mbox series

[RFC,00/10] Device Memory TCP

Message ID 20230710223304.1174642-1-almasrymina@google.com
Headers show
Series Device Memory TCP | expand

Message

Mina Almasry July 10, 2023, 10:32 p.m. UTC
* TL;DR:

Device memory TCP (devmem TCP) is a proposal for transferring data to and/or
from device memory efficiently, without bouncing the data to a host memory
buffer.

* Problem:

A large amount of data transfers have device memory as the source and/or
destination. Accelerators drastically increased the volume of such transfers.
Some examples include:
- ML accelerators transferring large amounts of training data from storage into
  GPU/TPU memory. In some cases ML training setup time can be as long as 50% of
  TPU compute time, improving data transfer throughput & efficiency can help
  improving GPU/TPU utilization.

- Distributed training, where ML accelerators, such as GPUs on different hosts,
  exchange data among them.

- Distributed raw block storage applications transfer large amounts of data with
  remote SSDs, much of this data does not require host processing.

Today, the majority of the Device-to-Device data transfers the network are
implemented as the following low level operations: Device-to-Host copy,
Host-to-Host network transfer, and Host-to-Device copy.

The implementation is suboptimal, especially for bulk data transfers, and can
put significant strains on system resources, such as host memory bandwidth,
PCIe bandwidth, etc. One important reason behind the current state is the
kernel’s lack of semantics to express device to network transfers. 

* Proposal:

In this patch series we attempt to optimize this use case by implementing
socket APIs that enable the user to:

1. send device memory across the network directly, and
2. receive incoming network packets directly into device memory.

Packet _payloads_ go directly from the NIC to device memory for receive and from
device memory to NIC for transmit.
Packet _headers_ go to/from host memory and are processed by the TCP/IP stack
normally. The NIC _must_ support header split to achieve this.

Advantages:

- Alleviate host memory bandwidth pressure, compared to existing
 network-transfer + device-copy semantics.

- Alleviate PCIe BW pressure, by limiting data transfer to the lowest level
  of the PCIe tree, compared to traditional path which sends data through the
  root complex.

With this proposal we're able to reach ~96.6% line rate speeds with data sent
and received directly from/to device memory.

* Patch overview:

** Part 1: struct paged device memory

Currently the standard for device memory sharing is DMABUF, which doesn't
generate struct pages. On the other hand, networking stack (skbs, drivers, and
page pool) operate on pages. We have 2 options:

1. Generate struct pages for dmabuf device memory, or,
2. Modify the networking stack to understand a new memory type.

This proposal implements option #1. We implement a small framework to generate
struct pages for an sg_table returned from dma_buf_map_attachment(). The support
added here should be generic and easily extended to other use cases interested
in struct paged device memory. We use this framework to generate pages that can
be used in the networking stack.

** Part 2: recvmsg() & sendmsg() APIs

We define user APIs for the user to send and receive these dmabuf pages.

** part 3: support for unreadable skb frags

Dmabuf pages are not accessible by the host; we implement changes throughput the
networking stack to correctly handle skbs with unreadable frags.

** part 4: page pool support

We piggy back on Jakub's page pool memory providers idea:
https://github.com/kuba-moo/linux/tree/pp-providers

It allows the page pool to define a memory provider that provides the
page allocation and freeing. It helps abstract most of the device memory TCP
changes from the driver.

This is not strictly necessary, the driver can choose to allocate dmabuf pages
and use them directly without going through the page pool (if acceptable to
their maintainers).

Not included with this RFC is the GVE devmem TCP support, just to
simplify the review. Code available here if desired:
https://github.com/mina/linux/tree/tcpdevmem

This RFC is built on top of v6.4-rc7 with Jakub's pp-providers changes
cherry-picked.

* NIC dependencies:

1. (strict) Devmem TCP require the NIC to support header split, i.e. the
   capability to split incoming packets into a header + payload and to put
   each into a separate buffer. Devmem TCP works by using dmabuf pages
   for the packet payload, and host memory for the packet headers.

2. (optional) Devmem TCP works better with flow steering support & RSS support,
   i.e. the NIC's ability to steer flows into certain rx queues. This allows the
   sysadmin to enable devmem TCP on a subset of the rx queues, and steer
   devmem TCP traffic onto these queues and non devmem TCP elsewhere.

