docs: networking: timestamping: update for DSA switches

Update timestamping doc for DSA switches to describe current
implementation accurately. On TX, the skb cloning is no longer
in DSA generic code.
Signed-off-by: Yangbo Lu <yangbo.lu@nxp.com>
Acked-by: Richard Cochran <richardcochran@gmail.com>
Signed-off-by: David S. Miller <davem@davemloft.net>

Documentation/networking/timestamping.rst

@@ -630,30 +630,45 @@ hardware timestamping on it. This is because the SO_TIMESTAMPING API does not
 allow the delivery of multiple hardware timestamps for the same packet, so
 anybody else except for the DSA switch port must be prevented from doing so.
 
-In code, DSA provides for most of the infrastructure for timestamping already,
-in generic code: a BPF classifier (``ptp_classify_raw``) is used to identify
-PTP event messages (any other packets, including PTP general messages, are not
-timestamped), and provides two hooks to drivers:
-
-- ``.port_txtstamp()``: The driver is passed a clone of the timestampable skb
-  to be transmitted, before actually transmitting it. Typically, a switch will
-  have a PTP TX timestamp register (or sometimes a FIFO) where the timestamp
-  becomes available. There may be an IRQ that is raised upon this timestamp's
-  availability, or the driver might have to poll after invoking
-  ``dev_queue_xmit()`` towards the host interface. Either way, in the
-  ``.port_txtstamp()`` method, the driver only needs to save the clone for
-  later use (when the timestamp becomes available). Each skb is annotated with
-  a pointer to its clone, in ``DSA_SKB_CB(skb)->clone``, to ease the driver's
-  job of keeping track of which clone belongs to which skb.
-
-- ``.port_rxtstamp()``: The original (and only) timestampable skb is provided
-  to the driver, for it to annotate it with a timestamp, if that is immediately
-  available, or defer to later. On reception, timestamps might either be
-  available in-band (through metadata in the DSA header, or attached in other
-  ways to the packet), or out-of-band (through another RX timestamping FIFO).
-  Deferral on RX is typically necessary when retrieving the timestamp needs a
-  sleepable context. In that case, it is the responsibility of the DSA driver
-  to call ``netif_rx_ni()`` on the freshly timestamped skb.
+In the generic layer, DSA provides the following infrastructure for PTP
+timestamping:
+
+- ``.port_txtstamp()``: a hook called prior to the transmission of
+  packets with a hardware TX timestamping request from user space.
+  This is required for two-step timestamping, since the hardware
+  timestamp becomes available after the actual MAC transmission, so the
+  driver must be prepared to correlate the timestamp with the original
+  packet so that it can re-enqueue the packet back into the socket's
+  error queue. To save the packet for when the timestamp becomes
+  available, the driver can call ``skb_clone_sk`` , save the clone pointer
+  in skb->cb and enqueue a tx skb queue. Typically, a switch will have a
+  PTP TX timestamp register (or sometimes a FIFO) where the timestamp
+  becomes available. In case of a FIFO, the hardware might store
+  key-value pairs of PTP sequence ID/message type/domain number and the
+  actual timestamp. To perform the correlation correctly between the
+  packets in a queue waiting for timestamping and the actual timestamps,
+  drivers can use a BPF classifier (``ptp_classify_raw``) to identify
+  the PTP transport type, and ``ptp_parse_header`` to interpret the PTP
+  header fields. There may be an IRQ that is raised upon this
+  timestamp's availability, or the driver might have to poll after
+  invoking ``dev_queue_xmit()`` towards the host interface.
+  One-step TX timestamping do not require packet cloning, since there is
+  no follow-up message required by the PTP protocol (because the
+  TX timestamp is embedded into the packet by the MAC), and therefore
+  user space does not expect the packet annotated with the TX timestamp
+  to be re-enqueued into its socket's error queue.
+
+- ``.port_rxtstamp()``: On RX, the BPF classifier is run by DSA to
+  identify PTP event messages (any other packets, including PTP general
+  messages, are not timestamped). The original (and only) timestampable
+  skb is provided to the driver, for it to annotate it with a timestamp,
+  if that is immediately available, or defer to later. On reception,
+  timestamps might either be available in-band (through metadata in the
+  DSA header, or attached in other ways to the packet), or out-of-band
+  (through another RX timestamping FIFO). Deferral on RX is typically
+  necessary when retrieving the timestamp needs a sleepable context. In
+  that case, it is the responsibility of the DSA driver to call
+  ``netif_rx_ni()`` on the freshly timestamped skb.
 
 3.2.2 Ethernet PHYs
 ^^^^^^^^^^^^^^^^^^^