docs/components/debugfs-design.rst - TF-A/trusted-firmware-a.git - Gitiles

 ========
 Debug FS
 ========

 .. contents::

 Overview
 --------

 The *DebugFS* feature is primarily aimed at exposing firmware debug data to
 higher SW layers such as a non-secure component. Such component can be the
 TFTF test payload or a Linux kernel module.

 Virtual filesystem
 ------------------

 The core functionality lies in a virtual file system based on a 9p file server
 interface (`Notes on the Plan 9 Kernel Source`_ and
 `Linux 9p remote filesystem protocol`_).
 The implementation permits exposing virtual files, firmware drivers, and file blobs.

 Namespace
 ~~~~~~~~~

 Two namespaces are exposed:

   - # is used as root for drivers (e.g. #t0 is the first uart)
   - / is used as root for virtual "files" (e.g. /fip, or /dev/uart)

 9p interface
 ~~~~~~~~~~~~

 The associated primitives are:

 - Unix-like:

   - open(): create a file descriptor that acts as a handle to the file passed as
     an argument.
   - close(): close the file descriptor created by open().
   - read(): read from a file to a buffer.
   - write(): write from a buffer to a file.
   - seek(): set the file position indicator of a file descriptor either to a
     relative or an absolute offset.
   - stat(): get information about a file (type, mode, size, ...).

 .. code:: c

     int open(const char *name, int flags);
     int close(int fd);
     int read(int fd, void *buf, int n);
     int write(int fd, void *buf, int n);
     int seek(int fd, long off, int whence);
     int stat(char *path, dir_t *dir);

 - Specific primitives :

   - mount(): create a link between a driver and spec.
   - create(): create a file in a specific location.
   - bind(): expose the content of a directory to another directory.

 .. code:: c

     int mount(char *srv, char *mnt, char *spec);
     int create(const char *name, int flags);
     int bind(char *path, char *where);

 This interface is embedded into the BL31 run-time payload when selected by build
 options. The interface multiplexes drivers or emulated "files":

 - Debug data can be partitioned into different virtual files e.g. expose PMF
   measurements through a file, and internal firmware state counters through
   another file.
 - This permits direct access to a firmware driver, mainly for test purposes
   (e.g. a hardware device that may not be accessible to non-privileged/
   non-secure layers, or for which no support exists in the NS side).

 SMC interface
 -------------

 The communication with the 9p layer in BL31 is made through an SMC conduit
 (`SMC Calling Convention`_), using a specific SiP Function Id. An NS
 shared buffer is used to pass path string parameters, or e.g. to exchange
 data on a read operation. Refer to :ref:`ARM SiP Services <arm sip services>`
 for a description of the SMC interface.

 Security considerations
 -----------------------

 - Due to the nature of the exposed data, the feature is considered experimental
   and importantly **shall only be used in debug builds**.
 - Several primitive imply string manipulations and usage of string formats.
 - Special care is taken with the shared buffer to avoid TOCTOU attacks.

 Limitations
 -----------

 - In order to setup the shared buffer, the component consuming the interface
   needs to allocate a physical page frame and transmit its address.
 - In order to map the shared buffer, BL31 requires enabling the dynamic xlat
   table option.
 - Data exchange is limited by the shared buffer length. A large read operation
   might be split into multiple read operations of smaller chunks.
 - On concurrent access, a spinlock is implemented in the BL31 service to protect
   the internal work buffer, and re-entrancy into the filesystem layers.
 - Notice, a physical device driver if exposed by the firmware may conflict with
   the higher level OS if the latter implements its own driver for the same
   physical device.

 Applications
 ------------

 The SMC interface is accessible from an NS environment, that is:

 - a test payload, bootloader or hypervisor running at NS-EL2
 - a Linux kernel driver running at NS-EL1
 - a Linux userspace application through the kernel driver

 --------------

 *Copyright (c) 2019-2020, Arm Limited and Contributors. All rights reserved.*

 .. _SMC Calling Convention: https://developer.arm.com/docs/den0028/latest
 .. _Notes on the Plan 9 Kernel Source: http://lsub.org/who/nemo/9.pdf
 .. _Linux 9p remote filesystem protocol: https://www.kernel.org/doc/Documentation/filesystems/9p.txt
 .. _ARM SiP Services: arm-sip-service.rst
	========
	Debug FS
	========

	.. contents::

	Overview
	--------

	The DebugFS feature is primarily aimed at exposing firmware debug data to
	higher SW layers such as a non-secure component. Such component can be the
	TFTF test payload or a Linux kernel module.

