[PATCH 1/1] crypto: Fix data mismatch over ipsec tunnel encrypted/decrypted with ppc64le AES/GCM module.
From: Danny Tsen
Date: Thu Sep 12 2024 - 13:51:52 EST
This patch is to fix an issue when simd is not usable that data mismatch
may occur over ipsec tunnel. The fix is to register algs as SIMD modules
so that the algorithm is excecuted when SIMD instructions is usable.
A new module rfc4106(gcm(aes)) is also added. Re-write AES/GCM assembly
codes with smaller footprints and small performance gain.
This patch has been tested with the kernel crypto module tcrypt.ko and
has passed the selftest. The patch is also tested with
CONFIG_CRYPTO_MANAGER_EXTRA_TESTS enabled.
Signed-off-by: Danny Tsen <dtsen@xxxxxxxxxxxxx>
---
arch/powerpc/crypto/Kconfig | 1 +
arch/powerpc/crypto/aes-gcm-p10-glue.c | 141 +-
arch/powerpc/crypto/aes-gcm-p10.S | 2421 +++++++++++-------------
3 files changed, 1187 insertions(+), 1376 deletions(-)
diff --git a/arch/powerpc/crypto/Kconfig b/arch/powerpc/crypto/Kconfig
index 09ebcbdfb34f..951a43726461 100644
--- a/arch/powerpc/crypto/Kconfig
+++ b/arch/powerpc/crypto/Kconfig
@@ -112,6 +112,7 @@ config CRYPTO_AES_GCM_P10
select CRYPTO_ALGAPI
select CRYPTO_AEAD
select CRYPTO_SKCIPHER
+ select CRYPTO_SIMD
help
AEAD cipher: AES cipher algorithms (FIPS-197)
GCM (Galois/Counter Mode) authenticated encryption mode (NIST SP800-38D)
diff --git a/arch/powerpc/crypto/aes-gcm-p10-glue.c b/arch/powerpc/crypto/aes-gcm-p10-glue.c
index f62ee54076c0..e52629334cf8 100644
--- a/arch/powerpc/crypto/aes-gcm-p10-glue.c
+++ b/arch/powerpc/crypto/aes-gcm-p10-glue.c
@@ -8,6 +8,7 @@
#include <asm/unaligned.h>
#include <asm/simd.h>
#include <asm/switch_to.h>
+#include <crypto/gcm.h>
#include <crypto/aes.h>
#include <crypto/algapi.h>
#include <crypto/b128ops.h>
@@ -24,6 +25,7 @@
#define PPC_ALIGN 16
#define GCM_IV_SIZE 12
+#define RFC4106_NONCE_SIZE 4
MODULE_DESCRIPTION("PPC64le AES-GCM with Stitched implementation");
MODULE_AUTHOR("Danny Tsen <dtsen@xxxxxxxxxxxxx");
@@ -31,7 +33,7 @@ MODULE_LICENSE("GPL v2");
MODULE_ALIAS_CRYPTO("aes");
asmlinkage int aes_p10_set_encrypt_key(const u8 *userKey, const int bits,
- void *key);
+ void *key);
asmlinkage void aes_p10_encrypt(const u8 *in, u8 *out, const void *key);
asmlinkage void aes_p10_gcm_encrypt(u8 *in, u8 *out, size_t len,
void *rkey, u8 *iv, void *Xi);
@@ -39,7 +41,8 @@ asmlinkage void aes_p10_gcm_decrypt(u8 *in, u8 *out, size_t len,
void *rkey, u8 *iv, void *Xi);
asmlinkage void gcm_init_htable(unsigned char htable[], unsigned char Xi[]);
asmlinkage void gcm_ghash_p10(unsigned char *Xi, unsigned char *Htable,
- unsigned char *aad, unsigned int alen);
+ unsigned char *aad, unsigned int alen);
+asmlinkage void gcm_update(u8 *iv, void *Xi);
struct aes_key {
u8 key[AES_MAX_KEYLENGTH];
@@ -52,6 +55,7 @@ struct gcm_ctx {
u8 aad_hash[16];
u64 aadLen;
u64 Plen; /* offset 56 - used in aes_p10_gcm_{en/de}crypt */
+ u8 pblock[16];
};
struct Hash_ctx {
u8 H[16]; /* subkey */
@@ -60,17 +64,20 @@ struct Hash_ctx {
struct p10_aes_gcm_ctx {
struct aes_key enc_key;
+ u8 nonce[RFC4106_NONCE_SIZE];
};
static void vsx_begin(void)
{
preempt_disable();
+ pagefault_disable();
enable_kernel_vsx();
}
static void vsx_end(void)
{
disable_kernel_vsx();
+ pagefault_enable();
preempt_enable();
}
@@ -185,7 +192,7 @@ static int set_authsize(struct crypto_aead *tfm, unsigned int authsize)
}
static int p10_aes_gcm_setkey(struct crypto_aead *aead, const u8 *key,
- unsigned int keylen)
+ unsigned int keylen)
{
struct crypto_tfm *tfm = crypto_aead_tfm(aead);
struct p10_aes_gcm_ctx *ctx = crypto_tfm_ctx(tfm);
@@ -198,7 +205,8 @@ static int p10_aes_gcm_setkey(struct crypto_aead *aead, const u8 *key,
return ret ? -EINVAL : 0;
}
-static int p10_aes_gcm_crypt(struct aead_request *req, int enc)
+static int p10_aes_gcm_crypt(struct aead_request *req, u8 *riv,
+ int assoclen, int enc)
{
struct crypto_tfm *tfm = req->base.tfm;
struct p10_aes_gcm_ctx *ctx = crypto_tfm_ctx(tfm);
@@ -210,7 +218,6 @@ static int p10_aes_gcm_crypt(struct aead_request *req, int enc)
struct skcipher_walk walk;
u8 *assocmem = NULL;
u8 *assoc;
- unsigned int assoclen = req->assoclen;
unsigned int cryptlen = req->cryptlen;
unsigned char ivbuf[AES_BLOCK_SIZE+PPC_ALIGN];
unsigned char *iv = PTR_ALIGN((void *)ivbuf, PPC_ALIGN);
@@ -218,11 +225,12 @@ static int p10_aes_gcm_crypt(struct aead_request *req, int enc)
unsigned long auth_tag_len = crypto_aead_authsize(__crypto_aead_cast(tfm));
u8 otag[16];
int total_processed = 0;
+ int nbytes;
memset(databuf, 0, sizeof(databuf));
memset(hashbuf, 0, sizeof(hashbuf));
memset(ivbuf, 0, sizeof(ivbuf));
- memcpy(iv, req->iv, GCM_IV_SIZE);
+ memcpy(iv, riv, GCM_IV_SIZE);
/* Linearize assoc, if not already linear */
if (req->src->length >= assoclen && req->src->length) {
@@ -257,19 +265,25 @@ static int p10_aes_gcm_crypt(struct aead_request *req, int enc)
if (ret)
return ret;
- while (walk.nbytes > 0 && ret == 0) {
+ while ((nbytes = walk.nbytes) > 0 && ret == 0) {
+ u8 *src = walk.src.virt.addr;
+ u8 *dst = walk.dst.virt.addr;
+ u8 buf[AES_BLOCK_SIZE];
+
+ if (unlikely(nbytes > 0 && nbytes < AES_BLOCK_SIZE))
+ src = dst = memcpy(buf, src, nbytes);
vsx_begin();
if (enc)
- aes_p10_gcm_encrypt(walk.src.virt.addr,
- walk.dst.virt.addr,
- walk.nbytes,
+ aes_p10_gcm_encrypt(src, dst, nbytes,
&ctx->enc_key, gctx->iv, hash->Htable);
else
- aes_p10_gcm_decrypt(walk.src.virt.addr,
- walk.dst.virt.addr,
- walk.nbytes,
+ aes_p10_gcm_decrypt(src, dst, nbytes,
&ctx->enc_key, gctx->iv, hash->Htable);
+
+ if (unlikely(nbytes > 0 && nbytes < AES_BLOCK_SIZE))
+ memcpy(walk.dst.virt.addr, buf, nbytes);
+
vsx_end();
total_processed += walk.nbytes;
@@ -281,6 +295,7 @@ static int p10_aes_gcm_crypt(struct aead_request *req, int enc)
/* Finalize hash */
vsx_begin();
+ gcm_update(gctx->iv, hash->Htable);
finish_tag(gctx, hash, total_processed);
vsx_end();
@@ -302,17 +317,63 @@ static int p10_aes_gcm_crypt(struct aead_request *req, int enc)
return 0;
}
+static int rfc4106_setkey(struct crypto_aead *tfm, const u8 *inkey,
+ unsigned int keylen)
+{
+ struct p10_aes_gcm_ctx *ctx = crypto_aead_ctx(tfm);
+ int err;
+
+ keylen -= RFC4106_NONCE_SIZE;
+ err = p10_aes_gcm_setkey(tfm, inkey, keylen);
+ if (err)
+ return err;
+
+ memcpy(ctx->nonce, inkey + keylen, RFC4106_NONCE_SIZE);
+ return 0;
+}
+
+static int rfc4106_setauthsize(struct crypto_aead *tfm, unsigned int authsize)
+{
+ return crypto_rfc4106_check_authsize(authsize);
+}
+
+static int rfc4106_encrypt(struct aead_request *req)
+{
+ struct crypto_aead *aead = crypto_aead_reqtfm(req);
+ struct p10_aes_gcm_ctx *ctx = crypto_aead_ctx(aead);
+ u8 iv[AES_BLOCK_SIZE];
+
+ memcpy(iv, ctx->nonce, RFC4106_NONCE_SIZE);
+ memcpy(iv + RFC4106_NONCE_SIZE, req->iv, GCM_RFC4106_IV_SIZE);
+
+ return crypto_ipsec_check_assoclen(req->assoclen) ?:
+ p10_aes_gcm_crypt(req, iv, req->assoclen - GCM_RFC4106_IV_SIZE, 1);
+}
+
+static int rfc4106_decrypt(struct aead_request *req)
+{
+ struct crypto_aead *aead = crypto_aead_reqtfm(req);
+ struct p10_aes_gcm_ctx *ctx = crypto_aead_ctx(aead);
+ u8 iv[AES_BLOCK_SIZE];
+
+ memcpy(iv, ctx->nonce, RFC4106_NONCE_SIZE);
+ memcpy(iv + RFC4106_NONCE_SIZE, req->iv, GCM_RFC4106_IV_SIZE);
+
+ return crypto_ipsec_check_assoclen(req->assoclen) ?:
+ p10_aes_gcm_crypt(req, iv, req->assoclen - GCM_RFC4106_IV_SIZE, 0);
+}
+
static int p10_aes_gcm_encrypt(struct aead_request *req)
{
- return p10_aes_gcm_crypt(req, 1);
+ return p10_aes_gcm_crypt(req, req->iv, req->assoclen, 1);
}
static int p10_aes_gcm_decrypt(struct aead_request *req)
{
- return p10_aes_gcm_crypt(req, 0);
+ return p10_aes_gcm_crypt(req, req->iv, req->assoclen, 0);
}
-static struct aead_alg gcm_aes_alg = {
+static struct aead_alg gcm_aes_algs[] = {{
.ivsize = GCM_IV_SIZE,
.maxauthsize = 16,
@@ -321,23 +382,57 @@ static struct aead_alg gcm_aes_alg = {
.encrypt = p10_aes_gcm_encrypt,
.decrypt = p10_aes_gcm_decrypt,
- .base.cra_name = "gcm(aes)",
- .base.cra_driver_name = "aes_gcm_p10",
+ .base.cra_name = "__gcm(aes)",
+ .base.cra_driver_name = "__aes_gcm_p10",
.base.cra_priority = 2100,
.base.cra_blocksize = 1,
- .base.cra_ctxsize = sizeof(struct p10_aes_gcm_ctx),
+ .base.cra_ctxsize = sizeof(struct p10_aes_gcm_ctx)+
+ 4 * sizeof(u64[2]),
.base.cra_module = THIS_MODULE,
-};
+ .base.cra_flags = CRYPTO_ALG_INTERNAL,
+}, {
+ .ivsize = GCM_RFC4106_IV_SIZE,
+ .maxauthsize = 16,
+ .setkey = rfc4106_setkey,
+ .setauthsize = rfc4106_setauthsize,
+ .encrypt = rfc4106_encrypt,
+ .decrypt = rfc4106_decrypt,
+
+ .base.cra_name = "__rfc4106(gcm(aes))",
+ .base.cra_driver_name = "__rfc4106_aes_gcm_p10",
+ .base.cra_priority = 2100,
+ .base.cra_blocksize = 1,
+ .base.cra_ctxsize = sizeof(struct p10_aes_gcm_ctx) +
+ 4 * sizeof(u64[2]),
+ .base.cra_module = THIS_MODULE,
+ .base.cra_flags = CRYPTO_ALG_INTERNAL,
+}};
+
+static struct simd_aead_alg *p10_simd_aeads[ARRAY_SIZE(gcm_aes_algs)];
static int __init p10_init(void)
{
- return crypto_register_aead(&gcm_aes_alg);
+ int ret;
+
+ if (!cpu_has_feature(PPC_FEATURE2_ARCH_3_1))
+ return 0;
+
+ ret = simd_register_aeads_compat(gcm_aes_algs,
+ ARRAY_SIZE(gcm_aes_algs),
+ p10_simd_aeads);
+ if (ret) {
+ simd_unregister_aeads(gcm_aes_algs, ARRAY_SIZE(gcm_aes_algs),
+ p10_simd_aeads);
+ return ret;
+ }
+ return 0;
}
static void __exit p10_exit(void)
{
- crypto_unregister_aead(&gcm_aes_alg);
+ simd_unregister_aeads(gcm_aes_algs, ARRAY_SIZE(gcm_aes_algs),
+ p10_simd_aeads);
}
-module_cpu_feature_match(PPC_MODULE_FEATURE_P10, p10_init);
+module_init(p10_init);
module_exit(p10_exit);
diff --git a/arch/powerpc/crypto/aes-gcm-p10.S b/arch/powerpc/crypto/aes-gcm-p10.S
index a51f4b265308..89f50eef3512 100644
--- a/arch/powerpc/crypto/aes-gcm-p10.S
+++ b/arch/powerpc/crypto/aes-gcm-p10.S
@@ -1,42 +1,42 @@
/* SPDX-License-Identifier: GPL-2.0-or-later */
- #
- # Accelerated AES-GCM stitched implementation for ppc64le.
