DACSRLINK(1) DACS Commands Manual DACSRLINK(1)
NAME
dacsrlink - create and administer rule links
SYNOPSIS
dacsrlink [dacsoptions[1]] op [arg...]
DESCRIPTION
This program is part of the DACS suite.
The dacsrlink command is used to create and manage special URLs called Rlinks (rule links). Basically, an Rlink is an ordinary URL that
also includes a special component called an Rname that indirectly specifies a DACS access control rule that applies to the Rlink. Depending
on the application, the creator of an Rlink may expect it to be kept secret by everyone he distributes it to. A given resource may have
Rlinks with different Rnames "pointing to it". Rlinks are processed by dacs_acs[2] during authorization checking.
A DACS identity may be attached to an Rlink through the rlink and rname operations. When an Rlink with an attached identity is used, that
identity is available to dacs_acs[3] for access control purposes. There are two modes of attachment: direct and indirect. Identities for
use with the direct mode are encrypted using the jurisdiction_keys item type (see dacskey(1)[4]); the program's user must therefore be able
to read these keys. Changing these keys will invalidate all existing encrypted identities.
The special, temporary credentials associated with an Rlink have the authentication style "rlink" (refer to user()[5] with the style
keyword), but not passwd, even if a password is required to gain access to a resource.
There are many applications of Rlinks. Perhaps their main application is to provide identity-restricted access to a resource without having
to create per-identity accounts. The identity associated with an Rlink need not exist outside of its use by the Rlink. When the Rlink is
invoked (possibly accompanied by a password bound to the URL), the identity is available to the access control rule and an invoked web
service just as if "real" DACS credentials had been used.
dacsrlink can also be used as a simple front end for creating ordinary access control rules.
OPTIONS
dacsrlink recognizes the standard dacsoptions[1], which are followed by an operation name (op), various operation-dependent flags, and
finally non-flag arguments. The -- flag can be used to terminate the operation-dependent list of flags. Flags that are not recognized by
the selected operation are ignored. A rule is always syntax checked (as by dacsacl(1)[6]) before being written; if an error is found, the
operation is aborted. Several flags are recognized by more than one operation.
By default, the virtual filestore item type rlinks specifies where Rlinks are stored. This can be overridden for most operations by giving
the -vfs flag, which can specify a DACS URI, alternate item type, or absolute pathname.
Security
Access to the rules and to listings of their names must be restricted, otherwise Rnames could be revealed. Only a DACS administer
should be permitted to create, edit, delete, etc. rules. dacs_acs must be able to access the rules if Rlinks are enabled. Ensure that
file permissions are set appropriately.
The optional -out flag is followed by a filename to which the rule should be written instead of a filestore; if - is given, the standard
output is used.
The default alphabet used to generate Rnames can be overridden using the -ralpha flag; alpha is a character specification in the syntax of
strtr()[7] (e.g., "a-zA-Z0-9", which is the default). The default length of an Rname can be overridden using the -rlen flag. Alternatively,
some operations take a -rname flag that specifies the Rname to use.
The following op arguments are understood:
Perform a syntax check on the rule identified by rname to the standard output. If no error is found, an exit status of 0 is returned,
otherwise an error message is produced and 1 is returned.
Create a new link identical to rname but with a new Rname. If the -rname flag is given, use rname as the Rname instead of generating
one.
[{-a | -allow}name] [{-p password} | {-pf file}]...
[-palg alg-name] [-r redirect-URL] [-rname rname] [-ralpha alpha] [-rlen len]
[-expires {seconds | date}] path...
Create a new Rlink and either write it to the filestore, a specified file, or the standard output. The optional -a (or -allow) flag is
followed by name, which is a string that will become the argument to the user()[8] function that will be called from the allow clause
of the ACL that is created. Each name will therefore be granted access to each of the named path arguments, which are URI path
components relative to the current jurisdiction.
A password that applies only to this user can optionally follow as the next argument using a -p or -pf flag; its hashed value will be
embedded in the Rlink and compared against a hash of an argument named PASSWORD that must be submitted with the Rlink. If a -p or -pf
flag precedes any -a (-allow) flag, however, it establishes a default password for all users specified later on the command line. The
-pf flag is followed by a filename from which the password is read; if file is "-", then the password is read from the standard input.
A password may be specified even if no -a flag is present; the request will not have an identity bound to it but a valid PASSWORD
argument must be provided. The -palg flag overrides the default password hashing algorithm (see password()[9]).
