From: Thomas Pornin Date: Sun, 12 Aug 2018 21:53:23 +0000 (+0200) Subject: Added POWER8 implementation for AES/CTR+CBC-MAC (for CCM and EAX modes). X-Git-Tag: v0.6~2 X-Git-Url: https://bearssl.org/gitweb//home/git/?a=commitdiff_plain;h=f8e38c231dab636d8a1ece7f9eaa07bf09dfb049;p=BearSSL Added POWER8 implementation for AES/CTR+CBC-MAC (for CCM and EAX modes). --- diff --git a/inc/bearssl_block.h b/inc/bearssl_block.h index 7152be8..683a490 100644 --- a/inc/bearssl_block.h +++ b/inc/bearssl_block.h @@ -1919,6 +1919,24 @@ typedef struct { #endif } br_aes_pwr8_ctr_keys; +/** + * \brief Context for AES subkeys (`aes_pwr8` implementation, CTR encryption + * and decryption + CBC-MAC). + * + * First field is a pointer to the vtable; it is set by the initialisation + * function. Other fields are not supposed to be accessed by user code. + */ +typedef struct { + /** \brief Pointer to vtable for this context. */ + const br_block_ctrcbc_class *vtable; +#ifndef BR_DOXYGEN_IGNORE + union { + unsigned char skni[16 * 15]; + } skey; + unsigned num_rounds; +#endif +} br_aes_pwr8_ctrcbc_keys; + /** * \brief Class instance for AES CBC encryption (`aes_pwr8` implementation). * @@ -1947,6 +1965,16 @@ extern const br_block_cbcdec_class br_aes_pwr8_cbcdec_vtable; */ extern const br_block_ctr_class br_aes_pwr8_ctr_vtable; +/** + * \brief Class instance for AES CTR encryption/decryption + CBC-MAC + * (`aes_pwr8` implementation). + * + * Since this implementation might be omitted from the library, or the + * AES opcode unavailable on the current CPU, a pointer to this class + * instance should be obtained through `br_aes_pwr8_ctrcbc_get_vtable()`. + */ +extern const br_block_ctrcbc_class br_aes_pwr8_ctrcbc_vtable; + /** * \brief Context initialisation (key schedule) for AES CBC encryption * (`aes_pwr8` implementation). @@ -1980,6 +2008,17 @@ void br_aes_pwr8_cbcdec_init(br_aes_pwr8_cbcdec_keys *ctx, void br_aes_pwr8_ctr_init(br_aes_pwr8_ctr_keys *ctx, const void *key, size_t len); +/** + * \brief Context initialisation (key schedule) for AES CTR + CBC-MAC + * (`aes_pwr8` implementation). + * + * \param ctx context to initialise. + * \param key secret key. + * \param len secret key length (in bytes). + */ +void br_aes_pwr8_ctrcbc_init(br_aes_pwr8_ctrcbc_keys *ctx, + const void *key, size_t len); + /** * \brief CBC encryption with AES (`aes_pwr8` implementation). * @@ -2015,6 +2054,52 @@ void br_aes_pwr8_cbcdec_run(const br_aes_pwr8_cbcdec_keys *ctx, void *iv, uint32_t br_aes_pwr8_ctr_run(const br_aes_pwr8_ctr_keys *ctx, const void *iv, uint32_t cc, void *data, size_t len); +/** + * \brief CTR encryption + CBC-MAC with AES (`aes_pwr8` implementation). + * + * \param ctx context (already initialised). + * \param ctr counter for CTR (16 bytes, updated). + * \param cbcmac IV for CBC-MAC (updated). + * \param data data to encrypt (updated). + * \param len data length (in bytes, MUST be a multiple of 16). + */ +void br_aes_pwr8_ctrcbc_encrypt(const br_aes_pwr8_ctrcbc_keys *ctx, + void *ctr, void *cbcmac, void *data, size_t len); + +/** + * \brief CTR decryption + CBC-MAC with AES (`aes_pwr8` implementation). + * + * \param ctx context (already initialised). + * \param ctr counter for CTR (16 bytes, updated). + * \param cbcmac IV for CBC-MAC (updated). + * \param data data to decrypt (updated). + * \param len data length (in bytes, MUST be a multiple of 16). + */ +void br_aes_pwr8_ctrcbc_decrypt(const br_aes_pwr8_ctrcbc_keys *ctx, + void *ctr, void *cbcmac, void *data, size_t len); + +/** + * \brief CTR encryption/decryption with AES (`aes_pwr8` implementation). + * + * \param ctx context (already initialised). + * \param ctr counter for CTR (16 bytes, updated). + * \param data data to MAC (updated). + * \param len data length (in bytes, MUST be a multiple of 16). + */ +void br_aes_pwr8_ctrcbc_ctr(const br_aes_pwr8_ctrcbc_keys *ctx, + void *ctr, void *data, size_t len); + +/** + * \brief CBC-MAC with AES (`aes_pwr8` implementation). + * + * \param ctx context (already initialised). + * \param cbcmac IV for CBC-MAC (updated). + * \param data data to MAC (unmodified). + * \param len data length (in bytes, MUST be a multiple of 16). + */ +void br_aes_pwr8_ctrcbc_mac(const br_aes_pwr8_ctrcbc_keys *ctx, + void *cbcmac, const void *data, size_t len); + /** * \brief Obtain the `aes_pwr8` AES-CBC (encryption) implementation, if * available. @@ -2053,6 +2138,19 @@ const br_block_cbcdec_class *br_aes_pwr8_cbcdec_get_vtable(void); */ const br_block_ctr_class *br_aes_pwr8_ctr_get_vtable(void); +/** + * \brief Obtain the `aes_pwr8` AES-CTR + CBC-MAC implementation, if + * available. + * + * This function returns a pointer to `br_aes_pwr8_ctrcbc_vtable`, if + * that implementation was compiled in the library _and_ the POWER8 AES + * opcodes are available on the currently running CPU. If either of + * these conditions is not met, then this function returns `NULL`. + * + * \return the `aes_pwr8` AES-CTR implementation, or `NULL`. + */ +const br_block_ctrcbc_class *br_aes_pwr8_ctrcbc_get_vtable(void); + /** * \brief Aggregate structure large enough to be used as context for * subkeys (CBC encryption) for all AES implementations. @@ -2106,9 +2204,7 @@ typedef union { br_aes_ct_ctrcbc_keys c_ct; br_aes_ct64_ctrcbc_keys c_ct64; br_aes_x86ni_ctrcbc_keys c_x86ni; - /* FIXME br_aes_pwr8_ctrcbc_keys c_pwr8; - */ } br_aes_gen_ctrcbc_keys; /* diff --git a/mk/Rules.mk b/mk/Rules.mk index fd55dfd..0a23fa5 100644 --- a/mk/Rules.mk +++ b/mk/Rules.mk @@ -242,6 +242,7 @@ OBJ = \ $(OBJDIR)$Paes_pwr8_cbcdec$O \ $(OBJDIR)$Paes_pwr8_cbcenc$O \ $(OBJDIR)$Paes_pwr8_ctr$O \ + $(OBJDIR)$Paes_pwr8_ctrcbc$O \ $(OBJDIR)$Paes_small_cbcdec$O \ $(OBJDIR)$Paes_small_cbcenc$O \ $(OBJDIR)$Paes_small_ctr$O \ @@ -1079,6 +1080,9 @@ $(OBJDIR)$Paes_pwr8_cbcenc$O: src$Psymcipher$Paes_pwr8_cbcenc.c $(HEADERSPRIV) $(OBJDIR)$Paes_pwr8_ctr$O: src$Psymcipher$Paes_pwr8_ctr.c $(HEADERSPRIV) $(CC) $(CFLAGS) $(INCFLAGS) $(CCOUT)$(OBJDIR)$Paes_pwr8_ctr$O src$Psymcipher$Paes_pwr8_ctr.c +$(OBJDIR)$Paes_pwr8_ctrcbc$O: src$Psymcipher$Paes_pwr8_ctrcbc.c $(HEADERSPRIV) + $(CC) $(CFLAGS) $(INCFLAGS) $(CCOUT)$(OBJDIR)$Paes_pwr8_ctrcbc$O src$Psymcipher$Paes_pwr8_ctrcbc.c + $(OBJDIR)$Paes_small_cbcdec$O: src$Psymcipher$Paes_small_cbcdec.c $(HEADERSPRIV) $(CC) $(CFLAGS) $(INCFLAGS) $(CCOUT)$(OBJDIR)$Paes_small_cbcdec$O src$Psymcipher$Paes_small_cbcdec.c diff --git a/mk/mkrules.sh b/mk/mkrules.sh index 16f16ab..c72b820 100755 --- a/mk/mkrules.sh +++ b/mk/mkrules.sh @@ -290,6 +290,7 @@ coresrc=" \ src/symcipher/aes_pwr8_cbcdec.c \ src/symcipher/aes_pwr8_cbcenc.c \ src/symcipher/aes_pwr8_ctr.c \ + src/symcipher/aes_pwr8_ctrcbc.c \ src/symcipher/aes_small_cbcdec.c \ src/symcipher/aes_small_cbcenc.c \ src/symcipher/aes_small_ctr.c \ diff --git a/src/inner.h b/src/inner.h index d7e4091..8c7f04e 100644 --- a/src/inner.h +++ b/src/inner.h @@ -2337,6 +2337,7 @@ int br_ssl_choose_hash(unsigned bf); #define stxvw4x(xt, ra, rb) stxvw4x_(xt, ra, rb) #define bdnz(foo) bdnz_(foo) +#define bdz(foo) bdz_(foo) #define beq(foo) beq_(foo) #define li(rx, value) li_(rx, value) @@ -2355,6 +2356,7 @@ int br_ssl_choose_hash(unsigned bf); #define vsl(vrt, vra, vrb) vsl_(vrt, vra, vrb) #define vsldoi(vt, va, vb, sh) vsldoi_(vt, va, vb, sh) #define vsr(vrt, vra, vrb) vsr_(vrt, vra, vrb) +#define vaddcuw(vrt, vra, vrb) vaddcuw_(vrt, vra, vrb) #define vadduwm(vrt, vra, vrb) vadduwm_(vrt, vra, vrb) #define vsububm(vrt, vra, vrb) vsububm_(vrt, vra, vrb) #define vsubuwm(vrt, vra, vrb) vsubuwm_(vrt, vra, vrb) @@ -2372,6 +2374,7 @@ int br_ssl_choose_hash(unsigned bf); #define label(foo) #foo "%=:\n" #define bdnz_(foo) "\tbdnz\t" #foo "%=\n" +#define bdz_(foo) "\tbdz\t" #foo "%=\n" #define beq_(foo) "\tbeq\t" #foo "%=\n" #define li_(rx, value) "\tli\t" #rx "," #value "\n" @@ -2390,6 +2393,7 @@ int br_ssl_choose_hash(unsigned bf); #define vsl_(vrt, vra, vrb) "\tvsl\t" #vrt "," #vra "," #vrb "\n" #define vsldoi_(vt, va, vb, sh) "\tvsldoi\t" #vt "," #va "," #vb "," #sh "\n" #define vsr_(vrt, vra, vrb) "\tvsr\t" #vrt "," #vra "," #vrb "\n" +#define vaddcuw_(vrt, vra, vrb) "\tvaddcuw\t" #vrt "," #vra "," #vrb "\n" #define vadduwm_(vrt, vra, vrb) "\tvadduwm\t" #vrt "," #vra "," #vrb "\n" #define vsububm_(vrt, vra, vrb) "\tvsububm\t" #vrt "," #vra "," #vrb "\n" #define vsubuwm_(vrt, vra, vrb) "\tvsubuwm\t" #vrt "," #vra "," #vrb "\n" diff --git a/src/ssl/ssl_engine_default_aesccm.c b/src/ssl/ssl_engine_default_aesccm.c index b79718e..15c0a78 100644 --- a/src/ssl/ssl_engine_default_aesccm.c +++ b/src/ssl/ssl_engine_default_aesccm.c @@ -28,7 +28,7 @@ void br_ssl_engine_set_default_aes_ccm(br_ssl_engine_context *cc) { -#if BR_AES_X86NI /* TODO: BR_POWER8 */ +#if BR_AES_X86NI || BR_POWER8 const br_block_ctrcbc_class *ictrcbc; #endif @@ -46,6 +46,17 @@ br_ssl_engine_set_default_aes_ccm(br_ssl_engine_context *cc) br_ssl_engine_set_aes_ctrcbc(cc, &br_aes_ct_ctrcbc_vtable); #endif } +#elif BR_POWER8 + ictrcbc = br_aes_pwr8_ctrcbc_get_vtable(); + if (ictrcbc != NULL) { + br_ssl_engine_set_aes_ctrcbc(cc, ictrcbc); + } else { +#if BR_64 + br_ssl_engine_set_aes_ctrcbc(cc, &br_aes_ct64_ctrcbc_vtable); +#else + br_ssl_engine_set_aes_ctrcbc(cc, &br_aes_ct_ctrcbc_vtable); +#endif + } #else #if BR_64 br_ssl_engine_set_aes_ctrcbc(cc, &br_aes_ct64_ctrcbc_vtable); diff --git a/src/symcipher/aes_pwr8_ctrcbc.c b/src/symcipher/aes_pwr8_ctrcbc.c new file mode 100644 index 0000000..a67d30b --- /dev/null +++ b/src/symcipher/aes_pwr8_ctrcbc.c @@ -0,0 +1,946 @@ +/* + * Copyright (c) 2018 Thomas Pornin + * + * Permission is hereby granted, free of charge, to any person obtaining + * a copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sublicense, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * The above copyright notice and this permission notice shall be + * included in all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, + * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF + * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS + * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN + * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN + * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + * SOFTWARE. + */ + +#define BR_POWER_ASM_MACROS 1 +#include "inner.h" + +#if BR_POWER8 + +/* see bearssl_block.h */ +const br_block_ctrcbc_class * +br_aes_pwr8_ctrcbc_get_vtable(void) +{ + return br_aes_pwr8_supported() ? &br_aes_pwr8_ctrcbc_vtable : NULL; +} + +/* see bearssl_block.h */ +void +br_aes_pwr8_ctrcbc_init(br_aes_pwr8_ctrcbc_keys *ctx, + const void *key, size_t len) +{ + ctx->vtable = &br_aes_pwr8_ctrcbc_vtable; + ctx->num_rounds = br_aes_pwr8_keysched(ctx->skey.skni, key, len); +} + +/* + * Register conventions for CTR + CBC-MAC: + * + * AES subkeys are in registers 0 to 10/12/14 (depending on keys size) + * Register v15 contains the byteswap index register (little-endian only) + * Register v16 contains the CTR counter value + * Register v17 contains the CBC-MAC current value + * Registers v18 to v27 are scratch + * Counter increment uses v28, v29 and v30 + * + * For CTR alone: + * + * AES subkeys are in registers 0 to 10/12/14 (depending on keys size) + * Register v15 contains the byteswap index register (little-endian only) + * Registers v16 to v19 contain the CTR counter values (four blocks) + * Registers v20 to v27 are scratch + * Counter increment uses v28, v29 and v30 + */ + +#define LOAD_SUBKEYS_128 \ + lxvw4x(32, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(33, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(34, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(35, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(36, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(37, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(38, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(39, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(40, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(41, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(42, %[cc], %[sk]) + +#define LOAD_SUBKEYS_192 \ + LOAD_SUBKEYS_128 \ + addi(%[cc], %[cc], 16) \ + lxvw4x(43, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(44, %[cc], %[sk]) + +#define LOAD_SUBKEYS_256 \ + LOAD_SUBKEYS_192 \ + addi(%[cc], %[cc], 16) \ + lxvw4x(45, %[cc], %[sk]) \ + addi(%[cc], %[cc], 16) \ + lxvw4x(46, %[cc], %[sk]) + +#define BLOCK_ENCRYPT_128(x) \ + vxor(x, x, 0) \ + vcipher(x, x, 1) \ + vcipher(x, x, 2) \ + vcipher(x, x, 3) \ + vcipher(x, x, 4) \ + vcipher(x, x, 5) \ + vcipher(x, x, 6) \ + vcipher(x, x, 7) \ + vcipher(x, x, 8) \ + vcipher(x, x, 9) \ + vcipherlast(x, x, 10) + +#define BLOCK_ENCRYPT_192(x) \ + vxor(x, x, 0) \ + vcipher(x, x, 1) \ + vcipher(x, x, 2) \ + vcipher(x, x, 3) \ + vcipher(x, x, 4) \ + vcipher(x, x, 5) \ + vcipher(x, x, 6) \ + vcipher(x, x, 7) \ + vcipher(x, x, 8) \ + vcipher(x, x, 9) \ + vcipher(x, x, 10) \ + vcipher(x, x, 11) \ + vcipherlast(x, x, 12) + +#define BLOCK_ENCRYPT_256(x) \ + vxor(x, x, 0) \ + vcipher(x, x, 1) \ + vcipher(x, x, 2) \ + vcipher(x, x, 3) \ + vcipher(x, x, 4) \ + vcipher(x, x, 5) \ + vcipher(x, x, 6) \ + vcipher(x, x, 7) \ + vcipher(x, x, 