The NIC I have access to with these properties is the GVE with DQO support
running in Google Cloud, but any NIC that supports these features would suffice.
I may be able to help reviewers bring up devmem TCP on their NICs.

* Testing:

The series includes a udmabuf kselftest that show a simple use case of
devmem TCP and validates the entire data path end to end without
a dependency on a specific dmabuf provider.

Not included in this series is our devmem TCP benchmark, which
transfers data to/from GPU dmabufs directly.

With this implementation & benchmark we're able to reach ~96.6% line rate
speeds with 4 GPU/NIC pairs running bi-direction traffic, with all the
packet payloads going straight to the GPU memory (no host buffer bounce).

** Test Setup

Kernel: v6.4-rc7, with this RFC and Jakub's memory provider API
cherry-picked locally.

Hardware: Google Cloud A3 VMs.

NIC: GVE with header split & RSS & flow steering support.

Benchmark: custom devmem TCP benchmark not yet open sourced.

Mina Almasry (10):
  dma-buf: add support for paged attachment mappings
  dma-buf: add support for NET_RX pages
  dma-buf: add support for NET_TX pages
  net: add support for skbs with unreadable frags
  tcp: implement recvmsg() RX path for devmem TCP
  net: add SO_DEVMEM_DONTNEED setsockopt to release RX pages
  tcp: implement sendmsg() TX path for for devmem tcp
  selftests: add ncdevmem, netcat for devmem TCP
  memory-provider: updates core provider API for devmem TCP
  memory-provider: add dmabuf devmem provider

 drivers/dma-buf/dma-buf.c              | 444 ++++++++++++++++
 include/linux/dma-buf.h                | 142 +++++
 include/linux/netdevice.h              |   1 +
 include/linux/skbuff.h                 |  34 +-
 include/linux/socket.h                 |   1 +
 include/net/page_pool.h                |  21 +
 include/net/sock.h                     |   4 +
 include/net/tcp.h                      |   6 +-
 include/uapi/asm-generic/socket.h      |   6 +
 include/uapi/linux/dma-buf.h           |  12 +
 include/uapi/linux/uio.h               |  10 +
 net/core/datagram.c                    |   3 +
 net/core/page_pool.c                   | 111 +++-
 net/core/skbuff.c                      |  81 ++-
 net/core/sock.c                        |  47 ++
 net/ipv4/tcp.c                         | 262 +++++++++-
 net/ipv4/tcp_input.c                   |  13 +-
 net/ipv4/tcp_ipv4.c                    |   8 +
 net/ipv4/tcp_output.c                  |   5 +-
 net/packet/af_packet.c                 |   4 +-
 tools/testing/selftests/net/.gitignore |   1 +
 tools/testing/selftests/net/Makefile   |   1 +
 tools/testing/selftests/net/ncdevmem.c | 693 +++++++++++++++++++++++++
 23 files changed, 1868 insertions(+), 42 deletions(-)
 create mode 100644 tools/testing/selftests/net/ncdevmem.c

Comments

Andy Lutomirski July 17, 2023, 2:41 a.m. UTC | #1
On 7/10/23 15:32, Mina Almasry wrote:
> * TL;DR:
> 
> Device memory TCP (devmem TCP) is a proposal for transferring data to and/or
> from device memory efficiently, without bouncing the data to a host memory
> buffer.

(I'm writing this as someone who might plausibly use this mechanism, but 
I don't think I'm very likely to end up working on the kernel side, 
unless I somehow feel extremely inspired to implement it for i40e.)

I looked at these patches and the GVE tree, and I'm trying to wrap my 
head around the data path.  As I understand it, for RX:

1. The GVE driver notices that the queue is programmed to use devmem, 
and it programs the NIC to copy packet payloads to the devmem that has 
been programmed.
2. The NIC receives the packet and copies the header to kernel memory 
and the payload to dma-buf memory.
3. The kernel tells userspace where in the dma-buf the data is.
4. Userspace does something with the data.
5. Userspace does DONTNEED to recycle the memory and make it available 
for new received packets.

