Documentation
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Index ¶
- func C2onb191v4() base_elliptic.Curve
- func C2onb191v5() base_elliptic.Curve
- func C2onb239v4() base_elliptic.Curve
- func C2onb239v5() base_elliptic.Curve
- func C2pnb163v1() base_elliptic.Curve
- func C2pnb163v2() base_elliptic.Curve
- func C2pnb163v3() base_elliptic.Curve
- func C2pnb176w1() base_elliptic.Curve
- func C2pnb208w1() base_elliptic.Curve
- func C2pnb272w1() base_elliptic.Curve
- func C2pnb304w1() base_elliptic.Curve
- func C2pnb368w1() base_elliptic.Curve
- func C2tnb191v1() base_elliptic.Curve
- func C2tnb191v2() base_elliptic.Curve
- func C2tnb191v3() base_elliptic.Curve
- func C2tnb239v1() base_elliptic.Curve
- func C2tnb239v2() base_elliptic.Curve
- func C2tnb239v3() base_elliptic.Curve
- func C2tnb359v1() base_elliptic.Curve
- func C2tnb431r1() base_elliptic.Curve
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func C2onb191v4 ¶
func C2onb191v4() base_elliptic.Curve
C2onb191v4 returns a Curve which implements ANSI x9.62 c2onb191v4
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 C2onb191v5 ¶
func C2onb191v5() base_elliptic.Curve
C2onb191v5 returns a Curve which implements ANSI x9.62 c2onb191v5
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 C2onb239v4 ¶
func C2onb239v4() base_elliptic.Curve
C2onb239v4 returns a Curve which implements ANSI x9.62 c2onb239v4
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 C2onb239v5 ¶
func C2onb239v5() base_elliptic.Curve
C2onb239v5 returns a Curve which implements ANSI x9.62 c2onb239v5
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 C2pnb163v1 ¶
func C2pnb163v1() base_elliptic.Curve
C2pnb163v1 returns a Curve which implements ANSI x9.62 c2pnb163v1
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 C2pnb163v2 ¶
func C2pnb163v2() base_elliptic.Curve
C2pnb163v2 returns a Curve which implements ANSI x9.62 c2pnb163v2
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 C2pnb163v3 ¶
func C2pnb163v3() base_elliptic.Curve
C2pnb163v3 returns a Curve which implements ANSI x9.62 c2pnb163v3
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 C2pnb176w1 ¶
func C2pnb176w1() base_elliptic.Curve
C2pnb176w1 returns a Curve which implements ANSI x9.62 c2pnb176w1
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 C2pnb208w1 ¶
func C2pnb208w1() base_elliptic.Curve
C2pnb208w1 returns a Curve which implements ANSI x9.62 c2pnb208w1
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 C2pnb272w1 ¶
func C2pnb272w1() base_elliptic.Curve
C2pnb272w1 returns a Curve which implements ANSI x9.62 c2pnb272w1
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 C2pnb304w1 ¶
func C2pnb304w1() base_elliptic.Curve
C2pnb304w1 returns a Curve which implements ANSI x9.62 c2pnb304w1
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 C2pnb368w1 ¶
func C2pnb368w1() base_elliptic.Curve
C2pnb368w1 returns a Curve which implements ANSI x9.62 c2pnb368w1
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 C2tnb191v1 ¶
func C2tnb191v1() base_elliptic.Curve
C2tnb191v1 returns a Curve which implements ANSI x9.62 c2tnb191v1
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 C2tnb191v2 ¶
func C2tnb191v2() base_elliptic.Curve
C2tnb191v2 returns a Curve which implements ANSI x9.62 c2tnb191v2
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 C2tnb191v3 ¶
func C2tnb191v3() base_elliptic.Curve
C2tnb191v3 returns a Curve which implements ANSI x9.62 c2tnb191v3
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 C2tnb239v1 ¶
func C2tnb239v1() base_elliptic.Curve
C2tnb239v1 returns a Curve which implements ANSI x9.62 c2tnb239v1
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 C2tnb239v2 ¶
func C2tnb239v2() base_elliptic.Curve
C2tnb239v2 returns a Curve which implements ANSI x9.62 c2tnb239v2
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 C2tnb239v3 ¶
func C2tnb239v3() base_elliptic.Curve
C2tnb239v3 returns a Curve which implements ANSI x9.62 c2tnb239v3
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 C2tnb359v1 ¶
func C2tnb359v1() base_elliptic.Curve
C2tnb359v1 returns a Curve which implements ANSI x9.62 c2tnb359v1
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 C2tnb431r1 ¶
func C2tnb431r1() base_elliptic.Curve
C2tnb431r1 returns a Curve which implements ANSI x9.62 c2tnb431r1
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