| counter32 |
uint32 |
A 32-bit counter. A counter value is a monotonically increasing
value which is used to express a count of a number of
occurrences of a particular event or entity. When the counter
reaches its maximum value, in this case 2^32-1, it wraps to 0.
Discontinuities in the counter are generally triggered only when
the counter is reset to zero. |
| counter32 |
uint32 |
A 32-bit counter. A counter value is a monotonically increasing
value which is used to express a count of a number of
occurrences of a particular event or entity. When the counter
reaches its maximum value, in this case 2^32-1, it wraps to 0.
Discontinuities in the counter are generally triggered only when
the counter is reset to zero. |
| counter32 |
uint32 |
A 32-bit counter. A counter value is a monotonically increasing
value which is used to express a count of a number of
occurrences of a particular event or entity. When the counter
reaches its maximum value, in this case 2^32-1, it wraps to 0.
Discontinuities in the counter are generally triggered only when
the counter is reset to zero. |
| counter32 |
uint32 |
A 32-bit counter. A counter value is a monotonically increasing
value which is used to express a count of a number of
occurrences of a particular event or entity. When the counter
reaches its maximum value, in this case 2^32-1, it wraps to 0.
Discontinuities in the counter are generally triggered only when
the counter is reset to zero. |
| counter64 |
uint64 |
A 64-bit counter. A counter value is a monotonically increasing
value which is used to express a count of a number of
occurrences of a particular event or entity. When a counter64
reaches its maximum value, 2^64-1, it loops to zero.
Discontinuities in a counter are generally triggered only when
the counter is reset to zero, through operator or system
intervention. |
| counter64 |
uint64 |
A 64-bit counter. A counter value is a monotonically increasing
value which is used to express a count of a number of
occurrences of a particular event or entity. When a counter64
reaches its maximum value, 2^64-1, it loops to zero.
Discontinuities in a counter are generally triggered only when
the counter is reset to zero, through operator or system
intervention. |
| counter64 |
uint64 |
A 64-bit counter. A counter value is a monotonically increasing
value which is used to express a count of a number of
occurrences of a particular event or entity. When a counter64
reaches its maximum value, 2^64-1, it loops to zero.
Discontinuities in a counter are generally triggered only when
the counter is reset to zero, through operator or system
intervention. |
| counter64 |
uint64 |
A 64-bit counter. A counter value is a monotonically increasing
value which is used to express a count of a number of
occurrences of a particular event or entity. When a counter64
reaches its maximum value, 2^64-1, it loops to zero.
Discontinuities in a counter are generally triggered only when
the counter is reset to zero, through operator or system
intervention. |
| date |
string |
A full UTC date, expressed in the format described in RFC3339.
That is to say:
YYYY-MM-DD
where YYYY is the year, MM is the month expressed as a two-digit
month (zero padding if required), DD is the day of the month,
expressed as a two digit value. |
| date |
string |
A full UTC date, expressed in the format described in RFC3339.
That is to say:
YYYY-MM-DD
where YYYY is the year, MM is the month expressed as a two-digit
month (zero padding if required), DD is the day of the month,
expressed as a two digit value. |
| date |
string |
A full UTC date, expressed in the format described in RFC3339.
That is to say:
YYYY-MM-DD
where YYYY is the year, MM is the month expressed as a two-digit
month (zero padding if required), DD is the day of the month,
expressed as a two digit value. |
| date-and-time |
string |
A date and time, expressed in the format described in RFC3339.
That is to say:
YYYY-MM-DDTHH:MM:SSZ+-hh:mm
where YYYY is the year, MM is the month expressed as a two-digit
month (zero padding if required), DD is the day of the month,
expressed as a two digit value. T is the literal character 'T',
HH is the hour of the day expressed as a two digit number, using
the 24-hour clock, MM is the minute of the hour expressed as a
two digit number. Z is the literal character 'Z', followed by a
timezone offset expressed in hours (hh) and minutes (mm), both
expressed as two digit numbers. The time offset is specified as
a positive or negative offset to UTC using the '+' or '-'
character preceding the offset.
Optionally, fractional seconds can be expressed after the minute
of the hour as a decimal number of unspecified precision
reflecting fractions of a second. |
| date-and-time |
string |
A date and time, expressed in the format described in RFC3339.