- #
- # Copyright 2022- IBM Inc. All rights reserved
- #
- #===================================================================================
- # Written by Danny Tsen <dtsen@xxxxxxxxxxxxx>
- #
- # GHASH is based on the Karatsuba multiplication method.
- #
- # Xi xor X1
- #
- # X1 * H^4 + X2 * H^3 + x3 * H^2 + X4 * H =
- # (X1.h * H4.h + xX.l * H4.l + X1 * H4) +
- # (X2.h * H3.h + X2.l * H3.l + X2 * H3) +
- # (X3.h * H2.h + X3.l * H2.l + X3 * H2) +
- # (X4.h * H.h + X4.l * H.l + X4 * H)
- #
- # Xi = v0
- # H Poly = v2
- # Hash keys = v3 - v14
- # ( H.l, H, H.h)
- # ( H^2.l, H^2, H^2.h)
- # ( H^3.l, H^3, H^3.h)
- # ( H^4.l, H^4, H^4.h)
- #
- # v30 is IV
- # v31 - counter 1
- #
- # AES used,
- # vs0 - vs14 for round keys
- # v15, v16, v17, v18, v19, v20, v21, v22 for 8 blocks (encrypted)
- #
- # This implementation uses stitched AES-GCM approach to improve overall performance.
- # AES is implemented with 8x blocks and GHASH is using 2 4x blocks.
- #
- # ===================================================================================
- #
+#
+# Accelerated AES-GCM stitched implementation for ppc64le.
+#
+# Copyright 2024- IBM Inc.
+#
+#===================================================================================
+# Written by Danny Tsen <dtsen@xxxxxxxxxx>
+#
+# GHASH is based on the Karatsuba multiplication method.
+#
+# Xi xor X1
+#
+# X1 * H^4 + X2 * H^3 + x3 * H^2 + X4 * H =
+# (X1.h * H4.h + xX.l * H4.l + X1 * H4) +
+# (X2.h * H3.h + X2.l * H3.l + X2 * H3) +
+# (X3.h * H2.h + X3.l * H2.l + X3 * H2) +
+# (X4.h * H.h + X4.l * H.l + X4 * H)
+#
+# Xi = v0
+# H Poly = v2
+# Hash keys = v3 - v14
+# ( H.l, H, H.h)
+# ( H^2.l, H^2, H^2.h)
+# ( H^3.l, H^3, H^3.h)
+# ( H^4.l, H^4, H^4.h)
+#
+# v30 is IV
+# v31 - counter 1
+#
+# AES used,
+# vs0 - round key 0
+# v15, v16, v17, v18, v19, v20, v21, v22 for 8 blocks (encrypted)
+#
+# This implementation uses stitched AES-GCM approach to improve overall performance.
+# AES is implemented with 8x blocks and GHASH is using 2 4x blocks.
+#
+# ===================================================================================
+#
#include <asm/ppc_asm.h>
#include <linux/linkage.h>
@@ -44,483 +44,224 @@
.machine "any"
.text
- # 4x loops
- # v15 - v18 - input states
- # vs1 - vs9 - round keys
- #
-.macro Loop_aes_middle4x
- xxlor 19+32, 1, 1
- xxlor 20+32, 2, 2
- xxlor 21+32, 3, 3
- xxlor 22+32, 4, 4
-
- vcipher 15, 15, 19
- vcipher 16, 16, 19
- vcipher 17, 17, 19
- vcipher 18, 18, 19
-
- vcipher 15, 15, 20
- vcipher 16, 16, 20
- vcipher 17, 17, 20
- vcipher 18, 18, 20
-
- vcipher 15, 15, 21
- vcipher 16, 16, 21
- vcipher 17, 17, 21
- vcipher 18, 18, 21
-
- vcipher 15, 15, 22
- vcipher 16, 16, 22
- vcipher 17, 17, 22
- vcipher 18, 18, 22
-
- xxlor 19+32, 5, 5
- xxlor 20+32, 6, 6
- xxlor 21+32, 7, 7
- xxlor 22+32, 8, 8
-
- vcipher 15, 15, 19
- vcipher 16, 16, 19
- vcipher 17, 17, 19
- vcipher 18, 18, 19
-
- vcipher 15, 15, 20
- vcipher 16, 16, 20
- vcipher 17, 17, 20
- vcipher 18, 18, 20
-
- vcipher 15, 15, 21
- vcipher 16, 16, 21
- vcipher 17, 17, 21
- vcipher 18, 18, 21
-
- vcipher 15, 15, 22
- vcipher 16, 16, 22
- vcipher 17, 17, 22
- vcipher 18, 18, 22
-
- xxlor 23+32, 9, 9
- vcipher 15, 15, 23
- vcipher 16, 16, 23
- vcipher 17, 17, 23
- vcipher 18, 18, 23
+.macro SAVE_GPR GPR OFFSET FRAME
+ std \GPR,\OFFSET(\FRAME)
.endm
- # 8x loops
- # v15 - v22 - input states
- # vs1 - vs9 - round keys
- #
-.macro Loop_aes_middle8x
- xxlor 23+32, 1, 1
- xxlor 24+32, 2, 2
- xxlor 25+32, 3, 3
- xxlor 26+32, 4, 4
-
- vcipher 15, 15, 23
- vcipher 16, 16, 23
- vcipher 17, 17, 23
- vcipher 18, 18, 23
- vcipher 19, 19, 23
- vcipher 20, 20, 23
- vcipher 21, 21, 23
- vcipher 22, 22, 23
-
- vcipher 15, 15, 24
- vcipher 16, 16, 24
- vcipher 17, 17, 24
- vcipher 18, 18, 24
- vcipher 19, 19, 24
- vcipher 20, 20, 24
- vcipher 21, 21, 24
- vcipher 22, 22, 24
-
- vcipher 15, 15, 25
- vcipher 16, 16, 25
- vcipher 17, 17, 25
- vcipher 18, 18, 25
- vcipher 19, 19, 25
- vcipher 20, 20, 25
- vcipher 21, 21, 25
- vcipher 22, 22, 25
-
- vcipher 15, 15, 26
- vcipher 16, 16, 26
- vcipher 17, 17, 26
- vcipher 18, 18, 26
- vcipher 19, 19, 26
- vcipher 20, 20, 26
- vcipher 21, 21, 26
- vcipher 22, 22, 26
-
- xxlor 23+32, 5, 5
- xxlor 24+32, 6, 6
- xxlor 25+32, 7, 7
- xxlor 26+32, 8, 8
-
- vcipher 15, 15, 23
- vcipher 16, 16, 23
- vcipher 17, 17, 23
- vcipher 18, 18, 23
- vcipher 19, 19, 23
- vcipher 20, 20, 23
- vcipher 21, 21, 23
- vcipher 22, 22, 23
-
- vcipher 15, 15, 24
- vcipher 16, 16, 24
- vcipher 17, 17, 24
- vcipher 18, 18, 24
- vcipher 19, 19, 24
- vcipher 20, 20, 24
- vcipher 21, 21, 24
- vcipher 22, 22, 24
-
- vcipher 15, 15, 25
- vcipher 16, 16, 25
- vcipher 17, 17, 25
- vcipher 18, 18, 25
- vcipher 19, 19, 25
- vcipher 20, 20, 25
- vcipher 21, 21, 25
- vcipher 22, 22, 25
-
- vcipher 15, 15, 26
- vcipher 16, 16, 26
- vcipher 17, 17, 26
- vcipher 18, 18, 26
- vcipher 19, 19, 26
- vcipher 20, 20, 26
- vcipher 21, 21, 26
- vcipher 22, 22, 26
-
- xxlor 23+32, 9, 9
- vcipher 15, 15, 23
- vcipher 16, 16, 23
- vcipher 17, 17, 23
- vcipher 18, 18, 23
- vcipher 19, 19, 23
- vcipher 20, 20, 23
- vcipher 21, 21, 23
- vcipher 22, 22, 23
+.macro SAVE_VRS VRS OFFSET FRAME
+ stxv \VRS+32, \OFFSET(\FRAME)
.endm
-.macro Loop_aes_middle_1x
- xxlor 19+32, 1, 1
- xxlor 20+32, 2, 2
- xxlor 21+32, 3, 3
- xxlor 22+32, 4, 4
-
- vcipher 15, 15, 19
- vcipher 15, 15, 20
- vcipher 15, 15, 21
- vcipher 15, 15, 22
-
- xxlor 19+32, 5, 5
- xxlor 20+32, 6, 6
- xxlor 21+32, 7, 7
- xxlor 22+32, 8, 8
-
- vcipher 15, 15, 19
- vcipher 15, 15, 20
- vcipher 15, 15, 21
- vcipher 15, 15, 22
-
- xxlor 19+32, 9, 9
- vcipher 15, 15, 19
+.macro RESTORE_GPR GPR OFFSET FRAME
+ ld \GPR,\OFFSET(\FRAME)
.endm
- #
- # Compute 4x hash values based on Karatsuba method.
