONYMOUS|MAP_PRIVATE|MAP_EXECUTABLE;
 								+
 								+#ifdef MAP_32BIT
 								+  mmap_flags |= MAP_32BIT;
 								+#endif
 								+  /* Mark the simulated stack executable, as GCC uses stack trampolines
 								+   * to implement nested functions. */
 								+  return mmap(NULL, len, PROT_READ|PROT_WRITE|PROT_EXEC, mmap_flags, -1, 0);
 								+}
 								+#else /* !defined(__linux__) */
 								+static void *
 								+grub_mmap_alloc(size_t len)
 								+{
 								+  int fd = 0, offset = 0, ret = 0;
 								+  void *pa = MAP_FAILED;
 								+  char template[] = "/tmp/grub_mmap_alloc_XXXXXX";
 								+  errno_t e;
 								+
 								+  fd = mkstemp(template);
 								+  if (fd < 0)
 								+    return pa;
 								+
 								+  unlink(template);
 								+
 								+  ret = ftruncate(fd, len);
 								+  if (ret < 0)
 								+    return pa;
 								+
 								+  /* Mark the simulated stack executable, as GCC uses stack trampolines
 								+   * to implement nested functions. */
 								+  pa = mmap(NULL, len, PROT_READ|PROT_WRITE|PROT_EXEC,
 								+                  MAP_PRIVATE|MAP_EXECUTABLE, fd, offset);
 								+
 								+  e = errno;
 								+  close(fd);
 								+  errno = e;
 								+  return pa;
 								+}
 								+#endif /* defined(__linux__) */
 								+
 								 /* The main entry point into this mess. */
 								 int
 								 grub_stage2 (void)
 								 {
 								   /* These need to be static, because they survive our stack transitions. */
 								   static int status = 0;
 								-  static char *realstack;
 								-  char *scratch, *simstack;
 								+  static void *realstack;
 								+  void *simstack_alloc_base, *simstack;
 								+  size_t simstack_size, page_size;
 								   int i;
 								   /* We need a nested function so that we get a clean stack frame,
@@ -140,9 +189,35 @@
 								   }
 								   assert (grub_scratch_mem == 0);
 								-  scratch = malloc (0x100000 + EXTENDED_MEMSIZE + 15);
 								-  assert (scratch);
 								-  grub_scratch_mem = (char *) ((((int) scratch) >> 4) << 4);
 								+
 								+  /* Allocate enough pages for 0x100000 + EXTENDED_SIZE + 15, and
 								+   * make sure the memory is aligned to a multiple of the system's
 								+   * page size */
 								+  page_size = sysconf (_SC_PAGESIZE);
 								+  simstack_size = ( 0x100000 + EXTENDED_MEMSIZE + 15);
 								+  if (simstack_size % page_size)
 								+    {
 								+      /* If we're not on a page_size boundary, round up to the next one */
 								+      simstack_size &= ~(page_size-1);
 								+      simstack_size += page_size;
 								+    }
 								+
 								+  /* Add one for a PROT_NONE boundary page at each end. */
 								+  simstack_size += 2 * page_size;
 								+
 								+  simstack_alloc_base = grub_mmap_alloc(simstack_size);
 								+  assert (simstack_alloc_base != MAP_FAILED);
 								+
 								+  /* mark pages above and below our simstack area as innaccessable.
 								+   * If the implementation we're using doesn't support that, then the
 								+   * new protection modes are undefined.  It's safe to just ignore
 								+   * them, though.  It'd be nice if we knew that we'd get a SEGV for
 								+   * touching the area, but that's all.  it'd be nice to have. */
 								+  mprotect (simstack_alloc_base, page_size, PROT_NONE);
 								+  mprotect ((void *)((unsigned long)simstack_alloc_base +
 								+                         simstack_size - page_size),  page_size, PROT_NONE);
 								+
 								+  grub_scratch_mem = (void *)((unsigned long)simstack_alloc_base + page_size);
 								   /* FIXME: simulate the memory holes using mprot, if available. */
@@ -215,7 +290,7 @@
 								   device_map = 0;
 								   free (disks);
 								   disks = 0;
 								-  free (scratch);
 								+  munmap(simstack_alloc_base, simstack_size);
 								   grub_scratch_mem = 0;
 								   if (serial_device)
 								--- grub-0.97/stage2/builtins.c
 								+++ grub-0.97/stage2/builtins.c
@@ -131,63 +131,98 @@
 								 }
 								+/* blocklist_read_helper nee disk_read_blocklist_func was a nested
 								+ * function, to which pointers were taken and exposed globally.  Even
 								+ * in the GNU-C nested functions extension, they have local linkage,
 								+ * and aren't guaranteed to be accessable *at all* outside of their
 								+ * containing scope.
