Documentation/networking/device_drivers/google/gve.rst - hafnium/third_party/linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0+

 ==============================================================
 Linux kernel driver for Compute Engine Virtual Ethernet (gve):
 ==============================================================

 Supported Hardware
 ===================
 The GVE driver binds to a single PCI device id used by the virtual
 Ethernet device found in some Compute Engine VMs.

 +--------------+----------+---------+
 |Field         | Value    | Comments|
 +==============+==========+=========+
 |Vendor ID     | `0x1AE0` | Google  |
 +--------------+----------+---------+
 |Device ID     | `0x0042` |         |
 +--------------+----------+---------+
 |Sub-vendor ID | `0x1AE0` | Google  |
 +--------------+----------+---------+
 |Sub-device ID | `0x0058` |         |
 +--------------+----------+---------+
 |Revision ID   | `0x0`    |         |
 +--------------+----------+---------+
 |Device Class  | `0x200`  | Ethernet|
 +--------------+----------+---------+

 PCI Bars
 ========
 The gVNIC PCI device exposes three 32-bit memory BARS:
 - Bar0 - Device configuration and status registers.
 - Bar1 - MSI-X vector table
 - Bar2 - IRQ, RX and TX doorbells

 Device Interactions
 ===================
 The driver interacts with the device in the following ways:
  - Registers
     - A block of MMIO registers
     - See gve_register.h for more detail
  - Admin Queue
     - See description below
  - Reset
     - At any time the device can be reset
  - Interrupts
     - See supported interrupts below
  - Transmit and Receive Queues
     - See description below

 Registers
 ---------
 All registers are MMIO and big endian.

 The registers are used for initializing and configuring the device as well as
 querying device status in response to management interrupts.

 Admin Queue (AQ)
 ----------------
 The Admin Queue is a PAGE_SIZE memory block, treated as an array of AQ
 commands, used by the driver to issue commands to the device and set up
 resources.The driver and the device maintain a count of how many commands
 have been submitted and executed. To issue AQ commands, the driver must do
 the following (with proper locking):

 1)  Copy new commands into next available slots in the AQ array
 2)  Increment its counter by he number of new commands
 3)  Write the counter into the GVE_ADMIN_QUEUE_DOORBELL register
 4)  Poll the ADMIN_QUEUE_EVENT_COUNTER register until it equals
     the value written to the doorbell, or until a timeout.

 The device will update the status field in each AQ command reported as
 executed through the ADMIN_QUEUE_EVENT_COUNTER register.

 Device Resets
 -------------
 A device reset is triggered by writing 0x0 to the AQ PFN register.
 This causes the device to release all resources allocated by the
 driver, including the AQ itself.

 Interrupts
 ----------
 The following interrupts are supported by the driver:

 Management Interrupt
 ~~~~~~~~~~~~~~~~~~~~
 The management interrupt is used by the device to tell the driver to
 look at the GVE_DEVICE_STATUS register.

 The handler for the management irq simply queues the service task in
 the workqueue to check the register and acks the irq.

 Notification Block Interrupts
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 The notification block interrupts are used to tell the driver to poll
 the queues associated with that interrupt.

 The handler for these irqs schedule the napi for that block to run
 and poll the queues.

 Traffic Queues
 --------------
 gVNIC's queues are composed of a descriptor ring and a buffer and are
 assigned to a notification block.

 The descriptor rings are power-of-two-sized ring buffers consisting of
 fixed-size descriptors. They advance their head pointer using a __be32
 doorbell located in Bar2. The tail pointers are advanced by consuming
 descriptors in-order and updating a __be32 counter. Both the doorbell
 and the counter overflow to zero.

 Each queue's buffers must be registered in advance with the device as a
 queue page list, and packet data can only be put in those pages.

 Transmit
 ~~~~~~~~
 gve maps the buffers for transmit rings into a FIFO and copies the packets
 into the FIFO before sending them to the NIC.

