/* * Copyright (c) 2017 Imagination Technologies. * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with * the distribution. * * Neither the name of Imagination Technologies nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifdef __ANDROID__ # include #elif _LIBC # include # include # include #elif _COMPILING_NEWLIB # include "machine/asm.h" # include "machine/regdef.h" #else # include # include #endif #if __mips64 # define NSIZE 8 # define LW ld # define EXT dext # define SRL dsrl # define SLL dsll # define SUBU dsubu #else # define NSIZE 4 # define LW lw # define EXT ext # define SRL srl # define SLL sll # define SUBU subu #endif /* Technically strcmp should not read past the end of the strings being compared. We will read a full word that may contain excess bits beyond the NULL string terminator but unless ENABLE_READAHEAD is set, we will not read the next word after the end of string. Setting ENABLE_READAHEAD will improve performance but is technically illegal based on the definition of strcmp. */ #ifdef ENABLE_READAHEAD # define DELAY_READ #else # define DELAY_READ nop #endif /* Testing on a little endian machine showed using CLZ was a performance loss, so we are not turning it on by default. */ #if defined(ENABLE_CLZ) && (__mips_isa_rev > 1) # define USE_CLZ #endif /* Some asm.h files do not have the L macro definition. */ #ifndef L # if _MIPS_SIM == _ABIO32 # define L(label) $L ## label # else # define L(label) .L ## label # endif #endif /* Some asm.h files do not have the PTR_ADDIU macro definition. */ #ifndef PTR_ADDIU # if _MIPS_SIM == _ABIO32 # define PTR_ADDIU addiu # else # define PTR_ADDIU daddiu # endif #endif /* It might seem better to do the 'beq' instruction between the two 'lbu' instructions so that the nop is not needed but testing showed that this code is actually faster (based on glibc strcmp test). */ #define BYTECMP01(OFFSET) \ lbu v0, OFFSET(a0); \ lbu v1, OFFSET(a1); \ beq v0, zero, L(bexit01); \ nop; \ bne v0, v1, L(bexit01) #define BYTECMP89(OFFSET) \ lbu t8, OFFSET(a0); \ lbu t9, OFFSET(a1); \ beq t8, zero, L(bexit89); \ nop; \ bne t8, t9, L(bexit89) /* Allow the routine to be named something else if desired. */ #ifndef STRCMP_NAME # define STRCMP_NAME strcmp #endif #ifdef __ANDROID__ LEAF(STRCMP_NAME, 0) #else LEAF(STRCMP_NAME) #endif .set nomips16 .set noreorder andi t1, a1, (NSIZE - 1) beqz t1, L(exitalign) or t0, zero, NSIZE SUBU t1, t0, t1 #process (NSIZE - 1) bytes at max L(alignloop): #do by bytes until a1 aligned BYTECMP01(0) SUBU t1, t1, 0x1 PTR_ADDIU a0, a0, 0x1 bnez t1, L(alignloop) PTR_ADDIU a1, a1, 0x1 L(exitalign): /* string a1 is NSIZE byte aligned at this point. */ lui t8, 0x0101 ori t8, 0x0101 lui t9, 0x7f7f ori t9, 0x7f7f #if __mips64 dsll t1, t8, 32 or t8, t1 dsll t1, t9, 32 or t9, t1 #endif andi t2, a0, (NSIZE - 1) #check if a0 aligned SUBU t3, t0, t2 #t3 will be used as shifter bnez t2, L(uloopenter) SUBU a2, a0, t2 #bring back a0 to aligned position #define STRCMPW(OFFSET) \ LW v0, OFFSET(a0); \ LW v1, OFFSET(a1); \ SUBU t0, v0, t8; \ bne v0, v1, L(worddiff); \ nor t1, v0, t9; \ and t0, t0, t1; \ bne t0, zero, L(returnzero);\ L(wordloop): STRCMPW(0 * NSIZE) DELAY_READ STRCMPW(1 * NSIZE) DELAY_READ STRCMPW(2 * NSIZE) DELAY_READ STRCMPW(3 * NSIZE) DELAY_READ STRCMPW(4 * NSIZE) DELAY_READ STRCMPW(5 * NSIZE) DELAY_READ STRCMPW(6 * NSIZE) DELAY_READ STRCMPW(7 * NSIZE) PTR_ADDIU a0, a0, (8 * NSIZE) b L(wordloop) PTR_ADDIU a1, a1, (8 * NSIZE) #define USTRCMPW(OFFSET) \ LW v1, OFFSET(a1); \ SUBU t0, v0, t8; \ nor t1, v0, t9; \ and t0, t0, t1; \ bne t0, zero, L(worddiff); \ SRL v0, t2; \ LW a3, (OFFSET + NSIZE)(a2); \ SUBU t0, v1, t8; \ SLL t1, a3, t3; \ or v0, v0, t1; \ bne v0, v1, L(worddiff); \ nor t1, v1, t9; \ and t0, t0, t1; \ bne t0, zero, L(returnzero); \ move v0, a3;\ L(uloopenter): LW v0, 0(a2) SLL t2, 3 #multiply by 8 SLL t3, 3 #multiply by 8 li a3, -1 #all 1s SRL a3, t3 or v0, a3 #replace with all 1s if zeros in unintented read L(uwordloop): USTRCMPW(0 * NSIZE) USTRCMPW(1 * NSIZE) USTRCMPW(2 * NSIZE) USTRCMPW(3 * NSIZE) USTRCMPW(4 * NSIZE) USTRCMPW(5 * NSIZE) USTRCMPW(6 * NSIZE) USTRCMPW(7 * NSIZE) PTR_ADDIU a2, a2, (8 * NSIZE) b L(uwordloop) PTR_ADDIU a1, a1, (8 * NSIZE) L(returnzero): j ra move v0, zero #if __mips_isa_rev > 1 #define EXT_COMPARE01(POS) \ EXT t0, v0, POS, 8; \ beq t0, zero, L(wexit01); \ EXT t1, v1, POS, 8; \ bne t0, t1, L(wexit01) #define EXT_COMPARE89(POS) \ EXT t8, v0, POS, 8; \ beq t8, zero, L(wexit89); \ EXT t9, v1, POS, 8; \ bne t8, t9, L(wexit89) #else #define EXT_COMPARE01(POS) \ SRL t0, v0, POS; \ SRL t1, v1, POS; \ andi t0, t0, 0xff; \ beq t0, zero, L(wexit01); \ andi t1, t1, 0xff; \ bne t0, t1, L(wexit01) #define EXT_COMPARE89(POS) \ SRL t8, v0, POS; \ SRL t9, v1, POS; \ andi t8, t8, 0xff; \ beq t8, zero, L(wexit89); \ andi t9, t9, 0xff; \ bne t8, t9, L(wexit89) #endif L(worddiff): #ifdef USE_CLZ SUBU t0, v0, t8 nor t1, v0, t9 and t1, t0, t1 xor t0, v0, v1 or t0, t0, t1 # if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ wsbh t0, t0 rotr t0, t0, 16 # endif clz t1, t0 and t1, 0xf8 # if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__ neg t1 addu t1, 24 # endif rotrv v0, v0, t1 rotrv v1, v1, t1 and v0, v0, 0xff and v1, v1, 0xff j ra SUBU v0, v0, v1 #else /* USE_CLZ */ # if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ andi t0, v0, 0xff beq t0, zero, L(wexit01) andi t1, v1, 0xff bne t0, t1, L(wexit01) EXT_COMPARE89(8) EXT_COMPARE01(16) #ifndef __mips64 SRL t8, v0, 24 SRL t9, v1, 24 #else EXT_COMPARE89(24) EXT_COMPARE01(32) EXT_COMPARE89(40) EXT_COMPARE01(48) SRL t8, v0, 56 SRL t9, v1, 56 #endif # else /* __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ */ #ifdef __mips64 SRL t0, v0, 56 beq t0, zero, L(wexit01) SRL t1, v1, 56 bne t0, t1, L(wexit01) EXT_COMPARE89(48) EXT_COMPARE01(40) EXT_COMPARE89(32) EXT_COMPARE01(24) #else SRL t0, v0, 24 beq t0, zero, L(wexit01) SRL t1, v1, 24 bne t0, t1, L(wexit01) #endif EXT_COMPARE89(16) EXT_COMPARE01(8) andi t8, v0, 0xff andi t9, v1, 0xff # endif /* __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ */ L(wexit89): j ra SUBU v0, t8, t9 L(wexit01): j ra SUBU v0, t0, t1 #endif /* USE_CLZ */ L(byteloop): BYTECMP01(0) BYTECMP89(1) BYTECMP01(2) BYTECMP89(3) BYTECMP01(4) BYTECMP89(5) BYTECMP01(6) BYTECMP89(7) PTR_ADDIU a0, a0, 8 b L(byteloop) PTR_ADDIU a1, a1, 8 L(bexit01): j ra SUBU v0, v0, v1 L(bexit89): j ra SUBU v0, t8, t9 .set at .set reorder END(STRCMP_NAME) #ifndef __ANDROID__ # ifdef _LIBC libc_hidden_builtin_def (STRCMP_NAME) # endif #endif