62.6.15 IEEE 1588 Support

IEEE 1588 is a standard for precision time synchronization in local area networks. It works with the exchange of special Precision Time Protocol (PTP) frames. The PTP messages can be transported over IEEE 802.3/Ethernet, over Internet Protocol Version 4 or over Internet Protocol Version 6 as described in the annex of IEEE P1588.D2.1.

The GMAC indicates the message timestamp point (asserted on the start packet delimiter and de-asserted at end of frame) for all frames and the passage of PTP event frames (asserted when a PTP event frame is detected and de-asserted at end of frame).

IEEE 802.1AS is a subset of IEEE 1588. One difference is that IEEE 802.1AS uses the Ethernet multicast address 0180C200000E for sync frame recognition whereas IEEE 1588 does not. GMAC is designed to recognize sync frames with both IEEE 802.1AS and IEEE 1588 addresses and so can support both 1588 and 802.1AS frame recognition simultaneously.

Synchronization between host and client clocks is a two-stage process.

First, the offset between the host and client clocks is corrected by the host sending a sync frame to the client with a follow-up frame containing the exact time the sync frame was sent. Hardware assist modules at the host and client side detect exactly when the sync frame was sent by the host and received by the client. The client then corrects its clock to match the host clock.

Second, the transmission delay between the host and client is corrected. The client sends a delay request frame to the host which sends a delay response frame in reply. Hardware assist modules at the host and client side detect exactly when the delay request frame was sent by the client and received by the host. The client now has enough information to adjust its clock to account for delay. For example, if the client was assuming zero delay, the actual delay will be half the difference between the transmit and receive time of the delay request frame (assuming equal transmit and receive times) because the client clock will be lagging the host clock by the delay time already.

The timestamp is taken when the message timestamp point passes the clock timestamp point. This can generate an interrupt if enabled (GMAC_IER). However, MAC Filtering configuration is needed to actually ‘copy’ the message to memory. For Ethernet, the message timestamp point is the SFD and the clock timestamp point is the MII interface. (The IEEE 1588 specification refers to sync and delay_req messages as event messages as these require timestamping. These events are captured in the registers GMAC_EFTx and GMAC_EFRx, respectively. Follow up, delay response and management messages do not require timestamping and are referred to as general messages.)

1588 version 2 defines two additional PTP event messages. These are the peer delay request (Pdelay_Req) and peer delay response (Pdelay_Resp) messages. These events are captured in the registers GMAC_PEFTx and GMAC_PEFRx, respectively. These messages are used to calculate the delay on a link. Nodes at both ends of a link send both types of frames (regardless of whether they contain a host or client clock). The Pdelay_Resp message contains the time at which a Pdelay_Req was received and is itself an event message. The time at which a Pdelay_Resp message is received is returned in a Pdelay_Resp_Follow_Up message.

1588 version 2 introduces transparent clocks of which there are two kinds, peer-to-peer (P2P) and end-to-end (E2E). Transparent clocks measure the transit time of event messages through a bridge and amend a correction field within the message to allow for the transit time. P2P transparent clocks additionally correct for the delay in the receive path of the link using the information gathered from the peer delay frames. With P2P transparent clocks delay_req messages are not used to measure link delay. This simplifies the protocol and makes larger systems more stable.

The GMAC recognizes four different encapsulations for PTP event messages:

  1. 1588 version 1 (UDP/IPv4 multicast)
  2. 1588 version 2 (UDP/IPv4 multicast)
  3. 1588 version 2 (UDP/IPv6 multicast)
  4. 1588 version 2 (Ethernet multicast)
    Table 62-6. Example of Sync Frame in 1588 Version 1 Format
    Frame Segment Value
    Preamble/SFD 55555555555555D5
    DA (Octets 0–5)
    SA (Octets 6–11)
    Type (Octets 12–13) 0800
    IP stuff (Octets 14–22)
    UDP (Octet 23) 11
    IP stuff (Octets 24–29)
    IP DA (Octets 30–32) E00001
    IP DA (Octet 33) 81 or 82 or 83 or 84
    Source IP port (Octets 34–35)
    Dest IP port (Octets 36–37) 013F
    Other stuff (Octets 38–42)
    Version PTP (Octet 43) 01
    Other stuff (Octets 44–73)
    Control (Octet 74) 00
    Other stuff (Octets 75–168)
    Table 62-7. Example of Delay Request Frame in 1588 Version 1 Format
    Frame Segment Value
    Preamble/SFD 55555555555555D5
    DA (Octets 0–5)
    SA (Octets 6–11)
    Type (Octets 12–13) 0800
    IP stuff (Octets 14–22)
    UDP (Octet 23) 11
    IP stuff (Octets 24–29)
    IP DA (Octets 30–32) E00001
    IP DA (Octet 33) 81 or 82 or 83 or 84
    Source IP port (Octets 34–35)
    Dest IP port (Octets 36–37) 013F
    Other stuff (Octets 38–42)
    Version PTP (Octet 43) 01
    Other stuff (Octets 44–73)
    Control (Octet 74) 01
    Other stuff (Octets 75–168)

For 1588 version 1 messages, sync and delay request frames are indicated by the GMAC if the frame type field indicates TCP/IP, UDP protocol is indicated, the destination IP address is 224.0.1.129/130/131 or 132, the destination UDP port is 319 and the control field is correct.

