diff options
author | YohanPipereau <ypiperea@cisco.com> | 2019-03-06 14:01:58 +0100 |
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committer | YohanPipereau <ypiperea@cisco.com> | 2019-03-29 14:39:36 +0100 |
commit | a760dfb253161911fc3aa3c8b879c461d53ade6e (patch) | |
tree | 0e79953f4ed5615879a58f49a74df3f9c6739a42 /src/plugins/yang/openconfig/openconfig-types@2018-05-05.yang | |
parent | 2b9b6b9b130b75799a40989c0ebe5040fa3e45fb (diff) |
Sweetcomb global cleanup
-Merge IETF and Openconfig to use SCVPP 2
-Move L2 bridge from sc_vpp_interface to sc_vpp_v3po
-Implement tav2 dump
-Make openconfig-interfaces functions static
-Try one more dispatch after failure in VAPI_CALL
-Add error return code for scvpp
-Remove unused length maccros
-Return appropriate error code for interface dump when interface not found
-Improve scvpp test suite
-Change get_interface_id prototype
-Use interface_dump_iface in openconfig_interface.
-No more vapi types in openconfig_interfaces.c
-Move openconfig_local_routing VAPI operations to sc_vpp_ip
-Implement a multiple dump with a stack data structure
-Comment out state_cb code from openconfig_local_routing to use new
functions later.
-Rename YANG model to their fully qualified name : <module>@<revision>
-Remove headers almost empty and put registration declaration in
sc_model.h
-Shorten vapi context global variable name
-Reorganize scvpp unit test suite
-Add instructions to Makefile to install/uninstall YANG models in sysrepo.
-Add this new instructions to README.md.
-Reimplement interface_dump_all
-Use a common message at INFO Log Level to know when sysrepo callbacks
are triggered
-Remove old structure to perform dump of all interfaces
-Reimplement get_interface_name and add scvpp test for it
-Clean sys_util
-Use UNUSED maccro everywhere to have lighter prototypes
-Have ietf-interfaces:interfaces-state work with new dump function
-Add setup and teardown for NAT tests
-Remove unused tapv2 dump
-Remove useless sysrepo module callback
-Remove xpath_find_first_key usage in openconfig-interfaces
-Remove xpath_find_first_key in oc_local_routing and in the rest of
sweetcomb
-Reorganize scvpp include dir and fix scvpp_test new warnings
-Fix scvpp tests for ip routes
-Factorize scvpp nat and test return code of its function
-Correct test_dump_if_all if there is an existing hardware interface
-Implement a per-prefix dump in scvpp
-free changes iterator in ietf-interfaces
-Add new XPATH in oc local-routing
-Introduce helper methods for sysrepo config callbacks
-Factorize config callback
-Refactor the openconfig-local-routing config callback
-Use common foreach_change to iterate over changes in all models
-Create a sample directory gathering example of configurations supposed
to work with sweetcomb
-Fix state callback of oc-local-routing
-Add new sample for get operation on next-hop
-foreach_elt maccro condition forgets to read one element
Change-Id: I8e87fce577a00337977588f057a6e095a20f457c
Signed-off-by: YohanPipereau <ypiperea@cisco.com>
Diffstat (limited to 'src/plugins/yang/openconfig/openconfig-types@2018-05-05.yang')
-rw-r--r-- | src/plugins/yang/openconfig/openconfig-types@2018-05-05.yang | 455 |
1 files changed, 455 insertions, 0 deletions
diff --git a/src/plugins/yang/openconfig/openconfig-types@2018-05-05.yang b/src/plugins/yang/openconfig/openconfig-types@2018-05-05.yang new file mode 100644 index 0000000..01713b3 --- /dev/null +++ b/src/plugins/yang/openconfig/openconfig-types@2018-05-05.yang @@ -0,0 +1,455 @@ +module openconfig-types { + yang-version "1"; + + namespace "http://openconfig.net/yang/openconfig-types"; + + prefix "oc-types"; + + // import statements + import openconfig-extensions { prefix oc-ext; } + + // meta + organization + "OpenConfig working group"; + + contact + "OpenConfig working group + netopenconfig@googlegroups.com"; + + description + "This module contains a set of general type definitions that + are used across OpenConfig models. It can be imported by modules + that make use of these types."; + + oc-ext:openconfig-version "0.5.0"; + + revision "2018-05-05" { + description + "Add grouping of min-max-time and + included them to all stats with min/max/avg"; + reference "0.5.0"; + } + + revision "2018-01-16" { + description + "Add interval to min/max/avg stats; add percentage stat"; + reference "0.4.0"; + } + + revision "2017-08-16" { + description + "Apply fix for ieetfloat32 length parameter"; + reference "0.3.3"; + } + + revision "2017-01-13" { + description + "Add ADDRESS_FAMILY identity"; + reference "0.3.2"; + } + + revision "2016-11-14" { + description + "Correct length of ieeefloat32"; + reference "0.3.1"; + } + + revision "2016-11-11" { + description + "Additional types - ieeefloat32 and routing-password"; + reference "0.3.0"; + } + + revision "2016-05-31" { + description + "OpenConfig public release"; + reference "0.2.0"; + } + + typedef percentage { + type uint8 { + range "0..100"; + } + description + "Integer indicating a percentage value"; + } + + typedef std-regexp { + type string; + description + "This type definition is a placeholder for a standard + definition of a regular expression that can be utilised in + OpenConfig models. Further discussion is required to + consider the type of regular expressions that are to be + supported. An initial proposal is POSIX compatible."; + } + + typedef timeticks64 { + type uint64; + description + "This type is based on the timeticks type defined in + RFC 6991, but with 64-bit width. It represents the time, + modulo 2^64, in hundredths of a second between two epochs."; + reference + "RFC 6991 - Common YANG Data Types"; + } + + typedef ieeefloat32 { + type binary { + length "4"; + } + description + "An IEEE 32-bit floating point number. The format of this number + is of the form: + 1-bit sign + 8-bit exponent + 23-bit fraction + The floating point value is calculated using: + (-1)**S * 2**(Exponent-127) * (1+Fraction)"; + } + + typedef routing-password { + type string; + description + "This type is indicative of a password that is used within + a routing protocol which can be returned in plain text to the + NMS by the local system. Such passwords are typically stored + as encrypted strings. Since the encryption used is generally + well known, it is possible to extract the original value from + the string - and hence this format is not considered secure. + Leaves specified with this type should not be modified by + the system, and should be returned to the end-user in plain + text. This type exists to differentiate passwords, which + may be sensitive, from other string leaves. It could, for + example, be used by the NMS to censor this data when + viewed by particular users."; + } + + typedef stat-interval { + type uint64; + units nanoseconds; + description + "A time interval over which a set of statistics is computed. + A common usage is to report the interval over which + avg/min/max stats are computed and reported."; + } + + grouping stat-interval-state { + description + "Reusable leaf definition for stats computation interval"; + + leaf interval { + type oc-types:stat-interval; + description + "If supported by the system, this reports the time interval + over which the min/max/average statistics are computed by + the system."; + } + } + + grouping min-max-time { + description + "Common grouping for recording the absolute time at which + the minimum and maximum values occurred in the statistics"; + + leaf min-time { + type oc-types:timeticks64; + description + "The absolute time at which the minimum value occurred. + The value is the timestamp in nanoseconds relative to + the Unix Epoch (Jan 1, 1970 00:00:00 UTC)."; + } + + leaf max-time { + type oc-types:timeticks64; + description + "The absolute time at which the maximum value occurred. + The value is the timestamp in nanoseconds relative to + the Unix Epoch (Jan 1, 1970 00:00:00 UTC)."; + } + } + + grouping avg-min-max-stats-precision1 { + description + "Common nodes for recording average, minimum, and + maximum values for a statistic. These values all have + fraction-digits set to 1. Statistics are computed + and reported based on a moving time interval (e.g., the last + 30s). If supported by the device, the time interval over which + the statistics are computed is also reported."; + + leaf avg { + type decimal64 { + fraction-digits 1; + } + description + "The arithmetic mean value of the statistic over the + time interval."; + } + + leaf min { + type decimal64 { + fraction-digits 1; + } + description + "The minimum value of the statistic over the time + interval."; + } + + leaf max { + type decimal64 { + fraction-digits 1; + } + description + "The maximum value of the statitic over the time + interval."; + } + + uses stat-interval-state; + uses min-max-time; + } + + grouping avg-min-max-instant-stats-precision1 { + description + "Common grouping for recording an instantaneous statistic value + in addition to avg-min-max stats"; + + leaf instant { + type decimal64 { + fraction-digits 1; + } + description + "The instantaneous value of the statistic."; + } + + uses avg-min-max-stats-precision1; + } + + grouping avg-min-max-instant-stats-precision2-dB { + description + "Common grouping for recording dB values with 2 decimal + precision. Values include the instantaneous, average, + minimum, and maximum statistics. Statistics are computed + and reported based on a moving time interval (e.g., the last + 