- #
-.macro ppc_aes_gcm_ghash
- vxor 15, 15, 0
-
- vpmsumd 23, 12, 15 # H4.L * X.L
- vpmsumd 24, 9, 16
- vpmsumd 25, 6, 17
- vpmsumd 26, 3, 18
-
- vxor 23, 23, 24
- vxor 23, 23, 25
- vxor 23, 23, 26 # L
-
- vpmsumd 24, 13, 15 # H4.L * X.H + H4.H * X.L
- vpmsumd 25, 10, 16 # H3.L * X1.H + H3.H * X1.L
- vpmsumd 26, 7, 17
- vpmsumd 27, 4, 18
-
- vxor 24, 24, 25
- vxor 24, 24, 26
- vxor 24, 24, 27 # M
-
- # sum hash and reduction with H Poly
- vpmsumd 28, 23, 2 # reduction
-
- vxor 29, 29, 29
- vsldoi 26, 24, 29, 8 # mL
- vsldoi 29, 29, 24, 8 # mH
- vxor 23, 23, 26 # mL + L
-
- vsldoi 23, 23, 23, 8 # swap
- vxor 23, 23, 28
-
- vpmsumd 24, 14, 15 # H4.H * X.H
- vpmsumd 25, 11, 16
- vpmsumd 26, 8, 17
- vpmsumd 27, 5, 18
-
- vxor 24, 24, 25
- vxor 24, 24, 26
- vxor 24, 24, 27
-
- vxor 24, 24, 29
-
- # sum hash and reduction with H Poly
- vsldoi 27, 23, 23, 8 # swap
- vpmsumd 23, 23, 2
- vxor 27, 27, 24
- vxor 23, 23, 27
-
- xxlor 32, 23+32, 23+32 # update hash
-
+.macro RESTORE_VRS VRS OFFSET FRAME
+ lxv \VRS+32, \OFFSET(\FRAME)
.endm
- #
- # Combine two 4x ghash
- # v15 - v22 - input blocks
- #
-.macro ppc_aes_gcm_ghash2_4x
- # first 4x hash
- vxor 15, 15, 0 # Xi + X
-
- vpmsumd 23, 12, 15 # H4.L * X.L
- vpmsumd 24, 9, 16
- vpmsumd 25, 6, 17
- vpmsumd 26, 3, 18
-
- vxor 23, 23, 24
- vxor 23, 23, 25
- vxor 23, 23, 26 # L
-
- vpmsumd 24, 13, 15 # H4.L * X.H + H4.H * X.L
- vpmsumd 25, 10, 16 # H3.L * X1.H + H3.H * X1.L
- vpmsumd 26, 7, 17
- vpmsumd 27, 4, 18
-
- vxor 24, 24, 25
- vxor 24, 24, 26
-
- # sum hash and reduction with H Poly
- vpmsumd 28, 23, 2 # reduction
-
- vxor 29, 29, 29
-
- vxor 24, 24, 27 # M
- vsldoi 26, 24, 29, 8 # mL
- vsldoi 29, 29, 24, 8 # mH
- vxor 23, 23, 26 # mL + L
-
- vsldoi 23, 23, 23, 8 # swap
- vxor 23, 23, 28
+.macro SAVE_REGS
+ mflr 0
+ std 0, 16(1)
+ stdu 1,-512(1)
+
+ SAVE_GPR 14, 112, 1
+ SAVE_GPR 15, 120, 1
+ SAVE_GPR 16, 128, 1
+ SAVE_GPR 17, 136, 1
+ SAVE_GPR 18, 144, 1
+ SAVE_GPR 19, 152, 1
+ SAVE_GPR 20, 160, 1
+ SAVE_GPR 21, 168, 1
+ SAVE_GPR 22, 176, 1
+ SAVE_GPR 23, 184, 1
+ SAVE_GPR 24, 192, 1
+
+ addi 9, 1, 256
+ SAVE_VRS 20, 0, 9
+ SAVE_VRS 21, 16, 9
+ SAVE_VRS 22, 32, 9
+ SAVE_VRS 23, 48, 9
+ SAVE_VRS 24, 64, 9
+ SAVE_VRS 25, 80, 9
+ SAVE_VRS 26, 96, 9
+ SAVE_VRS 27, 112, 9
+ SAVE_VRS 28, 128, 9
+ SAVE_VRS 29, 144, 9
+ SAVE_VRS 30, 160, 9
+ SAVE_VRS 31, 176, 9
+.endm # SAVE_REGS
- vpmsumd 24, 14, 15 # H4.H * X.H
- vpmsumd 25, 11, 16
- vpmsumd 26, 8, 17
- vpmsumd 27, 5, 18
+.macro RESTORE_REGS
+ addi 9, 1, 256
+ RESTORE_VRS 20, 0, 9
+ RESTORE_VRS 21, 16, 9
+ RESTORE_VRS 22, 32, 9
+ RESTORE_VRS 23, 48, 9
+ RESTORE_VRS 24, 64, 9
+ RESTORE_VRS 25, 80, 9
+ RESTORE_VRS 26, 96, 9
+ RESTORE_VRS 27, 112, 9
+ RESTORE_VRS 28, 128, 9
+ RESTORE_VRS 29, 144, 9
+ RESTORE_VRS 30, 160, 9
+ RESTORE_VRS 31, 176, 9
+
+ RESTORE_GPR 14, 112, 1
+ RESTORE_GPR 15, 120, 1
+ RESTORE_GPR 16, 128, 1
+ RESTORE_GPR 17, 136, 1
+ RESTORE_GPR 18, 144, 1
+ RESTORE_GPR 19, 152, 1
+ RESTORE_GPR 20, 160, 1
+ RESTORE_GPR 21, 168, 1
+ RESTORE_GPR 22, 176, 1
+ RESTORE_GPR 23, 184, 1
+ RESTORE_GPR 24, 192, 1
+
+ addi 1, 1, 512
+ ld 0, 16(1)
+ mtlr 0
+.endm # RESTORE_REGS
+
+# 4x loops
+.macro AES_CIPHER_4x _VCIPHER ST r
+ \_VCIPHER \ST, \ST, \r
+ \_VCIPHER \ST+1, \ST+1, \r
+ \_VCIPHER \ST+2, \ST+2, \r
+ \_VCIPHER \ST+3, \ST+3, \r
+.endm
- vxor 24, 24, 25
- vxor 24, 24, 26
- vxor 24, 24, 27 # H
+# 8x loops
+.macro AES_CIPHER_8x _VCIPHER ST r
+ \_VCIPHER \ST, \ST, \r
+ \_VCIPHER \ST+1, \ST+1, \r
+ \_VCIPHER \ST+2, \ST+2, \r
+ \_VCIPHER \ST+3, \ST+3, \r
+ \_VCIPHER \ST+4, \ST+4, \r
+ \_VCIPHER \ST+5, \ST+5, \r
+ \_VCIPHER \ST+6, \ST+6, \r
+ \_VCIPHER \ST+7, \ST+7, \r
+.endm
- vxor 24, 24, 29 # H + mH
+.macro LOOP_8AES_STATE
+ xxlor 32+23, 1, 1
+ xxlor 32+24, 2, 2
+ xxlor 32+25, 3, 3
+ xxlor 32+26, 4, 4
+ AES_CIPHER_8x vcipher, 15, 23
+ AES_CIPHER_8x vcipher, 15, 24
+ AES_CIPHER_8x vcipher, 15, 25
+ AES_CIPHER_8x vcipher, 15, 26
+ xxlor 32+23, 5, 5
+ xxlor 32+24, 6, 6
+ xxlor 32+25, 7, 7
+ xxlor 32+26, 8, 8
+ AES_CIPHER_8x vcipher, 15, 23
+ AES_CIPHER_8x vcipher, 15, 24
+ AES_CIPHER_8x vcipher, 15, 25
+ AES_CIPHER_8x vcipher, 15, 26
+.endm
- # sum hash and reduction with H Poly
- vsldoi 27, 23, 23, 8 # swap
- vpmsumd 23, 23, 2
- vxor 27, 27, 24
- vxor 27, 23, 27 # 1st Xi
-
- # 2nd 4x hash
- vpmsumd 24, 9, 20
- vpmsumd 25, 6, 21
- vpmsumd 26, 3, 22
- vxor 19, 19, 27 # Xi + X
- vpmsumd 23, 12, 19 # H4.L * X.L
-
- vxor 23, 23, 24
- vxor 23, 23, 25
- vxor 23, 23, 26 # L
-
- vpmsumd 24, 13, 19 # H4.L * X.H + H4.H * X.L
- vpmsumd 25, 10, 20 # H3.L * X1.H + H3.H * X1.L
- vpmsumd 26, 7, 21
- vpmsumd 27, 4, 22
-
- vxor 24, 24, 25
- vxor 24, 24, 26
+#
+# PPC_GHASH4x(H, S1, S2, S3, S4): Compute 4x hash values based on Karatsuba method.
+# H: returning digest
+# S#: states
+#
+# S1 should xor with the previous digest
+#
+# Xi = v0
+# H Poly = v2
+# Hash keys = v3 - v14
+# Scratch: v23 - v29
+#
+.macro PPC_GHASH4x H S1 S2 S3 S4
+
+ vpmsumd 23, 12, \S1 # H4.L * X.L
+ vpmsumd 24, 9, \S2
+ vpmsumd 25, 6, \S3
+ vpmsumd 26, 3, \S4
+
+ vpmsumd 27, 13, \S1 # H4.L * X.H + H4.H * X.L
+ vpmsumd 28, 10, \S2 # H3.L * X1.H + H3.H * X1.L
+
+ vxor 23, 23, 24
+ vxor 23, 23, 25
+ vxor 23, 23, 26 # L
+
+ vxor 24, 27, 28
+ vpmsumd 25, 7, \S3
+ vpmsumd 26, 4, \S4
+
+ vxor 24, 24, 25
+ vxor 24, 24, 26 # M
# sum hash and reduction with H Poly
- vpmsumd 28, 23, 2 # reduction
-
- vxor 29, 29, 29
+ vpmsumd 28, 23, 2 # reduction
- vxor 24, 24, 27 # M
- vsldoi 26, 24, 29, 8 # mL
- vsldoi 29, 29, 24, 8 # mH
- vxor 23, 23, 26 # mL + L
+ vxor 1, 1, 1
+ vsldoi 25, 24, 1, 8 # mL
+ vsldoi 1, 1, 24, 8 # mH
+ vxor 23, 23, 25 # mL + L
- vsldoi 23, 23, 23, 8 # swap
- vxor 23, 23, 28
+ # This performs swap and xor like,
+ # vsldoi 23, 23, 23, 8 # swap
+ # vxor 23, 23, 28
+ xxlor 32+25, 10, 10
+ vpermxor 23, 23, 28, 25
- vpmsumd 24, 14, 19 # H4.H * X.H
- vpmsumd 25, 11, 20
- vpmsumd 26, 8, 21
- vpmsumd 27, 5, 22
+ vpmsumd 26, 14, \S1 # H4.H * X.H
+ vpmsumd 27, 11, \S2
+ vpmsumd 28, 8, \S3
+ vpmsumd 29, 5, \S4
- vxor 24, 24, 25
- vxor 24, 24, 26
- vxor 24, 24, 27 # H
+ vxor 24, 26, 27
+ vxor 24, 24, 28
+ vxor 24, 24, 29
- vxor 24, 24, 29 # H + mH
+ vxor 24, 24, 1
# sum hash and reduction with H Poly
- vsldoi 27, 23, 23, 8 # swap
- vpmsumd 23, 23, 2
- vxor 27, 27, 24
- vxor 23, 23, 27
-
- xxlor 32, 23+32, 23+32 # update hash
-
+ vsldoi 25, 23, 23, 8 # swap
+ vpmsumd 23, 23, 2
+ vxor 27, 25, 24
+ vxor \H, 23, 27
.endm
- #
- # Compute update single hash
- #
-.macro ppc_update_hash_1x
- vxor 28, 28, 0
-
- vxor 19, 19, 19
+#
+# Compute update single ghash
+# scratch: v1, v22..v27
+#
+.macro PPC_GHASH1x H S1
- vpmsumd 22, 3, 28 # L
- vpmsumd 23, 4, 28 # M
- vpmsumd 24, 5, 28 # H
+ vxor 1, 1, 1
- vpmsumd 27, 22, 2 # reduction
+ vpmsumd 22, 3, \S1 # L
+ vpmsumd 23, 4, \S1 # M
+ vpmsumd 24, 5, \S1 # H
- vsldoi 25, 23, 19, 8 # mL
- vsldoi 26, 19, 23, 8 # mH
- vxor 22, 22, 25 # LL + LL
- vxor 24, 24, 26 # HH + HH
+ vpmsumd 27, 22, 2 # reduction
- vsldoi 22, 22, 22, 8 # swap
- vxor 22, 22, 27
+ vsldoi 25, 23, 1, 8 # mL
+ vsldoi 26, 1, 23, 8 # mH
+ vxor 22, 22, 25 # LL + LL
+ vxor 24, 24, 26 # HH + HH
- vsldoi 20, 22, 22, 8 # swap
- vpmsumd 22, 22, 2 # reduction
- vxor 20, 20, 24
- vxor 22, 22, 20
+ xxlor 32+25, 10, 10
+ vpermxor 22, 22, 27, 25
