use super::utils::copy_stat_into_wasm; use super::varargs::VarArgs; use byteorder::{ByteOrder, LittleEndian}; /// NOTE: TODO: These syscalls only support wasm_32 for now because they assume offsets are u32 /// Syscall list: https://www.cs.utexas.edu/~bismith/test/syscalls/syscalls32.html use libc::{ accept, bind, // ENOTTY, c_char, c_int, c_void, chdir, chown, // fcntl, setsockopt, getppid close, connect, dup2, exit, fcntl, fstat, getgid, getpeername, getpid, getsockname, getsockopt, gid_t, in_addr_t, in_port_t, ioctl, // iovec, listen, lseek, mkdir, msghdr, off_t, open, pid_t, pread, pwrite, read, // readv, recvfrom, recvmsg, rmdir, // ENOTTY, rusage, sa_family_t, // writev, select, sendmsg, sendto, setpgid, setsockopt, sockaddr, socket, socklen_t, ssize_t, stat, uname, utsname, write, EINVAL, // sockaddr_in, FIOCLEX, FIONBIO, F_GETFD, F_SETFD, SOL_SOCKET, SO_REUSEADDR, TIOCGWINSZ, }; use wasmer_runtime_core::Instance; use super::env; use std::mem; use std::slice; // use std::sys::fd::FileDesc; // Linking to functions that are not provided by rust libc #[cfg(target_os = "macos")] #[link(name = "c")] extern "C" { pub fn wait4(pid: pid_t, status: *mut c_int, options: c_int, rusage: *mut rusage) -> pid_t; } #[cfg(not(target_os = "macos"))] use libc::wait4; // Another conditional constant for name resolution: Macos et iOS use // SO_NOSIGPIPE as a setsockopt flag to disable SIGPIPE emission on socket. // Other platforms do otherwise. #[cfg(target_os = "darwin")] use libc::SO_NOSIGPIPE; #[cfg(not(target_os = "darwin"))] const SO_NOSIGPIPE: c_int = 0; /// exit pub extern "C" fn ___syscall1(which: c_int, mut varargs: VarArgs, instance: &mut Instance) { debug!("emscripten::___syscall1 (exit) {}", which); let status: i32 = varargs.get(instance); unsafe { exit(status); } } /// read pub extern "C" fn ___syscall3( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> ssize_t { debug!("emscripten::___syscall3 (read) {}", which); let fd: i32 = varargs.get(instance); let buf: u32 = varargs.get(instance); let count: usize = varargs.get(instance); debug!("=> fd: {}, buf_offset: {}, count: {}", fd, buf, count); let buf_addr = instance.memory_offset_addr(0, buf as usize) as *mut c_void; let ret = unsafe { read(fd, buf_addr, count) }; debug!("=> ret: {}", ret); ret } /// write pub extern "C" fn ___syscall4( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall4 (write) {}", which); let fd: i32 = varargs.get(instance); let buf: u32 = varargs.get(instance); let count: u32 = varargs.get(instance); debug!("=> fd: {}, buf: {}, count: {}", fd, buf, count); let buf_addr = instance.memory_offset_addr(0, buf as usize) as *const c_void; unsafe { write(fd, buf_addr, count as usize) as i32 } } /// open pub extern "C" fn ___syscall5( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall5 (open) {}", which); let pathname: u32 = varargs.get(instance); let flags: i32 = varargs.get(instance); let mode: u32 = varargs.get(instance); let pathname_addr = instance.memory_offset_addr(0, pathname as usize) as *const i8; let path_str = unsafe { std::ffi::CStr::from_ptr(pathname_addr).to_str().unwrap() }; let fd = unsafe { open(pathname_addr, flags, mode) }; debug!( "=> pathname: {}, flags: {}, mode: {} = fd: {}\npath: {}", pathname, flags, mode, fd, path_str ); fd } /// close pub extern "C" fn ___syscall6( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall6 (close) {}", which); let fd: i32 = varargs.get(instance); debug!