775 lines
23 KiB
Rust
775 lines
23 KiB
Rust
extern crate alloc;
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use alloc::rc::Rc;
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use core::cell::RefCell;
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use unicorn_engine::unicorn_const::{
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uc_error, Arch, HookType, MemType, Mode, Permission, SECOND_SCALE,
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};
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use unicorn_engine::{InsnSysX86, RegisterARM, RegisterMIPS, RegisterPPC, RegisterX86, Unicorn};
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pub static X86_REGISTERS: [RegisterX86; 125] = [
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RegisterX86::AH,
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RegisterX86::AL,
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RegisterX86::AX,
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RegisterX86::BH,
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RegisterX86::BL,
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RegisterX86::BP,
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RegisterX86::BPL,
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RegisterX86::BX,
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RegisterX86::CH,
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RegisterX86::CL,
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RegisterX86::CS,
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RegisterX86::CX,
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RegisterX86::DH,
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RegisterX86::DI,
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RegisterX86::DIL,
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RegisterX86::DL,
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RegisterX86::DS,
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RegisterX86::DX,
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RegisterX86::EAX,
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RegisterX86::EBP,
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RegisterX86::EBX,
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RegisterX86::ECX,
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RegisterX86::EDI,
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RegisterX86::EDX,
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RegisterX86::EFLAGS,
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RegisterX86::EIP,
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RegisterX86::ES,
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RegisterX86::ESI,
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RegisterX86::ESP,
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RegisterX86::FPSW,
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RegisterX86::FS,
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RegisterX86::GS,
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RegisterX86::IP,
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RegisterX86::RAX,
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RegisterX86::RBP,
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RegisterX86::RBX,
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RegisterX86::RCX,
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RegisterX86::RDI,
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RegisterX86::RDX,
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RegisterX86::RIP,
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RegisterX86::RSI,
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RegisterX86::RSP,
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RegisterX86::SI,
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RegisterX86::SIL,
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RegisterX86::SP,
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RegisterX86::SPL,
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RegisterX86::SS,
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RegisterX86::CR0,
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RegisterX86::CR1,
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RegisterX86::CR2,
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RegisterX86::CR3,
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RegisterX86::CR4,
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RegisterX86::CR8,
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RegisterX86::DR0,
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RegisterX86::DR1,
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RegisterX86::DR2,
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RegisterX86::DR3,
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RegisterX86::DR4,
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RegisterX86::DR5,
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RegisterX86::DR6,
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RegisterX86::DR7,
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RegisterX86::FP0,
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RegisterX86::FP1,
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RegisterX86::FP2,
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RegisterX86::FP3,
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RegisterX86::FP4,
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RegisterX86::FP5,
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RegisterX86::FP6,
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RegisterX86::FP7,
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RegisterX86::K0,
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RegisterX86::K1,
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RegisterX86::K2,
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RegisterX86::K3,
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RegisterX86::K4,
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RegisterX86::K5,
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RegisterX86::K6,
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RegisterX86::K7,
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RegisterX86::MM0,
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RegisterX86::MM1,
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RegisterX86::MM2,
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RegisterX86::MM3,
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RegisterX86::MM4,
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RegisterX86::MM5,
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RegisterX86::MM6,
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RegisterX86::MM7,
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RegisterX86::R8,
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RegisterX86::R9,
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RegisterX86::R10,
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RegisterX86::R11,
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RegisterX86::R12,
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RegisterX86::R13,
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RegisterX86::R14,
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RegisterX86::R15,
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RegisterX86::ST0,
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RegisterX86::ST1,
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RegisterX86::ST2,
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RegisterX86::ST3,
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RegisterX86::ST4,
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RegisterX86::ST5,
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RegisterX86::ST6,
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RegisterX86::ST7,
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RegisterX86::R8B,
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RegisterX86::R9B,
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RegisterX86::R10B,
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RegisterX86::R11B,
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RegisterX86::R12B,
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RegisterX86::R13B,
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RegisterX86::R14B,
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RegisterX86::R15B,
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RegisterX86::R8D,
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RegisterX86::R9D,
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RegisterX86::R10D,
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RegisterX86::R11D,
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RegisterX86::R12D,
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RegisterX86::R13D,
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RegisterX86::R14D,
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RegisterX86::R15D,
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RegisterX86::R8W,
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RegisterX86::R9W,
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RegisterX86::R10W,
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RegisterX86::R11W,
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RegisterX86::R12W,
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RegisterX86::R13W,
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RegisterX86::R14W,
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RegisterX86::R15W,
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];
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#[test]
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fn emulate_x86() {
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let x86_code32: Vec<u8> = vec![0x41, 0x4a]; // INC ecx; DEC edx
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let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
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.expect("failed to initialize unicorn instance");
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assert_eq!(emu.reg_write(RegisterX86::EAX, 123), Ok(()));
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assert_eq!(emu.reg_read(RegisterX86::EAX), Ok(123));
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// Attempt to write to memory before mapping it.
