boring

package
v0.0.5 Latest Latest
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 Go to latest Published: Jun 20, 2023 License: BSD-3-Clause, BSD-3-Clause, ISC, + 1 more Imports: 4 Imported by: 0

README

We have been working inside Google on a fork of Go that uses BoringCrypto (the core of BoringSSL) for various crypto primitives, in furtherance of some work related to FIPS 140. We have heard that some external users of Go would be interested in this code as well, so we have published this code here in the main Go repository behind the setting GOEXPERIMENT=boringcrypto.

Use of GOEXPERIMENT=boringcrypto outside Google is unsupported. This mode is not part of the Go 1 compatibility rules, and it may change incompatibly or break in other ways at any time.

To be clear, we are not making any statements or representations about the suitability of this code in relation to the FIPS 140 standard. Interested users will have to evaluate for themselves whether the code is useful for their own purposes.

This directory holds the core of the BoringCrypto implementation as well as the build scripts for the module itself: syso/*.syso.

syso/goboringcrypto_linux_amd64.syso is built with:

GOARCH=amd64 ./build.sh

syso/goboringcrypto_linux_arm64.syso is built with:

GOARCH=arm64 ./build.sh

Both run on an x86 Debian Linux system using Docker. For the arm64 build to run on an x86 system, you need

apt-get install qemu-user-static qemu-binfmt-support

to allow the x86 kernel to run arm64 binaries via QEMU.

See build.sh for more details about the build.

Documentation

Overview

Package boring provides access to BoringCrypto implementation functions. Check the constant Enabled to find out whether BoringCrypto is available. If BoringCrypto is not available, the functions in this package all panic.

Index

Constants

View Source 
const Enabled = available

Enabled reports whether BoringCrypto is available. When enabled is false, all functions in this package panic.

BoringCrypto is only available on linux/amd64 systems.

View Source 
const RandReader = randReader(0)

Variables

This section is empty.

Functions

func DecryptRSANoPadding 

func DecryptRSANoPadding(priv *PrivateKeyRSA, ciphertext []byte) ([]byte, error)

func DecryptRSAOAEP 

func DecryptRSAOAEP(h, mgfHash hash.Hash, priv *PrivateKeyRSA, ciphertext, label []byte) ([]byte, error)

func DecryptRSAPKCS1 

func DecryptRSAPKCS1(priv *PrivateKeyRSA, ciphertext []byte) ([]byte, error)

func ECDH 

func ECDH(*PrivateKeyECDH, *PublicKeyECDH) ([]byte, error)

func EncryptRSANoPadding 

func EncryptRSANoPadding(pub *PublicKeyRSA, msg []byte) ([]byte, error)

func EncryptRSAOAEP 

func EncryptRSAOAEP(h, mgfHash hash.Hash, pub *PublicKeyRSA, msg, label []byte) ([]byte, error)

func EncryptRSAPKCS1 

func EncryptRSAPKCS1(pub *PublicKeyRSA, msg []byte) ([]byte, error)

func NewAESCipher 

func NewAESCipher(key []byte) (cipher.Block, error)

func NewGCMTLS 

func NewGCMTLS(cipher.Block) (cipher.AEAD, error)

func NewHMAC 

func NewHMAC(h func() hash.Hash, key []byte) hash.Hash

func NewSHA1 

func NewSHA1() hash.Hash

func NewSHA224 

func NewSHA224() hash.Hash

func NewSHA256 

func NewSHA256() hash.Hash

func NewSHA384 

func NewSHA384() hash.Hash

func NewSHA512 

func NewSHA512() hash.Hash

func SHA1 

func SHA1([]byte) [20]byte

func SHA224 

func SHA224([]byte) [28]byte

func SHA256 

func SHA256([]byte) [32]byte

func SHA384 

func SHA384([]byte) [48]byte

func SHA512 

func SHA512([]byte) [64]byte

func SignMarshalECDSA 

func SignMarshalECDSA(priv *PrivateKeyECDSA, hash []byte) ([]byte, error)

func SignRSAPKCS1v15 

func SignRSAPKCS1v15(priv *PrivateKeyRSA, h crypto.Hash, hashed []byte) ([]byte, error)

func SignRSAPSS 

func SignRSAPSS(priv *PrivateKeyRSA, h crypto.Hash, hashed []byte, saltLen int) ([]byte, error)

func Unreachable 

func Unreachable()

