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okay, aes done for real this time.

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This commit is contained in:
brent s.
2022-04-29 04:09:49 -04:00
parent 0203f8b0d8
commit 234de69be2
27 changed files with 198 additions and 687 deletions
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10
cipher/aes/aes128/consts.go
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@@ -1,10 +0,0 @@
package aes128
import (
sshAES `r00t2.io/sshkeys/cipher/aes`
)
const (
KeySize int = 16 // in bytes; AES128 is so named for its 128-bit key, thus: 128 / 8 = 16
KdfKeySize int = KeySize + sshAES.IvSize
)

1
cipher/aes/aes128/gcm/TODO
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@@ -1 +0,0 @@
TODO

1
cipher/aes/aes192/cbc/TODO
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@@ -1 +0,0 @@
TODO

130
cipher/aes/aes192/cbc/funcs.go
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@@ -1,32 +1,26 @@
package cbc
import (
`bytes`
gAes `crypto/aes`
gCipher `crypto/cipher`
`io`
"bytes"
gCipher "crypto/cipher"
`r00t2.io/sshkeys/cipher`
`r00t2.io/sshkeys/cipher/aes`
`r00t2.io/sshkeys/cipher/aes/aes128`
`r00t2.io/sshkeys/internal`
"r00t2.io/sshkeys/internal"
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Setup populates a Cipher from a key. The key must include the IV suffixed to the actual key.
func (c *Cipher) Setup(key []byte) (err error) {
if key == nil || len(key) < aes128.KdfKeySize {
err = cipher.ErrBadKeyLen
if c == nil {
*c = Cipher{
&aesCommon.AesCipher{},
}
}
if err = c.CipherSetup(key, aesCommon.Aes192Bits); err != nil {
return
}
if c == nil {
c = &Cipher{}
}
c.key = key[0:aes128.KeySize]
c.iv = key[aes128.KeySize:(aes128.KdfKeySize)]
return
}
@@ -50,22 +44,6 @@ func (c *Cipher) NameBytes() (name []byte) {
return
}
// BlockSize returns the blocksize of this Cipher.
func (c *Cipher) BlockSize() (size int) {
size = aes.BlockSize
return
}
// KdfKeySize returns the target key length from KDF to use with this Cipher.
func (c *Cipher) KdfKeySize() (size int) {
size = aes128.KeySize
return
}
/*
Encrypt encrypts data (a string, []byte, byte, *bytes.Buffer, or *bytes.Reader) to the *bytes.Reader encrypted.
@@ -78,33 +56,18 @@ func (c *Cipher) KdfKeySize() (size int) {
*/
func (c *Cipher) Encrypt(data interface{}) (encrypted *bytes.Reader, err error) {
var b []byte
var padded []byte
var cryptDst []byte
var padded *bytes.Reader
var cryptBlock gCipher.Block
var crypter gCipher.BlockMode
if b, err = internal.SerializeData(data); err != nil {
