[dpdk-dev] [RFC] ethdev: reserve the RX offload most-significant bits for PMD scartch

Wang, Haiyue haiyue.wang at intel.com
Fri Jun 21 09:37:40 CEST 2019


Then this is not so generic if a workaround is needed. In other words, no one is so perfect. ☺

BR,
Haiyue

From: Andrew Rybchenko [mailto:arybchenko at solarflare.com]
Sent: Friday, June 21, 2019 15:34
To: Wang, Haiyue <haiyue.wang at intel.com>; dev at dpdk.org
Cc: Yigit, Ferruh <ferruh.yigit at intel.com>; Thomas Monjalon <thomas at monjalon.net>
Subject: Re: [dpdk-dev] [RFC] ethdev: reserve the RX offload most-significant bits for PMD scartch

On 6/21/19 4:12 AM, Wang, Haiyue wrote:
Not so frightening in real world for an application to be aware of its NICs:
https://github.com/Juniper/contrail-vrouter/blob/master/dpdk/vr_dpdk_ethdev.c#L387<https://urldefense.proofpoint.com/v2/url?u=https-3A__github.com_Juniper_contrail-2Dvrouter_blob_master_dpdk_vr-5Fdpdk-5Fethdev.c-23L387&d=DwMGaQ&c=euGZstcaTDllvimEN8b7jXrwqOf-v5A_CdpgnVfiiMM&r=flTOx6Av679My7o_iScb5sOlLD68bpUyE2RUtfW3SWQ&m=XSIm84nALkE7O1aeqpJkVJJWzepVsGEJsTeiDCxoLK4&s=L1vEJ5GeVHbammKc0iJn0YdoeKf0GqeeNJy-q5xCi6E&e=>



In this particular case it is just a workaround for bonding and bnxt.
Driver name is provided and sufficient to make it possible when
absolutely required.



Yes, we need to avoid this kind of design.

BR,
Haiyue

From: Andrew Rybchenko [mailto:arybchenko at solarflare.com]
Sent: Friday, June 21, 2019 02:30
To: Wang, Haiyue <haiyue.wang at intel.com><mailto:haiyue.wang at intel.com>; dev at dpdk.org<mailto:dev at dpdk.org>
Cc: Yigit, Ferruh <ferruh.yigit at intel.com><mailto:ferruh.yigit at intel.com>; Thomas Monjalon <thomas at monjalon.net><mailto:thomas at monjalon.net>
Subject: Re: [dpdk-dev] [RFC] ethdev: reserve the RX offload most-significant bits for PMD scartch

CC ethdev maintainers

On 6/20/19 10:25 AM, Haiyue Wang wrote:

Generally speaking, the DEV_RX_OFFLOAD_xxx for RX offload capabilities

of a device is one-bit field definition, it has 64 different values at

most.



Nowdays the receiving queue of NIC has rich features not just checksum

offload, like it can extract the network protocol header fields to its

RX descriptors for quickly handling. But this kind of feature is not so

common, and it is hardware related. Normally, this can be done through

rte_devargs driver parameters, but the scope is per device. This is not

so nice for per queue design.



The per queue API 'rte_eth_rx_queue_setup' and data structure 'struct

rte_eth_rxconf' are stable now, and be common for all PMDs. For keeping

the ethdev API & ABI compatibility, and the application can make good

use of the NIC's specific features, reserving the most-significant bits

of RX offload seems an compromise method.



Then the PMDs redefine these bits as they want, all PMDs share the same

bit positions and expose their new definitions with the header file.



The experimental reserved bits number is 6 currently. Tt can be one-bit

for each features up to the the maximum number 6. It can also be some

bits encoding: e.g, 6 bits can stand for 63 maximum number of features.



We call these reserved bits as DEV_RX_OFFLOAD_PMD_SCRATCH. And the left

unused bits number is : 64 - 19 (currently defined) - 6 (PMD scartch) =

39.



This is not so nice for applications, they need to check PMD's driver

name for lookuping their DEV_RX_OFFLOAD_PMD_SCRATCH definitions. But it

is good for the applications to make use of the hardware compatibility.



Signed-off-by: Haiyue Wang <haiyue.wang at intel.com><mailto:haiyue.wang at intel.com>

I would say that it very bad for applications. It sounds like reserved bits
in registers which have meaning in fact and sometimes different meaning.
Of course, it is not that bad when rules are defined, but such kind of
features tend to spread and clutter up interfaces. IMHO, the feature is
really frightening.



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