在 2022/8/16 下午5:34, Heng Qi 写道:
From: Xuan Zhuo<[email protected]>

The purpose of this feature is to split the header and the payload of
the packet.

|                    receive buffer                                    |
|                       0th descriptor             | 1th descriptor    |
| virtnet hdr | mac | ip hdr | tcp hdr|<-- hold -->|   payload         |

We can use a buffer plus a separate page when allocating the receive
buffer. In this way, we can ensure that all payloads can be
independently in a page, which is very beneficial for the zerocopy
implemented by the upper layer.

Signed-off-by: Xuan Zhuo<[email protected]>
Signed-off-by: Heng Qi<[email protected]>
Reviewed-by: Kangjie Xu<[email protected]>
---
v7:
        1. Fix some presentation issues.
        2. Use "split transport header". @Jason Wang
        3. Clarify some paragraphs. @Cornelia Huck
        4. determine the device what to do if it does not perform header split 
on a packet.

v6:
        1. Fix some syntax issues. @Cornelia Huck
        2. Clarify some paragraphs. @Cornelia Huck
        3. Determine the device what to do if it does not perform header split 
on a packet.

v5:
        1. Determine when hdr_len is credible in the process of rx
        2. Clean up the use of buffers and descriptors
        3. Clarify the meaning of used lenght if the first descriptor is 
skipped in the case of merge

v4:
        1. fix typo @Cornelia Huck @Jason Wang
        2. do not split header for IP fragmentation packet. @Jason Wang

v3:
        1. Fix some syntax issues
        2. Fix some terminology issues
        3. It is not unified with ip alignment, so ip alignment is not included
        4. Make it clear that the device must support four types, in the case 
of successful negotiation.

  conformance.tex |   2 ++
  content.tex     | 102 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++
  2 files changed, 104 insertions(+)

