Documentation
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Index ¶
- func Ansit163k1() base_elliptic.Curve
- func Ansit163r1() base_elliptic.Curve
- func Ansit163r2() base_elliptic.Curve
- func Ansit193r1() base_elliptic.Curve
- func Ansit193r2() base_elliptic.Curve
- func Ansit233k1() base_elliptic.Curve
- func Ansit233r1() base_elliptic.Curve
- func Ansit239k1() base_elliptic.Curve
- func Ansit283k1() base_elliptic.Curve
- func Ansit283r1() base_elliptic.Curve
- func Ansit409k1() base_elliptic.Curve
- func Ansit409r1() base_elliptic.Curve
- func Ansit571k1() base_elliptic.Curve
- func Ansit571r1() base_elliptic.Curve
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func Ansit163k1 ¶
func Ansit163k1() base_elliptic.Curve
Ansit163k1 returns a Curve which implements ANSI X9.63 ansit163k1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit163r1 ¶
func Ansit163r1() base_elliptic.Curve
Ansit163r1 returns a Curve which implements ANSI X9.63 ansit163r1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit163r2 ¶
func Ansit163r2() base_elliptic.Curve
Ansit163r2 returns a Curve which implements ANSI X9.63 ansit163r2
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit193r1 ¶
func Ansit193r1() base_elliptic.Curve
Ansit193r1 returns a Curve which implements ANSI X9.63 ansit193r1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit193r2 ¶
func Ansit193r2() base_elliptic.Curve
Ansit193r2 returns a Curve which implements ANSI X9.63 ansit193r2
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit233k1 ¶
func Ansit233k1() base_elliptic.Curve
Ansit233k1 returns a Curve which implements ANSI X9.63 ansit233k1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit233r1 ¶
func Ansit233r1() base_elliptic.Curve
Ansit233r1 returns a Curve which implements ANSI X9.63 ansit233r1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit239k1 ¶
func Ansit239k1() base_elliptic.Curve
Ansit239k1 returns a Curve which implements ANSI X9.63 ansit239k1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit283k1 ¶
func Ansit283k1() base_elliptic.Curve
Ansit283k1 returns a Curve which implements ANSI X9.63 ansit283k1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit283r1 ¶
func Ansit283r1() base_elliptic.Curve
Ansit283r1 returns a Curve which implements ANSI X9.63 ansit283r1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit409k1 ¶
func Ansit409k1() base_elliptic.Curve
Ansit409k1 returns a Curve which implements ANSI X9.63 ansit409k1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit409r1 ¶
func Ansit409r1() base_elliptic.Curve
Ansit409r1 returns a Curve which implements ANSI X9.63 ansit409r1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit571k1 ¶
func Ansit571k1() base_elliptic.Curve
Ansit571k1 returns a Curve which implements ANSI X9.63 ansit571k1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
func Ansit571r1 ¶
func Ansit571r1() base_elliptic.Curve
Ansit571r1 returns a Curve which implements ANSI X9.63 ansit571r1
Multiple invocations of this function will return the same value, so it can be used for equality checks and switch statements.
The cryptographic operations are implemented using constant-time algorithms.
Types ¶
This section is empty.
Source Files