The control field is 0x00 for sync frames and 0x01 for delay request frames.

For 1588 version 2 messages, the type of frame is determined by looking at the message type field in the first byte of the PTP frame. Whether a frame is version 1 or version 2 can be determined by looking at the version PTP field in the second byte of both version 1 and version 2 PTP frames.

In version 2 messages sync frames have a message type value of 0x0, delay_req have 0x1, Pdelay_Req have 0x2 and Pdelay_Resp have 0x3.

Table 62-8. Example of Sync Frame in 1588 Version 2 (UDP/IPv4) Format
Frame Segment Value
Preamble/SFD 55555555555555D5
DA (Octets 0–5)
SA (Octets 6–11)
Type (Octets 12–13) 0800
IP stuff (Octets 14–22)
UDP (Octet 23) 11
IP stuff (Octets 24–29)
IP DA (Octets 30–33) E0000181
Source IP port (Octets 34–35)
Dest IP port (Octets 36–37) 013F
Other stuff (Octets 38–41)
Message type (Octet 42) 00
Version PTP (Octet 43) 02
Table 62-9. Example of Pdelay_Req Frame in 1588 Version 2 (UDP/IPv4) Format
Frame Segment Value
Preamble/SFD 55555555555555D5
DA (Octets 0–5)
SA (Octets 6–11)
Type (Octets 12–13) 0800
IP stuff (Octets 14–22)
UDP (Octet 23) 11
IP stuff (Octets 24–29)
IP DA (Octets 30–33) E000006B
Source IP port (Octets 34–35)
Dest IP port (Octets 36–37) 013F
Other stuff (Octets 38–41)
Message type (Octet 42) 02
Version PTP (Octet 43) 02
Table 62-10. Example of Sync Frame in 1588 Version 2 (UDP/IPv6) Format
Frame Segment Value
Preamble/SFD 55555555555555D5
DA (Octets 0–5)
SA (Octets 6–11)
Type (Octets 12–13) 86dd
IP stuff (Octets 14–19)
UDP (Octet 20) 11
IP stuff (Octets 21–37)
IP DA (Octets 38–53) FF0X00000000018
Source IP port (Octets 54–55)
Dest IP port (Octets 56–57) 013F
Other stuff (Octets 58–61)
Message type (Octet 62) 00
Other stuff (Octets 63–93)
Version PTP (Octet 94) 02
Table 62-11. Example of Pdelay_Resp Frame in 1588 Version 2 (UDP/IPv6) Format
Frame Segment Value
Preamble/SFD 55555555555555D5
DA (Octets 0–5)
SA (Octets 6–11)
Type (Octets 12–13) 86dd
IP stuff (Octets 14–19)
UDP (Octet 20) 11
IP stuff (Octets 21–37)
IP DA (Octets 38–53) FF0200000000006B
Source IP port (Octets 54–55)
Dest IP port (Octets 56–57) 013F
Other stuff (Octets 58–61)
Message type (Octet 62) 03
Other stuff (Octets 63–93)
Version PTP (Octet 94) 02

For the multicast address 011B19000000 sync and delay request frames are recognized depending on the message type field, 00 for sync and 01 for delay request.

Table 62-12. Example of Sync Frame in 1588 Version 2 (Ethernet Multicast) Format
Frame Segment Value
Preamble/SFD 55555555555555D5
DA (Octets 0–5) 011B19000000
SA (Octets 6–11)
Type (Octets 12–13) 88F7
Message type (Octet 14) 00
Version PTP (Octet 15) 02

Pdelay request frames need a special multicast address so they can pass through ports blocked by the spanning tree protocol. For the multicast address 0180C200000E sync, Pdelay_Req and Pdelay_Resp frames are recognized depending on the message type field, 00 for sync, 02 for pdelay request and 03 for pdelay response.

Table 62-13. Example of Pdelay_Req Frame in 1588 Version 2 (Ethernet Multicast) Format
Frame Segment Value
Preamble/SFD 55555555555555D5
DA (Octets 0–5) 0180C200000E
SA (Octets 6–11)
Type (Octets 12–13) 88F7
Message type (Octet 14) 00
Version PTP (Octet 15) 02