8) \ + vcipher(x, x, 9) \ + vcipher(x, x, 10) \ + vcipher(x, x, 11) \ + vcipher(x, x, 12) \ + vcipher(x, x, 13) \ + vcipherlast(x, x, 14) + +#define BLOCK_ENCRYPT_X2_128(x, y) \ + vxor(x, x, 0) \ + vxor(y, y, 0) \ + vcipher(x, x, 1) \ + vcipher(y, y, 1) \ + vcipher(x, x, 2) \ + vcipher(y, y, 2) \ + vcipher(x, x, 3) \ + vcipher(y, y, 3) \ + vcipher(x, x, 4) \ + vcipher(y, y, 4) \ + vcipher(x, x, 5) \ + vcipher(y, y, 5) \ + vcipher(x, x, 6) \ + vcipher(y, y, 6) \ + vcipher(x, x, 7) \ + vcipher(y, y, 7) \ + vcipher(x, x, 8) \ + vcipher(y, y, 8) \ + vcipher(x, x, 9) \ + vcipher(y, y, 9) \ + vcipherlast(x, x, 10) \ + vcipherlast(y, y, 10) + +#define BLOCK_ENCRYPT_X2_192(x, y) \ + vxor(x, x, 0) \ + vxor(y, y, 0) \ + vcipher(x, x, 1) \ + vcipher(y, y, 1) \ + vcipher(x, x, 2) \ + vcipher(y, y, 2) \ + vcipher(x, x, 3) \ + vcipher(y, y, 3) \ + vcipher(x, x, 4) \ + vcipher(y, y, 4) \ + vcipher(x, x, 5) \ + vcipher(y, y, 5) \ + vcipher(x, x, 6) \ + vcipher(y, y, 6) \ + vcipher(x, x, 7) \ + vcipher(y, y, 7) \ + vcipher(x, x, 8) \ + vcipher(y, y, 8) \ + vcipher(x, x, 9) \ + vcipher(y, y, 9) \ + vcipher(x, x, 10) \ + vcipher(y, y, 10) \ + vcipher(x, x, 11) \ + vcipher(y, y, 11) \ + vcipherlast(x, x, 12) \ + vcipherlast(y, y, 12) + +#define BLOCK_ENCRYPT_X2_256(x, y) \ + vxor(x, x, 0) \ + vxor(y, y, 0) \ + vcipher(x, x, 1) \ + vcipher(y, y, 1) \ + vcipher(x, x, 2) \ + vcipher(y, y, 2) \ + vcipher(x, x, 3) \ + vcipher(y, y, 3) \ + vcipher(x, x, 4) \ + vcipher(y, y, 4) \ + vcipher(x, x, 5) \ + vcipher(y, y, 5) \ + vcipher(x, x, 6) \ + vcipher(y, y, 6) \ + vcipher(x, x, 7) \ + vcipher(y, y, 7) \ + vcipher(x, x, 8) \ + vcipher(y, y, 8) \ + vcipher(x, x, 9) \ + vcipher(y, y, 9) \ + vcipher(x, x, 10) \ + vcipher(y, y, 10) \ + vcipher(x, x, 11) \ + vcipher(y, y, 11) \ + vcipher(x, x, 12) \ + vcipher(y, y, 12) \ + vcipher(x, x, 13) \ + vcipher(y, y, 13) \ + vcipherlast(x, x, 14) \ + vcipherlast(y, y, 14) + +#define BLOCK_ENCRYPT_X4_128(x0, x1, x2, x3) \ + vxor(x0, x0, 0) \ + vxor(x1, x1, 0) \ + vxor(x2, x2, 0) \ + vxor(x3, x3, 0) \ + vcipher(x0, x0, 1) \ + vcipher(x1, x1, 1) \ + vcipher(x2, x2, 1) \ + vcipher(x3, x3, 1) \ + vcipher(x0, x0, 2) \ + vcipher(x1, x1, 2) \ + vcipher(x2, x2, 2) \ + vcipher(x3, x3, 2) \ + vcipher(x0, x0, 3) \ + vcipher(x1, x1, 3) \ + vcipher(x2, x2, 3) \ + vcipher(x3, x3, 3) \ + vcipher(x0, x0, 4) \ + vcipher(x1, x1, 4) \ + vcipher(x2, x2, 4) \ + vcipher(x3, x3, 4) \ + vcipher(x0, x0, 5) \ + vcipher(x1, x1, 5) \ + vcipher(x2, x2, 5) \ + vcipher(x3, x3, 5) \ + vcipher(x0, x0, 6) \ + vcipher(x1, x1, 6) \ + vcipher(x2, x2, 6) \ + vcipher(x3, x3, 6) \ + vcipher(x0, x0, 7) \ + vcipher(x1, x1, 7) \ + vcipher(x2, x2, 7) \ + vcipher(x3, x3, 7) \ + vcipher(x0, x0, 8) \ + vcipher(x1, x1, 8) \ + vcipher(x2, x2, 8) \ + vcipher(x3, x3, 8) \ + vcipher(x0, x0, 9) \ + vcipher(x1, x1, 9) \ + vcipher(x2, x2, 9) \ + vcipher(x3, x3, 9) \ + vcipherlast(x0, x0, 10) \ + vcipherlast(x1, x1, 10) \ + vcipherlast(x2, x2, 10) \ + vcipherlast(x3, x3, 10) + +#define BLOCK_ENCRYPT_X4_192(x0, x1, x2, x3) \ + vxor(x0, x0, 0) \ + vxor(x1, x1, 0) \ + vxor(x2, x2, 0) \ + vxor(x3, x3, 0) \ + vcipher(x0, x0, 1) \ + vcipher(x1, x1, 1) \ + vcipher(x2, x2, 1) \ + vcipher(x3, x3, 1) \ + vcipher(x0, x0, 2) \ + vcipher(x1, x1, 2) \ + vcipher(x2, x2, 2) \ + vcipher(x3, x3, 2) \ + vcipher(x0, x0, 3) \ + vcipher(x1, x1, 3) \ + vcipher(x2, x2, 3) \ + vcipher(x3, x3, 3) \ + vcipher(x0, x0, 4) \ + vcipher(x1, x1, 4) \ + vcipher(x2, x2, 4) \ + vcipher(x3, x3, 4) \ + vcipher(x0, x0, 5) \ + vcipher(x1, x1, 5) \ + vcipher(x2, x2, 5) \ + vcipher(x3, x3, 5) \ + vcipher(x0, x0, 6) \ + vcipher(x1, x1, 6) \ + vcipher(x2, x2, 6) \ + vcipher(x3, x3, 6) \ + vcipher(x0, x0, 7) \ + vcipher(x1, x1, 7) \ + vcipher(x2, x2, 7) \ + vcipher(x3, x3, 7) \ + vcipher(x0, x0, 8) \ + vcipher(x1, x1, 8) \ + vcipher(x2, x2, 8) \ + vcipher(x3, x3, 8) \ + vcipher(x0, x0, 9) \ + vcipher(x1, x1, 9) \ + vcipher(x2, x2, 9) \ + vcipher(x3, x3, 9) \ + vcipher(x0, x0, 10) \ + vcipher(x1, x1, 10) \ + vcipher(x2, x2, 10) \ + vcipher(x3, x3, 10) \ + vcipher(x0, x0, 11) \ + vcipher(x1, x1, 11) \ + vcipher(x2, x2, 11) \ + vcipher(x3, x3, 11) \ + vcipherlast(x0, x0, 12) \ + vcipherlast(x1, x1, 12) \ + vcipherlast(x2, x2, 12) \ + vcipherlast(x3, x3, 12) + +#define BLOCK_ENCRYPT_X4_256(x0, x1, x2, x3) \ + vxor(x0, x0, 0) \ + vxor(x1, x1, 0) \ + vxor(x2, x2, 0) \ + vxor(x3, x3, 