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176 lines
9.2 KiB
Plaintext
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\appendix
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\section{The umap Layer} \label{sect:umap}
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\subsection{Introduction}
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Normally, the file system is expected to span a single administrative domain.
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An administrative domain, for these purposes, is a machine or set of
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machines that share common password file information, usually through
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the yellow pages mechanism. File hierarchies that span more
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than one domain leads to certain problems, since the same numerical
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UID in one domain may correspond to a different user in another domain.
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If the system administrator is very careful to ensure that both domains
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contain identical user ID information, The umap layer can be used to
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run between those domains without changes
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The umap layer is a file system layer that sits on top of the normal
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file layer. The umap layer maps Unix-style UIDs from
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one domain into the UIDs in the other domain. By setting up the mappings
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properly, the same user with different UIDs in two domains can be seen
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as the same user, from the system point of view, or, conversely, two
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different users with the same UID in the two domains can be distinguished.
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First, we define some terms. ``User'' refers to the human (or daemon) that
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has privileges to login, run programs, and access files. ``UID''refers to
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the numerical identifier that uniquely identifies the user within a
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single domain. ``Login name'' refers to the character string the user
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types to log into the system. ``GID'' refers to the numerical group
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identifier used by Unix systems to identify groups of users. ``Group
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name'' is the character string name attached to a particular GID in the
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local {\sf /etc/groups} file or the yellow pages groups file.
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In order for the umap layer to work properly, all users
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in either domain must have password file entries in both domains.
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They do not, however, have to have the same numerical UID, nor even the
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same character string login name (the latter is highly recommended,
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if possible, however). Any user not having a UID in one domain will be
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treated as the special user NOBODY by the other domain, probably with
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undesirable consequences. Any user not owning any files in the shared
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sub-trees need not be given a UID in the other domain.
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Groups work similarly. The umap layer can translate group ID's between
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domains in the same manner as UID's. Again, any group that wishes to
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participate must have a group ID in both domains,
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though it need not be the same GID in both. If a group in one domain is not
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known in the other domain, that group will be treated as being NULLGROUP.
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The umap layer has no provisions for enrolling UID's from other domains
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as group members, but, since each user from each domain must have some
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UID in every domain, the UID in the local domain can be used to enroll
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the user in the local groups.
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NOBODY and NULLGROUP are special reserved UID's and GID's, respectively.
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NOBODY is user 32767. NULLGROUP is group 65534. If the system administrator
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wants to have an appropriate text string appear when these UID's are
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encountered by programs like {\sf ls -l}, he should add these values to
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the password and {\sf /etc/groups} file, or to the appropriate yellow pages.
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If these IDs are already in use in that domain, different values can be
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used for NOBODY and NULLGROUP, but that will require a recompilation of
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the umap layer code and, as a result, the entire kernel. These
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values are defined in the {\sf umap\_info.h} file, kept with the rest of the
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umap source code.
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When the umap layer is in use, one of the participating domains is declared
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to be the master. All UID and GID information stored for participating files
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will be stored in vnodes using its mappings, no matter what site the copies of
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the files are stored at. The master domain therefore need not run a copy
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of the umap layer, as it already has all of the correct mappings. All
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other domains must run a umap layer on top of any other layers they use.
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\subsection{Setting Up a umap Layer}
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The system administrator of a system needing to use the umap layer
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must take several actions.
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First, he must create files containing the necessary UID
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and GID mappings. There is a separate file for user and group IDs. The
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format of the files is the same. The first line contains the total number
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of entries in the file. Each subsequent line contains one mapping. A
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mapping line consists of two numerical UIDs, separated by white space.
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The first is the UID of a user on the local machine. The second is the
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UID for the same user on the master machine. The maximum number of users
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that can be mapped for a single shared sub-tree is 64. The maximum number of
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groups that can be mapped for a single sub-tree is 16. These constants
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are set in the {\sf umap\_info.h} file, and can be changed, but changing them
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requires recompilation. Separate mapping files can be used for each shared
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subtree, or the same mapping files can be shared by several sub-trees.
