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.. SPDX-License-Identifier: GPL-2.0
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===============================================
XFRM device - offloading the IPsec computations
===============================================
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Shannon Nelson <shannon.nelson@oracle.com>
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Leon Romanovsky <leonro@nvidia.com>
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Overview
========
IPsec is a useful feature for securing network traffic, but the
computational cost is high: a 10Gbps link can easily be brought down
to under 1Gbps, depending on the traffic and link configuration.
Luckily, there are NICs that offer a hardware based IPsec offload which
can radically increase throughput and decrease CPU utilization. The XFRM
Device interface allows NIC drivers to offer to the stack access to the
hardware offload.
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Right now, there are two types of hardware offload that kernel supports.
* IPsec crypto offload:
* NIC performs encrypt/decrypt
* Kernel does everything else
* IPsec packet offload:
* NIC performs encrypt/decrypt
* NIC does encapsulation
* Kernel and NIC have SA and policy in-sync
* NIC handles the SA and policies states
* The Kernel talks to the keymanager
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Userland access to the offload is typically through a system such as
libreswan or KAME/raccoon, but the iproute2 'ip xfrm' command set can
be handy when experimenting. An example command might look something
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like this for crypto offload:
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ip x s add proto esp dst 14.0.0.70 src 14.0.0.52 spi 0x07 mode transport \
reqid 0x07 replay-window 32 \
aead 'rfc4106(gcm(aes))' 0x44434241343332312423222114131211f4f3f2f1 128 \
sel src 14.0.0.52/24 dst 14.0.0.70/24 proto tcp \
offload dev eth4 dir in
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and for packet offload
ip x s add proto esp dst 14.0.0.70 src 14.0.0.52 spi 0x07 mode transport \
reqid 0x07 replay-window 32 \
aead 'rfc4106(gcm(aes))' 0x44434241343332312423222114131211f4f3f2f1 128 \
sel src 14.0.0.52/24 dst 14.0.0.70/24 proto tcp \
offload packet dev eth4 dir in
ip x p add src 14.0.0.70 dst 14.0.0.52 offload packet dev eth4 dir in
tmpl src 14.0.0.70 dst 14.0.0.52 proto esp reqid 10000 mode transport
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Yes, that's ugly, but that's what shell scripts and/or libreswan are for.
Callbacks to implement
======================
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::
/* from include/linux/netdevice.h * /
struct xfrmdev_ops {
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/* Crypto and Packet offload callbacks * /
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int (*xdo_dev_state_add) (struct xfrm_state * x, struct netlink_ext_ack *extack);
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void (*xdo_dev_state_delete) (struct xfrm_state * x);
void (*xdo_dev_state_free) (struct xfrm_state * x);
bool (*xdo_dev_offload_ok) (struct sk_buff * skb,
struct xfrm_state *x);
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void (*xdo_dev_state_advance_esn) (struct xfrm_state * x);
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/* Solely packet offload callbacks * /
void (*xdo_dev_state_update_curlft) (struct xfrm_state * x);
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int (*xdo_dev_policy_add) (struct xfrm_policy * x, struct netlink_ext_ack *extack);
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void (*xdo_dev_policy_delete) (struct xfrm_policy * x);
void (*xdo_dev_policy_free) (struct xfrm_policy * x);
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};
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The NIC driver offering ipsec offload will need to implement callbacks
relevant to supported offload to make the offload available to the network
stack's XFRM subsystem. Additionally, the feature bits NETIF_F_HW_ESP and
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NETIF_F_HW_ESP_TX_CSUM will signal the availability of the offload.
Flow
====
At probe time and before the call to register_netdev(), the driver should
set up local data structures and XFRM callbacks, and set the feature bits.
The XFRM code's listener will finish the setup on NETDEV_REGISTER.
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::
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adapter->netdev->xfrmdev_ops = &ixgbe_xfrmdev_ops;
adapter->netdev->features |= NETIF_F_HW_ESP;
adapter->netdev->hw_enc_features |= NETIF_F_HW_ESP;
When new SAs are set up with a request for "offload" feature, the
driver's xdo_dev_state_add() will be given the new SA to be offloaded
and an indication of whether it is for Rx or Tx. The driver should
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- verify the algorithm is supported for offloads
- store the SA information (key, salt, target-ip, protocol, etc)
- enable the HW offload of the SA
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- return status value:
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=========== ===================================
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0 success
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-EOPNETSUPP offload not supported, try SW IPsec,
not applicable for packet offload mode
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other fail the request
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=========== ===================================
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The driver can also set an offload_handle in the SA, an opaque void pointer
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that can be used to convey context into the fast-path offload requests::
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xs->xso.offload_handle = context;
When the network stack is preparing an IPsec packet for an SA that has
been setup for offload, it first calls into xdo_dev_offload_ok() with
the skb and the intended offload state to ask the driver if the offload
will serviceable. This can check the packet information to be sure the
offload can be supported (e.g. IPv4 or IPv6, no IPv4 options, etc) and
return true of false to signify its support.
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Crypto offload mode:
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When ready to send, the driver needs to inspect the Tx packet for the
offload information, including the opaque context, and set up the packet
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send accordingly::
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xs = xfrm_input_state(skb);
context = xs->xso.offload_handle;
set up HW for send
The stack has already inserted the appropriate IPsec headers in the
packet data, the offload just needs to do the encryption and fix up the
header values.
When a packet is received and the HW has indicated that it offloaded a
decryption, the driver needs to add a reference to the decoded SA into
the packet's skb. At this point the data should be decrypted but the
IPsec headers are still in the packet data; they are removed later up
the stack in xfrm_input().
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find and hold the SA that was used to the Rx skb::
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get spi, protocol, and destination IP from packet headers
xs = find xs from (spi, protocol, dest_IP)
xfrm_state_hold(xs);
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store the state information into the skb::
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sp = secpath_set(skb);
if (!sp) return;
sp->xvec[sp->len++] = xs;
sp->olen++;
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indicate the success and/or error status of the offload::
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xo = xfrm_offload(skb);
xo->flags = CRYPTO_DONE;
xo->status = crypto_status;
hand the packet to napi_gro_receive() as usual
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In ESN mode, xdo_dev_state_advance_esn() is called from xfrm_replay_advance_esn().
Driver will check packet seq number and update HW ESN state machine if needed.
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Packet offload mode:
HW adds and deletes XFRM headers. So in RX path, XFRM stack is bypassed if HW
reported success. In TX path, the packet lefts kernel without extra header
and not encrypted, the HW is responsible to perform it.
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When the SA is removed by the user, the driver's xdo_dev_state_delete()
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and xdo_dev_policy_delete() are asked to disable the offload. Later,
xdo_dev_state_free() and xdo_dev_policy_free() are called from a garbage
collection routine after all reference counts to the state and policy
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have been removed and any remaining resources can be cleared for the
offload state. How these are used by the driver will depend on specific
hardware needs.
As a netdev is set to DOWN the XFRM stack's netdev listener will call
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xdo_dev_state_delete(), xdo_dev_policy_delete(), xdo_dev_state_free() and
xdo_dev_policy_free() on any remaining offloaded states.
Outcome of HW handling packets, the XFRM core can't count hard, soft limits.
The HW/driver are responsible to perform it and provide accurate data when
xdo_dev_state_update_curlft() is called. In case of one of these limits
occuried, the driver needs to call to xfrm_state_check_expire() to make sure
that XFRM performs rekeying sequence.