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author | Wim <wim@42.be> | 2019-06-16 23:33:25 +0200 |
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committer | GitHub <noreply@github.com> | 2019-06-16 23:33:25 +0200 |
commit | cb712ff37d3c20a21695e00c52fff213a6fd40b4 (patch) | |
tree | 0ba0ee4f55bf6ace2656562465cc82d807e741b9 /vendor/golang.org/x/crypto/internal | |
parent | f4ae61044888f591830e6c1be9a2bdb14f88943e (diff) | |
download | matterbridge-msglm-cb712ff37d3c20a21695e00c52fff213a6fd40b4.tar.gz matterbridge-msglm-cb712ff37d3c20a21695e00c52fff213a6fd40b4.tar.bz2 matterbridge-msglm-cb712ff37d3c20a21695e00c52fff213a6fd40b4.zip |
Update vendor (#852)
Diffstat (limited to 'vendor/golang.org/x/crypto/internal')
3 files changed, 720 insertions, 1 deletions
diff --git a/vendor/golang.org/x/crypto/internal/chacha20/asm_ppc64le.s b/vendor/golang.org/x/crypto/internal/chacha20/asm_ppc64le.s new file mode 100644 index 00000000..8815cb00 --- /dev/null +++ b/vendor/golang.org/x/crypto/internal/chacha20/asm_ppc64le.s @@ -0,0 +1,668 @@ +// Copyright 2019 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Based on CRYPTOGAMS code with the following comment: +// # ==================================================================== +// # Written by Andy Polyakov <appro@openssl.org> for the OpenSSL +// # project. The module is, however, dual licensed under OpenSSL and +// # CRYPTOGAMS licenses depending on where you obtain it. For further +// # details see http://www.openssl.org/~appro/cryptogams/. +// # ==================================================================== + +// Original code can be found at the link below: +// https://github.com/dot-asm/cryptogams/commit/a60f5b50ed908e91e5c39ca79126a4a876d5d8ff + +// There are some differences between CRYPTOGAMS code and this one. The round +// loop for "_int" isn't the same as the original. Some adjustments were +// necessary because there are less vector registers available. For example, some +// X variables (r12, r13, r14, and r15) share the same register used by the +// counter. The original code uses ctr to name the counter. Here we use CNT +// because golang uses CTR as the counter register name. + +// +build ppc64le,!gccgo,!appengine + +#include "textflag.h" + +#define OUT R3 +#define INP R4 +#define LEN R5 +#define KEY R6 +#define CNT R7 + +#define TEMP R8 + +#define X0 R11 +#define X1 R12 +#define X2 R14 +#define X3 R15 +#define X4 R16 +#define X5 R17 +#define X6 R18 +#define X7 R19 +#define X8 R20 +#define X9 R21 +#define X10 R22 +#define X11 R23 +#define X12 R24 +#define X13 R25 +#define X14 R26 +#define X15 R27 + +#define CON0 X0 +#define CON1 X1 +#define CON2 X2 +#define CON3 X3 + +#define KEY0 X4 +#define KEY1 X5 +#define KEY2 X6 +#define KEY3 X7 +#define KEY4 X8 +#define KEY5 X9 +#define KEY6 X10 +#define KEY7 X11 + +#define CNT0 X12 +#define CNT1 X13 +#define CNT2 X14 +#define CNT3 X15 + +#define TMP0 R9 +#define TMP1 R10 +#define TMP2 R28 +#define TMP3 R29 + +#define CONSTS R8 + +#define A0 V0 +#define B0 V1 +#define C0 V2 +#define D0 V3 +#define A1 V4 +#define B1 V5 +#define C1 V6 +#define D1 V7 +#define A2 V8 +#define B2 V9 +#define C2 V10 +#define D2 V11 +#define T0 V12 +#define T1 V13 +#define T2 V14 + +#define K0 V15 +#define K1 V16 +#define K2 V17 +#define K3 V18 +#define K4 V19 +#define K5 V20 + +#define FOUR V21 +#define SIXTEEN V22 +#define TWENTY4 V23 +#define TWENTY V24 +#define TWELVE V25 +#define TWENTY5 V26 +#define SEVEN V27 + +#define INPPERM V28 +#define OUTPERM V29 +#define OUTMASK V30 + +#define DD0 V31 +#define DD1 SEVEN +#define DD2 T0 +#define DD3 T1 +#define DD4 T2 + +DATA ·consts+0x00(SB)/8, $0x3320646e61707865 +DATA ·consts+0x08(SB)/8, $0x6b20657479622d32 +DATA ·consts+0x10(SB)/8, $0x0000000000000001 +DATA ·consts+0x18(SB)/8, $0x0000000000000000 +DATA ·consts+0x20(SB)/8, $0x0000000000000004 +DATA ·consts+0x28(SB)/8, $0x0000000000000000 +DATA ·consts+0x30(SB)/8, $0x0a0b08090e0f0c0d +DATA ·consts+0x38(SB)/8, $0x0203000106070405 +DATA ·consts+0x40(SB)/8, $0x090a0b080d0e0f0c +DATA ·consts+0x48(SB)/8, $0x0102030005060704 +GLOBL ·consts(SB), RODATA, $80 + +//func chaCha20_ctr32_vmx(out, inp *byte, len int, key *[32]byte, counter *[16]byte) +TEXT ·chaCha20_ctr32_vmx(SB),NOSPLIT|NOFRAME,$0 + // Load the arguments inside the registers + MOVD out+0(FP), OUT + MOVD inp+8(FP), INP + MOVD len+16(FP), LEN + MOVD key+24(FP), KEY + MOVD cnt+32(FP), CNT + + MOVD $·consts(SB), CONSTS // point to consts addr + + MOVD $16, X0 + MOVD $32, X1 + MOVD $48, X2 + MOVD $64, X3 + MOVD $31, X4 + MOVD $15, X5 + + // Load key + LVX (KEY)(R0), K1 + LVSR (KEY)(R0), T0 + LVX (KEY)(X0), K2 + LVX (KEY)(X4), DD0 + + // Load counter + LVX (CNT)(R0), K3 + LVSR (CNT)(R0), T1 + LVX (CNT)(X5), DD1 + + // Load constants + LVX (CONSTS)(R0), K0 + LVX (CONSTS)(X0), K5 + LVX (CONSTS)(X1), FOUR + LVX (CONSTS)(X2), SIXTEEN + LVX (CONSTS)(X3), TWENTY4 + + // Align key and counter + VPERM K2, K1, T0, K1 + VPERM DD0, K2, T0, K2 + VPERM DD1, K3, T1, K3 + + // Load counter to GPR + MOVWZ 0(CNT), CNT0 + MOVWZ 4(CNT), CNT1 + MOVWZ 8(CNT), CNT2 + MOVWZ 12(CNT), CNT3 + + // Adjust vectors for the initial state + VADDUWM K3, K5, K3 + VADDUWM K3, K5, K4 + VADDUWM K4, K5, K5 + + // Synthesized constants + VSPLTISW $-12, TWENTY + VSPLTISW $12, TWELVE + VSPLTISW $-7, TWENTY5 + + VXOR T0, T0, T0 + VSPLTISW $-1, OUTMASK + LVSR (INP)(R0), INPPERM + LVSL (OUT)(R0), OUTPERM + VPERM OUTMASK, T0, OUTPERM, OUTMASK + +loop_outer_vmx: + // Load constant + MOVD $0x61707865, CON0 + MOVD $0x3320646e, CON1 + MOVD $0x79622d32, CON2 + MOVD $0x6b206574, CON3 + + VOR K0, K0, A0 + VOR K0, K0, A1 + VOR K0, K0, A2 + VOR K1, K1, B0 + + MOVD $10, TEMP + + // Load key to GPR + MOVWZ 0(KEY), X4 + MOVWZ 4(KEY), X5 + MOVWZ 8(KEY), X6 + MOVWZ 12(KEY), X7 + VOR K1, K1, B1 + VOR K1, K1, B2 + MOVWZ 16(KEY), X8 + MOVWZ 0(CNT), X12 + MOVWZ 20(KEY), X9 + MOVWZ 4(CNT), X13 + VOR K2, K2, C0 + VOR K2, K2, C1 + MOVWZ 24(KEY), X10 + MOVWZ 8(CNT), X14 + VOR K2, K2, C2 + VOR K3, K3, D0 + MOVWZ 28(KEY), X11 + MOVWZ 12(CNT), X15 + VOR K4, K4, D1 + VOR K5, K5, D2 + + MOVD X4, TMP0 + MOVD X5, TMP1 + MOVD X6, TMP2 + MOVD X7, TMP3 + VSPLTISW $7, SEVEN + + MOVD TEMP, CTR + +loop_vmx: + // CRYPTOGAMS uses a macro to create a loop using perl. This isn't possible + // using assembly macros. Therefore, the macro expansion result was used + // in order to maintain the algorithm efficiency. + // This loop generates three keystream blocks using VMX instructions and, + // in parallel, one keystream block using scalar instructions. + ADD X4, X0, X0 + ADD X5, X1, X1 + VADDUWM A0, B0, A0 + VADDUWM A1, B1, A1 + ADD X6, X2, X2 + ADD X7, X3, X3 + VADDUWM A2, B2, A2 + VXOR D0, A0, D0 + XOR X0, X12, X12 + XOR X1, X13, X13 + VXOR D1, A1, D1 + VXOR D2, A2, D2 + XOR X2, X14, X14 + XOR X3, X15, X15 + VPERM D0, D0, SIXTEEN, D0 + VPERM D1, D1, SIXTEEN, D1 + ROTLW $16, X12, X12 + ROTLW $16, X13, X13 + VPERM D2, D2, SIXTEEN, D2 + VADDUWM C0, D0, C0 + ROTLW $16, X14, X14 + ROTLW $16, X15, X15 + VADDUWM C1, D1, C1 + VADDUWM C2, D2, C2 + ADD X12, X8, X8 + ADD X13, X9, X9 + VXOR B0, C0, T0 + VXOR B1, C1, T1 + ADD X14, X10, X10 + ADD X15, X11, X11 + VXOR B2, C2, T2 + VRLW T0, TWELVE, B0 + XOR X8, X4, X4 + XOR X9, X5, X5 + VRLW T1, TWELVE, B1 + VRLW T2, TWELVE, B2 + XOR X10, X6, X6 + XOR X11, X7, X7 + VADDUWM A0, B0, A0 + VADDUWM A1, B1, A1 + ROTLW $12, X4, X4 + ROTLW $12, X5, X5 + VADDUWM A2, B2, A2 + VXOR D0, A0, D0 + ROTLW $12, X6, X6 + ROTLW $12, X7, X7 + VXOR D1, A1, D1 + VXOR D2, A2, D2 + ADD X4, X0, X0 + ADD X5, X1, X1 + VPERM D0, D0, TWENTY4, D0 + VPERM D1, D1, TWENTY4, D1 + ADD X6, X2, X2 + ADD X7, X3, X3 + VPERM D2, D2, TWENTY4, D2 + VADDUWM C0, D0, C0 + XOR X0, X12, X12 + XOR X1, X13, X13 + VADDUWM