Did I get this right?

This seems a bit awkward if there's any chance that packets not intended 
for the target device end up in the rxq.

I'm wondering if a more capable if somewhat higher latency model could 
work where the NIC stores received packets in its own device memory. 
Then userspace (or the kernel or a driver or whatever) could initiate a 
separate DMA from the NIC to the final target *after* reading the 
headers.  Can the hardware support this?

Another way of putting this is: steering received data to a specific 
device based on the *receive queue* forces the logic selecting a 
destination device to be the same as the logic selecting the queue.  RX 
steering logic is pretty limited on most hardware (as far as I know -- 
certainly I've never had much luck doing anything especially intelligent 
with RX flow steering, and I've tried on a couple of different brands of 
supposedly fancy NICs).  But Linux has very nice capabilities to direct 
packets, in software, to where they are supposed to go, and it would be 
nice if all that logic could just work, scalably, with device memory. 
If Linux could examine headers *before* the payload gets DMAed to 
wherever it goes, I think this could plausibly work quite nicely.  One 
could even have an easy-to-use interface in which one directs a *socket* 
to a PCIe device.  I expect, although I've never looked at the 
datasheets, that the kernel could even efficiently make rx decisions 
based on data in device memory on upcoming CXL NICs where device memory 
could participate in the host cache hierarchy.

My real ulterior motive is that I think it would be great to use an 
ability like this for DPDK-like uses.  Wouldn't it be nifty if I could 
open a normal TCP socket, then, after it's open, ask the kernel to 
kindly DMA the results directly to my application memory (via udmabuf, 
perhaps)?  Or have a whole VLAN or macvlan get directed to a userspace 
queue, etc?


It also seems a bit odd to me that the binding from rxq to dma-buf is 
established by programming the dma-buf.  This makes the security model 
(and the mental model) awkward -- this binding is a setting on the 
*queue*, not the dma-buf, and in a containerized or privilege-separated 
system, a process could have enough privilege to make a dma-buf 
somewhere but not have any privileges on the NIC.  (And may not even 
have the NIC present in its network namespace!)

--Andy
Jakub Kicinski July 18, 2023, 5:32 p.m. UTC | #2
On Sun, 16 Jul 2023 19:41:28 -0700 Andy Lutomirski wrote:
> I'm wondering if a more capable if somewhat higher latency model could 
> work where the NIC stores received packets in its own device memory. 
> Then userspace (or the kernel or a driver or whatever) could initiate a 
> separate DMA from the NIC to the final target *after* reading the 
> headers.  Can the hardware support this?

No, no, that's impossible. SW response times are in 100s of usec (at
best) which at 200Gbps already means megabytes of data _per-queue_. 
Way more than the amount of buffer NICs will have.

The Rx application can bind to a IP addr + Port and then install
a one-sided-3-tuple (dst IP+proto+port) rule in the HW. Worst case
a full 5-tuple per flow.

Most NICs support OvS offloads with 100s of thousands of flows.
The steering should be bread and butter.

It does require splitting flows into separate data and control channels,
but it's the right trade-off - complexity should be on the SW side.
Mina Almasry July 18, 2023, 5:36 p.m. UTC | #3
On Sun, Jul 16, 2023 at 7:41 PM Andy Lutomirski <luto@kernel.org> wrote:
>
> On 7/10/23 15:32, Mina Almasry wrote:
> > * TL;DR:
> >
> > Device memory TCP (devmem TCP) is a proposal for transferring data to and/or
> > from device memory efficiently, without bouncing the data to a host memory
> > buffer.
>
> (I'm writing this as someone who might plausibly use this mechanism, but
> I don't think I'm very likely to end up working on the kernel side,
> unless I somehow feel extremely inspired to implement it for i40e.)
>
> I looked at these patches and the GVE tree, and I'm trying to wrap my
> head around the data path.  As I understand it, for RX:
>
> 1. The GVE driver notices that the queue is programmed to use devmem,
> and it programs the NIC to copy packet payloads to the devmem that has
> been programmed.
> 2. The NIC receives the packet and copies the header to kernel memory
> and the payload to dma-buf memory.
> 3. The kernel tells userspace where in the dma-buf the data is.
> 4. Userspace does something with the data.
> 5. Userspace does DONTNEED to recycle the memory and make it available
> for new received packets.
>
> Did I get this right?
>

Sorry for the late reply. I'm a bit buried working on the follow up to
this proposal: exploring using dma-bufs without pages.