Unreachable marks code that should be unreachable when BoringCrypto is in use. It is a no-op without BoringCrypto.

func UnreachableExceptTests 

func UnreachableExceptTests()

UnreachableExceptTests marks code that should be unreachable when BoringCrypto is in use. It is a no-op without BoringCrypto.

func VerifyECDSA 

func VerifyECDSA(pub *PublicKeyECDSA, hash []byte, sig []byte) bool

func VerifyRSAPKCS1v15 

func VerifyRSAPKCS1v15(pub *PublicKeyRSA, h crypto.Hash, hashed, sig []byte) error

func VerifyRSAPSS 

func VerifyRSAPSS(pub *PublicKeyRSA, h crypto.Hash, hashed, sig []byte, saltLen int) error

Types

type BigInt 

type BigInt []uint

A BigInt is the raw words from a BigInt. This definition allows us to avoid importing math/big. Conversion between BigInt and *big.Int is in crypto/internal/boring/bbig.

func GenerateKeyECDSA 

func GenerateKeyECDSA(curve string) (X, Y, D BigInt, err error)

func GenerateKeyRSA 

func GenerateKeyRSA(bits int) (N, E, D, P, Q, Dp, Dq, Qinv BigInt, err error)

type PrivateKeyECDH 

type PrivateKeyECDH struct{}

func GenerateKeyECDH 

func GenerateKeyECDH(string) (*PrivateKeyECDH, []byte, error)

func NewPrivateKeyECDH 

func NewPrivateKeyECDH(string, []byte) (*PrivateKeyECDH, error)

func (*PrivateKeyECDH) PublicKey 

func (*PrivateKeyECDH) PublicKey() (*PublicKeyECDH, error)

type PrivateKeyECDSA 

type PrivateKeyECDSA struct {
	// contains filtered or unexported fields
}

func NewPrivateKeyECDSA 

func NewPrivateKeyECDSA(curve string, X, Y, D BigInt) (*PrivateKeyECDSA, error)

type PrivateKeyRSA 

type PrivateKeyRSA struct {
	// contains filtered or unexported fields
}

func NewPrivateKeyRSA 

func NewPrivateKeyRSA(N, E, D, P, Q, Dp, Dq, Qinv BigInt) (*PrivateKeyRSA, error)

type PublicKeyECDH 

type PublicKeyECDH struct{}

func NewPublicKeyECDH 

func NewPublicKeyECDH(string, []byte) (*PublicKeyECDH, error)

func (*PublicKeyECDH) Bytes 

func (*PublicKeyECDH) Bytes() []byte

type PublicKeyECDSA 

type PublicKeyECDSA struct {
	// contains filtered or unexported fields
}

func NewPublicKeyECDSA 

func NewPublicKeyECDSA(curve string, X, Y BigInt) (*PublicKeyECDSA, error)

type PublicKeyRSA 

type PublicKeyRSA struct {
	// contains filtered or unexported fields
}

func NewPublicKeyRSA 

func NewPublicKeyRSA(N, E BigInt) (*PublicKeyRSA, error)

Source Files

View all Source files

Directories

Path Synopsis
Package bcache implements a GC-friendly cache (see [Cache]) for BoringCrypto.
 Package bcache implements a GC-friendly cache (see [Cache]) for BoringCrypto.
Package sig holds “code signatures” that can be called and will result in certain code sequences being linked into the final binary.
 Package sig holds “code signatures” that can be called and will result in certain code sequences being linked into the final binary.

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