("fd: {}", fd); unsafe { close(fd) } } // chdir pub extern "C" fn ___syscall12( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall12 (chdir) {}", which); let path_addr: i32 = varargs.get(instance); unsafe { let path_ptr = instance.memory_offset_addr(0, path_addr as usize) as *const i8; let path = std::ffi::CStr::from_ptr(path_ptr); let ret = chdir(path_ptr); debug!("=> path: {:?}, ret: {}", path, ret); ret } } // getpid pub extern "C" fn ___syscall20() -> pid_t { debug!("emscripten::___syscall20 (getpid)"); unsafe { getpid() } } // mkdir pub extern "C" fn ___syscall39( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall39 (mkdir) {}", which); let pathname: u32 = varargs.get(instance); let mode: u32 = varargs.get(instance); let pathname_addr = instance.memory_offset_addr(0, pathname as usize) as *const i8; unsafe { mkdir(pathname_addr, mode as _) } } // rmdir pub extern "C" fn ___syscall40( _which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall40 (rmdir)"); let pathname: u32 = varargs.get(instance); let pathname_addr = instance.memory_offset_addr(0, pathname as usize) as *const i8; unsafe { rmdir(pathname_addr) } } /// ioctl pub extern "C" fn ___syscall54( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall54 (ioctl) {}", which); let fd: i32 = varargs.get(instance); let request: u32 = varargs.get(instance); debug!("fd: {}, op: {}", fd, request); // Got the equivalents here: https://code.woboq.org/linux/linux/include/uapi/asm-generic/ioctls.h.html match request as _ { 21537 => { // FIONBIO let argp: u32 = varargs.get(instance); let argp_ptr = instance.memory_offset_addr(0, argp as _); let ret = unsafe { ioctl(fd, FIONBIO, argp_ptr) }; debug!("ret(FIONBIO): {}", ret); ret // 0 } 21523 => { // TIOCGWINSZ let argp: u32 = varargs.get(instance); let argp_ptr = instance.memory_offset_addr(0, argp as _); let ret = unsafe { ioctl(fd, TIOCGWINSZ, argp_ptr) }; debug!("ret(TIOCGWINSZ): {} (harcoded to 0)", ret); // ret // TODO: We hardcode the value to have emscripten tests pass, as for some reason // when the capturer is active, ioctl returns -1 instead of 0 if ret == -1 { 0 } else { ret } } _ => { debug!( "emscripten::___syscall54 -> non implemented case {}", request ); 0 } } } // setpgid pub extern "C" fn ___syscall57( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall57 (setpgid) {}", which); let pid: i32 = varargs.get(instance); let pgid: i32 = varargs.get(instance); unsafe { setpgid(pid, pgid) } } // dup2 pub extern "C" fn ___syscall63( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall63 (dup2) {}", which); let src: i32 = varargs.get(instance); let dst: i32 = varargs.get(instance); unsafe { dup2(src, dst) } } // getppid pub extern "C" fn ___syscall64() -> pid_t { debug!("emscripten::___syscall64 (getppid)"); unsafe { getpid() } } // socketcall #[allow(clippy::cast_ptr_alignment)] pub extern "C" fn ___syscall102( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall102 (socketcall) {}", which); let call: u32 = varargs.get(instance); let mut socket_varargs: VarArgs = varargs.get(instance); #[repr(C)] pub struct GuestSockaddrIn { pub sin_family: sa_family_t, // u16 pub sin_port: in_port_t, // u16 pub sin_addr: GuestInAddr, // u32 pub sin_zero: [u8; 8], // u8 * 8 // 2 + 2 + 4 + 8 = 16 } #[repr(C)] pub struct GuestInAddr { pub s_addr: in_addr_t, // u32 } // debug!("GuestSockaddrIn = {}", size_of::()); pub struct LinuxSockAddr { pub sa_family: u16, pub sa_data: [c_char; 14], } match call { 1 => { debug!