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234 lines
4.1 KiB
ArmAsm
234 lines
4.1 KiB
ArmAsm
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// +build !appengine
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// +build gc
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// +build !noasm
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#include "textflag.h"
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// Register allocation:
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// AX h
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// CX pointer to advance through b
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// DX n
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// BX loop end
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// R8 v1, k1
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// R9 v2
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// R10 v3
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// R11 v4
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// R12 tmp
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// R13 prime1v
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// R14 prime2v
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// R15 prime4v
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// round reads from and advances the buffer pointer in CX.
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// It assumes that R13 has prime1v and R14 has prime2v.
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#define round(r) \
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MOVQ (CX), R12 \
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ADDQ $8, CX \
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IMULQ R14, R12 \
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ADDQ R12, r \
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ROLQ $31, r \
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IMULQ R13, r
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// mergeRound applies a merge round on the two registers acc and val.
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// It assumes that R13 has prime1v, R14 has prime2v, and R15 has prime4v.
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#define mergeRound(acc, val) \
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IMULQ R14, val \
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ROLQ $31, val \
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IMULQ R13, val \
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XORQ val, acc \
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IMULQ R13, acc \
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ADDQ R15, acc
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// func Sum64(b []byte) uint64
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TEXT ·Sum64(SB), NOSPLIT, $0-32
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// Load fixed primes.
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MOVQ ·prime1v(SB), R13
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MOVQ ·prime2v(SB), R14
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MOVQ ·prime4v(SB), R15
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// Load slice.
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MOVQ b_base+0(FP), CX
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MOVQ b_len+8(FP), DX
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LEAQ (CX)(DX*1), BX
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// The first loop limit will be len(b)-32.
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SUBQ $32, BX
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// Check whether we have at least one block.
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CMPQ DX, $32
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JLT noBlocks
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// Set up initial state (v1, v2, v3, v4).
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MOVQ R13, R8
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ADDQ R14, R8
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MOVQ R14, R9
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XORQ R10, R10
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XORQ R11, R11
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SUBQ R13, R11
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// Loop until CX > BX.
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blockLoop:
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round(R8)
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round(R9)
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round(R10)
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round(R11)
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CMPQ CX, BX
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JLE blockLoop
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MOVQ R8, AX
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ROLQ $1, AX
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MOVQ R9, R12
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ROLQ $7, R12
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ADDQ R12, AX
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MOVQ R10, R12
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ROLQ $12, R12
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ADDQ R12, AX
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MOVQ R11, R12
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ROLQ $18, R12
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ADDQ R12, AX
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mergeRound(AX, R8)
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mergeRound(AX, R9)
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mergeRound(AX, R10)
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mergeRound(AX, R11)
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JMP afterBlocks
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noBlocks:
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MOVQ ·prime5v(SB), AX
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afterBlocks:
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ADDQ DX, AX
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// Right now BX has len(b)-32, and we want to loop until CX > len(b)-8.
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ADDQ $24, BX
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CMPQ CX, BX
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JG fourByte
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wordLoop:
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// Calculate k1.
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MOVQ (CX), R8
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ADDQ $8, CX
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IMULQ R14, R8
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ROLQ $31, R8
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IMULQ R13, R8
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XORQ R8, AX
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ROLQ $27, AX
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IMULQ R13, AX
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ADDQ R15, AX
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CMPQ CX, BX
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JLE wordLoop
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fourByte:
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ADDQ $4, BX
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CMPQ CX, BX
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JG singles
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MOVL (CX), R8
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ADDQ $4, CX
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IMULQ R13, R8
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XORQ R8, AX
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ROLQ $23, AX
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IMULQ R14, AX
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ADDQ ·prime3v(SB), AX
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singles:
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ADDQ $4, BX
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CMPQ CX, BX
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JGE finalize
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singlesLoop:
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MOVBQZX (CX), R12
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ADDQ $1, CX
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IMULQ ·prime5v(SB), R12
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XORQ R12, AX
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ROLQ $11, AX
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IMULQ R13, AX
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CMPQ CX, BX
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JL singlesLoop
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finalize:
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MOVQ AX, R12
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SHRQ $33, R12
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XORQ R12, AX
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IMULQ R14, AX
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MOVQ AX, R12
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SHRQ $29, R12
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XORQ R12, AX
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IMULQ ·prime3v(SB), AX
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MOVQ AX, R12
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SHRQ $32, R12
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XORQ R12, AX
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MOVQ AX, ret+24(FP)
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RET
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// writeBlocks uses the same registers as above except that it uses AX to store
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// the x pointer.
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// func writeBlocks(x *xxh, b []byte) []byte
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TEXT ·writeBlocks(SB), NOSPLIT, $0-56
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// Load fixed primes needed for round.
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MOVQ ·prime1v(SB), R13
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MOVQ ·prime2v(SB), R14
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// Load slice.
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MOVQ b_base+8(FP), CX
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MOVQ CX, ret_base+32(FP) // initialize return base pointer; see NOTE below
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MOVQ b_len+16(FP), DX
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LEAQ (CX)(DX*1), BX
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SUBQ $32, BX
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// Load vN from x.
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MOVQ x+0(FP), AX
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MOVQ 0(AX), R8 // v1
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MOVQ 8(AX), R9 // v2
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MOVQ 16(AX), R10 // v3
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MOVQ 24(AX), R11 // v4
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// We don't need to check the loop condition here; this function is
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// always called with at least one block of data to process.
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blockLoop:
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round(R8)
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round(R9)
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round(R10)
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round(R11)
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CMPQ CX, BX
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JLE blockLoop
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// Copy vN back to x.
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MOVQ R8, 0(AX)
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MOVQ R9, 8(AX)
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MOVQ R10, 16(AX)
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MOVQ R11, 24(AX)
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// Construct return slice.
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// NOTE: It's important that we don't construct a slice that has a base
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// pointer off the end of the original slice, as in Go 1.7+ this will
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// cause runtime crashes. (See discussion in, for example,
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// https://github.com/golang/go/issues/16772.)
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// Therefore, we calculate the length/cap first, and if they're zero, we
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// keep the old base. This is what the compiler does as well if you
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// write code like
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// b = b[len(b):]
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// New length is 32 - (CX - BX) -> BX+32 - CX.
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ADDQ $32, BX
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SUBQ CX, BX
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JZ afterSetBase
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MOVQ CX, ret_base+32(FP)
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afterSetBase:
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MOVQ BX, ret_len+40(FP)
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MOVQ BX, ret_cap+48(FP) // set cap == len
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RET
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