README.md

RescueSystem - Boot into secondary inner core in case main one is unable to boot

Description

When you work on the Oberon system a lot (including changing symbol files), it happens from time to time that you either introduce a bug or forget to recompile a dependent module (e.g. the compiler) and therefore your system is unbootable or unusable. When working in an emulator and you have a recent copy of the filesystem image, the amount of work lost is limited (you may also spend some time to search for the recently changed source code files in a hex editor to rescue any work you did inside the emulator; I for myself mostly write the code outside the emulator and use PCLink to get it in), but it is still a nuisance every time it happens.

Therefore, this set of patches introduces a second "rescue system" on the filesystem which includes a compiler and ORL.Mod. It uses the same filesystem (so in case you break your filesystem, it won't help you), but uses a different extension (.rsc.RS) for the compiled modules, so it won't interfere with your existing system, and when you run the compiler from the rescue system, it will "automagically" compile for the normal system so you can easily fix your errors and recompile. System.Tool is loaded from System.Tool.RS and thanks to Fonts.Embedded.Mod, no font files are required in the filesystem; therefore as long as the filesystem is not corrupted and you do not touch *.RS files, the rescue system will be able to boot.

To enter the rescue system, just restart the system after a failed boot. A boot is considered failed if Oberon.Call() is never invoked. As this can only happen interactively, you can also enter the rescue system by simply restarting the system before you click anything. At the next restart, the normal system will be booted again so you can check if you were able to fix your system, and if required enter the rescue system again.

Note that setting up the rescue system does not only require compiling several new inner cores, it also requires that you move the filesystem. This can be done from within the system, but the chance of catastrophic data loss is high in case anything goes wrong.

Disk layout after installing the rescue system

The (1K) sector at FSOffset+4 will only contain the filesystem magic 8D A3 1E 9B so that the image is detected as an Oberon filesystem by the emulator. The rest of this sector is filled with zeroes.

The next two sectors are loaded to memory by the boot loader in ROM, and contain a "rescue system boot loader" (see next section) which is responsible to decide whether to load the rescue system or the normal system.

The following up to 61 sectors contain the inner core of the rescue system.

After that (64 KB from the original FS offset) the "real" filesystem will be located, starting with the Directory Root sector, followed by the inner core of the normal system.

Rescue system loader boot process

The rescue system loader is initally loaded to 0H by the boot loader.

• 00000000: Jump instruction to jump to machine code (E7000006)
• 00000004: Toggle value, 00000000 for normal boot, 00000001 for recue system boot
• 00000008: Unused (00000000)
• 0000000C: Memory limit (written by the boot loader)
• 00000010: Length of the rescue system loader in bytes (00000800)
• 00000014: Unused (00000000)
• 00000018: Heap start (written by the boot loader)
• 0000001C: Start of machine code

On first invocation by the boot loader, it will then perform the following actions

• Flip the toggle value
• Write its first sector back to disk
• Copy itself to 20000H (128 KB)
• Modify the jump instruction to E7008006 so that next boot will jump into the copy
• Exit

On second invocation (now at 20000H) it will instead perform the following actions

• Depending of the value of the toggle value, either load the normal inner core (located at FSoffset + RSoffset + 4), or the rescue core (located at FSoffset + 4 + 4).
• Copy the value of MemLim and stackOrg from the copy of the recue loader into the inner core
• Exit

Installation

• Push RescueSystemTool.Mod, RescueSystemLoader.Mod, System.Tool.RS to your Oberon system. (Note that RescueSystemLoader.Mod contains a copy of the Kernel.FSoffset constant, so in case your Kernel uses a different filesystem offset, update the copy in RescueSystemLoader.Mod, too.)

• Also push Fonts.Embedded.Mod from MinimalFonts to your Oberon system.

• Compile the new modules:

  ORP.Compile RescueSystemTool.Mod/s RescueSystemLoader.Mod/s ~
  

• Create copies of Modules.Mod and System.Mod which are used inside the rescue system.

  System.CopyFiles Modules.Mod => Modules.RS.Mod
    System.Mod => System.RS.Mod ~
  

• Edit Kernel.Mod to add 80H to CONST FSOffset. Also make the required changes to Modules.RS.Mod, System.RS.Mod and Oberon.Mod. Do not compile Oberon.Mod yet, as it should not get into the rescue system but only into the "normal" system. See RescueSystem.patch or below:

--- 1/Kernel.Mod.txt
+++ 2/Kernel.Mod.txt
@@ -2,7 +2,7 @@
   IMPORT SYSTEM;
   CONST SectorLength* = 1024;
     timer = -64;
-    FSoffset = 80000H; (*256MB in 512-byte blocks*)
+    FSoffset = 80080H; (*256MB in 512-byte blocks*)
     mapsize = 10000H; (*1K sectors, 64MB*)

   TYPE Sector* = ARRAY SectorLength OF BYTE;
--- 1/Modules.RS.Mod.txt
+++ 2/Modules.RS.Mod.txt
@@ -23,7 +23,8 @@
       filename: ModuleName;
   BEGIN i := 0;
     WHILE name[i] # 0X DO filename[i] := name[i]; INC(i) END ;
-    filename[i] := "."; filename[i+1] := "r"; filename[i+2] := "s"; filename[i+3] := "c"; filename[i+4] := 0X;
+    filename[i] := "."; filename[i+1] := "r"; filename[i+2] := "s"; filename[i+3] := "c";
+    filename[i+4] := "."; filename[i+5] := "R"; filename[i+6] := "S"; filename[i+7] := 0X;
     RETURN Files.Old(filename)
   END ThisFile;