	Virtual filesystem
	------------------

	The core functionality lies in a virtual file system based on a 9p file server
	interface (`Notes on the Plan 9 Kernel Source`_ and
	`Linux 9p remote filesystem protocol`_).
	The implementation permits exposing virtual files, firmware drivers, and file blobs.

	Namespace
	~~~~~~~~~

	Two namespaces are exposed:

	- # is used as root for drivers (e.g. #t0 is the first uart)
	- / is used as root for virtual "files" (e.g. /fip, or /dev/uart)

	9p interface
	~~~~~~~~~~~~

	The associated primitives are:

	- Unix-like:

	- open(): create a file descriptor that acts as a handle to the file passed as
	an argument.
	- close(): close the file descriptor created by open().
	- read(): read from a file to a buffer.
	- write(): write from a buffer to a file.
	- seek(): set the file position indicator of a file descriptor either to a
	relative or an absolute offset.
	- stat(): get information about a file (type, mode, size, ...).

	.. code:: c

	int open(const char *name, int flags);
	int close(int fd);
	int read(int fd, void *buf, int n);
	int write(int fd, void *buf, int n);
	int seek(int fd, long off, int whence);
	int stat(char path, dir_t dir);

	- Specific primitives :

	- mount(): create a link between a driver and spec.
	- create(): create a file in a specific location.
	- bind(): expose the content of a directory to another directory.

	.. code:: c

	int mount(char srv, char mnt, char *spec);
	int create(const char *name, int flags);
	int bind(char path, char where);

	This interface is embedded into the BL31 run-time payload when selected by build
	options. The interface multiplexes drivers or emulated "files":

	- Debug data can be partitioned into different virtual files e.g. expose PMF
	measurements through a file, and internal firmware state counters through
	another file.
	- This permits direct access to a firmware driver, mainly for test purposes
	(e.g. a hardware device that may not be accessible to non-privileged/
	non-secure layers, or for which no support exists in the NS side).

	SMC interface
	-------------

	The communication with the 9p layer in BL31 is made through an SMC conduit
	(`SMC Calling Convention`_), using a specific SiP Function Id. An NS
	shared buffer is used to pass path string parameters, or e.g. to exchange
	data on a read operation. Refer to :ref:`ARM SiP Services <arm sip services>`
	for a description of the SMC interface.

	Security considerations
	-----------------------

	- Due to the nature of the exposed data, the feature is considered experimental
	and importantly shall only be used in debug builds.
	- Several primitive imply string manipulations and usage of string formats.
	- Special care is taken with the shared buffer to avoid TOCTOU attacks.

	Limitations
	-----------

	- In order to setup the shared buffer, the component consuming the interface
	needs to allocate a physical page frame and transmit its address.
	- In order to map the shared buffer, BL31 requires enabling the dynamic xlat
	table option.
	- Data exchange is limited by the shared buffer length. A large read operation
	might be split into multiple read operations of smaller chunks.
	- On concurrent access, a spinlock is implemented in the BL31 service to protect
	the internal work buffer, and re-entrancy into the filesystem layers.
	- Notice, a physical device driver if exposed by the firmware may conflict with
	the higher level OS if the latter implements its own driver for the same
	physical device.

	Applications
	------------

	The SMC interface is accessible from an NS environment, that is:

	- a test payload, bootloader or hypervisor running at NS-EL2
	- a Linux kernel driver running at NS-EL1
	- a Linux userspace application through the kernel driver

	--------------

	Copyright (c) 2019-2020, Arm Limited and Contributors. All rights reserved.

	.. _SMC Calling Convention: https://developer.arm.com/docs/den0028/latest
	.. _Notes on the Plan 9 Kernel Source: http://lsub.org/who/nemo/9.pdf
	.. _Linux 9p remote filesystem protocol: https://www.kernel.org/doc/Documentation/filesystems/9p.txt
	.. _ARM SiP Services: arm-sip-service.rst