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/*
* Copyright (c) 2016 The University of Virginia
* 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 the copyright holders 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.
*
* Authors: Alec Roelke
*/
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/times.h>
#include <sys/types.h>
#include <unistd.h>
#include <cstdint>
#include <cstring>
#include <iostream>
#include <limits>
#include "insttest.h"
#include "rv64i.h"
int main()
{
using namespace std;
using namespace insttest;
// LUI
expect<int64_t>(4096, []{return I::lui(1);}, "lui");
expect<int64_t>(numeric_limits<int32_t>::min(),
[]{return I::lui(0x80000);}, "lui, negative");
// AUIPC
expect<bool>(true, []{return I::auipc(3);}, "auipc");
// Jump (JAL, JALR)
expect<bool>(true, []{return I::jal();}, "jal");
expect<bool>(true, []{return I::jalr();}, "jalr");
// BEQ
expect<bool>(true, []{return I::beq(5, 5);}, "beq, equal");
expect<bool>(false, []{return I::beq(numeric_limits<int64_t>::max(),
numeric_limits<int64_t>::min());}, "beq, not equal");
// BNE
expect<bool>(false, []{return I::bne(5, 5);}, "bne, equal");
expect<bool>(true, []{return I::bne(numeric_limits<int64_t>::max(),
numeric_limits<int64_t>::min());}, "bne, not equal");
// BLT
expect<bool>(true, []{return I::blt(numeric_limits<int64_t>::min(),
numeric_limits<int64_t>::max());}, "blt, less");
expect<bool>(false, []{return I::blt(numeric_limits<int64_t>::min(),
numeric_limits<int64_t>::min());}, "blt, equal");
expect<bool>(false, []{return I::blt(numeric_limits<int64_t>::max(),
numeric_limits<int64_t>::min());}, "blt, greater");
// BGE
expect<bool>(false, []{return I::bge(numeric_limits<int64_t>::min(),
numeric_limits<int64_t>::max());}, "bge, less");
expect<bool>(true, []{return I::bge(numeric_limits<int64_t>::min(),
numeric_limits<int64_t>::min());}, "bge, equal");
expect<bool>(true, []{return I::bge(numeric_limits<int64_t>::max(),
numeric_limits<int64_t>::min());}, "bge, greater");
// BLTU
expect<bool>(true, []{return I::blt(numeric_limits<int64_t>::min(),
numeric_limits<int64_t>::max());}, "bltu, greater");
expect<bool>(false, []{return I::blt(numeric_limits<int64_t>::min(),
numeric_limits<int64_t>::min());}, "bltu, equal");
expect<bool>(false, []{return I::blt(numeric_limits<int64_t>::max(),
numeric_limits<int64_t>::min());}, "bltu, less");
// BGEU
expect<bool>(false, []{return I::bge(numeric_limits<int64_t>::min(),
numeric_limits<int64_t>::max());}, "bgeu, greater");
expect<bool>(true, []{return I::bge(numeric_limits<int64_t>::min(),
numeric_limits<int64_t>::min());}, "bgeu, equal");
expect<bool>(true, []{return I::bge(numeric_limits<int64_t>::max(),
numeric_limits<int64_t>::min());}, "bgeu, less");
// Load (LB, LH, LW, LBU, LHU)
expect<int64_t>(7, []{return I::load<int8_t, int64_t>(0x07);},
"lb, positive");
expect<int64_t>(numeric_limits<int8_t>::min(),
[]{return I::load<int8_t, int64_t>(0x80);}, "lb, negative");
expect<int64_t>(1792, []{return I::load<int16_t, int64_t>(0x0700);},
"lh, positive");
expect<int64_t>(numeric_limits<int16_t>::min(),
[]{return I::load<int16_t, int64_t>(0x8000);}, "lh, negative");
expect<int64_t>(458752, []{return I::load<int32_t, int64_t>(0x00070000);},
"lw, positive");
expect<int64_t>(numeric_limits<int32_t>::min(),
[]{return I::load<int32_t, int64_t>(0x80000000);},
"lw, negative");
expect<uint64_t>(128, []{return I::load<uint8_t, uint64_t>(0x80);}, "lbu");
expect<uint64_t>(32768, []{return I::load<uint16_t, uint64_t>(0x8000);},
"lhu");
// Store (SB, SH, SW)
expect<uint8_t>(0xFF, []{return I::store<int8_t>(-1);}, "sb");
expect<uint16_t>(0xFFFF, []{return I::store<int16_t>(-1);}, "sh");
expect<uint32_t>(0xFFFFFFFF, []{return I::store<int32_t>(-1);}, "sw");
// ADDI
expect<int64_t>(1073742078, []{return I::addi(0x3FFFFFFF, 255);},
"addi");
expect<int64_t>(1, []{return I::addi(-1, 2);}, "addi, overflow");
// SLTI
expect<bool>(true, []{return I::slti(-1, 0);}, "slti, true");