C1, D1, C1 + VADDUWM C2, D2, C2 + XOR X2, X14, X14 + XOR X3, X15, X15 + VXOR B0, C0, T0 + VXOR B1, C1, T1 + ROTLW $8, X12, X12 + ROTLW $8, X13, X13 + VXOR B2, C2, T2 + VRLW T0, SEVEN, B0 + ROTLW $8, X14, X14 + ROTLW $8, X15, X15 + VRLW T1, SEVEN, B1 + VRLW T2, SEVEN, B2 + ADD X12, X8, X8 + ADD X13, X9, X9 + VSLDOI $8, C0, C0, C0 + VSLDOI $8, C1, C1, C1 + ADD X14, X10, X10 + ADD X15, X11, X11 + VSLDOI $8, C2, C2, C2 + VSLDOI $12, B0, B0, B0 + XOR X8, X4, X4 + XOR X9, X5, X5 + VSLDOI $12, B1, B1, B1 + VSLDOI $12, B2, B2, B2 + XOR X10, X6, X6 + XOR X11, X7, X7 + VSLDOI $4, D0, D0, D0 + VSLDOI $4, D1, D1, D1 + ROTLW $7, X4, X4 + ROTLW $7, X5, X5 + VSLDOI $4, D2, D2, D2 + VADDUWM A0, B0, A0 + ROTLW $7, X6, X6 + ROTLW $7, X7, X7 + VADDUWM A1, B1, A1 + VADDUWM A2, B2, A2 + ADD X5, X0, X0 + ADD X6, X1, X1 + VXOR D0, A0, D0 + VXOR D1, A1, D1 + ADD X7, X2, X2 + ADD X4, X3, X3 + VXOR D2, A2, D2 + VPERM D0, D0, SIXTEEN, D0 + XOR X0, X15, X15 + XOR X1, X12, X12 + VPERM D1, D1, SIXTEEN, D1 + VPERM D2, D2, SIXTEEN, D2 + XOR X2, X13, X13 + XOR X3, X14, X14 + VADDUWM C0, D0, C0 + VADDUWM C1, D1, C1 + ROTLW $16, X15, X15 + ROTLW $16, X12, X12 + VADDUWM C2, D2, C2 + VXOR B0, C0, T0 + ROTLW $16, X13, X13 + ROTLW $16, X14, X14 + VXOR B1, C1, T1 + VXOR B2, C2, T2 + ADD X15, X10, X10 + ADD X12, X11, X11 + VRLW T0, TWELVE, B0 + VRLW T1, TWELVE, B1 + ADD X13, X8, X8 + ADD X14, X9, X9 + VRLW T2, TWELVE, B2 + VADDUWM A0, B0, A0 + XOR X10, X5, X5 + XOR X11, X6, X6 + VADDUWM A1, B1, A1 + VADDUWM A2, B2, A2 + XOR X8, X7, X7 + XOR X9, X4, X4 + VXOR D0, A0, D0 + VXOR D1, A1, D1 + ROTLW $12, X5, X5 + ROTLW $12, X6, X6 + VXOR D2, A2, D2 + VPERM D0, D0, TWENTY4, D0 + ROTLW $12, X7, X7 + ROTLW $12, X4, X4 + VPERM D1, D1, TWENTY4, D1 + VPERM D2, D2, TWENTY4, D2 + ADD X5, X0, X0 + ADD X6, X1, X1 + VADDUWM C0, D0, C0 + VADDUWM C1, D1, C1 + ADD X7, X2, X2 + ADD X4, X3, X3 + VADDUWM C2, D2, C2 + VXOR B0, C0, T0 + XOR X0, X15, X15 + XOR X1, X12, X12 + VXOR B1, C1, T1 + VXOR B2, C2, T2 + XOR X2, X13, X13 + XOR X3, X14, X14 + VRLW T0, SEVEN, B0 + VRLW T1, SEVEN, B1 + ROTLW $8, X15, X15 + ROTLW $8, X12, X12 + VRLW T2, SEVEN, B2 + VSLDOI $8, C0, C0, C0 + ROTLW $8, X13, X13 + ROTLW $8, X14, X14 + VSLDOI $8, C1, C1, C1 + VSLDOI $8, C2, C2, C2 + ADD X15, X10, X10 + ADD X12, X11, X11 + VSLDOI $4, B0, B0, B0 + VSLDOI $4, B1, B1, B1 + ADD X13, X8, X8 + ADD X14, X9, X9 + VSLDOI $4, B2, B2, B2 + VSLDOI $12, D0, D0, D0 + XOR X10, X5, X5 + XOR X11, X6, X6 + VSLDOI $12, D1, D1, D1 + VSLDOI $12, D2, D2, D2 + XOR X8, X7, X7 + XOR X9, X4, X4 + ROTLW $7, X5, X5 + ROTLW $7, X6, X6 + ROTLW $7, X7, X7 + ROTLW $7, X4, X4 + BC 0x10, 0, loop_vmx + + SUB $256, LEN, LEN + + // Accumulate key block + ADD $0x61707865, X0, X0 + ADD $0x3320646e, X1, X1 + ADD $0x79622d32, X2, X2 + ADD $0x6b206574, X3, X3 + ADD TMP0, X4, X4 + ADD TMP1, X5, X5 + ADD TMP2, X6, X6 + ADD TMP3, X7, X7 + MOVWZ 16(KEY), TMP0 + MOVWZ 20(KEY), TMP1 + MOVWZ 24(KEY), TMP2 + MOVWZ 28(KEY), TMP3 + ADD TMP0, X8, X8 + ADD TMP1, X9, X9 + ADD TMP2, X10, X10 + ADD TMP3, X11, X11 + + MOVWZ 12(CNT), TMP0 + MOVWZ 8(CNT), TMP1 + MOVWZ 4(CNT), TMP2 + MOVWZ 0(CNT), TEMP + ADD TMP0, X15, X15 + ADD TMP1, X14, X14 + ADD TMP2, X13, X13 + ADD TEMP, X12, X12 + + // Accumulate key block + VADDUWM A0, K0, A0 + VADDUWM A1, K0, A1 + VADDUWM A2, K0, A2 + VADDUWM B0, K1, B0 + VADDUWM B1, K1, B1 + VADDUWM B2, K1, B2 + VADDUWM C0, K2, C0 + VADDUWM C1, K2, C1 + VADDUWM C2, K2, C2 + VADDUWM D0, K3, D0 + VADDUWM D1, K4, D1 + VADDUWM D2, K5, D2 + + // Increment counter + ADD $4, TEMP, TEMP + MOVW TEMP, 0(CNT) + + VADDUWM K3, FOUR, K3 + VADDUWM K4, FOUR, K4 + VADDUWM K5, FOUR, K5 + + // XOR the input slice (INP) with the keystream, which is stored in GPRs (X0-X3). + + // Load input (aligned or not) + MOVWZ 0(INP), TMP0 + MOVWZ 4(INP), TMP1 + MOVWZ 8(INP), TMP2 + MOVWZ 12(INP), TMP3 + + // XOR with input + XOR TMP0, X0, X0 + XOR TMP1, X1, X1 + XOR TMP2, X2, X2 + XOR TMP3, X3, X3 + MOVWZ 16(INP), TMP0 + MOVWZ 20(INP), TMP1 + MOVWZ 24(INP), TMP2 + MOVWZ 28(INP), TMP3 + XOR TMP0, X4, X4 + XOR TMP1, X5, X5 + XOR TMP2, X6, X6 + XOR TMP3, X7, X7 + MOVWZ 32(INP), TMP0 + MOVWZ 36(INP), TMP1 + MOVWZ 40(INP), TMP2 + MOVWZ 44(INP), TMP3 + XOR TMP0, X8, X8 + XOR TMP1, X9, X9 + XOR TMP2, X10, X10 + XOR TMP3, X11, X11 + MOVWZ 48(INP), TMP0 + MOVWZ 52(INP), TMP1 + MOVWZ 56(INP), TMP2 + MOVWZ 60(INP), TMP3 + XOR TMP0, X12, X12 + XOR TMP1, X13, X13 + XOR TMP2, X14, X14 + XOR TMP3, X15, X15 + + // Store output (aligned or not) + MOVW X0, 0(OUT) + MOVW X1, 4(OUT) + MOVW X2, 8(OUT) + MOVW X3, 12(OUT) + + ADD $64, INP, INP // INP points to the end of the slice for the alignment code below + + MOVW X4, 16(OUT) + MOVD $16, TMP0 + MOVW X5, 20(OUT) + MOVD $32, TMP1 + MOVW X6, 24(OUT) + MOVD $48, TMP2 + MOVW X7, 28(OUT) + MOVD $64, TMP3 + MOVW X8, 32(OUT) + MOVW X9, 36(OUT) + MOVW X10, 40(OUT) + MOVW X11, 44(OUT) + MOVW X12, 48(OUT) + MOVW X13, 52(OUT) + MOVW X14, 56(OUT) + MOVW X15, 60(OUT) + ADD $64, OUT, OUT + + // Load input + LVX (INP)(R0), DD0 + LVX (INP)(TMP0), DD1 + LVX (INP)(TMP1), DD2 + LVX (INP)(TMP2), DD3 + LVX (INP)(TMP3), DD4 + ADD $64, INP, INP + + VPERM DD1, DD0, INPPERM, DD0 // Align input + VPERM DD2, DD1, INPPERM, DD1 + VPERM DD3, DD2, INPPERM, DD2 + VPERM DD4, DD3, INPPERM, DD3 + VXOR A0, DD0, A0 // XOR with input + VXOR B0, DD1, B0 + LVX (INP)(TMP0), DD1 // Keep loading input + VXOR C0, DD2, C0 + LVX (INP)(TMP1), DD2 + VXOR D0, DD3, D0 + LVX (INP)(TMP2), DD3 + LVX (INP)(TMP3), DD0 + ADD $64, INP, INP + MOVD $63, TMP3 // 63 is not a typo + VPERM A0, A0, OUTPERM, A0 + VPERM B0, B0, OUTPERM, B0 + VPERM C0, C0, OUTPERM, C0 + VPERM D0, D0, OUTPERM, D0 + + VPERM DD1, DD4, INPPERM, DD4 // Align input + VPERM DD2, DD1, INPPERM, DD1 + VPERM DD3, DD2, INPPERM, DD2 + VPERM DD0, DD3, INPPERM, DD3 + VXOR A1, DD4, A1 + VXOR B1, DD1, B1 + LVX (INP)(TMP0), DD1 // Keep loading + VXOR C1, DD2, C1 + LVX (INP)(TMP1), DD2 + VXOR D1, DD3, D1 + LVX (INP)(TMP2), DD3 + + // Note that the LVX address is always rounded down to the nearest 16-byte + // boundary, and that it always points to at most 15 bytes beyond the end of + // the slice, so we cannot cross a page boundary. + LVX (INP)(TMP3), DD4 // Redundant in aligned case. + ADD $64, INP, INP + VPERM A1, A1, OUTPERM, A1 // Pre-misalign output + VPERM B1, B1, OUTPERM, B1 + VPERM C1, C1, OUTPERM, C1 + VPERM D1, D1, OUTPERM, D1 + + VPERM DD1, DD0, INPPERM, DD0 // Align Input + VPERM DD2, DD1, INPPERM, DD1 + VPERM DD3, DD2, INPPERM, DD2 + VPERM DD4, DD3, INPPERM, DD3 + VXOR A2, DD0, A2 + VXOR B2, DD1, B2 + VXOR C2, DD2, C2 + VXOR D2, DD3, D2 + VPERM A2, A2, OUTPERM, A2 + VPERM B2, B2, OUTPERM, B2 + VPERM C2, C2, OUTPERM, C2 + VPERM D2, D2, OUTPERM, D2 + + ANDCC $15, OUT, X1 // Is out aligned? + MOVD OUT, X0 + + VSEL A0, B0, OUTMASK, DD0 // Collect pre-misaligned output + VSEL B0, C0, OUTMASK, DD1 + VSEL C0, D0, OUTMASK, DD2 + VSEL D0, A1, OUTMASK, DD3 + VSEL A1, B1, OUTMASK, B0 + VSEL B1, C1, OUTMASK, C0 + VSEL C1, D1, OUTMASK, D0 + VSEL D1, A2, OUTMASK, A1 + VSEL A2, B2, OUTMASK, B1 + VSEL B2, C2, OUTMASK, C1 + VSEL C2, D2, OUTMASK, D1 + + STVX DD0, (OUT+TMP0) + STVX DD1, (OUT+TMP1) + STVX DD2, (OUT+TMP2) + ADD $64, OUT, OUT + STVX DD3, (OUT+R0) + STVX B0, (OUT+TMP0) + STVX C0, (OUT+TMP1) + STVX D0, (OUT+TMP2) + ADD $64, OUT, OUT + STVX A1, (OUT+R0) + STVX B1, (OUT+TMP0) + STVX C1, (OUT+TMP1) + STVX D1, (OUT+TMP2) + ADD $64, OUT, OUT + + BEQ aligned_vmx + + SUB X1, OUT, X2 // in misaligned case edges + MOVD $0, X3 // are written byte-by-byte + +unaligned_tail_vmx: + STVEBX D2, (X2+X3) + ADD $1, X3, X3 + CMPW X3, X1 + BNE unaligned_tail_vmx + SUB X1, X0, X2 + +unaligned_head_vmx: + STVEBX A0, (X2+X1) + CMPW X1, $15 + ADD $1, X1, X1 + BNE unaligned_head_vmx + + CMPU LEN, $255 // done