if cryptDst, padded, cryptBlock, err = c.GetCryptBlock(data); err != nil {
return
}
if padded, err = c.Pad(b); err != nil {
return
}
crypter = gCipher.NewCBCEncrypter(cryptBlock, c.IV)
b = make([]byte, padded.Len())
if b, err = io.ReadAll(padded); err != nil {
return
}
cryptDst = make([]byte, len(b))
if cryptBlock, err = gAes.NewCipher(c.key); err != nil {
return
}
crypter = gCipher.NewCBCEncrypter(cryptBlock, c.iv)
crypter.CryptBlocks(cryptDst, b)
crypter.CryptBlocks(cryptDst, padded)
encrypted = bytes.NewReader(cryptDst)
@@ -146,40 +109,6 @@ func (c *Cipher) AllocateEncrypt(data interface{}) (encrypted *bytes.Reader, err
return
}
/*
Pad will pad data (a string, []byte, byte, or *bytes.Buffer) to the Cipher.BlockSize (if necessary).
The resulting padded buffer is returned.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.Pad.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
var b []byte
var padNum int
var pad []byte
var buf *bytes.Buffer
if b, err = internal.UnpackBytes(data); err != nil {
return
}
buf = bytes.NewBuffer(b)
for padIdx := 1; (buf.Len() % aes.BlockSize) != 0; padIdx++ {
padNum = padIdx & cipher.PadMod
pad = []byte{byte(uint32(padNum))}
if _, err = buf.Write(pad); err != nil {
return
}
}
return
}
/*
Decrypt takes a raw byte slice, a *bytes.Buffer, or a *bytes.Reader and returns a plain/decrypted *bytes.Reader.
@@ -192,25 +121,20 @@ func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
*/
func (c *Cipher) Decrypt(data interface{}) (decrypted *bytes.Reader, err error) {
var b []byte
var decryptDst []byte
var plain []byte
var padded []byte
var cryptBlock gCipher.Block
var decrypter gCipher.BlockMode
if b, err = internal.SerializeData(data); err != nil {
if plain, padded, cryptBlock, err = c.GetDecryptBlock(data); err != nil {
return
}
decryptDst = make([]byte, len(b))
decrypter = gCipher.NewCBCDecrypter(cryptBlock, c.IV)
if cryptBlock, err = gAes.NewCipher(c.key); err != nil {
return
}
decrypter = gCipher.NewCBCDecrypter(cryptBlock, c.iv)
decrypter.CryptBlocks(plain, padded)
decrypter.CryptBlocks(decryptDst, b)
decrypted = bytes.NewReader(decryptDst)
decrypted = bytes.NewReader(plain)
return
}
@@ -239,15 +163,3 @@ func (c *Cipher) AllocatedDecrypt(data interface{}) (decrypted *bytes.Reader, er
return
}
/*
IsPlain indicates if this Cipher is a plain/null encryption (cipher.null.Null).
It will always return false. It is included for interface compatability.
*/
func (c *Cipher) IsPlain() (plain bool) {
plain = false
return
}

