Bringing PDP-7 Unix Back to Life, part 2
Wow! I'm really impressed with the speed at which the PDP-7 Unix restoration team has got things up and going. My user-mode simulator is going well. Phil Budne has taken over the care of the assembler and he's also written a shell. I've written tools to make, populate and check the filesystem.
The kernel came up surprisingly easily, much easier than the 1972 PDP-11 kernel. I think we've found only one or two transcription errors. We did have to comment out some code that deals with the “Graphics-2” device, as SimH doesn't simulate this (yet: Phil's working on it).
Once we deduced the format of the password file, init lets us log in and here is what we see:
login: ken password: ken @ ls -l system 00004 drwr- 05 777 00040 dd 00006 srwr- 02 777 00000 ttyin 00007 srwr- 02 777 00000 keyboard 00010 srwr- 02 777 00000 pptin 00013 srwr- 02 777 00000 ttyout 00014 srwr- 02 777 00000 display 00015 srwr- 02 777 00000 pptout 00016 lrwr- 02 777 01773 as 00017 srwr- 02 777 00414 cat 00020 srwr- 02 777 00107 chmod 00021 srwr- 02 777 00107 chown 00022 srwr- 02 777 00056 chrm 00023 srwr- 02 777 00151 cp 00024 srwr- 02 777 00305 date 00025 lrwr- 02 777 00764 ds 00026 lrwr- 02 777 02143 ed 00027 srwr- 02 777 00454 init 00030 srwr- 02 777 00054 ln 00031 srwr- 02 777 00464 ls 00032 srwr- 02 777 00051 mv 00033 srw-- 02 777 00017 password 00034 srwr- 02 777 00507 sh 00035 srwr- 02 777 00311 stat
Here are just a few things that we've learned about the system.
- The kernel only really knows about two directories, i-nodes 3 and 4. i-node 3 holds “init” and “sh”, and init knows this as the “system” directory. i-node 4 seems to correspond to the “dd” directory, which holds the users' directories according to Dennis' Evolution paper.
- The root user is user-id -1, not zero!
- There is fork() but no exec(). Both init and the shell have “bounce” code. This small snippet of code is copied up to the top of the process memory, and it loads the new executable code at the bottom of the process memory before jumping to it.
- There is no concept of file paths, just a current directory. File names are named either relative to the current directory, or in conjunction with a specified directory. For example:
@ cp abc def # Copy abc to def in the current directory @ ln system sh sh # Link the sh file in the system directory to sh in this directory
- The kernel is agnostic to the concept of “.” and “..” entries in each directory. This means that they can be left out, and the system still works: you can always “chdir dd” to get back to the top of the filesystem and then traverse downwards. But if a filesystem is built with “.” and “..” links, then the kernel happily treats them like all other links.
Now that we've got the basic system up and running, it's time to bring up the big utilities: as and ed. as is working under the user-mode simulator, but we haven't tried it running on the kernel. And, while we have the ed source, it didn't get scanned in very well; we need to get it re-scanned before we can try it out.
Who knows where we will be in another month!