- vmr 0, 22 # update hash
-
-.endm
-
-.macro SAVE_REGS
- stdu 1,-640(1)
- mflr 0
-
- std 14,112(1)
- std 15,120(1)
- std 16,128(1)
- std 17,136(1)
- std 18,144(1)
- std 19,152(1)
- std 20,160(1)
- std 21,168(1)
- li 9, 256
- stvx 20, 9, 1
- addi 9, 9, 16
- stvx 21, 9, 1
- addi 9, 9, 16
- stvx 22, 9, 1
- addi 9, 9, 16
- stvx 23, 9, 1
- addi 9, 9, 16
- stvx 24, 9, 1
- addi 9, 9, 16
- stvx 25, 9, 1
- addi 9, 9, 16
- stvx 26, 9, 1
- addi 9, 9, 16
- stvx 27, 9, 1
- addi 9, 9, 16
- stvx 28, 9, 1
- addi 9, 9, 16
- stvx 29, 9, 1
- addi 9, 9, 16
- stvx 30, 9, 1
- addi 9, 9, 16
- stvx 31, 9, 1
- stxv 14, 464(1)
- stxv 15, 480(1)
- stxv 16, 496(1)
- stxv 17, 512(1)
- stxv 18, 528(1)
- stxv 19, 544(1)
- stxv 20, 560(1)
- stxv 21, 576(1)
- stxv 22, 592(1)
- std 0, 656(1)
-.endm
-
-.macro RESTORE_REGS
- lxv 14, 464(1)
- lxv 15, 480(1)
- lxv 16, 496(1)
- lxv 17, 512(1)
- lxv 18, 528(1)
- lxv 19, 544(1)
- lxv 20, 560(1)
- lxv 21, 576(1)
- lxv 22, 592(1)
- li 9, 256
- lvx 20, 9, 1
- addi 9, 9, 16
- lvx 21, 9, 1
- addi 9, 9, 16
- lvx 22, 9, 1
- addi 9, 9, 16
- lvx 23, 9, 1
- addi 9, 9, 16
- lvx 24, 9, 1
- addi 9, 9, 16
- lvx 25, 9, 1
- addi 9, 9, 16
- lvx 26, 9, 1
- addi 9, 9, 16
- lvx 27, 9, 1
- addi 9, 9, 16
- lvx 28, 9, 1
- addi 9, 9, 16
- lvx 29, 9, 1
- addi 9, 9, 16
- lvx 30, 9, 1
- addi 9, 9, 16
- lvx 31, 9, 1
-
- ld 0, 656(1)
- ld 14,112(1)
- ld 15,120(1)
- ld 16,128(1)
- ld 17,136(1)
- ld 18,144(1)
- ld 19,152(1)
- ld 20,160(1)
- ld 21,168(1)
-
- mtlr 0
- addi 1, 1, 640
+ vsldoi 23, 22, 22, 8 # swap
+ vpmsumd 22, 22, 2 # reduction
+ vxor 23, 23, 24
+ vxor \H, 22, 23
.endm
+#
+# LOAD_HASH_TABLE
+# Xi = v0
+# H Poly = v2
+# Hash keys = v3 - v14
+#
.macro LOAD_HASH_TABLE
# Load Xi
lxvb16x 32, 0, 8 # load Xi
@@ -557,657 +298,434 @@
lxvd2x 14+32, 10, 8 # H^4h
.endm
- #
- # aes_p10_gcm_encrypt (const void *inp, void *out, size_t len,
- # const char *rk, unsigned char iv[16], void *Xip);
- #
- # r3 - inp
- # r4 - out
- # r5 - len
- # r6 - AES round keys
- # r7 - iv and other data
- # r8 - Xi, HPoli, hash keys
- #
- # rounds is at offset 240 in rk
- # Xi is at 0 in gcm_table (Xip).
- #
-_GLOBAL(aes_p10_gcm_encrypt)
-.align 5
-
- SAVE_REGS
-
- LOAD_HASH_TABLE
-
- # initialize ICB: GHASH( IV ), IV - r7
- lxvb16x 30+32, 0, 7 # load IV - v30
-
- mr 12, 5 # length
- li 11, 0 # block index
-
- # counter 1
- vxor 31, 31, 31
- vspltisb 22, 1
- vsldoi 31, 31, 22,1 # counter 1
-
- # load round key to VSR
- lxv 0, 0(6)
- lxv 1, 0x10(6)
- lxv 2, 0x20(6)
- lxv 3, 0x30(6)
- lxv 4, 0x40(6)
- lxv 5, 0x50(6)
- lxv 6, 0x60(6)
- lxv 7, 0x70(6)
- lxv 8, 0x80(6)
- lxv 9, 0x90(6)
- lxv 10, 0xa0(6)
-
- # load rounds - 10 (128), 12 (192), 14 (256)
- lwz 9,240(6)
-
- #
- # vxor state, state, w # addroundkey
- xxlor 32+29, 0, 0
- vxor 15, 30, 29 # IV + round key - add round key 0
-
- cmpdi 9, 10
- beq Loop_aes_gcm_8x
-
- # load 2 more round keys (v11, v12)
- lxv 11, 0xb0(6)
- lxv 12, 0xc0(6)
-
- cmpdi 9, 12
- beq Loop_aes_gcm_8x
-
- # load 2 more round keys (v11, v12, v13, v14)
- lxv 13, 0xd0(6)
- lxv 14, 0xe0(6)
- cmpdi 9, 14
- beq Loop_aes_gcm_8x
-
- b aes_gcm_out
-
-.align 5
-Loop_aes_gcm_8x:
- mr 14, 3
- mr 9, 4
-
- #
- # check partial block
- #
-Continue_partial_check:
- ld 15, 56(7)
- cmpdi 15, 0
- beq Continue
- bgt Final_block
- cmpdi 15, 16
- blt Final_block
-
-Continue:
- # n blcoks
- li 10, 128
- divdu 10, 12, 10 # n 128 bytes-blocks
- cmpdi 10, 0
- beq Loop_last_block
-
- vaddudm 30, 30, 31 # IV + counter
- vxor 16, 30, 29
- vaddudm 30, 30, 31
- vxor 17, 30, 29
- vaddudm 30, 30, 31
- vxor 18, 30, 29
- vaddudm 30, 30, 31
- vxor 19, 30, 29
- vaddudm 30, 30, 31
- vxor 20, 30, 29
- vaddudm 30, 30, 31
- vxor 21, 30, 29
- vaddudm 30, 30, 31
- vxor 22, 30, 29
-
- mtctr 10
-
- li 15, 16
- li 16, 32
- li 17, 48
- li 18, 64
- li 19, 80
- li 20, 96
- li 21, 112
-
- lwz 10, 240(6)
-
-Loop_8x_block:
-
- lxvb16x 15, 0, 14 # load block
- lxvb16x 16, 15, 14 # load block
- lxvb16x 17, 16, 14 # load block
- lxvb16x 18, 17, 14 # load block
- lxvb16x 19, 18, 14 # load block
- lxvb16x 20, 19, 14 # load block
- lxvb16x 21, 20, 14 # load block
- lxvb16x 22, 21, 14 # load block
- addi 14, 14, 128
-
- Loop_aes_middle8x
-
- xxlor 23+32, 10, 10
-
- cmpdi 10, 10
- beq Do_next_ghash
-
- # 192 bits
- xxlor 24+32, 11, 11
-
- vcipher 15, 15, 23
- vcipher 16, 16, 23
- vcipher 17, 17, 23
- vcipher 18, 18, 23
- vcipher 19, 19, 23
- vcipher 20, 20, 23
- vcipher 21, 21, 23
- vcipher 22, 22, 23
-
- vcipher 15, 15, 24
- vcipher 16, 16, 24
- vcipher 17, 17, 24
- vcipher 18, 18, 24
- vcipher 19, 19, 24
- vcipher 20, 20, 24
- vcipher 21, 21, 24
- vcipher 22, 22, 24
-
- xxlor 23+32, 12, 12
-
- cmpdi 10, 12
- beq Do_next_ghash
-
- # 256 bits
- xxlor 24+32, 13, 13
-
- vcipher 15, 15, 23
- vcipher 16, 16, 23
- vcipher 17, 17, 23
- vcipher 18, 18, 23
- vcipher 19, 19, 23
- vcipher 20, 20, 23
- vcipher 21, 21, 23
- vcipher 22, 22, 23
-
- vcipher 15, 15, 24
- vcipher 16, 16, 24
- vcipher 17, 17, 24
- vcipher 18, 18, 24
- vcipher 19, 19, 24
- vcipher 20, 20, 24
- vcipher 21, 21, 24
- vcipher 22, 22, 24
-
- xxlor 23+32, 14, 14
-
- cmpdi 10, 14
- beq Do_next_ghash
- b aes_gcm_out
-
-Do_next_ghash:
-
- #
- # last round
- vcipherlast 15, 15, 23
- vcipherlast 16, 16, 23
-
- xxlxor 47, 47, 15
- stxvb16x 47, 0, 9 # store output
- xxlxor 48, 48, 16
- stxvb16x 48, 15, 9 # store output
-
- vcipherlast 17, 17, 23
- vcipherlast 18, 18, 23
-
- xxlxor 49, 49, 17
- stxvb16x 49, 16, 9 # store output
- xxlxor 50, 50, 18
- stxvb16x 50, 17, 9 # store output
-
- vcipherlast 19, 19, 23
- vcipherlast 20, 20, 23
-
- xxlxor 51, 51, 19
- stxvb16x 51, 18, 9 # store output
- xxlxor 52, 52, 20
- stxvb16x 52, 19, 9 # store output
-
- vcipherlast 21, 21, 23
- vcipherlast 22, 22, 23
-
- xxlxor 53, 53, 21
- stxvb16x 53, 20, 9 # store output
- xxlxor 54, 54, 22
- stxvb16x 54, 21, 9 # store output
-
- addi 9, 9, 128
-
- # ghash here
- ppc_aes_gcm_ghash2_4x
-
- xxlor 27+32, 0, 0
- vaddudm 30, 30, 31 # IV + counter
- vmr 29, 30
- vxor 15, 30, 27 # add round key
- vaddudm 30, 30, 31
- vxor 16, 30, 27
- vaddudm 30, 30, 31
- vxor 17, 30, 27
- vaddudm 30, 30, 31
- vxor 18, 30, 27
- vaddudm 30, 30, 31
- vxor 19, 30, 27
- vaddudm 30, 30, 31
- vxor 20, 30, 27
- vaddudm 30, 30, 31
- vxor 21, 30, 27
- vaddudm 30, 30, 31
- vxor 22, 30, 27
-
- addi 12, 12, -128
- addi 11, 11, 128
-
- bdnz Loop_8x_block
-
- vmr 30, 29
- stxvb16x 30+32, 0, 7 # update IV
-
-Loop_last_block:
- cmpdi 12, 0
- beq aes_gcm_out
-
- # loop last few blocks
+################################################################################
+# Compute AES and ghash one block at a time.
+# r23: AES rounds
+# v30: current IV
+# vs0: roundkey 0
+#
+################################################################################
+SYM_FUNC_START_LOCAL(aes_gcm_crypt_1x)
+
+ cmpdi 5, 16
+ bge __More_1x
+ blr
+__More_1x:
li 10, 16
- divdu 10, 12, 10
-
- mtctr 10
-
- lwz 10, 240(6)
-
- cmpdi 12, 16
- blt Final_block
-
-Next_rem_block:
- lxvb16x 15, 0, 14 # load block
-
- Loop_aes_middle_1x
-
- xxlor 23+32, 10, 10
-
- cmpdi 10, 10
- beq Do_next_1x
-
- # 192 bits
- xxlor 24+32, 11, 11
-
- vcipher 15, 15, 23
- vcipher 15, 15, 24
-
- xxlor 23+32, 12, 12
+ divdu 12, 5, 10
+
+ xxlxor 32+15, 32+30, 0
+
+ # Pre-load 8 AES rounds to scratch vectors.
