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332 lines
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ReStructuredText
unshare system call
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===================
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This document describes the new system call, unshare(). The document
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provides an overview of the feature, why it is needed, how it can
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be used, its interface specification, design, implementation and
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how it can be tested.
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Change Log
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----------
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version 0.1 Initial document, Janak Desai (janak@us.ibm.com), Jan 11, 2006
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Contents
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--------
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1) Overview
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2) Benefits
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3) Cost
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4) Requirements
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5) Functional Specification
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6) High Level Design
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7) Low Level Design
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8) Test Specification
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9) Future Work
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1) Overview
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-----------
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Most legacy operating system kernels support an abstraction of threads
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as multiple execution contexts within a process. These kernels provide
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special resources and mechanisms to maintain these "threads". The Linux
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kernel, in a clever and simple manner, does not make distinction
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between processes and "threads". The kernel allows processes to share
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resources and thus they can achieve legacy "threads" behavior without
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requiring additional data structures and mechanisms in the kernel. The
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power of implementing threads in this manner comes not only from
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its simplicity but also from allowing application programmers to work
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outside the confinement of all-or-nothing shared resources of legacy
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threads. On Linux, at the time of thread creation using the clone system
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call, applications can selectively choose which resources to share
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between threads.
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unshare() system call adds a primitive to the Linux thread model that
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allows threads to selectively 'unshare' any resources that were being
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shared at the time of their creation. unshare() was conceptualized by
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Al Viro in the August of 2000, on the Linux-Kernel mailing list, as part
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of the discussion on POSIX threads on Linux. unshare() augments the
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usefulness of Linux threads for applications that would like to control
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shared resources without creating a new process. unshare() is a natural
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addition to the set of available primitives on Linux that implement
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the concept of process/thread as a virtual machine.
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2) Benefits
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-----------
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unshare() would be useful to large application frameworks such as PAM
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where creating a new process to control sharing/unsharing of process
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resources is not possible. Since namespaces are shared by default
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when creating a new process using fork or clone, unshare() can benefit
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even non-threaded applications if they have a need to disassociate
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from default shared namespace. The following lists two use-cases
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where unshare() can be used.
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2.1 Per-security context namespaces
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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unshare() can be used to implement polyinstantiated directories using
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the kernel's per-process namespace mechanism. Polyinstantiated directories,
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such as per-user and/or per-security context instance of /tmp, /var/tmp or
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per-security context instance of a user's home directory, isolate user
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processes when working with these directories. Using unshare(), a PAM
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module can easily setup a private namespace for a user at login.
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Polyinstantiated directories are required for Common Criteria certification
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with Labeled System Protection Profile, however, with the availability
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of shared-tree feature in the Linux kernel, even regular Linux systems
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can benefit from setting up private namespaces at login and
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polyinstantiating /tmp, /var/tmp and other directories deemed
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appropriate by system administrators.
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2.2 unsharing of virtual memory and/or open files
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Consider a client/server application where the server is processing
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client requests by creating processes that share resources such as
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virtual memory and open files. Without unshare(), the server has to
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decide what needs to be shared at the time of creating the process
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which services the request. unshare() allows the server an ability to
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disassociate parts of the context during the servicing of the
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request. For large and complex middleware application frameworks, this
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ability to unshare() after the process was created can be very
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useful.
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3) Cost
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-------
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In order to not duplicate code and to handle the fact that unshare()
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works on an active task (as opposed to clone/fork working on a newly
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allocated inactive task) unshare() had to make minor reorganizational
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changes to copy_* functions utilized by clone/fork system call.
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There is a cost associated with altering existing, well tested and
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stable code to implement a new feature that may not get exercised
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extensively in the beginning. However, with proper design and code
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review of the changes and creation of an unshare() test for the LTP
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the benefits of this new feature can exceed its cost.
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4) Requirements
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---------------
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unshare() reverses sharing that was done using clone(2) system call,
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so unshare() should have a similar interface as clone(2). That is,
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since flags in clone(int flags, void \*stack) specifies what should
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be shared, similar flags in unshare(int flags) should specify
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what should be unshared. Unfortunately, this may appear to invert
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the meaning of the flags from the way they are used in clone(2).
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However, there was no easy solution that was less confusing and that
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allowed incremental context unsharing in future without an ABI change.
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unshare() interface should accommodate possible future addition of
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new context flags without requiring a rebuild of old applications.
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If and when new context flags are added, unshare() design should allow
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incremental unsharing of those resources on an as needed basis.
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5) Functional Specification
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---------------------------
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NAME
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unshare - disassociate parts of the process execution context
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SYNOPSIS
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#include <sched.h>
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int unshare(int flags);
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DESCRIPTION
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unshare() allows a process to disassociate parts of its execution
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context that are currently being shared with other processes. Part
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of execution context, such as the namespace, is shared by default
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when a new process is created using fork(2), while other parts,
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such as the virtual memory, open file descriptors, etc, may be
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shared by explicit request to share them when creating a process
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using clone(2).
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The main use of unshare() is to allow a process to control its
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shared execution context without creating a new process.
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The flags argument specifies one or bitwise-or'ed of several of
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the following constants.
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CLONE_FS
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If CLONE_FS is set, file system information of the caller
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is disassociated from the shared file system information.
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CLONE_FILES
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If CLONE_FILES is set, the file descriptor table of the
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caller is disassociated from the shared file descriptor
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table.
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CLONE_NEWNS
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If CLONE_NEWNS is set, the namespace of the caller is
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disassociated from the shared namespace.
