PTP4l - Online Linux Manual PageSection : 8
Updated : December 2014
Source : linuxptp
NAMEptp4l − PTP Boundary/Ordinary Clock
SYNOPSISptp4l [ −AEP246HSLmqsv ] [ −f config ] [ −p phc-device ] [ −l print-level ] [ −i interface ] . . .
DESCRIPTIONptp4l is an implementation of the Precision Time Protocol (PTP) according to IEEE standard 1588 for Linux. It implements Boundary Clock (BC) and Ordinary Clock (OC).
OPTIONS−A Select the delay mechanism automatically. Start with E2E and switch to P2P when a peer delay request is received. −E Select the delay request-response (E2E) mechanism. This is the default mechanism. All clocks on single PTP communication path must use the same mechanism. A warning will be printed when a peer delay request is received on port using the E2E mechanism. −P Select the peer delay (P2P) mechanism. A warning will be printed when a delay request is received on port using the P2P mechanism. −2 Select the IEEE 802.3 network transport. −4 Select the UDP IPv4 network transport. This is the default transport. −6 Select the UDP IPv6 network transport. −H Select the hardware time stamping. All ports specified by the −i option and in the configuration file must be attached to the same PTP hardware clock (PHC). This is the default time stamping. −S Select the software time stamping. −L Select the legacy hardware time stamping. −f config Read configuration from the specified file. No configuration file is read by default. −i interface Specify a PTP port, it may be used multiple times. At least one port must be specified by this option or in the configuration file. −p phc-device With hardware time stamping, force which PHC device (e.g. /dev/ptp0) should be used. −s Enable the slaveOnly mode. −l print-level Set the maximum syslog level of messages which should be printed or sent to the system logger. The default is 6 (LOG_INFO). −m Print messages to the standard output. −q Don't send messages to the system logger. −v Prints the software version and exits. −h Display a help message.
CONFIGURATION FILEThe configuration file is divided into sections. Each section starts with a line containing its name enclosed in brackets and it follows with settings. Each setting is placed on a separate line, it contains the name of the option and the value separated by whitespace characters. Empty lines and lines starting with # are ignored. The global section (indicated as [global]) sets the program options, clock options and default port options. Other sections are port specific sections and they override the default port options. The name of the section is the name of the configured port (e.g. [eth0]). Ports specified in the configuration file don't need to be specified by the −i option. An empty port section can be used to replace the command line option.
PORT OPTIONSdelayAsymmetry The time difference in nanoseconds of the transmit and receive paths. This value should be positive when the master-to-slave propagation time is longer and negative when the slave-to-master time is longer. The default is 0 nanoseconds. logAnnounceInterval The mean time interval between Announce messages. A shorter interval makes ptp4l react faster to the changes in the master-slave hierarchy. The interval should be the same in the whole domain. It's specified as a power of two in seconds. The default is 1 (2 seconds). logSyncInterval The mean time interval between Sync messages. A shorter interval may improve accuracy of the local clock. It's specified as a power of two in seconds. The default is 0 (1 second). logMinDelayReqInterval The minimum permitted mean time interval between Delay_Req messages. A shorter interval makes ptp4l react faster to the changes in the path delay. It's specified as a power of two in seconds. The default is 0 (1 second). logMinPdelayReqInterval The minimum permitted mean time interval between Pdelay_Req messages. It's specified as a power of two in seconds. The default is 0 (1 second). announceReceiptTimeout The number of missed Announce messages before the last Announce messages expires. The default is 3. syncReceiptTimeout The number of sync/follow up messages that may go missing before triggering a Best Master Clock election. This option is used for running in gPTP mode according to the 802.1AS-2011 standard. Setting this option to zero will disable the sync message timeout. The default is 0 or disabled. transportSpecific The transport specific field. Must be in the range 0 to 255. The default is 0. path_trace_enabled Enable the mechanism used to trace the route of the Announce messages. The default is 0 (disabled). follow_up_info Include the 802.1AS data in the Follow_Up messages if enabled. The default is 0 (disabled). fault_reset_interval The time in seconds between the detection of a port's fault and the fault being reset. This value is expressed as a power of two. Setting this value to -128 or to the special key word "ASAP" will let the fault be reset immediately. The default is 4 (16 seconds). fault_badpeernet_interval The time in seconds between the detection of a peer network misconfiguration and the fault being reset. The port is disabled for the duration of the interval. The value is in seconds and the special key word ASAP will let the fault be reset immediately. The default is 16 seconds. delay_mechanism Select the delay mechanism. Possible values are E2E, P2P and Auto. The default is E2E. network_transport Select the network transport. Possible values are UDPv4, UDPv6 and L2. The default is UDPv4. neighborPropDelayThresh Upper limit for peer delay in nanoseconds. If the estimated peer delay is greater than this value the port is marked as not 802.1AS capable. min_neighbor_prop_delay Lower limit for peer delay in nanoseconds. If the estimated peer delay is smaller than this value the port is marked as not 802.1AS capable. delay_filter Select the algorithm used to filter the measured delay and peer delay. Possible values are moving_average and moving_median. The default is moving_median. delay_filter_length The length of the delay filter in samples. The default is 10. egressLatency Specifies the difference in nanoseconds between the actual transmission time at the reference plane and the reported transmit time stamp. This value will be added to egress time stamps obtained from the hardware. The default is 0. ingressLatency Specifies the difference in nanoseconds between the reported receive time stamp and the actual reception time at reference plane. This value will be subtracted from ingress time stamps obtained from the hardware. The default is 0. boundary_clock_jbod When running as a boundary clock (that is, when more than one network interface is configured), ptp4l performs a sanity check to make sure that all of the ports share the same hardware clock device. This option allows ptp4l to work as a boundary clock using "just a bunch of devices" that are not synchronized to each other. For this mode, the collection of clocks must be synchronized by an external program, for example phc2sys(8) in "automatic" mode. The default is 0 (disabled).