+ xxlor 32+16, 1, 1
+ xxlor 32+17, 2, 2
+ xxlor 32+18, 3, 3
+ xxlor 32+19, 4, 4
+ xxlor 32+20, 5, 5
+ xxlor 32+21, 6, 6
+ xxlor 32+28, 7, 7
+ xxlor 32+29, 8, 8
+ lwz 23, 240(6) # n rounds
+ addi 22, 23, -9 # remaing AES rounds
- cmpdi 10, 12
- beq Do_next_1x
-
- # 256 bits
- xxlor 24+32, 13, 13
-
- vcipher 15, 15, 23
- vcipher 15, 15, 24
-
- xxlor 23+32, 14, 14
-
- cmpdi 10, 14
- beq Do_next_1x
-
-Do_next_1x:
- vcipherlast 15, 15, 23
-
- xxlxor 47, 47, 15
- stxvb16x 47, 0, 9 # store output
- addi 14, 14, 16
- addi 9, 9, 16
-
- vmr 28, 15
- ppc_update_hash_1x
-
- addi 12, 12, -16
- addi 11, 11, 16
- xxlor 19+32, 0, 0
- vaddudm 30, 30, 31 # IV + counter
- vxor 15, 30, 19 # add round key
-
- bdnz Next_rem_block
-
- li 15, 0
- std 15, 56(7) # clear partial?
- stxvb16x 30+32, 0, 7 # update IV
cmpdi 12, 0
- beq aes_gcm_out
-
-Final_block:
- lwz 10, 240(6)
- Loop_aes_middle_1x
-
- xxlor 23+32, 10, 10
-
- cmpdi 10, 10
- beq Do_final_1x
-
- # 192 bits
- xxlor 24+32, 11, 11
-
- vcipher 15, 15, 23
- vcipher 15, 15, 24
-
- xxlor 23+32, 12, 12
-
- cmpdi 10, 12
- beq Do_final_1x
-
- # 256 bits
- xxlor 24+32, 13, 13
-
- vcipher 15, 15, 23
- vcipher 15, 15, 24
+ bgt __Loop_1x
+ blr
- xxlor 23+32, 14, 14
+__Loop_1x:
+ mtctr 22
+ addi 10, 6, 144
+ vcipher 15, 15, 16
+ vcipher 15, 15, 17
+ vcipher 15, 15, 18
+ vcipher 15, 15, 19
+ vcipher 15, 15, 20
+ vcipher 15, 15, 21
+ vcipher 15, 15, 28
+ vcipher 15, 15, 29
- cmpdi 10, 14
- beq Do_final_1x
+__Loop_aes_1state:
+ lxv 32+1, 0(10)
+ vcipher 15, 15, 1
+ addi 10, 10, 16
+ bdnz __Loop_aes_1state
+ lxv 32+1, 0(10) # last round key
+ lxvb16x 11, 0, 14 # load input block
+ vcipherlast 15, 15, 1
+
+ xxlxor 32+15, 32+15, 11
+ stxvb16x 32+15, 0, 9 # store output
+ addi 14, 14, 16
+ addi 9, 9, 16
-Do_final_1x:
- vcipherlast 15, 15, 23
+ cmpdi 24, 0 # decrypt?
+ bne __Encrypt_1x
+ xxlor 15+32, 11, 11
+__Encrypt_1x:
+ vxor 15, 15, 0
+ PPC_GHASH1x 0, 15
- # check partial block
- li 21, 0 # encrypt
- ld 15, 56(7) # partial?
- cmpdi 15, 0
- beq Normal_block
- bl Do_partial_block
+ addi 5, 5, -16
+ addi 11, 11, 16
+ vadduwm 30, 30, 31 # IV + counter
+ xxlxor 32+15, 32+30, 0
+ addi 12, 12, -1
cmpdi 12, 0
- ble aes_gcm_out
+ bgt __Loop_1x
- b Continue_partial_check
-
-Normal_block:
- lxvb16x 15, 0, 14 # load last block
- xxlxor 47, 47, 15
-
- # create partial block mask
- li 15, 16
- sub 15, 15, 12 # index to the mask
-
- vspltisb 16, -1 # first 16 bytes - 0xffff...ff
- vspltisb 17, 0 # second 16 bytes - 0x0000...00
- li 10, 192
- stvx 16, 10, 1
+ stxvb16x 32+30, 0, 7 # update IV
+ stxvb16x 32+0, 0, 8 # update Xi
+ blr
+SYM_FUNC_END(aes_gcm_crypt_1x)
+
+################################################################################
+# Process a normal partial block when we come here.
+# Compute partial mask, Load and store partial block to stack.
+# Update partial_len and pblock.
+# pblock is (encrypted ^ AES state) for encrypt
+# and (input ^ AES state) for decrypt.
+#
+################################################################################
+SYM_FUNC_START_LOCAL(__Process_partial)
+
+ # create partial mask
+ vspltisb 16, -1
+ li 12, 16
+ sub 12, 12, 5
+ sldi 12, 12, 3
+ mtvsrdd 32+17, 0, 12
+ vslo 16, 16, 17 # partial block mask
+
+ lxvb16x 11, 0, 14 # load partial block
+ xxland 11, 11, 32+16
+
+ # AES crypt partial
+ xxlxor 32+15, 32+30, 0
+ lwz 23, 240(6) # n rounds
+ addi 22, 23, -1 # loop - 1
+ mtctr 22
+ addi 10, 6, 16
+
+__Loop_aes_pstate:
+ lxv 32+1, 0(10)
+ vcipher 15, 15, 1
addi 10, 10, 16
- stvx 17, 10, 1
-
- addi 10, 1, 192
- lxvb16x 16, 15, 10 # load partial block mask
- xxland 47, 47, 16
-
- vmr 28, 15
- ppc_update_hash_1x
+ bdnz __Loop_aes_pstate
+ lxv 32+1, 0(10) # last round key
+ vcipherlast 15, 15, 1
- # * should store only the remaining bytes.
- bl Write_partial_block
-
- stxvb16x 30+32, 0, 7 # update IV
- std 12, 56(7) # update partial?
- li 16, 16
+ xxlxor 32+15, 32+15, 11
+ vand 15, 15, 16
- stxvb16x 32, 0, 8 # write out Xi
- stxvb16x 32, 16, 8 # write out Xi
- b aes_gcm_out
-
- #
- # Compute data mask
- #
-.macro GEN_MASK _mask _start _end
- vspltisb 16, -1 # first 16 bytes - 0xffff...ff
- vspltisb 17, 0 # second 16 bytes - 0x0000...00
- li 10, 192
- stxvb16x 17+32, 10, 1
- add 10, 10, \_start
- stxvb16x 16+32, 10, 1
- add 10, 10, \_end
- stxvb16x 17+32, 10, 1
-
- addi 10, 1, 192
- lxvb16x \_mask, 0, 10 # load partial block mask
-.endm
+ # AES crypt output v15
+ # Write partial
+ li 10, 224
+ stxvb16x 15+32, 10, 1 # write v15 to stack
+ addi 10, 1, 223
+ addi 12, 9, -1
+ mtctr 5 # partial block len
+__Write_partial:
+ lbzu 22, 1(10)
+ stbu 22, 1(12)
+ bdnz __Write_partial
+
+ cmpdi 24, 0 # decrypt?
+ bne __Encrypt_partial
+ xxlor 32+15, 11, 11 # decrypt using the input block
+__Encrypt_partial:
+ #vxor 15, 15, 0 # ^ previous hash
+ #PPC_GHASH1x 0, 15
+
+ add 14, 14, 5
+ add 9, 9, 5
+ std 5, 56(7) # update partial
+ sub 11, 11, 5
+ li 5, 0 # done last byte
- #
- # Handle multiple partial blocks for encrypt and decrypt
- # operations.
- #
-SYM_FUNC_START_LOCAL(Do_partial_block)
- add 17, 15, 5
- cmpdi 17, 16
- bgt Big_block
- GEN_MASK 18, 15, 5
- b _Partial
-SYM_FUNC_END(Do_partial_block)
-Big_block:
+ #
+ # Don't increase IV since this is the last partial.
+ # It should get updated in gcm_update if no more data blocks.
+ #vadduwm 30, 30, 31 # increase IV
+ stxvb16x 32+30, 0, 7 # update IV
+ li 10, 64
+ stxvb16x 32+0, 0, 8 # Update X1
+ stxvb16x 32+15, 10, 7 # Update pblock
+ blr
+SYM_FUNC_END(__Process_partial)
+
+################################################################################
+# Combine partial blocks and ghash when we come here.
+#
+# The partial block has to be shifted to the right location to encrypt/decrypt
+# and compute ghash if combing the previous partial block is needed.
+# - Compute ghash for a full block. Clear Partial_len and pblock. Update IV.
+# Write Xi.
+# - Don't compute ghash if not full block. gcm_update will take care of it
+# is the last block. Update Partial_len and pblock.
+#
+################################################################################
+SYM_FUNC_START_LOCAL(__Combine_partial)
+
+ ld 12, 56(7)
+ mr 21, 5 # these bytes to be processed
+
+ li 17, 0
li 16, 16
- GEN_MASK 18, 15, 16
-
-_Partial:
- lxvb16x 17+32, 0, 14 # load last block
- sldi 16, 15, 3
- mtvsrdd 32+16, 0, 16
- vsro 17, 17, 16
- xxlxor 47, 47, 17+32
- xxland 47, 47, 18
-
- vxor 0, 0, 0 # clear Xi
- vmr 28, 15
-
- cmpdi 21, 0 # encrypt/decrypt ops?
- beq Skip_decrypt
- xxland 32+28, 32+17, 18
-
-Skip_decrypt:
-
- ppc_update_hash_1x
+ sub 22, 16, 12 # bytes to complete a block
+ sub 17, 22, 5 # remaining bytes in a block
+ cmpdi 5, 16
+ ble __Inp_msg_less16
+ li 17, 0
+ mr 21, 22
+ b __Combine_continue
+__Inp_msg_less16:
+ cmpd 22, 5
+ bgt __Combine_continue
+ li 17, 0
+ mr 21, 22 # these bytes to be processed
+
+__Combine_continue:
+ # load msg and shift to the proper location and mask
+ vspltisb 16, -1
+ sldi 15, 12, 3
+ mtvsrdd 32+17, 0, 15
+ vslo 16, 16, 17
+ vsro 16, 16, 17
+ sldi 15, 17, 3
+ mtvsrdd 32+17, 0, 15
+ vsro 16, 16, 17
+ vslo 16, 16, 17 # mask
+
+ lxvb16x 32+19, 0, 14 # load partial block
+ sldi 15, 12, 3
+ mtvsrdd 32+17, 0, 15
+ vsro 19, 19, 17 # 0x00..xxxx??..??
