Merge 6.5p1.

* New upstream release (http://www.openssh.com/txt/release-6.5, LP: #1275068): - ssh(1): Add support for client-side hostname canonicalisation using a set of DNS suffixes and rules in ssh_config(5). This allows unqualified names to be canonicalised to fully-qualified domain names to eliminate ambiguity when looking up keys in known_hosts or checking host certificate names (closes: #115286).
author: Colin Watson <cjwatson@debian.org> 2014-02-10 00:27:24 +0000
committer: Colin Watson <cjwatson@debian.org> 2014-02-10 02:40:28 +0000
commit: a2b8818c5d21cfcba443625251f691a2ea3a29c7 (patch)
tree: 8fe1fe448cde57eecf71a7bcd57186661b90313f /openbsd-compat/chacha_private.h
parent: d399ecd8eb7d4aed3b7ba0d2727e619607fb901b (diff)
parent: ee8d8b97cc2c6081df3af453a228992b87309ec4 (diff)
1 files changed, 222 insertions, 0 deletions
diff --git a/openbsd-compat/chacha_private.h b/openbsd-compat/chacha_private.h
new file mode 100644
index 000000000..7c3680fa6
--- /dev/null
+++ b/openbsd-compat/chacha_private.h
@@ -0,0 +1,222 @@
+/*
+chacha-merged.c version 20080118
+D. J. Bernstein
+Public domain.
+*/
+/* $OpenBSD: chacha_private.h,v 1.2 2013/10/04 07:02:27 djm Exp $ */
+typedef unsigned char u8;
+typedef unsigned int u32;
+typedef struct
+{
+  u32 input[16]; /* could be compressed */
+} chacha_ctx;
+#define U8C(v) (v##U)
+#define U32C(v) (v##U)
+#define U8V(v) ((u8)(v) & U8C(0xFF))
+#define U32V(v) ((u32)(v) & U32C(0xFFFFFFFF))
+#define ROTL32(v, n) \
+  (U32V((v) << (n)) | ((v) >> (32 - (n))))
+#define U8TO32_LITTLE(p) \
+  (((u32)((p)[0])      ) | \
+   ((u32)((p)[1]) <<  8) | \
+   ((u32)((p)[2]) << 16) | \
+   ((u32)((p)[3]) << 24))
+#define U32TO8_LITTLE(p, v) \
+  do { \
+    (p)[0] = U8V((v)      ); \
+    (p)[1] = U8V((v) >>  8); \
+    (p)[2] = U8V((v) >> 16); \
+    (p)[3] = U8V((v) >> 24); \
+  } while (0)
+#define ROTATE(v,c) (ROTL32(v,c))
+#define XOR(v,w) ((v) ^ (w))
+#define PLUS(v,w) (U32V((v) + (w)))
+#define PLUSONE(v) (PLUS((v),1))
+#define QUARTERROUND(a,b,c,d) \
+  a = PLUS(a,b); d = ROTATE(XOR(d,a),16); \
+  c = PLUS(c,d); b = ROTATE(XOR(b,c),12); \
+  a = PLUS(a,b); d = ROTATE(XOR(d,a), 8); \
+  c = PLUS(c,d); b = ROTATE(XOR(b,c), 7);
+static const char sigma[16] = "expand 32-byte k";
+static const char tau[16] = "expand 16-byte k";
+static void
+chacha_keysetup(chacha_ctx *x,const u8 *k,u32 kbits,u32 ivbits)
+{
+  const char *constants;
+  x->input[4] = U8TO32_LITTLE(k + 0);
+  x->input[5] = U8TO32_LITTLE(k + 4);
+  x->input[6] = U8TO32_LITTLE(k + 8);
+  x->input[7] = U8TO32_LITTLE(k + 12);
+  if (kbits == 256) { /* recommended */