("socket: socket"); // socket (domain: c_int, ty: c_int, protocol: c_int) -> c_int let domain: i32 = socket_varargs.get(instance); let ty: i32 = socket_varargs.get(instance); let protocol: i32 = socket_varargs.get(instance); let fd = unsafe { socket(domain, ty, protocol) }; // set_cloexec unsafe { ioctl(fd, FIOCLEX); }; type T = u32; let payload = 1 as *const T as *const c_void; unsafe { setsockopt( fd, SOL_SOCKET, SO_NOSIGPIPE, payload, mem::size_of::() as socklen_t, ); }; debug!( "=> domain: {} (AF_INET/2), type: {} (SOCK_STREAM/1), protocol: {} = fd: {}", domain, ty, protocol, fd ); fd } 2 => { debug!("socket: bind"); // bind (socket: c_int, address: *const sockaddr, address_len: socklen_t) -> c_int // TODO: Emscripten has a different signature. let socket: i32 = socket_varargs.get(instance); let address: u32 = socket_varargs.get(instance); let address_len: u32 = socket_varargs.get(instance); let address = instance.memory_offset_addr(0, address as usize) as *mut sockaddr; // Debug received address unsafe { let proper_address = address as *const GuestSockaddrIn; debug!( "=> address.sin_family: {:?}, address.sin_port: {:?}, address.sin_addr.s_addr: {:?}", (*proper_address).sin_family, (*proper_address).sin_port, (*proper_address).sin_addr.s_addr ); } let status = unsafe { bind(socket, address, address_len) }; // debug!("=> status: {}", status); debug!( "=> socketfd: {}, address: {:?}, address_len: {} = status: {}", socket, address, address_len, status ); status // -1 } 3 => { debug!("socket: connect"); // connect (socket: c_int, address: *const sockaddr, len: socklen_t) -> c_int // TODO: Emscripten has a different signature. let socket: i32 = socket_varargs.get(instance); let address: u32 = socket_varargs.get(instance); let address_len: u32 = socket_varargs.get(instance); let address = instance.memory_offset_addr(0, address as usize) as *mut sockaddr; unsafe { connect(socket, address, address_len) } } 4 => { debug!("socket: listen"); // listen (socket: c_int, backlog: c_int) -> c_int let socket: i32 = socket_varargs.get(instance); let backlog: i32 = socket_varargs.get(instance); let status = unsafe { listen(socket, backlog) }; debug!( "=> socketfd: {}, backlog: {} = status: {}", socket, backlog, status ); status } 5 => { debug!("socket: accept"); // accept (socket: c_int, address: *mut sockaddr, address_len: *mut socklen_t) -> c_int let socket: i32 = socket_varargs.get(instance); let address_addr: u32 = socket_varargs.get(instance); let address_len: u32 = socket_varargs.get(instance); let address = instance.memory_offset_addr(0, address_addr as usize) as *mut sockaddr; debug!( "=> socket: {}, address: {:?}, address_len: {}", socket, address, address_len ); let address_len_addr = instance.memory_offset_addr(0, address_len as usize) as *mut socklen_t; // let mut address_len_addr: socklen_t = 0; let fd = unsafe { accept(socket, address, address_len_addr) }; unsafe { let address_linux = instance.memory_offset_addr(0, address_addr as usize) as *mut LinuxSockAddr; (*address_linux).sa_family = (*address).sa_family as u16; (*address_linux).sa_data = (*address).sa_data; }; // set_cloexec unsafe { ioctl(fd, FIOCLEX); }; debug!("fd: {}", fd); fd } 6 => { debug!