+ sldi 15, 17, 3
+ mtvsrdd 32+17, 0, 15
+ vsro 19, 19, 17 # 0x00..xxxx
+ vslo 19, 19, 17 # shift back to form 0x00..xxxx00..00
+
+ # AES crypt partial
+ xxlxor 32+15, 32+30, 0
+ lwz 23, 240(6) # n rounds
+ addi 22, 23, -1 # loop - 1
+ mtctr 22
+ addi 10, 6, 16
+
+__Loop_aes_cpstate:
+ lxv 32+1, 0(10)
+ vcipher 15, 15, 1
+ addi 10, 10, 16
+ bdnz __Loop_aes_cpstate
+ lxv 32+1, 0(10) # last round key
+ vcipherlast 15, 15, 1
- li 16, 16
- lxvb16x 32+29, 16, 8
- vxor 0, 0, 29
- stxvb16x 32, 0, 8 # save Xi
- stxvb16x 32, 16, 8 # save Xi
-
- # store partial block
- # loop the rest of the stream if any
- sldi 16, 15, 3
- mtvsrdd 32+16, 0, 16
- vslo 15, 15, 16
- #stxvb16x 15+32, 0, 9 # last block
+ vxor 15, 15, 19
+ vand 15, 15, 16
- li 16, 16
- sub 17, 16, 15 # 16 - partial
-
- add 16, 15, 5
- cmpdi 16, 16
- bgt Larger_16
- mr 17, 5
-Larger_16:
-
- # write partial
- li 10, 192
- stxvb16x 15+32, 10, 1 # save current block
-
- addi 10, 9, -1
- addi 16, 1, 191
- mtctr 17 # move partial byte count
-
-Write_last_partial:
- lbzu 18, 1(16)
- stbu 18, 1(10)
- bdnz Write_last_partial
- # Complete loop partial
-
- add 14, 14, 17
- add 9, 9, 17
- sub 12, 12, 17
- add 11, 11, 17
-
- add 15, 15, 5
- cmpdi 15, 16
- blt Save_partial
-
- vaddudm 30, 30, 31
- stxvb16x 30+32, 0, 7 # update IV
- xxlor 32+29, 0, 0
- vxor 15, 30, 29 # IV + round key - add round key 0
- li 15, 0
- std 15, 56(7) # partial done - clear
- b Partial_done
-Save_partial:
- std 15, 56(7) # partial
-
-Partial_done:
+ # AES crypt output v15
+ # Write partial
+ li 10, 224
+ stxvb16x 15+32, 10, 1 # write v15 to stack
+ addi 10, 1, 223
+ add 10, 10, 12 # add offset
+ addi 15, 9, -1
+ mtctr 21 # partial block len
+__Write_combine_partial:
+ lbzu 22, 1(10)
+ stbu 22, 1(15)
+ bdnz __Write_combine_partial
+
+ add 14, 14, 21
+ add 11, 11, 21
+ add 9, 9, 21
+ sub 5, 5, 21
+
+ # Encrypt/Decrypt?
+ cmpdi 24, 0 # decrypt?
+ bne __Encrypt_combine_partial
+ vmr 15, 19 # decrypt using the input block
+
+__Encrypt_combine_partial:
+ #
+ # Update partial flag and combine ghash.
+__Update_partial_ghash:
+ li 10, 64
+ lxvb16x 32+17, 10, 7 # load previous pblock
+ add 12, 12, 21 # combined pprocessed
+ vxor 15, 15, 17 # combined pblock
+
+ cmpdi 12, 16
+ beq __Clear_partial_flag
+ std 12, 56(7) # update partial len
+ stxvb16x 32+15, 10, 7 # Update current pblock
blr
- #
- # Write partial block
- # r9 - output
- # r12 - remaining bytes
- # v15 - partial input data
- #
-SYM_FUNC_START_LOCAL(Write_partial_block)
- li 10, 192
- stxvb16x 15+32, 10, 1 # last block
-
- addi 10, 9, -1
- addi 16, 1, 191
-
- mtctr 12 # remaining bytes
- li 15, 0
-
-Write_last_byte:
- lbzu 14, 1(16)
- stbu 14, 1(10)
- bdnz Write_last_byte
+__Clear_partial_flag:
+ li 12, 0
+ std 12, 56(7)
+ # Update IV and ghash here
+ vadduwm 30, 30, 31 # increase IV
+ stxvb16x 32+30, 0, 7 # update IV
+
+ # v15 either is either (input blockor encrypted)^(AES state)
+ vxor 15, 15, 0
+ PPC_GHASH1x 0, 15
+ stxvb16x 32+0, 10, 7 # update pblock for debug?
+ stxvb16x 32+0, 0, 8 # update Xi
blr
-SYM_FUNC_END(Write_partial_block)
+SYM_FUNC_END(__Combine_partial)
-aes_gcm_out:
- # out = state
- stxvb16x 32, 0, 8 # write out Xi
- add 3, 11, 12 # return count
+################################################################################
+# gcm_update(iv, Xi) - compute last hash
+#
+################################################################################
+SYM_FUNC_START(gcm_update)
- RESTORE_REGS
- blr
+ ld 10, 56(3)
+ cmpdi 10, 0
+ beq __no_update
- #
- # 8x Decrypt
- #
-_GLOBAL(aes_p10_gcm_decrypt)
-.align 5
+ lxvb16x 32, 0, 4 # load Xi
+ # load Hash - h^4, h^3, h^2, h
+ li 10, 32
+ lxvd2x 2+32, 10, 4 # H Poli
+ li 10, 48
+ lxvd2x 3+32, 10, 4 # Hl
+ li 10, 64
+ lxvd2x 4+32, 10, 4 # H
+ li 10, 80
+ lxvd2x 5+32, 10, 4 # Hh
+
+ addis 11, 2, permx@toc@ha
+ addi 11, 11, permx@toc@l
+ lxv 10, 0(11) # vs10: vpermxor vector
+
+ li 9, 64
+ lxvb16x 32+6, 9, 3 # load pblock
+ vxor 6, 6, 0
+
+ vxor 1, 1, 1
+ vpmsumd 12, 3, 6 # L
+ vpmsumd 13, 4, 6 # M
+ vpmsumd 14, 5, 6 # H
+ vpmsumd 17, 12, 2 # reduction
+ vsldoi 15, 13, 1, 8 # mL
+ vsldoi 16, 1, 13, 8 # mH
+ vxor 12, 12, 15 # LL + LL
+ vxor 14, 14, 16 # HH + HH
+ xxlor 32+15, 10, 10
+ vpermxor 12, 12, 17, 15
+ vsldoi 13, 12, 12, 8 # swap
+ vpmsumd 12, 12, 2 # reduction
+ vxor 13, 13, 14
+ vxor 7, 12, 13
+
+ #vxor 0, 0, 0
+ #stxvb16x 32+0, 9, 3
+ li 10, 0
+ std 10, 56(3)
+ stxvb16x 32+7, 0, 4
+
+__no_update:
+ blr
+SYM_FUNC_END(gcm_update)
+
+################################################################################
+# aes_p10_gcm_encrypt (const void *inp, void *out, size_t len,
+# const char *rk, unsigned char iv[16], void *Xip);
+#
+# r3 - inp
+# r4 - out
+# r5 - len
+# r6 - AES round keys
+# r7 - iv and other data
+# r8 - Xi, HPoli, hash keys
+#
+# rounds is at offset 240 in rk
+# Xi is at 0 in gcm_table (Xip).
+#
+################################################################################
+SYM_FUNC_START(aes_p10_gcm_encrypt)
+
+ cmpdi 5, 0
+ ble __Invalid_msg_len
SAVE_REGS
-
LOAD_HASH_TABLE
# initialize ICB: GHASH( IV ), IV - r7
lxvb16x 30+32, 0, 7 # load IV - v30
- mr 12, 5 # length
- li 11, 0 # block index
+ mr 14, 3
+ mr 9, 4
# counter 1
vxor 31, 31, 31
vspltisb 22, 1
vsldoi 31, 31, 22,1 # counter 1
- # load round key to VSR
- lxv 0, 0(6)
- lxv 1, 0x10(6)
- lxv 2, 0x20(6)
- lxv 3, 0x30(6)
- lxv 4, 0x40(6)
- lxv 5, 0x50(6)
- lxv 6, 0x60(6)
- lxv 7, 0x70(6)
- lxv 8, 0x80(6)
- lxv 9, 0x90(6)
- lxv 10, 0xa0(6)
+ addis 11, 2, permx@toc@ha
+ addi 11, 11, permx@toc@l
+ lxv 10, 0(11) # vs10: vpermxor vector
+ li 11, 0
+
+ # load 9 round keys to VSR
+ lxv 0, 0(6) # round key 0
+ lxv 1, 16(6) # round key 1
+ lxv 2, 32(6) # round key 2
+ lxv 3, 48(6) # round key 3
+ lxv 4, 64(6) # round key 4
+ lxv 5, 80(6) # round key 5
+ lxv 6, 96(6) # round key 6
+ lxv 7, 112(6) # round key 7
+ lxv 8, 128(6) # round key 8
# load rounds - 10 (128), 12 (192), 14 (256)
- lwz 9,240(6)
+ lwz 23, 240(6) # n rounds
+ li 24, 1 # encrypt
+__Process_encrypt:
#
- # vxor state, state, w # addroundkey
- xxlor 32+29, 0, 0
- vxor 15, 30, 29 # IV + round key - add round key 0
-
- cmpdi 9, 10
- beq Loop_aes_gcm_8x_dec
-
- # load 2 more round keys (v11, v12)
- lxv 11, 0xb0(6)
- lxv 12, 0xc0(6)
-
- cmpdi 9, 12
- beq Loop_aes_gcm_8x_dec
-
- # load 2 more round keys (v11, v12, v13, v14)
- lxv 13, 0xd0(6)
- lxv 14, 0xe0(6)
- cmpdi 9, 14
- beq Loop_aes_gcm_8x_dec
+ # Process different blocks
+ #
+ ld 12, 56(7)
+ cmpdi 12, 0
+ bgt __Do_combine_enc
+ cmpdi 5, 128
+ blt __Process_more_enc
+
+#
+# Process 8x AES/GCM blocks
+#
+__Process_8x_enc:
+ # 8x blcoks
+ li 10, 128
+ divdu 12, 5, 10 # n 128 bytes-blocks
- b aes_gcm_out
+ addi 12, 12, -1 # loop - 1
-.align 5
-Loop_aes_gcm_8x_dec:
- mr 14, 3
- mr 9, 4
+ vmr 15, 30 # first state: IV
+ vadduwm 16, 15, 31 # state + counter
+ vadduwm 17, 16, 31
+ vadduwm 18, 17, 31
+ vadduwm 19, 18, 31
+ vadduwm 20, 19, 31
+ vadduwm 21, 20, 31
+ vadduwm 22, 21, 31
+ xxlor 9, 32+22, 32+22 # save last state
- #
- # check partial block
- #
-Continue_partial_check_dec:
- ld 15, 56(7)
- cmpdi 15, 0
- beq Continue_dec
- bgt Final_block_dec
- cmpdi 15, 16
- blt Final_block_dec
-
-Continue_dec:
- # n blcoks
- li 10, 128
- divdu 10, 12, 10 # n 128 bytes-blocks
- cmpdi 10, 0
- beq Loop_last_block_dec
-
- vaddudm 30, 30, 31 # IV + counter
- vxor 16, 30, 29
- vaddudm 30, 30, 31
- vxor 17, 30, 29
- vaddudm 30, 30, 31
- vxor 18, 30, 29
- vaddudm 30, 30, 31
- vxor 19, 30, 29
- vaddudm 30, 30, 31
- vxor 20, 30, 29
- vaddudm 30, 30, 31
- vxor 21, 30, 29
- vaddudm 30, 30, 31
- vxor 22, 30, 29
-
- mtctr 10
+ # vxor state, state, w # addroundkey
+ xxlor 32+29, 0, 0
+ vxor 15, 15, 29 # IV + round key - add round key 0
+ vxor 16, 16, 29
+ vxor 17, 17, 29
+ vxor 18, 18, 29
+ vxor 19, 19, 29
+ vxor 20, 20, 29
+ vxor 21, 21, 29
+ vxor 22, 22, 29
li 15, 16
li 16, 32
@@ -1217,305 +735,502 @@ Continue_dec:
li 20, 96
li 21, 112
- lwz 10, 240(6)
-
-Loop_8x_block_dec:
-
- lxvb16x 15, 0, 14 # load block
- lxvb16x 16, 15, 14 # load block
- lxvb16x 17, 16, 14 # load block
- lxvb16x 18, 17, 14 # load block
- lxvb16x 19, 18, 14 # load block
- lxvb16x 20, 19, 14 # load block
- lxvb16x 21, 20, 14 # load block
- lxvb16x 22, 21, 14 # load block
- addi 14, 14, 128
-
- Loop_aes_middle8x
-
- xxlor 23+32, 10, 10
-
- cmpdi 10, 10
- beq Do_next_ghash_dec
-
- # 192 bits
- xxlor 24+32, 11, 11
-
- vcipher 15, 15, 23
- vcipher 16, 16, 23
- vcipher 17, 17, 23
- vcipher 18, 18, 23
- vcipher 19, 19, 23
- vcipher 20, 20, 23
- vcipher 21, 21, 23
- vcipher 22, 22, 23
-
- vcipher 15, 15, 24
- vcipher 16, 16, 24
- vcipher 17, 17, 24
- vcipher 18, 18, 24
- vcipher 19, 19, 24
- vcipher 20, 20, 24
- vcipher 21, 21, 24
- vcipher 22, 22, 24
-
- xxlor 23+32, 12, 12
-
- cmpdi 10, 12
- beq Do_next_ghash_dec
-
- # 256 bits
- xxlor 24+32, 13, 13
-
- vcipher 15, 15, 23
- vcipher 16, 16, 23
- vcipher 17, 17, 23
- vcipher 18, 18, 23
- vcipher 19, 19, 23
- vcipher 20, 20, 23
- vcipher 21, 21, 23
- vcipher 22, 22, 23
-
- vcipher 15, 15, 24
- vcipher 16, 16, 24
- vcipher 17, 17, 24
- vcipher 18, 18, 24
- vcipher 19, 19, 24
- vcipher 20, 20, 24
- vcipher 21, 21, 24
- vcipher 22, 22, 24
-
- xxlor 23+32, 14, 14
-
- cmpdi 10, 14
- beq Do_next_ghash_dec
- b aes_gcm_out
+ #
+ # Pre-compute first 8 AES state and leave 1/3/5 more rounds
+ # for the loop.