Yes, this is completely correct.

> This seems a bit awkward if there's any chance that packets not intended
> for the target device end up in the rxq.
>

It does a bit. What happens in practice is that we use RSS to steer
general traffic away from the devmem queues, and we use flow steering
to steer specific flows to devem queues.

In the case where the RSS/flow steering configuration is done
incorrectly, the user would call recvmsg() on a devmem skb and if they
haven't specified the MSG_SOCK_DEVMEM flag they'd get an error.

> I'm wondering if a more capable if somewhat higher latency model could
> work where the NIC stores received packets in its own device memory.
> Then userspace (or the kernel or a driver or whatever) could initiate a
> separate DMA from the NIC to the final target *after* reading the
> headers.  Can the hardware support this?
>

Not that I know of. I guess Jakub also responded with the same.

> Another way of putting this is: steering received data to a specific
> device based on the *receive queue* forces the logic selecting a
> destination device to be the same as the logic selecting the queue.  RX
> steering logic is pretty limited on most hardware (as far as I know --
> certainly I've never had much luck doing anything especially intelligent
> with RX flow steering, and I've tried on a couple of different brands of
> supposedly fancy NICs).  But Linux has very nice capabilities to direct
> packets, in software, to where they are supposed to go, and it would be
> nice if all that logic could just work, scalably, with device memory.
> If Linux could examine headers *before* the payload gets DMAed to
> wherever it goes, I think this could plausibly work quite nicely.  One
> could even have an easy-to-use interface in which one directs a *socket*
> to a PCIe device.  I expect, although I've never looked at the
> datasheets, that the kernel could even efficiently make rx decisions
> based on data in device memory on upcoming CXL NICs where device memory
> could participate in the host cache hierarchy.
>
> My real ulterior motive is that I think it would be great to use an
> ability like this for DPDK-like uses.  Wouldn't it be nifty if I could
> open a normal TCP socket, then, after it's open, ask the kernel to
> kindly DMA the results directly to my application memory (via udmabuf,
> perhaps)?  Or have a whole VLAN or macvlan get directed to a userspace
> queue, etc?
>
>
> It also seems a bit odd to me that the binding from rxq to dma-buf is
> established by programming the dma-buf.

That is specific to this proposal, and will likely be very different
in future ones. I thought the dma-buf pages approach was extensible
and the uapi belonged somewhere in dma-buf. Clearly not. The next
proposal, I think, will program the rxq via some net uapi and will
take the dma-buf as input. Probably some netlink api (not sure if
ethtool family or otherwise). I'm working out details of this
non-paged networking first.

> This makes the security model
> (and the mental model) awkward -- this binding is a setting on the
> *queue*, not the dma-buf, and in a containerized or privilege-separated
> system, a process could have enough privilege to make a dma-buf
> somewhere but not have any privileges on the NIC.  (And may not even
> have the NIC present in its network namespace!)
>
> --Andy



--
Thanks,
Mina
Jason Gunthorpe July 18, 2023, 6:06 p.m. UTC | #4
On Tue, Jul 18, 2023 at 10:36:52AM -0700, Mina Almasry wrote:

> That is specific to this proposal, and will likely be very different
> in future ones. I thought the dma-buf pages approach was extensible
> and the uapi belonged somewhere in dma-buf. Clearly not. The next
> proposal, I think, will program the rxq via some net uapi and will
> take the dma-buf as input. Probably some netlink api (not sure if
> ethtool family or otherwise). I'm working out details of this
> non-paged networking first.

In practice you want the application to startup, get itself some 3/5
tuples and then request the kernel to setup the flow steering and
provision the NIC queues.

This is the right moment for the application to provide the backing
for the rx queue memory via a DMABUF handle.

Ideally this would all be accessible to non-priv applications as well,
so I think you'd want some kind of system call that sets all this up
and takes in a FD for the 3/5-tuple socket (to prove ownership over
the steering) and the DMABUF FD.

