remove ppc sha1 asm
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diff --git a/CMakeLists.txt b/CMakeLists.txt
index 0b2e17c..87c0b35 100644
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -82,11 +82,6 @@ STRING(REGEX REPLACE "^.*LIBGIT2_VERSION \"[0-9]+\\.([0-9]+).*$" "\\1" LIBGIT2_V
STRING(REGEX REPLACE "^.*LIBGIT2_VERSION \"[0-9]+\\.[0-9]+\\.([0-9]+).*$" "\\1" LIBGIT2_VERSION_REV "${GIT2_HEADER}")
SET(LIBGIT2_VERSION_STRING "${LIBGIT2_VERSION_MAJOR}.${LIBGIT2_VERSION_MINOR}.${LIBGIT2_VERSION_REV}")
-IF (AMIGA)
- # Default AmigaOS to use the PowerPC SHA1
- SET(SHA1_TYPE "ppc")
-ENDIF()
-
# Find required dependencies
INCLUDE_DIRECTORIES(src include)
@@ -99,10 +94,7 @@ ELSE ()
ENDIF()
# Specify sha1 implementation
-IF (SHA1_TYPE STREQUAL "ppc")
- ADD_DEFINITIONS(-DPPC_SHA1)
- FILE(GLOB SRC_SHA1 src/hash/hash_ppc.c src/hash/hash_ppc_core.S)
-ELSEIF (WIN32 AND NOT MINGW AND NOT SHA1_TYPE STREQUAL "builtin")
+IF (WIN32 AND NOT MINGW AND NOT SHA1_TYPE STREQUAL "builtin")
ADD_DEFINITIONS(-DWIN32_SHA1)
FILE(GLOB SRC_SHA1 src/hash/hash_win32.c)
ELSEIF (OPENSSL_FOUND AND NOT SHA1_TYPE STREQUAL "builtin")
diff --git a/src/hash.h b/src/hash.h
index 127be28..a6007bb 100644
--- a/src/hash.h
+++ b/src/hash.h
@@ -22,8 +22,6 @@ void git_hash_ctx_cleanup(git_hash_ctx *ctx);
# include "hash/hash_openssl.h"
#elif defined(WIN32_SHA1)
# include "hash/hash_win32.h"
-#elif defined(PPC_SHA1)
-# include "hash/hash_ppc.h"
#else
# include "hash/hash_generic.h"
#endif
diff --git a/src/hash/hash_ppc.c b/src/hash/hash_ppc.c
deleted file mode 100644
index de89e9f..0000000
--- a/src/hash/hash_ppc.c
+++ /dev/null
@@ -1,74 +0,0 @@
-/*
- * Copyright (C) 2009-2012 the libgit2 contributors
- *
- * This file is part of libgit2, distributed under the GNU GPL v2 with
- * a Linking Exception. For full terms see the included COPYING file.
- */
-
-#include <stdio.h>
-#include <string.h>
-
-#include "common.h"
-#include "hash.h"
-
-extern void hash_ppc_core(uint32_t *hash, const unsigned char *p,
- unsigned int nblocks);
-
-int git_hash_init(git_hash_ctx *c)
-{
- c->hash[0] = 0x67452301;
- c->hash[1] = 0xEFCDAB89;
- c->hash[2] = 0x98BADCFE;
- c->hash[3] = 0x10325476;
- c->hash[4] = 0xC3D2E1F0;
- c->len = 0;
- c->cnt = 0;
- return 0;
-}
-
-int git_hash_update(git_hash_ctx *c, const void *ptr, size_t n)
-{
- unsigned long nb;
- const unsigned char *p = ptr;
-
- c->len += (uint64_t) n << 3;
- while (n != 0) {
- if (c->cnt || n < 64) {
- nb = 64 - c->cnt;
- if (nb > n)
- nb = n;
- memcpy(&c->buf.b[c->cnt], p, nb);
- if ((c->cnt += nb) == 64) {
- hash_ppc_core(c->hash, c->buf.b, 1);
- c->cnt = 0;
- }
- } else {
- nb = n >> 6;
- hash_ppc_core(c->hash, p, nb);
- nb <<= 6;
- }
- n -= nb;
- p += nb;
- }
- return 0;
-}
-
-int git_hash_final(git_oid *oid, git_hash_ctx *c)
-{
- unsigned int cnt = c->cnt;
-
- c->buf.b[cnt++] = 0x80;
- if (cnt > 56) {
- if (cnt < 64)
- memset(&c->buf.b[cnt], 0, 64 - cnt);
- hash_ppc_core(c->hash, c->buf.b, 1);
- cnt = 0;
- }
- if (cnt < 56)
- memset(&c->buf.b[cnt], 0, 56 - cnt);
- c->buf.l[7] = c->len;
- hash_ppc_core(c->hash, c->buf.b, 1);
- memcpy(oid->id, c->hash, 20);
- return 0;
-}
-
diff --git a/src/hash/hash_ppc.h b/src/hash/hash_ppc.h
deleted file mode 100644
index 935f73f..0000000
--- a/src/hash/hash_ppc.h
+++ /dev/null
@@ -1,28 +0,0 @@
-/*
- * Copyright (C) 2009-2012 the libgit2 contributors
- *
- * This file is part of libgit2, distributed under the GNU GPL v2 with
- * a Linking Exception. For full terms see the included COPYING file.