If the -rname flag is given, rname is used as the Rname instead of generating one. The -expires assigns an expires_expr attribute to
the Rlink, which will render the Rlink invalid after the specified date. The flag is followed either by an unsigned integer, which is
interpreted as a number of seconds in the future, or a date in one of the recognized formats[10].
If the -r flag appears, no usernames can be specified. An attempt to access any of the resources associated with the Rlink will cause
the client to be redirected to redirect-URL, which may contain a properly encoded query component. This lets an Rlink serve as a "short
link", akin to the services provided by bit.ly[11], TinyURL.com[12], Metamark Shorten Service[13], and many others.
Note
Administrators should review the rule that is created. The show[14] operation can be used to display the rule and the edit[15]
operation can be used to modify it.
Delete the Rlink named rname in the selected filestore.
Interactively edit a copy of the Rlink named rname in the selected filestore. If the environment variable EDITOR is set, it is used as
the name of the editor to use, otherwise the compile time symbol DEFAULT_EDITOR is used. When editing is completed, the Rlink is
replaced with the edited copy, provided the new version is syntactically correct.
Decode and print rname-ident, an Rname with an identity component produced by the rlink or rname operations.
Print a listing of all Rnames in the selected filestore.
Emit an Rlink to the standard output that integrates rname into the uri according to link-mode. The link-mode is one of dacs_acs (or
just acs), query, or path, representing the three general forms of an Rlink. If ident is specified, it describes a user in the concise
user syntax[16] that is associated with the link. The ident may include an expiry date.
The -imode specifies whether a direct or indirect identity should be associated with the Rname, or whether there is none (the default).
For direct, ident (specified by -i or -ident) is used; it describes an identity in the concise user syntax[16] that is associated with
the link. For the indirect mode, a random identifier is generated (using the same algorithm selected for Rnames); if the -iptr flag is
given, however, iptr is used as the identifier string.
If uri is a URI path component (i.e., it begins with a '/'), the configuration variable rlink_base_prefix must be defined; its value is
prepended to the URI path.
Additional query arguments can be attached to the emitted link. If a password is required by the ACL for the resource, for example, a
PASSWORD argument is required.
Implementation of query and path modes is incomplete, so URLs for those Rlinks must be generated manually.
[-rname rname]
This operation emits an Rname that satisfies the given constraints and prints it to the standard output. The Rname is suitable for use
with the -rname flag. It does not create an ACL. This operation might be useful when Rlinks are created manually or using another
program.
The -imode, -i, and -iptr flags are as described for the rlink operation.
Display the rule identified by rname to the standard output.
EXAMPLES
The following examples assume that the jurisdiction EXAMPLE includes the following configuration:
RLINK '"${Args::RNAME:?}" /usr/local/dacs/rlinks'
EVAL ${Conf::rlink_base_prefix} = "https://www.example.com"
VFS "[rlinks]file:///usr/local/dacs/rlinks"
These directives enable Rlink processing by dacs_acs, and cause URLs generated by dacsrlink to be prefixed by https://www.example.com and
ACLs that it creates to be stored as files in the /usr/local/dacs/rlinks directory.
This command creates an Rname called IRCl7p4Q, and associates it with the relative URL /cgi-bin/dacs/dacs_prenv; the Rname will expire in
300 seconds (relative to this jurisdiction's clock):
% dacsrlink -uj EXAMPLE create -expires 300 /cgi-bin/dacs/dacs_prenv
IRCl7p4Q
Once an Rname has been created, a URL can be generated that incorporates the Rname:
% dacsrlink -uj EXAMPLE rlink -lmode acs IRCl7p4Q /cgi-bin/dacs/dacs_prenv
https://www.example.com/cgi-bin/dacs/dacs_prenv?DACS_ACS=-rname+IRCl7p4Q
In this example, the Rname has been incorporated into the URL through the DACS_ACS argument[17].
To display the ACL for Rname IRCl7p4Q:
% dacsrlink -uj EXAMPLE show IRCl7p4Q
<acl_rule status="enabled" name="IRCl7p4Q" expires_expr='time(now) ge 1178917167'>
<services>
<service url_pattern="/cgi-bin/dacs/dacs_prenv"/>
</services>
<rule order="allow,deny">
<allow>
</allow>
</rule>
</acl_rule>
Or, since the access control rule created by dacsrlink can be found in /usr/local/dacs/rlinks:
% cat /usr/local/dacs/rlinks/IRCl7p4Q
The default rule for dacs_prenv restricts access to a DACS administrator, but anyone who uses this Rlink before it expires will be granted
access to dacs_prenv. This rule can be manually customized at anytime. Note that unlike ordinary access control rules, there is no index
file for Rlinks.
