//! When calling this dynamic library with outside programs, //! outer programs may usually need to fetch string resource produced by Rust code. //! However it is impossible pass Rust string directly to outer program. //! //! This module provide **thread independent** string cache for resolving this issue. //! When we need pass string to outer programs, we push that string into this string as C-like format, //! then return its pointer to outer program. //! So that outside program can utilize it like calling C/C++ library. //! The only thing that outer programs should note is that this string is volatile, //! once they get it, they must dupliate it immediately before any futher calling to this dynamic library. use std::cell::RefCell; use std::ffi::{CString, CStr, c_char}; struct StringCache { msg: CString, } impl StringCache { fn new() -> Self { Self { msg: CString::new("").expect("empty string must be valid for CString"), } } pub fn set_msg(&mut self, msg: &str) { self.msg = CString::new(msg).expect("unexpected blank in string push into string cache"); } pub fn get_msg(&self) -> *const c_char { self.msg.as_ptr() } pub fn clear_msg(&mut self) { self.msg = CString::new("").expect("empty string must be valid for CString"); } } thread_local! { static STRING_CACHE: RefCell = RefCell::new(StringCache::new()); } /// Set thread local string exposed for C code. pub fn set_ffi_string(msg: &str) { STRING_CACHE.with(|e| { e.borrow_mut().set_msg(msg); }); } /// Get const pointer to thread local string exposed for C code. pub fn get_ffi_string() -> *const c_char { STRING_CACHE.with(|e| e.borrow().get_msg()) } /// Clear thread local string exposed for C code. /// /// This function usually should be called at the beginning of every exposed C functions. pub fn clear_ffi_string() { STRING_CACHE.with(|e| { e.borrow_mut().clear_msg(); }); } /// Parse string given by C code into Rust string. pub fn parse_ffi_string<'a>(ptr: *const c_char) -> &'a CStr { unsafe { CStr::from_ptr(ptr) } }