WO2001055839A1 - Method, system, and article of manufacture for limiting access to program files in a shared library file - Google Patents
Method, system, and article of manufacture for limiting access to program files in a shared library file Download PDFInfo
- Publication number
- WO2001055839A1 WO2001055839A1 PCT/US2001/001712 US0101712W WO0155839A1 WO 2001055839 A1 WO2001055839 A1 WO 2001055839A1 US 0101712 W US0101712 W US 0101712W WO 0155839 A1 WO0155839 A1 WO 0155839A1
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- WO
- WIPO (PCT)
- Prior art keywords
- class definition
- status
- shared library
- interface
- object class
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/44—Arrangements for executing specific programs
- G06F9/445—Program loading or initiating
- G06F9/44552—Conflict resolution, i.e. enabling coexistence of conflicting executables
Definitions
- This invention relates to systems for limiting access to parts of shared software libraries and, more particularly, to systems for limiting access to object class definition files within shared libraries using class loaders.
- Shared libraries are often used to maintain class definitions when the vendor's product is written using object-oriented programming.
- an object In an object- oriented programming environment, an object generally encapsulates data members and function members (or methods) that manipulate the data member.
- An object is an instance of a class, which defines various data members and methods shared by objects of the same class.
- shared libraries can be used to define each type of object used in the vendor's product.
- namespace problems may occur when externally using parts of a shared library that are supposed to be only used internal to the library.
- the software vendor that created the shared library may use specific names or a naming convention for parts of the shared library without regard to namespace collisions external to the shared library.
- namespace problems may occur when an external process accesses a package meant to be strictly internal to the library, the name for the package may conflict with the name of another package or object already used by the external process. In such a situation, there may be a duplication of class definitions for a given package name leading to problems on how to resolve what functionality is associated with the named packages or objects.
- sealing in the JavaTM programming language has improved the situation by allowing some instances of this problem to be detected and an error raised. However, simply raising an error at run-time and requiring the end user to take appropriate action to fix the problem is not as desirable as having the program work as intended. Also, sealing will not generally help in the important case of wanting to ship an application or applet bundled with a particular version of some extension. If some different version of that extension is already installed on an end user's computer, the installed one takes precedence over the bundled one.
- Methods, systems, and articles of manufacture consistent with the present invention overcome the shortcomings of existing systems by using a class loader to limit access to parts of a shared library, such as a JAR file.
- the class loader generates an interface between external processes seeking to access a program file in the library and the files in the library itself.
- Methods, systems, and articles of manufacture consistent with the present invention load a program file from a shared software library.
- the program file is a class definition loaded by a class loader.
- an interface to the loaded program file is generated.
- the interface preferably an interface object, has a status indicator as to whether the program file can be exported.
- the status indicator preferably determined by executing a status method that is part of the preferred interface object, is used to determine if the program file can be exported from the shared library.
- the status method is typically created by reading an attribute within the shared library that indicates if the program file can be exported. If the program file cannot be exported based on the status indicator, access to the program file is limited. On the other hand, if the status indicator shows the program file can be exported, the program file is returned to a requesting process.
- methods, systems, and articles of manufacture describe a system for limiting access to an object class definition in a shared library.
- the system has a memory storage device that maintains the shared library and a class loader.
- the system also includes a processor coupled to the memory storage device.
- the processor is operative to load the object class definition from the shared library on the memory storage device using the class loader. Once the appropriate object class definition has been located within the shared library and loaded, the processor is further operative to create an instance of an interface object in the memory storage device typically by calling a package method within the class loader.
- the interface object is associated with the object class definition and includes a status method created by the processor as part of the interface object in the memory storage device.
- the status method defines a function that designates if the object class definition is accessible by an external process running on the processor.
- the processor is also operative to call the status method to determine if the object class definition is designated to be accessible to the external process.
- the processor is capable of limiting access to the object class definition if the executed status method indicates the object class definition is not designated to be accessible to the external process.
- methods, systems, and articles of manufacture describe a computer-readable medium, which contains instructions for limiting access to an object class definition within a shared software library.
- the object class definition is loaded from the shared software library using a class loader.
- an instance of an interface object associated with the object class definition is created by the class loader along with a status method related to the interface object.
- another method within the class loader is called to created the instance of the interface object.
- the status method indicates if the object class definition is designated to be accessible by an external process.
- the status method is called to determine if the object class definition is designated to be accessible to the external process.
- access to the object class definition is limited or denied if the status method indicates the object class definition is not designated to be accessible to the external process.