with 256-byte block yet? + BGT loop_outer_vmx + + JMP done_vmx + +aligned_vmx: + STVX A0, (X0+R0) + CMPU LEN, $255 // done with 256-byte block yet? + BGT loop_outer_vmx + +done_vmx: + RET diff --git a/vendor/golang.org/x/crypto/internal/chacha20/chacha_noasm.go b/vendor/golang.org/x/crypto/internal/chacha20/chacha_noasm.go index 47eac031..bf8beba6 100644 --- a/vendor/golang.org/x/crypto/internal/chacha20/chacha_noasm.go +++ b/vendor/golang.org/x/crypto/internal/chacha20/chacha_noasm.go @@ -2,7 +2,7 @@ // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. -// +build !arm64,!s390x arm64,!go1.11 gccgo appengine +// +build !ppc64le,!arm64,!s390x arm64,!go1.11 gccgo appengine package chacha20 diff --git a/vendor/golang.org/x/crypto/internal/chacha20/chacha_ppc64le.go b/vendor/golang.org/x/crypto/internal/chacha20/chacha_ppc64le.go new file mode 100644 index 00000000..9bd6df64 --- /dev/null +++ b/vendor/golang.org/x/crypto/internal/chacha20/chacha_ppc64le.go @@ -0,0 +1,51 @@ +// Copyright 2019 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build ppc64le,!gccgo,!appengine + +package chacha20 + +import "encoding/binary" + +var haveAsm = true + +const bufSize = 256 + +//go:noescape +func chaCha20_ctr32_vmx(out, inp *byte, len int, key *[8]uint32, counter *uint32) + +func (c *Cipher) xorKeyStreamAsm(dst, src []byte) { + if len(src) >= bufSize { + chaCha20_ctr32_vmx(&dst[0], &src[0], len(src)-len(src)%bufSize, &c.key, &c.counter) + } + if len(src)%bufSize != 0 { + chaCha20_ctr32_vmx(&c.buf[0], &c.buf[0], bufSize, &c.key, &c.counter) + start := len(src) - len(src)%bufSize + ts, td, tb := src[start:], dst[start:], c.buf[:] + // Unroll loop to XOR 32 bytes per iteration. + for i := 0; i < len(ts)-32; i += 32 { + td, tb = td[:len(ts)], tb[:len(ts)] // bounds check elimination + s0 := binary.LittleEndian.Uint64(ts[0:8]) + s1 := binary.LittleEndian.Uint64(ts[8:16]) + s2 := binary.LittleEndian.Uint64(ts[16:24]) + s3 := binary.LittleEndian.Uint64(ts[24:32]) + b0 := binary.LittleEndian.Uint64(tb[0:8]) + b1 := binary.LittleEndian.Uint64(tb[8:16]) + b2 := binary.LittleEndian.Uint64(tb[16:24]) + b3 := binary.LittleEndian.Uint64(tb[24:32]) + binary.LittleEndian.PutUint64(td[0:8], s0^b0) + binary.LittleEndian.PutUint64(td[8:16], s1^b1) + binary.LittleEndian.PutUint64(td[16:24], s2^b2) + binary.LittleEndian.PutUint64(td[24:32], s3^b3) + ts, td, tb = ts[32:], td[32:], tb[32:] + } + td, tb = td[:len(ts)], tb[:len(ts)] // bounds check elimination + for i, v := range ts { + td[i] = tb[i] ^ v + } + c.len = bufSize - (len(src) % bufSize) + + } + +} |