10
cipher/aes/aes192/cbc/types.go Normal file
View File

@@ -0,0 +1,10 @@
package cbc
import (
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Cipher is an AES128-CBC cipher.Cipher.
type Cipher struct {
*aesCommon.AesCipher
}

10
cipher/aes/aes192/consts.go
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@@ -1,10 +0,0 @@
package aes192
import (
`r00t2.io/sshkeys/cipher/aes`
)
const (
KeySize int = 24 // in bytes; AES182 is so named for its 192-bit key, thus: 192 / 8 = 24
KdfKeySize int = KeySize + aes.IvSize
)

1
cipher/aes/aes192/ctr/TODO
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@@ -1 +0,0 @@
TODO

100
cipher/aes/aes192/ctr/funcs.go
View File

@@ -1,17 +1,25 @@
package ctr
import (
`bytes`
`io`
"bytes"
gCipher "crypto/cipher"
`r00t2.io/sshkeys/cipher/aes`
`r00t2.io/sshkeys/cipher/aes/aes128`
`r00t2.io/sshkeys/internal`
"r00t2.io/sshkeys/internal"
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Setup populates a Cipher from a key. The key must include the IV suffixed to the actual key.
func (c *Cipher) Setup(key []byte) (err error) {
// TODO
if c == nil {
*c = Cipher{
&aesCommon.AesCipher{},
}
}
if err = c.CipherSetup(key, aesCommon.Aes192Bits); err != nil {
return
}
return
}
@@ -36,22 +44,6 @@ func (c *Cipher) NameBytes() (name []byte) {
return
}
// BlockSize returns the blocksize of this Cipher.
func (c *Cipher) BlockSize() (size int) {
size = aes.BlockSize
return
}
// KdfKeySize returns the target key length from KDF to use with this Cipher.
func (c *Cipher) KdfKeySize() (size int) {
size = aes128.KeySize
return
}
/*
Encrypt encrypts data (a string, []byte, byte, *bytes.Buffer, or *bytes.Reader) to the *bytes.Reader encrypted.
@@ -64,27 +56,20 @@ func (c *Cipher) KdfKeySize() (size int) {
*/
func (c *Cipher) Encrypt(data interface{}) (encrypted *bytes.Reader, err error) {
var b []byte
var padded []byte
var cryptDst []byte
var padded *bytes.Reader
var cryptBlock gCipher.Block
var crypter gCipher.Stream
if b, err = internal.SerializeData(data); err != nil {
if cryptDst, padded, cryptBlock, err = c.GetCryptBlock(data); err != nil {
return
}
if padded, err = c.Pad(b); err != nil {
return
}
crypter = gCipher.NewCTR(cryptBlock, c.IV)
b = make([]byte, padded.Len())
if b, err = io.ReadAll(padded); err != nil {
return
}
crypter.XORKeyStream(cryptDst, padded)
cryptDst = make([]byte, len(b))
// TODO
_ = cryptDst
encrypted = bytes.NewReader(cryptDst)
return
}
@@ -124,22 +109,6 @@ func (c *Cipher) AllocateEncrypt(data interface{}) (encrypted *bytes.Reader, err
return
}
/*
Pad will pad data (a string, []byte, byte, or *bytes.Buffer) to the Cipher.BlockSize (if necessary).
The resulting padded buffer is returned.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.Pad.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
// TODO
return
}
/*
Decrypt takes a raw byte slice, a *bytes.Buffer, or a *bytes.Reader and returns a plain/decrypted *bytes.Reader.
@@ -152,17 +121,20 @@ func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
*/
func (c *Cipher) Decrypt(data interface{}) (decrypted *bytes.Reader, err error) {
var b []byte
var decryptDst []byte
var plain []byte
var padded []byte
var cryptBlock gCipher.Block
var decrypter gCipher.Stream
if b, err = internal.SerializeData(data); err != nil {
if plain, padded, cryptBlock, err = c.GetDecryptBlock(data); err != nil {
return
}
decryptDst = make([]byte, len(b))
decrypter = gCipher.NewCTR(cryptBlock, c.IV)
// TODO
_ = decryptDst
decrypter.XORKeyStream(plain, padded)
decrypted = bytes.NewReader(plain)
return
}
@@ -191,15 +163,3 @@ func (c *Cipher) AllocatedDecrypt(data interface{}) (decrypted *bytes.Reader, er
return
}
/*
IsPlain indicates if this Cipher is a plain/null encryption (cipher.null.Null).
It will always return false. It is included for interface compatability.
*/
func (c *Cipher) IsPlain() (plain bool) {
plain = false
return
}

