protect

Changes permissions or ownership of a VOB object

Applicability

Product

Command type

VersionVault

cleartool subcommand

Platform

UNIX

Linux

Windows

Synopsis

protect { [ –cho/wn login-name ] [ –chg/rp group-name ]
[ –chm/od permissions ] | [ -chrolemap rolemap-selector ] }

[ –c/omment comment | –cfi/le comment-file-pname | –cq/uery

| –cqe/ach | –nc/omment ]

{ [ –fil/e | –d/irectory ] [ –r/ecurse ] [ –pna/me ] pname ...

| object-selector ...

}

Description

The protect command sets the owner, group, or permissions for one or more elements, shared derived objects, or named VOB objects. This information is maintained in the VOB database.

Note: This command does not apply to files loaded in a snapshot view.

The main use of protect is to control access by standard programs to an element or object's data. For example, you can make some elements readable by anyone and make others readable by only their group members.

Modifying the permissions of an element changes the permissions of all of its source containers and (if applicable) its cleartext containers. That is, the change affects all versions, not just the version selected by the current view. There is no way to change the permissions of an individual version.

Some forms of protect affect VersionVault access. For example, a checkout or checkin is permitted only if the user is the element's owner or is a member of the element's group.

Note: If you have renamed elements or moved them between directories (such as after a code refactoring), be aware that each element has only one protection. If different views show the element in different parent directories, they will see the same protection for the element. You cannot set the protection based on the pathname used to access the element.

View-private objects

This command does not affect view-private objects. For this reason, entering a protect command sometimes seems to have no effect:

  • Changing an element's permissions has no effect on its checked-out versions. After you check in the element, your view selects the checked-in version, thus making the updated permissions appear.
  • Changing a DO's permission has no effect on the way the DO appears in the view where it was originally created or in the dynamic views where it has been winked in. To have your dynamic view use a shared DO with updated permissions:
    1. Use protect to change the permissions on the DO in the VOB database.
    2. Use rm to remove the DO from your view.
    3. Use clearmake or the winkin command to wink in the DO, with its new permissions.

You can change the permissions on any view-private object (including a checked-out version), with the standard operating system commands.

Note: For UNIX and Linux users, we support the BSD semantics (POSIX CHOWN RESTRICTED) for chown: only root can change the owner IDs. (In a view, this means the root identity on the machine on which the view storage directory resides.)

A winked-in DO is not really a view-private object, but it behaves like one (so that users in different views can build software independently). Moreover, changing the permissions of a winked-in DO actually converts it to a view-private file in your view. See VersionVault Guide to Building Software.

Owner setting

The initial owner of an element is the user who creates it with mkelem or mkdir. The initial owner of a named VOB object is the user who creates it. The initial owner of a derived object is the user who builds it with clearmake. When the derived object is winked in and becomes shared, its data container is promoted to a VOB storage pool. This process preserves the derived object's ownership, no matter who performs the build that causes the winkin.

For a list of operations that can be performed by an element's owner, see the permissions reference page .

Group setting

The initial group of an element or named VOB object is the principal group of its creator. The new group specified in a protect –chgrp command must be one of the groups on the VOB's group list.

See the permissions reference page for a list of operations that can be performed by members of an element's or derived object's group.

Note: When UNIX or Linux users execute protect using the –chgrp or –chown options, the setuid and setgid bits of the file mode (04000 and 02000, respectively) are always cleared. This behavior differs from UNIX and Linux practice, where clearing occurs only when a non-root identity runs the chgrp or chown command.

Read and execute permissions

The read and execute permissions of an element or a shared derived object control access to its data in the standard manner. The permissions are also applied to all its associated data containers. Read and execute permissions do not apply to non-file-system objects such as branch types and hyperlinks.

Note: protect sometimes adds group-read permission to your specification to ensures that the owner of an element always retains read permission to its data containers.

Write permission

The meaning of the write permission varies with the kind of object:

For a file element, write permission settings are ignored. To obtain write permission to a file element, you must check it out (see the checkout reference page).

For a directory element, write permission allows view-private files to be created within it. VersionVault permissions control changes to the directory element itself. (See the permissions reference page.)

