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138a7f4927
SOF_TIMESTAMPING_OPT_ID puts the id in ee_data, not ee_info. Cc: Willem de Bruijn <willemb@google.com> Signed-off-by: Andy Lutomirski <luto@amacapital.net> Acked-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net>
420 lines
17 KiB
Plaintext
420 lines
17 KiB
Plaintext
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1. Control Interfaces
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The interfaces for receiving network packages timestamps are:
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* SO_TIMESTAMP
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Generates a timestamp for each incoming packet in (not necessarily
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monotonic) system time. Reports the timestamp via recvmsg() in a
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control message as struct timeval (usec resolution).
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* SO_TIMESTAMPNS
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Same timestamping mechanism as SO_TIMESTAMP, but reports the
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timestamp as struct timespec (nsec resolution).
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* IP_MULTICAST_LOOP + SO_TIMESTAMP[NS]
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Only for multicast:approximate transmit timestamp obtained by
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reading the looped packet receive timestamp.
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* SO_TIMESTAMPING
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Generates timestamps on reception, transmission or both. Supports
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multiple timestamp sources, including hardware. Supports generating
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timestamps for stream sockets.
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1.1 SO_TIMESTAMP:
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This socket option enables timestamping of datagrams on the reception
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path. Because the destination socket, if any, is not known early in
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the network stack, the feature has to be enabled for all packets. The
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same is true for all early receive timestamp options.
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For interface details, see `man 7 socket`.
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1.2 SO_TIMESTAMPNS:
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This option is identical to SO_TIMESTAMP except for the returned data type.
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Its struct timespec allows for higher resolution (ns) timestamps than the
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timeval of SO_TIMESTAMP (ms).
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1.3 SO_TIMESTAMPING:
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Supports multiple types of timestamp requests. As a result, this
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socket option takes a bitmap of flags, not a boolean. In
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err = setsockopt(fd, SOL_SOCKET, SO_TIMESTAMPING, (void *) val, &val);
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val is an integer with any of the following bits set. Setting other
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bit returns EINVAL and does not change the current state.
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1.3.1 Timestamp Generation
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Some bits are requests to the stack to try to generate timestamps. Any
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combination of them is valid. Changes to these bits apply to newly
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created packets, not to packets already in the stack. As a result, it
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is possible to selectively request timestamps for a subset of packets
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(e.g., for sampling) by embedding an send() call within two setsockopt
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calls, one to enable timestamp generation and one to disable it.
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Timestamps may also be generated for reasons other than being
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requested by a particular socket, such as when receive timestamping is
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enabled system wide, as explained earlier.
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SOF_TIMESTAMPING_RX_HARDWARE:
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Request rx timestamps generated by the network adapter.
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SOF_TIMESTAMPING_RX_SOFTWARE:
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Request rx timestamps when data enters the kernel. These timestamps
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are generated just after a device driver hands a packet to the
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kernel receive stack.
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SOF_TIMESTAMPING_TX_HARDWARE:
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Request tx timestamps generated by the network adapter.
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SOF_TIMESTAMPING_TX_SOFTWARE:
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Request tx timestamps when data leaves the kernel. These timestamps
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are generated in the device driver as close as possible, but always
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prior to, passing the packet to the network interface. Hence, they
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require driver support and may not be available for all devices.
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SOF_TIMESTAMPING_TX_SCHED:
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Request tx timestamps prior to entering the packet scheduler. Kernel
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transmit latency is, if long, often dominated by queuing delay. The
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difference between this timestamp and one taken at
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SOF_TIMESTAMPING_TX_SOFTWARE will expose this latency independent
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of protocol processing. The latency incurred in protocol
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processing, if any, can be computed by subtracting a userspace
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timestamp taken immediately before send() from this timestamp. On
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machines with virtual devices where a transmitted packet travels
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through multiple devices and, hence, multiple packet schedulers,
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a timestamp is generated at each layer. This allows for fine
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grained measurement of queuing delay.
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SOF_TIMESTAMPING_TX_ACK:
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Request tx timestamps when all data in the send buffer has been
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acknowledged. This only makes sense for reliable protocols. It is
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currently only implemented for TCP. For that protocol, it may
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over-report measurement, because the timestamp is generated when all
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data up to and including the buffer at send() was acknowledged: the
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cumulative acknowledgment. The mechanism ignores SACK and FACK.
