On 11/29/18 11:48 PM, Yuval Shaia wrote:
> Interface with the device is changed with the addition of support for
> MAD packets.
> Adjust documentation accordingly.
>
> While there fix a minor mistake which may lead to think that there is a
> relation between using RXE on host and the compatibility with bare-metal
> peers.
>
> Signed-off-by: Yuval Shaia <yuval.shaia@oracle.com>
> ---
> docs/pvrdma.txt | 126 ++++++++++++++++++++++++++++++++++++++++--------
> 1 file changed, 107 insertions(+), 19 deletions(-)
>
> diff --git a/docs/pvrdma.txt b/docs/pvrdma.txt
> index 5599318159..5175251b47 100644
> --- a/docs/pvrdma.txt
> +++ b/docs/pvrdma.txt
> @@ -9,8 +9,9 @@ It works with its Linux Kernel driver AS IS, no need for any special guest
> modifications.
>
> While it complies with the VMware device, it can also communicate with bare
> -metal RDMA-enabled machines and does not require an RDMA HCA in the host, it
> -can work with Soft-RoCE (rxe).
> +metal RDMA-enabled machines as peers.
> +
> +It does not require an RDMA HCA in the host, it can work with Soft-RoCE (rxe).
>
> It does not require the whole guest RAM to be pinned allowing memory
> over-commit and, even if not implemented yet, migration support will be
> @@ -78,29 +79,116 @@ the required RDMA libraries.
>
> 3. Usage
> ========
> +
> +
> +3.1 VM Memory settings
> +======================
> Currently the device is working only with memory backed RAM
> and it must be mark as "shared":
> -m 1G \
> -object memory-backend-ram,id=mb1,size=1G,share \
> -numa node,memdev=mb1 \
>
> -The pvrdma device is composed of two functions:
> - - Function 0 is a vmxnet Ethernet Device which is redundant in Guest
> - but is required to pass the ibdevice GID using its MAC.
> - Examples:
> - For an rxe backend using eth0 interface it will use its mac:
> - -device vmxnet3,addr=<slot>.0,multifunction=on,mac=<eth0 MAC>
> - For an SRIOV VF, we take the Ethernet Interface exposed by it:
> - -device vmxnet3,multifunction=on,mac=<RoCE eth MAC>
> - - Function 1 is the actual device:
> - -device pvrdma,addr=<slot>.1,backend-dev=<ibdevice>,backend-gid-idx=<gid>,backend-port=<port>
> - where the ibdevice can be rxe or RDMA VF (e.g. mlx5_4)
> - Note: Pay special attention that the GID at backend-gid-idx matches vmxnet's MAC.
> - The rules of conversion are part of the RoCE spec, but since manual conversion
> - is not required, spotting problems is not hard:
> - Example: GID: fe80:0000:0000:0000:7efe:90ff:fecb:743a
> - MAC: 7c:fe:90:cb:74:3a
> - Note the difference between the first byte of the MAC and the GID.
> +
> +3.2 MAD Multiplexer
> +===================
> +MAD Multiplexer is a service that exposes MAD-like interface for VMs in
> +order to overcome the limitation where only single entity can register with
> +MAD layer to send and receive RDMA-CM MAD packets.
> +
> +To build rdmacm-mux run
> +# make rdmacm-mux
> +
> +The application accepts 3 command line arguments and exposes a UNIX socket
> +to pass control and data to it.
> +-d rdma-device-name Name of RDMA device to register with
> +-s unix-socket-path Path to unix socket to listen (default /var/run/rdmacm-mux)
> +-p rdma-device-port Port number of RDMA device to register with (default 1)
> +The final UNIX socket file name is a concatenation of the 3 arguments so
> +for example for device mlx5_0 on port 2 this /var/run/rdmacm-mux-mlx5_0-2
> +will be created.
> +
> +pvrdma requires this service.
> +
> +Please refer to contrib/rdmacm-mux for more details.