- */
-
-#ifndef INCLUDE_hash_ppc_h__
-#define INCLUDE_hash_ppc_h__
-
-#include <stdint.h>
-
-struct git_hash_ctx {
- uint32_t hash[5];
- uint32_t cnt;
- uint64_t len;
- union {
- unsigned char b[64];
- uint64_t l[8];
- } buf;
-};
-
-#define git_hash_global_init() 0
-#define git_hash_global_shutdown() /* noop */
-#define git_hash_ctx_init(ctx) git_hash_init(ctx)
-#define git_hash_ctx_cleanup(ctx)
-
-#endif /* INCLUDE_hash_generic_h__ */
diff --git a/src/hash/hash_ppc_core.S b/src/hash/hash_ppc_core.S
deleted file mode 100644
index 1de816c..0000000
--- a/src/hash/hash_ppc_core.S
+++ /dev/null
@@ -1,224 +0,0 @@
-/*
- * SHA-1 implementation for PowerPC.
- *
- * Copyright (C) 2005 Paul Mackerras <paulus@samba.org>
- */
-
-/*
- * PowerPC calling convention:
- * %r0 - volatile temp
- * %r1 - stack pointer.
- * %r2 - reserved
- * %r3-%r12 - Incoming arguments & return values; volatile.
- * %r13-%r31 - Callee-save registers
- * %lr - Return address, volatile
- * %ctr - volatile
- *
- * Register usage in this routine:
- * %r0 - temp
- * %r3 - argument (pointer to 5 words of SHA state)
- * %r4 - argument (pointer to data to hash)
- * %r5 - Constant K in SHA round (initially number of blocks to hash)
- * %r6-%r10 - Working copies of SHA variables A..E (actually E..A order)
- * %r11-%r26 - Data being hashed W[].
- * %r27-%r31 - Previous copies of A..E, for final add back.
- * %ctr - loop count
- */
-
-
-/*
- * We roll the registers for A, B, C, D, E around on each
- * iteration; E on iteration t is D on iteration t+1, and so on.
- * We use registers 6 - 10 for this. (Registers 27 - 31 hold
- * the previous values.)
- */
-#define RA(t) (((t)+4)%5+6)
-#define RB(t) (((t)+3)%5+6)
-#define RC(t) (((t)+2)%5+6)
-#define RD(t) (((t)+1)%5+6)
-#define RE(t) (((t)+0)%5+6)
-
-/* We use registers 11 - 26 for the W values */
-#define W(t) ((t)%16+11)
-
-/* Register 5 is used for the constant k */
-
-/*
- * The basic SHA-1 round function is:
- * E += ROTL(A,5) + F(B,C,D) + W[i] + K; B = ROTL(B,30)
- * Then the variables are renamed: (A,B,C,D,E) = (E,A,B,C,D).
- *
- * Every 20 rounds, the function F() and the constant K changes:
- * - 20 rounds of f0(b,c,d) = "bit wise b ? c : d" = (^b & d) + (b & c)
- * - 20 rounds of f1(b,c,d) = b^c^d = (b^d)^c
- * - 20 rounds of f2(b,c,d) = majority(b,c,d) = (b&d) + ((b^d)&c)
- * - 20 more rounds of f1(b,c,d)
- *
- * These are all scheduled for near-optimal performance on a G4.
