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247 lines
13 KiB
HTML
<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
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<title>Securing Untrusted Scripts Behind Firewalls</title>
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<meta http-equiv="content-type"
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content="text/html; charset=ISO-8859-1">
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</head>
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<body>
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<h1 style="text-align: center;">Securing Resources from Untrusted
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Scripts Behind Firewalls<big><span style="font-weight: bold;"></span></big></h1>
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<h1 style="text-align: center;"><small><small><big><span
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style="font-weight: normal;">by</span></big> </small></small><big><big><span
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style="font-weight: bold;"></span></big></big></h1>
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<h1 style="text-align: center;"><small style="font-weight: normal;"><a
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href="mailto:rayw@netscape.com">Ray Whitmer</a> and <a
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href="maiilto:harishd@netscape.com">Harish Dhurvasula</a></small><br>
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</h1>
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<h2>Introduction<br>
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</h2>
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This page describes an alternative mechanism which can be used to
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protect all internal resources against requests from sandboxed
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scripts. This should especially be implemented for SOAP calls
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by untrusted scripts. When an attempt is made to access a
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resource at a previously-unknown URI, the sandbox reads a file at that
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domain with declarations to determine whether access is permitted to
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the script. If the file is not there, access is denied.<br>
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<h2>The Problem<br>
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</h2>
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External untrusted scripts loaded behind a firewall are executed in a
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sandbox. These scripts may legitimately require access to external
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resources, but permitting them to access internal resources permits the
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compromise of these resources that would normally not be available to
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applications outside of the firewall. The sandbox must
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distinguish and protect internal resources.<br>
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<h2>Client-controlled Solutions</h2>
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Several client-controlled solutions have been designed to prevent
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sandboxed applications loaded behind a firewall from compromising
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other resources protected behind the firewall.
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<h3> Same Source Restriction.</h3>
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By restricting sandboxed scripts to access only resources in the domain
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from which they were loaded, any script loaded from one domain into
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another is prevented from accessing resources in the domain
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into which it has been loaded. This policy has generally been
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successful in sandboxing Javascript and Java applets across the web.<br>
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<br>
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If the sandbox is unable to distinguish the common URI substring of the
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domain to be trusted from similar URIs of untrusted domains, then it
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could allow a script loaded from an indistinguishable domain to
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exploit firewall-protected resources.<br>
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<br>
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Also, this technique prevents the script from accessing many legitimate
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external resources not provided in the same domain as the script.
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This prevents a script from accessing web services and data
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published from any domain besides its own.<br>
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<h3>White-listing</h3>
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By creating a white list of trusted URIs from which scripts are trusted
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to not compromise internal resources, it is possible to release domains
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from the stricter same-source sandbox. A white list is a good tool
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for including always-trusted domains, but on the web, it is often a
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script from a relatively-untrusted domain that must be granted access
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to other untrusted domains, without compromising internal domains.<br>
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<br>
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More-complex access lists could be created to try to establish, with
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finer granularity, which domains are to be accessible or permitted
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from which other domains, but this requires extensive management which
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at best is quite error-prone for the end user and easily opens holes
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in a firewall that do not directly hurt the user who reconfigured his
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browser to try to access some external service but hurts the owners of
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other services behind the firewall.<br>
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<h3>Signed Scripts</h3>
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A certain degree of additional trust may be lent to a script by having
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the author digitally sign it. But signed scripts have not really
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caught on as they require certificates do not change the basic
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problem that some completely-unknown party has written a script that
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might now have access to internal resources.<br>
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<h3>Asking the User</h3>
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Where the sandbox cannot otherwise determine whether the executing
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script should be permitted access to the resource, a dialog box may
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be raised to ask the user to grant special privileges. This is
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currently permitted for locally-saved scripts and signed scripts.