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assert_eq!(
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emu.mem_write(0x1000, &x86_code32),
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(Err(uc_error::WRITE_UNMAPPED))
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);
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assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
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assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
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assert_eq!(
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emu.mem_read_as_vec(0x1000, x86_code32.len()),
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Ok(x86_code32.clone())
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);
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assert_eq!(emu.reg_write(RegisterX86::ECX, 10), Ok(()));
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assert_eq!(emu.reg_write(RegisterX86::EDX, 50), Ok(()));
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assert_eq!(
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emu.emu_start(
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0x1000,
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(0x1000 + x86_code32.len()) as u64,
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10 * SECOND_SCALE,
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1000
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),
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Ok(())
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);
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assert_eq!(emu.reg_read(RegisterX86::ECX), Ok(11));
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assert_eq!(emu.reg_read(RegisterX86::EDX), Ok(49));
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}
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#[test]
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fn x86_code_callback() {
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#[derive(PartialEq, Debug)]
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struct CodeExpectation(u64, u32);
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let expects = vec![CodeExpectation(0x1000, 1), CodeExpectation(0x1001, 1)];
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let codes: Vec<CodeExpectation> = Vec::new();
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let codes_cell = Rc::new(RefCell::new(codes));
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let callback_codes = codes_cell.clone();
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let callback = move |_: &mut Unicorn<'_, ()>, address: u64, size: u32| {
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let mut codes = callback_codes.borrow_mut();
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codes.push(CodeExpectation(address, size));
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};
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let x86_code32: Vec<u8> = vec![0x41, 0x4a]; // INC ecx; DEC edx
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let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
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.expect("failed to initialize unicorn instance");
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assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
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assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
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let hook = emu
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.add_code_hook(0x1000, 0x2000, callback)
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.expect("failed to add code hook");
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assert_eq!(
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emu.emu_start(0x1000, 0x1002, 10 * SECOND_SCALE, 1000),
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Ok(())
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);
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assert_eq!(expects, *codes_cell.borrow());
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assert_eq!(emu.remove_hook(hook), Ok(()));
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}
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#[test]
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fn x86_intr_callback() {
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#[derive(PartialEq, Debug)]
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struct IntrExpectation(u32);
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let expect = IntrExpectation(0x80);
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let intr_cell = Rc::new(RefCell::new(IntrExpectation(0)));
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let callback_intr = intr_cell.clone();
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let callback = move |_: &mut Unicorn<'_, ()>, intno: u32| {
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*callback_intr.borrow_mut() = IntrExpectation(intno);
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};
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let x86_code32: Vec<u8> = vec![0xcd, 0x80]; // INT 0x80;
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let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
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.expect("failed to initialize unicorn instance");
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assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
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assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
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let hook = emu
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.add_intr_hook(callback)
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.expect("failed to add intr hook");
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assert_eq!(
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emu.emu_start(
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0x1000,
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0x1000 + x86_code32.len() as u64,
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10 * SECOND_SCALE,
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1000
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),
