168 lines
6.3 KiB
Text
168 lines
6.3 KiB
Text
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Netdev features mess and how to get out from it alive
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=====================================================
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Author:
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Michał Mirosław <mirq-linux@rere.qmqm.pl>
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Part I: Feature sets
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======================
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Long gone are the days when a network card would just take and give packets
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verbatim. Today's devices add multiple features and bugs (read: offloads)
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that relieve an OS of various tasks like generating and checking checksums,
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splitting packets, classifying them. Those capabilities and their state
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are commonly referred to as netdev features in Linux kernel world.
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There are currently three sets of features relevant to the driver, and
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one used internally by network core:
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1. netdev->hw_features set contains features whose state may possibly
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be changed (enabled or disabled) for a particular device by user's
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request. This set should be initialized in ndo_init callback and not
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changed later.
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2. netdev->features set contains features which are currently enabled
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for a device. This should be changed only by network core or in
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error paths of ndo_set_features callback.
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3. netdev->vlan_features set contains features whose state is inherited
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by child VLAN devices (limits netdev->features set). This is currently
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used for all VLAN devices whether tags are stripped or inserted in
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hardware or software.
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4. netdev->wanted_features set contains feature set requested by user.
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This set is filtered by ndo_fix_features callback whenever it or
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some device-specific conditions change. This set is internal to
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networking core and should not be referenced in drivers.
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Part II: Controlling enabled features
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=======================================
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When current feature set (netdev->features) is to be changed, new set
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is calculated and filtered by calling ndo_fix_features callback
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and netdev_fix_features(). If the resulting set differs from current
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set, it is passed to ndo_set_features callback and (if the callback
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returns success) replaces value stored in netdev->features.
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NETDEV_FEAT_CHANGE notification is issued after that whenever current
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set might have changed.
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The following events trigger recalculation:
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1. device's registration, after ndo_init returned success
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2. user requested changes in features state
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3. netdev_update_features() is called
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ndo_*_features callbacks are called with rtnl_lock held. Missing callbacks
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are treated as always returning success.
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A driver that wants to trigger recalculation must do so by calling
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netdev_update_features() while holding rtnl_lock. This should not be done
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from ndo_*_features callbacks. netdev->features should not be modified by
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driver except by means of ndo_fix_features callback.
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Part III: Implementation hints
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================================
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* ndo_fix_features:
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All dependencies between features should be resolved here. The resulting
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set can be reduced further by networking core imposed limitations (as coded
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in netdev_fix_features()). For this reason it is safer to disable a feature
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when its dependencies are not met instead of forcing the dependency on.
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This callback should not modify hardware nor driver state (should be
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stateless). It can be called multiple times between successive
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ndo_set_features calls.
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Callback must not alter features contained in NETIF_F_SOFT_FEATURES or
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NETIF_F_NEVER_CHANGE sets. The exception is NETIF_F_VLAN_CHALLENGED but
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care must be taken as the change won't affect already configured VLANs.
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* ndo_set_features:
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Hardware should be reconfigured to match passed feature set. The set
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should not be altered unless some error condition happens that can't
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be reliably detected in ndo_fix_features. In this case, the callback
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should update netdev->features to match resulting hardware state.
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Errors returned are not (and cannot be) propagated anywhere except dmesg.
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(Note: successful return is zero, >0 means silent error.)
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Part IV: Features
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===================
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For current list of features, see include/linux/netdev_features.h.
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This section describes semantics of some of them.
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* Transmit checksumming
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For complete description, see comments near the top of include/linux/skbuff.h.
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Note: NETIF_F_HW_CSUM is a superset of NETIF_F_IP_CSUM + NETIF_F_IPV6_CSUM.
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It means that device can fill TCP/UDP-like checksum anywhere in the packets
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whatever headers there might be.
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* Transmit TCP segmentation offload
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NETIF_F_TSO_ECN means that hardware can properly split packets with CWR bit
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set, be it TCPv4 (when NETIF_F_TSO is enabled) or TCPv6 (NETIF_F_TSO6).
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* Transmit DMA from high memory
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On platforms where this is relevant, NETIF_F_HIGHDMA signals that
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ndo_start_xmit can handle skbs with frags in high memory.
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* Transmit scatter-gather
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Those features say that ndo_start_xmit can handle fragmented skbs:
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NETIF_F_SG --- paged skbs (skb_shinfo()->frags), NETIF_F_FRAGLIST ---
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chained skbs (skb->next/prev list).
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* Software features
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Features contained in NETIF_F_SOFT_FEATURES are features of networking
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stack. Driver should not change behaviour based on them.
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* LLTX driver (deprecated for hardware drivers)
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NETIF_F_LLTX should be set in drivers that implement their own locking in
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transmit path or don't need locking at all (e.g. software tunnels).
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In ndo_start_xmit, it is recommended to use a try_lock and return
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NETDEV_TX_LOCKED when the spin lock fails. The locking should also properly
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protect against other callbacks (the rules you need to find out).
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Don't use it for new drivers.
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* netns-local device
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NETIF_F_NETNS_LOCAL is set for devices that are not allowed to move between
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network namespaces (e.g. loopback).
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Don't use it in drivers.
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* VLAN challenged
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NETIF_F_VLAN_CHALLENGED should be set for devices which can't cope with VLAN
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headers. Some drivers set this because the cards can't handle the bigger MTU.
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[FIXME: Those cases could be fixed in VLAN code by allowing only reduced-MTU
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VLANs. This may be not useful, though.]
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* rx-fcs
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This requests that the NIC append the Ethernet Frame Checksum (FCS)
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to the end of the skb data. This allows sniffers and other tools to
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read the CRC recorded by the NIC on receipt of the packet.
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* rx-all
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This requests that the NIC receive all possible frames, including errored
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frames (such as bad FCS, etc). This can be helpful when sniffing a link with
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bad packets on it. Some NICs may receive more packets if also put into normal
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PROMISC mode.
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