+    k += 16;
+    constants = sigma;
+  } else { /* kbits == 128 */
+    constants = tau;
+  }
+  x->input[8] = U8TO32_LITTLE(k + 0);
+  x->input[9] = U8TO32_LITTLE(k + 4);
+  x->input[10] = U8TO32_LITTLE(k + 8);
+  x->input[11] = U8TO32_LITTLE(k + 12);
+  x->input[0] = U8TO32_LITTLE(constants + 0);
+  x->input[1] = U8TO32_LITTLE(constants + 4);
+  x->input[2] = U8TO32_LITTLE(constants + 8);
+  x->input[3] = U8TO32_LITTLE(constants + 12);
+}
+static void
+chacha_ivsetup(chacha_ctx *x,const u8 *iv)
+{
+  x->input[12] = 0;
+  x->input[13] = 0;
+  x->input[14] = U8TO32_LITTLE(iv + 0);
+  x->input[15] = U8TO32_LITTLE(iv + 4);
+}
+static void
+chacha_encrypt_bytes(chacha_ctx *x,const u8 *m,u8 *c,u32 bytes)
+{
+  u32 x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15;
+  u32 j0, j1, j2, j3, j4, j5, j6, j7, j8, j9, j10, j11, j12, j13, j14, j15;
+  u8 *ctarget = NULL;
+  u8 tmp[64];
+  u_int i;
+  if (!bytes) return;
+  j0 = x->input[0];
+  j1 = x->input[1];
+  j2 = x->input[2];
+  j3 = x->input[3];
+  j4 = x->input[4];
+  j5 = x->input[5];
+  j6 = x->input[6];
+  j7 = x->input[7];
+  j8 = x->input[8];
+  j9 = x->input[9];
+  j10 = x->input[10];
+  j11 = x->input[11];
+  j12 = x->input[12];
+  j13 = x->input[13];
+  j14 = x->input[14];
+  j15 = x->input[15];
+  for (;;) {
+    if (bytes < 64) {
+      for (i = 0;i < bytes;++i) tmp[i] = m[i];
+      m = tmp;
+      ctarget = c;
+      c = tmp;
+    }
+    x0 = j0;
+    x1 = j1;
+    x2 = j2;
+    x3 = j3;
+    x4 = j4;
+    x5 = j5;
+    x6 = j6;
+    x7 = j7;
+    x8 = j8;
+    x9 = j9;
+    x10 = j10;
+    x11 = j11;
+    x12 = j12;
+    x13 = j13;
+    x14 = j14;
+    x15 = j15;
+    for (i = 20;i > 0;i -= 2) {
+      QUARTERROUND( x0, x4, x8,x12)
+      QUARTERROUND( x1, x5, x9,x13)
+      QUARTERROUND( x2, x6,x10,x14)
+      QUARTERROUND( x3, x7,x11,x15)
+      QUARTERROUND( x0, x5,x10,x15)
+      QUARTERROUND( x1, x6,x11,x12)
+      QUARTERROUND( x2, x7, x8,x13)
+      QUARTERROUND( x3, x4, x9,x14)
+    }
+    x0 = PLUS(x0,j0);
+    x1 = PLUS(x1,j1);
+    x2 = PLUS(x2,j2);
+    x3 = PLUS(x3,j3);
+    x4 = PLUS(x4,j4);
+    x5 = PLUS(x5,j5);
+    x6 = PLUS(x6,j6);
+    x7 = PLUS(x7,j7);
+    x8 = PLUS(x8,j8);
+    x9 = PLUS(x9,j9);
+    x10 = PLUS(x10,j10);
+    x11 = PLUS(x11,j11);
+    x12 = PLUS(x12,j12);
+    x13 = PLUS(x13,j13);
+    x14 = PLUS(x14,j14);
+    x15 = PLUS(x15,j15);
+#ifndef KEYSTREAM_ONLY
+    x0 = XOR(x0,U8TO32_LITTLE(m + 0));
+    x1 = XOR(x1,U8TO32_LITTLE(m + 4));
+    x2 = XOR(x2,U8TO32_LITTLE(m + 8));
+    x3 = XOR(x3,U8TO32_LITTLE(m + 12));
