Let's assume that the files are to be stored in
/var/spool/pq directory; the permissions on the directory
printgrp, mode 2700 - read, write, execute for owner only, and the SGID bit set on the directory means all files created in it will belong to group
Further, we assume that the print queuing program,
pq, has permissions
printer, anyone can execute it, but only
root can look at it).
Now, suppose Joe runs
pq /home/joe/file, and the permissions on the file are
joe:staff:600 (only Joe can read or write to the file). Joe's umask is set to 022 (though this file has more restrictive permissions than are implied by the umask).
When the program runs, the real UID of the process is
joe, but the effective UID is
printer. Since there is no need for setgid operation here, both the real and effective GID are
staff. Joe's auxilliary groups list does not include
Note that it is the effective UID and GID of a process that control its access to files. On his own, Joe cannot see what jobs are in the printer queue; the directory permissions shown don't even allow him to list the files, or access the files in the directory. Note that the converse applies; on its own, the
printer user (or the
pq program running as that user) cannot access Joe's file.
pq program can create files in the printer queue directory; it will probably create two files for this request. One will be a control file, the other will be a copy of the file to be printed. It will determine a job number by some mechanism (say 12345) and it might create and open two files for writing (with restrictive permissions - 0600 or even 0400):
/var/spool/pq/c.12345 - the control file
/var/spool/pq/d.12345.1 - the first (only) data file
It should then reset its effective UID to the real UID, so it is running as Joe. It can then open the file Joe asked to be printed, and copy it to the data file. It can also write whatever information it deems relevant to the control file (date, time, who submitted the request, the number of files to be printed, special printing options, etc). When it closes those files, Joe is no longer able to access them. But the program was able to copy Joe's file to its print queue.
So, that addresses questions 1 (permissions) and 2 (control information), and also 4 (control information again).
Regarding question 3,
root is always a wild card on Unix-like systems because can do anything that he wants. However, as suggested by the rest of the answer, the control file contains information about the print request, including (in particular) who submitted it. You can use setgid programs instead of setuid programs; these work in analogous ways. However, under the system I postulated, the group permissions essentially didn't come into the picture. The
pq program set the permissions on the control file and data file such that the group can't read it, and the directory permissions also deny group access.
We can postulate two more programs:
pqs - printer queue status
pqr - printer queue remove
These programs would also be setuid
pqs program can read the control files in the directory and list pertinent information from them. The
pqr program can read the control files to ensure that when Joe submitted job 12345 when he requests the removal of job 12345. If the program is satisfied, then it can delete the files.
Separately from these user-invoked programs, there would also be a daemon program (conventionally named
pqd in this system) that would be kicked into action by
pq if it is not already running. It would be responsible for reading the control files in the directory, and using that information to actually print the data files to the relevant printer. The details of how different printers and different data formats are handled are a problem for the daemon to deal with. The daemon too will run with
printer privileges, and
printer will have been given access to the printer devices (for locally attached printers) or configured to communicate over the network with a protocol such as IPP (Internet Printer Protocol). Joe probably won't be able to use the printer devices directly.
Note that the setuid programs have powers that Joe does not have. They must be written carefully to ensure that Joe cannot abuse those extra powers. Any setuid program is somewhat dangerous; a setuid
root program can be lethal. In general, setgid programs are less dangerous. However, for both types of program, great care is required in the writing of such programs.