expect<bool>(false, []{return I::slti(0, -1);}, "slti, false");
// SLTIU
expect<bool>(false, []{return I::sltiu(-1, 0);}, "sltiu, false");
expect<bool>(true, []{return I::sltiu(0, -1);}, "sltiu, true");
// XORI
expect<uint64_t>(0xFF, []{return I::xori(0xAA, 0x55);}, "xori (1)");
expect<uint64_t>(0, []{return I::xori(0xAA, 0xAA);}, "xori (0)");
// ORI
expect<uint64_t>(0xFF, []{return I::ori(0xAA, 0x55);}, "ori (1)");
expect<uint64_t>(0xAA, []{return I::ori(0xAA, 0xAA);}, "ori (A)");
// ANDI
expect<uint64_t>(0, []{return I::andi(-1, 0);}, "andi (0)");
expect<uint64_t>(0x1234567812345678ULL,
[]{return I::andi(0x1234567812345678ULL, -1);}, "andi (1)");
// SLLI
expect<int64_t>(65280, []{return I::slli(255, 8);}, "slli, general");
expect<int64_t>(numeric_limits<int64_t>::min(),
[]{return I::slli(255, 63);}, "slli, erase");
// SRLI
expect<int64_t>(255, []{return I::srli(65280, 8);}, "srli, general");
expect<int64_t>(0, []{return I::srli(255, 8);}, "srli, erase");
expect<int64_t>(1, []{return I::srli(numeric_limits<int64_t>::min(), 63);},
"srli, negative");
// SRAI
expect<int64_t>(255, []{return I::srai(65280, 8);}, "srai, general");
expect<int64_t>(0, []{return I::srai(255, 8);}, "srai, erase");
expect<int64_t>(-1,
[]{return I::srai(numeric_limits<int64_t>::min(), 63);},
"srai, negative");
// ADD
expect<int64_t>(1073742078, []{return I::add(0x3FFFFFFF, 255);}, "add");
expect<int64_t>(-1,
[]{return I::add(0x7FFFFFFFFFFFFFFFLL, 0x8000000000000000LL);},
"add, overflow");
// SUB
expect<int64_t>(65535, []{return I::sub(65536, 1);}, "sub");
expect<int64_t>(-1,
[]{return I::sub(0x7FFFFFFFFFFFFFFFLL, 0x8000000000000000LL);},
"sub, \"overflow\"");
// SLL
expect<int64_t>(65280, []{return I::sll(255, 8);}, "sll, general");
expect<int64_t>(numeric_limits<int64_t>::min(),
[]{return I::sll(255, 63);}, "sll, erase");
// SLT
expect<bool>(true, []{return I::slt(-1, 0);}, "slt, true");
expect<bool>(false, []{return I::slt(0, -1);}, "slt, false");
// SLTU
expect<bool>(false, []{return I::sltu(-1, 0);}, "sltu, false");
expect<bool>(true, []{return I::sltu(0, -1);}, "sltu, true");
// XOR
expect<uint64_t>(-1,
[]{return I::xor_inst(0xAAAAAAAAAAAAAAAAULL,
0x5555555555555555ULL);},
"xor (1)");
expect<uint64_t>(0,
[]{return I::xor_inst(0xAAAAAAAAAAAAAAAAULL,
0xAAAAAAAAAAAAAAAAULL);},
"xor (0)");
// SRL
expect<uint64_t>(255, []{return I::srl(65280, 8);}, "srl, general");
expect<uint64_t>(0, []{return I::srl(255, 8);}, "srl, erase");
expect<uint64_t>(1, []{return I::srl(numeric_limits<int64_t>::min(), 63);},
"srl, negative");
// SRA
expect<int64_t>(255, []{return I::sra(65280, 8);}, "sra, general");
expect<int64_t>(0, []{return I::sra(255, 8);}, "sra, erase");
expect<int64_t>(-1, []{return I::sra(numeric_limits<int64_t>::min(), 63);},
"sra, negative");
// OR
expect<uint64_t>(-1,
[]{return I::or_inst(0xAAAAAAAAAAAAAAAAULL,
0x5555555555555555ULL);},
"or (1)");
expect<uint64_t>(0xAAAAAAAAAAAAAAAAULL,
[]{return I::or_inst(0xAAAAAAAAAAAAAAAAULL,
0xAAAAAAAAAAAAAAAAULL);},
"or (A)");
// AND
expect<uint64_t>(0, []{return I::and_inst(-1, 0);}, "and (0)");
expect<uint64_t>(0x1234567812345678ULL,
[]{return I::and_inst(0x1234567812345678ULL, -1);}, "and (-1)");
// FENCE/FENCE.I
asm volatile("fence" : : );
asm volatile("fence.i" : : );
// ECALL
char fname[] = "test.txt";
char teststr[] = "this is a test";
expect<bool>(true, [=]{
int fd = open(fname, O_CREAT | O_WRONLY | O_TRUNC, 0644);
if (fd < 0) {
return false;
}
size_t n = write(fd, teststr, sizeof(teststr));
cout << "Bytes written: " << n << endl;
return close(fd) >= 0 && n > 0;
}, "open, write");
expect<int>(0, [=]{return access(fname, F_OK);}, "access F_OK");
expect<int>(0, [=]{return access(fname, R_OK);}, "access R_OK");
expect<int>(0, [=]{return access(fname, W_OK);}, "access W_OK");
// gem5's implementation of access is incorrect; it should return
// -1 on failure, not -errno. Account for this using an inequality.
