191 lines
7.9 KiB
ReStructuredText
191 lines
7.9 KiB
ReStructuredText
.. _usermode:
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User Mode
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#########
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This section describes access policies for kernel objects, how system calls
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are defined, and how memory may be managed to support user mode threads.
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For details on creating threads that run in user mode, please see
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:ref:`lifecycle_v2`.
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Threat Model
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************
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User mode threads are considered to be untrusted by Zephyr and are therefore
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isolated from other user mode threads and from the kernel. A flawed or
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malicious user mode thread cannot leak or modify the private data/resources
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of another thread or the kernel, and cannot interfere with or
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control another user mode thread or the kernel.
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Example use-cases of Zephyr's user mode features:
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- The kernel can protect against many unintentional programming errors which
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could otherwise silently or spectacularly corrupt the system.
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- The kernel can sandbox complex data parsers such as interpreters, network
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protocols, and filesystems such that malicious third-party code or data
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cannot compromise the kernel or other threads.
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- The kernel can support the notion of multiple logical "applications", each
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with their own group of threads and private data structures, which are
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isolated from each other if one crashes or is otherwise compromised.
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Design Goals
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============
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For threads running in a non-privileged CPU state (hereafter referred to as
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'user mode') we aim to protect against the following:
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- We prevent access to memory not specifically granted, or incorrect access to
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memory that has an incompatible policy, such as attempting to write to a
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read-only area.
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- Threads are automatically granted access to their own stack memory
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region, and all other stacks are inaccessible.
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- By default, program text and read-only data are accessible to all threads
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on read-only basis, kernel-wide. This policy may be adjusted.
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- If the optional "application memory" feature is enabled, then all
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non-kernel globals defined in the application and libraries will be
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accessible.
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- We prevent use of device drivers or kernel objects not specifically granted,
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with the permission granularity on a per object or per driver instance
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basis.
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- We validate kernel or driver API calls with incorrect parameters that would
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otherwise cause a crash or corruption of data structures private to the
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kernel. This includes:
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- Using the wrong kernel object type.
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- Using parameters outside of proper bounds or with nonsensical values.
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- Passing memory buffers that the calling thread does not have sufficient
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access to read or write, depending on the semantics of the API.
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- Use of kernel objects that are not in a proper initialization state.
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- We ensure the detection and safe handling of user mode stack overflows.
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- We prevent invoking system calls to functions excluded by the kernel
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configuration.
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- We prevent disabling of or tampering with kernel-defined and hardware-
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enforced memory protections.
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- We prevent re-entry from user to supervisor mode except through the kernel-
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defined system calls and interrupt handlers.
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- We prevent the introduction of new executable code by user mode threads,
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except to the extent to which this is supported by kernel system calls.
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We are specifically not protecting against the following attacks:
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- The kernel itself, and any threads that are executing in supervisor mode,
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are assumed to be trusted.
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- The toolchain and any supplemental programs used by the build system are
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assumed to be trusted.
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- The kernel build is assumed to be trusted. There is considerable build-time
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logic for creating the tables of valid kernel objects, defining system calls,
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and configuring interrupts. The .elf binary files that are worked with
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during this process are all assumed to be trusted code.
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- We can't protect against mistakes made in memory domain configuration done in
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kernel mode that exposes private kernel data structures to a user thread. RAM
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for kernel objects should always be configured as supervisor-only.
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- It is possible to make top-level declarations of user mode threads and
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assign them permissions to kernel objects. In general, all C and header
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files that are part of the kernel build producing zephyr.elf are assumed to
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be trusted.
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- We do not protect against denial of service attacks through thread CPU
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starvation. Zephyr has no thread priority aging and a user thread of a
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particular priority can starve all threads of lower priority, and also other
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threads of the same priority if time-slicing is not enabled.
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- There are build-time defined limits on how many threads can be active
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simultaneously, after which creation of new user threads will fail.
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- Stack overflows for threads running in supervisor mode may be caught,
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but the integrity of the system cannot be guaranteed.
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High-level Policy Details
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*************************
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Broadly speaking, we accomplish these thread-level memory protection goals
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through the following mechanisms:
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- Any user thread will only have access to its own stack memory by default.
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Access to any other RAM will need to be done on the thread's behalf through
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system calls, or specifically granted by a supervisor thread using the
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:ref:`memory_domain` APIs. Newly created threads inherit the memory domain
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configuration of the parent. Threads may communicate with each other
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by having shared membership of the same memory domains, or via kernel objects
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such as semaphores and pipes.
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- User threads cannot directly access memory belonging to kernel objects.
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Although pointers to kernel objects are used to reference them, actual
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manipulation of kernel objects is done through system call interfaces. Device
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drivers and threads stacks are also considered kernel objects. This ensures
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that any data inside a kernel object that is private to the kernel cannot be
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tampered with.
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- User threads by default have no permission to access any kernel object or
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driver other than their own thread object. Such access must be granted by
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another thread that is either in supervisor mode or has permission on both
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the receiving thread object and the kernel object being granted access to.
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The creation of new threads has an option to automatically inherit
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permissions of all kernel objects granted to the parent, except the parent
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thread itself.
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- For performance and footprint reasons Zephyr normally does little or no
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parameter error checking for kernel object or device driver APIs. Access from
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user mode through system calls involves an extra layer of handler functions,
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which are expected to rigorously validate access permissions and type of
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the object, check the validity of other parameters through bounds checking or
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other means, and verify proper read/write access to any memory buffers
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involved.
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- Thread stacks are defined in such a way that exceeding the specified stack
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space will generate a hardware fault. The way this is done specifically
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varies per architecture.
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Constraints
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***********
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All kernel objects, thread stacks, and device driver instances must be defined
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at build time if they are to be used from user mode. Dynamic use-cases for
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kernel objects will need to go through pre-defined pools of available objects.
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There are some constraints if additional application binary data is loaded
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for execution after the kernel starts:
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- Loaded object code will not be able to define any kernel objects that will be
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recognized by the kernel. This code will instead need to use APIs for
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requesting kernel objects from pools.
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- Similarly, since the loaded object code will not be part of the kernel build
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process, this code will not be able to install interrupt handlers,
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instantiate device drivers, or define system calls, regardless of what
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mode it runs in.
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- Loaded object code that does not come from a verified source should always
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be entered with the CPU already in user mode.
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.. toctree::
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:maxdepth: 2
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kernelobjects.rst
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syscalls.rst
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memory_domain.rst
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mpu_stack_objects.rst
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mpu_userspace.rst
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usermode_sharedmem.rst
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