This command creates a rule that applies to two resources and grants access to two users:
% dacsrlink -uj EXAMPLE create -a :auggie -a :harley /private/a.html /private/b.html
7tW3SJou
% dacsrlink -uj EXAMPLE show 7tW3SJou
<acl_rule status="enabled" name="7tW3SJou">
<services>
<service url_pattern="/private/a.html"/>
<service url_pattern="/private/b.html"/>
</services>
<rule order="allow,deny">
<allow>
user(":auggie")
</allow>
<allow>
user(":harley")
</allow>
</rule>
</acl_rule>
To generate URLs to give to these two users so that they can access these resource, commands like the following would be used:
% dacsrlink -uj EXAMPLE rlink -imode direct -i ":auggie" -lmode acs 7tW3SJou /private/a.html
https://www.example.com/private/a.html?DACS_ACS=-rname+7tW3SJou:HMGxWlccUihTtgbtJg
% dacsrlink -uj EXAMPLE rlink -imode direct -i ":harley" -lmode acs 7tW3SJou /private/b.html
https://www.example.com/private/b.html?DACS_ACS=-rname+7tW3SJou:qouYfT7pdwuLXHxodxE2
When the first of these links is invoked, it will appear as if EXAMPLE:auggie is accessing a.html. Since no expiration was specified for
the identities or the resources, the two links will be valid indefinitely. The rule can be deleted at any time:
% dacsrlink -uj EXAMPLE delete 7tW3SJou
This demonstrates how to create a password-controlled link:
% dacsrlink -uj EXAMPLE create -a :auggie -p abracadabra /private/c.txt
rIPZaJeN
% dacsrlink -uj EXAMPLE show rIPZaJeN
<acl_rule status="enabled" name="rIPZaJeN">
<services>
<service url_pattern="/private/c.html"/>
</services>
<rule order="allow,deny">
<allow>
user(":auggie")
and password(check, ${Args::PASSWORD}, "2|XYZZYnahdnl3VtLqGtpbW|2GoDncq34p2EMO4PA5Uj6iWkFb9")
</allow>
</rule>
</acl_rule>
% dacsrlink -uj EXAMPLE rlink -imode direct -i :auggie -lmode acs rIPZaJeN /private/c.txt
https://www.example.com/private/c.txt?DACS_ACS=-rname+rIPZaJeN:r6RdcTcmUyhTtgbtJg
% http "https://www.example.com/private/c.txt?DACS_ACS=-rname+rIPZaJeN:r6RdcTcmUyhTtgbtJg&PASSWORD=abracadabra"
Hello, world
DIAGNOSTICS
The program exits 0 if everything was fine, 1 if an error occurred.
SEE ALSO
dacs.acls(5)[18]
AUTHOR
Distributed Systems Software (www.dss.ca[19])
COPYING
Copyright2003-2012 Distributed Systems Software. See the LICENSE[20] file that accompanies the distribution for licensing information.
NOTES
1. dacsoptions
http://dacs.dss.ca/man/dacs.1.html#dacsoptions
2. dacs_acs
http://dacs.dss.ca/man/dacs_acs.8.html#rlinks
3. dacs_acs
http://dacs.dss.ca/man/dacs_acs.8.html
4. dacskey(1)
http://dacs.dss.ca/man/dacskey.1.html
5. user()
http://dacs.dss.ca/man/dacs.exprs.5.html#user.style
6. dacsacl(1)
http://dacs.dss.ca/man/dacsacl.1.html
7. strtr()
http://dacs.dss.ca/man/dacs.exprs.5.html#strtr
8. user()
http://dacs.dss.ca/man/dacs.exprs.5.html#user
9. password()
http://dacs.dss.ca/man/dacs.exprs.5.html#password
10. recognized formats
http://dacs.dss.ca/man/dacs.1.html#date_formats
11. bit.ly
http://bit.ly
12. TinyURL.com
http://tinyurl.com
13. Metamark Shorten Service
http://metamark.net
14. show
http://dacs.dss.ca/man/#show_op
15. edit
http://dacs.dss.ca/man/#edit_op
16. concise user syntax
http://dacs.dss.ca/man/dacs.1.html#concise_user_syntax
17. DACS_ACS argument
http://dacs.dss.ca/man/dacs_acs.8.html#dacs_acs_argument
18. dacs.acls(5)
http://dacs.dss.ca/man/dacs.acls.5.html
19. www.dss.ca
http://www.dss.ca
20. LICENSE
http://dacs.dss.ca/man/../misc/LICENSE
DACS 1.4.27b 10/22/2012 DACSRLINK(1)