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extern crate docopt;
#[macro_use] extern crate log;
extern crate env_logger;
extern crate rustc_serialize;
extern crate rustv;
extern crate time;
mod memory_tracker;
mod shareable_cache;
mod system;
use std::fs::File;
use std::io::Read;
use std::rc::Rc;
use std::cell::RefCell;
use docopt::Docopt;
use rustv::elfloader;
use rustv::isa;
use rustv::memory;
use rustv::memory::Mmu;
use rustv::simulator;
use memory_tracker::MemoryTracker;
use shareable_cache::ShareableCache;
use system::SyscallHandler;
const USAGE: &'static str = "
cacheracer - A F/OSS implementation of the CS 3410 CacheRacer
Usage:
cacheracer <program1> <program2>
Options:
-h --help Show this screen.
--version Show version.
";
#[derive(Debug, RustcDecodable)]
struct Args {
arg_program1: String,
arg_program2: String,
}
fn load_program<T: memory::Mmu>(memory: &mut memory::Memory,
mmu: &T, path: &str) -> isa::Address {
let mut f = File::open(path).unwrap();
let mut buffer = Vec::new();
f.read_to_end(&mut buffer).unwrap();
let elf = elfloader::ElfBinary::new("test", &buffer).unwrap();
let start = elf.file_header().entry as isa::Address;
for p in elf.section_headers() {
let name = elf.section_name(p);
if name == ".text" || name == ".sdata" || name == ".rodata" {
memory.write_segment(mmu, elf.section_data(p), p.addr as usize);
}
}
start
}
fn main() {
env_logger::init().unwrap();
let args: Args = Docopt::new(USAGE)
.and_then(|d| d.decode())
.unwrap_or_else(|e| e.exit());
let mmu = memory::IdentityMmu::new();
// TODO: account for word-vs-byte addressed. Use newtype pattern?
let mmu2 = memory::ReverseMmu::new(0x4000000);
let mut memory = memory::Memory::new(0x1000000);
let start1 = load_program(&mut memory, &mmu, &args.arg_program1);
let start2 = load_program(&mut memory, &mmu2, &args.arg_program2);
let memory = MemoryTracker::new(memory, 0x43, 0x42);
let memory_ref = Rc::new(RefCell::new(memory));
let cache = memory::DirectMappedCache::new(2, 64, memory_ref.clone());
let cache_ref = Rc::new(RefCell::new(cache));
let cache2 = memory::DirectMappedCache::new(2, 64, memory_ref.clone());
let cache2_ref = Rc::new(RefCell::new(cache2));
let (cache1, cache2) = ShareableCache::new(cache_ref.clone(), cache2_ref.clone());
let mut cores = vec![];
for i in 0..4 {
let mut core = simulator::Core::new(
i, start1, (0x100000 * (i + 1)) as u32, cache1.clone(),
Box::new(memory::IdentityMmu::new())
);
core.registers().write_word(isa::Register::X10, i as isa::Word);
cores.push(core);
let mut core = simulator::Core::new(
i, start2, (0x100000 * (i + 1)) as u32, cache2.clone(),
Box::new(memory::ReverseMmu::new(0x4000000))
);
core.registers().write_word(isa::Register::X10, i as isa::Word);
cores.push(core);
}
let steppable_caches = vec![cache_ref.clone() as memory::SharedMemory, cache2_ref];
let core_caches = vec![cache1, cache2];
let system = SyscallHandler::new(memory_ref.clone(), core_caches);
let mut simulator = simulator::Simulator::new(
cores, memory_ref.clone(), steppable_caches, system);
// let cycles = 0x1000000;
let cycles = 0x50000;
let start = time::precise_time_s();
simulator.run_max(cycles);
let end = time::precise_time_s();
println!("{} cycles in {:04} seconds ({} cycles/sec)", cycles, end - start, (cycles as f64) / (end - start));
let (p1, p2) = memory_ref.borrow().score();
println!("Program 1 bytes written: {}", p1);
println!("Program 2 bytes written: {}", p2);
}
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