mirror of
https://gogs.blitter.com/RLabs/xs
synced 2024-08-14 10:26:42 +00:00
167 lines
4.3 KiB
Go
167 lines
4.3 KiB
Go
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// Package hopscotch - a crypto doodle that uses multiple hash
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// algorithm outputs as dynamic sbox/pbox material
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//
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// Properties visualized using https://github.com/circulosmeos/circle
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package hopscotch
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// TODOs:
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// -define s-box rotation/shuffle schema
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// -devise p-box schema
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// ...
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import (
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"errors"
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"fmt"
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"hash"
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"io"
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"time"
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mtwist "blitter.com/go/mtwist" // Used to derive hash fodder after seeding w/key
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// hash algos must be manually imported thusly:
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// (Would be nice if the golang pkg docs were more clear
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// on this...)
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"crypto/sha512"
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_ "crypto/sha512"
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b2b "golang.org/x/crypto/blake2b"
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)
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const (
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maxResched = 10 // above 20 starts to show outlines in 'tuxtest' ... so 10 max
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)
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type Cipher struct {
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resched int // lower (1) == stronger encryption; weakest (10) == weakest
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rounds int
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prng *mtwist.MT19937_64 // used to gen initial hash fodder from key
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h []hash.Hash
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hs []byte
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r io.Reader
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w io.Writer
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idx int
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ctr int
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rekeyCtr int // must be min of len( c.h[] )
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bTmp byte
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k []byte
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}
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func New(r io.Reader, w io.Writer, resched int, key []byte) (c *Cipher) {
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if resched < 1 || resched > maxResched {
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resched = 4
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}
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c = &Cipher{}
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c.resched = resched
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c.rounds = 1
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c.prng = mtwist.New()
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c.r = r
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c.w = w
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if len(key) == 0 {
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c.k = []byte(fmt.Sprintf("%s", time.Now()))
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} else {
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c.k = key
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}
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c.prng.SeedFullState(c.k)
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// Discard first 64 bytes of MT output
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for idx := 0; idx < 64; idx++ {
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_ = c.prng.Int63()
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}
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// Init all the hash algs we're going to 'hop' around with initial keystream
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c.h = make([]hash.Hash, 2)
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c.h[0] = sha512.New()
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c.h[1], _ = b2b.New512(c.k)
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c.keyUpdate(c.k)
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c.rekeyCtr = len(c.hs) * c.resched // lower multiplier == greater security, lower speed
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//fmt.Fprintf(os.Stderr, "rekeyCtr = %v\n", c.rekeyCtr)
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return c
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}
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func (c *Cipher) Read(p []byte) (n int, err error) {
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n, err = c.r.Read(p)
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if err == nil {
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for idx := 0; idx < n; idx++ {
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p[idx] = c.yield(p[idx])
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}
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}
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return n, err
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}
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func (c *Cipher) Write(p []byte) (n int, err error) {
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n, err = c.w.Write(p)
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return n, err
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}
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// Mutate the session key (intended to be called as encryption proceeds)
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func (c *Cipher) keyUpdate(data []byte) {
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//fmt.Fprintln(os.Stderr, "--rekey--")
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{
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c.h[0].Write(data)
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sliceTmp := sha512.Sum512(data)
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c.hs = sliceTmp[:]
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}
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{
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c.h[1].Write(data)
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sliceTmp := b2b.Sum512(data)
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c.hs = append(c.hs, sliceTmp[:]...)
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}
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}
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func (c *Cipher) yield(ib byte) (ob byte) {
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c.idx = (c.ctr + c.idx + int(c.bTmp)) % len(c.hs)
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c.bTmp = c.hs[c.idx]
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c.ctr = c.ctr + 1
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//fmt.Fprintf(os.Stderr, "[c.hidx:%v c.idx:%v]\n", c.hidx, c.idx)
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// NOTE: using a non-prime modulus degrades CV % from ~ 0.055 to ~ 0.07
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switch c.ctr % 3 {
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case 0:
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ob = c.bTmp ^ ib ^ byte(c.ctr) ^ byte(c.idx) ^
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c.hs[len(c.hs)-19] ^ c.hs[len(c.hs)-2] ^ c.hs[len(c.hs)-3] ^ c.hs[len(c.hs)-5] ^
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c.hs[len(c.hs)-7] ^ c.hs[len(c.hs)-11] ^ c.hs[len(c.hs)-13] ^ c.hs[len(c.hs)-17]
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case 1:
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ob = c.bTmp ^ ib ^ byte(c.ctr) ^ byte(c.idx) ^
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c.hs[len(c.hs)-5] ^ c.hs[len(c.hs)-7] ^ c.hs[len(c.hs)-11] ^ c.hs[len(c.hs)-13] ^
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c.hs[len(c.hs)-17] ^ c.hs[len(c.hs)-19] ^ c.hs[len(c.hs)-23] ^ c.hs[len(c.hs)-29]
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case 2:
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ob = c.bTmp ^ ib ^ byte(c.ctr) ^ byte(c.idx) ^
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c.hs[len(c.hs)-13] ^ c.hs[len(c.hs)-17] ^ c.hs[len(c.hs)-23] ^ c.hs[len(c.hs)-27] ^
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c.hs[len(c.hs)-29] ^ c.hs[len(c.hs)-31] ^ c.hs[len(c.hs)-2] ^ c.hs[len(c.hs)-3]
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}
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if c.ctr%c.rekeyCtr == 0 {
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bufTmp := make([]byte, 32)
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_, _ = c.prng.Read(bufTmp)
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c.keyUpdate(bufTmp)
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}
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return
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}
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// XORKeyStream XORs each byte in the given slice with a byte from the
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// cipher's key stream. Dst and src must overlap entirely or not at all.
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//
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// If len(dst) < len(src), XORKeyStream should panic. It is acceptable
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// to pass a dst bigger than src, and in that case, XORKeyStream will
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// only update dst[:len(src)] and will not touch the rest of dst.
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//
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// Multiple calls to XORKeyStream behave as if the concatenation of
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// the src buffers was passed in a single run. That is, Stream
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// maintains state and does not reset at each XORKeyStream call.
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func (c *Cipher) XORKeyStream(dst, src []byte) {
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//fmt.Printf("len dst:%d len src:%d\n", len(dst), len(src))
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if len(dst) < len(src) {
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panic(errors.New("len(dst) < len(src)"))
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}
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for idx, v := range src {
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dst[idx] = c.yield(v)
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}
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}
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