 								+ *
 								+ * Above and beyond all of that, the variables within blocklist_func_context
 								+ * are originally local variables, with local (not even static) linkage,
 								+ * from within blocklist_func.  These were each referenced by
 								+ * disk_read_blocklist_func, which is only called from other functions
 								+ * through a globally scoped pointer.
 								+ *
 								+ * The documentation in GCC actually uses the words "all hell will break
 								+ * loose" to describe this scenario.
 								+ *
 								+ * Also, "start_sector" was also used uninitialized, but gcc doesn't warn
 								+ * about it (possibly because of the scoping madness?)
 								+ */
 								+
 								+static struct {
 								+       int start_sector;
 								+       int num_sectors;
 								+       int num_entries;
 								+       int last_length;
 								+} blocklist_func_context = {
 								+       .start_sector = 0,
 								+       .num_sectors = 0,
 								+       .num_entries = 0,
 								+       .last_length = 0
 								+};
 								+
 								+/* Collect contiguous blocks into one entry as many as possible,
 								+   and print the blocklist notation on the screen.  */
 								+static void
 								+blocklist_read_helper (int sector, int offset, int length)
 								+{
 								+  int *start_sector = &blocklist_func_context.start_sector;
 								+  int *num_sectors = &blocklist_func_context.num_sectors;
 								+  int *num_entries = &blocklist_func_context.num_entries;
 								+  int *last_length = &blocklist_func_context.last_length;
 								+
 								+  if (*num_sectors > 0)
 								+  {
 								+    if (*start_sector + *num_sectors == sector
 								+      && offset == 0 && *last_length == SECTOR_SIZE)
 								+    {
 								+      *num_sectors++;
 								+      *last_length = length;
 								+      return;
 								+    }
 								+    else
 								+    {
 								+      if (*last_length == SECTOR_SIZE)
 								+        grub_printf ("%s%d+%d", *num_entries ? "," : "",
 								+          *start_sector - part_start, *num_sectors);
 								+      else if (*num_sectors > 1)
 								+        grub_printf ("%s%d+%d,%d[0-%d]", *num_entries ? "," : "",
 								+          *start_sector - part_start, *num_sectors-1,
 								+          *start_sector + *num_sectors-1 - part_start,
 								+          *last_length);
 								+      else
 								+        grub_printf ("%s%d[0-%d]", *num_entries ? "," : "",
 								+          *start_sector - part_start, *last_length);
 								+      *num_entries++;
 								+      *num_sectors = 0;
 								+    }
 								+  }
 								+
 								+  if (offset > 0)
 								+  {
 								+    grub_printf("%s%d[%d-%d]", *num_entries ? "," : "",
 								+          sector-part_start, offset, offset+length);
 								+    *num_entries++;
 								+  }
 								+  else
 								+  {
 								+    *start_sector = sector;
 								+    *num_sectors = 1;
 								+    *last_length = length;
 								+  }
 								+}
 								+
 								 /* blocklist */
 								 static int
 								 blocklist_func (char *arg, int flags)
 								 {
 								   char *dummy = (char *) RAW_ADDR (0x100000);
 								-  int start_sector;
 								-  int num_sectors = 0;
 								-  int num_entries = 0;
 								-  int last_length = 0;
 								-
 								-  auto void disk_read_blocklist_func (int sector, int offset, int length);
 								-
 								-  /* Collect contiguous blocks into one entry as many as possible,
 								-     and print the blocklist notation on the screen.  */
 								-  auto void disk_read_blocklist_func (int sector, int offset, int length)