For a shared derived object, write permission allows it to be overwritten with a new derived object during a target rebuild. (The shared derived object is not actually affected; rather, the view sees the new, unshared derived object in its place.)

Protection of global types and local copies

Changing the protection of a global type or a local copy of a global type changes the protection of the global type and all its local copies. You must have permission to change the protection of the global type.

If the protection cannot be changed on one or more of the local copies, the operation fails and the global type's protection is not changed. You must fix the problem and run the protect command again.

For more information, see the Help.

Restrictions

ACL authorization

If ACLs are enabled, the principal must have the following permissions:
  • read-info on VOB object
  • read-info on object
  • AclWrite on object

Non-ACL authorization

You must have one of the following identities:

  • Object owner
  • VOB owner
  • root (UNIX and Linux)
  • Member of the VersionVault administrators group (VersionVault on Windows)
Note: For protect –chgrp, you must be a member of the new group, and it must also be in the VOB's group list.

Locks

An error occurs if one or more of these objects are locked: VOB, element type, element, pool (nondirectory elements only). For named objects, an error occurs if the VOB, object, or object's type is locked.

Mastership

(Replicated VOBs only) If your current replica preserves identities and permissions, it must master the object being processed. If your current replica preserves permissions only and you use the –chmod option, your replica must master the object being processed. If your current replica preserves permissions only and you do not use the –chmod option, or your current replica is nonpreserving, no mastership restrictions apply.

Options and arguments

Specifying permission changes

Default
None.
–cho/wn login-name
New owner for the elements or VOB objects.

UNIX and Linux: The argument must be in chown(1) format. The owner may be either a decimal user ID or a login name found in the passwd(4) file.

Windows: The login-name must specify a domainwide user account.

–chg/rp group
New group for the elements or VOB objects.

UNIX and Linux: The argument must be in chgroup(1) format. The group may be either a decimal group ID or a group name found in the group(4) file.

Windows: The group must be registered in the domainwide account database.

–chm/od permissions
New permissions—owner, group, other (world)—for the elements or derived objects. Both symbolic and absolute codes are valid, such as go–x (symbolic) or 666 (absolute). Following is a summary (UNIX and Linux users may read chmod(1) for details):

Specify symbolic permissions in one or more of the following forms:

[identity]+permission

[identity]-permission

[identity]=permission

where identity is any combination of

u

user/owner

g

group

o

other

a

all (owner, group, and other)

When identity is unspecified, its default value is a.

permission can be any combination of

r

read

w

write

x

execute

To combine the forms, separate them with a comma (no white space). For example, to specify read and write permissions for an element's owner and no access by group or other:

cmd-context protect –chmod u=rw,go-rwx test.txt

Absolute permissions are constructed from the OR of any of the following octal numbers:

400

read by owner

200

write by owner

100

execute (and directory search) by owner

700

read, write, and execute (and directory search) by owner

040

read by group

020

write by group

010

execute (and directory search) by group

070

read, write, and execute (and directory search) by group

004

read by others

002

write by others

001

execute (and directory search) by others

007

read, write, and execute (and directory search) by others

For example, the value 600 specifies read/write permission for the owner and no access by any other identity. The value 764 gives all permissions to the owner, read/write permissions to the group, and read permission to others.
Note: This option does not apply to non-file-system objects such as branch types and hyperlinks.
–chrolemap rolemap-selector
Changes the rolemap associated with an object, thus changing the object's security definition from the existing rolemap to
the specified rolemap-selector. If the object is an element, the storage containers for the element and its versions are reprotected (with native operating system file system ACLs) to implement the effective ACL of the new rolemap.

Event records and comments

Default
Creates one or more event records, with commenting controlled by your .versionvault_profile file (default: –nc). See the comments reference page. Comments can be edited with chevent.
–c/omment comment | –cfi/le comment-file-pname |–cq/uery | –cqe/ach | –nc/omment
Overrides the default with the option you specify. See the comments reference page.

