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[v5,0/3] Recycle buffers from Tx to Rx

Message ID 20230330062939.1206267-1-feifei.wang2@arm.com (mailing list archive)
Headers

Message

Feifei Wang March 30, 2023, 6:29 a.m. UTC
Currently, the transmit side frees the buffers into the lcore cache and
the receive side allocates buffers from the lcore cache. The transmit
side typically frees 32 buffers resulting in 32*8=256B of stores to
lcore cache. The receive side allocates 32 buffers and stores them in
the receive side software ring, resulting in 32*8=256B of stores and
256B of load from the lcore cache.

This patch proposes a mechanism to avoid freeing to/allocating from
the lcore cache. i.e. the receive side will free the buffers from
transmit side directly into its software ring. This will avoid the 256B
of loads and stores introduced by the lcore cache. It also frees up the
cache lines used by the lcore cache. And we can call this mode as buffer
recycle mode.

In the latest version, buffer recycle mode is packaged as a separate API. 
This allows for the users to change rxq/txq pairing in real time in data plane,
according to the analysis of the packet flow by the application, for example:
-----------------------------------------------------------------------
Step 1: upper application analyse the flow direction
Step 2: rxq_buf_recycle_info = rte_eth_rx_buf_recycle_info_get(rx_portid, rx_queueid)
Step 3: rte_eth_dev_buf_recycle(rx_portid, rx_queueid, tx_portid, tx_queueid, rxq_buf_recycle_info);
Step 4: rte_eth_rx_burst(rx_portid,rx_queueid);
Step 5: rte_eth_tx_burst(tx_portid,tx_queueid);
-----------------------------------------------------------------------
Above can support user to change rxq/txq pairing  at runtime and user does not need to
know the direction of flow in advance. This can effectively expand buffer recycle mode's
use scenarios.

Furthermore, buffer recycle mode is no longer limited to the same pmd,
it can support moving buffers between different vendor pmds, even can put the buffer
anywhere into your Rx buffer ring as long as the address of the buffer ring can be provided.
In the latest version, we enable direct-rearm in i40e pmd and ixgbe pmd, and also try to
use i40e driver in Rx, ixgbe driver in Tx, and then achieve 7-9% performance improvement
by buffer recycle mode.

Difference between buffer recycle, ZC API used in mempool and general path
For general path: 
                Rx: 32 pkts memcpy from mempool cache to rx_sw_ring
                Tx: 32 pkts memcpy from tx_sw_ring to temporary variable + 32 pkts memcpy from temporary variable to mempool cache
For ZC API used in mempool:
                Rx: 32 pkts memcpy from mempool cache to rx_sw_ring
                Tx: 32 pkts memcpy from tx_sw_ring to zero-copy mempool cache
                Refer link: http://patches.dpdk.org/project/dpdk/patch/20230221055205.22984-2-kamalakshitha.aligeri@arm.com/
For buffer recycle:
                Rx/Tx: 32 pkts memcpy from tx_sw_ring to rx_sw_ring
Thus we can see in the one loop, compared to general path, buffer recycle reduce 32+32=64 pkts memcpy;
Compared to ZC API used in mempool, we can see buffer recycle reduce 32 pkts memcpy in each loop.
So, buffer recycle has its own benefits.

Testing status:
(1) dpdk l3fwd test with multiple drivers:
    port 0: 82599 NIC   port 1: XL710 NIC
-------------------------------------------------------------
		Without fast free	With fast free
Thunderx2:      +7.53%	                +13.54%
-------------------------------------------------------------

(2) dpdk l3fwd test with same driver:
    port 0 && 1: XL710 NIC
-------------------------------------------------------------
		Without fast free	With fast free
Ampere altra:   +12.61%		        +11.42%
n1sdp:		+8.30%			+3.85%
x86-sse:	+8.43%			+3.72%
-------------------------------------------------------------

(3) Performance comparison with ZC_mempool used
    port 0 && 1: XL710 NIC
    with fast free
-------------------------------------------------------------
		With recycle buffer	With zc_mempool
Ampere altra:	11.42%			3.54%
-------------------------------------------------------------

V2:
1. Use data-plane API to enable direct-rearm (Konstantin, Honnappa)
2. Add 'txq_data_get' API to get txq info for Rx (Konstantin)
3. Use input parameter to enable direct rearm in l3fwd (Konstantin)
4. Add condition detection for direct rearm API (Morten, Andrew Rybchenko)

V3:
1. Seperate Rx and Tx operation with two APIs in direct-rearm (Konstantin)
2. Delete L3fwd change for direct rearm (Jerin)
3. enable direct rearm in ixgbe driver in Arm

v4:
1. Rename direct-rearm as buffer recycle. Based on this, function name
and variable name are changed to let this mode more general for all
drivers. (Konstantin, Morten)
2. Add ring wrapping check (Konstantin)

v5:
1. some change for ethdev API (Morten)
2. add support for avx2, sse, altivec path

Feifei Wang (3):
  ethdev: add API for buffer recycle mode
  net/i40e: implement recycle buffer mode
  net/ixgbe: implement recycle buffer mode

 drivers/net/i40e/i40e_ethdev.c   |   1 +
 drivers/net/i40e/i40e_ethdev.h   |   2 +
 drivers/net/i40e/i40e_rxtx.c     | 159 +++++++++++++++++++++
 drivers/net/i40e/i40e_rxtx.h     |   4 +
 drivers/net/ixgbe/ixgbe_ethdev.c |   1 +
 drivers/net/ixgbe/ixgbe_ethdev.h |   3 +
 drivers/net/ixgbe/ixgbe_rxtx.c   | 153 ++++++++++++++++++++
 drivers/net/ixgbe/ixgbe_rxtx.h   |   4 +
 lib/ethdev/ethdev_driver.h       |  10 ++
 lib/ethdev/ethdev_private.c      |   2 +
 lib/ethdev/rte_ethdev.c          |  33 +++++
 lib/ethdev/rte_ethdev.h          | 230 +++++++++++++++++++++++++++++++
 lib/ethdev/rte_ethdev_core.h     |  15 +-
 lib/ethdev/version.map           |   6 +
 14 files changed, 621 insertions(+), 2 deletions(-)