expect<bool>(true, [=]{return access(fname, X_OK) != 0;}, "access X_OK");
expect<bool>(true, [=]{
struct stat stat_buf, fstat_buf;
int s = stat(fname, &stat_buf);
if (s < 0) {
return false;
} else {
cout << "stat:" << endl;
cout << "\tst_dev =\t" << stat_buf.st_dev << endl;
cout << "\tst_ino =\t" << stat_buf.st_ino << endl;
cout << "\tst_mode =\t" << stat_buf.st_mode << endl;
cout << "\tst_nlink =\t" << stat_buf.st_nlink << endl;
cout << "\tst_uid =\t" << stat_buf.st_uid << endl;
cout << "\tst_gid =\t" << stat_buf.st_gid << endl;
cout << "\tst_rdev =\t" << stat_buf.st_rdev << endl;
cout << "\tst_size =\t" << stat_buf.st_size << endl;
cout << "\tst_blksize =\t" << stat_buf.st_blksize << endl;
cout << "\tst_blocks =\t" << stat_buf.st_blocks << endl;
}
int fd = open(fname, O_RDONLY);
if (fd < 0) {
return false;
}
int f = fstat(fd, &fstat_buf);
if (f >= 0) {
cout << "fstat:" << endl;
cout << "\tst_dev =\t" << fstat_buf.st_dev << endl;
cout << "\tst_ino =\t" << fstat_buf.st_ino << endl;
cout << "\tst_mode =\t" << fstat_buf.st_mode << endl;
cout << "\tst_nlink =\t" << fstat_buf.st_nlink << endl;
cout << "\tst_uid =\t" << fstat_buf.st_uid << endl;
cout << "\tst_gid =\t" << fstat_buf.st_gid << endl;
cout << "\tst_rdev =\t" << fstat_buf.st_rdev << endl;
cout << "\tst_size =\t" << fstat_buf.st_size << endl;
cout << "\tst_blksize =\t" << fstat_buf.st_blksize << endl;
cout << "\tst_blocks =\t" << fstat_buf.st_blocks << endl;
}
return close(fd) >= 0 && f >= 0;
}, "open, stat");
expect<bool>(true, [=]{
int fd = open(fname, O_RDONLY);
if (fd < 0) {
return false;
}
char in[128];
size_t n = read(fd, in, sizeof(in));
cout << "Bytes read: " << n << endl;
cout << "String read: " << in << endl;
int cl = close(fd);
int un = unlink(fname);
return n > 0 && cl >= 0 && un >= 0 && strcmp(teststr, in) == 0;
}, "open, read, unlink");
expect<bool>(true, []{
struct tms buf;
clock_t t = times(&buf);
cout << "times:" << endl;
cout << "\ttms_utime =\t" << buf.tms_utime << endl;
cout << "\ttms_stime =\t" << buf.tms_stime << endl;
cout << "\ttms_cutime =\t" << buf.tms_cutime << endl;
cout << "\ttms_cstime =\t" << buf.tms_cstime << endl;
return t > 0;
}, "times");
expect<int>(0, []{
struct timeval time;
int res = gettimeofday(&time, nullptr);
cout << "timeval:" << endl;
cout << "\ttv_sec =\t" << time.tv_sec << endl;
cout << "\ttv_usec =\t" << time.tv_usec << endl;
return res;
}, "gettimeofday");
// EBREAK not tested because it only makes sense in FS mode or when
// using gdb
// ERET not tested because it only makes sense in FS mode and will cause
// a panic when used in SE mode
// CSRs (RDCYCLE, RDTIME, RDINSTRET)
expect<bool>(true, []{
uint64_t cycles = 0;
asm("rdcycle %0" : "=r" (cycles));
cout << "Cycles: " << cycles << endl;
return cycles > 0;
}, "rdcycle");
expect<bool>(true, []{
uint64_t time = 0;
asm("rdtime %0" : "=r" (time));
cout << "Time: " << time << endl;
return time > 0;
}, "rdtime");
expect<bool>(true, []{
uint64_t instret = 0;
asm("rdinstret %0" : "=r" (instret));
cout << "Instructions Retired: " << instret << endl;