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Below is a sample UID mapping file. There are four entries. UID 5 is mapped
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to 5, 521 to 521, and 7000 to 7000. UID 2002 is mapped to 604. On this
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machine, the UID's for users 5, 521, and 7000 are the same as on the master,
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but UID 2002 is for a user whose UID on the master machine is 604. All
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files in the sub-tree belonging to that user have UID 604 in their inodes,
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even on this machine, but the umap layer will ensure that anyone running
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under UID 2002 will have all files in this sub-tree owned by 604 treated as if
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they were owned by 2002. An {\sf ls -l} on a file owned by 604 in this sub-tree
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will show the login name associated with UID 2002 as the owner.
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\noindent4\newline
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5 5\newline
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521 521\newline
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2002 604\newline
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7000 7000\newline
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The user and group mapping files should be owned by the root user, and
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should be writable only by that user. If they are not owned by root, or
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are writable by some other user, the umap mounting command will abort.
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Normally, the sub-treeis grafted directly into the place in
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the file hierarchy where the it should appear to users.Using the umap
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layer requires that the sub-tree be grafted somewhere else, and
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the umap layer be mounted in the desired position in the file hierarchy.
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Depending on the situation, the underlying sub-tree can be wherever is
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convenient.
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\subsection{Troubleshooting umap Layer Problems}
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The umap layer code was not built with special convenience or
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robustness in mind, as it is expected to be superseded with a better
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user ID mapping strategy in the near future. As a result, it is not
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very forgiving of errors in being set up. Here are some possible
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problems, and what to do about them.
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\begin{itemize}
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\item{Problem: A file belongs to NOBODY, or group NULLGROUP.
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Fixes: The mapping files don't know about this file's real user or group.
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Either they are not in the mapping files, or the counts on the number of
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entries in the mapping files are too low, so entries at the end (including
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these) are being ignored. Add the entries or fix the counts, and either
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unmount and remount the sub-tree, or reboot.}
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\item{Problem: A normal operation does not work.
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Fixes: Possibly, some mapping has not been set properly. Check to
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see which files are used by the operation and who they appear to be
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owned by. If they are owned by NOBODY or some other suspicious user,
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there may be a problem in the mapping files. Be sure to check groups,
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too. As above, if the counts of mappings in the mapping files are lower
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than the actual numbers of pairs, pairs at the end of the file will be
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ignored. If any changes are made in the mapping files, you will need to
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either unmount and remount or reboot before they will take effect.
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Another possible problem can arise because not all Unix utilities
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rely exclusively on numeric UID for identification. For instance,
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SCCS saves the login name in files. If a user's login name on two machines
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isn't the same, SCCS may veto an operation even though Unix file permissions,
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as checked by the umap layer, may say it's OK. There's not much to be
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done in such cases, unless the login name can be changed or one fiddles
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improperly with SCCS information. There may be other, undiscovered cases
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where similar problems arise, some of which may be even harder to handle.}
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\item{Problem: Someone has access permissions he should not have.
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Fixes: This is probably caused by a mistake in the mapping files. Check
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both user and group mapping files. If any changes are made in the mapping
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files, you will need to unmount and remount the sub-tree or reboot before they
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will take effect.}
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\item{Problem: {\sf ls -l} (or a similar program) shows the wrong user for a file.
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Fixes: Probably a mistake in the mapping files. In particular, if
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two local UIDs are mapped to a single master UID, stat calls will assign
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ownership to the first local UID occurring in the file, which may or may
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not be what was intended. (Generally speaking, mapping two local UIDs to
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a single master UID is a bad idea, but the software will not prevent it.
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Similarly, mapping a single local UID to two master UIDs is a bad idea,
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but will not be prevented. In this case, only the first mapping of the
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local UID will be done. The second, and all subsequent ones, will be
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ignored.) If any changes are made in the mapping files, you will need to
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unmount and remount the sub-tree or reboot before they will take effect.}
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\end{itemize}
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\end{document}
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