0) \ + vcipher(x0, x0, 1) \ + vcipher(x1, x1, 1) \ + vcipher(x2, x2, 1) \ + vcipher(x3, x3, 1) \ + vcipher(x0, x0, 2) \ + vcipher(x1, x1, 2) \ + vcipher(x2, x2, 2) \ + vcipher(x3, x3, 2) \ + vcipher(x0, x0, 3) \ + vcipher(x1, x1, 3) \ + vcipher(x2, x2, 3) \ + vcipher(x3, x3, 3) \ + vcipher(x0, x0, 4) \ + vcipher(x1, x1, 4) \ + vcipher(x2, x2, 4) \ + vcipher(x3, x3, 4) \ + vcipher(x0, x0, 5) \ + vcipher(x1, x1, 5) \ + vcipher(x2, x2, 5) \ + vcipher(x3, x3, 5) \ + vcipher(x0, x0, 6) \ + vcipher(x1, x1, 6) \ + vcipher(x2, x2, 6) \ + vcipher(x3, x3, 6) \ + vcipher(x0, x0, 7) \ + vcipher(x1, x1, 7) \ + vcipher(x2, x2, 7) \ + vcipher(x3, x3, 7) \ + vcipher(x0, x0, 8) \ + vcipher(x1, x1, 8) \ + vcipher(x2, x2, 8) \ + vcipher(x3, x3, 8) \ + vcipher(x0, x0, 9) \ + vcipher(x1, x1, 9) \ + vcipher(x2, x2, 9) \ + vcipher(x3, x3, 9) \ + vcipher(x0, x0, 10) \ + vcipher(x1, x1, 10) \ + vcipher(x2, x2, 10) \ + vcipher(x3, x3, 10) \ + vcipher(x0, x0, 11) \ + vcipher(x1, x1, 11) \ + vcipher(x2, x2, 11) \ + vcipher(x3, x3, 11) \ + vcipher(x0, x0, 12) \ + vcipher(x1, x1, 12) \ + vcipher(x2, x2, 12) \ + vcipher(x3, x3, 12) \ + vcipher(x0, x0, 13) \ + vcipher(x1, x1, 13) \ + vcipher(x2, x2, 13) \ + vcipher(x3, x3, 13) \ + vcipherlast(x0, x0, 14) \ + vcipherlast(x1, x1, 14) \ + vcipherlast(x2, x2, 14) \ + vcipherlast(x3, x3, 14) + +#if BR_POWER8_LE +static const uint32_t idx2be[] = { + 0x03020100, 0x07060504, 0x0B0A0908, 0x0F0E0D0C +}; +#define BYTESWAP_INIT lxvw4x(47, 0, %[idx2be]) +#define BYTESWAP(x) vperm(x, x, x, 15) +#define BYTESWAPX(d, s) vperm(d, s, s, 15) +#define BYTESWAP_REG , [idx2be] "b" (idx2be) +#else +#define BYTESWAP_INIT +#define BYTESWAP(x) +#define BYTESWAPX(d, s) vand(d, s, s) +#define BYTESWAP_REG +#endif + +static const uint32_t ctrinc[] = { + 0, 0, 0, 1 +}; +static const uint32_t ctrinc_x4[] = { + 0, 0, 0, 4 +}; +#define INCR_128_INIT lxvw4x(60, 0, %[ctrinc]) +#define INCR_128_X4_INIT lxvw4x(60, 0, %[ctrinc_x4]) +#define INCR_128(d, s) \ + vaddcuw(29, s, 28) \ + vadduwm(d, s, 28) \ + vsldoi(30, 29, 29, 4) \ + vaddcuw(29, d, 30) \ + vadduwm(d, d, 30) \ + vsldoi(30, 29, 29, 4) \ + vaddcuw(29, d, 30) \ + vadduwm(d, d, 30) \ + vsldoi(30, 29, 29, 4) \ + vadduwm(d, d, 30) + +#define MKCTR(size) \ +static void \ +ctr_ ## size(const unsigned char *sk, \ + unsigned char *ctrbuf, unsigned char *buf, size_t num_blocks_x4) \ +{ \ + long cc, cc0, cc1, cc2, cc3; \ + \ + cc = 0; \ + cc0 = 0; \ + cc1 = 16; \ + cc2 = 32; \ + cc3 = 48; \ + asm volatile ( \ + \ + /* \ + * Load subkeys into v0..v10 \ + */ \ + LOAD_SUBKEYS_ ## size \ + li(%[cc], 0) \ + \ + BYTESWAP_INIT \ + INCR_128_X4_INIT \ + \ + /* \ + * Load current CTR counters into v16 to v19. \ + */ \ + lxvw4x(48, %[cc0], %[ctrbuf]) \ + lxvw4x(49, %[cc1], %[ctrbuf]) \ + lxvw4x(50, %[cc2], %[ctrbuf]) \ + lxvw4x(51, %[cc3], %[ctrbuf]) \ + BYTESWAP(16) \ + BYTESWAP(17) \ + BYTESWAP(18) \ + BYTESWAP(19) \ + \ + mtctr(%[num_blocks_x4]) \ + \ + label(loop) \ + /* \ + * Compute next counter values into v20..v23. \ + */ \ + INCR_128(20, 16) \ + INCR_128(21, 17) \ + INCR_128(22, 18) \ + INCR_128(23, 19) \ + \ + /* \ + * Encrypt counter values and XOR into next data blocks. \ + */ \ + lxvw4x(56, %[cc0], %[buf]) \ + lxvw4x(57, %[cc1], %[buf]) \ + lxvw4x(58, %[cc2], %[buf]) \ + lxvw4x(59, %[cc3], %[buf]) \ + BYTESWAP(24) \ + BYTESWAP(25) \ + BYTESWAP(26) \ + BYTESWAP(27) \ + BLOCK_ENCRYPT_X4_ ## size(16, 17, 18, 19) \ + vxor(16, 16, 24) \ + vxor(17, 17, 25) \ + vxor(18, 18, 26) \ + vxor(19, 19, 27) \ + BYTESWAP(16) \ + BYTESWAP(17) \ + BYTESWAP(18) \ + BYTESWAP(19) \ + stxvw4x(48, %[cc0], %[buf]) \ + stxvw4x(49, %[cc1], %[buf]) \ + stxvw4x(50, %[cc2], %[buf]) \ + stxvw4x(51, %[cc3], %[buf]) \ + \ + /* \ + * Update counters and data pointer. \ + */ \ + vand(16, 20, 20) \ + vand(17, 21, 21) \ + vand(18, 22, 22) \ + vand(19, 23, 23) \ + addi(%[buf], %[buf], 64) \ + \ + bdnz(loop) \ + \ + /* \ + * Write back new counter values. \ + */ \ + BYTESWAP(16) \ + BYTESWAP(17) \ + BYTESWAP(18) \ + BYTESWAP(19) \ + stxvw4x(48, %[cc0], %[ctrbuf]) \ + stxvw4x(49, %[cc1], %[ctrbuf]) \ + stxvw4x(50, %[cc2], %[ctrbuf]) \ + stxvw4x(51, %[cc3], %[ctrbuf]) \ + \ +: [cc] "+b" (cc), [buf] "+b" (buf), \ + [cc0] "+b" (cc0), [cc1] "+b" (cc1), [cc2] "+b" (cc2), [cc3] "+b" (cc3) \ +: [sk] "b" (sk), [ctrbuf] "b" (ctrbuf), \ + [num_blocks_x4] "b" (num_blocks_x4), [ctrinc_x4] "b" (ctrinc_x4) \ + BYTESWAP_REG \ +: "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "v8", "v9", \ + "v10", "v11", "v12", "v13", "v14", "v15", "v16", "v17", "v18", "v19", \ + "v20", "v21", "v22", "v23", "v24", "v25", "v26", "v27", "v28", "v29", \ + "v30", "ctr", "memory" \ + ); \ +} + +MKCTR(128) +MKCTR(192) +MKCTR(256) + +#define MKCBCMAC(size) \ +static void \ +cbcmac_ ## size(const unsigned char *sk, \ + unsigned char *cbcmac, const unsigned char *buf, size_t num_blocks) \ +{ \ + long cc; \ + \ + cc = 0; \ + asm volatile ( \ + \ + /* \ + * Load subkeys into v0..v10 \ + */ \ + LOAD_SUBKEYS_ ## size \ + li(%[cc], 0) \ + \ + BYTESWAP_INIT \ + \ + /* \ + * Load current CBC-MAC value into v16. \ + */ \ + lxvw4x(48, %[cc], %[cbcmac]) \ + BYTESWAP(16) \ + \ + mtctr(%[num_blocks]) \ + \ + label(loop) \ + /* \ + * Load next block, XOR into current CBC-MAC value, \ + * and then encrypt it. \ + */ \ + lxvw4x(49, %[cc], %[buf]) \ + BYTESWAP(17) \ + vxor(16, 16, 17) \ + BLOCK_ENCRYPT_ ## size(16) \ + addi(%[buf], %[buf], 16) \ + \ + bdnz(loop) \ + \ + /* \ + * Write back new CBC-MAC value. \ + */ \ + BYTESWAP(16) \ + stxvw4x(48, %[cc], %[cbcmac]) \ + \ +: [cc] "+b" (cc), [buf] "+b" (buf) \ +: [sk] "b" (sk), [cbcmac] "b" (cbcmac), [num_blocks] "b" (num_blocks) \ + BYTESWAP_REG \ +: "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "v8", "v9", \ + "v10", "v11", "v12", "v13", "v14", "v15", "v16", "v17", "v18", "v19", \ + "v20", "v21", "v22", "v23", "v24", "v25", "v26", "v27", "v28", "v29", \ + "v30", "ctr", "memory" \ + ); \ +} + +MKCBCMAC(128) +MKCBCMAC(192) +MKCBCMAC(256) + +#define MKENCRYPT(size) \ +static void \ +ctrcbc_ ## size ## _encrypt(const unsigned char *sk, \ + unsigned char *ctr, unsigned char *cbcmac, unsigned char *buf, \ + size_t num_blocks) \ +{ \ + long cc; \ + \ + cc = 0; \ + asm volatile ( \ + \ + /* \ + * Load subkeys into v0..v10 \ + */ \ + LOAD_SUBKEYS_ ## size \ + li(%[cc], 0) \ + \ + BYTESWAP_INIT \ + INCR_128_INIT \ + \ + /* \ + * Load current CTR counter into v16, and current \ + * CBC-MAC IV into v17. \ + */ \ + lxvw4x(48, %[cc], %[ctr]) \ + lxvw4x(49, %[cc], %[cbcmac]) \ + BYTESWAP(16) \ + BYTESWAP(17) \ + \ + /* \ + * At each iteration, we do two parallel encryption: \ + * - new counter value for encryption of the next block; \ + * - CBC-MAC over the previous encrypted block. \ + * Thus, each plaintext block implies two AES instances, \ + * over two successive iterations. This requires a single \ + * counter encryption before the loop, and a single \ + * CBC-MAC encryption after the loop. \ + */ \ + \ + /* \ + * Encrypt first block (into v20). \ + */ \ + lxvw4x(52, %[cc], %[buf]) \ + BYTESWAP(20) \ + INCR_128(22, 16) \ + BLOCK_ENCRYPT_ ## size(16) \ + vxor(20, 20, 16) \ + BYTESWAPX(21, 20) \ + stxvw4x(53, %[cc], %[buf]) \ + vand(16, 22, 22) \ + addi(%[buf], %[buf], 16) \ + \ + /* \ + * Load loop counter; skip the loop if there is only \ + * one block in total (already handled by the boundary \ + * conditions). \ + */ \ + mtctr(%[num_blocks]) \ + bdz(fastexit) \ + \ + label(loop) \ + /* \ + * Upon loop entry: \ + * v16 counter value for next block \ + * v17 current CBC-MAC value \ + * v20 encrypted previous block \ + */ \ + vxor(17, 17, 20) \ + INCR_128(22, 16) \ + lxvw4x(52, %[cc], %[buf]) \ + BYTESWAP(20) \ + BLOCK_ENCRYPT_X2_ ## size(16, 17) \ + vxor(20, 20, 16) \ + BYTESWAPX(21, 20) \ + stxvw4x(53, %[cc], %[buf]) \ + addi(%[buf], %[buf], 16) \ + vand(16, 22, 22) \ + \ + bdnz(loop) \ + \ + label(fastexit) \ + vxor(17, 17, 20) \ + BLOCK_ENCRYPT_ ## size(17) \ + BYTESWAP(16) \ + BYTESWAP(17) \ + stxvw4x(48, %[cc], %[ctr]) \ + stxvw4x(49, %[cc], %[cbcmac]) \ + \ +: [cc] "+b" (cc), [buf] "+b" (buf) \ +: [sk] "b" (sk), [ctr] "b" (ctr), [cbcmac] "b" (cbcmac), \ + [num_blocks] "b" (num_blocks), [ctrinc] "b" (ctrinc) \ + BYTESWAP_REG \ +: "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "v8", "v9", \ + "v10", "v11", "v12", "v13", "v14", "v15", "v16", "v17", "v18", "v19", \ + "v20", "v21", "v22", "v23", "v24", "v25", "v26", "v27", "v28", "v29", \ + "v30", "ctr", "memory" \ + ); \ +} + +MKENCRYPT(128) +MKENCRYPT(192) +MKENCRYPT(256) + +#define MKDECRYPT(size) \ +static void \ +ctrcbc_ ## size ## _decrypt(const unsigned char *sk, \ + unsigned char *ctr, unsigned char *cbcmac, unsigned char *buf, \ + size_t num_blocks) \ +{ \ + long cc; \ + \ + cc = 0; \ + asm