PROGRAM AND CLOCK OPTIONStwoStepFlag Enable two-step mode for sync messages. One-step mode can be used only with hardware time stamping. The default is 1 (enabled). slaveOnly The local clock is a slave-only clock if enabled. This option is only for use with 1588 clocks and should not be enabled for 802.1AS clocks. The default is 0 (disabled). gmCapable If this option is enabled, then the local clock is able to become grand master. This is only for use with 802.1AS clocks and has no effect on 1588 clocks. The default is 1 (enabled). priority1 The priority1 attribute of the local clock. It is used in the best master selection algorithm, lower values take precedence. Must be in the range 0 to 255. The default is 128. priority2 The priority2 attribute of the local clock. It is used in the best master selection algorithm, lower values take precedence. Must be in the range 0 to 255. The default is 128. clockClass The clockClass attribute of the local clock. It denotes the traceability of the time distributed by the grandmaster clock. The default is 248. clockAccuracy The clockAccuracy attribute of the local clock. It is used in the best master selection algorithm. The default is 0xFE. offsetScaledLogVariance The offsetScaledLogVariance attribute of the local clock. It characterizes the stability of the clock. The default is 0xFFFF. domainNumber The domain attribute of the local clock. The default is 0. free_running Don't adjust the local clock if enabled. The default is 0 (disabled). freq_est_interval The time interval over which is estimated the ratio of the local and peer clock frequencies. It is specified as a power of two in seconds. The default is 1 (2 seconds). assume_two_step Treat one-step responses as two-step if enabled. It is used to work around buggy 802.1AS switches. The default is 0 (disabled). tx_timestamp_timeout The number of milliseconds to poll waiting for the tx time stamp from the kernel when a message has recently been sent. The default is 1. check_fup_sync Because of packet reordering that can occur in the network, in the hardware, or in the networking stack, a follow up message can appear to arrive in the application before the matching sync message. As this is a normal occurrence, and the sequenceID message field ensures proper matching, the ptp4l program accepts out of order packets. This option adds an additional check using the software time stamps from the networking stack to verify that the sync message did arrive first. This option is only useful if you do not trust the sequence IDs generated by the master. The default is 0 (disabled). clock_servo The servo which is used to synchronize the local clock. Valid values are pi for a PI controller, linreg for an adaptive controller using linear regression, and ntpshm for the NTP SHM reference clock to allow another process to synchronize the local clock (the SHM segment number is set to the domain number). The default is pi. pi_proportional_const The proportional constant of the PI controller. When set to 0.0, the proportional constant will be set by the following formula from the current sync interval. The default is 0.0. kp = min(kp_scale * sync^kp_exponent, kp_norm_max / sync)) pi_integral_const The integral constant of the PI controller. When set to 0.0, the integral constant will be set by the following formula from the current sync interval. The default is 0.0. ki = min(ki_scale * sync^ki_exponent, ki_norm_max / sync) pi_proportional_scale The kp_scale constant in the formula used to set the proportional constant of the PI controller from the sync interval. When set to 0.0, the value will be selected from 0.7 and 0.1 for the hardware and software time stamping respectively. The default is 0.0. pi_proportional_exponent The kp_exponent constant in the formula used to set the proportional constant of the PI controller from the sync interval. The default is -0.3. pi_proportional_norm_max The kp_norm_max constant in the formula used to set the proportional constant of the PI controller from the sync interval. The default is 0.7 pi_integral_scale The ki_scale constant in the formula used to set the integral constant of the PI controller from the sync interval. When set to 0.0, the value will be selected from 0.3 and 0.001 for the hardware and software time stamping respectively. The default is 0.0. pi_integral_exponent The ki_exponent constant in the formula used to set the integral constant of the PI controller from the sync interval. The default is 0.4. pi_integral_norm_max The ki_norm_max constant in the formula used to set the integral constant of the PI controller from the sync interval. The default is 0.3. step_threshold The maximum offset the servo will correct by changing the clock frequency