NetconfCentral:

Typedef	Base type	Abstract
ieeefloat32	binary	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)
ieeefloat32	binary	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)
ieeefloat32	binary	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)
ieeefloat32	binary	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)
percentage	uint8	Integer indicating a percentage value
percentage	uint8	Integer indicating a percentage value
percentage	uint8	Integer indicating a percentage value
percentage	uint8	Integer indicating a percentage value
posix-eregexp	string	This is a string which represents an extended POSIX regular expression.
routing-password	string	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.
routing-password	string	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.
routing-password	string	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.
routing-password	string	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.
stat-interval	uint64	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.
stat-interval	uint64	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.
stat-interval	uint64	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.
stat-interval	uint64	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.
std-regexp	string	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.
std-regexp	string	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.
std-regexp	string	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.
std-regexp	string	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.
timeticks64	uint64	The timeticks64 represents the time, modulo 2^64 in nanoseconds between two epochs. The leaf using this type must define the epochs that tests are relative to.
timeticks64	uint64	The timeticks64 represents the time, modulo 2^64 in nanoseconds between two epochs. The leaf using this type must define the epochs that tests are relative to.
timeticks64	uint64	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.
timeticks64	uint64	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.

ieeefloat32

binary

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)

ieeefloat32

binary

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)

ieeefloat32

binary

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)

ieeefloat32

binary

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)

percentage

uint8

Integer indicating a percentage value

percentage

uint8

Integer indicating a percentage value

percentage

uint8

Integer indicating a percentage value

percentage

uint8

Integer indicating a percentage value

posix-eregexp

string

This is a string which represents an extended POSIX regular expression.

routing-password

string

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.

routing-password

string

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.

routing-password

string

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.

routing-password

string

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.

stat-interval

uint64

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.

stat-interval

uint64

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.

stat-interval

uint64

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.

stat-interval

uint64

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.

std-regexp

string

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.

std-regexp

string

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.

std-regexp

string

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.

std-regexp

string

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.

timeticks64

uint64

The timeticks64 represents the time, modulo 2^64 in nanoseconds between two epochs. The leaf using this type must define the epochs that tests are relative to.

timeticks64

uint64

The timeticks64 represents the time, modulo 2^64 in nanoseconds between two epochs. The leaf using this type must define the epochs that tests are relative to.

timeticks64

uint64

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.

timeticks64

uint64

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.

openconfig-types