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1.3.2 Timestamp Reporting
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The other three bits control which timestamps will be reported in a
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generated control message. Changes to the bits take immediate
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effect at the timestamp reporting locations in the stack. Timestamps
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are only reported for packets that also have the relevant timestamp
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generation request set.
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SOF_TIMESTAMPING_SOFTWARE:
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Report any software timestamps when available.
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SOF_TIMESTAMPING_SYS_HARDWARE:
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This option is deprecated and ignored.
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SOF_TIMESTAMPING_RAW_HARDWARE:
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Report hardware timestamps as generated by
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SOF_TIMESTAMPING_TX_HARDWARE when available.
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1.3.3 Timestamp Options
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The interface supports one option
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SOF_TIMESTAMPING_OPT_ID:
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Generate a unique identifier along with each packet. A process can
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have multiple concurrent timestamping requests outstanding. Packets
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can be reordered in the transmit path, for instance in the packet
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scheduler. In that case timestamps will be queued onto the error
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queue out of order from the original send() calls. This option
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embeds a counter that is incremented at send() time, to order
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timestamps within a flow.
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This option is implemented only for transmit timestamps. There, the
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timestamp is always looped along with a struct sock_extended_err.
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The option modifies field ee_data to pass an id that is unique
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among all possibly concurrently outstanding timestamp requests for
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that socket. In practice, it is a monotonically increasing u32
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(that wraps).
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In datagram sockets, the counter increments on each send call. In
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stream sockets, it increments with every byte.
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1.4 Bytestream Timestamps
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The SO_TIMESTAMPING interface supports timestamping of bytes in a
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bytestream. Each request is interpreted as a request for when the
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entire contents of the buffer has passed a timestamping point. That
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is, for streams option SOF_TIMESTAMPING_TX_SOFTWARE will record
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when all bytes have reached the device driver, regardless of how
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many packets the data has been converted into.
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In general, bytestreams have no natural delimiters and therefore
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correlating a timestamp with data is non-trivial. A range of bytes
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may be split across segments, any segments may be merged (possibly
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coalescing sections of previously segmented buffers associated with
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independent send() calls). Segments can be reordered and the same
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byte range can coexist in multiple segments for protocols that
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implement retransmissions.
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It is essential that all timestamps implement the same semantics,
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regardless of these possible transformations, as otherwise they are
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incomparable. Handling "rare" corner cases differently from the
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simple case (a 1:1 mapping from buffer to skb) is insufficient
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because performance debugging often needs to focus on such outliers.
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In practice, timestamps can be correlated with segments of a
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bytestream consistently, if both semantics of the timestamp and the
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timing of measurement are chosen correctly. This challenge is no
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different from deciding on a strategy for IP fragmentation. There, the
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definition is that only the first fragment is timestamped. For
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bytestreams, we chose that a timestamp is generated only when all
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bytes have passed a point. SOF_TIMESTAMPING_TX_ACK as defined is easy to
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implement and reason about. An implementation that has to take into
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account SACK would be more complex due to possible transmission holes
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and out of order arrival.
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On the host, TCP can also break the simple 1:1 mapping from buffer to
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skbuff as a result of Nagle, cork, autocork, segmentation and GSO. The
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implementation ensures correctness in all cases by tracking the
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individual last byte passed to send(), even if it is no longer the
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last byte after an skbuff extend or merge operation. It stores the
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relevant sequence number in skb_shinfo(skb)->tskey. Because an skbuff
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has only one such field, only one timestamp can be generated.
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In rare cases, a timestamp request can be missed if two requests are
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collapsed onto the same skb. A process can detect this situation by
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enabling SOF_TIMESTAMPING_OPT_ID and comparing the byte offset at
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send time with the value returned for each timestamp. It can prevent
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the situation by always flushing the TCP stack in between requests,
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for instance by enabling TCP_NODELAY and disabling TCP_CORK and
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autocork.
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These precautions ensure that the timestamp is generated only when all
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bytes have passed a timestamp point, assuming that the network stack
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itself does not reorder the segments. The stack indeed tries to avoid
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reordering. The one exception is under administrator control: it is
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possible to construct a packet scheduler configuration that delays
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segments from the same stream differently. Such a setup would be
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unusual.
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2 Data Interfaces
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Timestamps are read using the ancillary data feature of recvmsg().
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See `man 3 cmsg` for details of this interface. The socket manual
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page (`man 7 socket`) describes how timestamps generated with
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SO_TIMESTAMP and SO_TIMESTAMPNS records can be retrieved.