- * The G4 is a 3-issue out-of-order machine with 3 ALUs, but it can only
- * *consider* starting the oldest 3 instructions per cycle. So to get
- * maximum performance out of it, you have to treat it as an in-order
- * machine. Which means interleaving the computation round t with the
- * computation of W[t+4].
- *
- * The first 16 rounds use W values loaded directly from memory, while the
- * remaining 64 use values computed from those first 16. We preload
- * 4 values before starting, so there are three kinds of rounds:
- * - The first 12 (all f0) also load the W values from memory.
- * - The next 64 compute W(i+4) in parallel. 8*f0, 20*f1, 20*f2, 16*f1.
- * - The last 4 (all f1) do not do anything with W.
- *
- * Therefore, we have 6 different round functions:
- * STEPD0_LOAD(t,s) - Perform round t and load W(s). s < 16
- * STEPD0_UPDATE(t,s) - Perform round t and compute W(s). s >= 16.
- * STEPD1_UPDATE(t,s)
- * STEPD2_UPDATE(t,s)
- * STEPD1(t) - Perform round t with no load or update.
- *
- * The G5 is more fully out-of-order, and can find the parallelism
- * by itself. The big limit is that it has a 2-cycle ALU latency, so
- * even though it's 2-way, the code has to be scheduled as if it's
- * 4-way, which can be a limit. To help it, we try to schedule the
- * read of RA(t) as late as possible so it doesn't stall waiting for
- * the previous round's RE(t-1), and we try to rotate RB(t) as early
- * as possible while reading RC(t) (= RB(t-1)) as late as possible.
- */
-
-/* the initial loads. */
-#define LOADW(s) \
- lwz W(s),(s)*4(%r4)
-
-/*
- * Perform a step with F0, and load W(s). Uses W(s) as a temporary
- * before loading it.
- * This is actually 10 instructions, which is an awkward fit.
- * It can execute grouped as listed, or delayed one instruction.
- * (If delayed two instructions, there is a stall before the start of the
- * second line.) Thus, two iterations take 7 cycles, 3.5 cycles per round.
- */
-#define STEPD0_LOAD(t,s) \
-add RE(t),RE(t),W(t); andc %r0,RD(t),RB(t); and W(s),RC(t),RB(t); \
-add RE(t),RE(t),%r0; rotlwi %r0,RA(t),5; rotlwi RB(t),RB(t),30; \
-add RE(t),RE(t),W(s); add %r0,%r0,%r5; lwz W(s),(s)*4(%r4); \
-add RE(t),RE(t),%r0
-
-/*
- * This is likewise awkward, 13 instructions. However, it can also
- * execute starting with 2 out of 3 possible moduli, so it does 2 rounds
- * in 9 cycles, 4.5 cycles/round.
- */
-#define STEPD0_UPDATE(t,s,loadk...) \
-add RE(t),RE(t),W(t); andc %r0,RD(t),RB(t); xor W(s),W((s)-16),W((s)-3); \
-add RE(t),RE(t),%r0; and %r0,RC(t),RB(t); xor W(s),W(s),W((s)-8); \
-add RE(t),RE(t),%r0; rotlwi %r0,RA(t),5; xor W(s),W(s),W((s)-14); \
-add RE(t),RE(t),%r5; loadk; rotlwi RB(t),RB(t),30; rotlwi W(s),W(s),1; \
-add RE(t),RE(t),%r0
-
-/* Nicely optimal. Conveniently, also the most common. */
-#define STEPD1_UPDATE(t,s,loadk...) \
-add RE(t),RE(t),W(t); xor %r0,RD(t),RB(t); xor W(s),W((s)-16),W((s)-3); \
-add RE(t),RE(t),%r5; loadk; xor %r0,%r0,RC(t); xor W(s),W(s),W((s)-8); \
-add RE(t),RE(t),%r0; rotlwi %r0,RA(t),5; xor W(s),W(s),W((s)-14); \
-add RE(t),RE(t),%r0; rotlwi RB(t),RB(t),30; rotlwi W(s),W(s),1
-
-/*
- * The naked version, no UPDATE, for the last 4 rounds. 3 cycles per.
- * We could use W(s) as a temp register, but we don't need it.