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This could be combined with the other options above such as
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whitelisting, signed scripts, etc. But the big problem with this
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is that the typical browser user really does not either understand or
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pay the consequences if he inadvertently opens a hole in his company's
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firewall. Quite complex settings may be required to permit the
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user to allow access to desired external services without risking
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other resources.<br>
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<h2>Controlling Resource Access on the Server</h2>
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Access by untrusted scripts really needs to be under the control of the
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stake holder, which is the resource and server owner -- not the user --
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to determine whether a resource should be insulated from web
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applications loaded from outside of the firewall.<br>
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<h3>Using a SOAP Header for Verification</h3>
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SOAP messages have a distinct processing model allowing a header to be
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added that the recipient is required to understand and accept, which
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identifies the untrusted source of a script making a request.
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SOAP services which have not been cleared for access by
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untrusted scripts will reject the requests. This is offered in
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the Mozilla implementation of SOAP today.<br>
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<br>
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Unfortunately, this does not prevent SOAP messages from being sent to
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non-SOAP addresses, which is a big enough problem that the verification
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cannot stand alone to guarantee that untrusted service requests are
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always properly rejected by services that should be firewall-protected.<br>
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<br>
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It may also be inconvenient to modify a SOAP service to ignore the
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specific verification header.<br>
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<h3>Using a Declarations File<br>
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</h3>
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A more robust solution is to rely on getting a file named "<code>web-scripts-access.xml</code>"
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in the root directory of the server that the sandboxed script requests
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to communicate with. It should be fairly easy for most
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providers of public resources to create.<br>
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<h2>Web Scripts Access Statements<br>
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</h2>
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The syntax of statements of the access file are as follows.
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<pre><!ELEMENT webScriptAccess (delegate?|allow*)><br><!ELEMENT delegate EMPTY><br><!ELEMENT allow EMPTY><br><!ATTLIST allow type|from CDATA #IMPLIED>.<br></pre>
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<h3>The Root Element<br>
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</h3>
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The first element of the file should be the following:<br>
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<code><br>
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<wsa:webScriptAccess
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xmlns:wsa="http://www.mozilla.org/2002/soap/security</code>"><br>
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<h3>Delegation</h3>
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If the <<code>delegate</code>/> element is present then "<code>web-scripts-access.xml</code>"
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is required in the subdirectory for URIs which are in a subdirectory.
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For example, if the script in question is "<code>http://www.example.com/foo/bar.xml</code>",
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then the declarations file <code>http://www.example.com/web-scripts-access.xml</code>
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which contains the "<code>delegate</code>" keyword delegates to <code>http://www.example.com/foo/web-scripts-access.xml</code>.
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If the URI is in a subdirectory, and the root directory's access
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file delegated but no access file exists in the subdirectory, then no
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access is granted. If the root's access file did not delegate,
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then that access file also handles all resources in subdirectories.<br>
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<br>
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Any syntax error in the document will result in the rest of the file to
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be ignored. Since the commands only allow access, the order of
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processing the "<code>allow</code>" commands that were successfully
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parsed is never significant.<br>
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<h3>Allowing Web Script Access</h3>
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To permit scripts to access the resources of this server, use the
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following command:<br>
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<br>
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<code><wsa:allow</code> <code></code>type="<request-type>" <code>from</code>
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="<uri-prefix>"/><br>
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<br>
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The type of request, if specified, will be checked against the type of
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request being requested by the script, such as <code></code>"<code>soap</code>",
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"<code>soapv</code>", or "<code>load</code>". Types must not
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contain spaces. Specify "<code>any</code>" as the type to permit
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any requested type of access to resources.<br>
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<br>
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The principle URI of the script will be checked for the specified URI
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prefix. If "<code>from</code>" is not specified, then all scripts
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will be allowed. <span style="font-weight: bold;">Note:</span> One can
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also use wild charater(s) in "from" value.<br>
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<br>
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For example:<br>
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<code><br>
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<wsa:allow type="soapv" from="http://www.mozilla.org"/></code><br>
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<br>
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This command allows SOAP requests with verification headers from
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scripts loaded from the domain www.mozilla.org.<br>
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<br>
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<code> <wsa:allow type="soapv" from="http://*.mozilla.org"/><br>
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<br>
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</code> This command allows SOAP requests with verification headers from
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scripts loaded from the domain with host name containing mozilla.org.
