/* * Copyright (C) 2013 The Android Open Source Project * 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. * * 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. */ #include #include #include #include #include #include #include #include #define __STDC_FORMAT_MACROS #include #include "codeflinger/ARMAssemblerInterface.h" #include "codeflinger/Arm64Assembler.h" using namespace android; #define TESTS_DATAOP_ENABLE 1 #define TESTS_DATATRANSFER_ENABLE 1 #define TESTS_LDMSTM_ENABLE 1 #define TESTS_REG_CORRUPTION_ENABLE 0 void *instrMem; uint32_t instrMemSize = 128 * 1024; char dataMem[8192]; typedef void (*asm_function_t)(); extern "C" void asm_test_jacket(asm_function_t function, int64_t regs[], int32_t flags[]); #define MAX_32BIT (uint32_t)(((uint64_t)1 << 32) - 1) const uint32_t NA = 0; const uint32_t NUM_REGS = 32; const uint32_t NUM_FLAGS = 16; enum instr_t { INSTR_ADD, INSTR_SUB, INSTR_AND, INSTR_ORR, INSTR_RSB, INSTR_BIC, INSTR_CMP, INSTR_MOV, INSTR_MVN, INSTR_MUL, INSTR_MLA, INSTR_SMULBB, INSTR_SMULBT, INSTR_SMULTB, INSTR_SMULTT, INSTR_SMULWB, INSTR_SMULWT, INSTR_SMLABB, INSTR_UXTB16, INSTR_UBFX, INSTR_ADDR_ADD, INSTR_ADDR_SUB, INSTR_LDR, INSTR_LDRB, INSTR_LDRH, INSTR_ADDR_LDR, INSTR_LDM, INSTR_STR, INSTR_STRB, INSTR_STRH, INSTR_ADDR_STR, INSTR_STM }; enum shift_t { SHIFT_LSL, SHIFT_LSR, SHIFT_ASR, SHIFT_ROR, SHIFT_NONE }; enum offset_t { REG_SCALE_OFFSET, REG_OFFSET, IMM8_OFFSET, IMM12_OFFSET, NO_OFFSET }; enum cond_t { EQ, NE, CS, CC, MI, PL, VS, VC, HI, LS, GE, LT, GT, LE, AL, NV, HS = CS, LO = CC }; const char * cc_code[] = { "EQ", "NE", "CS", "CC", "MI", "PL", "VS", "VC", "HI", "LS","GE","LT", "GT", "LE", "AL", "NV" }; struct dataOpTest_t { uint32_t id; instr_t op; uint32_t preFlag; cond_t cond; bool setFlags; uint64_t RnValue; uint64_t RsValue; bool immediate; uint32_t immValue; uint64_t RmValue; uint32_t shiftMode; uint32_t shiftAmount; uint64_t RdValue; bool checkRd; uint64_t postRdValue; bool checkFlag; uint32_t postFlag; }; struct dataTransferTest_t { uint32_t id; instr_t op; uint32_t preFlag; cond_t cond; bool setMem; uint64_t memOffset; uint64_t memValue; uint64_t RnValue; offset_t offsetType; uint64_t RmValue; uint32_t immValue; bool writeBack; bool preIndex; bool postIndex; uint64_t RdValue; uint64_t postRdValue; uint64_t postRnValue; bool checkMem; uint64_t postMemOffset; uint32_t postMemLength; uint64_t postMemValue; }; dataOpTest_t dataOpTests [] = { {0xA000,INSTR_ADD,AL,AL,0,1,NA,1,MAX_32BIT ,NA,NA,NA,NA,1,0,0,0}, {0xA001,INSTR_ADD,AL,AL,0,1,NA,1,MAX_32BIT -1,NA,NA,NA,NA,1,MAX_32BIT,0,0}, {0xA002,INSTR_ADD,AL,AL,0,1,NA,0,NA,MAX_32BIT ,NA,NA,NA,1,0,0,0}, {0xA003,INSTR_ADD,AL,AL,0,1,NA,0,NA,MAX_32BIT -1,NA,NA,NA,1,MAX_32BIT,0,0}, {0xA004,INSTR_ADD,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_LSL,0,NA,1,0,0,0}, {0xA005,INSTR_ADD,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_LSL,31,NA,1,0x80000001,0,0}, {0xA006,INSTR_ADD,AL,AL,0,1,NA,0,0,3,SHIFT_LSR,1,NA,1,2,0,0}, {0xA007,INSTR_ADD,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_LSR,31,NA,1,2,0,0}, {0xA008,INSTR_ADD,AL,AL,0,0,NA,0,0,3,SHIFT_ASR,1,NA,1,1,0,0}, {0xA009,INSTR_ADD,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_ASR,31,NA,1,0,0,0}, {0xA010,INSTR_AND,AL,AL,0,1,NA,1,MAX_32BIT ,0,0,0,NA,1,1,0,0}, {0xA011,INSTR_AND,AL,AL,0,1,NA,1,MAX_32BIT -1,0,0,0,NA,1,0,0,0}, {0xA012,INSTR_AND,AL,AL,0,1,NA,0,0,MAX_32BIT ,0,0,NA,1,1,0,0}, {0xA013,INSTR_AND,AL,AL,0,1,NA,0,0,MAX_32BIT -1,0,0,NA,1,0,0,0}, {0xA014,INSTR_AND,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_LSL,0,NA,1,1,0,0}, {0xA015,INSTR_AND,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_LSL,31,NA,1,0,0,0}, {0xA016,INSTR_AND,AL,AL,0,1,NA,0,0,3,SHIFT_LSR,1,NA,1,1,0,0}, {0xA017,INSTR_AND,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_LSR,31,NA,1,1,0,0}, {0xA018,INSTR_AND,AL,AL,0,0,NA,0,0,3,SHIFT_ASR,1,NA,1,0,0,0}, {0xA019,INSTR_AND,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_ASR,31,NA,1,1,0,0}, {0xA020,INSTR_ORR,AL,AL,0,3,NA,1,MAX_32BIT ,0,0,0,NA,1,MAX_32BIT,0,0}, {0xA021,INSTR_ORR,AL,AL,0,2,NA,1,MAX_32BIT -1,0,0,0,NA,1,MAX_32BIT-1,0,0}, {0xA022,INSTR_ORR,AL,AL,0,3,NA,0,0,MAX_32BIT ,0,0,NA,1,MAX_32BIT,0,0}, {0xA023,INSTR_ORR,AL,AL,0,2,NA,0,0,MAX_32BIT -1,0,0,NA,1,MAX_32BIT-1,0,0}, {0xA024,INSTR_ORR,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_LSL,0,NA,1,MAX_32BIT,0,0}, {0xA025,INSTR_ORR,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_LSL,31,NA,1,0x80000001,0,0}, {0xA026,INSTR_ORR,AL,AL,0,1,NA,0,0,3,SHIFT_LSR,1,NA,1,1,0,0}, {0xA027,INSTR_ORR,AL,AL,0,0,NA,0,0,MAX_32BIT ,SHIFT_LSR,31,NA,1,1,0,0}, {0xA028,INSTR_ORR,AL,AL,0,0,NA,0,0,3,SHIFT_ASR,1,NA,1,1,0,0}, {0xA029,INSTR_ORR,AL,AL,0,1,NA,0,0,MAX_32BIT ,SHIFT_ASR,31,NA,1,MAX_32BIT ,0,0}, {0xA030,INSTR_CMP,AL,AL,1,0x10000,NA,1,0x10000,0,0,0,NA,0,0,1,HS}, {0xA031,INSTR_CMP,AL,AL,1,0x00000,NA,1,0x10000,0,0,0,NA,0,0,1,CC}, {0xA032,INSTR_CMP,AL,AL,1,0x00000,NA,0,0,0x10000,0,0,NA,0,0,1,LT}, {0xA033,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x10000,0,0,NA,0,0,1,EQ}, {0xA034,INSTR_CMP,AL,AL,1,0x00000,NA,0,0,0x10000,0,0,NA,0,0,1,LS}, {0xA035,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x10000,0,0,NA,0,0,1,LS}, {0xA036,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x00000,0,0,NA,0,0,1,HI}, {0xA037,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x10000,0,0,NA,0,0,1,HS}, {0xA038,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x00000,0,0,NA,0,0,1,HS}, {0xA039,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x00000,0,0,NA,0,0,1,NE}, {0xA040,INSTR_CMP,AL,AL,1,0,NA,0,0,MAX_32BIT ,SHIFT_LSR,1,NA,0,0,1,LT}, {0xA041,INSTR_CMP,AL,AL,1,1,NA,0,0,MAX_32BIT ,SHIFT_LSR,31,NA,0,0,1,EQ}, {0xA042,INSTR_CMP,AL,AL,1,0,NA,0,0,0x10000,SHIFT_LSR,31,NA,0,0,1,LS}, {0xA043,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x30000,SHIFT_LSR,1,NA,0,0,1,LS}, {0xA044,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x00000,SHIFT_LSR,31,NA,0,0,1,HI}, {0xA045,INSTR_CMP,AL,AL,1,1,NA,0,0,MAX_32BIT ,SHIFT_LSR,31,NA,0,0,1,HS}, {0xA046,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x2000,SHIFT_LSR,1,NA,0,0,1,HS}, {0xA047,INSTR_CMP,AL,AL,1,0,NA,0,0,MAX_32BIT ,SHIFT_LSR,1,NA,0,0,1,NE}, {0xA048,INSTR_CMP,AL,AL,1,0,NA,0,0,0x10000,SHIFT_ASR,2,NA,0,0,1,LT}, {0xA049,INSTR_CMP,AL,AL,1,MAX_32BIT ,NA,0,0,MAX_32BIT ,SHIFT_ASR,1,NA,0,0,1,EQ}, {0xA050,INSTR_CMP,AL,AL,1,MAX_32BIT ,NA,0,0,MAX_32BIT ,SHIFT_ASR,31,NA,0,0,1,LS}, {0xA051,INSTR_CMP,AL,AL,1,0,NA,0,0,0x10000,SHIFT_ASR,1,NA,0,0,1,LS}, {0xA052,INSTR_CMP,AL,AL,1,0x10000,NA,0,0,0x10000,SHIFT_ASR,1,NA,0,0,1,HI}, {0xA053,INSTR_CMP,AL,AL,1,1,NA,0,0,0x10000,SHIFT_ASR,31,NA,0,0,1,HS}, {0xA054,INSTR_CMP,AL,AL,1,1,NA,0,0,0x10000,SHIFT_ASR,16,NA,0,0,1,HS}, {0xA055,INSTR_CMP,AL,AL,1,1,NA,0,0,MAX_32BIT ,SHIFT_ASR,1,NA,0,0,1,NE}, {0xA056,INSTR_MUL,AL,AL,0,0,0x10000,0,0,0x10000,0,0,NA,1,0,0,0}, {0xA057,INSTR_MUL,AL,AL,0,0,0x1000,0,0,0x10000,0,0,NA,1,0x10000000,0,0}, {0xA058,INSTR_MUL,AL,AL,0,0,MAX_32BIT ,0,0,1,0,0,NA,1,MAX_32BIT ,0,0}, {0xA059,INSTR_MLA,AL,AL,0,0x10000,0x10000,0,0,0x10000,0,0,NA,1,0x10000,0,0}, {0xA060,INSTR_MLA,AL,AL,0,0x10000,0x1000,0,0,0x10000,0,0,NA,1,0x10010000,0,0}, {0xA061,INSTR_MLA,AL,AL,1,1,MAX_32BIT ,0,0,1,0,0,NA,1,0,1,PL}, {0xA062,INSTR_MLA,AL,AL,1,0,MAX_32BIT ,0,0,1,0,0,NA,1,MAX_32BIT ,1,MI}, {0xA063,INSTR_SUB,AL,AL,1,1 << 16,NA,1,1 << 16,NA,NA,NA,NA,1,0,1,PL}, {0xA064,INSTR_SUB,AL,AL,1,(1 << 16) + 1,NA,1,1 << 16,NA,NA,NA,NA,1,1,1,PL}, {0xA065,INSTR_SUB,AL,AL,1,0,NA,1,1 << 16,NA,NA,NA,NA,1,(uint32_t)(0 - (1<<16)),1,MI}, {0xA066,INSTR_SUB,MI,MI,0,2,NA,0,NA,1,NA,NA,2,1,1,0,NA}, {0xA067,INSTR_SUB,EQ,MI,0,2,NA,0,NA,1,NA,NA,2,1,2,0,NA}, {0xA068,INSTR_SUB,GT,GE,0,2,NA,1,1,NA,NA,NA,2,1,1,0,NA}, {0xA069,INSTR_SUB,LT,GE,0,2,NA,1,1,NA,NA,NA,2,1,2,0,NA}, {0xA070,INSTR_SUB,CS,HS,0,2,NA,1,1,NA,NA,NA,2,1,1,0,NA}, {0xA071,INSTR_SUB,CC,HS,0,2,NA,1,1,NA,NA,NA,2,1,2,0,NA}, {0xA072,INSTR_SUB,AL,AL,0,1,NA,1,1 << 16,0,0,0,NA,1,(uint32_t)(1 - (1 << 16)),0,NA}, {0xA073,INSTR_SUB,AL,AL,0,MAX_32BIT,NA,1,1,0,0,0,NA,1,MAX_32BIT - 1,0,NA}, {0xA074,INSTR_SUB,AL,AL,0,1,NA,1,1,0,0,0,NA,1,0,0,NA}, {0xA075,INSTR_SUB,AL,AL,0,1,NA,0,NA,1 << 16,0,0,NA,1,(uint32_t)(1 - (1 << 16)),0,NA}, {0xA076,INSTR_SUB,AL,AL,0,MAX_32BIT,NA,0,NA,1,0,0,NA,1,MAX_32BIT - 1,0,NA}, {0xA077,INSTR_SUB,AL,AL,0,1,NA,0,NA,1,0,0,NA,1,0,0,NA}, {0xA078,INSTR_SUB,AL,AL,0,1,NA,0,NA,1,SHIFT_LSL,16,NA,1,(uint32_t)(1 - (1 << 16)),0,NA}, {0xA079,INSTR_SUB,AL,AL,0,0x80000001,NA,0,NA,MAX_32BIT ,SHIFT_LSL,31,NA,1,1,0,NA}, {0xA080,INSTR_SUB,AL,AL,0,1,NA,0,NA,3,SHIFT_LSR,1,NA,1,0,0,NA}, {0xA081,INSTR_SUB,AL,AL,0,1,NA,0,NA,MAX_32BIT ,SHIFT_LSR,31,NA,1,0,0,NA}, {0xA082,INSTR_RSB,GT,GE,0,2,NA,1,0,NA,NA,NA,2,1,(uint32_t)-2,0,NA}, {0xA083,INSTR_RSB,LT,GE,0,2,NA,1,0,NA,NA,NA,2,1,2,0,NA}, {0xA084,INSTR_RSB,AL,AL,0,1,NA,1,1 << 16,NA,NA,NA,NA,1,(1 << 16) - 1,0,NA}, {0xA085,INSTR_RSB,AL,AL,0,MAX_32BIT,NA,1,1,NA,NA,NA,NA,1,(uint32_t) (1 - MAX_32BIT),0,NA}, {0xA086,INSTR_RSB,AL,AL,0,1,NA,1,1,NA,NA,NA,NA,1,0,0,NA}, {0xA087,INSTR_RSB,AL,AL,0,1,NA,0,NA,1 << 16,0,0,NA,1,(1 << 16) - 1,0,NA}, {0xA088,INSTR_RSB,AL,AL,0,MAX_32BIT,NA,0,NA,1,0,0,NA,1,(uint32_t) (1 - MAX_32BIT),0,NA}, {0xA089,INSTR_RSB,AL,AL,0,1,NA,0,NA,1,0,0,NA,1,0,0,NA}, {0xA090,INSTR_RSB,AL,AL,0,1,NA,0,NA,1,SHIFT_LSL,16,NA,1,(1 << 16) - 1,0,NA}, {0xA091,INSTR_RSB,AL,AL,0,0x80000001,NA,0,NA,MAX_32BIT ,SHIFT_LSL,31,NA,1,(uint32_t)-1,0,NA}, {0xA092,INSTR_RSB,AL,AL,0,1,NA,0,NA,3,SHIFT_LSR,1,NA,1,0,0,NA}, {0xA093,INSTR_RSB,AL,AL,0,1,NA,0,NA,MAX_32BIT ,SHIFT_LSR,31,NA,1,0,0,NA}, {0xA094,INSTR_MOV,AL,AL,0,NA,NA,1,0x80000001,NA,NA,NA,NA,1,0x80000001,0,0}, {0xA095,INSTR_MOV,AL,AL,0,NA,NA,0,0,0x80000001,0,0,NA,1,0x80000001,0,0}, {0xA096,INSTR_MOV,AL,AL,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,1,NA,1,MAX_32BIT -1,0,0}, {0xA097,INSTR_MOV,AL,AL,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,31,NA,1,0x80000000,0,0}, {0xA098,INSTR_MOV,AL,AL,0,NA,NA,0,0,3,SHIFT_LSR,1,NA,1,1,0,0}, {0xA099,INSTR_MOV,AL,AL,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSR,31,NA,1,1,0,0}, {0xA100,INSTR_MOV,AL,AL,0,NA,NA,0,0,3,SHIFT_ASR,1,NA,1,1,0,0}, {0xA101,INSTR_MOV,AL,AL,0,NA,NA,0,0,MAX_32BIT ,SHIFT_ASR,31,NA,1,MAX_32BIT ,0,0}, {0xA102,INSTR_MOV,AL,AL,0,NA,NA,0,0,3,SHIFT_ROR,1,NA,1,0x80000001,0,0}, {0xA103,INSTR_MOV,AL,AL,0,NA,NA,0,0,0x80000001,SHIFT_ROR,31,NA,1,3,0,0}, {0xA104,INSTR_MOV,AL,AL,1,NA,NA,0,0,MAX_32BIT -1,SHIFT_ASR,1,NA,1,MAX_32BIT,1,MI}, {0xA105,INSTR_MOV,AL,AL,1,NA,NA,0,0,3,SHIFT_ASR,1,NA,1,1,1,PL}, {0xA106,INSTR_MOV,PL,MI,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,2,0,0}, {0xA107,INSTR_MOV,MI,MI,0,NA,NA,0,0,0x80000001,0,0,2,1,0x80000001,0,0}, {0xA108,INSTR_MOV,EQ,LT,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,2,0,0}, {0xA109,INSTR_MOV,LT,LT,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,0x80000001,0,0}, {0xA110,INSTR_MOV,GT,GE,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,1,2,1,MAX_32BIT -1,0,0}, {0xA111,INSTR_MOV,EQ,GE,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,31,2,1,0x80000000,0,0}, {0xA112,INSTR_MOV,LT,GE,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,31,2,1,2,0,0}, {0xA113,INSTR_MOV,GT,LE,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,1,2,1,2,0,0}, {0xA114,INSTR_MOV,EQ,LE,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,0x80000001,0,0}, {0xA115,INSTR_MOV,LT,LE,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,31,2,1,0x80000000,0,0}, {0xA116,INSTR_MOV,EQ,GT,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,2,0,0}, {0xA117,INSTR_MOV,GT,GT,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,0x80000001,0,0}, {0xA118,INSTR_MOV,LE,GT,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,2,0,0}, {0xA119,INSTR_MOV,EQ,GT,0,NA,NA,0,0,0x80000001,0,0,2,1,2,0,0}, {0xA120,INSTR_MOV,GT,GT,0,NA,NA,0,0,0x80000001,0,0,2,1,0x80000001,0,0}, {0xA121,INSTR_MOV,LE,GT,0,NA,NA,0,0,0x80000001,0,0,2,1,2,0,0}, {0xA122,INSTR_MOV,EQ,GT,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,1,2,1,2,0,0}, {0xA123,INSTR_MOV,GT,GT,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,1,2,1,MAX_32BIT -1,0,0}, {0xA124,INSTR_MOV,LE,GT,0,NA,NA,0,0,MAX_32BIT ,SHIFT_LSL,1,2,1,2,0,0}, {0xA125,INSTR_MOV,LO,HS,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,2,0,0}, {0xA126,INSTR_MOV,HS,HS,0,NA,NA,1,0x80000001,NA,NA,NA,2,1,0x80000001,0,0}, {0xA127,INSTR_MVN,LO,HS,0,NA,NA,1,MAX_32BIT -1,NA,NA,NA,2,1,2,0,0}, {0xA128,INSTR_MVN,HS,HS,0,NA,NA,1,MAX_32BIT -1,NA,NA,NA,2,1,1,0,0}, {0xA129,INSTR_MVN,AL,AL,0,NA,NA,1,0,NA,NA,NA,2,1,MAX_32BIT,0,NA}, {0xA130,INSTR_MVN,AL,AL,0,NA,NA,0,NA,MAX_32BIT -1,NA,0,2,1,1,0,NA}, {0xA131,INSTR_MVN,AL,AL,0,NA,NA,0,NA,0x80000001,NA,0,2,1,0x7FFFFFFE,0,NA}, {0xA132,INSTR_BIC,AL,AL,0,1,NA,1,MAX_32BIT ,NA,NA,NA,NA,1,0,0,0}, {0xA133,INSTR_BIC,AL,AL,0,1,NA,1,MAX_32BIT -1,NA,NA,NA,NA,1,1,0,0}, {0xA134,INSTR_BIC,AL,AL,0,1,NA,0,0,MAX_32BIT ,0,0,NA,1,0,0,0}, {0xA135,INSTR_BIC,AL,AL,0,1,NA,0,0,MAX_32BIT -1,0,0,NA,1,1,0,0}, {0xA136,INSTR_BIC,AL,AL,0,0xF0,NA,0,0,3,SHIFT_ASR,1,NA,1,0xF0,0,0}, {0xA137,INSTR_BIC,AL,AL,0,0xF0,NA,0,0,MAX_32BIT ,SHIFT_ASR,31,NA,1,0,0,0}, {0xA138,INSTR_SMULBB,AL,AL,0,NA,0xABCDFFFF,0,NA,0xABCD0001,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA139,INSTR_SMULBB,AL,AL,0,NA,0xABCD0001,0,NA,0xABCD0FFF,NA,NA,NA,1,0x00000FFF,0,0}, {0xA140,INSTR_SMULBB,AL,AL,0,NA,0xABCD0001,0,NA,0xABCDFFFF,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA141,INSTR_SMULBB,AL,AL,0,NA,0xABCDFFFF,0,NA,0xABCDFFFF,NA,NA,NA,1,1,0,0}, {0xA142,INSTR_SMULBT,AL,AL,0,NA,0xFFFFABCD,0,NA,0xABCD0001,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA143,INSTR_SMULBT,AL,AL,0,NA,0x0001ABCD,0,NA,0xABCD0FFF,NA,NA,NA,1,0x00000FFF,0,0}, {0xA144,INSTR_SMULBT,AL,AL,0,NA,0x0001ABCD,0,NA,0xABCDFFFF,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA145,INSTR_SMULBT,AL,AL,0,NA,0xFFFFABCD,0,NA,0xABCDFFFF,NA,NA,NA,1,1,0,0}, {0xA146,INSTR_SMULTB,AL,AL,0,NA,0xABCDFFFF,0,NA,0x0001ABCD,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA147,INSTR_SMULTB,AL,AL,0,NA,0xABCD0001,0,NA,0x0FFFABCD,NA,NA,NA,1,0x00000FFF,0,0}, {0xA148,INSTR_SMULTB,AL,AL,0,NA,0xABCD0001,0,NA,0xFFFFABCD,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA149,INSTR_SMULTB,AL,AL,0,NA,0xABCDFFFF,0,NA,0xFFFFABCD,NA,NA,NA,1,1,0,0}, {0xA150,INSTR_SMULTT,AL,AL,0,NA,0xFFFFABCD,0,NA,0x0001ABCD,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA151,INSTR_SMULTT,AL,AL,0,NA,0x0001ABCD,0,NA,0x0FFFABCD,NA,NA,NA,1,0x00000FFF,0,0}, {0xA152,INSTR_SMULTT,AL,AL,0,NA,0x0001ABCD,0,NA,0xFFFFABCD,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA153,INSTR_SMULTT,AL,AL,0,NA,0xFFFFABCD,0,NA,0xFFFFABCD,NA,NA,NA,1,1,0,0}, {0xA154,INSTR_SMULWB,AL,AL,0,NA,0xABCDFFFF,0,NA,0x0001ABCD,NA,NA,NA,1,0xFFFFFFFE,0,0}, {0xA155,INSTR_SMULWB,AL,AL,0,NA,0xABCD0001,0,NA,0x0FFFABCD,NA,NA,NA,1,0x00000FFF,0,0}, {0xA156,INSTR_SMULWB,AL,AL,0,NA,0xABCD0001,0,NA,0xFFFFABCD,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA157,INSTR_SMULWB,AL,AL,0,NA,0xABCDFFFF,0,NA,0xFFFFABCD,NA,NA,NA,1,0,0,0}, {0xA158,INSTR_SMULWT,AL,AL,0,NA,0xFFFFABCD,0,NA,0x0001ABCD,NA,NA,NA,1,0xFFFFFFFE,0,0}, {0xA159,INSTR_SMULWT,AL,AL,0,NA,0x0001ABCD,0,NA,0x0FFFABCD,NA,NA,NA,1,0x00000FFF,0,0}, {0xA160,INSTR_SMULWT,AL,AL,0,NA,0x0001ABCD,0,NA,0xFFFFABCD,NA,NA,NA,1,0xFFFFFFFF,0,0}, {0xA161,INSTR_SMULWT,AL,AL,0,NA,0xFFFFABCD,0,NA,0xFFFFABCD,NA,NA,NA,1,0,0,0}, {0xA162,INSTR_SMLABB,AL,AL,0,1,0xABCDFFFF,0,NA,0xABCD0001,NA,NA,NA,1,0,0,0}, {0xA163,INSTR_SMLABB,AL,AL,0,1,0xABCD0001,0,NA,0xABCD0FFF,NA,NA,NA,1,0x00001000,0,0}, {0xA164,INSTR_SMLABB,AL,AL,0,0xFFFFFFFF,0xABCD0001,0,NA,0xABCDFFFF,NA,NA,NA,1,0xFFFFFFFE,0,0}, {0xA165,INSTR_SMLABB,AL,AL,0,0xFFFFFFFF,0xABCDFFFF,0,NA,0xABCDFFFF,NA,NA,NA,1,0,0,0}, {0xA166,INSTR_UXTB16,AL,AL,0,NA,NA,0,NA,0xABCDEF01,SHIFT_ROR,0,NA,1,0x00CD0001,0,0}, {0xA167,INSTR_UXTB16,AL,AL,0,NA,NA,0,NA,0xABCDEF01,SHIFT_ROR,1,NA,1,0x00AB00EF,0,0}, {0xA168,INSTR_UXTB16,AL,AL,0,NA,NA,0,NA,0xABCDEF01,SHIFT_ROR,2,NA,1,0x000100CD,0,0}, {0xA169,INSTR_UXTB16,AL,AL,0,NA,NA,0,NA,0xABCDEF01,SHIFT_ROR,3,NA,1,0x00EF00AB,0,0}, {0xA170,INSTR_UBFX,AL,AL,0,0xABCDEF01,4,0,NA,24,NA,NA,NA,1,0x00BCDEF0,0,0}, {0xA171,INSTR_UBFX,AL,AL,0,0xABCDEF01,1,0,NA,2,NA,NA,NA,1,0,0,0}, {0xA172,INSTR_UBFX,AL,AL,0,0xABCDEF01,16,0,NA,8,NA,NA,NA,1,0xCD,0,0}, {0xA173,INSTR_UBFX,AL,AL,0,0xABCDEF01,31,0,NA,1,NA,NA,NA,1,1,0,0}, {0xA174,INSTR_ADDR_ADD,AL,AL,0,0xCFFFFFFFF,NA,0,NA,0x1,SHIFT_LSL,1,NA,1,0xD00000001,0,0}, {0xA175,INSTR_ADDR_ADD,AL,AL,0,0x01,NA,0,NA,0x1,SHIFT_LSL,2,NA,1,0x5,0,0}, {0xA176,INSTR_ADDR_ADD,AL,AL,0,0xCFFFFFFFF,NA,0,NA,0x1,NA,0,NA,1,0xD00000000,0,0}, {0xA177,INSTR_ADDR_SUB,AL,AL,0,0xD00000001,NA,0,NA,0x010000,SHIFT_LSR,15,NA,1,0xCFFFFFFFF,0,0}, {0xA178,INSTR_ADDR_SUB,AL,AL,0,0xCFFFFFFFF,NA,0,NA,0x020000,SHIFT_LSR,15,NA,1,0xCFFFFFFFB,0,0}, {0xA179,INSTR_ADDR_SUB,AL,AL,0,3,NA,0,NA,0x010000,SHIFT_LSR,15,NA,1,1,0,0}, }; dataTransferTest_t dataTransferTests [] = { {0xB000,INSTR_LDR,AL,AL,1,24,0xABCDEF0123456789,0,REG_SCALE_OFFSET,24,NA,NA,NA,NA,NA,0x23456789,0,0,NA,NA,NA}, {0xB001,INSTR_LDR,AL,AL,1,4064,0xABCDEF0123456789,0,IMM12_OFFSET,NA,4068,0,1,0,NA,0xABCDEF01,0,0,NA,NA,NA}, {0xB002,INSTR_LDR,AL,AL,1,0,0xABCDEF0123456789,0,IMM12_OFFSET,NA,4,1,0,1,NA,0x23456789,4,0,NA,NA,NA}, {0xB003,INSTR_LDR,AL,AL,1,0,0xABCDEF0123456789,0,NO_OFFSET,NA,NA,0,0,0,NA,0x23456789,0,0,NA,NA,NA}, {0xB004,INSTR_LDRB,AL,AL,1,4064,0xABCDEF0123456789,0,REG_SCALE_OFFSET,4064,NA,NA,NA,NA,NA,0x89,0,0,NA,NA,NA}, {0xB005,INSTR_LDRB,AL,AL,1,4064,0xABCDEF0123456789,0,IMM12_OFFSET,NA,4065,0,1,0,NA,0x67,0,0,NA,NA,NA}, {0xB006,INSTR_LDRB,AL,AL,1,4064,0xABCDEF0123456789,4065,IMM12_OFFSET,NA,0,0,1,0,NA,0x67,4065,0,NA,NA,NA}, {0xB007,INSTR_LDRB,AL,AL,1,4064,0xABCDEF0123456789,4065,IMM12_OFFSET,NA,1,0,1,0,NA,0x45,4065,0,NA,NA,NA}, {0xB008,INSTR_LDRB,AL,AL,1,4064,0xABCDEF0123456789,4065,IMM12_OFFSET,NA,2,0,1,0,NA,0x23,4065,0,NA,NA,NA}, {0xB009,INSTR_LDRB,AL,AL,1,4064,0xABCDEF0123456789,4065,IMM12_OFFSET,NA,1,1,0,1,NA,0x67,4066,0,NA,NA,NA}, {0xB010,INSTR_LDRB,AL,AL,1,4064,0xABCDEF0123456789,0,NO_OFFSET,NA,NA,0,0,0,NA,0x89,0,0,NA,NA,NA}, {0xB011,INSTR_LDRH,AL,AL,1,0,0xABCDEF0123456789,0,IMM8_OFFSET,NA,2,1,0,1,NA,0x6789,2,0,NA,NA,NA}, {0xB012,INSTR_LDRH,AL,AL,1,4064,0xABCDEF0123456789,0,REG_OFFSET,4064,0,0,1,0,NA,0x6789,0,0,NA,NA,NA}, {0xB013,INSTR_LDRH,AL,AL,1,4064,0xABCDEF0123456789,0,REG_OFFSET,4066,0,0,1,0,NA,0x2345,0,0,NA,NA,NA}, {0xB014,INSTR_LDRH,AL,AL,1,0,0xABCDEF0123456789,0,NO_OFFSET,NA,0,0,0,0,NA,0x6789,0,0,NA,NA,NA}, {0xB015,INSTR_LDRH,AL,AL,1,0,0xABCDEF0123456789,2,NO_OFFSET,NA,0,0,0,0,NA,0x2345,2,0,NA,NA,NA}, {0xB016,INSTR_ADDR_LDR,AL,AL,1,4064,0xABCDEF0123456789,0,IMM12_OFFSET,NA,4064,0,1,0,NA,0xABCDEF0123456789,0,0,NA,NA,NA}, {0xB017,INSTR_STR,AL,AL,1,2,0xDEADBEEFDEADBEEF,4,IMM12_OFFSET,NA,4,1,0,1,0xABCDEF0123456789,0xABCDEF0123456789,8,1,2,8,0xDEAD23456789BEEF}, {0xB018,INSTR_STR,AL,AL,1,2,0xDEADBEEFDEADBEEF,4,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4,1,2,8,0xDEAD23456789BEEF}, {0xB019,INSTR_STR,AL,AL,1,4066,0xDEADBEEFDEADBEEF,4,IMM12_OFFSET,NA,4064,0,1,0,0xABCDEF0123456789,0xABCDEF0123456789,4,1,4066,8,0xDEAD23456789BEEF}, {0xB020,INSTR_STRB,AL,AL,1,0,0xDEADBEEFDEADBEEF,1,IMM12_OFFSET,NA,0,0,1,0,0xABCDEF0123456789,0xABCDEF0123456789,1,1,0,8,0xDEADBEEFDEAD89EF}, {0xB021,INSTR_STRB,AL,AL,1,0,0xDEADBEEFDEADBEEF,1,IMM12_OFFSET,NA,1,0,1,0,0xABCDEF0123456789,0xABCDEF0123456789,1,1,0,8,0xDEADBEEFDE89BEEF}, {0xB022,INSTR_STRB,AL,AL,1,0,0xDEADBEEFDEADBEEF,1,IMM12_OFFSET,NA,2,0,1,0,0xABCDEF0123456789,0xABCDEF0123456789,1,1,0,8,0xDEADBEEF89ADBEEF}, {0xB023,INSTR_STRB,AL,AL,1,0,0xDEADBEEFDEADBEEF,1,IMM12_OFFSET,NA,4,1,0,1,0xABCDEF0123456789,0xABCDEF0123456789,5,1,0,8,0xDEADBEEFDEAD89EF}, {0xB024,INSTR_STRB,AL,AL,1,0,0xDEADBEEFDEADBEEF,1,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,1,1,0,8,0xDEADBEEFDEAD89EF}, {0xB025,INSTR_STRH,AL,AL,1,4066,0xDEADBEEFDEADBEEF,4070,IMM12_OFFSET,NA,2,1,0,1,0xABCDEF0123456789,0xABCDEF0123456789,4072,1,4066,8,0xDEAD6789DEADBEEF}, {0xB026,INSTR_STRH,AL,AL,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEAD6789DEADBEEF}, {0xB027,INSTR_STRH,EQ,NE,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEADBEEFDEADBEEF}, {0xB028,INSTR_STRH,NE,NE,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEAD6789DEADBEEF}, {0xB029,INSTR_STRH,NE,EQ,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEADBEEFDEADBEEF}, {0xB030,INSTR_STRH,EQ,EQ,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEAD6789DEADBEEF}, {0xB031,INSTR_STRH,HI,LS,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEADBEEFDEADBEEF}, {0xB032,INSTR_STRH,LS,LS,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEAD6789DEADBEEF}, {0xB033,INSTR_STRH,LS,HI,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEADBEEFDEADBEEF}, {0xB034,INSTR_STRH,HI,HI,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEAD6789DEADBEEF}, {0xB035,INSTR_STRH,CC,HS,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEADBEEFDEADBEEF}, {0xB036,INSTR_STRH,CS,HS,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEAD6789DEADBEEF}, {0xB037,INSTR_STRH,GE,LT,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEADBEEFDEADBEEF}, {0xB038,INSTR_STRH,LT,LT,1,4066,0xDEADBEEFDEADBEEF,4070,NO_OFFSET,NA,NA,0,0,0,0xABCDEF0123456789,0xABCDEF0123456789,4070,1,4066,8,0xDEAD6789DEADBEEF}, {0xB039,INSTR_ADDR_STR,AL,AL,1,4064,0xDEADBEEFDEADBEEF,4,IMM12_OFFSET,NA,4060,0,1,0,0xABCDEF0123456789,0xABCDEF0123456789,4,1,4064,8,0xABCDEF0123456789}, }; void flushcache() { const long base = long(instrMem); const long curr = base + long(instrMemSize); __builtin___clear_cache((void*)base, (void*)curr); } void dataOpTest(dataOpTest_t test, ARMAssemblerInterface *a64asm, uint32_t Rd = 0, uint32_t Rn = 1, uint32_t Rm = 2, uint32_t Rs = 3) { int64_t regs[NUM_REGS] = {0}; int32_t flags[NUM_FLAGS] = {0}; int64_t savedRegs[NUM_REGS] = {0}; uint32_t i; uint32_t op2; for(i = 0; i < NUM_REGS; ++i) { regs[i] = i; } regs[Rd] = test.RdValue; regs[Rn] = test.RnValue; regs[Rs] = test.RsValue; flags[test.preFlag] = 1; a64asm->reset(); a64asm->prolog(); if(test.immediate == true) { op2 = a64asm->imm(test.immValue); } else if(test.immediate == false && test.shiftAmount == 0) { op2 = Rm; regs[Rm] = test.RmValue; } else { op2 = a64asm->reg_imm(Rm, test.shiftMode, test.shiftAmount); regs[Rm] = test.RmValue; } switch(test.op) { case INSTR_ADD: a64asm->ADD(test.cond, test.setFlags, Rd,Rn,op2); break; case INSTR_SUB: a64asm->SUB(test.cond, test.setFlags, Rd,Rn,op2); break; case INSTR_RSB: a64asm->RSB(test.cond, test.setFlags, Rd,Rn,op2); break; case INSTR_AND: a64asm->AND(test.cond, test.setFlags, Rd,Rn,op2); break; case INSTR_ORR: a64asm->ORR(test.cond, test.setFlags, Rd,Rn,op2); break; case INSTR_BIC: a64asm->BIC(test.cond, test.setFlags, Rd,Rn,op2); break; case INSTR_MUL: a64asm->MUL(test.cond, test.setFlags, Rd,Rm,Rs); break; case INSTR_MLA: a64asm->MLA(test.cond, test.setFlags, Rd,Rm,Rs,Rn); break; case INSTR_CMP: a64asm->CMP(test.cond, Rn,op2); break; case INSTR_MOV: a64asm->MOV(test.cond, test.setFlags,Rd,op2); break; case INSTR_MVN: a64asm->MVN(test.cond, test.setFlags,Rd,op2); break; case