 								-    {
 								-      if (num_sectors > 0)
 								-	{
 								-	  if (start_sector + num_sectors == sector
 								-	      && offset == 0 && last_length == SECTOR_SIZE)
 								-	    {
 								-	      num_sectors++;
 								-	      last_length = length;
 								-	      return;
 								-	    }
 								-	  else
 								-	    {
 								-	      if (last_length == SECTOR_SIZE)
 								-		grub_printf ("%s%d+%d", num_entries ? "," : "",
 								-			     start_sector - part_start, num_sectors);
 								-	      else if (num_sectors > 1)
 								-		grub_printf ("%s%d+%d,%d[0-%d]", num_entries ? "," : "",
 								-			     start_sector - part_start, num_sectors-1,
 								-			     start_sector + num_sectors-1 - part_start,
 								-			     last_length);
 								-	      else
 								-		grub_printf ("%s%d[0-%d]", num_entries ? "," : "",
 								-			     start_sector - part_start, last_length);
 								-	      num_entries++;
 								-	      num_sectors = 0;
 								-	    }
 								-	}
 								-
 								-      if (offset > 0)
 								-	{
 								-	  grub_printf("%s%d[%d-%d]", num_entries ? "," : "",
 								-		      sector-part_start, offset, offset+length);
 								-	  num_entries++;
 								-	}
 								-      else
 								-	{
 								-	  start_sector = sector;
 								-	  num_sectors = 1;
 								-	  last_length = length;
 								-	}
 								-    }
 								+  int *start_sector = &blocklist_func_context.start_sector;
 								+  int *num_sectors = &blocklist_func_context.num_sectors;
 								+  int *num_entries = &blocklist_func_context.num_entries;
 								+
 								   /* Open the file.  */
 								   if (! grub_open (arg))
 								     return 1;
@@ -204,15 +241,15 @@
 								   grub_printf (")");
 								   /* Read in the whole file to DUMMY.  */
 								-  disk_read_hook = disk_read_blocklist_func;
 								+  disk_read_hook = blocklist_read_helper;
 								   if (! grub_read (dummy, -1))
 								     goto fail;
 								   /* The last entry may not be printed yet.  Don't check if it is a
 								    * full sector, since it doesn't matter if we read too much. */
 								-  if (num_sectors > 0)
 								-    grub_printf ("%s%d+%d", num_entries ? "," : "",
 								-		 start_sector - part_start, num_sectors);
 								+  if (*num_sectors > 0)
 								+	grub_printf ("%s%d+%d", *num_entries ? "," : "",
 								+                *start_sector - part_start, *num_sectors);
 								   grub_printf ("\n");
@@ -1868,6 +1905,77 @@
 								 /* install */
 								+static struct {
 								+       int saved_sector;
 								+       int installaddr;
 								+       int installlist;
 								+       char *stage2_first_buffer;
 								+} install_func_context = {
 								+       .saved_sector = 0,
 								+       .installaddr = 0,
 								+       .installlist = 0,
 								+       .stage2_first_buffer = NULL,
 								+};
 								+
 								+/* Save the first sector of Stage2 in STAGE2_SECT.  */
 								+/* Formerly disk_read_savesect_func with local scope inside install_func */
 								+static void
 								+install_savesect_helper(int sector, int offset, int length)
 								+{
 								+  if (debug)
 								+    printf ("[%d]", sector);
 								+
 								+  /* ReiserFS has files which sometimes contain data not aligned
 								+     on sector boundaries.  Returning an error is better than
 								+     silently failing. */
 								+  if (offset != 0 || length != SECTOR_SIZE)
 								+    errnum = ERR_UNALIGNED;
 								+
 								+  install_func_context.saved_sector = sector;
 								+}
