//! Startup code. use alloc::{boxed::Box, vec::Vec}; use core::{intrinsics, ptr}; use generic_rt::ExpectTlsFree; use crate::{ ALLOCATOR, header::{libgen, stdio, stdlib}, ld_so::{self, linker::Linker, tcb::Tcb}, platform::{self, Pal, Sys, get_auxvs, types::*}, raw_cell::RawCell, sync::mutex::Mutex, }; #[repr(C)] pub struct Stack { pub argc: isize, pub argv0: *const c_char, } impl Stack { pub fn argv(&self) -> *const *const c_char { &self.argv0 as *const _ } pub fn envp(&self) -> *const *const c_char { unsafe { self.argv().offset(self.argc + 1) } } pub fn auxv(&self) -> *const (usize, usize) { unsafe { let mut envp = self.envp(); while !(*envp).is_null() { envp = envp.add(1); } envp.add(1) as *const (usize, usize) } } } unsafe fn copy_string_array(array: *const *const c_char, len: usize) -> Vec<*mut c_char> { let mut vec = Vec::with_capacity(len + 1); for i in 0..len { let item = *array.add(i); let mut len = 0; while *item.add(len) != 0 { len += 1; } let buf = platform::alloc(len + 1) as *mut c_char; for i in 0..=len { *buf.add(i) = *item.add(i); } vec.push(buf); } vec.push(ptr::null_mut()); vec } // Since Redox and Linux are so similar, it is easy to accidentally run a binary from one on the // other. This will test that the current system is compatible with the current binary #[unsafe(no_mangle)] pub unsafe fn relibc_verify_host() { if !Sys::verify() { intrinsics::abort(); } } #[unsafe(link_section = ".init_array")] #[used] static INIT_ARRAY: [extern "C" fn(); 1] = [init_array]; static mut init_complete: bool = false; #[used] #[unsafe(no_mangle)] static mut __relibc_init_environ: *mut *mut c_char = ptr::null_mut(); fn alloc_init() { unsafe { if init_complete { return; } } unsafe { if let Some(tcb) = ld_so::tcb::Tcb::current() { if !tcb.mspace.is_null() { ALLOCATOR.get().write(tcb.mspace.read()); } } } } extern "C" fn init_array() { // The thing is that we cannot guarantee if // init_array runs first or if relibc_start runs first // Still whoever gets to run first must initialize rust // memory allocator before doing anything else. unsafe { if init_complete { return; } } alloc_init(); io_init(); unsafe { if platform::environ.is_null() { platform::environ = __relibc_init_environ; } } unsafe { crate::pthread::init(); init_complete = true } } fn io_init() { unsafe { // Initialize stdin/stdout/stderr. // TODO: const fn initialization of FILE stdio::stdin = stdio::default_stdin().get(); stdio::stdout = stdio::default_stdout().get(); stdio::stderr = stdio::default_stderr().get(); } } #[inline(never)] #[unsafe(no_mangle)] pub unsafe extern "C" fn relibc_start_v1( sp: &'static Stack, main: unsafe extern "C" fn( argc: isize, argv: *mut *mut c_char, envp: *mut *mut c_char, ) -> c_int, ) -> ! { unsafe extern "C" { static __preinit_array_start: extern "C" fn(); static __preinit_array_end: extern "C" fn(); static __init_array_start: extern "C" fn(); static __init_array_end: extern "C" fn(); fn _init(); } // Ensure correct host system before executing more system calls relibc_verify_host(); #[cfg(target_os = "redox")] let thr_fd = redox_rt::proc::FdGuard::new( crate::platform::get_auxv_raw(sp.auxv().cast(), redox_rt::auxv_defs::AT_REDOX_THR_FD) .expect_notls("no thread fd present"), ) .to_upper() .expect_notls("failed to move thread fd to upper table"); // Initialize TLS, if necessary ld_so::init( sp, #[cfg(target_os = "redox")] thr_fd, ); // Set up the right allocator... // if any memory rust based memory allocation happen before this step .. we are doomed. alloc_init(); if let Some(tcb) = ld_so::tcb::Tcb::current() { // Update TCB mspace tcb.mspace = ALLOCATOR.get(); // Set linker pointer if necessary if tcb.linker_ptr.is_null() { //TODO: get ld path let linker = Linker::new(ld_so::linker::Config::default()); //TODO: load root object tcb.linker_ptr = Box::into_raw(Box::new(Mutex::new(linker))); } #[cfg(target_os = "redox")] redox_rt::signal::setup_sighandler(&tcb.os_specific, true); } // Set up argc and argv let argc = sp.argc; let argv = sp.argv(); platform::inner_argv.unsafe_set(copy_string_array(argv, argc as usize)); platform::argv = platform::inner_argv.unsafe_mut().as_mut_ptr(); // Special code for program_invocation_name and program_invocation_short_name if let Some(arg) = platform::inner_argv.unsafe_ref().get(0) { platform::program_invocation_name = *arg; platform::program_invocation_short_name = libgen::basename(*arg); } // We check for NULL here since ld.so might already have initialized it for us, and we don't // want to overwrite it if constructors in .init_array of dependency libraries have called // setenv. if platform::environ.is_null() { // Set up envp let envp = sp.envp(); let mut len = 0; while !(*envp.add(len)).is_null() { len += 1; } platform::OUR_ENVIRON.unsafe_set(copy_string_array(envp, len)); platform::environ = platform::OUR_ENVIRON.unsafe_mut().as_mut_ptr(); } let auxvs = get_auxvs(sp.auxv().cast()); crate::platform::init(auxvs); init_array(); // Run preinit array { let mut f = &__preinit_array_start as *const _; #[allow(clippy::op_ref)] while f < &__preinit_array_end { (*f)(); f = f.offset(1); } } // Call init section #[cfg(not(target_arch = "riscv64"))] // risc-v uses arrays exclusively { _init(); } // Run init array { let mut f = &__init_array_start as *const _; #[allow(clippy::op_ref)] while f < &__init_array_end { (*f)(); f = f.offset(1); } } // not argv or envp, because programs like bash try to modify this *const* pointer :| stdlib::exit(main(argc, platform::argv, platform::environ)); unreachable!(); }