+ #
+ addi 22, 23, -9 # process 8 keys
+ mtctr 22 # AES key loop
+ addi 10, 6, 144
-Do_next_ghash_dec:
+ LOOP_8AES_STATE # process 8 AES keys
- #
- # last round
- vcipherlast 15, 15, 23
- vcipherlast 16, 16, 23
-
- xxlxor 47, 47, 15
- stxvb16x 47, 0, 9 # store output
- xxlxor 48, 48, 16
- stxvb16x 48, 15, 9 # store output
-
- vcipherlast 17, 17, 23
- vcipherlast 18, 18, 23
-
- xxlxor 49, 49, 17
- stxvb16x 49, 16, 9 # store output
- xxlxor 50, 50, 18
- stxvb16x 50, 17, 9 # store output
-
- vcipherlast 19, 19, 23
- vcipherlast 20, 20, 23
-
- xxlxor 51, 51, 19
- stxvb16x 51, 18, 9 # store output
- xxlxor 52, 52, 20
- stxvb16x 52, 19, 9 # store output
-
- vcipherlast 21, 21, 23
- vcipherlast 22, 22, 23
-
- xxlxor 53, 53, 21
- stxvb16x 53, 20, 9 # store output
- xxlxor 54, 54, 22
- stxvb16x 54, 21, 9 # store output
-
- addi 9, 9, 128
-
- xxlor 15+32, 15, 15
- xxlor 16+32, 16, 16
- xxlor 17+32, 17, 17
- xxlor 18+32, 18, 18
- xxlor 19+32, 19, 19
- xxlor 20+32, 20, 20
- xxlor 21+32, 21, 21
- xxlor 22+32, 22, 22
+__PreLoop_aes_state:
+ lxv 32+1, 0(10) # round key
+ AES_CIPHER_8x vcipher 15 1
+ addi 10, 10, 16
+ bdnz __PreLoop_aes_state
+ lxv 32+1, 0(10) # last round key (v1)
+
+ cmpdi 12, 0 # Only one loop (8 block)
+ beq __Finish_ghash
+
+#
+# Loop 8x blocks and compute ghash
+#
+__Loop_8x_block_enc:
+ vcipherlast 15, 15, 1
+ vcipherlast 16, 16, 1
+ vcipherlast 17, 17, 1
+ vcipherlast 18, 18, 1
+ vcipherlast 19, 19, 1
+ vcipherlast 20, 20, 1
+ vcipherlast 21, 21, 1
+ vcipherlast 22, 22, 1
+
+ lxvb16x 32+23, 0, 14 # load block
+ lxvb16x 32+24, 15, 14 # load block
+ lxvb16x 32+25, 16, 14 # load block
+ lxvb16x 32+26, 17, 14 # load block
+ lxvb16x 32+27, 18, 14 # load block
+ lxvb16x 32+28, 19, 14 # load block
+ lxvb16x 32+29, 20, 14 # load block
+ lxvb16x 32+30, 21, 14 # load block
+ addi 14, 14, 128
+
+ vxor 15, 15, 23
+ vxor 16, 16, 24
+ vxor 17, 17, 25
+ vxor 18, 18, 26
+ vxor 19, 19, 27
+ vxor 20, 20, 28
+ vxor 21, 21, 29
+ vxor 22, 22, 30
+
+ stxvb16x 47, 0, 9 # store output
+ stxvb16x 48, 15, 9 # store output
+ stxvb16x 49, 16, 9 # store output
+ stxvb16x 50, 17, 9 # store output
+ stxvb16x 51, 18, 9 # store output
+ stxvb16x 52, 19, 9 # store output
+ stxvb16x 53, 20, 9 # store output
+ stxvb16x 54, 21, 9 # store output
+ addi 9, 9, 128
# ghash here
- ppc_aes_gcm_ghash2_4x
-
- xxlor 27+32, 0, 0
- vaddudm 30, 30, 31 # IV + counter
- vmr 29, 30
- vxor 15, 30, 27 # add round key
- vaddudm 30, 30, 31
- vxor 16, 30, 27
- vaddudm 30, 30, 31
- vxor 17, 30, 27
- vaddudm 30, 30, 31
- vxor 18, 30, 27
- vaddudm 30, 30, 31
- vxor 19, 30, 27
- vaddudm 30, 30, 31
- vxor 20, 30, 27
- vaddudm 30, 30, 31
- vxor 21, 30, 27
- vaddudm 30, 30, 31
- vxor 22, 30, 27
-
- addi 12, 12, -128
+ vxor 15, 15, 0
+ PPC_GHASH4x 0, 15, 16, 17, 18
+
+ vxor 19, 19, 0
+ PPC_GHASH4x 0, 19, 20, 21, 22
+
+ xxlor 32+15, 9, 9 # last state
+ vadduwm 15, 15, 31 # state + counter
+ vadduwm 16, 15, 31
+ vadduwm 17, 16, 31
+ vadduwm 18, 17, 31
+ vadduwm 19, 18, 31
+ vadduwm 20, 19, 31
+ vadduwm 21, 20, 31
+ vadduwm 22, 21, 31
+ xxlor 9, 32+22, 32+22 # save last state
+
+ xxlor 32+27, 0, 0 # restore roundkey 0
+ vxor 15, 15, 27 # IV + round key - add round key 0
+ vxor 16, 16, 27
+ vxor 17, 17, 27
+ vxor 18, 18, 27
+ vxor 19, 19, 27
+ vxor 20, 20, 27
+ vxor 21, 21, 27
+ vxor 22, 22, 27
+
+ addi 5, 5, -128
addi 11, 11, 128
- bdnz Loop_8x_block_dec
-
- vmr 30, 29
- stxvb16x 30+32, 0, 7 # update IV
-
-Loop_last_block_dec:
- cmpdi 12, 0
- beq aes_gcm_out
-
- # loop last few blocks
- li 10, 16
- divdu 10, 12, 10
-
- mtctr 10
-
- lwz 10, 240(6)
-
- cmpdi 12, 16
- blt Final_block_dec
-
-Next_rem_block_dec:
- lxvb16x 15, 0, 14 # load block
-
- Loop_aes_middle_1x
-
- xxlor 23+32, 10, 10
+ LOOP_8AES_STATE # process 8 AES keys
+ mtctr 22 # AES key loop
+ addi 10, 6, 144
+__LastLoop_aes_state:
+ lxv 32+1, 0(10) # round key
+ AES_CIPHER_8x vcipher 15 1
+ addi 10, 10, 16
+ bdnz __LastLoop_aes_state
+ lxv 32+1, 0(10) # last round key (v1)
- cmpdi 10, 10
- beq Do_next_1x_dec
+ addi 12, 12, -1
+ cmpdi 12, 0
+ bne __Loop_8x_block_enc
+
+__Finish_ghash:
+ vcipherlast 15, 15, 1
+ vcipherlast 16, 16, 1
+ vcipherlast 17, 17, 1
+ vcipherlast 18, 18, 1
+ vcipherlast 19, 19, 1
+ vcipherlast 20, 20, 1
+ vcipherlast 21, 21, 1
+ vcipherlast 22, 22, 1
+
+ lxvb16x 32+23, 0, 14 # load block
+ lxvb16x 32+24, 15, 14 # load block
+ lxvb16x 32+25, 16, 14 # load block
+ lxvb16x 32+26, 17, 14 # load block
+ lxvb16x 32+27, 18, 14 # load block
+ lxvb16x 32+28, 19, 14 # load block
+ lxvb16x 32+29, 20, 14 # load block
+ lxvb16x 32+30, 21, 14 # load block
+ addi 14, 14, 128
+
+ vxor 15, 15, 23
+ vxor 16, 16, 24
+ vxor 17, 17, 25
+ vxor 18, 18, 26
+ vxor 19, 19, 27
+ vxor 20, 20, 28
+ vxor 21, 21, 29
+ vxor 22, 22, 30
+
+ stxvb16x 47, 0, 9 # store output
+ stxvb16x 48, 15, 9 # store output
+ stxvb16x 49, 16, 9 # store output
+ stxvb16x 50, 17, 9 # store output
+ stxvb16x 51, 18, 9 # store output
+ stxvb16x 52, 19, 9 # store output
+ stxvb16x 53, 20, 9 # store output
+ stxvb16x 54, 21, 9 # store output
+ addi 9, 9, 128
+
+ vxor 15, 15, 0
+ PPC_GHASH4x 0, 15, 16, 17, 18
+
+ vxor 19, 19, 0
+ PPC_GHASH4x 0, 19, 20, 21, 22
+
+ xxlor 30+32, 9, 9 # last ctr
+ vadduwm 30, 30, 31 # increase ctr
+ stxvb16x 32+30, 0, 7 # update IV
+ stxvb16x 32+0, 0, 8 # update Xi
+
+ addi 5, 5, -128
+ addi 11, 11, 128
- # 192 bits
- xxlor 24+32, 11, 11
+ #
+ # Done 8x blocks
+ #
- vcipher 15, 15, 23
- vcipher 15, 15, 24
+ cmpdi 5, 0
+ beq aes_gcm_out
- xxlor 23+32, 12, 12
+__Process_more_enc:
+ li 24, 1 # encrypt
+ bl aes_gcm_crypt_1x
+ cmpdi 5, 0
+ beq aes_gcm_out
- cmpdi 10, 12
- beq Do_next_1x_dec
+ bl __Process_partial
+ cmpdi 5, 0
+ beq aes_gcm_out
+__Do_combine_enc:
+ bl __Combine_partial
+ cmpdi 5, 0
+ bgt __Process_encrypt
+ b aes_gcm_out
- # 256 bits
- xxlor 24+32, 13, 13
+SYM_FUNC_END(aes_p10_gcm_encrypt)
- vcipher 15, 15, 23
- vcipher 15, 15, 24
+################################################################################
+# aes_p10_gcm_decrypt (const void *inp, void *out, size_t len,
+# const char *rk, unsigned char iv[16], void *Xip);
+# 8x Decrypt
+#
+################################################################################
+SYM_FUNC_START(aes_p10_gcm_decrypt)
- xxlor 23+32, 14, 14
+ cmpdi 5, 0
+ ble __Invalid_msg_len
- cmpdi 10, 14
- beq Do_next_1x_dec
+ SAVE_REGS
+ LOAD_HASH_TABLE
-Do_next_1x_dec:
- vcipherlast 15, 15, 23
+ # initialize ICB: GHASH( IV ), IV - r7
+ lxvb16x 30+32, 0, 7 # load IV - v30
- xxlxor 47, 47, 15
- stxvb16x 47, 0, 9 # store output
- addi 14, 14, 16
- addi 9, 9, 16
+ mr 14, 3
+ mr 9, 4
- xxlor 28+32, 15, 15
- #vmr 28, 15
- ppc_update_hash_1x
+ # counter 1
+ vxor 31, 31, 31
+ vspltisb 22, 1
+ vsldoi 31, 31, 22,1 # counter 1
- addi 12, 12, -16
- addi 11, 11, 16
- xxlor 19+32, 0, 0
- vaddudm 30, 30, 31 # IV + counter
- vxor 15, 30, 19 # add round key
+ addis 11, 2, permx@toc@ha
+ addi 11, 11, permx@toc@l
+ lxv 10, 0(11) # vs10: vpermxor vector
+ li 11, 0
+
+ # load 9 round keys to VSR
+ lxv 0, 0(6) # round key 0
+ lxv 1, 16(6) # round key 1
+ lxv 2, 32(6) # round key 2
+ lxv 3, 48(6) # round key 3
+ lxv 4, 64(6) # round key 4
+ lxv 5, 80(6) # round key 5
+ lxv 6, 96(6) # round key 6
+ lxv 7, 112(6) # round key 7
+ lxv 8, 128(6) # round key 8
- bdnz Next_rem_block_dec
+ # load rounds - 10 (128), 12 (192), 14 (256)
+ lwz 23, 240(6) # n rounds
+ li 24, 0 # decrypt
- li 15, 0
- std 15, 56(7) # clear partial?