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Ok(())
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);
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assert_eq!(expect, *intr_cell.borrow());
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assert_eq!(emu.remove_hook(hook), Ok(()));
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}
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#[test]
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fn x86_mem_callback() {
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#[derive(PartialEq, Debug)]
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struct MemExpectation(MemType, u64, usize, i64);
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let expects = vec![
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MemExpectation(MemType::WRITE, 0x2000, 4, 0xdeadbeef),
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MemExpectation(MemType::READ_UNMAPPED, 0x10000, 4, 0),
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MemExpectation(MemType::READ, 0x10000, 4, 0),
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];
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let mems: Vec<MemExpectation> = Vec::new();
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let mems_cell = Rc::new(RefCell::new(mems));
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let callback_mems = mems_cell.clone();
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let callback = move |uc: &mut Unicorn<'_, ()>,
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mem_type: MemType,
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address: u64,
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size: usize,
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value: i64| {
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let mut mems = callback_mems.borrow_mut();
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mems.push(MemExpectation(mem_type, address, size, value));
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if mem_type == MemType::READ_UNMAPPED {
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uc.mem_map(address, 0x1000, Permission::ALL).unwrap();
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}
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true
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};
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// mov eax, 0xdeadbeef;
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// mov [0x2000], eax;
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// mov eax, [0x10000];
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let x86_code32: Vec<u8> = vec![
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0xB8, 0xEF, 0xBE, 0xAD, 0xDE, 0xA3, 0x00, 0x20, 0x00, 0x00, 0xA1, 0x00, 0x00, 0x01, 0x00,
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];
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let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
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.expect("failed to initialize unicorn instance");
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assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
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assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
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let hook = emu
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.add_mem_hook(HookType::MEM_ALL, 0, u64::MAX, callback)
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.expect("failed to add memory hook");
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assert_eq!(emu.reg_write(RegisterX86::EAX, 0x123), Ok(()));
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assert_eq!(
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emu.emu_start(
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0x1000,
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0x1000 + x86_code32.len() as u64,
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10 * SECOND_SCALE,
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0x1000
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),
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Ok(())
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);
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assert_eq!(expects, *mems_cell.borrow());
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assert_eq!(emu.remove_hook(hook), Ok(()));
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}
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#[test]
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fn x86_insn_in_callback() {
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#[derive(PartialEq, Debug)]
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struct InsnInExpectation(u32, usize);
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let expect = InsnInExpectation(0x10, 4);
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let insn_cell = Rc::new(RefCell::new(InsnInExpectation(0, 0)));
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let callback_insn = insn_cell.clone();
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let callback = move |_: &mut Unicorn<()>, port: u32, size: usize| {
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*callback_insn.borrow_mut() = InsnInExpectation(port, size);
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42
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};
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let x86_code32: Vec<u8> = vec![0xe5, 0x10]; // IN eax, 0x10;
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let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
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.expect("failed to initialize unicorn instance");
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assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
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assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
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let hook = emu
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.add_insn_in_hook(callback)
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.expect("failed to add in hook");
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assert_eq!(
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emu.emu_start(
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0x1000,
