#![allow(non_camel_case_types)] #![allow(dead_code)] use super::unicorn_const::*; use libc::{c_char, c_int}; use std::ffi::c_void; use std::pin::Pin; pub type uc_handle = *mut c_void; pub type uc_hook = *mut c_void; pub type uc_context = libc::size_t; extern "C" { pub fn uc_version(major: *mut u32, minor: *mut u32) -> u32; pub fn uc_arch_supported(arch: Arch) -> bool; pub fn uc_open(arch: Arch, mode: Mode, engine: *mut uc_handle) -> uc_error; pub fn uc_close(engine: uc_handle) -> uc_error; pub fn uc_context_free(mem: uc_context) -> uc_error; pub fn uc_errno(engine: uc_handle) -> uc_error; pub fn uc_strerror(error_code: uc_error) -> *const c_char; pub fn uc_reg_write(engine: uc_handle, regid: c_int, value: *const c_void) -> uc_error; pub fn uc_reg_read(engine: uc_handle, regid: c_int, value: *mut c_void) -> uc_error; pub fn uc_mem_write( engine: uc_handle, address: u64, bytes: *const u8, size: libc::size_t, ) -> uc_error; pub fn uc_mem_read( engine: uc_handle, address: u64, bytes: *mut u8, size: libc::size_t, ) -> uc_error; pub fn uc_mem_map(engine: uc_handle, address: u64, size: libc::size_t, perms: u32) -> uc_error; pub fn uc_mem_map_ptr( engine: uc_handle, address: u64, size: libc::size_t, perms: u32, ptr: *mut c_void, ) -> uc_error; pub fn uc_mem_unmap(engine: uc_handle, address: u64, size: libc::size_t) -> uc_error; pub fn uc_mem_protect( engine: uc_handle, address: u64, size: libc::size_t, perms: u32, ) -> uc_error; pub fn uc_mem_regions( engine: uc_handle, regions: *const *const MemRegion, count: *mut u32, ) -> uc_error; pub fn uc_emu_start( engine: uc_handle, begin: u64, until: u64, timeout: u64, count: libc::size_t, ) -> uc_error; pub fn uc_emu_stop(engine: uc_handle) -> uc_error; pub fn uc_hook_add( engine: uc_handle, hook: *mut uc_hook, hook_type: HookType, callback: *mut c_void, user_data: *mut c_void, begin: u64, end: u64, ... ) -> uc_error; pub fn uc_hook_del(engine: uc_handle, hook: uc_hook) -> uc_error; pub fn uc_query(engine: uc_handle, query_type: Query, result: *mut libc::size_t) -> uc_error; pub fn uc_context_alloc(engine: uc_handle, context: *mut uc_context) -> uc_error; pub fn uc_context_save(engine: uc_handle, context: uc_context) -> uc_error; pub fn uc_context_restore(engine: uc_handle, context: uc_context) -> uc_error; } pub struct CodeHook { pub unicorn: *mut crate::UnicornInner, pub callback: Box, } pub struct BlockHook { pub unicorn: *mut crate::UnicornInner, pub callback: Box, } pub struct MemHook { pub unicorn: *mut crate::UnicornInner, pub callback: Box, } pub struct InterruptHook { pub unicorn: *mut crate::UnicornInner, pub callback: Box, } pub struct InstructionInHook { pub unicorn: *mut crate::UnicornInner, pub callback: Box, } pub struct InstructionOutHook { pub unicorn: *mut crate::UnicornInner, pub callback: Box, } pub struct InstructionSysHook { pub unicorn: *mut crate::UnicornInner, pub callback: Box, } pub extern "C" fn code_hook_proxy( uc: uc_handle, address: u64, size: u32, user_data: *mut CodeHook, ) { let unicorn = unsafe { &mut *(*user_data).unicorn }; let callback = &mut unsafe { &mut *(*user_data).callback }; assert_eq!(uc, unicorn.uc); callback( crate::UnicornHandle { inner: unsafe { Pin::new_unchecked(unicorn) }, }, address, size, ); } pub extern "C" fn block_hook_proxy( uc: uc_handle, address: u64, size: u32, user_data: *mut BlockHook, ) { let unicorn = unsafe { &mut *(*user_data).unicorn }; let callback = &mut unsafe { &mut *(*user_data).callback }; assert_eq!(uc, unicorn.uc); callback( crate::UnicornHandle { inner: unsafe { Pin::new_unchecked(unicorn) }, }, address, size, ); } pub extern "C" fn mem_hook_proxy( uc: uc_handle, mem_type: MemType, address: u64, size: u32, value: i64, user_data: *mut MemHook, ) { let unicorn = unsafe { &mut *(*user_data).unicorn }; let callback = &mut unsafe { &mut *(*user_data).callback }; assert_eq!(uc, unicorn.uc); callback( crate::UnicornHandle { inner: unsafe { Pin::new_unchecked(unicorn) }, }, mem_type, address, size as usize, value, ); } pub extern "C" fn intr_hook_proxy(uc: uc_handle, value: u32, user_data: *mut InterruptHook) { let unicorn = unsafe { &mut *(*user_data).unicorn }; let callback = &mut unsafe { &mut *(*user_data).callback }; assert_eq!(uc, unicorn.uc); callback( crate::UnicornHandle { inner: unsafe { Pin::new_unchecked(unicorn) }, }, value, ); } pub extern "C" fn insn_in_hook_proxy( uc: uc_handle, port: u32, size: usize, user_data: *mut InstructionInHook, ) { let unicorn = unsafe { &mut *(*user_data).unicorn }; let callback = &mut unsafe { &mut *(*user_data).callback }; assert_eq!(uc, unicorn.uc); callback( crate::UnicornHandle { inner: unsafe { Pin::new_unchecked(unicorn) }, }, port, size, ); } pub extern "C" fn insn_out_hook_proxy( uc: uc_handle, port: u32, size: usize, value: u32, user_data: *mut InstructionOutHook, ) { let unicorn = unsafe { &mut *(*user_data).unicorn }; let callback = &mut unsafe { &mut *(*user_data).callback }; assert_eq!(uc, unicorn.uc); callback( crate::UnicornHandle { inner: unsafe { Pin::new_unchecked(unicorn) }, }, port, size, value, ); } pub extern "C" fn insn_sys_hook_proxy(uc: uc_handle, user_data: *mut InstructionSysHook) { let unicorn = unsafe { &mut *(*user_data).unicorn }; let callback = &mut unsafe { &mut *(*user_data).callback }; assert_eq!(uc, unicorn.uc); callback(crate::UnicornHandle { inner: unsafe { Pin::new_unchecked(unicorn) }, }); }