INSTR_SMULBB:a64asm->SMULBB(test.cond, Rd,Rm,Rs); break; case INSTR_SMULBT:a64asm->SMULBT(test.cond, Rd,Rm,Rs); break; case INSTR_SMULTB:a64asm->SMULTB(test.cond, Rd,Rm,Rs); break; case INSTR_SMULTT:a64asm->SMULTT(test.cond, Rd,Rm,Rs); break; case INSTR_SMULWB:a64asm->SMULWB(test.cond, Rd,Rm,Rs); break; case INSTR_SMULWT:a64asm->SMULWT(test.cond, Rd,Rm,Rs); break; case INSTR_SMLABB:a64asm->SMLABB(test.cond, Rd,Rm,Rs,Rn); break; case INSTR_UXTB16:a64asm->UXTB16(test.cond, Rd,Rm,test.shiftAmount); break; case INSTR_UBFX: { int32_t lsb = test.RsValue; int32_t width = test.RmValue; a64asm->UBFX(test.cond, Rd,Rn,lsb, width); break; } case INSTR_ADDR_ADD: a64asm->ADDR_ADD(test.cond, test.setFlags, Rd,Rn,op2); break; case INSTR_ADDR_SUB: a64asm->ADDR_SUB(test.cond, test.setFlags, Rd,Rn,op2); break; default: printf("Error"); return; } a64asm->epilog(0); flushcache(); asm_function_t asm_function = (asm_function_t)(instrMem); for(i = 0; i < NUM_REGS; ++i) savedRegs[i] = regs[i]; asm_test_jacket(asm_function, regs, flags); /* Check if all regs except Rd is same */ for(i = 0; i < NUM_REGS; ++i) { if(i == Rd) continue; if(regs[i] != savedRegs[i]) { printf("Test %x failed Reg(%d) tampered Expected(0x%"PRIx64")," "Actual(0x%"PRIx64") t\n", test.id, i, savedRegs[i], regs[i]); return; } } if(test.checkRd == 1 && (uint64_t)regs[Rd] != test.postRdValue) { printf("Test %x failed, Expected(%"PRIx64"), Actual(%"PRIx64")\n", test.id, test.postRdValue, regs[Rd]); } else if(test.checkFlag == 1 && flags[test.postFlag] == 0) { printf("Test %x failed Flag(%s) NOT set\n", test.id,cc_code[test.postFlag]); } else { printf("Test %x passed\n", test.id); } } void dataTransferTest(dataTransferTest_t test, ARMAssemblerInterface *a64asm, uint32_t Rd = 0, uint32_t Rn = 1,uint32_t Rm = 2) { int64_t regs[NUM_REGS] = {0}; int64_t savedRegs[NUM_REGS] = {0}; int32_t flags[NUM_FLAGS] = {0}; uint32_t i; for(i = 0; i < NUM_REGS; ++i) { regs[i] = i; } uint32_t op2; regs[Rd] = test.RdValue; regs[Rn] = (uint64_t)(&dataMem[test.RnValue]); regs[Rm] = test.RmValue; flags[test.preFlag] = 1; if(test.setMem == true) { unsigned char *mem = (unsigned char *)&dataMem[test.memOffset]; uint64_t value = test.memValue; for(int j = 0; j < 8; ++j) { mem[j] = value & 0x00FF; value >>= 8; } } a64asm->reset(); a64asm->prolog(); if(test.offsetType == REG_SCALE_OFFSET) { op2 = a64asm->reg_scale_pre(Rm); } else if(test.offsetType == REG_OFFSET) { op2 = a64asm->reg_pre(Rm); } else if(test.offsetType == IMM12_OFFSET && test.preIndex == true) { op2 = a64asm->immed12_pre(test.immValue, test.writeBack); } else if(test.offsetType == IMM12_OFFSET && test.postIndex == true) { op2 = a64asm->immed12_post(test.immValue); } else if(test.offsetType == IMM8_OFFSET && test.preIndex == true) { op2 = a64asm->immed8_pre(test.immValue, test.writeBack); } else if(test.offsetType == IMM8_OFFSET && test.postIndex == true) { op2 = a64asm->immed8_post(test.immValue); } else if(test.offsetType == NO_OFFSET) { op2 = a64asm->__immed12_pre(0); } else { printf("Error - Unknown offset\n"); return; } switch(test.op) { case INSTR_LDR: a64asm->LDR(test.cond, Rd,Rn,op2); break; case INSTR_LDRB: a64asm->LDRB(test.cond, Rd,Rn,op2); break; case INSTR_LDRH: a64asm->LDRH(test.cond, Rd,Rn,op2); break; case INSTR_ADDR_LDR: a64asm->ADDR_LDR(test.cond, Rd,Rn,op2); break; case INSTR_STR: a64asm->STR(test.cond, Rd,Rn,op2); break; case INSTR_STRB: a64asm->STRB(test.cond, Rd,Rn,op2); break; case INSTR_STRH: a64asm->STRH(test.cond, Rd,Rn,op2); break; case INSTR_ADDR_STR: a64asm->ADDR_STR(test.cond, Rd,Rn,op2); break; default: printf("Error"); return; } a64asm->epilog(0); flushcache(); asm_function_t asm_function = (asm_function_t)(instrMem); for(i = 0; i < NUM_REGS; ++i) savedRegs[i] = regs[i]; asm_test_jacket(asm_function, regs, flags); /* Check