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0x1000 + x86_code32.len() as u64,
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10 * SECOND_SCALE,
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1000
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),
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Ok(())
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);
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assert_eq!(expect, *insn_cell.borrow());
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assert_eq!(emu.reg_read(RegisterX86::EAX), Ok(42));
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assert_eq!(emu.remove_hook(hook), Ok(()));
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}
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#[test]
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fn x86_insn_out_callback() {
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#[derive(PartialEq, Debug)]
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struct InsnOutExpectation(u32, usize, u32);
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let expect = InsnOutExpectation(0x46, 1, 0x32);
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let insn_cell = Rc::new(RefCell::new(InsnOutExpectation(0, 0, 0)));
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let callback_insn = insn_cell.clone();
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let callback = move |_: &mut Unicorn<'_, ()>, port: u32, size: usize, value: u32| {
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*callback_insn.borrow_mut() = InsnOutExpectation(port, size, value);
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};
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let x86_code32: Vec<u8> = vec![0xb0, 0x32, 0xe6, 0x46]; // MOV al, 0x32; OUT 0x46, al;
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let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
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.expect("failed to initialize unicorn instance");
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assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
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assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
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let hook = emu
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.add_insn_out_hook(callback)
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.expect("failed to add out hook");
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assert_eq!(
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emu.emu_start(
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0x1000,
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0x1000 + x86_code32.len() as u64,
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10 * SECOND_SCALE,
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1000
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),
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Ok(())
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);
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assert_eq!(expect, *insn_cell.borrow());
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assert_eq!(emu.remove_hook(hook), Ok(()));
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}
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#[test]
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fn x86_insn_sys_callback() {
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#[derive(PartialEq, Debug)]
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struct InsnSysExpectation(u64);
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let expect = InsnSysExpectation(0xdeadbeef);
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let insn_cell = Rc::new(RefCell::new(InsnSysExpectation(0)));
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let callback_insn = insn_cell.clone();
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let callback = move |uc: &mut Unicorn<'_, ()>| {
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println!("!!!!");
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let rax = uc.reg_read(RegisterX86::RAX).unwrap();
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*callback_insn.borrow_mut() = InsnSysExpectation(rax);
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};
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// MOV rax, 0xdeadbeef; SYSCALL;
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let x86_code: Vec<u8> = vec![
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0x48, 0xB8, 0xEF, 0xBE, 0xAD, 0xDE, 0x00, 0x00, 0x00, 0x00, 0x0F, 0x05,
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];
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let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_64)
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.expect("failed to initialize unicorn instance");
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assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
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assert_eq!(emu.mem_write(0x1000, &x86_code), Ok(()));
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let hook = emu
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.add_insn_sys_hook(InsnSysX86::SYSCALL, 1, 0, callback)
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.expect("failed to add syscall hook");
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assert_eq!(
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emu.emu_start(
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0x1000,
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0x1000 + x86_code.len() as u64,
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10 * SECOND_SCALE,
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1000
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),
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Ok(())
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);
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assert_eq!(expect, *insn_cell.borrow());
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assert_eq!(emu.remove_hook(hook), Ok(()));
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}
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#[test]
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fn x86_mmio() {
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#[derive(PartialEq, Debug)]