 								+
 								+/* Write SECTOR to INSTALLLIST, and update INSTALLADDR and  INSTALLSECT.  */
 								+/* Formerly disk_read_blocklist_func with local scope inside install_func */
 								+static void
 								+install_blocklist_helper (int sector, int offset, int length)
 								+{
 								+  int *installaddr = &install_func_context.installaddr;
 								+  int *installlist = &install_func_context.installlist;
 								+  char **stage2_first_buffer = &install_func_context.stage2_first_buffer;
 								+  /* Was the last sector full? */
 								+  static int last_length = SECTOR_SIZE;
 								+
 								+  if (debug)
 								+    printf("[%d]", sector);
 								+
 								+  if (offset != 0 || last_length != SECTOR_SIZE)
 								+    {
 								+      /* We found a non-sector-aligned data block. */
 								+      errnum = ERR_UNALIGNED;
 								+      return;
 								+    }
 								+
 								+  last_length = length;
 								+
 								+  if (*((unsigned long *) (*installlist - 4))
 								+      + *((unsigned short *) *installlist) != sector
 								+      || *installlist == (int) *stage2_first_buffer + SECTOR_SIZE + 4)
 								+    {
 								+      *installlist -= 8;
 								+
 								+      if (*((unsigned long *) (*installlist - 8)))
 								+        errnum = ERR_WONT_FIT;
 								+      else
 								+        {
 								+          *((unsigned short *) (*installlist + 2)) = (*installaddr >> 4);
 								+          *((unsigned long *) (*installlist - 4)) = sector;
 								+        }
 								+    }
 								+
 								+  *((unsigned short *) *installlist) += 1;
 								+  *installaddr += 512;
 								+}
 								+
 								 static int
 								 install_func (char *arg, int flags)
 								 {
@@ -1875,8 +1983,12 @@
 								   char *stage1_buffer = (char *) RAW_ADDR (0x100000);
 								   char *stage2_buffer = stage1_buffer + SECTOR_SIZE;
 								   char *old_sect = stage2_buffer + SECTOR_SIZE;
 								-  char *stage2_first_buffer = old_sect + SECTOR_SIZE;
 								-  char *stage2_second_buffer = stage2_first_buffer + SECTOR_SIZE;
 								+  /* stage2_first_buffer used to be defined as:
 								+   * char *stage2_first_buffer = old_sect + SECTOR_SIZE;  */
 								+  char **stage2_first_buffer = &install_func_context.stage2_first_buffer;
 								+  /* and stage2_second_buffer was:
 								+   * char *stage2_second_buffer = stage2_first_buffer + SECTOR_SIZE; */
 								+  char *stage2_second_buffer = old_sect + SECTOR_SIZE + SECTOR_SIZE;
 								   /* XXX: Probably SECTOR_SIZE is reasonable.  */
 								   char *config_filename = stage2_second_buffer + SECTOR_SIZE;
 								   char *dummy = config_filename + SECTOR_SIZE;
@@ -1885,10 +1997,11 @@
 								   int src_drive, src_partition, src_part_start;
 								   int i;
 								   struct geometry dest_geom, src_geom;
 								-  int saved_sector;
 								+  int *saved_sector = &install_func_context.saved_sector;
 								   int stage2_first_sector, stage2_second_sector;
 								   char *ptr;
 								-  int installaddr, installlist;
 								+  int *installaddr = &install_func_context.installaddr;
 								+  int *installlist = &install_func_context.installlist;
 								   /* Point to the location of the name of a configuration file in Stage 2.  */
 								   char *config_file_location;
 								   /* If FILE is a Stage 1.5?  */
@@ -1897,67 +2010,13 @@
 								   int is_open = 0;
 								   /* If LBA is forced?  */
 								   int is_force_lba = 0;
 								-  /* Was the last sector full? */
 								-  int last_length = SECTOR_SIZE;
 								-
 								+