instead of stepping the clock. When set to 0.0, the servo will never step the clock except on start. It's specified in seconds. The default is 0.0. This option used to be called pi_offset_const. first_step_threshold The maximum offset the servo will correct by changing the clock frequency instead of stepping the clock. This is only applied on the first update. It's specified in seconds. When set to 0.0, the servo won't step the clock on start. The default is 0.00002 (20 microseconds). This option used to be called pi_f_offset_const. max_frequency The maximum allowed frequency adjustment of the clock in parts per billion (ppb). This is an additional limit to the maximum allowed by the hardware. When set to 0, the hardware limit will be used. The default is 900000000 (90%). This option used to be called pi_max_frequency. sanity_freq_limit The maximum allowed frequency offset between uncorrected clock and the system monotonic clock in parts per billion (ppb). This is used as a sanity check of the synchronized clock. When a larger offset is measured, a warning message will be printed and the servo will be reset. When set to 0, the sanity check is disabled. The default is 200000000 (20%). ntpshm_segment The number of the SHM segment used by ntpshm servo. The default is 0. ptp_dst_mac The MAC address where should be PTP messages sent. Relevant only with L2 transport. The default is 01:1B:19:00:00:00. p2p_dst_mac The MAC address where should be peer delay messages the PTP peer. Relevant only with L2 transport. The default is 01:80:C2:00:00:0E. udp6_scope Specifies the desired scope for the IPv6 multicast messages. This will be used as the second byte of the primary address. This option is only relevant with IPv6 transport. See RFC 4291. The default is 0x0E for the global scope. uds_address Specifies the address of the UNIX domain socket for receiving local management messages. The default is /var/run/ptp4l. logging_level The maximum logging level of messages which should be printed. The default is 6 (LOG_INFO). verbose Print messages to the standard output if enabled. The default is 0 (disabled). use_syslog Print messages to the system log if enabled. The default is 1 (enabled). summary_interval The time interval in which are printed summary statistics of the clock. It is specified as a power of two in seconds. The statistics include offset root mean square (RMS), maximum absolute offset, frequency offset mean and standard deviation, and path delay mean and standard deviation. The units are nanoseconds and parts per billion (ppb). If there is only one clock update in the interval, the sample will be printed instead of the statistics. The messages are printed at the LOG_INFO level. The default is 0 (1 second). time_stamping The time stamping method. The allowed values are hardware, software and legacy. The default is hardware. productDescription The product description string. Allowed values must be of the form manufacturerName;modelNumber;instanceIdentifier and contain at most 64 utf8 symbols. The default is ";;". revisionData The revision description string which contains the revisions for node hardware (HW), firmware (FW), and software (SW). Allowed values are of the form HW;FW;SW and contain at most 32 utf8 symbols. The default is an ";;". userDescription The user description string. Allowed values are of the form name;location and contain at most 128 utf8 symbols. The default is an empty string. manufacturerIdentity The manufacturer id which should be an OUI owned by the manufacturer. The default is 00:00:00. kernel_leap When a leap second is announced, let the kernel apply it by stepping the clock instead of correcting the one-second offset with servo, which would correct the one-second offset slowly by changing the clock frequency (unless the step_threshold option is set to correct such offset by stepping). Relevant only with software time stamping. The default is 1 (enabled). timeSource The time source is a single byte code that gives an idea of the kind of local clock in use. The value is purely informational, having no effect on the outcome of the Best Master Clock algorithm, and is advertised when the clock becomes grand master.
TIME SCALE USAGEptp4l as domain master either uses PTP or UTC time scale depending on time stamping mode. In software and legacy time stamping modes it announces Arbitrary time scale mode, which is effectively UTC here, in hardware time stamping mode it announces use of PTP time scale. When ptp4l is the domain master using hardware time stamping, it is up to phc2sys to maintain the correct offset between UTC and PTP times. See phc2sys(8) manual page for more details.
SEE ALSOpmc(8), phc2sys(8) 0
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