- */
-#define STEPD1(t) \
- add RE(t),RE(t),W(t); xor %r0,RD(t),RB(t); \
-rotlwi RB(t),RB(t),30; add RE(t),RE(t),%r5; xor %r0,%r0,RC(t); \
-add RE(t),RE(t),%r0; rotlwi %r0,RA(t),5; /* spare slot */ \
-add RE(t),RE(t),%r0
-
-/*
- * 14 instructions, 5 cycles per. The majority function is a bit
- * awkward to compute. This can execute with a 1-instruction delay,
- * but it causes a 2-instruction delay, which triggers a stall.
- */
-#define STEPD2_UPDATE(t,s,loadk...) \
-add RE(t),RE(t),W(t); and %r0,RD(t),RB(t); xor W(s),W((s)-16),W((s)-3); \
-add RE(t),RE(t),%r0; xor %r0,RD(t),RB(t); xor W(s),W(s),W((s)-8); \
-add RE(t),RE(t),%r5; loadk; and %r0,%r0,RC(t); xor W(s),W(s),W((s)-14); \
-add RE(t),RE(t),%r0; rotlwi %r0,RA(t),5; rotlwi W(s),W(s),1; \
-add RE(t),RE(t),%r0; rotlwi RB(t),RB(t),30
-
-#define STEP0_LOAD4(t,s) \
- STEPD0_LOAD(t,s); \
- STEPD0_LOAD((t+1),(s)+1); \
- STEPD0_LOAD((t)+2,(s)+2); \
- STEPD0_LOAD((t)+3,(s)+3)
-
-#define STEPUP4(fn, t, s, loadk...) \
- STEP##fn##_UPDATE(t,s,); \
- STEP##fn##_UPDATE((t)+1,(s)+1,); \
- STEP##fn##_UPDATE((t)+2,(s)+2,); \
- STEP##fn##_UPDATE((t)+3,(s)+3,loadk)
-
-#define STEPUP20(fn, t, s, loadk...) \
- STEPUP4(fn, t, s,); \
- STEPUP4(fn, (t)+4, (s)+4,); \
- STEPUP4(fn, (t)+8, (s)+8,); \
- STEPUP4(fn, (t)+12, (s)+12,); \
- STEPUP4(fn, (t)+16, (s)+16, loadk)
-
- .globl hash_ppc_core
-hash_ppc_core:
- stwu %r1,-80(%r1)
- stmw %r13,4(%r1)
-
- /* Load up A - E */
- lmw %r27,0(%r3)
-
- mtctr %r5
-
-1:
- LOADW(0)
- lis %r5,0x5a82
- mr RE(0),%r31
- LOADW(1)
- mr RD(0),%r30
- mr RC(0),%r29
- LOADW(2)
- ori %r5,%r5,0x7999 /* K0-19 */
- mr RB(0),%r28
- LOADW(3)
- mr RA(0),%r27
-
- STEP0_LOAD4(0, 4)
- STEP0_LOAD4(4, 8)
- STEP0_LOAD4(8, 12)
- STEPUP4(D0, 12, 16,)
- STEPUP4(D0, 16, 20, lis %r5,0x6ed9)
-
- ori %r5,%r5,0xeba1 /* K20-39 */
- STEPUP20(D1, 20, 24, lis %r5,0x8f1b)
-
- ori %r5,%r5,0xbcdc /* K40-59 */
- STEPUP20(D2, 40, 44, lis %r5,0xca62)
-
- ori %r5,%r5,0xc1d6 /* K60-79 */
- STEPUP4(D1, 60, 64,)
- STEPUP4(D1, 64, 68,)
- STEPUP4(D1, 68, 72,)
- STEPUP4(D1, 72, 76,)
- addi %r4,%r4,64
- STEPD1(76)
- STEPD1(77)
- STEPD1(78)
- STEPD1(79)
-
- /* Add results to original values */
- add %r31,%r31,RE(0)
- add %r30,%r30,RD(0)
- add %r29,%r29,RC(0)
- add %r28,%r28,RB(0)
- add %r27,%r27,RA(0)
-
- bdnz 1b
-
- /* Save final hash, restore registers, and return */
- stmw %r27,0(%r3)
- lmw %r13,4(%r1)
- addi %r1,%r1,80
- blr