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struct MmioReadExpectation(u64, usize);
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#[derive(PartialEq, Debug)]
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struct MmioWriteExpectation(u64, usize, u64);
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let read_expect = MmioReadExpectation(4, 4);
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let write_expect = MmioWriteExpectation(8, 2, 42);
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let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_64)
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.expect("failed to initialize unicorn instance");
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assert_eq!(emu.mem_map(0x1000, 0x1000, Permission::ALL), Ok(()));
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{
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// MOV eax, [0x2004]; MOV [0x2008], ax;
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let x86_code: Vec<u8> = vec![
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0x8B, 0x04, 0x25, 0x04, 0x20, 0x00, 0x00, 0x66, 0x89, 0x04, 0x25, 0x08, 0x20, 0x00,
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0x00,
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];
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let read_cell = Rc::new(RefCell::new(MmioReadExpectation(0, 0)));
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let cb_read_cell = read_cell.clone();
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let read_callback = move |_: &mut Unicorn<'_, ()>, offset, size| {
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*cb_read_cell.borrow_mut() = MmioReadExpectation(offset, size);
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42
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};
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let write_cell = Rc::new(RefCell::new(MmioWriteExpectation(0, 0, 0)));
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let cb_write_cell = write_cell.clone();
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let write_callback = move |_: &mut Unicorn<'_, ()>, offset, size, value| {
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*cb_write_cell.borrow_mut() = MmioWriteExpectation(offset, size, value);
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};
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assert_eq!(emu.mem_write(0x1000, &x86_code), Ok(()));
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assert_eq!(
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emu.mmio_map(0x2000, 0x1000, Some(read_callback), Some(write_callback)),
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Ok(())
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);
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assert_eq!(
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emu.emu_start(
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0x1000,
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0x1000 + x86_code.len() as u64,
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10 * SECOND_SCALE,
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1000
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),
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Ok(())
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);
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assert_eq!(read_expect, *read_cell.borrow());
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assert_eq!(write_expect, *write_cell.borrow());
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assert_eq!(emu.mem_unmap(0x2000, 0x1000), Ok(()));
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}
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{
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// MOV eax, [0x2004];
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|
let x86_code: Vec<u8> = vec![0x8B, 0x04, 0x25, 0x04, 0x20, 0x00, 0x00];
|
|
|
|
let read_cell = Rc::new(RefCell::new(MmioReadExpectation(0, 0)));
|
|
let cb_read_cell = read_cell.clone();
|
|
let read_callback = move |_: &mut Unicorn<'_, ()>, offset, size| {
|
|
*cb_read_cell.borrow_mut() = MmioReadExpectation(offset, size);
|
|
42
|
|
};
|
|
|
|
assert_eq!(emu.mem_write(0x1000, &x86_code), Ok(()));
|
|
|
|
assert_eq!(emu.mmio_map_ro(0x2000, 0x1000, read_callback), Ok(()));
|
|
|
|
assert_eq!(
|
|
emu.emu_start(
|
|
0x1000,
|
|
0x1000 + x86_code.len() as u64,
|
|
10 * SECOND_SCALE,
|
|
1000
|
|
),
|
|
Ok(())
|
|
);
|
|
|
|
assert_eq!(read_expect, *read_cell.borrow());
|
|
|
|
assert_eq!(emu.mem_unmap(0x2000, 0x1000), Ok(()));
|
|
}
|
|
|
|
{
|
|
// MOV ax, 42; MOV [0x2008], ax;
|
|
let x86_code: Vec<u8> = vec![
|
|
0x66, 0xB8, 0x2A, 0x00, 0x66, 0x89, 0x04, 0x25, 0x08, 0x20, 0x00, 0x00,
|
|
];
|
|
|
|
let write_cell = Rc::new(RefCell::new(MmioWriteExpectation(0, 0, 0)));
|
|
let cb_write_cell = write_cell.clone();
|
|
let write_callback = move |_: &mut Unicorn<'_, ()>, offset, size, value| {
|
|
*cb_write_cell.borrow_mut() = MmioWriteExpectation(offset, size, value);
|
|
};
|
|
|
|
assert_eq!(emu.mem_write(0x1000, &x86_code), Ok(()));
|
|
|
|
assert_eq!(emu.mmio_map_wo(0x2000, 0x1000, write_callback), Ok(()));
|
|
|
|
assert_eq!(
|
|
emu.emu_start(
|
|
0x1000,
|
|
0x1000 + x86_code.len() as u64,
|
|
10 * SECOND_SCALE,
|
|
1000
|
|
),
|
|
Ok(())
|
|
);
|
|
|
|
assert_eq!(write_expect, *write_cell.borrow());
|
|
|
|
assert_eq!(emu.mem_unmap(0x2000, 0x1000), Ok(()));
|
|
}
|
|
}
|
|
|
|
#[test]
|
|
fn emulate_arm() {
|
|
let arm_code32: Vec<u8> = vec![0x83, 0xb0]; // sub sp, #0xc
|
|
|
|
let mut emu = unicorn_engine::Unicorn::new(Arch::ARM, Mode::THUMB)
|
|
.expect("failed to initialize unicorn instance");
|
|
assert_eq!(emu.reg_write(RegisterARM::R1, 123), Ok(()));
|
|
assert_eq!(emu.reg_read(RegisterARM::R1), Ok(123));
|
|
|
|
// Attempt to write to memory before mapping it.
|
|
assert_eq!(
|
|
emu.mem_write(0x1000, &arm_code32),
|
|
(Err(uc_error::WRITE_UNMAPPED))
|
|
);
|
|
|
|
assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
|
|
assert_eq!(emu.mem_write(0x1000, &arm_code32), Ok(()));
|
|
assert_eq!(
|
|
emu.mem_read_as_vec(0x1000, arm_code32.len()),
|
|
Ok(arm_code32.clone())
|
|
);
|
|
|
|
assert_eq!(emu.reg_write(RegisterARM::SP, 12), Ok(()));
|
|
assert_eq!(emu.reg_write(RegisterARM::R0, 10), Ok(()));
|
|
|
|
// ARM checks the least significant bit of the address to know
|
|
// if the code is in Thumb mode.