diff --git a/conformance.tex b/conformance.tex
index 2b86fc6..4e2b82e 100644
--- a/conformance.tex
+++ b/conformance.tex
@@ -150,6 +150,7 @@ \section{Conformance Targets}\label{sec:Conformance / 
Conformance Targets}
  \item \ref{drivernormative:Device Types / Network Device / Device Operation / 
Control Virtqueue / Offloads State Configuration / Setting Offloads State}
  \item \ref{drivernormative:Device Types / Network Device / Device Operation / 
Control Virtqueue / Receive-side scaling (RSS) }
  \item \ref{drivernormative:Device Types / Network Device / Device Operation / 
Control Virtqueue / Notifications Coalescing}
+\item \ref{drivernormative:Device Types / Network Device / Device Operation / 
Control Virtqueue / Split Transport Header}
  \end{itemize}
\conformance{\subsection}{Block Driver Conformance}\label{sec:Conformance / Driver Conformance / Block Driver Conformance}
@@ -415,6 +416,7 @@ \section{Conformance Targets}\label{sec:Conformance / 
Conformance Targets}
  \item \ref{devicenormative:Device Types / Network Device / Device Operation / 
Control Virtqueue / Automatic receive steering in multiqueue mode}
  \item \ref{devicenormative:Device Types / Network Device / Device Operation / 
Control Virtqueue / Receive-side scaling (RSS) / RSS processing}
  \item \ref{devicenormative:Device Types / Network Device / Device Operation / 
Control Virtqueue / Notifications Coalescing}
+\item \ref{devicenormative:Device Types / Network Device / Device Operation / 
Control Virtqueue / Split Transport Header}
  \end{itemize}
\conformance{\subsection}{Block Device Conformance}\label{sec:Conformance / Device Conformance / Block Device Conformance}
diff --git a/content.tex b/content.tex
index e863709..5676da9 100644
--- a/content.tex
+++ b/content.tex
@@ -3084,6 +3084,9 @@ \subsection{Feature bits}\label{sec:Device Types / 
Network Device / Feature bits
  \item[VIRTIO_NET_F_CTRL_MAC_ADDR(23)] Set MAC address through control
      channel.
+\item[VIRTIO_NET_F_SPLIT_TRANSPORT_HEADER (52)] Device supports splitting
+    the transport header and the payload.
+
  \item[VIRTIO_NET_F_NOTF_COAL(53)] Device supports notifications coalescing.
\item[VIRTIO_NET_F_GUEST_USO4 (54)] Driver can receive USOv4 packets.
@@ -3140,6 +3143,7 @@ \subsubsection{Feature bit requirements}\label{sec:Device 
Types / Network Device
  \item[VIRTIO_NET_F_NOTF_COAL] Requires VIRTIO_NET_F_CTRL_VQ.
  \item[VIRTIO_NET_F_RSC_EXT] Requires VIRTIO_NET_F_HOST_TSO4 or 
VIRTIO_NET_F_HOST_TSO6.
  \item[VIRTIO_NET_F_RSS] Requires VIRTIO_NET_F_CTRL_VQ.
+\item[VIRTIO_NET_F_SPLIT_TRANSPORT_HEADER] Requires VIRTIO_NET_F_CTRL_VQ.
  \end{description}
\subsubsection{Legacy Interface: Feature bits}\label{sec:Device Types / Network Device / Feature bits / Legacy Interface: Feature bits}
@@ -3371,6 +3375,7 @@ \subsection{Device Operation}\label{sec:Device Types / 
Network Device / Device O
  #define VIRTIO_NET_HDR_F_NEEDS_CSUM    1
  #define VIRTIO_NET_HDR_F_DATA_VALID    2
  #define VIRTIO_NET_HDR_F_RSC_INFO      4
+#define VIRTIO_NET_HDR_F_SPLIT_TRANSPORT_HEADER  8
          u8 flags;
  #define VIRTIO_NET_HDR_GSO_NONE        0
  #define VIRTIO_NET_HDR_GSO_TCPV4       1
@@ -3823,6 +3828,11 @@ \subsubsection{Processing of Incoming 
Packets}\label{sec:Device Types / Network
  been negotiated, the driver MAY use \field{hdr_len} only as a hint about the
  transport header size.
  The driver MUST NOT rely on \field{hdr_len} to be correct.
+
+If the VIRTIO_NET_HDR_F_SPLIT_TRANSPORT_HEADER bit in \field{flags} is set,
+the driver SHOULD treat the \field{hdr_len} as the length of the transport 
header
+inside the first descriptor.
+
  \begin{note}
  This is due to various bugs in implementations.
  \end{note}
@@ -4483,6 +4493,98 @@ \subsubsection{Control Virtqueue}\label{sec:Device Types 
/ Network Device / Devi
  according to the native endian of the guest rather than
  (necessarily when not using the legacy interface) little-endian.
+\paragraph{Split Transport Header}\label{sec:Device Types / Network Device / Device Operation / Control Virtqueue / Split Transport Header}
+
+If the VIRTIO_NET_F_SPLIT_TRANSPORT_HEADER feature is negotiated,
+the device supports splitting the transport header and the payload.
+The transport header and the payload will be separated into different
+descriptors.
+
+\subparagraph{Split Transport Header}\label{sec:Device Types / Network Device 
/ Device Operation / Control Virtqueue / Split Transport Header / Setting Split 
Transport Header}
+
+To configure the split transport header, the following layout structure and 
definitions
+are used:
+
+\begin{lstlisting}
+struct virtio_net_split_transport_header_config {
+#define VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_TCP4     (1 << 0)
+#define VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_TCP6     (1 << 1)
+#define VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_UDP4     (1 << 2)
+#define VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_UDP6     (1 << 3)
+    le64 type;
+};
+
+#define VIRTIO_NET_CTRL_SPLIT_TRANSPORT_HEADER       6
+ #define VIRTIO_NET_CTRL_SPLIT_TRANSPORT_HEADER_SET   0
+\end{lstlisting}
+
+The class VIRTIO_NET_CTRL_SPLIT_TRANSPORT_HEADER has one command:
+VIRTIO_NET_CTRL_SPLIT_TRANSPORT_HEADER_SET applies the new split transport 
header configuration.
+
+The driver can enable or disable split transport header for different 
protocols by
+setting or clearing corresponding bits in \field{type}.
+
+\begin{itemize}
+    \item VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_TCP4: split after ipv4 tcp 
header
+    \item VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_TCP6: split after ipv6 tcp 
header
+    \item VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_UDP4: split after ipv4 udp 
header
+    \item VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_UDP6: split after ipv6 udp 
header
+\end{itemize}
+
+\devicenormative{\subparagraph}{Setting Split Transport Header}{Device Types / 
Network Device / Device Operation / Control Virtqueue / Split Transport Header}
+
+A device MUST initialize \field{type} to 0, and MUST set it to 0
+upon device reset.
+
+If VIRTIO_NET_F_SPLIT_TRANSPORT_HEADER is negotiated, the device MUST support
+VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_TCP4, 
VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_TCP6,
+VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_UDP4, 
VIRTIO_NET_SPLIT_TRANSPORT_HEADER_TYPE_UDP6.
+
+A device MUST NOT split the transport header if it encounters any of the 
following cases:
+\begin{itemize}
+    \item the device does not recognize the protocol of the packet.
+    \item the packet is an IP fragmentation.
+    \item \field{type} does not include the protocol of the packet.
+    \item the buffer consists of only one descriptor.
+    \item the total size of the virtio net header and the transport header 
exceeds
+        the size of the first descriptor.
+    \item when VIRTIO_NET_F_MRG_RXBUF is not negotiated and the size of the
+        payload exceeds the size of the descriptor chain starting from the 2nd
+        descriptor.
+\end{itemize}
+
+If the header is split by the device, the 
VIRTIO_NET_HDR_F_SPLIT_TRANSPORT_HEADER bit
+in \field{flags} MUST be set. The transport header MUST be on the first
+descriptor, following the virtio net header. The payload MUST start from the
+second descriptor. The device MUST set \field{hdr_len} of structure
+virtio_net_hdr to the length of the transport header.
+
+If all of the following applies:
+\begin{itemize}
+    \item the header is split by the device.
+    \item VIRTIO_NET_F_MRG_RXBUF has been negotiated.
+    \item the received packet is spread over multiple buffers.
+\end {itemize}
+then if the device uses the buffers after the 1st buffer, and the buffer
+consists of multiple descriptors, the device MUST skip the first descriptor,
+because the first descriptor is used to carry the transport header.
+The used length still reports the number of bytes it has written to memory.
+
+If VIRTIO_NET_F_SPLIT_TRANSPORT_HEADER is negotiated, but the device does not 
split the
+virtio net header and the transport header, and the buffer consists of at 
least two
+descriptors, the device MUST start with the first descriptor to store the 
packet, and
+MUST NOT set the VIRTIO_NET_HDR_F_SPLIT_TRANSPORT_HEADER bit in \field{flags}.
+
+\drivernormative{\subparagraph}{Setting Split Transport Header}{Device Types / 
Network Device / Device Operation / Control Virtqueue / Split Transport Header}
+
+If the VIRTIO_NET_HDR_F_SPLIT_TRANSPORT_HEADER bit in \field{flags} is set, 
the driver
+MUST treat the contents of \field{hdr_len} as the length of the transport 
header
+inside the first descriptor.
+
+If the split transport header is enabled, the buffers submitted to receiveq by 
the
+driver MUST be composed of at least two descriptors.
+When the buffer consists of two descriptors, the length of the first
+descriptor MUST be greater than the one of the virtio net header.
\paragraph{Notifications Coalescing}\label{sec:Device Types / Network Device / Device Operation / Control Virtqueue / Notifications Coalescing}


