models/openconfig/src/main/yang/types/openconfig-types.yang - onos - Gitiles

 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 "0.3.3";

   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.";
   }

   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.";

     leaf avg {
       type decimal64 {
         fraction-digits 1;
       }
       description
         "The arithmetic mean value of the statistic over the
         sampling period.";
     }

     leaf min {
       type decimal64 {
         fraction-digits 1;
       }
       description
         "The minimum value of the statistic over the sampling
         period";
     }

     leaf max {
       type decimal64 {
         fraction-digits 1;
       }
       description
         "The maximum value of the statitic over the sampling
         period";
     }
   }

   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";

     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
         sampling period.";
     }

     leaf min {
       type decimal64 {
         fraction-digits 2;
       }
       units dB;
       description
         "The minimum value of the statistic over the sampling
         period";
     }

     leaf max {
       type decimal64 {
         fraction-digits 2;
       }
       units dB;
       description
         "The maximum value of the statistic over the sampling
         period";
     }
   }

   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";

     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
         sampling period.";
     }

     leaf min {
       type decimal64 {
         fraction-digits 2;
       }
       units dBm;
       description
         "The minimum value of the statistic over the sampling
         period";
     }

     leaf max {
       type decimal64 {
         fraction-digits 2;
       }
       units dBm;
       description
         "The maximum value of the statistic over the sampling
         period";
     }
   }

   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";

     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
         sampling period.";
     }

     leaf min {
       type decimal64 {
         fraction-digits 2;
       }
       units mA;
       description
         "The minimum value of the statistic over the sampling
         period";
     }

     leaf max {
       type decimal64 {
         fraction-digits 2;
       }
       units mA;
       description
         "The maximum value of the statistic over the sampling
         period";
     }
   }

   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";
   }

 }
	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 "0.3.3";

	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.";
	}

	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.";

	leaf avg {
	type decimal64 {
	fraction-digits 1;
	}
	description
	"The arithmetic mean value of the statistic over the
	sampling period.";
	}

	leaf min {
	type decimal64 {
	fraction-digits 1;
	}
	description
	"The minimum value of the statistic over the sampling
	period";
	}

	leaf max {
	type decimal64 {
	fraction-digits 1;
	}
	description
	"The maximum value of the statitic over the sampling
	period";
	}
	}

	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";

	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
	sampling period.";
	}

	leaf min {
	type decimal64 {
	fraction-digits 2;
	}
	units dB;
	description
	"The minimum value of the statistic over the sampling
	period";
	}

	leaf max {
	type decimal64 {
	fraction-digits 2;
	}
	units dB;
	description
	"The maximum value of the statistic over the sampling
	period";
	}
	}

	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";

	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
	sampling period.";
	}

	leaf min {
	type decimal64 {
	fraction-digits 2;
	}
	units dBm;
	description
	"The minimum value of the statistic over the sampling
	period";
	}

	leaf max {
	type decimal64 {
	fraction-digits 2;
	}
	units dBm;
	description
	"The maximum value of the statistic over the sampling
	period";
	}
	}

	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";

	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
	sampling period.";
	}

	leaf min {
	type decimal64 {
	fraction-digits 2;
	}
	units mA;
	description
	"The minimum value of the statistic over the sampling
	period";
	}

	leaf max {
	type decimal64 {
	fraction-digits 2;
	}
	units mA;
	description
	"The maximum value of the statistic over the sampling
	period";
	}
	}

	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";
	}

	}