|
|
assert_eq!(
|
|
emu.emu_start(
|
|
0x1000 | 0x01,
|
|
(0x1000 | (0x01 + arm_code32.len())) as u64,
|
|
10 * SECOND_SCALE,
|
|
1000
|
|
),
|
|
Ok(())
|
|
);
|
|
assert_eq!(emu.reg_read(RegisterARM::SP), Ok(0));
|
|
assert_eq!(emu.reg_read(RegisterARM::R0), Ok(10));
|
|
}
|
|
|
|
#[test]
|
|
fn emulate_mips() {
|
|
let mips_code32 = vec![0x56, 0x34, 0x21, 0x34]; // ori $at, $at, 0x3456;
|
|
|
|
let mut emu = unicorn_engine::Unicorn::new(Arch::MIPS, Mode::MODE_32)
|
|
.expect("failed to initialize unicorn instance");
|
|
assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
|
|
assert_eq!(emu.mem_write(0x1000, &mips_code32), Ok(()));
|
|
assert_eq!(
|
|
emu.mem_read_as_vec(0x1000, mips_code32.len()),
|
|
Ok(mips_code32.clone())
|
|
);
|
|
assert_eq!(emu.reg_write(RegisterMIPS::AT, 0), Ok(()));
|
|
assert_eq!(
|
|
emu.emu_start(
|
|
0x1000,
|
|
(0x1000 + mips_code32.len()) as u64,
|
|
10 * SECOND_SCALE,
|
|
1000
|
|
),
|
|
Ok(())
|
|
);
|
|
assert_eq!(emu.reg_read(RegisterMIPS::AT), Ok(0x3456));
|
|
}
|
|
|
|
#[test]
|
|
fn emulate_ppc() {
|
|
let ppc_code32 = vec![0x7F, 0x46, 0x1A, 0x14]; // add 26, 6, 3
|
|
|
|
let mut emu = unicorn_engine::Unicorn::new(Arch::PPC, Mode::PPC32 | Mode::BIG_ENDIAN)
|
|
.expect("failed to initialize unicorn instance");
|
|
assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
|
|
assert_eq!(emu.mem_write(0x1000, &ppc_code32), Ok(()));
|
|
assert_eq!(
|
|
emu.mem_read_as_vec(0x1000, ppc_code32.len()),
|
|
Ok(ppc_code32.clone())
|
|
);
|
|
assert_eq!(emu.reg_write(RegisterPPC::R3, 42), Ok(()));
|
|
assert_eq!(emu.reg_write(RegisterPPC::R6, 1337), Ok(()));
|
|
assert_eq!(
|
|
emu.emu_start(
|
|
0x1000,
|
|
(0x1000 + ppc_code32.len()) as u64,
|
|
10 * SECOND_SCALE,
|
|
1000
|
|
),
|
|
Ok(())
|
|
);
|
|
assert_eq!(emu.reg_read(RegisterPPC::R26), Ok(1379));
|
|
}
|
|
|
|
#[test]
|
|
fn mem_unmapping() {
|
|
let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
|
|
.expect("failed to initialize unicorn instance");
|
|
assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
|
|
assert_eq!(emu.mem_unmap(0x1000, 0x4000), Ok(()));
|
|
}
|
|
|
|
#[test]
|
|
fn mem_map_ptr() {
|
|
// Use an array for the emulator memory.
|
|
let mut mem: [u8; 4000] = [0; 4000];
|
|
let x86_code32: Vec<u8> = vec![0x41, 0x4a]; // INC ecx; DEC edx
|
|
|
|
let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
|
|
.expect("failed to initialize unicorn instance");
|
|
|
|
// Attempt to write to memory before mapping it.
|
|
assert_eq!(
|
|
emu.mem_write(0x1000, &x86_code32),
|
|
(Err(uc_error::WRITE_UNMAPPED))
|
|
);
|
|
|
|
assert_eq!(
|
|
unsafe { emu.mem_map_ptr(0x1000, 0x4000, Permission::ALL, mem.as_mut_ptr() as _) },
|
|
Ok(())
|
|
);
|
|
assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
|
|
assert_eq!(
|
|
emu.mem_read_as_vec(0x1000, x86_code32.len()),
|
|
Ok(x86_code32.clone())
|
|
);
|
|
|
|
assert_eq!(emu.reg_write(RegisterX86::ECX, 10), Ok(()));
|
|
assert_eq!(emu.reg_write(RegisterX86::EDX, 50), Ok(()));
|
|
|
|
assert_eq!(
|
|
emu.emu_start(
|
|
0x1000,
|
|
(0x1000 + x86_code32.len()) as u64,
|
|
10 * SECOND_SCALE,
|
|
1000
|
|
),
|
|
Ok(())
|
|
);
|
|
assert_eq!(emu.reg_read(RegisterX86::ECX), Ok(11));
|
|
assert_eq!(emu.reg_read(RegisterX86::EDX), Ok(49));
|
|
assert_eq!(emu.mem_unmap(0x1000, 0x4000), Ok(()));
|
|
|
|
// Use a Vec for the emulator memory.
|
|
let mut mem: Vec<u8> = Vec::new();
|
|
mem.reserve(4000);
|
|
|
|
// Attempt to write to memory before mapping it.