That is to say:
YYYY-MM-DDTHH:MM:SSZ+-hh:mm
where YYYY is the year, MM is the month expressed as a two-digit
month (zero padding if required), DD is the day of the month,
expressed as a two digit value. T is the literal character 'T',
HH is the hour of the day expressed as a two digit number, using
the 24-hour clock, MM is the minute of the hour expressed as a
two digit number. Z is the literal character 'Z', followed by a
timezone offset expressed in hours (hh) and minutes (mm), both
expressed as two digit numbers. The time offset is specified as
a positive or negative offset to UTC using the '+' or '-'
character preceding the offset.
Optionally, fractional seconds can be expressed after the minute
of the hour as a decimal number of unspecified precision
reflecting fractions of a second. |
| date-and-time |
string |
A date and time, expressed in the format described in RFC3339.
That is to say:
YYYY-MM-DDTHH:MM:SSZ+-hh:mm
where YYYY is the year, MM is the month expressed as a two-digit
month (zero padding if required), DD is the day of the month,
expressed as a two digit value. T is the literal character 'T',
HH is the hour of the day expressed as a two digit number, using
the 24-hour clock, MM is the minute of the hour expressed as a
two digit number. Z is the literal character 'Z', followed by a
timezone offset expressed in hours (hh) and minutes (mm), both
expressed as two digit numbers. The time offset is specified as
a positive or negative offset to UTC using the '+' or '-'
character preceding the offset.
Optionally, fractional seconds can be expressed after the minute
of the hour as a decimal number of unspecified precision
reflecting fractions of a second. |
| date-and-time |
string |
A date and time, expressed in the format described in RFC3339.
That is to say:
YYYY-MM-DDTHH:MM:SSZ+-hh:mm
where YYYY is the year, MM is the month expressed as a two-digit
month (zero padding if required), DD is the day of the month,
expressed as a two digit value. T is the literal character 'T',
HH is the hour of the day expressed as a two digit number, using
the 24-hour clock, MM is the minute of the hour expressed as a
two digit number. Z is the literal character 'Z', followed by a
timezone offset expressed in hours (hh) and minutes (mm), both
expressed as two digit numbers. The time offset is specified as
a positive or negative offset to UTC using the '+' or '-'
character preceding the offset.
Optionally, fractional seconds can be expressed after the minute
of the hour as a decimal number of unspecified precision
reflecting fractions of a second. |
| dotted-quad |
string |
An unsigned 32-bit integer expressed as a dotted quad. The
format is four octets written as decimal numbers separated
with a period character. |
| dotted-quad |
string |
An unsigned 32-bit integer expressed as a dotted quad. The
format is four octets written as decimal numbers separated
with a period character. |
| dotted-quad |
string |
An unsigned 32-bit integer expressed as a dotted quad. The
format is four octets written as decimal numbers separated
with a period character. |
| dotted-quad |
string |
An unsigned 32-bit integer expressed as a dotted quad. The
format is four octets written as decimal numbers separated
with a period character. |
| gauge64 |
uint64 |
A gauge value may increase or decrease - and reflects a value
at a particular point in time. If the value of the variable
being modeled using the gauge exceeds its maximum - 2^64-1 in
this case - the gauge is set to its maximum value. |
| gauge64 |
uint64 |
A gauge value may increase or decrease - and reflects a value
at a particular point in time. If the value of the variable
being modeled using the gauge exceeds its maximum - 2^64-1 in
this case - the gauge is set to its maximum value. |
| gauge64 |
uint64 |
A gauge value may increase or decrease - and reflects a value
at a particular point in time. If the value of the variable
being modeled using the gauge exceeds its maximum - 2^64-1 in
this case - the gauge is set to its maximum value. |
| gauge64 |
uint64 |
A gauge value may increase or decrease - and reflects a value
at a particular point in time. If the value of the variable
being modeled using the gauge exceeds its maximum - 2^64-1 in
this case - the gauge is set to its maximum value. |
| hex-string |
string |
A string consisting of a hexadecimal characters. |
| hex-string |
string |
A string consisting of a hexadecimal characters. |
| hex-string |
string |
A string consisting of a hexadecimal characters. |
| hex-string |
string |
A string consisting of a hexadecimal characters. |
| mac-address |
string |
An IEEE 802 MAC address |
| mac-address |
string |
An IEEE 802 MAC address |
| mac-address |
string |
An IEEE 802 MAC address |
| mac-address |
string |
An IEEE 802 MAC address |
| phys-address |
string |
A physical layer address, expressed as a series of pairs of
hexadecimal digits. |
| phys-address |
string |
A physical layer address, expressed as a series of pairs of
hexadecimal digits. |
| phys-address |
string |
A physical layer address, expressed as a series of pairs of
hexadecimal digits. |
| phys-address |
string |
A physical layer address, expressed as a series of pairs of
hexadecimal digits. |