 Receive
 ~~~~~~~
 The buffers for receive rings are put into a data ring that is the same
 length as the descriptor ring and the head and tail pointers advance over
 the rings together.
	.. SPDX-License-Identifier: GPL-2.0+

	==============================================================
	Linux kernel driver for Compute Engine Virtual Ethernet (gve):
	==============================================================

	Supported Hardware
	===================
	The GVE driver binds to a single PCI device id used by the virtual
	Ethernet device found in some Compute Engine VMs.

	+--------------+----------+---------+
	\|Field \| Value \| Comments\|
	+==============+==========+=========+
	\|Vendor ID \| `0x1AE0` \| Google \|
	+--------------+----------+---------+
	\|Device ID \| `0x0042` \| \|
	+--------------+----------+---------+
	\|Sub-vendor ID \| `0x1AE0` \| Google \|
	+--------------+----------+---------+
	\|Sub-device ID \| `0x0058` \| \|
	+--------------+----------+---------+
	\|Revision ID \| `0x0` \| \|
	+--------------+----------+---------+
	\|Device Class \| `0x200` \| Ethernet\|
	+--------------+----------+---------+

	PCI Bars
	========
	The gVNIC PCI device exposes three 32-bit memory BARS:
	- Bar0 - Device configuration and status registers.
	- Bar1 - MSI-X vector table
	- Bar2 - IRQ, RX and TX doorbells

	Device Interactions
	===================
	The driver interacts with the device in the following ways:
	- Registers
	- A block of MMIO registers
	- See gve_register.h for more detail
	- Admin Queue
	- See description below
	- Reset
	- At any time the device can be reset
	- Interrupts
	- See supported interrupts below
	- Transmit and Receive Queues
	- See description below

	Registers
	---------
	All registers are MMIO and big endian.

	The registers are used for initializing and configuring the device as well as
	querying device status in response to management interrupts.

	Admin Queue (AQ)
	----------------
	The Admin Queue is a PAGE_SIZE memory block, treated as an array of AQ
	commands, used by the driver to issue commands to the device and set up
	resources.The driver and the device maintain a count of how many commands
	have been submitted and executed. To issue AQ commands, the driver must do
	the following (with proper locking):

	1) Copy new commands into next available slots in the AQ array
	2) Increment its counter by he number of new commands
	3) Write the counter into the GVE_ADMIN_QUEUE_DOORBELL register
	4) Poll the ADMIN_QUEUE_EVENT_COUNTER register until it equals
	the value written to the doorbell, or until a timeout.

	The device will update the status field in each AQ command reported as
	executed through the ADMIN_QUEUE_EVENT_COUNTER register.

	Device Resets
	-------------
	A device reset is triggered by writing 0x0 to the AQ PFN register.
	This causes the device to release all resources allocated by the
	driver, including the AQ itself.

	Interrupts
	----------
	The following interrupts are supported by the driver:

	Management Interrupt
	~~~~~~~~~~~~~~~~~~~~
	The management interrupt is used by the device to tell the driver to
	look at the GVE_DEVICE_STATUS register.

	The handler for the management irq simply queues the service task in
	the workqueue to check the register and acks the irq.

	Notification Block Interrupts
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
	The notification block interrupts are used to tell the driver to poll
	the queues associated with that interrupt.

	The handler for these irqs schedule the napi for that block to run
	and poll the queues.

	Traffic Queues
	--------------
	gVNIC's queues are composed of a descriptor ring and a buffer and are
	assigned to a notification block.

	The descriptor rings are power-of-two-sized ring buffers consisting of
	fixed-size descriptors. They advance their head pointer using a __be32
	doorbell located in Bar2. The tail pointers are advanced by consuming
	descriptors in-order and updating a __be32 counter. Both the doorbell
	and the counter overflow to zero.

	Each queue's buffers must be registered in advance with the device as a
	queue page list, and packet data can only be put in those pages.

	Transmit
	~~~~~~~~
	gve maps the buffers for transmit rings into a FIFO and copies the packets
	into the FIFO before sending them to the NIC.

	Receive
	~~~~~~~
	The buffers for receive rings are put into a data ring that is the same
	length as the descriptor ring and the head and tail pointers advance over
	the rings together.