 								+  *stage2_first_buffer = old_sect + SECTOR_SIZE;
 								 #ifdef GRUB_UTIL
 								   /* If the Stage 2 is in a partition mounted by an OS, this will store
 								      the filename under the OS.  */
 								   char *stage2_os_file = 0;
 								 #endif /* GRUB_UTIL */
 								-
 								-  auto void disk_read_savesect_func (int sector, int offset, int length);
 								-  auto void disk_read_blocklist_func (int sector, int offset, int length);
 								-
 								-  /* Save the first sector of Stage2 in STAGE2_SECT.  */
 								-  auto void disk_read_savesect_func (int sector, int offset, int length)
 								-    {
 								-      if (debug)
 								-	printf ("[%d]", sector);
 								-
 								-      /* ReiserFS has files which sometimes contain data not aligned
 								-         on sector boundaries.  Returning an error is better than
 								-         silently failing. */
 								-      if (offset != 0 || length != SECTOR_SIZE)
 								-	errnum = ERR_UNALIGNED;
 								-
 								-      saved_sector = sector;
 								-    }
 								-
 								-  /* Write SECTOR to INSTALLLIST, and update INSTALLADDR and
 								-     INSTALLSECT.  */
 								-  auto void disk_read_blocklist_func (int sector, int offset, int length)
 								-    {
 								-      if (debug)
 								-	printf("[%d]", sector);
 								-
 								-      if (offset != 0 || last_length != SECTOR_SIZE)
 								-	{
 								-	  /* We found a non-sector-aligned data block. */
 								-	  errnum = ERR_UNALIGNED;
 								-	  return;
 								-	}
 								-
 								-      last_length = length;
 								-
 								-      if (*((unsigned long *) (installlist - 4))
 								-	  + *((unsigned short *) installlist) != sector
 								-	  || installlist == (int) stage2_first_buffer + SECTOR_SIZE + 4)
 								-	{
 								-	  installlist -= 8;
 								-
 								-	  if (*((unsigned long *) (installlist - 8)))
 								-	    errnum = ERR_WONT_FIT;
 								-	  else
 								-	    {
 								-	      *((unsigned short *) (installlist + 2)) = (installaddr >> 4);
 								-	      *((unsigned long *) (installlist - 4)) = sector;
 								-	    }
 								-	}
 								-
 								-      *((unsigned short *) installlist) += 1;
 								-      installaddr += 512;
 								-    }
 								   /* First, check the GNU-style long option.  */
 								   while (1)
@@ -1987,10 +2049,10 @@
 								   addr = skip_to (0, file);
 								   /* Get the installation address.  */
 								-  if (! safe_parse_maxint (&addr, &installaddr))
 								+  if (! safe_parse_maxint (&addr, installaddr))
 								     {
 								       /* ADDR is not specified.  */
 								-      installaddr = 0;
 								+      *installaddr = 0;
 								       ptr = addr;
 								       errnum = 0;
 								     }
@@ -2084,17 +2146,17 @@
 								     = (dest_drive & BIOS_FLAG_FIXED_DISK);
 								   /* Read the first sector of Stage 2.  */
 								-  disk_read_hook = disk_read_savesect_func;
 								-  if (grub_read (stage2_first_buffer, SECTOR_SIZE) != SECTOR_SIZE)
 								+  disk_read_hook = install_savesect_helper;
 								+  if (grub_read (*stage2_first_buffer, SECTOR_SIZE) != SECTOR_SIZE)
 								     goto fail;
 								-  stage2_first_sector = saved_sector;
 								+  stage2_first_sector = *saved_sector;
 								   /* Read the second sector of Stage 2.  */
 								   if (grub_read (stage2_second_buffer, SECTOR_SIZE) != SECTOR_SIZE)
 								     goto fail;
 								-  stage2_second_sector = saved_sector;
 								+  stage2_second_sector = *saved_sector;
 								   /* Check for the version of Stage 2.  */
 								   if (*((short *) (stage2_second_buffer + STAGE2_VER_MAJ_OFFS))
