Serializable, Guard
public final class NetPermission extends BasicPermission
The target name is the name of the network permission (see below). The naming convention follows the hierarchical property naming convention. Also, an asterisk may appear at the end of the name, following a ".", or by itself, to signify a wildcard match. For example: "foo.*" and "*" signify a wildcard match, while "*foo" and "a*b" do not.
The following table lists the standard NetPermission target names, and for each provides a description of what the permission allows and a discussion of the risks of granting code the permission.
| Permission Target Name | What the Permission Allows | Risks of Allowing this Permission |
|---|---|---|
| allowHttpTrace | The ability to use the HTTP TRACE method in HttpURLConnection. | Malicious code using HTTP TRACE could get access to security sensitive information in the HTTP headers (such as cookies) that it might not otherwise have access to. |
| accessUnixDomainSocket | The ability to accept, bind, connect or get the local address of a Unix Domain socket. | Malicious code could connect to local processes using Unix domain sockets or impersonate local processes, by binding to the same pathnames (assuming they have the required Operating System permissions. |
| getCookieHandler | The ability to get the cookie handler that processes highly security sensitive cookie information for an Http session. | Malicious code can get a cookie handler to obtain access to highly security sensitive cookie information. Some web servers use cookies to save user private information such as access control information, or to track user browsing habit. |
| getNetworkInformation | The ability to retrieve all information about local network interfaces. | Malicious code can read information about network hardware such as MAC addresses, which could be used to construct local IPv6 addresses. |
| getProxySelector | The ability to get the proxy selector used to make decisions on which proxies to use when making network connections. | Malicious code can get a ProxySelector to discover proxy hosts and ports on internal networks, which could then become targets for attack. |
| getResponseCache | The ability to get the response cache that provides access to a local response cache. | Malicious code getting access to the local response cache could access security sensitive information. |
| requestPasswordAuthentication | The ability to ask the authenticator registered with the system for a password | Malicious code may steal this password. |
| setCookieHandler | The ability to set the cookie handler that processes highly security sensitive cookie information for an Http session. | Malicious code can set a cookie handler to obtain access to highly security sensitive cookie information. Some web servers use cookies to save user private information such as access control information, or to track user browsing habit. |
| setDefaultAuthenticator | The ability to set the way authentication information is retrieved when a proxy or HTTP server asks for authentication | Malicious code can set an authenticator that monitors and steals user authentication input as it retrieves the input from the user. |
| setProxySelector | The ability to set the proxy selector used to make decisions on which proxies to use when making network connections. | Malicious code can set a ProxySelector that directs network traffic to an arbitrary network host. |
| setResponseCache | The ability to set the response cache that provides access to a local response cache. | Malicious code getting access to the local response cache could access security sensitive information, or create false entries in the response cache. |
| setSocketImpl | The ability to create a sub-class of Socket or ServerSocket with a user specified SocketImpl. | Malicious user-defined SocketImpls can change the behavior of Socket and ServerSocket in surprising ways, by virtue of their ability to access the protected fields of SocketImpl. |
| specifyStreamHandler | The ability to specify a stream handler when constructing a URL | Malicious code may create a URL with resources that it would normally not have access to (like file:/foo/fum/), specifying a stream handler that gets the actual bytes from someplace it does have access to. Thus it might be able to trick the system into creating a ProtectionDomain/CodeSource for a class even though that class really didn't come from that location. |
| Constructor | Description |
|---|---|
NetPermission |
Creates a new NetPermission with the specified name. |
NetPermission |
Creates a new NetPermission object with the specified name. |
equals, getActions, hashCode, implies, newPermissionCollection
checkGuard, getName, toString
public NetPermission(String name)
name - the name of the NetPermission.NullPointerException - if name is null.IllegalArgumentException - if name is empty.public NetPermission(String name, String actions)
name - the name of the NetPermission.actions - should be null.NullPointerException - if name is null.IllegalArgumentException - if name is empty.
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Documentation extracted from Debian's OpenJDK Development Kit package.
Licensed under the GNU General Public License, version 2, with the Classpath Exception.
Various third party code in OpenJDK is licensed under different licenses (see Debian package).
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https://docs.oracle.com/en/java/javase/21/docs/api/java.base/java/net/NetPermission.html