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2.1 SCM_TIMESTAMPING records
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These timestamps are returned in a control message with cmsg_level
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SOL_SOCKET, cmsg_type SCM_TIMESTAMPING, and payload of type
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struct scm_timestamping {
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struct timespec ts[3];
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};
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The structure can return up to three timestamps. This is a legacy
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feature. Only one field is non-zero at any time. Most timestamps
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are passed in ts[0]. Hardware timestamps are passed in ts[2].
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ts[1] used to hold hardware timestamps converted to system time.
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Instead, expose the hardware clock device on the NIC directly as
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a HW PTP clock source, to allow time conversion in userspace and
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optionally synchronize system time with a userspace PTP stack such
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as linuxptp. For the PTP clock API, see Documentation/ptp/ptp.txt.
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2.1.1 Transmit timestamps with MSG_ERRQUEUE
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For transmit timestamps the outgoing packet is looped back to the
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socket's error queue with the send timestamp(s) attached. A process
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receives the timestamps by calling recvmsg() with flag MSG_ERRQUEUE
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set and with a msg_control buffer sufficiently large to receive the
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relevant metadata structures. The recvmsg call returns the original
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outgoing data packet with two ancillary messages attached.
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A message of cm_level SOL_IP(V6) and cm_type IP(V6)_RECVERR
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embeds a struct sock_extended_err. This defines the error type. For
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timestamps, the ee_errno field is ENOMSG. The other ancillary message
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will have cm_level SOL_SOCKET and cm_type SCM_TIMESTAMPING. This
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embeds the struct scm_timestamping.
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2.1.1.2 Timestamp types
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The semantics of the three struct timespec are defined by field
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ee_info in the extended error structure. It contains a value of
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type SCM_TSTAMP_* to define the actual timestamp passed in
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scm_timestamping.
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The SCM_TSTAMP_* types are 1:1 matches to the SOF_TIMESTAMPING_*
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control fields discussed previously, with one exception. For legacy
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reasons, SCM_TSTAMP_SND is equal to zero and can be set for both
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SOF_TIMESTAMPING_TX_HARDWARE and SOF_TIMESTAMPING_TX_SOFTWARE. It
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is the first if ts[2] is non-zero, the second otherwise, in which
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case the timestamp is stored in ts[0].
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2.1.1.3 Fragmentation
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Fragmentation of outgoing datagrams is rare, but is possible, e.g., by
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explicitly disabling PMTU discovery. If an outgoing packet is fragmented,
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then only the first fragment is timestamped and returned to the sending
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socket.
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2.1.1.4 Packet Payload
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The calling application is often not interested in receiving the whole
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packet payload that it passed to the stack originally: the socket
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error queue mechanism is just a method to piggyback the timestamp on.
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In this case, the application can choose to read datagrams with a
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smaller buffer, possibly even of length 0. The payload is truncated
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accordingly. Until the process calls recvmsg() on the error queue,
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however, the full packet is queued, taking up budget from SO_RCVBUF.
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2.1.1.5 Blocking Read
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Reading from the error queue is always a non-blocking operation. To
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block waiting on a timestamp, use poll or select. poll() will return
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POLLERR in pollfd.revents if any data is ready on the error queue.
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There is no need to pass this flag in pollfd.events. This flag is
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ignored on request. See also `man 2 poll`.
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2.1.2 Receive timestamps
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On reception, there is no reason to read from the socket error queue.
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The SCM_TIMESTAMPING ancillary data is sent along with the packet data
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on a normal recvmsg(). Since this is not a socket error, it is not
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accompanied by a message SOL_IP(V6)/IP(V6)_RECVERROR. In this case,
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the meaning of the three fields in struct scm_timestamping is
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implicitly defined. ts[0] holds a software timestamp if set, ts[1]
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is again deprecated and ts[2] holds a hardware timestamp if set.
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3. Hardware Timestamping configuration: SIOCSHWTSTAMP and SIOCGHWTSTAMP
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Hardware time stamping must also be initialized for each device driver
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that is expected to do hardware time stamping. The parameter is defined in
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/include/linux/net_tstamp.h as:
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struct hwtstamp_config {
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int flags; /* no flags defined right now, must be zero */
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int tx_type; /* HWTSTAMP_TX_* */
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int rx_filter; /* HWTSTAMP_FILTER_* */
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};
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Desired behavior is passed into the kernel and to a specific device by
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calling ioctl(SIOCSHWTSTAMP) with a pointer to a struct ifreq whose
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ifr_data points to a struct hwtstamp_config. The tx_type and
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rx_filter are hints to the driver what it is expected to do. If
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the requested fine-grained filtering for incoming packets is not
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supported, the driver may time stamp more than just the requested types
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of packets.
