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This work adds a new, minimal BPF-programmable device called "netkit"
(former PoC code-name "meta") we recently presented at LSF/MM/BPF. The
core idea is that BPF programs are executed within the drivers xmit routine
and therefore e.g. in case of containers/Pods moving BPF processing closer
to the source.
One of the goals was that in case of Pod egress traffic, this allows to
move BPF programs from hostns tcx ingress into the device itself, providing
earlier drop or forward mechanisms, for example, if the BPF program
determines that the skb must be sent out of the node, then a redirect to
the physical device can take place directly without going through per-CPU
backlog queue. This helps to shift processing for such traffic from softirq
to process context, leading to better scheduling decisions/performance (see
measurements in the slides).
In this initial version, the netkit device ships as a pair, but we plan to
extend this further so it can also operate in single device mode. The pair
comes with a primary and a peer device. Only the primary device, typically
residing in hostns, can manage BPF programs for itself and its peer. The
peer device is designated for containers/Pods and cannot attach/detach
BPF programs. Upon the device creation, the user can set the default policy
to 'pass' or 'drop' for the case when no BPF program is attached.
Additionally, the device can be operated in L3 (default) or L2 mode. The
management of BPF programs is done via bpf_mprog, so that multi-attach is
supported right from the beginning with similar API and dependency controls
as tcx. For details on the latter see commit 053c8e1f23
("bpf: Add generic
attach/detach/query API for multi-progs"). tc BPF compatibility is provided,
so that existing programs can be easily migrated.
Going forward, we plan to use netkit devices in Cilium as the main device
type for connecting Pods. They will be operated in L3 mode in order to
simplify a Pod's neighbor management and the peer will operate in default
drop mode, so that no traffic is leaving between the time when a Pod is
brought up by the CNI plugin and programs attached by the agent.
Additionally, the programs we attach via tcx on the physical devices are
using bpf_redirect_peer() for inbound traffic into netkit device, hence the
latter is also supporting the ndo_get_peer_dev callback. Similarly, we use
bpf_redirect_neigh() for the way out, pushing from netkit peer to phys device
directly. Also, BIG TCP is supported on netkit device. For the follow-up
work in single device mode, we plan to convert Cilium's cilium_host/_net
devices into a single one.
An extensive test suite for checking device operations and the BPF program
and link management API comes as BPF selftests in this series.
Co-developed-by: Nikolay Aleksandrov <razor@blackwall.org>
Signed-off-by: Nikolay Aleksandrov <razor@blackwall.org>
Signed-off-by: Daniel Borkmann <daniel@iogearbox.net>
Reviewed-by: Toke Høiland-Jørgensen <toke@redhat.com>
Acked-by: Stanislav Fomichev <sdf@google.com>
Acked-by: Martin KaFai Lau <martin.lau@kernel.org>
Link: https://github.com/borkmann/iproute2/tree/pr/netkit
Link: http://vger.kernel.org/bpfconf2023_material/tcx_meta_netdev_borkmann.pdf (24ff.)
Link: https://lore.kernel.org/r/20231024214904.29825-2-daniel@iogearbox.net
Signed-off-by: Martin KaFai Lau <martin.lau@kernel.org>
90 lines
2.4 KiB
Makefile
90 lines
2.4 KiB
Makefile
# SPDX-License-Identifier: GPL-2.0
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#
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# Makefile for the Linux network device drivers.