10
cipher/aes/aes192/ctr/types.go Normal file
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@@ -0,0 +1,10 @@
package ctr
import (
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Cipher is an AES128-CTR cipher.Cipher.
type Cipher struct {
*aesCommon.AesCipher
}

1
cipher/aes/aes192/gcm/TODO
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@@ -1 +0,0 @@
TODO

5
cipher/aes/aes192/gcm/consts.go
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@@ -1,5 +0,0 @@
package gcm
const (
Name string = "aes192-gcm@openssh.com"
)

205
cipher/aes/aes192/gcm/funcs.go
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@@ -1,205 +0,0 @@
package gcm
import (
`bytes`
`io`
`r00t2.io/sshkeys/cipher/aes`
`r00t2.io/sshkeys/cipher/aes/aes128`
`r00t2.io/sshkeys/internal`
)
func (c *Cipher) Setup(key []byte) (err error) {
// TODO
return
}
// Name returns the name as used in the key file bytes.
func (c *Cipher) Name() (name string) {
name = Name
return
}
// NameBytes returns the byte form of Cipher.Name with leading bytecount allocator.
func (c *Cipher) NameBytes() (name []byte) {
var err error
if name, err = internal.PackBytes(Name); err != nil {
return
}
return
}
// BlockSize returns the blocksize of this Cipher.
func (c *Cipher) BlockSize() (size int) {
size = aes.BlockSize
return
}
// KdfKeySize returns the target key length from KDF to use with this Cipher.
func (c *Cipher) KdfKeySize() (size int) {
size = aes128.KeySize
return
}
/*
Encrypt encrypts data (a string, []byte, byte, *bytes.Buffer, or *bytes.Reader) to the *bytes.Reader encrypted.
NOTE: Padding IS applied automatically.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.Encrypt.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) Encrypt(data interface{}) (encrypted *bytes.Reader, err error) {
var b []byte
var cryptDst []byte
var padded *bytes.Reader
if b, err = internal.SerializeData(data); err != nil {
return
}
if padded, err = c.Pad(b); err != nil {
return
}
b = make([]byte, padded.Len())
if b, err = io.ReadAll(padded); err != nil {
return
}
cryptDst = make([]byte, len(b))
// TODO
_ = cryptDst
return
}
/*
AllocateEncrypt is the same as Cipher.Encrypt but includes an unencrypted byte allocator prefix.
NOTE: Padding IS applied automatically.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.AllocateEncrypt.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) AllocateEncrypt(data interface{}) (encrypted *bytes.Reader, err error) {
var b *bytes.Reader
var buf *bytes.Buffer = new(bytes.Buffer)
var alloc []byte = make([]byte, 4)
if b, err = c.Encrypt(data); err != nil {
return
}
if alloc, err = internal.PackBytes(b); err != nil {
return
}
if _, err = buf.Write(alloc); err != nil {
return
}
if _, err = b.WriteTo(buf); err != nil {
return
}
encrypted = bytes.NewReader(buf.Bytes())
return
}
/*
Pad will pad data (a string, []byte, byte, or *bytes.Buffer) to the Cipher.BlockSize (if necessary).
The resulting padded buffer is returned.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.Pad.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
// TODO
return
}
/*
Decrypt takes a raw byte slice, a *bytes.Buffer, or a *bytes.Reader and returns a plain/decrypted *bytes.Reader.
NOTE: The decrypted data contains padding. It is up to the caller to remove/strip.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.Decrypt.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) Decrypt(data interface{}) (decrypted *bytes.Reader, err error) {
var b []byte
var decryptDst []byte
if b, err = internal.SerializeData(data); err != nil {
return
}
decryptDst = make([]byte, len(b))
// TODO
_ = decryptDst
return
}
/*
AllocatedDecrypt is the same as Cipher.Decrypt but assumes that data includes an unencrypted uint32 byte allocator prefix.
Be *extremely* certain of this, as things can get REALLY weird if you pass in data that doesn't actually have that prefix.
NOTE: The decrypted data contains padding. It is up to the caller to remove/strip.
NOTE: If data is a bytes.Buffer pointer, it will consume ONLY the leading prefix and the length of bytes the prefix indicates and no more.
NOTE: If data is a *bytes.Reader, it will consume ONLY the leading prefix and the length of bytes the prefix indicates and no more.
*/
func (c *Cipher) AllocatedDecrypt(data interface{}) (decrypted *bytes.Reader, err error) {
var b []byte
if b, err = internal.UnpackBytes(data); err != nil {
return
}
if decrypted, err = c.Decrypt(b); err != nil {
return
}
return
}
/*
IsPlain indicates if this Cipher is a plain/null encryption (cipher.null.Null).
It will always return false. It is included for interface compatability.
*/
func (c *Cipher) IsPlain() (plain bool) {
plain = false
return
}

1
cipher/aes/aes256/cbc/TODO
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@@ -1 +0,0 @@
TODO