- FIG. 1 is a block diagram of a data processing system suitable for use with methods and systems consistent with the present invention
- FIG. 2 is a block diagram illustrating how a class loader can be used to limit access to files within a shared library consistent with an exemplary embodiment of the present invention
- FIG. 3 is a flow chart illustrating typical steps performed by the class loader to limit access to files within a shared library consistent with an exemplary embodiment of the present invention.
- methods and systems consistent with the present invention process a call during execution of a process, such as an applet written in the JavaTM programming language, by using a class loader to limit which parts of a shared library can be accessed by external processes. By doing so, parts of the shared library that are meant to be limited to internal use cannot be accessed and used by external processes.
- a request for a program file (such as a class definition) is received by a class loader from an executing process (such as an applet) external to a shared library.
- the class loader loads the appropriate program file from the shared library and generates an interface (such as an interface object) to the loaded program file.
- the interface has a status indicator (such as a status method), which provides an indication of whether the program file can be exported to the external process. Based upon the value of the status indicator, access to the loaded program file is limited via the generated interface to the program file. If access to the program file is limited, the executing process is denied access to the program file. Otherwise, the executing process receives access to the program file via the interface.
- a class loader is utilized to not only load the correct and appropriate class definition but to also provide the ability to limit access to those parts of a shared library that are meant to be only internally accessed.
- FIG. 1 depicts an exemplary data processing system 100 suitable for practicing methods and implementing systems consistent with the present invention.
- data processing system 100 includes a computer system 110 connected to a network 170, such as a Local Area Network, Wide Area Network, or the Internet.
- network 170 such as a Local Area Network, Wide Area Network, or the Internet.
- Computer system 110 contains a memory storage device called main memory 120, a secondary memory storage device 130, a central processing unit (CPU) 140, an input device 150, and a video display 160, each of which are electronically coupled to the other parts of computer system 110.
- computer system 110 is implemented using a SPARCTM computer architecture. Further details regarding the SPARCTM computer architecture can be found in a number of texts, including the SPARCTM V9 Reference Manuals available from SPARC International of Menlo Park, California, which are hereby incorporated by reference.
- main memory 120 contains an operating system 128, a virtual machine (NM) 126, a class loader 122, and a shared library 124.
- An exemplary NM 126 for purposes of this description is a JavaTM Virtual Machine (JNM), which is part of the JavaTM runtime environment included in the JavaTM software development kit (JDK). The JDK is available from Sun Microsystems of Palo Alto, California.
- JNM acts like an abstract computing machine, receiving instructions from programs (such as applets) in the form of bytecodes.
- a bytecode is essentially a compiled format for a general purpose program, such as a program written in the JavaTM programming language. Once the instructions or bytecodes have been received, the JNM interprets these bytecodes by dynamically converting them into a form for execution, such as object code, and executing them.
- VM 126 may encounter a symbolic reference to an object class that has yet to be loaded. In such a situation, NM 126 typically delegates the task of loading the appropriate program files to a class loader.
- Class loaders are known in the art and are normally used when an interpreter requires an object class definition that is not yet been loaded. Basically, the class loader loads object class definitions from particular memory storage locations (remote servers or local memory files) where the object class definitions are maintained. A more detailed description of a conventional class loader is illustrated in U.S. Patent No.
- Exemplary class loader 122 is a conventional class loader with the addition of several other features enabling it to operate as a selective interfacing mechanism to parts of a shared library, such as shared library 124.
- class loader 122 can create an interface to program files in shared library 124.
- the interface also has a status indicator that determines if those program files are to be exported or accessible to external processes. This ability to load the appropriate class definition from the correct location and to operate as an interface allows class loader 122 to limit access to specific program files, such as object class definitions, within a shared library.
- Class loader 122 receives the request and loads the requested class definition from within shared library 124.
- library 124 is implemented as a conventional JAR file that maintains definitions for many classes of JavaTM packages or objects.
- class loader 122 creates an interface object, also called a package object, that encapsulates the requested class definition and includes a status method as the status indicator. If the requested class definition is designated to be externally accessible, the result of executing the status method is a preselected value, such as "true.” A more detailed description is available below with regard to FIG. 2.
- a program file such as a class definition
- a multi-threaded application program module (not shown) running in conjunction with operating system 128 without the need for VM126.
- FIG. 2 is a more detailed block diagram illustrating how an exemplary class loader can be used to limit access to files within an exemplary shared library consistent with an embodiment of the present invention.
- VM 126, class loader 122 and shared library 124 are illustrated as blocks of software that interact together.
- an applet 205 containing instructions or bytecodes that are interpreted and executed by VM 126.