if all regs except Rd/Rn are same */ for(i = 0; i < NUM_REGS; ++i) { if(i == Rd || i == Rn) continue; if(regs[i] != savedRegs[i]) { printf("Test %x failed Reg(%d) tampered" " Expected(0x%"PRIx64"), Actual(0x%"PRIx64") t\n", test.id, i, savedRegs[i], regs[i]); return; } } if((uint64_t)regs[Rd] != test.postRdValue) { printf("Test %x failed, " "Expected in Rd(0x%"PRIx64"), Actual(0x%"PRIx64")\n", test.id, test.postRdValue, regs[Rd]); } else if((uint64_t)regs[Rn] != (uint64_t)(&dataMem[test.postRnValue])) { printf("Test %x failed, " "Expected in Rn(0x%"PRIx64"), Actual(0x%"PRIx64")\n", test.id, test.postRnValue, regs[Rn] - (uint64_t)dataMem); } else if(test.checkMem == true) { unsigned char *addr = (unsigned char *)&dataMem[test.postMemOffset]; uint64_t value; value = 0; for(uint32_t j = 0; j < test.postMemLength; ++j) value = (value << 8) | addr[test.postMemLength-j-1]; if(value != test.postMemValue) { printf("Test %x failed, " "Expected in Mem(0x%"PRIx64"), Actual(0x%"PRIx64")\n", test.id, test.postMemValue, value); } else { printf("Test %x passed\n", test.id); } } else { printf("Test %x passed\n", test.id); } } void dataTransferLDMSTM(ARMAssemblerInterface *a64asm) { int64_t regs[NUM_REGS] = {0}; int32_t flags[NUM_FLAGS] = {0}; const uint32_t numArmv7Regs = 16; uint32_t Rn = ARMAssemblerInterface::SP; uint32_t patterns[] = { 0x5A03, 0x4CF0, 0x1EA6, 0x0DBF, }; uint32_t i, j; for(i = 0; i < sizeof(patterns)/sizeof(uint32_t); ++i) { for(j = 0; j < NUM_REGS; ++j) { regs[j] = j; } a64asm->reset(); a64asm->prolog(); a64asm->STM(AL,ARMAssemblerInterface::DB,Rn,1,patterns[i]); for(j = 0; j < numArmv7Regs; ++j) { uint32_t op2 = a64asm->imm(0x31); a64asm->MOV(AL, 0,j,op2); } a64asm->LDM(AL,ARMAssemblerInterface::IA,Rn,1,patterns[i]); a64asm->epilog(0); flushcache(); asm_function_t asm_function = (asm_function_t)(instrMem); asm_test_jacket(asm_function, regs, flags); for(j = 0; j < numArmv7Regs; ++j) { if((1 << j) & patterns[i]) { if(regs[j] != j) { printf("LDM/STM Test %x failed " "Reg%d expected(0x%x) Actual(0x%"PRIx64") \n", patterns[i],j,j,regs[j]); break; } } } if(j == numArmv7Regs) printf("LDM/STM Test %x passed\n", patterns[i]); } } int main(void) { uint32_t i; /* Allocate memory to store instructions generated by ArmToArm64Assembler */ { int fd = ashmem_create_region("code cache", instrMemSize); if(fd < 0) printf("Creating code cache, ashmem_create_region " "failed with error '%s'", strerror(errno)); instrMem = mmap(NULL, instrMemSize, PROT_READ | PROT_WRITE | PROT_EXEC, MAP_PRIVATE, fd, 0); } ArmToArm64Assembler a64asm(instrMem); if(TESTS_DATAOP_ENABLE) { printf("Running data processing tests\n"); for(i = 0; i < sizeof(dataOpTests)/sizeof(dataOpTest_t); ++i) dataOpTest(dataOpTests[i], &a64asm); } if(TESTS_DATATRANSFER_ENABLE) { printf("Running data transfer tests\n"); for(i = 0; i < sizeof(dataTransferTests)/sizeof(dataTransferTest_t); ++i) dataTransferTest(dataTransferTests[i], &a64asm); } if(TESTS_LDMSTM_ENABLE) { printf("Running LDM/STM tests\n"); dataTransferLDMSTM(&a64asm); } if(TESTS_REG_CORRUPTION_ENABLE) { uint32_t reg_list[] = {0,1,12,14}; uint32_t Rd, Rm, Rs, Rn; uint32_t i; uint32_t numRegs = sizeof(reg_list)/sizeof(uint32_t); printf("Running Register corruption tests\n"); for(i = 0; i < sizeof(dataOpTests)/sizeof(dataOpTest_t); ++i) { for(Rd = 0; Rd < numRegs; ++Rd) { for(Rn = 0; Rn < numRegs; ++Rn) { for(Rm = 0; Rm < numRegs; ++Rm) { for(Rs = 0; Rs < numRegs;++Rs) { if(Rd == Rn || Rd == Rm || Rd == Rs) continue; if(Rn == Rm || Rn == Rs) continue; if(Rm == Rs) continue; printf("Testing combination Rd(%d), Rn(%d)," " Rm(%d), Rs(%d): ", reg_list[Rd], reg_list[Rn], reg_list[Rm], reg_list[Rs]); dataOpTest(dataOpTests[i], &a64asm, reg_list[Rd], reg_list[Rn], reg_list[Rm], reg_list[Rs]); } } } } } } return 0; }