+    x4 = XOR(x4,U8TO32_LITTLE(m + 16));
+    x5 = XOR(x5,U8TO32_LITTLE(m + 20));
+    x6 = XOR(x6,U8TO32_LITTLE(m + 24));
+    x7 = XOR(x7,U8TO32_LITTLE(m + 28));
+    x8 = XOR(x8,U8TO32_LITTLE(m + 32));
+    x9 = XOR(x9,U8TO32_LITTLE(m + 36));
+    x10 = XOR(x10,U8TO32_LITTLE(m + 40));
+    x11 = XOR(x11,U8TO32_LITTLE(m + 44));
+    x12 = XOR(x12,U8TO32_LITTLE(m + 48));
+    x13 = XOR(x13,U8TO32_LITTLE(m + 52));
+    x14 = XOR(x14,U8TO32_LITTLE(m + 56));
+    x15 = XOR(x15,U8TO32_LITTLE(m + 60));
+#endif
+    j12 = PLUSONE(j12);
+    if (!j12) {
+      j13 = PLUSONE(j13);
+      /* stopping at 2^70 bytes per nonce is user's responsibility */
+    }
+    U32TO8_LITTLE(c + 0,x0);
+    U32TO8_LITTLE(c + 4,x1);
+    U32TO8_LITTLE(c + 8,x2);
+    U32TO8_LITTLE(c + 12,x3);
+    U32TO8_LITTLE(c + 16,x4);
+    U32TO8_LITTLE(c + 20,x5);
+    U32TO8_LITTLE(c + 24,x6);
+    U32TO8_LITTLE(c + 28,x7);
+    U32TO8_LITTLE(c + 32,x8);
+    U32TO8_LITTLE(c + 36,x9);
+    U32TO8_LITTLE(c + 40,x10);
+    U32TO8_LITTLE(c + 44,x11);
+    U32TO8_LITTLE(c + 48,x12);
+    U32TO8_LITTLE(c + 52,x13);
+    U32TO8_LITTLE(c + 56,x14);
+    U32TO8_LITTLE(c + 60,x15);
+    if (bytes <= 64) {
+      if (bytes < 64) {
+        for (i = 0;i < bytes;++i) ctarget[i] = c[i];
+      }
+      x->input[12] = j12;
+      x->input[13] = j13;
+      return;
+    }
+    bytes -= 64;
+    c += 64;
+#ifndef KEYSTREAM_ONLY
+    m += 64;
+#endif
+  }
+}
author	Colin Watson <cjwatson@debian.org>	2014-02-10 00:27:24 +0000
committer	Colin Watson <cjwatson@debian.org>	2014-02-10 02:40:28 +0000
commit	a2b8818c5d21cfcba443625251f691a2ea3a29c7 (patch)
tree	8fe1fe448cde57eecf71a7bcd57186661b90313f /openbsd-compat/chacha_private.h
parent	d399ecd8eb7d4aed3b7ba0d2727e619607fb901b (diff)
parent	ee8d8b97cc2c6081df3af453a228992b87309ec4 (diff)

diff --git a/openbsd-compat/chacha_private.h b/openbsd-compat/chacha_private.h new file mode 100644 index 000000000..7c3680fa6 --- /dev/null +++ b/openbsd-compat/chacha_private.h
@@ -0,0 +1,222 @@
	1	/*
	2	chacha-merged.c version 20080118
	3	D. J. Bernstein
	4	Public domain.
	5	*/
	6
	7	/* $OpenBSD: chacha_private.h,v 1.2 2013/10/04 07:02:27 djm Exp $ */
	8
	9	typedef unsigned char u8;
	10	typedef unsigned int u32;
	11
	12	typedef struct
	13	{
	14	u32 input[16]; /* could be compressed */
	15	} chacha_ctx;
	16
	17	#define U8C(v) (v##U)
	18	#define U32C(v) (v##U)
	19
	20	#define U8V(v) ((u8)(v) & U8C(0xFF))
	21	#define U32V(v) ((u32)(v) & U32C(0xFFFFFFFF))
	22
	23	#define ROTL32(v, n) \
	24	(U32V((v) << (n)) \| ((v) >> (32 - (n))))
	25
	26	#define U8TO32_LITTLE(p) \
	27	(((u32)((p)[0]) ) \| \