- VM 126 may need to load a particular object class definition because the bytecode lists an object defined by that particular object class, which has not yet been loaded into main memory 120 from shared library 124.
- VM 126 uses or delegates to class loader 122 to find the correct object class definition. In this way, class loader 122 receives a request from VM 126 for the object class definition.
- class loader 122 determines the appropriate object class definition to load.
- the appropriate object class definition is located in shared library 124, which maintains numerous program files, such as class definitions 200, 202, and 204.
- class loader 122 determines that class definition 200 is the appropriate definition and retrieves the object class definition from shared library 124. So far, this is typically what is done by most conventional class loaders.
- class loader 122 includes a method that creates an interface to the object class definition.
- the method 220 is called get_package.
- the get_package method 220 When the get_package method 220 is called, it creates an instance of an object 210 (called an interface object or package object) that encapsulates the object class definition 200.
- the get_package method 220 also creates a method 215 (generally referred to as a status method) as part of interface object 210 that indicates if the object class definition is designated to be accessible to an external process.
- method 220 within class loader 122 looks within shared library 124 for an indicator or other kind of flag type mechanism that indicates whether the desired object class definition can be exported.
- the get package method 220 reads an attribute 208 in the manifest or header 206 of shared library 124.
- the manifest 206 keeps information about the contents (i.e., the program files) in shared library 124.
- attribute 208 is preferably a list of which files in shared library 124 are designated to be exported or accessible to external processes.
- get_package method 220 defines the status method 215 in interface object 210 to provide or return the appropriate value when executed. For example, if object class definition 200 is not to be accessible by external processes, status method 215 (called “is_exported” in the exemplary embodiment) returns a "false” value when called. In this manner, class loader 122 finds and loads the correct program file (such as object class definition 200) but does not return it to the requesting process (such as applet 205) if a status indicator (such as the result of executing status method 215) indicates the program file is not to be exported.
- a status indicator such as the result of executing status method 215
- the JAR file has the capability to declare one or more of its packages to be exported. Classes and resources contained in exported packages are visible to other JAR files. Packages which are not exported are called private, and their classes and resources are only visible within that JAR file. Also, private classes and resources are locally scoped, meaning that when a class/resource name has to be resolved in code from this JAR file, the definitions in the JAR file take precedence over any other classes/resources of the same names that may be visible.
- exported packages are declared through the new per-entry manifest attribute 208, such as Exported: (true
- This boolean attribute indicates whether or not a specific package should be exported. For example, in the following manifest entry:
- This attribute can be applied to individual classes or resource files, as well as to packages and directories.
- all of the classes/resources that it contains are automatically exported unless they are explicitly made private by having their own Exported : f lse attribute.
- the package/directory contains subpackages/subdirectories, they are usually not automatically exported.
- the default is typically for all packages/directories and classes/resources to be exported if there are no Exported attributes specified. If there is at least one Exported attribute specified, the default is that everything is private unless declared exported.
- a JAR tool within the JavaTM programming lanugage has a -e option allowing an exports file to be specified. This is convenient for software developers so that they can list the exports concisely rather than have to create the appropriate manifest file.
- the format of the exports file is preferably a sequence of package names and JAR file entries, each terminated by a new line. For example, specifying the following exports file using the -e option: foo . bar f oo .baz
- the -e and -m options can be used together in which case the manifests are merged.
- the Exported attributes generated from the -e option take precedence; i.e. any other Exported attributes from other manifests are ignored, so that the exports file always lists the complete set of exports.
- the class java.net URLClassLoader is used as class loader 122 to load classes and resources from a class path of JAR files and directory URLs. As illustrated in FIG. 2, this embodiment basically involves creating a small class loader to wrap each JAR file on the class path that declares one or more exported packages in its manifest.
- This class loader preferably called JarClassLoader will be a private class and its purpose is to allow any code loaded from the shared library 124 (e.g. JAR file) to access its own private classes and resources while keeping them hidden from other JAR files on the class path.
- class JarClassLoader extends SecureClassLoader ⁇ JarClassLoader (URL url , ClassLoader parent) ⁇
- Enumeration e parent .getResources (name) ; return new ResourceEnumeration(u, e) ,- ⁇ else ⁇ return parent .getResources (name) ; ⁇ ⁇
- Class loadExportedClass String name
- URLClassLoader will create a new instance of JarClassLoader for each JAR file on the class path that declares one or more exported packages.
- the delegation parent for JarClassLoader will be the instance of URLClassLoader created for the class path containing the JAR file. Whenever code loaded from the JAR file is linked, the JarClassLoader's loadClass method will be called.