|
|
assert_eq!(
|
|
emu.mem_write(0x1000, &x86_code32),
|
|
(Err(uc_error::WRITE_UNMAPPED))
|
|
);
|
|
|
|
assert_eq!(
|
|
unsafe { emu.mem_map_ptr(0x1000, 0x4000, Permission::ALL, mem.as_mut_ptr() as _) },
|
|
Ok(())
|
|
);
|
|
assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
|
|
assert_eq!(
|
|
emu.mem_read_as_vec(0x1000, x86_code32.len()),
|
|
Ok(x86_code32.clone())
|
|
);
|
|
|
|
assert_eq!(emu.reg_write(RegisterX86::ECX, 10), Ok(()));
|
|
assert_eq!(emu.reg_write(RegisterX86::EDX, 50), Ok(()));
|
|
|
|
assert_eq!(
|
|
emu.emu_start(
|
|
0x1000,
|
|
(0x1000 + x86_code32.len()) as u64,
|
|
10 * SECOND_SCALE,
|
|
1000
|
|
),
|
|
Ok(())
|
|
);
|
|
assert_eq!(emu.reg_read(RegisterX86::ECX), Ok(11));
|
|
assert_eq!(emu.reg_read(RegisterX86::EDX), Ok(49));
|
|
assert_eq!(emu.mem_unmap(0x1000, 0x4000), Ok(()));
|
|
}
|
|
|
|
#[test]
|
|
fn x86_context_save_and_restore() {
|
|
for mode in [Mode::MODE_32, Mode::MODE_64] {
|
|
let x86_code = [
|
|
0x48, 0xB8, 0xEF, 0xBE, 0xAD, 0xDE, 0x00, 0x00, 0x00, 0x00, 0x0F, 0x05,
|
|
];
|
|
let mut emu = unicorn_engine::Unicorn::new(Arch::X86, mode)
|
|
.expect("failed to initialize unicorn instance");
|
|
assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
|
|
assert_eq!(emu.mem_write(0x1000, &x86_code), Ok(()));
|
|
let _ = emu.emu_start(
|
|
0x1000,
|
|
(0x1000 + x86_code.len()) as u64,
|
|
10 * SECOND_SCALE,
|
|
1000,
|
|
);
|
|
|
|
/* now, save the context... */
|
|
let context = emu.context_init();
|
|
let context = context.unwrap();
|
|
|
|
/* and create a new emulator, into which we will "restore" that context */
|
|
let emu2 = unicorn_engine::Unicorn::new(Arch::X86, mode)
|
|
.expect("failed to initialize unicorn instance");
|
|
assert_eq!(emu2.context_restore(&context), Ok(()));
|
|
for register in X86_REGISTERS.iter() {
|
|
println!("Testing register {:?}", register);
|
|
assert_eq!(emu2.reg_read(*register), emu.reg_read(*register));
|
|
}
|
|
}
|
|
}
|
|
|
|
#[test]
|
|
fn x86_block_callback() {
|
|
#[derive(PartialEq, Debug)]
|
|
struct BlockExpectation(u64, u32);
|
|
let expects = vec![BlockExpectation(0x1000, 2)];
|
|
let blocks: Vec<BlockExpectation> = Vec::new();
|
|
let blocks_cell = Rc::new(RefCell::new(blocks));
|
|
|
|
let callback_blocks = blocks_cell.clone();
|
|
let callback = move |_: &mut Unicorn<'_, ()>, address: u64, size: u32| {
|
|
let mut blocks = callback_blocks.borrow_mut();
|
|
blocks.push(BlockExpectation(address, size));
|
|
};
|
|
|
|
let x86_code32: Vec<u8> = vec![0x41, 0x4a]; // INC ecx; DEC edx
|
|
|
|
let mut emu = unicorn_engine::Unicorn::new(Arch::X86, Mode::MODE_32)
|
|
.expect("failed to initialize unicorn instance");
|
|
assert_eq!(emu.mem_map(0x1000, 0x4000, Permission::ALL), Ok(()));
|
|
assert_eq!(emu.mem_write(0x1000, &x86_code32), Ok(()));
|
|
|
|
let hook = emu
|
|
.add_block_hook(callback)
|
|
.expect("failed to add block hook");
|
|
assert_eq!(
|
|
emu.emu_start(0x1000, 0x1002, 10 * SECOND_SCALE, 1000),
|
|
Ok(())
|
|
);
|
|
assert_eq!(expects, *blocks_cell.borrow());
|
|
assert_eq!(emu.remove_hook(hook), Ok(()));
|
|
}
|