ref: fde9deac883c3f2ae6ffb7d05b4f5e404f5c2249
dir: /lib/crypto/aesgcm.myr/
use std use "aes" use "ct" pkg crypto = type aesgcmctx = struct aes : aesctx ctr : byte[16] j0 : byte[16] /* FIXME: constant time gfmul needed here. */ M : uint32[4][256][16] H : uint32[4] ;; const aesgcminit : (c : aesgcmctx#, key : byte[:], iv : byte[:] -> void) const aesgcmfin : (c : aesgcmctx# -> void) const aesgcmencrypt : (c : aesgcmctx#, buf : byte[:], aad : byte[:], tag : byte[:] -> void) const aesgcmdecrypt : (c : aesgcmctx#, buf : byte[:], aad : byte[:], tag : byte[:] -> bool) ;; const aesgcminit = {c, key, iv var X, L, Y, b : byte[16] /* Set up H for ghash */ std.slfill(b[:], 0) aeskeysched(&c.aes, key) aesencrypt(&c.aes, b[:], b[:]) load128(b[:], c.H[:]) /* Init M table. TODO: constant time gfmul */ for var i=0; i < 16; i++ for var j=0; j < 256; j++ X = [0, 0, 0, 0] X[i>>2] = j<<((i&3)<<3) gfmul(X, c.H[:], c.M[i][j][:]) ;; ;; /* Set up iv */ if iv.len == (96/8) std.slcp(c.ctr[:96/8], iv) std.slfill(c.ctr[96/8:], 0) inc(c) else L = [0,0,0,0] Y = [0,0,0,0] ghash(c, iv, Y[:]) L[0] = (iv.len << 3 : uint32) L[1] = (iv.len >> 29 : uint32) L[2] = 0 L[3] = 0 ghash1(c, L[:], Y[:]) store128(Y[:], c.ctr[:]) ;; /* set up J0 */ aesencrypt(&c.aes, c.ctr[:], c.j0[:]) } const aesgcmfin = {c std.slfill(c.ctr[:], 0) } const aesgcmencrypt = {c, buf, aad, tag var L, Y L = [0,0,0,0] Y = [0,0,0,0] ghash(c, aad, Y[:]) aesctr(c, buf) ghash(c, buf, Y[:]) L[0] = buf.len << 3 L[1] = buf.len >> 29 L[2] = aad.len << 3 L[3] = aad.len >> 29 ghash1(c, L[:], Y[:]) store128(Y[:], tag) for var i = 0; i < 16; i++ tag[i] ^= c.j0[i] ;; } const aesgcmdecrypt = {c, buf, aad, tag var ctag : byte[16], tmp : byte[16] var L, Y L = [0,0,0,0] Y = [0,0,0,0] ghash(c, aad, Y[:]) ghash(c, buf, Y[:]) L[0] = buf.len << 3 L[1] = buf.len >> 29 L[2] = aad.len << 3 L[3] = aad.len >> 29 ghash1(c, L[:], Y[:]) store128(Y[:], ctag[:]) for var i = 0; i < 16; i++ ctag[i] ^= c.j0[i] ;; aesctr(c, buf) -> bufeq(tag, ctag[:]) } const ghash = {c, buf, Y var tmp : byte[16] var X : uint32[4] var len, off len = buf.len off = 0 while len >= 16 load128(buf[off:off+16], X[:]) ghash1(c, X[:], Y[:]) off += 16 len -= 16 ;; if len > 0 std.slcp(tmp[:len], buf[off:off+len]) std.slfill(tmp[len:], 0) load128(tmp[:], X[:]) ghash1(c, X[:], Y[:]) ;; } const ghash1 = {c, X, Y var Xi X[0] ^= Y[0] X[1] ^= Y[1] X[2] ^= Y[2] X[3] ^= Y[3] Y[0] = 0 Y[1] = 0 Y[2] = 0 Y[3] = 0 for var i=0; i<16; i++ Xi = c.M[i][(X[i>>2]>>((i&3)<<3))&0xFF]; Y[0] ^= Xi[0]; Y[1] ^= Xi[1]; Y[2] ^= Xi[2]; Y[3] ^= Xi[3]; ;; } const aesctr = {c, buf var tmp : byte[16] var o, r for var i = 0; i + 16 <= buf.len; i += 16 inc(c) aesencrypt(&c.aes, c.ctr[:], tmp[:]) for var j = 0; j < 16; j++ buf[i+j] ^= tmp[j] ;; ;; r = buf.len & 0xf if r != 0 inc(c) o = buf.len & ~0xf aesencrypt(&c.aes, c.ctr[:], tmp[:]) for var i = 0; i < r; i++ buf[o++] ^= tmp[i] ;; ;; } const inc = {c var ctr ctr = std.getbe32(c.ctr[12:16]) + 1 std.putbe32(c.ctr[12:16], ctr) } const gfmul = {X, Y, Z var m : int32, i : int32 Z[0] = 0 Z[1] = 0 Z[2] = 0 Z[3] = 0 for var i=127; i >= 0; i-- m = ((Y[i>>5]:int32) << (31-(i&31))) >> 31 Z[0] ^= X[0] & (m : uint32) Z[1] ^= X[1] & (m : uint32) Z[2] ^= X[2] & (m : uint32) Z[3] ^= X[3] & (m : uint32) m = ((X[0]:int32)<<31) >> 31 X[0] = X[0]>>1 | X[1]<<31 X[1] = X[1]>>1 | X[2]<<31 X[2] = X[2]>>1 | X[3]<<31 X[3] = X[3]>>1 ^ (0xE1000000 & m : uint32) ;; } const load128 = {b, B B[0] = \ (b[15] : uint32) << 0 | \ (b[14] : uint32) << 8 | \ (b[13] : uint32) << 16 | \ (b[12] : uint32) << 24 B[1] = \ (b[11] : uint32) << 0 | \ (b[10] : uint32) << 8 | \ (b[ 9] : uint32) << 16 | \ (b[ 8] : uint32) << 24 B[2] = \ (b[ 7] : uint32) << 0 | \ (b[ 6] : uint32) << 8 | \ (b[ 5] : uint32) << 16 | \ (b[ 4] : uint32) << 24 B[3] = \ (b[ 3] : uint32) << 0 | \ (b[ 2] : uint32) << 8 | \ (b[ 1] : uint32) << 16 | \ (b[ 0] : uint32) << 24 } const store128 = {B : uint32[:], b : byte[:] b[15] = (B[0] >> 0 : byte) b[14] = (B[0] >> 8 : byte) b[13] = (B[0] >> 16 : byte) b[12] = (B[0] >> 24 : byte) b[11] = (B[1] >> 0 : byte) b[10] = (B[1] >> 8 : byte) b[ 9] = (B[1] >> 16 : byte) b[ 8] = (B[1] >> 24 : byte) b[ 7] = (B[2] >> 0 : byte) b[ 6] = (B[2] >> 8 : byte) b[ 5] = (B[2] >> 16 : byte) b[ 4] = (B[2] >> 24 : byte) b[ 3] = (B[3] >> 0 : byte) b[ 2] = (B[3] >> 8 : byte) b[ 1] = (B[3] >> 16 : byte) b[ 0] = (B[3] >> 24 : byte) }