@@ -2110,27 +2172,27 @@
 								   /* If INSTALLADDR is not specified explicitly in the command-line,
 								      determine it by the Stage 2 id.  */
 								-  if (! installaddr)
 								+  if (! *installaddr)
 								     {
 								       if (! is_stage1_5)
 								 	/* Stage 2.  */
 								-	installaddr = 0x8000;
 								+	*installaddr = 0x8000;
 								       else
 								 	/* Stage 1.5.  */
 								-	installaddr = 0x2000;
 								+	*installaddr = 0x2000;
 								     }
 								   *((unsigned long *) (stage1_buffer + STAGE1_STAGE2_SECTOR))
 								     = stage2_first_sector;
 								   *((unsigned short *) (stage1_buffer + STAGE1_STAGE2_ADDRESS))
 								-    = installaddr;
 								+    = *installaddr;
 								   *((unsigned short *) (stage1_buffer + STAGE1_STAGE2_SEGMENT))
 								-    = installaddr >> 4;
 								+    = *installaddr >> 4;
 								-  i = (int) stage2_first_buffer + SECTOR_SIZE - 4;
 								+  i = (int) *stage2_first_buffer + SECTOR_SIZE - 4;
 								   while (*((unsigned long *) i))
 								     {
 								-      if (i < (int) stage2_first_buffer
 								+      if (i < (int) *stage2_first_buffer
 								 	  || (*((int *) (i - 4)) & 0x80000000)
 								 	  || *((unsigned short *) i) >= 0xA00
 								 	  || *((short *) (i + 2)) == 0)
@@ -2144,13 +2206,13 @@
 								       i -= 8;
 								     }
 								-  installlist = (int) stage2_first_buffer + SECTOR_SIZE + 4;
 								-  installaddr += SECTOR_SIZE;
 								+  *installlist = (int) *stage2_first_buffer + SECTOR_SIZE + 4;
 								+  *installaddr += SECTOR_SIZE;
 								   /* Read the whole of Stage2 except for the first sector.  */
 								   grub_seek (SECTOR_SIZE);
 								-  disk_read_hook = disk_read_blocklist_func;
 								+  disk_read_hook = install_blocklist_helper;
 								   if (! grub_read (dummy, -1))
 								     goto fail;
@@ -2233,7 +2295,7 @@
 								 	  /* Skip the first sector.  */
 								 	  grub_seek (SECTOR_SIZE);
 								-	  disk_read_hook = disk_read_savesect_func;
 								+	  disk_read_hook = install_savesect_helper;
 								 	  if (grub_read (stage2_buffer, SECTOR_SIZE) != SECTOR_SIZE)
 								 	    goto fail;
@@ -2303,7 +2365,7 @@
 								 	  else
 								 #endif /* GRUB_UTIL */
 								 	    {
 								-	      if (! devwrite (saved_sector - part_start, 1, stage2_buffer))
 								+	      if (! devwrite (*saved_sector - part_start, 1, stage2_buffer))
 								 		goto fail;
 								 	    }
 								 	}
@@ -2325,7 +2387,7 @@
 								 	  goto fail;
 								 	}
 								-      if (fwrite (stage2_first_buffer, 1, SECTOR_SIZE, fp) != SECTOR_SIZE)
 								+      if (fwrite (*stage2_first_buffer, 1, SECTOR_SIZE, fp) != SECTOR_SIZE)
 								 	{
 								 	  fclose (fp);
 								 	  errnum = ERR_WRITE;
@@ -2352,7 +2414,7 @@
 								 	goto fail;
 								       if (! devwrite (stage2_first_sector - src_part_start, 1,
 								-		      stage2_first_buffer))
 								+		      *stage2_first_buffer))
 								 	goto fail;
 								       if (! devwrite (stage2_second_sector - src_part_start, 1,
 								--- grub-0.97/stage2/shared.h
 								+++ grub-0.97/stage2/shared.h
@@ -36,8 +36,8 @@
 								 /* Maybe redirect memory requests through grub_scratch_mem. */
 								 #ifdef GRUB_UTIL
 								-extern char *grub_scratch_mem;
 								-# define RAW_ADDR(x) ((x) + (int) grub_scratch_mem)
 								+extern void *grub_scratch_mem;
 								+# define RAW_ADDR(x) ((x) + (unsigned long) grub_scratch_mem)
 								 # define RAW_SEG(x) (RAW_ADDR ((x) << 4) >> 4)
 								 #else
 								 # define RAW_ADDR(x) (x)