130
cipher/aes/aes256/cbc/funcs.go
View File

@@ -1,32 +1,26 @@
package cbc
import (
`bytes`
gAes `crypto/aes`
gCipher `crypto/cipher`
`io`
"bytes"
gCipher "crypto/cipher"
`r00t2.io/sshkeys/cipher`
`r00t2.io/sshkeys/cipher/aes`
`r00t2.io/sshkeys/cipher/aes/aes128`
`r00t2.io/sshkeys/internal`
"r00t2.io/sshkeys/internal"
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Setup populates a Cipher from a key. The key must include the IV suffixed to the actual key.
func (c *Cipher) Setup(key []byte) (err error) {
if key == nil || len(key) < aes128.KdfKeySize {
err = cipher.ErrBadKeyLen
if c == nil {
*c = Cipher{
&aesCommon.AesCipher{},
}
}
if err = c.CipherSetup(key, aesCommon.Aes256Bits); err != nil {
return
}
if c == nil {
c = &Cipher{}
}
c.key = key[0:aes128.KeySize]
c.iv = key[aes128.KeySize:(aes128.KdfKeySize)]
return
}
@@ -50,22 +44,6 @@ func (c *Cipher) NameBytes() (name []byte) {
return
}
// BlockSize returns the blocksize of this Cipher.
func (c *Cipher) BlockSize() (size int) {
size = aes.BlockSize
return
}
// KdfKeySize returns the target key length from KDF to use with this Cipher.
func (c *Cipher) KdfKeySize() (size int) {
size = aes128.KeySize
return
}
/*
Encrypt encrypts data (a string, []byte, byte, *bytes.Buffer, or *bytes.Reader) to the *bytes.Reader encrypted.
@@ -78,33 +56,18 @@ func (c *Cipher) KdfKeySize() (size int) {
*/
func (c *Cipher) Encrypt(data interface{}) (encrypted *bytes.Reader, err error) {
var b []byte
var padded []byte
var cryptDst []byte
var padded *bytes.Reader
var cryptBlock gCipher.Block
var crypter gCipher.BlockMode
if b, err = internal.SerializeData(data); err != nil {
if cryptDst, padded, cryptBlock, err = c.GetCryptBlock(data); err != nil {
return
}
if padded, err = c.Pad(b); err != nil {
return
}
crypter = gCipher.NewCBCEncrypter(cryptBlock, c.IV)
b = make([]byte, padded.Len())
if b, err = io.ReadAll(padded); err != nil {
return
}
cryptDst = make([]byte, len(b))
if cryptBlock, err = gAes.NewCipher(c.key); err != nil {
return
}
crypter = gCipher.NewCBCEncrypter(cryptBlock, c.iv)
crypter.CryptBlocks(cryptDst, b)
crypter.CryptBlocks(cryptDst, padded)
encrypted = bytes.NewReader(cryptDst)
@@ -146,40 +109,6 @@ func (c *Cipher) AllocateEncrypt(data interface{}) (encrypted *bytes.Reader, err
return
}
/*
Pad will pad data (a string, []byte, byte, or *bytes.Buffer) to the Cipher.BlockSize (if necessary).
The resulting padded buffer is returned.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.Pad.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
var b []byte
var padNum int
var pad []byte
var buf *bytes.Buffer
if b, err = internal.UnpackBytes(data); err != nil {
return
}
buf = bytes.NewBuffer(b)
for padIdx := 1; (buf.Len() % aes.BlockSize) != 0; padIdx++ {
padNum = padIdx & cipher.PadMod
pad = []byte{byte(uint32(padNum))}
if _, err = buf.Write(pad); err != nil {
return
}
}
return
}
/*
Decrypt takes a raw byte slice, a *bytes.Buffer, or a *bytes.Reader and returns a plain/decrypted *bytes.Reader.
@@ -192,25 +121,20 @@ func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
*/
func (c *Cipher) Decrypt(data interface{}) (decrypted *bytes.Reader, err error) {
var b []byte
var decryptDst []byte
var plain []byte
var padded []byte
var cryptBlock gCipher.Block
var decrypter gCipher.BlockMode
if b, err = internal.SerializeData(data); err != nil {
if plain, padded, cryptBlock, err = c.GetDecryptBlock(data); err != nil {
return
}
decryptDst = make([]byte, len(b))
decrypter = gCipher.NewCBCDecrypter(cryptBlock, c.IV)
if cryptBlock, err = gAes.NewCipher(c.key); err != nil {
return
}
decrypter = gCipher.NewCBCDecrypter(cryptBlock, c.iv)
decrypter.CryptBlocks(plain, padded)
decrypter.CryptBlocks(decryptDst, b)
decrypted = bytes.NewReader(decryptDst)
decrypted = bytes.NewReader(plain)
return
}
@@ -239,15 +163,3 @@ func (c *Cipher) AllocatedDecrypt(data interface{}) (decrypted *bytes.Reader, er
return
}
/*
IsPlain indicates if this Cipher is a plain/null encryption (cipher.null.Null).
It will always return false. It is included for interface compatability.
*/
func (c *Cipher) IsPlain() (plain bool) {
plain = false
return
}

10
cipher/aes/aes256/cbc/types.go Normal file
View File

@@ -0,0 +1,10 @@
package cbc
import (
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Cipher is an AES128-CBC cipher.Cipher.
type Cipher struct {
*aesCommon.AesCipher
}

10
cipher/aes/aes256/consts.go
View File

@@ -1,10 +0,0 @@
package aes256
import (
`r00t2.io/sshkeys/cipher/aes`
)
const (
KeySize int = 32 // in bytes; AES256 is so named for its 256-bit key, thus: 256 / 8 = 32
KdfKeySize int = KeySize + aes.IvSize
)

1
cipher/aes/aes256/ctr/TODO
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@@ -1 +0,0 @@
TODO