- findLoadedClassQ is called to check if the class has already been loaded.
- findLoadedClassQ is called to check if the class has already been loaded.
- an attempt to load the class from the JAR file occurs. If this fails, the parent URLClassLoader 's loadClassQ method is called to check for a public class. This allows private classes to have local scoping while maintaining ordinary scoping for public classes.
- URLClassLoader When URLClassLoader checks this JAR file for a class referenced by another JAR file on the class path, it will call JarClassLoader 's loadExportedClass method to load the class. This method is similar to loadClass except that it does not check the delegation parent and will only load classes from the JAR file that are declared to be exported. This prevents private classes from being loaded by other JAR files on the class path. Access Limiting Process
- the method 300 begins at step 305 where an external process delegates to a class loader to load a requested class definition.
- applet 205 has a bytecode that is interpreted by VM 126, which then calls class loader 122 to load the appropriate object class definition needed to interpret the bytecode.
- class definition 200 is determined by class loader 122 to be the appropriate class definition to retrieve from shared library 124.
- a method is called to generate an interface to the loaded class definition.
- the interface can be any type of program interface or programming structure that can selectively provide access to other file or information.
- the get_package method 220 is called to create an instance of interface object 210 as the interface.
- attribute 208 in shared library 124 is read at step 320 to determine if the interface should allow access to the requested program file in shared library 124, such as class definition 200.
- an instance of the interface (e.g., interface object 210) is created for class definition 200.
- a status method is created at step 330 depending on attribute 208 in shared library 124. The status method is used to determine if the class definition is designated to be accessible to external processes depending on attribute 208.
- the status method is implemented as is_exported method 215 within interface object 210. When executed, is_exported method 215 generally operates as a status indicator indicating if class definition 200 is accessible to an external process, such as applet 205.
- step 335 the status method is called to determine if the class definition or, more generally stated, the program files encapsulated by interface object 210 can be exported at step 340. If the export indicator indicators the class definition is exportable, then step 340 proceeds to step 345 where the class definition is returned by class loader 122 to the requesting process (e.g., VM 126 interpreting applet 205). Otherwise, step 340 proceeds directly to step 350 where access to the class definition is limited and the class definition is not returned to the requesting process. Instead, class loader 122 throws an exception indicating an error condition of attempting to access an inaccessible file and that the requested class definition was not found.
- Methods and systems described above and consistent with the present invention limit access to parts of shared library 124, such as program files or, more specifically, object class definitions.
- These methods and system use class loader 122 to load an object class definition from shared library 124 and then create an interface, such as interface object 210, to the loaded class definition 200 of shared library 124.
- a status method is created depending upon the value of attribute 208 within shared library 124. Calling the status method returns an export indicator that indicates if the class definition encapsulated in the interface is designated to be accessible to an external process, such as applet 205. If the class definition is meant to be used only internal to the shared library and not by external processes, the status method indicates so and class loader 122 limits access to that part of the shared library 124.
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Priority Applications (3)
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EP01946958A EP1261913A4 (en) | 2000-01-27 | 2001-01-19 | Method, system, and article of manufacture for limiting access to program files in a shared library file |
AU2001229615A AU2001229615A1 (en) | 2000-01-27 | 2001-01-19 | Method, system, and article of manufacture for limiting access to program files in a shared library file |
JP2001555319A JP4841787B2 (en) | 2000-01-27 | 2001-01-19 | Method, system, and storage medium for restricting access to program file in shared library file |
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US09/492,120 | 2000-01-27 | ||
US09/492,120 US6385722B1 (en) | 2000-01-27 | 2000-01-27 | Method, system, and article of manufacture for limiting access to program files in a shared library file |
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WO2001055839A1 true WO2001055839A1 (en) | 2001-08-02 |
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PCT/US2001/001712 WO2001055839A1 (en) | 2000-01-27 | 2001-01-19 | Method, system, and article of manufacture for limiting access to program files in a shared library file |
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EP (1) | EP1261913A4 (en) |
JP (1) | JP4841787B2 (en) |
AU (1) | AU2001229615A1 (en) |
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JP4841787B2 (en) | 2011-12-21 |
US6385722B1 (en) | 2002-05-07 |
US6996707B2 (en) | 2006-02-07 |
AU2001229615A1 (en) | 2001-08-07 |
EP1261913A1 (en) | 2002-12-04 |
JP2003521063A (en) | 2003-07-08 |
US20020169791A1 (en) | 2002-11-14 |
EP1261913A4 (en) | 2004-07-21 |
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