return instret > 0;
}, "rdinstret");
// 64-bit memory (LWU, LD, SD)
expect<int64_t>(0xFFFFFFFF, []{return I::load<uint32_t, uint64_t>(-1);},
"lwu");
expect<int64_t>(30064771072,
[]{return I::load<int64_t, int64_t>(30064771072);}, "ld");
expect<uint64_t>(-1, []{return I::store<int64_t>(-1);}, "sd");
// ADDIW
expect<int64_t>(268435710, []{return I::addiw(0x0FFFFFFF, 255);}, "addiw");
expect<int64_t>(-2147481602, []{return I::addiw(0x7FFFFFFF, 0x7FF);},
"addiw, overflow");
expect<int64_t>(0, []{return I::addiw(0x7FFFFFFFFFFFFFFFLL, 1);},
"addiw, truncate");
// SLLIW
expect<int64_t>(65280, []{return I::slliw(255, 8);}, "slliw, general");
expect<int64_t>(numeric_limits<int32_t>::min(),
[]{return I::slliw(255, 31);}, "slliw, erase");
expect<int64_t>(numeric_limits<int32_t>::min(),
[]{return I::slliw(0xFFFFFFFF00800000LL, 8);}, "slliw, truncate");
// SRLIW
expect<int64_t>(255, []{return I::srliw(65280, 8);}, "srliw, general");
expect<int64_t>(0, []{return I::srliw(255, 8);}, "srliw, erase");
expect<int64_t>(1,
[]{return I::srliw(numeric_limits<int32_t>::min(), 31);},
"srliw, negative");
expect<int64_t>(1, []{return I::srliw(0xFFFFFFFF80000000LL, 31);},
"srliw, truncate");
// SRAIW
expect<int64_t>(255, []{return I::sraiw(65280, 8);}, "sraiw, general");
expect<int64_t>(0, []{return I::sraiw(255, 8);}, "sraiw, erase");
expect<int64_t>(-1,
[]{return I::sraiw(numeric_limits<int32_t>::min(), 31);},
"sraiw, negative");
expect<int64_t>(-1, []{return I::sraiw(0x0000000180000000LL, 31);},
"sraiw, truncate");
// ADDW
expect<int64_t>(1073742078, []{return I::addw(0x3FFFFFFF, 255);}, "addw");
expect<int64_t>(-1, []{return I::addw(0x7FFFFFFF, 0x80000000);},
"addw, overflow");
expect<int64_t>(65536, []{return I::addw(0xFFFFFFFF0000FFFFLL, 1);},
"addw, truncate");
// SUBW
expect<int64_t>(65535, []{return I::subw(65536, 1);}, "subw");
expect<int64_t>(-1, []{return I::subw(0x7FFFFFFF, 0x80000000);},
"subw, \"overflow\"");
expect<int64_t>(0,
[]{return I::subw(0xAAAAAAAAFFFFFFFFULL, 0x55555555FFFFFFFFULL);},
"subw, truncate");
// SLLW
expect<int64_t>(65280, []{return I::sllw(255, 8);}, "sllw, general");
expect<int64_t>(numeric_limits<int32_t>::min(),
[]{return I::sllw(255, 31);}, "sllw, erase");
expect<int64_t>(numeric_limits<int32_t>::min(),
[]{return I::sllw(0xFFFFFFFF00008000LL, 16);}, "sllw, truncate");
// SRLW
expect<uint64_t>(255, []{return I::srlw(65280, 8);}, "srlw, general");
expect<uint64_t>(0, []{return I::srlw(255, 8);}, "srlw, erase");
expect<uint64_t>(1,
[]{return I::srlw(numeric_limits<int32_t>::min(), 31);},
"srlw, negative");
expect<uint64_t>(1, []{return I::srlw(0x0000000180000000LL, 31);},
"srlw, truncate");
// SRAW
expect<int64_t>(255, []{return I::sraw(65280, 8);}, "sraw, general");
expect<int64_t>(0, []{return I::sraw(255, 8);}, "sraw, erase");
expect<int64_t>(-1,
[]{return I::sraw(numeric_limits<int32_t>::min(), 31);},
"sraw, negative");
expect<int64_t>(1, []{return I::sraw(0xFFFFFFFF40000000LL, 30);},
"sraw, truncate");
return 0;
}
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