Specifying the objects

Default
None.
–fil/e
Restricts the command to changing file elements only. This option is especially useful in combination with the –recurse option.
–d/irectory
Restricts the command to changing directory elements only. This option is especially useful in combination with the –recurse option.
[ –pna/me ] pname ...
One or more pathnames, each of which specifies an element or shared derived object. If pname has the form of an object selector, you must use the –pname option to indicate that pname is a pathname. An extended pathname to a version or branch is valid, but keep in mind that protect affects the entire element. Shared derived objects can be referenced by DO ID.

If you specify multiple pname arguments, but you do not have permission to change the permissions on a particular object, protect quits as soon as it encounters this error.

object-selector ...
One or more named VOB objects. Specify object-selector in one of the following forms:

object-selector ...

attribute-type-selector

attype:type-name[@vob-selector]

branch-type-selector

brtype:type-name[@vob-selector]

element-type-selector

eltype:type-name[@vob-selector]

hyperlink-type-selector

hltype:type-name[@vob-selector]

label-type-selector

lbtype:type-name[@vob-selector]

trigger-type-selector

trtype:type-name[@vob-selector]

pool-selector

pool:pool-name[@vob-selector]

hlink-selector

hlink:hlink-id[@vob-selector]

oid-obj-selector

oid:object-oid[@vob-selector]

policy policy:policy-name[@vob-selector]
rolemap-selector rolemap;rolemap-name[@vob-selector]
vob-object-selector vob:pname-in-vob or vob:/vobtag)

The following object selector is valid only if you use MultiSite:

replica-selector

replica:replica-name[@vob-selector]

Processing of directory elements

Default
Any pname argument that specifies a directory causes the directory element itself to be changed.
–r/ecurse
Changes the entire tree of elements including and below any pname argument specifying a directory element. UNIX or Linux VOB symbolic links are not traversed during the recursive descent. (Use –file or –directory to restrict the changes to one kind of element.)

When recursively protecting elements, only those elements visible in the current view are reprotected. There may be other elements on other branches or older/newer versions of directories on the same branches used by the current view, and those elements retain their existing protections. This applies to all variants of protect operations on elements: chrolemap, chown, chgrp, and chmod. For example, if you run a recursive protection operation in a UCM integration stream, any elements in developer/child streams but not yet delivered to the integration stream are not be reprotected. Another example: after a rmname operation, the element formerly visible in versions of a directory element is not be reprotected by a recursive protect.

Examples

The UNIX system and Linux examples in this section are written for use in csh. If you use another shell, you might need to use different quoting and escaping conventions.

The Windows examples that include wildcards or quoting are written for use in cleartool interactive mode. If you use cleartool single-command mode, you might need to change the wildcards and quoting to make your command interpreter process the command appropriately.

In cleartool single-command mode, cmd-context represents the UNIX system and Linux shells or Windows command interpreter prompt, followed by the cleartool command. In cleartool interactive mode, cmd-context represents the interactive cleartool prompt.

  • Add read permission to the file element hello.c, for all users.

    cmd-context  protect
    –chmod +r hello.c
      Changed protection on
    "hello.c".

  • Change the group ID for all elements in the src directory to user.

    cmd-context  protect –recurse –chgrp user src
    Changedprotection on "src".
    Changed protection on "src/cm_fill.c".
    Changed protection on "src/convolution.c".
    Changed protection on "src/hello.c".
    Changed protection on "src/msg.c".
    Changed protection on "src/util.c".

  • Change the owner of the branch type qa_test to tester.

    cmd-context protect
    –chown tester brtype:qa_test
      Changed protection
    on "qa_test".

  • Allow users in the same group to read/write/execute the shared derived object hello, but disable all access by others. Use an absolute permission specification.

    cmd-context  protect
    –chmod 770 hello
      Changed protection on
    "hello".

  • Change protections on a policy object.

    cmd-context  protect
    –chrolemap NewDevRolemap policy:DevPolicy
      

  • Change protections on a file element.

    cmd-context  protect
    –chrolemap NewDevRolemap ./mydir/abc.txt


See also

protectvob, chmod(1), chown(1), chgrp(1), passwd(4), group(4)