Then we reconsider an idea that implements split header based on mergeable buffers instead of desciptor chains.

1.

Instead of filling the receiveq with a descriptor chain consisting of a small buffer and a separate page, we fill a separate page each time like this:(In this scenario, the split header relies on VIRTIO_NET_F_MRG_RXBUF)If VIRTIO_NET_F_SPLIT_TRANSPORT_HEADER is negotiated and the packet can be successfully split by the device, the device needs to find at least two buffers, namely two pages, one for the virtio-net header and the transport header, and the other for the payload. Like the following: | receive buffer(page) | receive buffer(page) | | virtnet hdr | mac | ip hdr | tcp hdr|<-- hold -->| payload |

Compared with the original solution, this method wastes a lot of memory in the first buffer, which may affect the performance of receiving packets. But we can copy the header in the first buffer through a small buffer to release pages quickly .

2.

At the same time, if XDP is considered, then the device needs to add headroom at the beginning of the first buffer when receiving packets, so that the driver can process programs similar to XDP. To solve this problem, can we introduce an offset that requires the device to write data from the offset position for the first buffer, like the following: | receive buffer(page) | receive buffer(page) | | <-- offset --> | virtnet hdr | mac | ip hdr | tcp hdr|<-- hold -->| payload | 3. Based on the above headroom, can we consider introducing a tailroom, which requires the device to start writing data with a length of max_len from the offset position of the first buffer, thereby leaving space for structures such as shared_info. Split header is suitable for high-throughput scenarios, tailroom can directly and intuitively organize multi-buffer data together, and XDP is also based on tailroom to support multi-buffer. Thanks.

Reply via email to