100
cipher/aes/aes256/ctr/funcs.go
View File

@@ -1,17 +1,25 @@
package ctr
import (
`bytes`
`io`
"bytes"
gCipher "crypto/cipher"
`r00t2.io/sshkeys/cipher/aes`
`r00t2.io/sshkeys/cipher/aes/aes128`
`r00t2.io/sshkeys/internal`
"r00t2.io/sshkeys/internal"
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Setup populates a Cipher from a key. The key must include the IV suffixed to the actual key.
func (c *Cipher) Setup(key []byte) (err error) {
// TODO
if c == nil {
*c = Cipher{
&aesCommon.AesCipher{},
}
}
if err = c.CipherSetup(key, aesCommon.Aes256Bits); err != nil {
return
}
return
}
@@ -36,22 +44,6 @@ func (c *Cipher) NameBytes() (name []byte) {
return
}
// BlockSize returns the blocksize of this Cipher.
func (c *Cipher) BlockSize() (size int) {
size = aes.BlockSize
return
}
// KdfKeySize returns the target key length from KDF to use with this Cipher.
func (c *Cipher) KdfKeySize() (size int) {
size = aes128.KeySize
return
}
/*
Encrypt encrypts data (a string, []byte, byte, *bytes.Buffer, or *bytes.Reader) to the *bytes.Reader encrypted.
@@ -64,27 +56,20 @@ func (c *Cipher) KdfKeySize() (size int) {
*/
func (c *Cipher) Encrypt(data interface{}) (encrypted *bytes.Reader, err error) {
var b []byte
var padded []byte
var cryptDst []byte
var padded *bytes.Reader
var cryptBlock gCipher.Block
var crypter gCipher.Stream
if b, err = internal.SerializeData(data); err != nil {
if cryptDst, padded, cryptBlock, err = c.GetCryptBlock(data); err != nil {
return
}
if padded, err = c.Pad(b); err != nil {
return
}
crypter = gCipher.NewCTR(cryptBlock, c.IV)
b = make([]byte, padded.Len())
if b, err = io.ReadAll(padded); err != nil {
return
}
crypter.XORKeyStream(cryptDst, padded)
cryptDst = make([]byte, len(b))
// TODO
_ = cryptDst
encrypted = bytes.NewReader(cryptDst)
return
}
@@ -124,22 +109,6 @@ func (c *Cipher) AllocateEncrypt(data interface{}) (encrypted *bytes.Reader, err
return
}
/*
Pad will pad data (a string, []byte, byte, or *bytes.Buffer) to the Cipher.BlockSize (if necessary).
The resulting padded buffer is returned.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.Pad.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
// TODO
return
}
/*
Decrypt takes a raw byte slice, a *bytes.Buffer, or a *bytes.Reader and returns a plain/decrypted *bytes.Reader.
@@ -152,17 +121,20 @@ func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
*/
func (c *Cipher) Decrypt(data interface{}) (decrypted *bytes.Reader, err error) {
var b []byte
var decryptDst []byte
var plain []byte
var padded []byte
var cryptBlock gCipher.Block
var decrypter gCipher.Stream
if b, err = internal.SerializeData(data); err != nil {
if plain, padded, cryptBlock, err = c.GetDecryptBlock(data); err != nil {
return
}
decryptDst = make([]byte, len(b))
decrypter = gCipher.NewCTR(cryptBlock, c.IV)
// TODO
_ = decryptDst
decrypter.XORKeyStream(plain, padded)
decrypted = bytes.NewReader(plain)
return
}
@@ -191,15 +163,3 @@ func (c *Cipher) AllocatedDecrypt(data interface{}) (decrypted *bytes.Reader, er
return
}
/*
IsPlain indicates if this Cipher is a plain/null encryption (cipher.null.Null).
It will always return false. It is included for interface compatability.
*/
func (c *Cipher) IsPlain() (plain bool) {
plain = false
return
}

10
cipher/aes/aes256/ctr/types.go Normal file
View File

@@ -0,0 +1,10 @@
package ctr
import (
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Cipher is an AES128-CTR cipher.Cipher.
type Cipher struct {
*aesCommon.AesCipher
}

