pkcs12

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Published: Jan 30, 2023 License: BSD-3-Clause Imports: 21 Imported by: 1

README

package pkcs12

Documentation

import "software.sslmate.com/src/go-pkcs12" 

Package pkcs12 implements some of PKCS#12 (also known as P12 or PFX). It is intended for decoding DER-encoded P12/PFX files for use with the crypto/tls package, and for encoding P12/PFX files for use by legacy applications which do not support newer formats. Since PKCS#12 uses weak encryption primitives, it SHOULD NOT be used for new applications.

Note that only DER-encoded PKCS#12 files are supported, even though PKCS#12 allows BER encoding. This is because encoding/asn1 only supports DER.

This package is forked from golang.org/x/crypto/pkcs12, which is frozen. The implementation is distilled from https://tools.ietf.org/html/rfc7292 and referenced documents.

Import Path

Note that although the source code and issue tracker for this package are hosted on GitHub, the import path is:

software.sslmate.com/src/go-pkcs12 

Please be sure to use this path when you go get and import this package.

Report Issues / Send Patches

Open an issue or PR at https://github.com/SSLMate/go-pkcs12

Documentation

Overview

Package pkcs12 implements some of PKCS#12 (also known as P12 or PFX). It is intended for decoding DER-encoded P12/PFX files for use with the crypto/tls package, and for encoding P12/PFX files for use by legacy applications which do not support newer formats. Since PKCS#12 uses weak encryption primitives, it SHOULD NOT be used for new applications.

Note that only DER-encoded PKCS#12 files are supported, even though PKCS#12 allows BER encoding. This is because encoding/asn1 only supports DER.

This package is forked from golang.org/x/crypto/pkcs12, which is frozen. The implementation is distilled from https://tools.ietf.org/html/rfc7292 and referenced documents.

Index

Constants

View Source
const DefaultPassword = "changeit"

DefaultPassword is the string "changeit", a commonly-used password for PKCS#12 files. Due to the weak encryption used by PKCS#12, it is RECOMMENDED that you use DefaultPassword when encoding PKCS#12 files, and protect the PKCS#12 files using other means.

Variables

View Source
var (
	// ErrDecryption represents a failure to decrypt the input.
	ErrDecryption = errors.New("pkcs12: decryption error, incorrect padding")

	// ErrIncorrectPassword is returned when an incorrect password is detected.
	// Usually, P12/PFX data is signed to be able to verify the password.
	ErrIncorrectPassword = errors.New("pkcs12: decryption password incorrect")
)

Functions

func Decode

func Decode(pfxData []byte, password string) (privateKey interface{}, certificate *x509.Certificate, err error)

Decode extracts a certificate and private key from pfxData, which must be a DER-encoded PKCS#12 file. This function assumes that there is only one certificate and only one private key in the pfxData. Since PKCS#12 files often contain more than one certificate, you probably want to use DecodeChain instead.

func DecodeChain

func DecodeChain(pfxData []byte, password string) (privateKey interface{}, certificate *x509.Certificate, caCerts []*x509.Certificate, err error)

DecodeChain extracts a certificate, a CA certificate chain, and private key from pfxData, which must be a DER-encoded PKCS#12 file. This function assumes that there is at least one certificate and only one private key in the pfxData. The first certificate is assumed to be the leaf certificate, and subsequent certificates, if any, are assumed to comprise the CA certificate chain.

func DecodeTrustStore

func DecodeTrustStore(pfxData []byte, password string) (certs []*x509.Certificate, err error)

DecodeTrustStore extracts the certificates from pfxData, which must be a DER-encoded PKCS#12 file containing exclusively certificates with attribute 2.16.840.1.113894.746875.1.1, which is used by Java to designate a trust anchor.

func Encode

func Encode(rand io.Reader, privateKey interface{}, certificate *x509.Certificate, caCerts []*x509.Certificate, password string) (pfxData []byte, err error)

Encode produces pfxData containing one private key (privateKey), an end-entity certificate (certificate), and any number of CA certificates (caCerts).