The queues and steering should exist only as long as the application
is still running (whatever that means). Otherwise you have a big mess
to clean up whenever anything crashes.

netlink feels like a weird API choice for that, in particular it would
be really wrong to somehow bind the lifecycle of a netlink object to a
process.

Further, if you are going to all the trouble of doing this, it seems
to me you should make it work with any kind of memory, including CPU
memory. Get a consistent approach to zero-copy TCP RX. So also allow a
memfd or similar to be passed in as the backing storage.

Jason
Jakub Kicinski July 18, 2023, 6:15 p.m. UTC | #5
On Tue, 18 Jul 2023 15:06:29 -0300 Jason Gunthorpe wrote:
> netlink feels like a weird API choice for that, in particular it would
> be really wrong to somehow bind the lifecycle of a netlink object to a
> process.

Netlink is the right API, life cycle of objects can be easily tied to
a netlink socket.
David Ahern July 18, 2023, 6:20 p.m. UTC | #6
On 7/18/23 12:15 PM, Jakub Kicinski wrote:
> On Tue, 18 Jul 2023 15:06:29 -0300 Jason Gunthorpe wrote:
>> netlink feels like a weird API choice for that, in particular it would
>> be really wrong to somehow bind the lifecycle of a netlink object to a
>> process.
> 
> Netlink is the right API, life cycle of objects can be easily tied to
> a netlink socket.

That is an untuitive connection -- memory references, h/w queues, flow
steering should be tied to the datapath socket, not a control plane socket.
Jakub Kicinski July 18, 2023, 6:29 p.m. UTC | #7
On Tue, 18 Jul 2023 12:20:59 -0600 David Ahern wrote:
> On 7/18/23 12:15 PM, Jakub Kicinski wrote:
> > On Tue, 18 Jul 2023 15:06:29 -0300 Jason Gunthorpe wrote:  
> >> netlink feels like a weird API choice for that, in particular it would
> >> be really wrong to somehow bind the lifecycle of a netlink object to a
> >> process.  
> > 
> > Netlink is the right API, life cycle of objects can be easily tied to
> > a netlink socket.  
> 
> That is an untuitive connection -- memory references, h/w queues, flow
> steering should be tied to the datapath socket, not a control plane socket.

There's one RSS context for may datapath sockets. Plus a lot of the
APIs already exist, and it's more of a question of packaging them up 
at the user space level. For things which do not have an API, however,
netlink, please.
David Ahern July 18, 2023, 10:35 p.m. UTC | #8
On 7/18/23 12:29 PM, Jakub Kicinski wrote:
> On Tue, 18 Jul 2023 12:20:59 -0600 David Ahern wrote:
>> On 7/18/23 12:15 PM, Jakub Kicinski wrote:
>>> On Tue, 18 Jul 2023 15:06:29 -0300 Jason Gunthorpe wrote:  
>>>> netlink feels like a weird API choice for that, in particular it would
>>>> be really wrong to somehow bind the lifecycle of a netlink object to a
>>>> process.  
>>>
>>> Netlink is the right API, life cycle of objects can be easily tied to
>>> a netlink socket.  
>>
>> That is an untuitive connection -- memory references, h/w queues, flow
>> steering should be tied to the datapath socket, not a control plane socket.
> 
> There's one RSS context for may datapath sockets. Plus a lot of the
> APIs already exist, and it's more of a question of packaging them up 
> at the user space level. For things which do not have an API, however,
> netlink, please.

I do not see how 1 RSS context (or more specifically a h/w Rx queue) can
be used properly with memory from different processes (or dma-buf
references). When the process dies, that memory needs to be flushed from
the H/W queues. Queues with interlaced submissions make that more
complicated.

I guess the devil is in the details; I look forward to the evolution of
the patches.
Jakub Kicinski July 18, 2023, 10:45 p.m. UTC | #9
On Tue, 18 Jul 2023 16:35:17 -0600 David Ahern wrote:
> I do not see how 1 RSS context (or more specifically a h/w Rx queue) can
> be used properly with memory from different processes (or dma-buf
> references). When the process dies, that memory needs to be flushed from
> the H/W queues. Queues with interlaced submissions make that more
> complicated.