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That is, http://www.mozilla.org/, http://lxr.mozilla.org,
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http://komodo.mozilla.org, etc. will be granted access.<br>
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<h2>Implementation</h2>
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<span style="font-weight: bold;">nsIWebScriptsAccessService</span><br>
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This interface provides a way to check whether the running script has
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access to the server that the script wishes to communicate.<br>
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<span style="text-decoration: underline;"></span><span
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style="font-style: italic;"></span><span style="font-style: italic;"></span>
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<ul>
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<li>boolean canAccess(in nsIURI aTransportURI, in AString aType);</li>
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<ul>
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<li>aTransportURI - The service URI </li>
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<li>aType - Type requested by the script ( ex. soapv, soap,
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load, etc. )</li>
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<li>return PR_TRUE if access granted else PR_FALSE</li>
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</ul>
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<li> void invalidateCache(in string aTransportURI);</li>
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<ul>
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<li>Invalidate cached entry for the given transport uri.</li>
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<li>Empty the cache by passing in a empty string<br>
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</li>
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</ul>
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</ul>
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<ul>
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<ul>
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</ul>
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</ul>
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<span style="text-decoration: underline;">nsWebScriptsAccess</span>
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( <span style="font-style: italic;">Implements
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nsIWebScriptsAccessService)<br>
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</span>Maintains access information, for servers, in an
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access-info-cache ( hashtable ). If an entry was not found in the cache
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creates one by loading the declaration file ( web-scripts-access.xml )
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and extracting information from it ( declaration file ); requested <span
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style="font-style: italic;">type</span> and subject princple's <span
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style="font-style: italic;">prefix</span> are compared to the allowed
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type and prefix in order to determine access. An entry is created if
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and only if the declaration file is considered valid ( validation based
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on the syntax described above ); an invalid document will result in
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access denial. Denies script access in the event of an
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xml-wellformedness error, or validation error, or if the declaration
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file does not grant access. Reports errors ( validation,
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wellformedness, file not found, etc. ) to the console via
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nsIConsoleService.<br>
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<br>
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Note: Script access is checked via declaration file only if the script
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security manager denies access.<span style="font-style: italic;"><span
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style="font-style: italic;"></span><br>
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</span>
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<ul>
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</ul>
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<h2>Summary</h2>
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<h3>Advantages</h3>
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The proposed declaration file places the server operator, not the
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client in control of access to his server by untrusted scripts.
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The access hole is no bigger than the service in question.
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The access is disabled by default, and there is nothing the
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user needs to do to open access, and nothing that can go wrong to
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make a hole in his firewall. It seems fairly easy to drop an
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access file into the root directory of the web server to allow access.<br>
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<h3>Delegation with Mixed Ownership</h3>
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Independent owners of subdirectories cannot grant web script access to
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these subdirectories without getting the owner of the root directory to
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post a delegating access file. Normally a server will be either
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inside or outside of a firewall, so this is not a problem. Where
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a server spans multiple owners, the alternative would be to scan all
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directories in the path looking for a web scripts access file, which
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seems undesirable. On the other hand, perhaps it is not so bad,
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since it permits independent management in domains where the top level
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owner may not care about providing access to web services.<br>
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<h3>Adjustments</h3>
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As this new model is applied to SOAP, and potentially document.load or
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xml-request, it may be desirable to eliminate the same source security
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bypass, because it is not clear that this is always secure.
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Other security adjustments may be desired as well.<br>
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<h2>Feedback?</h2>
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Please send me some feedback on this proposal.<br>
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</body>
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</html>
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