- stxvb16x 30+32, 0, 7 # update IV
+__Process_decrypt:
+ #
+ # Process different blocks
+ #
+ ld 12, 56(7)
cmpdi 12, 0
- beq aes_gcm_out
-
-Final_block_dec:
- lwz 10, 240(6)
- Loop_aes_middle_1x
-
- xxlor 23+32, 10, 10
-
- cmpdi 10, 10
- beq Do_final_1x_dec
+ bgt __Do_combine_dec
+ cmpdi 5, 128
+ blt __Process_more_dec
+
+#
+# Process 8x AES/GCM blocks
+#
+__Process_8x_dec:
+ # 8x blcoks
+ li 10, 128
+ divdu 12, 5, 10 # n 128 bytes-blocks
- # 192 bits
- xxlor 24+32, 11, 11
+ addi 12, 12, -1 # loop - 1
- vcipher 15, 15, 23
- vcipher 15, 15, 24
+ vmr 15, 30 # first state: IV
+ vadduwm 16, 15, 31 # state + counter
+ vadduwm 17, 16, 31
+ vadduwm 18, 17, 31
+ vadduwm 19, 18, 31
+ vadduwm 20, 19, 31
+ vadduwm 21, 20, 31
+ vadduwm 22, 21, 31
+ xxlor 9, 32+22, 32+22 # save last state
- xxlor 23+32, 12, 12
+ # vxor state, state, w # addroundkey
+ xxlor 32+29, 0, 0
+ vxor 15, 15, 29 # IV + round key - add round key 0
+ vxor 16, 16, 29
+ vxor 17, 17, 29
+ vxor 18, 18, 29
+ vxor 19, 19, 29
+ vxor 20, 20, 29
+ vxor 21, 21, 29
+ vxor 22, 22, 29
- cmpdi 10, 12
- beq Do_final_1x_dec
+ li 15, 16
+ li 16, 32
+ li 17, 48
+ li 18, 64
+ li 19, 80
+ li 20, 96
+ li 21, 112
- # 256 bits
- xxlor 24+32, 13, 13
+ #
+ # Pre-compute first 8 AES state and leave 1/3/5 more rounds
+ # for the loop.
+ #
+ addi 22, 23, -9 # process 8 keys
+ mtctr 22 # AES key loop
+ addi 10, 6, 144
- vcipher 15, 15, 23
- vcipher 15, 15, 24
+ LOOP_8AES_STATE # process 8 AES keys
- xxlor 23+32, 14, 14
+__PreLoop_aes_state_dec:
+ lxv 32+1, 0(10) # round key
+ AES_CIPHER_8x vcipher 15 1
+ addi 10, 10, 16
+ bdnz __PreLoop_aes_state_dec
+ lxv 32+1, 0(10) # last round key (v1)
+
+ cmpdi 12, 0 # Only one loop (8 block)
+ beq __Finish_ghash_dec
+
+#
+# Loop 8x blocks and compute ghash
+#
+__Loop_8x_block_dec:
+ vcipherlast 15, 15, 1
+ vcipherlast 16, 16, 1
+ vcipherlast 17, 17, 1
+ vcipherlast 18, 18, 1
+ vcipherlast 19, 19, 1
+ vcipherlast 20, 20, 1
+ vcipherlast 21, 21, 1
+ vcipherlast 22, 22, 1
+
+ lxvb16x 32+23, 0, 14 # load block
+ lxvb16x 32+24, 15, 14 # load block
+ lxvb16x 32+25, 16, 14 # load block
+ lxvb16x 32+26, 17, 14 # load block
+ lxvb16x 32+27, 18, 14 # load block
+ lxvb16x 32+28, 19, 14 # load block
+ lxvb16x 32+29, 20, 14 # load block
+ lxvb16x 32+30, 21, 14 # load block
+ addi 14, 14, 128
+
+ vxor 15, 15, 23
+ vxor 16, 16, 24
+ vxor 17, 17, 25
+ vxor 18, 18, 26
+ vxor 19, 19, 27
+ vxor 20, 20, 28
+ vxor 21, 21, 29
+ vxor 22, 22, 30
+
+ stxvb16x 47, 0, 9 # store output
+ stxvb16x 48, 15, 9 # store output
+ stxvb16x 49, 16, 9 # store output
+ stxvb16x 50, 17, 9 # store output
+ stxvb16x 51, 18, 9 # store output
+ stxvb16x 52, 19, 9 # store output
+ stxvb16x 53, 20, 9 # store output
+ stxvb16x 54, 21, 9 # store output
+
+ addi 9, 9, 128
+
+ vmr 15, 23
+ vmr 16, 24
+ vmr 17, 25
+ vmr 18, 26
+ vmr 19, 27
+ vmr 20, 28
+ vmr 21, 29
+ vmr 22, 30
- cmpdi 10, 14
- beq Do_final_1x_dec
+ # ghash here
+ vxor 15, 15, 0
+ PPC_GHASH4x 0, 15, 16, 17, 18
+
+ vxor 19, 19, 0
+ PPC_GHASH4x 0, 19, 20, 21, 22
+
+ xxlor 32+15, 9, 9 # last state
+ vadduwm 15, 15, 31 # state + counter
+ vadduwm 16, 15, 31
+ vadduwm 17, 16, 31
+ vadduwm 18, 17, 31
+ vadduwm 19, 18, 31
+ vadduwm 20, 19, 31
+ vadduwm 21, 20, 31
+ vadduwm 22, 21, 31
+ xxlor 9, 32+22, 32+22 # save last state
+
+ xxlor 32+27, 0, 0 # restore roundkey 0
+ vxor 15, 15, 27 # IV + round key - add round key 0
+ vxor 16, 16, 27
+ vxor 17, 17, 27
+ vxor 18, 18, 27
+ vxor 19, 19, 27
+ vxor 20, 20, 27
+ vxor 21, 21, 27
+ vxor 22, 22, 27
+
+ addi 5, 5, -128
+ addi 11, 11, 128
-Do_final_1x_dec:
- vcipherlast 15, 15, 23
+ LOOP_8AES_STATE # process 8 AES keys
+ mtctr 22 # AES key loop
+ addi 10, 6, 144
+__LastLoop_aes_state_dec:
+ lxv 32+1, 0(10) # round key
+ AES_CIPHER_8x vcipher 15 1
+ addi 10, 10, 16
+ bdnz __LastLoop_aes_state_dec
+ lxv 32+1, 0(10) # last round key (v1)
- # check partial block
- li 21, 1 # decrypt
- ld 15, 56(7) # partial?
- cmpdi 15, 0
- beq Normal_block_dec
- bl Do_partial_block
+ addi 12, 12, -1
cmpdi 12, 0
- ble aes_gcm_out
-
- b Continue_partial_check_dec
+ bne __Loop_8x_block_dec
+
+__Finish_ghash_dec:
+ vcipherlast 15, 15, 1
+ vcipherlast 16, 16, 1
+ vcipherlast 17, 17, 1
+ vcipherlast 18, 18, 1
+ vcipherlast 19, 19, 1
+ vcipherlast 20, 20, 1
+ vcipherlast 21, 21, 1
+ vcipherlast 22, 22, 1
+
+ lxvb16x 32+23, 0, 14 # load block
+ lxvb16x 32+24, 15, 14 # load block
+ lxvb16x 32+25, 16, 14 # load block
+ lxvb16x 32+26, 17, 14 # load block
+ lxvb16x 32+27, 18, 14 # load block
+ lxvb16x 32+28, 19, 14 # load block
+ lxvb16x 32+29, 20, 14 # load block
+ lxvb16x 32+30, 21, 14 # load block
+ addi 14, 14, 128
+
+ vxor 15, 15, 23
+ vxor 16, 16, 24
+ vxor 17, 17, 25
+ vxor 18, 18, 26
+ vxor 19, 19, 27
+ vxor 20, 20, 28
+ vxor 21, 21, 29
+ vxor 22, 22, 30
+
+ stxvb16x 47, 0, 9 # store output
+ stxvb16x 48, 15, 9 # store output
+ stxvb16x 49, 16, 9 # store output
+ stxvb16x 50, 17, 9 # store output
+ stxvb16x 51, 18, 9 # store output
+ stxvb16x 52, 19, 9 # store output
+ stxvb16x 53, 20, 9 # store output
+ stxvb16x 54, 21, 9 # store output
+ addi 9, 9, 128
+
+ #vmr 15, 23
+ vxor 15, 23, 0
+ vmr 16, 24
+ vmr 17, 25
+ vmr 18, 26
+ vmr 19, 27
+ vmr 20, 28
+ vmr 21, 29
+ vmr 22, 30
+
+ #vxor 15, 15, 0
+ PPC_GHASH4x 0, 15, 16, 17, 18
+
+ vxor 19, 19, 0
+ PPC_GHASH4x 0, 19, 20, 21, 22
+
+ xxlor 30+32, 9, 9 # last ctr
+ vadduwm 30, 30, 31 # increase ctr
+ stxvb16x 32+30, 0, 7 # update IV
+ stxvb16x 32+0, 0, 8 # update Xi
+
+ addi 5, 5, -128
+ addi 11, 11, 128
-Normal_block_dec:
- lxvb16x 15, 0, 14 # load last block
- xxlxor 47, 47, 15
+ #
+ # Done 8x blocks
+ #
- # create partial block mask
- li 15, 16
- sub 15, 15, 12 # index to the mask
+ cmpdi 5, 0
+ beq aes_gcm_out
- vspltisb 16, -1 # first 16 bytes - 0xffff...ff
- vspltisb 17, 0 # second 16 bytes - 0x0000...00
- li 10, 192
- stvx 16, 10, 1
- addi 10, 10, 16
- stvx 17, 10, 1
+__Process_more_dec:
+ li 24, 0 # decrypt
+ bl aes_gcm_crypt_1x
+ cmpdi 5, 0
+ beq aes_gcm_out
- addi 10, 1, 192
- lxvb16x 16, 15, 10 # load partial block mask
- xxland 47, 47, 16
+ bl __Process_partial
+ cmpdi 5, 0
+ beq aes_gcm_out
+__Do_combine_dec:
+ bl __Combine_partial
+ cmpdi 5, 0
+ bgt __Process_decrypt
+ b aes_gcm_out
+SYM_FUNC_END(aes_p10_gcm_decrypt)
- xxland 32+28, 15, 16
- #vmr 28, 15
- ppc_update_hash_1x
+SYM_FUNC_START_LOCAL(aes_gcm_out)
- # * should store only the remaining bytes.
- bl Write_partial_block
+ mr 3, 11 # return count
- stxvb16x 30+32, 0, 7 # update IV
- std 12, 56(7) # update partial?
- li 16, 16
+ RESTORE_REGS
+ blr
- stxvb16x 32, 0, 8 # write out Xi
- stxvb16x 32, 16, 8 # write out Xi
- b aes_gcm_out
+__Invalid_msg_len:
+ li 3, 0
+ blr
+SYM_FUNC_END(aes_gcm_out)
+
+SYM_DATA_START_LOCAL(PERMX)
+.align 4
+# for vector permute and xor
+permx:
+.long 0x4c5d6e7f, 0x08192a3b, 0xc4d5e6f7, 0x8091a2b3
+SYM_DATA_END(permx)
--
2.43.0