	28	((u32)((p)[1]) << 8) \| \
	29	((u32)((p)[2]) << 16) \| \
	30	((u32)((p)[3]) << 24))
	31
	32	#define U32TO8_LITTLE(p, v) \
	33	do { \
	34	(p)[0] = U8V((v) ); \
	35	(p)[1] = U8V((v) >> 8); \
	36	(p)[2] = U8V((v) >> 16); \
	37	(p)[3] = U8V((v) >> 24); \
	38	} while (0)
	39
	40	#define ROTATE(v,c) (ROTL32(v,c))
	41	#define XOR(v,w) ((v) ^ (w))
	42	#define PLUS(v,w) (U32V((v) + (w)))
	43	#define PLUSONE(v) (PLUS((v),1))
	44
	45	#define QUARTERROUND(a,b,c,d) \
	46	a = PLUS(a,b); d = ROTATE(XOR(d,a),16); \
	47	c = PLUS(c,d); b = ROTATE(XOR(b,c),12); \
	48	a = PLUS(a,b); d = ROTATE(XOR(d,a), 8); \
	49	c = PLUS(c,d); b = ROTATE(XOR(b,c), 7);
	50
	51	static const char sigma[16] = "expand 32-byte k";
	52	static const char tau[16] = "expand 16-byte k";
	53
	54	static void
	55	chacha_keysetup(chacha_ctx x,const u8 k,u32 kbits,u32 ivbits)
	56	{
	57	const char *constants;
	58
	59	x->input[4] = U8TO32_LITTLE(k + 0);
	60	x->input[5] = U8TO32_LITTLE(k + 4);
	61	x->input[6] = U8TO32_LITTLE(k + 8);
	62	x->input[7] = U8TO32_LITTLE(k + 12);
	63	if (kbits == 256) { /* recommended */
	64	k += 16;
	65	constants = sigma;
	66	} else { /* kbits == 128 */
	67	constants = tau;
	68	}
	69	x->input[8] = U8TO32_LITTLE(k + 0);
	70	x->input[9] = U8TO32_LITTLE(k + 4);
	71	x->input[10] = U8TO32_LITTLE(k + 8);
	72	x->input[11] = U8TO32_LITTLE(k + 12);
	73	x->input[0] = U8TO32_LITTLE(constants + 0);
	74	x->input[1] = U8TO32_LITTLE(constants + 4);
	75	x->input[2] = U8TO32_LITTLE(constants + 8);
	76	x->input[3] = U8TO32_LITTLE(constants + 12);
	77	}
	78
	79	static void
	80	chacha_ivsetup(chacha_ctx x,const u8 iv)
	81	{
	82	x->input[12] = 0;
	83	x->input[13] = 0;
	84	x->input[14] = U8TO32_LITTLE(iv + 0);
	85	x->input[15] = U8TO32_LITTLE(iv + 4);
	86	}
	87
	88	static void
	89	chacha_encrypt_bytes(chacha_ctx x,const u8 m,u8 *c,u32 bytes)
	90	{
	91	u32 x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15;
	92	u32 j0, j1, j2, j3, j4, j5, j6, j7, j8, j9, j10, j11, j12, j13, j14, j15;
	93	u8 *ctarget = NULL;
	94	u8 tmp[64];
	95	u_int i;
	96
	97	if (!bytes) return;
	98
	99	j0 = x->input[0];
	100	j1 = x->input[1];
	101	j2 = x->input[2];
	102	j3 = x->input[3];
	103	j4 = x->input[4];
	104	j5 = x->input[5];
	105	j6 = x->input[6];
	106	j7 = x->input[7];
	107	j8 = x->input[8];
	108	j9 = x->input[9];
	109	j10 = x->input[10];
	110	j11 = x->input[11];
	111	j12 = x->input[12];
	112	j13 = x->input[13];
	113	j14 = x->input[14];
	114	j15 = x->input[15];
	115
	116	for (;;) {
	117	if (bytes < 64) {
	118	for (i = 0;i < bytes;++i) tmp[i] = m[i];
	119	m = tmp;
	120	ctarget = c;
	121	c = tmp;