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CLONE_VM
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If CLONE_VM is set, the virtual memory of the caller is
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disassociated from the shared virtual memory.
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RETURN VALUE
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On success, zero returned. On failure, -1 is returned and errno is
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ERRORS
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EPERM CLONE_NEWNS was specified by a non-root process (process
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without CAP_SYS_ADMIN).
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ENOMEM Cannot allocate sufficient memory to copy parts of caller's
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context that need to be unshared.
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EINVAL Invalid flag was specified as an argument.
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CONFORMING TO
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The unshare() call is Linux-specific and should not be used
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in programs intended to be portable.
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SEE ALSO
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clone(2), fork(2)
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6) High Level Design
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--------------------
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Depending on the flags argument, the unshare() system call allocates
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appropriate process context structures, populates it with values from
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the current shared version, associates newly duplicated structures
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with the current task structure and releases corresponding shared
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versions. Helper functions of clone (copy_*) could not be used
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directly by unshare() because of the following two reasons.
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1) clone operates on a newly allocated not-yet-active task
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structure, where as unshare() operates on the current active
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task. Therefore unshare() has to take appropriate task_lock()
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before associating newly duplicated context structures
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2) unshare() has to allocate and duplicate all context structures
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that are being unshared, before associating them with the
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current task and releasing older shared structures. Failure
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do so will create race conditions and/or oops when trying
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to backout due to an error. Consider the case of unsharing
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both virtual memory and namespace. After successfully unsharing
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vm, if the system call encounters an error while allocating
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new namespace structure, the error return code will have to
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reverse the unsharing of vm. As part of the reversal the
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system call will have to go back to older, shared, vm
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structure, which may not exist anymore.
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Therefore code from copy_* functions that allocated and duplicated
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current context structure was moved into new dup_* functions. Now,
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copy_* functions call dup_* functions to allocate and duplicate
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appropriate context structures and then associate them with the
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task structure that is being constructed. unshare() system call on
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the other hand performs the following:
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1) Check flags to force missing, but implied, flags
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2) For each context structure, call the corresponding unshare()
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helper function to allocate and duplicate a new context
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structure, if the appropriate bit is set in the flags argument.
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3) If there is no error in allocation and duplication and there
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are new context structures then lock the current task structure,
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associate new context structures with the current task structure,
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and release the lock on the current task structure.
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4) Appropriately release older, shared, context structures.
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7) Low Level Design
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-------------------
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Implementation of unshare() can be grouped in the following 4 different
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items:
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a) Reorganization of existing copy_* functions
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b) unshare() system call service function
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c) unshare() helper functions for each different process context
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d) Registration of system call number for different architectures
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7.1) Reorganization of copy_* functions
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Each copy function such as copy_mm, copy_namespace, copy_files,
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etc, had roughly two components. The first component allocated
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and duplicated the appropriate structure and the second component
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linked it to the task structure passed in as an argument to the copy
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function. The first component was split into its own function.
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These dup_* functions allocated and duplicated the appropriate
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context structure. The reorganized copy_* functions invoked
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their corresponding dup_* functions and then linked the newly
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duplicated structures to the task structure with which the
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copy function was called.
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7.2) unshare() system call service function
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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* Check flags
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Force implied flags. If CLONE_THREAD is set force CLONE_VM.
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If CLONE_VM is set, force CLONE_SIGHAND. If CLONE_SIGHAND is
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set and signals are also being shared, force CLONE_THREAD. If
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CLONE_NEWNS is set, force CLONE_FS.
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* For each context flag, invoke the corresponding unshare_*
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helper routine with flags passed into the system call and a
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reference to pointer pointing the new unshared structure
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* If any new structures are created by unshare_* helper
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functions, take the task_lock() on the current task,
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modify appropriate context pointers, and release the
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task lock.
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* For all newly unshared structures, release the corresponding
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older, shared, structures.
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7.3) unshare_* helper functions
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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For unshare_* helpers corresponding to CLONE_SYSVSEM, CLONE_SIGHAND,
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and CLONE_THREAD, return -EINVAL since they are not implemented yet.
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For others, check the flag value to see if the unsharing is
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required for that structure. If it is, invoke the corresponding
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dup_* function to allocate and duplicate the structure and return
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a pointer to it.
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7.4) Finally
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~~~~~~~~~~~~
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Appropriately modify architecture specific code to register the
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new system call.
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8) Test Specification
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---------------------
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The test for unshare() should test the following:
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1) Valid flags: Test to check that clone flags for signal and
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signal handlers, for which unsharing is not implemented
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yet, return -EINVAL.
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2) Missing/implied flags: Test to make sure that if unsharing
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namespace without specifying unsharing of filesystem, correctly
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unshares both namespace and filesystem information.
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3) For each of the four (namespace, filesystem, files and vm)
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supported unsharing, verify that the system call correctly
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unshares the appropriate structure. Verify that unsharing
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them individually as well as in combination with each
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other works as expected.
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4) Concurrent execution: Use shared memory segments and futex on
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an address in the shm segment to synchronize execution of
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about 10 threads. Have a couple of threads execute execve,
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a couple _exit and the rest unshare with different combination
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of flags. Verify that unsharing is performed as expected and
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that there are no oops or hangs.
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9) Future Work
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--------------
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The current implementation of unshare() does not allow unsharing of
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signals and signal handlers. Signals are complex to begin with and
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to unshare signals and/or signal handlers of a currently running
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process is even more complex. If in the future there is a specific
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need to allow unsharing of signals and/or signal handlers, it can
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be incrementally added to unshare() without affecting legacy
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applications using unshare().
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