--- 1/System.RS.Mod.txt
+++ 2/System.RS.Mod.txt
@@ -372,8 +372,8 @@
     main := TextFrames.NewText(Oberon.Log, 0);
     logV := MenuViewers.New(menu, main, TextFrames.menuH, X, Y);
     Oberon.AllocateSystemViewer(0, X, Y);
-    menu := TextFrames.NewMenu("System.Tool", StandardMenu);
-    main := TextFrames.NewText(TextFrames.Text("System.Tool"), 0);
+    menu := TextFrames.NewMenu("System.Tool.RS", StandardMenu);
+    main := TextFrames.NewText(TextFrames.Text("System.Tool.RS"), 0);
     toolV := MenuViewers.New(menu, main, TextFrames.menuH, X, Y)
   END OpenViewers;

--- 1/Oberon.Mod.txt
+++ 2/Oberon.Mod.txt
@@ -68,6 +68,7 @@
     DW, DH, CL: INTEGER;
     ActCnt: INTEGER; (*action count for GC*)
     Mod: Modules.Module;
+    CommandsExecuted: BOOLEAN;

   (*user identification*)

@@ -276,12 +277,18 @@
   PROCEDURE SetPar*(F: Display.Frame; T: Texts.Text; pos: LONGINT);
   BEGIN Par.vwr := Viewers.This(F.X, F.Y); Par.frame := F; Par.text := T; Par.pos := pos
   END SetPar;
+
+  PROCEDURE DisarmRescueSystem;
+  VAR sec: Kernel.Sector;
+  BEGIN Kernel.GetSector(-62 * 29, sec); sec[4] := 0; Kernel.PutSector(-62 * 29, sec)
+  END DisarmRescueSystem;

   PROCEDURE Call* (name: ARRAY OF CHAR; VAR res: INTEGER);
     VAR mod: Modules.Module; P: Modules.Command;
       i, j: INTEGER; ch: CHAR;
       Mname, Cname: ARRAY 32 OF CHAR;
   BEGIN i := 0; ch := name[0];
+    IF ~CommandsExecuted THEN DisarmRescueSystem; CommandsExecuted := TRUE END;
     WHILE (ch # ".") & (ch # 0X) DO Mname[i] := ch; INC(i); ch := name[i] END ;
     IF ch = "." THEN
       Mname[i] := 0X; INC(i);

• Now is the moment when you should make sure that you have a backup of your Oberon system, in case it contains any valuable files.

• Compile the new modules and the modified inner core, and load the inner core to the boot area:

  ORP.Compile Kernel.Mod FileDir.Mod Files.Mod Modules.Mod ~
  ORL.Link Modules ~
  ORL.Load Modules.bin ~
  

• Move the filesystem by 64KB to the end. After this move, both the "original" boot area (before the new Directory Root) and the new boot area will contain the same boot loader, which is unchanged except for the changed filesystem offset. Be patient, this may take a while; as it is hard to detect the end of the filesystem, we will assume the maximum size.

  RescueSystemTool.MoveFilesystem
  

• Restart the system

• Now build Modules.bin.RS as well as the System and Fonts modules for the rescue system. After moving those modules away for the rescue system, restore/recompile them as they should remain unchanged in the normal system. Then copy all the modules that initially are the same in both systems.

  ORP.Compile Modules.RS.Mod Fonts.Embedded.Mod System.RS.Mod ~
  ORL.Link Modules ~
  
  System.RenameFiles
    Modules.bin => Modules.bin.RS
    Fonts.rsc => Fonts.rsc.RS
    System.rsc => System.rsc.RS ~
  
  ORP.Compile Modules.Mod Fonts.Mod System.Mod Oberon.Mod ~
  ORL.Link Modules ~
  
  System.CopyFiles
    Input.rsc => Input.rsc.RS
    Display.rsc => Display.rsc.RS
    Viewers.rsc => Viewers.rsc.RS
    Texts.rsc => Texts.rsc.RS
    Oberon.rsc => Oberon.rsc.RS
    MenuViewers.rsc => MenuViewers.rsc.RS
    TextFrames.rsc => TextFrames.rsc.RS
    Edit.rsc => Edit.rsc.RS
    PCLink1.rsc => PCLink1.rsc.RS
    Clipboard.rsc => Clipboard.rsc.RS
    ORS.rsc => ORS.rsc.RS
    ORB.rsc => ORB.rsc.RS
    ORG.rsc => ORG.rsc.RS
    ORP.rsc => ORP.rsc.RS
    ORL.rsc => ORL.rsc.RS ~
  

• You may copy other files if you want to use them in the rescue system. (While the rescue system uses the same filesystem, it can only load modules whose name end with .rsc.RS).

• Now load the rescue system into the boot area (before the Directory Root):

  RescueSystemTool.LoadRescue
  

• You may now restart your system and test the rescue system.

• If you want to, you can clean up unneccessary files:

  System.DeleteFiles
    RescueSystemTool.rsc RescueSystemLoader.rsc Modules.bin.RS
    RescueSystemTool.Mod RescueSystemLoader.Mod Modules.bin
    Fonts.Embedded.Mod Modules.RS.Mod System.RS.Mod ~