volatile ( \ + \ + /* \ + * Load subkeys into v0..v10 \ + */ \ + LOAD_SUBKEYS_ ## size \ + li(%[cc], 0) \ + \ + BYTESWAP_INIT \ + INCR_128_INIT \ + \ + /* \ + * Load current CTR counter into v16, and current \ + * CBC-MAC IV into v17. \ + */ \ + lxvw4x(48, %[cc], %[ctr]) \ + lxvw4x(49, %[cc], %[cbcmac]) \ + BYTESWAP(16) \ + BYTESWAP(17) \ + \ + /* \ + * At each iteration, we do two parallel encryption: \ + * - new counter value for decryption of the next block; \ + * - CBC-MAC over the next encrypted block. \ + * Each iteration performs the two AES instances related \ + * to the current block; there is thus no need for some \ + * extra pre-loop and post-loop work as in encryption. \ + */ \ + \ + mtctr(%[num_blocks]) \ + \ + label(loop) \ + /* \ + * Upon loop entry: \ + * v16 counter value for next block \ + * v17 current CBC-MAC value \ + */ \ + lxvw4x(52, %[cc], %[buf]) \ + BYTESWAP(20) \ + vxor(17, 17, 20) \ + INCR_128(22, 16) \ + BLOCK_ENCRYPT_X2_ ## size(16, 17) \ + vxor(20, 20, 16) \ + BYTESWAPX(21, 20) \ + stxvw4x(53, %[cc], %[buf]) \ + addi(%[buf], %[buf], 16) \ + vand(16, 22, 22) \ + \ + bdnz(loop) \ + \ + /* \ + * Store back counter and CBC-MAC value. \ + */ \ + BYTESWAP(16) \ + BYTESWAP(17) \ + stxvw4x(48, %[cc], %[ctr]) \ + stxvw4x(49, %[cc], %[cbcmac]) \ + \ +: [cc] "+b" (cc), [buf] "+b" (buf) \ +: [sk] "b" (sk), [ctr] "b" (ctr), [cbcmac] "b" (cbcmac), \ + [num_blocks] "b" (num_blocks), [ctrinc] "b" (ctrinc) \ + BYTESWAP_REG \ +: "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "v8", "v9", \ + "v10", "v11", "v12", "v13", "v14", "v15", "v16", "v17", "v18", "v19", \ + "v20", "v21", "v22", "v23", "v24", "v25", "v26", "v27", "v28", "v29", \ + "v30", "ctr", "memory" \ + ); \ +} + +MKDECRYPT(128) +MKDECRYPT(192) +MKDECRYPT(256) + +/* see bearssl_block.h */ +void +br_aes_pwr8_ctrcbc_encrypt(const br_aes_pwr8_ctrcbc_keys *ctx, + void *ctr, void *cbcmac, void *data, size_t len) +{ + if (len == 0) { + return; + } + switch (ctx->num_rounds) { + case 10: + ctrcbc_128_encrypt(ctx->skey.skni, ctr, cbcmac, data, len >> 4); + break; + case 12: + ctrcbc_192_encrypt(ctx->skey.skni, ctr, cbcmac, data, len >> 4); + break; + default: + ctrcbc_256_encrypt(ctx->skey.skni, ctr, cbcmac, data, len >> 4); + break; + } +} + +/* see bearssl_block.h */ +void +br_aes_pwr8_ctrcbc_decrypt(const br_aes_pwr8_ctrcbc_keys *ctx, + void *ctr, void *cbcmac, void *data, size_t len) +{ + if (len == 0) { + return; + } + switch (ctx->num_rounds) { + case 10: + ctrcbc_128_decrypt(ctx->skey.skni, ctr, cbcmac, data, len >> 4); + break; + case 12: + ctrcbc_192_decrypt(ctx->skey.skni, ctr, cbcmac, data, len >> 4); + break; + default: + ctrcbc_256_decrypt(ctx->skey.skni, ctr, cbcmac, data, len >> 4); + break; + } +} + +static inline void +incr_ctr(void *dst, const void *src) +{ + uint64_t hi, lo; + + hi = br_dec64be(src); + lo = br_dec64be((const unsigned char *)src + 8); + lo ++; + hi += ((lo | -lo) >> 63) ^ (uint64_t)1; + br_enc64be(dst, hi); + br_enc64be((unsigned char *)dst + 8, lo); +} + +/* see bearssl_block.h */ +void +br_aes_pwr8_ctrcbc_ctr(const br_aes_pwr8_ctrcbc_keys *ctx, + void *ctr, void *data, size_t len) +{ + unsigned char ctrbuf[64]; + + memcpy(ctrbuf, ctr, 16); + incr_ctr(ctrbuf + 16, ctrbuf); + incr_ctr(ctrbuf + 32, ctrbuf + 16); + incr_ctr(ctrbuf + 48, ctrbuf + 32); + if (len >= 64) { + switch (ctx->num_rounds) { + case 10: + ctr_128(ctx->skey.skni, ctrbuf, data, len >> 6); + break; + case 12: + ctr_192(ctx->skey.skni, ctrbuf, data, len >> 6); + break; + default: + ctr_256(ctx->skey.skni, ctrbuf, data, len >> 6); + break; + } + data = (unsigned char *)data + (len & ~(size_t)63); + len &= 63; + } + if (len > 0) { + unsigned char tmp[64]; + + if (len >= 32) { + if (len >= 48) { + memcpy(ctr, ctrbuf + 48, 16); + } else { + memcpy(ctr, ctrbuf + 32, 16); + } + } else { + if (len >= 16) { + memcpy(ctr, ctrbuf + 16, 16); + } + } + memcpy(tmp, data, len); + memset(tmp + len, 0, (sizeof tmp) - len); + switch (ctx->num_rounds) { + case 10: + ctr_128(ctx->skey.skni, ctrbuf, tmp, 1); + break; + case 12: + ctr_192(ctx->skey.skni, ctrbuf, tmp, 1); + break; + default: + ctr_256(ctx->skey.skni, ctrbuf, tmp, 1); + break; + } + memcpy(data, tmp, len); + } else { + memcpy(ctr, ctrbuf, 16); + } +} + +/* see bearssl_block.h */ +void +br_aes_pwr8_ctrcbc_mac(const br_aes_pwr8_ctrcbc_keys *ctx, + void *cbcmac, const void *data, size_t len) +{ + if (len > 0) { + switch (ctx->num_rounds) { + case 10: + cbcmac_128(ctx->skey.skni, cbcmac, data, len >> 4); + break; + case 12: + cbcmac_192(ctx->skey.skni, cbcmac, data, len >> 4); + break; + default: + cbcmac_256(ctx->skey.skni, cbcmac, data, len >> 4); + break; + } + } +} + +/* see bearssl_block.h */ +const br_block_ctrcbc_class br_aes_pwr8_ctrcbc_vtable = { + sizeof(br_aes_pwr8_ctrcbc_keys), + 16, + 4, + (void (*)(const br_block_ctrcbc_class **, const void *, size_t)) + &br_aes_pwr8_ctrcbc_init, + (void (*)(const br_block_ctrcbc_class *const *, + void *, void *, void *, size_t)) + &br_aes_pwr8_ctrcbc_encrypt, + (void (*)(const br_block_ctrcbc_class *const *, + void *, void *, void *, size_t)) + &br_aes_pwr8_ctrcbc_decrypt, + (void (*)(const br_block_ctrcbc_class *const *, + void *, void *, size_t)) + &br_aes_pwr8_ctrcbc_ctr, + (void (*)(const br_block_ctrcbc_class *const *, + void *, const void *, size_t)) + &br_aes_pwr8_ctrcbc_mac +}; + +#else + +/* see bearssl_block.h */ +const br_block_ctrcbc_class * +br_aes_pwr8_ctrcbc_get_vtable(void) +{ + return NULL; +} + +#endif diff --git a/test/test_crypto.c b/test/test_crypto.c index 70029b3..dd2562c 100644 --- a/test/test_crypto.c +++ b/test/test_crypto.c @@ -3664,6 +3664,19 @@ test_AES_CTRCBC_x86ni(void) } } +static void +test_AES_CTRCBC_pwr8(void) +{ + const br_block_ctrcbc_class *vt; + + vt = br_aes_pwr8_ctrcbc_get_vtable(); + if (vt != NULL) { + test_AES_CTRCBC_inner("pwr8", vt); + } else { + printf("Test AES CTR/CBC-MAC pwr8: UNAVAILABLE\n"); + } +} + /* * DES known-answer tests. Order: plaintext, key, ciphertext. * (mostly from NIST SP 800-20). @@ -6839,6 +6852,13 @@ test_EAX(void) } else { printf("Test EAX aes_x86ni: UNAVAILABLE\n"); } + + x_ctrcbc = br_aes_pwr8_ctrcbc_get_vtable(); + if (x_ctrcbc != NULL) { + test_EAX_inner("aes_pwr8", x_ctrcbc); + } else { + printf("Test EAX aes_pwr8: UNAVAILABLE\n"); + } } /* @@ -7051,6 +7071,13 @@ test_CCM(void) } else { printf("Test CCM aes_x86ni: UNAVAILABLE\n"); } + + x_ctrcbc = br_aes_pwr8_ctrcbc_get_vtable(); + if (x_ctrcbc != NULL) { + test_CCM_inner("aes_pwr8", x_ctrcbc); + } else { + printf("Test CCM aes_pwr8: UNAVAILABLE\n"); + } } static void @@ -8253,6 +8280,7 @@ static const struct { STU(AES_CTRCBC_ct), STU(AES_CTRCBC_ct64), STU(AES_CTRCBC_x86ni), + STU(AES_CTRCBC_pwr8), STU(DES_tab), STU(DES_ct), STU(ChaCha20_ct), diff --git a/test/test_speed.c b/test/test_speed.c index 38da572..b1cd9f2 100644 --- a/test/test_speed.c +++ b/test/test_speed.c @@ -518,16 +518,19 @@ SPEED_EAX(AES, aes, 128, small) SPEED_EAX(AES, aes, 128, ct) SPEED_EAX(AES, aes, 128, ct64) SPEED_EAX(AES, aes, 128, x86ni) +SPEED_EAX(AES, aes, 128, pwr8) SPEED_EAX(AES, aes, 192, big) SPEED_EAX(AES, aes, 192, small) SPEED_EAX(AES, aes, 192, ct) SPEED_EAX(AES, aes, 192, ct64) SPEED_EAX(AES, aes, 192, x86ni) +SPEED_EAX(AES, aes, 192, pwr8) SPEED_EAX(AES, aes, 256, big) SPEED_EAX(AES, aes, 256, small) SPEED_EAX(AES, aes, 256, ct) SPEED_EAX(AES, aes, 256, ct64) SPEED_EAX(AES, aes, 256, x86ni) +SPEED_EAX(AES, aes, 256, pwr8) static const unsigned char RSA_N[] = { 0xE9, 0xF2, 0x4A, 0x2F, 0x96, 0xDF, 0x0A, 0x23, @@ -1477,6 +1480,9 @@ static const struct { STU(eax_aes128_x86ni), STU(eax_aes192_x86ni), STU(eax_aes256_x86ni), + STU(eax_aes128_pwr8), + STU(eax_aes192_pwr8), + STU(eax_aes256_pwr8), STU(rsa_i15), STU(rsa_i31), diff --git a/tools/names.c b/tools/names.c index f9487fd..6d6fec0 100644 --- a/tools/names.c +++ b/tools/names.c @@ -495,6 +495,8 @@ static const struct { (const void *(*)(void))&br_aes_pwr8_cbcdec_get_vtable }, { "aes_pwr8_ctr", "pwr8", (const void *(*)(void))&br_aes_pwr8_ctr_get_vtable }, + { "aes_pwr8_ctrcbc", "pwr8", + (const void *(*)(void))&br_aes_pwr8_ctrcbc_get_vtable }, { "aes_x86ni_cbcenc", "x86ni", (const void *(*)(void))&br_aes_x86ni_cbcenc_get_vtable }, { "aes_x86ni_cbcdec", "x86ni", diff --git a/tools/sslio.c b/tools/sslio.c index 7fc1d53..ef7dd3f 100644 --- a/tools/sslio.c +++ b/tools/sslio.c @@ -283,6 +283,10 @@ run_ssl_engine(br_ssl_engine_context *cc, unsigned long fd, unsigned flags) fprintf(stderr, " AES/CTR: %s\n", get_algo_name(cc->iaes_cbcdec, 0)); } + if (cc->iaes_ctrcbc != 0) { + fprintf(stderr, " AES/CCM: %s\n", + get_algo_name(cc->iaes_ctrcbc, 0)); + } if (cc->ides_cbcenc != 0) { fprintf(stderr, " DES/CBC (enc): %s\n", get_algo_name(cc->ides_cbcenc, 0));