30s). If supported by the device, the time interval over which + the statistics are computed, and the times at which the minimum + and maximum values occurred, are also reported."; + + leaf instant { + type decimal64 { + fraction-digits 2; + } + units dB; + description + "The instantaneous value of the statistic."; + } + + leaf avg { + type decimal64 { + fraction-digits 2; + } + units dB; + description + "The arithmetic mean value of the statistic over the + time interval."; + } + + leaf min { + type decimal64 { + fraction-digits 2; + } + units dB; + description + "The minimum value of the statistic over the time interval."; + } + + leaf max { + type decimal64 { + fraction-digits 2; + } + units dB; + description + "The maximum value of the statistic over the time + interval."; + } + + uses stat-interval-state; + uses min-max-time; + } + + grouping avg-min-max-instant-stats-precision2-dBm { + description + "Common grouping for recording dBm values with 2 decimal + precision. Values include the instantaneous, average, + minimum, and maximum statistics. Statistics are computed + and reported based on a moving time interval (e.g., the last + 30s). If supported by the device, the time interval over which + the statistics are computed, and the times at which the minimum + and maximum values occurred, are also reported."; + + leaf instant { + type decimal64 { + fraction-digits 2; + } + units dBm; + description + "The instantaneous value of the statistic."; + } + + leaf avg { + type decimal64 { + fraction-digits 2; + } + units dBm; + description + "The arithmetic mean value of the statistic over the + time interval."; + } + + leaf min { + type decimal64 { + fraction-digits 2; + } + units dBm; + description + "The minimum value of the statistic over the time + interval."; + } + + leaf max { + type decimal64 { + fraction-digits 2; + } + units dBm; + description + "The maximum value of the statistic over the time interval."; + } + + uses stat-interval-state; + uses min-max-time; + } + + grouping avg-min-max-instant-stats-precision2-mA { + description + "Common grouping for recording mA values with 2 decimal + precision. Values include the instantaneous, average, + minimum, and maximum statistics. Statistics are computed + and reported based on a moving time interval (e.g., the last + 30s). If supported by the device, the time interval over which + the statistics are computed, and the times at which the minimum + and maximum values occurred, are also reported."; + + leaf instant { + type decimal64 { + fraction-digits 2; + } + units mA; + description + "The instantaneous value of the statistic."; + } + + leaf avg { + type decimal64 { + fraction-digits 2; + } + units mA; + description + "The arithmetic mean value of the statistic over the + time interval."; + } + + leaf min { + type decimal64 { + fraction-digits 2; + } + units mA; + description + "The minimum value of the statistic over the time + interval."; + } + + leaf max { + type decimal64 { + fraction-digits 2; + } + units mA; + description + "The maximum value of the statistic over the time + interval."; + } + + uses stat-interval-state; + uses min-max-time; + } + + grouping avg-min-max-instant-stats-pct { + description + "Common grouping for percentage statistics. + Values include the instantaneous, average, + minimum, and maximum statistics. Statistics are computed + and reported based on a moving time interval (e.g., the last + 30s). If supported by the device, the time interval over which + the statistics are computed, and the times at which the minimum + and maximum values occurred, are also reported."; + + leaf instant { + type oc-types:percentage; + description + "The instantaneous percentage value."; + } + + leaf avg { + type oc-types:percentage; + description + "The arithmetic mean value of the percentage measure of the + statistic over the time interval."; + } + + leaf min { + type oc-types:percentage; + description + "The minimum value of the percentage measure of the + statistic over the time interval."; + } + + leaf max { + type oc-types:percentage; + description + "The maximum value of the percentage measure of the + statistic over the time interval."; + } + + uses stat-interval-state; + uses min-max-time; + } + + identity ADDRESS_FAMILY { + description + "A base identity for all address families"; + } + + identity IPV4 { + base ADDRESS_FAMILY; + description + "The IPv4 address family"; + } + + identity IPV6 { + base ADDRESS_FAMILY; + description + "The IPv6 address family"; + } + + identity MPLS { + base ADDRESS_FAMILY; + description + "The MPLS address family"; + } + + identity L2_ETHERNET { + base ADDRESS_FAMILY; + description + "The 802.3 Ethernet address family"; + } + +} |