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Full Discussion: Shared memory and C++ Objects (cont)
Top Forums Programming Shared memory and C++ Objects (cont) Post 14548 by wizard on Friday 1st of February 2002 03:36:33 PM
Old 02-01-2002
Ok. Apparently I understood you correctly in the first post. First of all, when you create an object containing a virtual function, you do not create a virtual function table. At compile time, a pointer to the virtual function is created and placed into a module wide virtual function table which is a table of pointers to virtual functions defined within the compiled object. If you can get the value of the pointer pointing to the virtual function table, it will only have meaning in the executable that contains the instantiation of Class1, in this case object Obj1.

Secondly, if you create a shared memory segment and place a pointer to the virtual function, the virtual function table, or a pointer to anything inside the address space of ProcessA, you are NOT "sharing the object". You are passing a virtual memory address with meaning in ProcessA, to ProcessB where it has no meaning. When ProcessB dereferences the pointer, you will more than likely get a SIGSEGV.

Shared memory is used for passing DATA objects, not executable text (i.e. a virtual function) or a pointer.

Obviously, I don't know why ProcessB needs to access the Obj1 object defined in ProcessA. If the Class1 template (with virtual functions and all) is declared inside both source modules (or more likely in a header file and included in the source), then you could have separate instantiations of the template in both processes. If you need to share data values between the instantiated objects, then you could pass the data values using shared memory, but you cannot pass a pointer to the executable text of the virtual function. You don't need to as you would have the same executable text in each process.

Now, that said, you should look at the load() system call in AIX. I've used this to dynamically create modules and load them into the process address space of a running process. Realize that this is a non-portable system call. Since I don't know what your ultimate goal is here, this is the only possible option I can come up with.
 

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LEARN ABOUT LINUX

shm_overview

SHM_OVERVIEW(7) 					     Linux Programmer's Manual						   SHM_OVERVIEW(7)

NAME

       shm_overview - Overview of POSIX shared memory

DESCRIPTION

       The POSIX shared memory API allows processes to communicate information by sharing a region of memory.

       The interfaces employed in the API are:

       shm_open(3)    Create and open a new object, or open an existing object.  This is analogous to open(2).	The call returns a file descriptor
		      for use by the other interfaces listed below.

       ftruncate(2)   Set the size of the shared memory object.  (A newly created shared memory object has a length of zero.)

       mmap(2)	      Map the shared memory object into the virtual address space of the calling process.

       munmap(2)      Unmap the shared memory object from the virtual address space of the calling process.

       shm_unlink(3)  Remove a shared memory object name.

       close(2)       Close the file descriptor allocated by shm_open(3) when it is no longer needed.

       fstat(2)       Obtain a stat structure that describes the shared memory object.	Among the  information	returned  by  this  call  are  the
		      object's size (st_size), permissions (st_mode), owner (st_uid), and group (st_gid).

       fchown(2)      To change the ownership of a shared memory object.

       fchmod(2)      To change the permissions of a shared memory object.

   Versions
       POSIX shared memory is supported since Linux 2.4 and glibc 2.2.

   Persistence
       POSIX  shared  memory  objects  have kernel persistence: a shared memory object will exist until the system is shut down, or until all pro-
       cesses have unmapped the object and it has been deleted with shm_unlink(3)

   Linking
       Programs using the POSIX shared memory API must be compiled with cc -lrt to link against the real-time library, librt.

   Accessing shared memory objects via the file system
       On Linux, shared memory objects are created in a (tmpfs) virtual file system, normally mounted under /dev/shm.  Since kernel 2.6.19,  Linux
       supports the use of access control lists (ACLs) to control the permissions of objects in the virtual file system.

CONFORMING TO

       POSIX.1-2001.

NOTES

       Typically, processes must synchronize their access to a shared memory object, using, for example, POSIX semaphores.

       System  V  shared  memory  (shmget(2),  shmop(2),  etc.) is an older shared memory API.	POSIX shared memory provides a simpler, and better
       designed interface; on the other hand POSIX shared memory is somewhat less widely available (especially on older  systems)  than  System  V
       shared memory.

SEE ALSO

       fchmod(2),  fchown(2),  fstat(2), ftruncate(2), mmap(2), mprotect(2), munmap(2), shmget(2), shmop(2), shm_open(3), shm_unlink(3), sem_over-
       view(7)

COLOPHON

       This page is part of release 3.27 of the Linux man-pages project.  A description of the project, and information about reporting bugs,  can
       be found at http://www.kernel.org/doc/man-pages/.

Linux								    2010-09-10							   SHM_OVERVIEW(7)
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