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The SO_TIMESTAMPING API defines three types of timestamps: software, hardware in raw format (hwtstamp) and hardware converted to system format (syststamp). The last has been deprecated in favor of combining hwtstamp with a PTP clock driver. There are no active users in the kernel. The option was device driver dependent. If set, but without hardware support, the correct behavior is to return zero in the relevant field in the SCM_TIMESTAMPING ancillary message. Without device drivers implementing the option, this field is effectively always zero. Remove the internal plumbing to dissuage new drivers from implementing the feature. Keep the SOF_TIMESTAMPING_SYS_HARDWARE flag, however, to avoid breaking existing applications that request the timestamp. Signed-off-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net>
216 lines
8.8 KiB
Plaintext
216 lines
8.8 KiB
Plaintext
The existing interfaces for getting network packages time stamped are:
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* SO_TIMESTAMP
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Generate time stamp for each incoming packet using the (not necessarily
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monotonous!) system time. Result is returned via recv_msg() in a
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control message as timeval (usec resolution).
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* SO_TIMESTAMPNS
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Same time stamping mechanism as SO_TIMESTAMP, but returns result as
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timespec (nsec resolution).
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* IP_MULTICAST_LOOP + SO_TIMESTAMP[NS]
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Only for multicasts: approximate send time stamp by receiving the looped
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packet and using its receive time stamp.
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The following interface complements the existing ones: receive time
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stamps can be generated and returned for arbitrary packets and much
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closer to the point where the packet is really sent. Time stamps can
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be generated in software (as before) or in hardware (if the hardware
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has such a feature).
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SO_TIMESTAMPING:
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Instructs the socket layer which kind of information should be collected
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and/or reported. The parameter is an integer with some of the following
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bits set. Setting other bits is an error and doesn't change the current
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state.
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Four of the bits are requests to the stack to try to generate
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timestamps. Any combination of them is valid.
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SOF_TIMESTAMPING_TX_HARDWARE: try to obtain send time stamps in hardware
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SOF_TIMESTAMPING_TX_SOFTWARE: try to obtain send time stamps in software
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SOF_TIMESTAMPING_RX_HARDWARE: try to obtain receive time stamps in hardware
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SOF_TIMESTAMPING_RX_SOFTWARE: try to obtain receive time stamps in software
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The other three bits control which timestamps will be reported in a
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generated control message. If none of these bits are set or if none of
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the set bits correspond to data that is available, then the control
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message will not be generated:
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SOF_TIMESTAMPING_SOFTWARE: report systime if available
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SOF_TIMESTAMPING_SYS_HARDWARE: report hwtimetrans if available (deprecated)
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SOF_TIMESTAMPING_RAW_HARDWARE: report hwtimeraw if available
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It is worth noting that timestamps may be collected for reasons other
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than being requested by a particular socket with
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SOF_TIMESTAMPING_[TR]X_(HARD|SOFT)WARE. For example, most drivers that
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can generate hardware receive timestamps ignore
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SOF_TIMESTAMPING_RX_HARDWARE. It is still a good idea to set that flag
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in case future drivers pay attention.
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If timestamps are reported, they will appear in a control message with
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cmsg_level==SOL_SOCKET, cmsg_type==SO_TIMESTAMPING, and a payload like
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this:
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struct scm_timestamping {
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struct timespec systime;
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struct timespec hwtimetrans;
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struct timespec hwtimeraw;
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};
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recvmsg() can be used to get this control message for regular incoming
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packets. For send time stamps the outgoing packet is looped back to
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the socket's error queue with the send time stamp(s) attached. It can
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be received with recvmsg(flags=MSG_ERRQUEUE). The call returns the
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original outgoing packet data including all headers preprended down to
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and including the link layer, the scm_timestamping control message and
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a sock_extended_err control message with ee_errno==ENOMSG and
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ee_origin==SO_EE_ORIGIN_TIMESTAMPING. A socket with such a pending
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bounced packet is ready for reading as far as select() is concerned.
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If the outgoing packet has to be fragmented, then only the first
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fragment is time stamped and returned to the sending socket.
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All three values correspond to the same event in time, but were
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generated in different ways. Each of these values may be empty (= all
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zero), in which case no such value was available. If the application
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is not interested in some of these values, they can be left blank to
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avoid the potential overhead of calculating them.
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systime is the value of the system time at that moment. This
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corresponds to the value also returned via SO_TIMESTAMP[NS]. If the
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time stamp was generated by hardware, then this field is
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empty. Otherwise it is filled in if SOF_TIMESTAMPING_SOFTWARE is
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set.
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hwtimeraw is the original hardware time stamp. Filled in if
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SOF_TIMESTAMPING_RAW_HARDWARE is set. No assumptions about its
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relation to system time should be made.
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hwtimetrans is always zero. This field is deprecated. It used to hold
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hw timestamps converted to system time. Instead, expose the hardware
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clock device on the NIC directly as a HW PTP clock source, to allow
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time conversion in userspace and optionally synchronize system time
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with a userspace PTP stack such as linuxptp. For the PTP clock API,
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see Documentation/ptp/ptp.txt.
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SIOCSHWTSTAMP, 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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DEVICE IMPLEMENTATION
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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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