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A driver which supports hardware time stamping shall update the struct
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with the actual, possibly more permissive configuration. If the
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requested packets cannot be time stamped, then nothing should be
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changed and ERANGE shall be returned (in contrast to EINVAL, which
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indicates that SIOCSHWTSTAMP is not supported at all).
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Only a processes with admin rights may change the configuration. User
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space is responsible to ensure that multiple processes don't interfere
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with each other and that the settings are reset.
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Any process can read the actual configuration by passing this
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structure to ioctl(SIOCGHWTSTAMP) in the same way. However, this has
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not been implemented in all drivers.
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/* possible values for hwtstamp_config->tx_type */
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enum {
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/*
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* no outgoing packet will need hardware time stamping;
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* should a packet arrive which asks for it, no hardware
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* time stamping will be done
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*/
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HWTSTAMP_TX_OFF,
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/*
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* enables hardware time stamping for outgoing packets;
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* the sender of the packet decides which are to be
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* time stamped by setting SOF_TIMESTAMPING_TX_SOFTWARE
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* before sending the packet
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*/
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HWTSTAMP_TX_ON,
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};
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/* possible values for hwtstamp_config->rx_filter */
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enum {
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/* time stamp no incoming packet at all */
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HWTSTAMP_FILTER_NONE,
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/* time stamp any incoming packet */
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HWTSTAMP_FILTER_ALL,
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/* return value: time stamp all packets requested plus some others */
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HWTSTAMP_FILTER_SOME,
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/* PTP v1, UDP, any kind of event packet */
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HWTSTAMP_FILTER_PTP_V1_L4_EVENT,
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/* for the complete list of values, please check
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* the include file /include/linux/net_tstamp.h
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*/
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};
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3.1 Hardware Timestamping Implementation: Device Drivers
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A driver which supports hardware time stamping must support the
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SIOCSHWTSTAMP ioctl and update the supplied struct hwtstamp_config with
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the actual values as described in the section on SIOCSHWTSTAMP. It
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should also support SIOCGHWTSTAMP.
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Time stamps for received packets must be stored in the skb. To get a pointer
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to the shared time stamp structure of the skb call skb_hwtstamps(). Then
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set the time stamps in the structure:
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struct skb_shared_hwtstamps {
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/* hardware time stamp transformed into duration
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* since arbitrary point in time
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*/
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ktime_t hwtstamp;
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};
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Time stamps for outgoing packets are to be generated as follows:
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- In hard_start_xmit(), check if (skb_shinfo(skb)->tx_flags & SKBTX_HW_TSTAMP)
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is set no-zero. If yes, then the driver is expected to do hardware time
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stamping.
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- If this is possible for the skb and requested, then declare
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that the driver is doing the time stamping by setting the flag
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SKBTX_IN_PROGRESS in skb_shinfo(skb)->tx_flags , e.g. with
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skb_shinfo(skb)->tx_flags |= SKBTX_IN_PROGRESS;
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You might want to keep a pointer to the associated skb for the next step
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and not free the skb. A driver not supporting hardware time stamping doesn't
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do that. A driver must never touch sk_buff::tstamp! It is used to store
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software generated time stamps by the network subsystem.
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- Driver should call skb_tx_timestamp() as close to passing sk_buff to hardware
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as possible. skb_tx_timestamp() provides a software time stamp if requested
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and hardware timestamping is not possible (SKBTX_IN_PROGRESS not set).
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- As soon as the driver has sent the packet and/or obtained a
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hardware time stamp for it, it passes the time stamp back by
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calling skb_hwtstamp_tx() with the original skb, the raw
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hardware time stamp. skb_hwtstamp_tx() clones the original skb and
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adds the timestamps, therefore the original skb has to be freed now.
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If obtaining the hardware time stamp somehow fails, then the driver
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should not fall back to software time stamping. The rationale is that
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this would occur at a later time in the processing pipeline than other
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software time stamping and therefore could lead to unexpected deltas
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between time stamps.
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