Agreed, one process, one control path socket.

FWIW the rtnetlink use of netlink is very basic. genetlink already has
some infra which allows associate state with a user socket and cleaning
it up when the socket gets closed. This needs some improvements. A bit
of a chicken and egg problem, I can't make the improvements until there
are families making use of it, and nobody will make use of it until
it's in tree... But the basics are already in place and I can help with
building it out.

> I guess the devil is in the details; I look forward to the evolution of
> the patches.

+1
Mina Almasry July 19, 2023, 3:10 p.m. UTC | #10
On Tue, Jul 18, 2023 at 3:45 PM Jakub Kicinski <kuba@kernel.org> wrote:
>
> On Tue, 18 Jul 2023 16:35:17 -0600 David Ahern wrote:
> > I do not see how 1 RSS context (or more specifically a h/w Rx queue) can
> > be used properly with memory from different processes (or dma-buf
> > references).

Right, my experience with dma-bufs from GPUs are that they're
allocated from the userspace and owned by the process that allocated
the backing GPU memory and generated the dma-buf from it. I.e., we're
limited to 1 dma-buf per RX queue. If we enable binding multiple
dma-bufs to the same RX queue, we have a problem, because AFAIU the
NIC can't decide which dma-buf to put the packet into (it hasn't
parsed the packet's destination yet).

> > When the process dies, that memory needs to be flushed from
> > the H/W queues. Queues with interlaced submissions make that more
> > complicated.
>

When the process dies, do we really want to flush the memory from the
hardware queues? The drivers I looked at don't seem to have a function
to flush the rx queues alone, they usually do an entire driver reset
to achieve that. Not sure if that's just convenience or there is some
technical limitation there. Do we really want  to trigger a driver
reset at the event a userspace process crashes?

> Agreed, one process, one control path socket.
>
> FWIW the rtnetlink use of netlink is very basic. genetlink already has
> some infra which allows associate state with a user socket and cleaning
> it up when the socket gets closed. This needs some improvements. A bit
> of a chicken and egg problem, I can't make the improvements until there
> are families making use of it, and nobody will make use of it until
> it's in tree... But the basics are already in place and I can help with
> building it out.
>

I had this approach in mind (which doesn't need netlink improvements)
for the next POC. It's mostly inspired by the comments from the cover
letter of Jakub's memory-provider RFC, if I understood it correctly.
I'm sure there's going to be some iteration, but roughly:

1. A netlink CAP_NET_ADMIN API which binds the dma-buf to any number
of rx queues on 1 NIC. It will do the dma_buf_attach() and
dma_buf_map_attachment() and leave some indicator in the struct
net_device to tell the NIC that it's bound to a dma-buf. The actual
binding doesn't actuate until the next driver reset. The API, I guess,
can cause a driver reset (or just a refill of the rx queues, if you
think that's feasible) as well to streamline things a bit. The API
returns a file handle to the user representing that binding.

2. On the driver reset, the driver notices that its struct net_device
is bound to a dma-buf, and sets up the dma-buf memory-provider instead
of the basic one which provides host memory.

3. The user can close the file handle received in #1 to unbind the
dma-buf from the rx queues. Or if the user crashes, the kernel closes
the handle for us. The unbind doesn't take effect until the next
flushing or rx queues, or the next driver reset (not sure the former
is feasible).

4. The dma-buf memory provider keeps the dma buf mapping alive until
the next driver reset, where all the dma-buf slices are freed, and the
dma buf attachment mapping can be unmapped.

I'm thinking the user sets up RSS and flow steering outside this API
using existing ethtool APIs, but things can be streamlined a bit by
doing some of these RSS/flow steering steps in cohesion with the
dma-buf binding/unbinding. The complication with setting up flow
steering in cohesion with dma-buf bind unbind is that the application
may start more connections after the bind, and it will need to install
flow steering rules for those too, and use the ethtool api for that.
May as well use the ethtool apis for all of it...?
Stephen Hemminger July 19, 2023, 5:57 p.m. UTC | #11
On Wed, 19 Jul 2023 08:10:58 -0700
Mina Almasry <almasrymina@google.com> wrote:

> On Tue, Jul 18, 2023 at 3:45 PM Jakub Kicinski <kuba@kernel.org> wrote:
> >
> > On Tue, 18 Jul 2023 16:35:17 -0600 David Ahern wrote:  
> > > I do not see how 1 RSS context (or more specifically a h/w Rx queue) can
> > > be used properly with memory from different processes (or dma-buf
> > > references).  
> 
> Right, my experience with dma-bufs from GPUs are that they're
> allocated from the userspace and owned by the process that allocated
> the backing GPU memory and generated the dma-buf from it. I.e., we're
> limited to 1 dma-buf per RX queue. If we enable binding multiple
> dma-bufs to the same RX queue, we have a problem, because AFAIU the
> NIC can't decide which dma-buf to put the packet into (it hasn't
> parsed the packet's destination yet).
> 
> > > When the process dies, that memory needs to be flushed from
> > > the H/W queues. Queues with interlaced submissions make that more
> > > complicated.  
> >  
> 
> When the process dies, do we really want to flush the memory from the
> hardware queues? The drivers I looked at don't seem to have a function
> to flush the rx queues alone, they usually do an entire driver reset
> to achieve that. Not sure if that's just convenience or there is some
> technical limitation there. Do we really want  to trigger a driver
> reset at the event a userspace process crashes?

Naive idea.
Would it be possible for process to use mmap() on the GPU memory and then
do zero copy TCP receive some how? Or is this what is being proposed.
Jakub Kicinski July 19, 2023, 8:36 p.m. UTC | #12
On Wed, 19 Jul 2023 08:10:58 -0700 Mina Almasry wrote:
> From Jakub and David's comments it sounds (if I understood correctly),
> you'd like to tie the dma-buf bind/unbind functions to the lifetime of
> a netlink socket, rather than a struct file like I was thinking. That
> does sound cleaner, but I'm not sure how. Can you link me to any
> existing code examples? Or rough pointers to any existing code?

I don't have a strong preference whether the lifetime is bound to 
the socket or not. My main point was that if we're binding lifetimes
to processes, it should be done via netlink sockets, not special-
-purpose FDs. Inevitably more commands and info will be needed and
we'll start reinventing the uAPI wheel which is Netlink.

Currently adding state to netlink sockets is a bit raw. You can create
an Xarray which stores the per socket state using socket's portid
(genl_info->snd_portid) and use netlink_register_notifier() to get
notifications when sockets are closed.
Jason Gunthorpe July 19, 2023, 11:24 p.m. UTC | #13
On Wed, Jul 19, 2023 at 10:57:11AM -0700, Stephen Hemminger wrote:

> Naive idea.
> Would it be possible for process to use mmap() on the GPU memory and then
> do zero copy TCP receive some how? Or is this what is being proposed.

It could be possible, but currently there is no API to recover the
underlying dmabuf from the VMA backing the mmap.

Also you can't just take arbitary struct pages from any old VMA and
make them "netmem"

Jason
Christian König July 27, 2023, 11:40 a.m. UTC | #14
Am 20.07.23 um 01:24 schrieb Jason Gunthorpe:
> On Wed, Jul 19, 2023 at 10:57:11AM -0700, Stephen Hemminger wrote:
>
>> Naive idea.
>> Would it be possible for process to use mmap() on the GPU memory and then
>> do zero copy TCP receive some how? Or is this what is being proposed.
> It could be possible, but currently there is no API to recover the
> underlying dmabuf from the VMA backing the mmap.

Sorry for being a bit late, have been on vacation.

Well actually this was discussed before to work around problems with 
Windows applications through wine/proton.

Not 100% sure what the outcome of that was, but if I'm not completely 
mistaken getting the fd behind a VMA should be possible.

It might just not be the DMA-buf fd, because we use mmap() re-routing to 
be able to work around problems with the reverse tracking of mappings.

Christian.

>
> Also you can't just take arbitary struct pages from any old VMA and
> make them "netmem"
>
> Jason
> _______________________________________________
> Linaro-mm-sig mailing list -- linaro-mm-sig@lists.linaro.org
> To unsubscribe send an email to linaro-mm-sig-leave@lists.linaro.org