127 lines
4.9 KiB
ReStructuredText
127 lines
4.9 KiB
ReStructuredText
.. _uart_virtualization:
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UART Virtualization
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###################
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In ACRN, UART virtualization is implemented as a fully-emulated device.
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In the Service VM, UART virtualization is implemented in the
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hypervisor itself. In the User VM, UART virtualization is
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implemented in the Device Model (DM), and is the primary topic of this
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document. We'll summarize differences between the hypervisor and DM
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implementations at the end of this document.
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UART emulation is a typical full-emulation implementation and is a
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good example to learn about I/O emulation in a virtualized environment.
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There is a detailed explanation about the I/O emulation flow in
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ACRN in :ref:`ACRN-io-mediator`.
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Architecture
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************
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The ACRN DM architecture for UART virtualization is shown here:
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.. figure:: images/uart-image1.png
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:align: center
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:name: uart-arch
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:width: 800px
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Device Model's UART Virtualization Architecture
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There are three objects used to emulate one UART device in DM:
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UART registers, rxFIFO, and backend tty devices.
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**UART registers** are emulated by member variables in struct
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``uart_vdev``, one variable for each register. These variables are used
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to track the register status programed by the frontend driver. The
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handler of each register depends on the register's functionality.
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A **FIFO** is implemented to emulate RX. Normally characters are read
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from the backend tty device when available, then put into the rxFIFO.
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When the Guest application tries to read from the UART, the access to
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register ``com_data`` causes a ``vmexit``. Device Model catches the
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``vmexit`` and emulates the UART by returning one character from rxFIFO.
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.. note:: When ``com_fcr`` is available, the Guest application can write
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``0`` to this register to disable rxFIFO. In this case the rxFIFO in
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the Device Model degenerates to a buffer containing only one character.
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When the Guest application tries to send a character to the UART, it
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writes to the ``com_data`` register, which will cause a ``vmexit`` as
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well. Device Model catches the ``vmexit`` and emulates the UART by
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redirecting the character to the **backend tty device**.
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The UART device emulated by the ACRN Device Model is connected to the system by
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the LPC bus. In the current implementation, two channel LPC UARTs are I/O mapped to
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the traditional COM port addresses of 0x3F8 and 0x2F8. These are defined in
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global variable ``uart_lres``.
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There are two options needed for configuring the UART in the ``acrn-dm``
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command line. First, the LPC is defined as a PCI device::
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-s 1:0,lpc
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The other option defines a UART port::
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-l com1,stdio
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The first parameter here is the name of the UART (must be "com1" or
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"com2"). The second parameter is species the backend
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tty device: ``stdio`` or a path to the dedicated tty device
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node, for example ``/dev/pts/0``.
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If you are using a specified tty device, find the name of the terminal
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connected to standard input using the ``tty`` command (e.g.,
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``/dev/pts/1``). Use this name to define the UART port on the acrn-dm
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command line, for example::
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-l com1,/dev/pts/1
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When acrn-dm starts, ``pci_lpc_init`` is called as the callback of the
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``vdev_init`` of the PCI device given on the acrn-dm command line.
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Later, ``lpc_init`` is called in ``pci_lpc_init``. ``lpc_init`` iterates
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on the available UART instances defined on the command line and
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initializes them one by one. ``register_inout`` is called on the port
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region of each UART instance, enabling access to the UART ports to be
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routed to the registered handler.
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In the case of UART emulation, the registered handlers are ``uart_read``
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and ``uart_write``.
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A similar virtual UART device is implemented in the hypervisor.
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UART16550 is owned by the hypervisor itself and is used for
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debugging purposes. (The UART properties are configured by parameters
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to the hypervisor command line.) The hypervisor emulates a UART device
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with 0x3F8 address to the Service VM and acts as the Service VM console. The
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general emulation is the same as used in the Device Model, with the following
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differences:
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- PIO region is directly registered to the vmexit handler dispatcher via
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``vuart_register_io_handler``
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- Two FIFOs are implemented, one for RX, the other of TX
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- RX flow:
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- Characters are read from the UART HW into a 2048-byte sbuf,
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triggered by ``console_read``
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- Characters are read from the sbuf and put to rxFIFO,
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triggered by ``vuart_console_rx_chars``
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- A virtual interrupt is sent to the Service VM that triggered the read,
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and characters from rxFIFO are sent to the Service VM by emulating a read
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of register ``UART16550_RBR``
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- TX flow:
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- Characters are put into txFIFO by emulating a write of register
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``UART16550_THR``
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- Characters in txFIFO are read out one by one, and sent to the console
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by printf, triggered by ``vuart_console_tx_chars``
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- Implementation of printf is based on the console, which finally sends
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characters to the UART HW by writing to register ``UART16550_RBR``
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