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#
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#
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# Networking Core Drivers
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#
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obj-$(CONFIG_BONDING) += bonding/
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obj-$(CONFIG_IPVLAN) += ipvlan/
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obj-$(CONFIG_IPVTAP) += ipvlan/
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obj-$(CONFIG_DUMMY) += dummy.o
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obj-$(CONFIG_WIREGUARD) += wireguard/
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obj-$(CONFIG_EQUALIZER) += eql.o
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obj-$(CONFIG_IFB) += ifb.o
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obj-$(CONFIG_MACSEC) += macsec.o
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obj-$(CONFIG_AMT) += amt.o
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obj-$(CONFIG_MACVLAN) += macvlan.o
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obj-$(CONFIG_MACVTAP) += macvtap.o
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obj-$(CONFIG_MII) += mii.o
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obj-$(CONFIG_MDIO) += mdio.o
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obj-$(CONFIG_NET) += loopback.o
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obj-$(CONFIG_NETDEV_LEGACY_INIT) += Space.o
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obj-$(CONFIG_NETCONSOLE) += netconsole.o
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obj-$(CONFIG_NETKIT) += netkit.o
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obj-y += phy/
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obj-y += pse-pd/
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obj-y += mdio/
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obj-y += pcs/
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obj-$(CONFIG_RIONET) += rionet.o
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obj-$(CONFIG_NET_TEAM) += team/
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obj-$(CONFIG_TUN) += tun.o
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obj-$(CONFIG_TAP) += tap.o
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obj-$(CONFIG_VETH) += veth.o
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obj-$(CONFIG_VIRTIO_NET) += virtio_net.o
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obj-$(CONFIG_VXLAN) += vxlan/
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obj-$(CONFIG_GENEVE) += geneve.o
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obj-$(CONFIG_BAREUDP) += bareudp.o
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obj-$(CONFIG_GTP) += gtp.o
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obj-$(CONFIG_NLMON) += nlmon.o
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obj-$(CONFIG_NET_VRF) += vrf.o
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obj-$(CONFIG_VSOCKMON) += vsockmon.o
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obj-$(CONFIG_MHI_NET) += mhi_net.o
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#
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# Networking Drivers
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#
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obj-$(CONFIG_ARCNET) += arcnet/
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obj-$(CONFIG_CAIF) += caif/
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obj-$(CONFIG_CAN) += can/
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obj-$(CONFIG_NET_DSA) += dsa/
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obj-$(CONFIG_ETHERNET) += ethernet/
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obj-$(CONFIG_FDDI) += fddi/
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obj-$(CONFIG_HIPPI) += hippi/
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obj-$(CONFIG_HAMRADIO) += hamradio/
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obj-$(CONFIG_QCOM_IPA) += ipa/
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obj-$(CONFIG_PLIP) += plip/
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obj-$(CONFIG_PPP) += ppp/
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obj-$(CONFIG_PPP_ASYNC) += ppp/
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obj-$(CONFIG_PPP_BSDCOMP) += ppp/
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obj-$(CONFIG_PPP_DEFLATE) += ppp/
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obj-$(CONFIG_PPP_MPPE) += ppp/
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obj-$(CONFIG_PPP_SYNC_TTY) += ppp/
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obj-$(CONFIG_PPPOE) += ppp/
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obj-$(CONFIG_PPPOL2TP) += ppp/
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obj-$(CONFIG_PPTP) += ppp/
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obj-$(CONFIG_SLIP) += slip/
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obj-$(CONFIG_SLHC) += slip/
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obj-$(CONFIG_NET_SB1000) += sb1000.o
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obj-$(CONFIG_SUNGEM_PHY) += sungem_phy.o
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obj-$(CONFIG_WAN) += wan/
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obj-$(CONFIG_WLAN) += wireless/
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obj-$(CONFIG_IEEE802154) += ieee802154/
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obj-$(CONFIG_WWAN) += wwan/
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obj-$(CONFIG_MCTP) += mctp/
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obj-$(CONFIG_VMXNET3) += vmxnet3/
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obj-$(CONFIG_XEN_NETDEV_FRONTEND) += xen-netfront.o
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obj-$(CONFIG_XEN_NETDEV_BACKEND) += xen-netback/
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obj-$(CONFIG_USB_NET_DRIVERS) += usb/
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obj-$(CONFIG_HYPERV_NET) += hyperv/
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obj-$(CONFIG_NTB_NETDEV) += ntb_netdev.o
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obj-$(CONFIG_FUJITSU_ES) += fjes/
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obj-$(CONFIG_USB4_NET) += thunderbolt/
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obj-$(CONFIG_NETDEVSIM) += netdevsim/
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obj-$(CONFIG_NET_FAILOVER) += net_failover.o
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