The private key is encrypted with the provided password, but due to the weak encryption primitives used by PKCS#12, it is RECOMMENDED that you specify a hard-coded password (such as DefaultPassword) and protect the resulting pfxData using other means.

The rand argument is used to provide entropy for the encryption, and can be set to crypto/rand.Reader.

Encode emulates the behavior of OpenSSL's PKCS12_create: it creates two SafeContents: one that's encrypted with RC2 and contains the certificates, and another that is unencrypted and contains the private key shrouded with 3DES The private key bag and the end-entity certificate bag have the LocalKeyId attribute set to the SHA-1 fingerprint of the end-entity certificate.

func EncodeTrustStore

func EncodeTrustStore(rand io.Reader, certs []*x509.Certificate, password string) (pfxData []byte, err error)

EncodeTrustStore produces pfxData containing any number of CA certificates (certs) to be trusted. The certificates will be marked with a special OID that allow it to be used as a Java TrustStore in Java 1.8 and newer.

Due to the weak encryption primitives used by PKCS#12, it is RECOMMENDED that you specify a hard-coded password (such as DefaultPassword) and protect the resulting pfxData using other means.

The rand argument is used to provide entropy for the encryption, and can be set to crypto/rand.Reader.

EncodeTrustStore creates a single SafeContents that's encrypted with RC2 and contains the certificates.

The Subject of the certificates are used as the Friendly Names (Aliases) within the resulting pfxData. If certificates share a Subject, then the resulting Friendly Names (Aliases) will be identical, which Java may treat as the same entry when used as a Java TrustStore, e.g. with `keytool`. To customize the Friendly Names, use EncodeTrustStoreEntries.

func EncodeTrustStoreEntries

func EncodeTrustStoreEntries(rand io.Reader, entries []TrustStoreEntry, password string) (pfxData []byte, err error)

EncodeTrustStoreEntries produces pfxData containing any number of CA certificates (entries) to be trusted. The certificates will be marked with a special OID that allow it to be used as a Java TrustStore in Java 1.8 and newer.

This is identical to EncodeTrustStore, but also allows for setting specific Friendly Names (Aliases) to be used per certificate, by specifying a slice of TrustStoreEntry.

If the same Friendly Name is used for more than one certificate, then the resulting Friendly Names (Aliases) in the pfxData will be identical, which Java may treat as the same entry when used as a Java TrustStore, e.g. with `keytool`.

Due to the weak encryption primitives used by PKCS#12, it is RECOMMENDED that you specify a hard-coded password (such as DefaultPassword) and protect the resulting pfxData using other means.

The rand argument is used to provide entropy for the encryption, and can be set to crypto/rand.Reader.

EncodeTrustStoreEntries creates a single SafeContents that's encrypted with RC2 and contains the certificates.

func ToPEM deprecated

func ToPEM(pfxData []byte, password string) ([]*pem.Block, error)

ToPEM converts all "safe bags" contained in pfxData to PEM blocks.

Deprecated: ToPEM creates invalid PEM blocks (private keys are encoded as raw RSA or EC private keys rather than PKCS#8 despite being labeled "PRIVATE KEY"). To decode a PKCS#12 file, use DecodeChain instead, and use the encoding/pem package to convert to PEM if necessary.

Types

type NotImplementedError

type NotImplementedError string

NotImplementedError indicates that the input is not currently supported.

func (NotImplementedError) Error

func (e NotImplementedError) Error() string

type TrustStoreEntry

type TrustStoreEntry struct {
	Cert         *x509.Certificate
	FriendlyName string
}

TrustStoreEntry represents an entry in a Java TrustStore.

Directories

Path Synopsis
internal
rc2
Package rc2 implements the RC2 cipher
Package rc2 implements the RC2 cipher

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