1
cipher/aes/aes256/gcm/TODO
View File

@@ -1 +0,0 @@
TODO

102
cipher/aes/aes256/gcm/funcs.go
View File

@@ -1,17 +1,25 @@
package gcm
import (
`bytes`
`io`
"bytes"
gCipher "crypto/cipher"
`r00t2.io/sshkeys/cipher/aes`
`r00t2.io/sshkeys/cipher/aes/aes128`
`r00t2.io/sshkeys/internal`
"r00t2.io/sshkeys/internal"
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Setup populates a Cipher from a key. The key must include the IV suffixed to the actual key.
func (c *Cipher) Setup(key []byte) (err error) {
// TODO
if c == nil {
*c = Cipher{
&aesCommon.AesCipher{},
}
}
if err = c.CipherSetup(key, aesCommon.Aes256Bits); err != nil {
return
}
return
}
@@ -36,22 +44,6 @@ func (c *Cipher) NameBytes() (name []byte) {
return
}
// BlockSize returns the blocksize of this Cipher.
func (c *Cipher) BlockSize() (size int) {
size = aes.BlockSize
return
}
// KdfKeySize returns the target key length from KDF to use with this Cipher.
func (c *Cipher) KdfKeySize() (size int) {
size = aes128.KeySize
return
}
/*
Encrypt encrypts data (a string, []byte, byte, *bytes.Buffer, or *bytes.Reader) to the *bytes.Reader encrypted.
@@ -64,27 +56,22 @@ func (c *Cipher) KdfKeySize() (size int) {
*/
func (c *Cipher) Encrypt(data interface{}) (encrypted *bytes.Reader, err error) {
var b []byte
var padded []byte
var cryptDst []byte
var padded *bytes.Reader
var cryptBlock gCipher.Block
var crypter gCipher.AEAD
if b, err = internal.SerializeData(data); err != nil {
if cryptDst, padded, cryptBlock, err = c.GetCryptBlock(data); err != nil {
return
}
if padded, err = c.Pad(b); err != nil {
if crypter, err = gCipher.NewGCM(cryptBlock); err != nil {
return
}
b = make([]byte, padded.Len())
if b, err = io.ReadAll(padded); err != nil {
return
}
cryptDst = crypter.Seal(cryptDst, c.IV, padded, nil)
cryptDst = make([]byte, len(b))
// TODO
_ = cryptDst
encrypted = bytes.NewReader(cryptDst)
return
}
@@ -124,22 +111,6 @@ func (c *Cipher) AllocateEncrypt(data interface{}) (encrypted *bytes.Reader, err
return
}
/*
Pad will pad data (a string, []byte, byte, or *bytes.Buffer) to the Cipher.BlockSize (if necessary).
The resulting padded buffer is returned.
NOTE: If data is a *bytes.Buffer, no bytes will be consumed -- the bytes are taken in entirety without consuming them (Buffer.Bytes()).
It is up to the caller to consume the buffer as desired beforehand or isolate to a specific sub-buffer beforehand to pass to Cipher.Pad.
NOTE: If data is a *bytes.Reader, ALL bytes WILL be consumed.
*/
func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
// TODO
return
}
/*
Decrypt takes a raw byte slice, a *bytes.Buffer, or a *bytes.Reader and returns a plain/decrypted *bytes.Reader.
@@ -152,17 +123,24 @@ func (c *Cipher) Pad(data interface{}) (paddedBuf *bytes.Reader, err error) {
*/
func (c *Cipher) Decrypt(data interface{}) (decrypted *bytes.Reader, err error) {
var b []byte
var decryptDst []byte
var plain []byte
var padded []byte
var cryptBlock gCipher.Block
var decrypter gCipher.AEAD
if b, err = internal.SerializeData(data); err != nil {
if plain, padded, cryptBlock, err = c.GetDecryptBlock(data); err != nil {
return
}
decryptDst = make([]byte, len(b))
if decrypter, err = gCipher.NewGCM(cryptBlock); err != nil {
return
}
// TODO
_ = decryptDst
if plain, err = decrypter.Open(plain, c.IV, padded, nil); err != nil {
return
}
decrypted = bytes.NewReader(plain)
return
}
@@ -191,15 +169,3 @@ func (c *Cipher) AllocatedDecrypt(data interface{}) (decrypted *bytes.Reader, er
return
}
/*
IsPlain indicates if this Cipher is a plain/null encryption (cipher.null.Null).
It will always return false. It is included for interface compatability.
*/
func (c *Cipher) IsPlain() (plain bool) {
plain = false
return
}

10
cipher/aes/aes256/gcm/types.go Normal file
View File

@@ -0,0 +1,10 @@
package gcm
import (
"r00t2.io/sshkeys/internal/ciphers/aesCommon"
)
// Cipher is an AES128-GCM cipher.Cipher.
type Cipher struct {
*aesCommon.AesCipher
}

10
cipher/aes/consts.go
View File

@@ -1,10 +0,0 @@
package aes
import (
`crypto/aes`
)
const (
BlockSize int = aes.BlockSize
IvSize int = aes.BlockSize
)