	122	}
	123	x0 = j0;
	124	x1 = j1;
	125	x2 = j2;
	126	x3 = j3;
	127	x4 = j4;
	128	x5 = j5;
	129	x6 = j6;
	130	x7 = j7;
	131	x8 = j8;
	132	x9 = j9;
	133	x10 = j10;
	134	x11 = j11;
	135	x12 = j12;
	136	x13 = j13;
	137	x14 = j14;
	138	x15 = j15;
	139	for (i = 20;i > 0;i -= 2) {
	140	QUARTERROUND( x0, x4, x8,x12)
	141	QUARTERROUND( x1, x5, x9,x13)
	142	QUARTERROUND( x2, x6,x10,x14)
	143	QUARTERROUND( x3, x7,x11,x15)
	144	QUARTERROUND( x0, x5,x10,x15)
	145	QUARTERROUND( x1, x6,x11,x12)
	146	QUARTERROUND( x2, x7, x8,x13)
	147	QUARTERROUND( x3, x4, x9,x14)
	148	}
	149	x0 = PLUS(x0,j0);
	150	x1 = PLUS(x1,j1);
	151	x2 = PLUS(x2,j2);
	152	x3 = PLUS(x3,j3);
	153	x4 = PLUS(x4,j4);
	154	x5 = PLUS(x5,j5);
	155	x6 = PLUS(x6,j6);
	156	x7 = PLUS(x7,j7);
	157	x8 = PLUS(x8,j8);
	158	x9 = PLUS(x9,j9);
	159	x10 = PLUS(x10,j10);
	160	x11 = PLUS(x11,j11);
	161	x12 = PLUS(x12,j12);
	162	x13 = PLUS(x13,j13);
	163	x14 = PLUS(x14,j14);
	164	x15 = PLUS(x15,j15);
	165
	166	#ifndef KEYSTREAM_ONLY
	167	x0 = XOR(x0,U8TO32_LITTLE(m + 0));
	168	x1 = XOR(x1,U8TO32_LITTLE(m + 4));
	169	x2 = XOR(x2,U8TO32_LITTLE(m + 8));
	170	x3 = XOR(x3,U8TO32_LITTLE(m + 12));
	171	x4 = XOR(x4,U8TO32_LITTLE(m + 16));
	172	x5 = XOR(x5,U8TO32_LITTLE(m + 20));
	173	x6 = XOR(x6,U8TO32_LITTLE(m + 24));
	174	x7 = XOR(x7,U8TO32_LITTLE(m + 28));
	175	x8 = XOR(x8,U8TO32_LITTLE(m + 32));
	176	x9 = XOR(x9,U8TO32_LITTLE(m + 36));
	177	x10 = XOR(x10,U8TO32_LITTLE(m + 40));
	178	x11 = XOR(x11,U8TO32_LITTLE(m + 44));
	179	x12 = XOR(x12,U8TO32_LITTLE(m + 48));
	180	x13 = XOR(x13,U8TO32_LITTLE(m + 52));
	181	x14 = XOR(x14,U8TO32_LITTLE(m + 56));
	182	x15 = XOR(x15,U8TO32_LITTLE(m + 60));
	183	#endif
	184
	185	j12 = PLUSONE(j12);
	186	if (!j12) {
	187	j13 = PLUSONE(j13);
	188	/* stopping at 2^70 bytes per nonce is user's responsibility */
	189	}
	190
	191	U32TO8_LITTLE(c + 0,x0);
	192	U32TO8_LITTLE(c + 4,x1);
	193	U32TO8_LITTLE(c + 8,x2);
	194	U32TO8_LITTLE(c + 12,x3);
	195	U32TO8_LITTLE(c + 16,x4);
	196	U32TO8_LITTLE(c + 20,x5);
	197	U32TO8_LITTLE(c + 24,x6);
	198	U32TO8_LITTLE(c + 28,x7);
	199	U32TO8_LITTLE(c + 32,x8);
	200	U32TO8_LITTLE(c + 36,x9);
	201	U32TO8_LITTLE(c + 40,x10);
	202	U32TO8_LITTLE(c + 44,x11);
	203	U32TO8_LITTLE(c + 48,x12);
	204	U32TO8_LITTLE(c + 52,x13);
	205	U32TO8_LITTLE(c + 56,x14);
	206	U32TO8_LITTLE(c + 60,x15);
	207
	208	if (bytes <= 64) {
	209	if (bytes < 64) {
	210	for (i = 0;i < bytes;++i) ctarget[i] = c[i];
	211	}
	212	x->input[12] = j12;
	213	x->input[13] = j13;
	214	return;
	215	}
	216	bytes -= 64;
	217	c += 64;
	218	#ifndef KEYSTREAM_ONLY
	219	m += 64;
	220	#endif
	221	}
	222	}