> +
> +
> +3.3 Service exposed by libvirt daemon
> +=====================================
> +The control over the RDMA device's GID table is done by updating the
> +device's Ethernet function addresses.
> +Usually the first GID entry is determined by the MAC address, the second by
> +the first IPv6 address and the third by the IPv4 address. Other entries can
> +be added by adding more IP addresses. The opposite is the same, i.e.
> +whenever an address is removed, the corresponding GID entry is removed.
> +The process is done by the network and RDMA stacks. Whenever an address is
> +added the ib_core driver is notified and calls the device driver add_gid
> +function which in turn update the device.
> +To support this in pvrdma device the device hooks into the create_bind and
> +destroy_bind HW commands triggered by pvrdma driver in guest.
> +
> +Whenever changed is made to the pvrdma port's GID table a special QMP
> +messages is sent to be processed by libvirt to update the address of the
> +backend Ethernet device.
> +
> +pvrdma requires that libvirt service will be up.
> +
> +
> +3.4 PCI devices settings
> +========================
> +RoCE device exposes two functions - an Ethernet and RDMA.
> +To support it, pvrdma device is composed of two PCI functions, an Ethernet
> +device of type vmxnet3 on PCI slot 0 and a PVRDMA device on PCI slot 1. The
> +Ethernet function can be used for other Ethernet purposes such as IP.
> +
> +
> +3.5 Device parameters
> +=====================
> +- netdev: Specifies the Ethernet device function name on the host for
> + example enp175s0f0. For Soft-RoCE device (rxe) this would be the Ethernet
> + device used to create it.
> +- ibdev: The IB device name on host for example rxe0, mlx5_0 etc.
> +- mad-chardev: The name of the MAD multiplexer char device.
> +- ibport: In case of multi-port device (such as Mellanox's HCA) this
> + specify the port to use. If not set 1 will be used.
> +- dev-caps-max-mr-size: The maximum size of MR.
> +- dev-caps-max-qp: Maximum number of QPs.
> +- dev-caps-max-sge: Maximum number of SGE elements in WR.
> +- dev-caps-max-cq: Maximum number of CQs.
> +- dev-caps-max-mr: Maximum number of MRs.
> +- dev-caps-max-pd: Maximum number of PDs.
> +- dev-caps-max-ah: Maximum number of AHs.
> +
> +Notes:
> +- The first 3 parameters are mandatory settings, the rest have their
> + defaults.
> +- The last 8 parameters (the ones that prefixed by dev-caps) defines the top
> + limits but the final values is adjusted by the backend device limitations.
> +- netdev can be extracted from ibdev's sysfs
> + (/sys/class/infiniband/<ibdev>/device/net/)
> +
> +
> +3.6 Example
> +===========
> +Define bridge device with vmxnet3 network backend:
> +<interface type='bridge'>
> + <mac address='56:b4:44:e9:62:dc'/>
> + <source bridge='bridge1'/>
> + <model type='vmxnet3'/>
> + <address type='pci' domain='0x0000' bus='0x00' slot='0x10' function='0x0' multifunction='on'/>
> +</interface>
> +
> +Define pvrdma device:
> +<qemu:commandline>
> + <qemu:arg value='-object'/>
> + <qemu:arg value='memory-backend-ram,id=mb1,size=1G,share'/>
> + <qemu:arg value='-numa'/>
> + <qemu:arg value='node,memdev=mb1'/>
> + <qemu:arg value='-chardev'/>
> + <qemu:arg value='socket,path=/var/run/rdmacm-mux-rxe0-1,id=mads'/>
> + <qemu:arg value='-device'/>
> + <qemu:arg value='pvrdma,addr=10.1,ibdev=rxe0,netdev=bridge0,mad-chardev=mads'/>
> +</qemu:commandline>
>
>
>
Reviewed-by: Marcel Apfelbaum<marcel.apfelbaum@gmail.com>
Thanks,
Marcel