- Removing dependency on nfp_uio kernel module. The igb_uio
kernel modules can be used instead.
Fixes: 80bc1752f16e ("nfp: add guide")
Signed-off-by: Alejandro Lucero
---
doc/guides/nics/nfp.rst | 47 ---
1 file changed, 16 insertions(+), 31 deletions(-)
diff --git a/doc/guides/nics/nfp.rst b/doc/guides/nics/nfp.rst
index dfc3683..e4ebc71 100644
--- a/doc/guides/nics/nfp.rst
+++ b/doc/guides/nics/nfp.rst
@@ -61,9 +61,8 @@ instructions.
DPDK runs in userspace and PMDs uses the Linux kernel UIO interface to
allow access to physical devices from userspace. The NFP PMD requires
-a separate UIO driver, **nfp_uio**, to perform correct
-initialization. This driver is part of Netronome?s BSP and it is
-equivalent to Intel's igb_uio driver.
+the **igb_uio** UIO driver, available with DPDK, to perform correct
+initialization.
Building the software
-
@@ -201,27 +200,18 @@ Using the NFP PMD is not different to using other PMDs.
Usual steps are:
The module should now be listed by the lsmod command.
-#. **To install the nfp_uio kernel module (manually):** This module supports
- NFP-6xxx devices through the UIO interface.
-
- This module is part of Netronome?s BSP and it should be available when the
- BSP is installed.
+#. **To install the igb_uio kernel module (manually):** This module is part
+ of DPDK sources and configured by default (CONFIG_RTE_EAL_IGB_UIO=y).
.. code-block:: console
- modprobe nfp_uio.ko
+ modprobe igb_uio.ko
The module should now be listed by the lsmod command.
- Depending on which NFP modules are loaded, nfp_uio may be automatically
- bound to the NFP PCI devices by the system. Otherwise the binding needs
- to be done explicitly. This is the case when nfp_netvf, the Linux kernel
- driver for NFP VFs, was loaded when VFs were created. As described later
- in this document this configuration may also be performed using scripts
- provided by the Netronome?s BSP.
-
- First the device needs to be unbound, for example from the nfp_netvf
- driver:
+ Depending on which NFP modules are loaded, it could be necessary to
+ detach NFP devices from the nfp_netvf module. If this is the case the
+ device needs to be unbound, for example:
.. code-block:: console
@@ -232,30 +222,25 @@ Using the NFP PMD is not different to using other PMDs.
Usual steps are:
The output of lspci should now show that :03:08.0 is not bound to
any driver.
- The next step is to add the NFP PCI ID to the NFP UIO driver:
+ The next step is to add the NFP PCI ID to the IGB UIO driver:
.. code-block:: console
- echo 19ee 6003 > /sys/bus/pci/drivers/nfp_uio/new_id
+ echo 19ee 6003 > /sys/bus/pci/drivers/igb_uio/new_id
- And then to bind the device to the nfp_uio driver:
+ And then to bind the device to the igb_uio driver:
.. code-block:: console
- echo :03:08.0 > /sys/bus/pci/drivers/nfp_uio/bind
+ echo :03:08.0 > /sys/bus/pci/drivers/igb_uio/bind
lspci -d19ee: -k
- lspci should show that device bound to nfp_uio driver.
-
-#. **Using tools from Netronome?s BSP to install and bind modules:** DPDK
provides
- scripts which are useful for installing the UIO modules and for binding the
- right device to those modules avoiding doing so manually. However, these
scripts
- have not support for Netronome?s UIO driver. Along with drivers, the BSP
installs
- those DPDK scripts slightly modified with support for Netronome?s UIO
driver.
+ lspci should show that device bound to igb_uio driver.
- Those specific scripts can be found in Netronome?s BSP installation
directory.
- Refer to BSP documentation for more information.
+#. **Using scripts to install and bind modules:** DPDK provides scripts which
are
+ useful for installing the UIO modules and for binding the right device to
those
+ modules avoiding doing so manually:
* **setup.sh**
* **dpdk_nic_bind.py**
--
1.9.1