("socket: getsockname"); // getsockname (socket: c_int, address: *mut sockaddr, address_len: *mut socklen_t) -> c_int let socket: i32 = socket_varargs.get(instance); let address: u32 = socket_varargs.get(instance); let address_len: u32 = socket_varargs.get(instance); let address = instance.memory_offset_addr(0, address as usize) as *mut sockaddr; let address_len_addr = instance.memory_offset_addr(0, address_len as usize) as *mut socklen_t; unsafe { getsockname(socket, address, address_len_addr) } } 7 => { debug!("socket: getpeername"); // getpeername (socket: c_int, address: *mut sockaddr, address_len: *mut socklen_t) -> c_int let socket: i32 = socket_varargs.get(instance); let address: u32 = socket_varargs.get(instance); let address_len: u32 = socket_varargs.get(instance); let address = instance.memory_offset_addr(0, address as usize) as *mut sockaddr; let address_len_addr = instance.memory_offset_addr(0, address_len as usize) as *mut socklen_t; unsafe { getpeername(socket, address, address_len_addr) } } 11 => { debug!("socket: sendto"); // sendto (socket: c_int, buf: *const c_void, len: size_t, flags: c_int, addr: *const sockaddr, addrlen: socklen_t) -> ssize_t let socket: i32 = socket_varargs.get(instance); let buf: u32 = socket_varargs.get(instance); let flags: usize = socket_varargs.get(instance); let len: i32 = socket_varargs.get(instance); let address: u32 = socket_varargs.get(instance); let address_len: u32 = socket_varargs.get(instance); let buf_addr = instance.memory_offset_addr(0, buf as usize) as *mut c_void; let address = instance.memory_offset_addr(0, address as usize) as *mut sockaddr; unsafe { sendto(socket, buf_addr, flags, len, address, address_len) as i32 } } 12 => { debug!("socket: recvfrom"); // recvfrom (socket: c_int, buf: *const c_void, len: size_t, flags: c_int, addr: *const sockaddr, addrlen: socklen_t) -> ssize_t let socket: i32 = socket_varargs.get(instance); let buf: u32 = socket_varargs.get(instance); let flags: usize = socket_varargs.get(instance); let len: i32 = socket_varargs.get(instance); let address: u32 = socket_varargs.get(instance); let address_len: u32 = socket_varargs.get(instance); let buf_addr = instance.memory_offset_addr(0, buf as usize) as *mut c_void; let address = instance.memory_offset_addr(0, address as usize) as *mut sockaddr; let address_len_addr = instance.memory_offset_addr(0, address_len as usize) as *mut socklen_t; unsafe { recvfrom(socket, buf_addr, flags, len, address, address_len_addr) as i32 } } 14 => { debug!("socket: setsockopt"); // NOTE: Emscripten seems to be passing the wrong values to this syscall // level: Em passes 1 as SOL_SOCKET; SOL_SOCKET is 0xffff in BSD // name: Em passes SO_ACCEPTCONN, but Nginx complains about REUSEADDR // https://github.com/openbsd/src/blob/master/sys/sys/socket.h#L156 // setsockopt (socket: c_int, level: c_int, name: c_int, value: *const c_void, option_len: socklen_t) -> c_int let socket: i32 = socket_varargs.get(instance); // SOL_SOCKET = 0xffff (BSD, Linux) let level: i32 = SOL_SOCKET; let _: u32 = socket_varargs.get(instance); // SO_REUSEADDR = 0x4 (BSD, Linux) let name: i32 = SO_REUSEADDR; let _: u32 = socket_varargs.get(instance); let value: u32 = socket_varargs.get(instance); let option_len: u32 = socket_varargs.get(instance); let value_addr = instance.memory_offset_addr(0, value as usize) as *mut c_void; // Endian problem let ret = unsafe { setsockopt(socket, level, name, value_addr, option_len) }; debug!("=> socketfd: {}, level: {} (SOL_SOCKET/0xffff), name: {} (SO_REUSEADDR/4), value_addr: {:?}, option_len: {} = status: {}", socket, level, name, value_addr, option_len, ret); ret } 15 => { debug!("socket: getsockopt"); // getsockopt (sockfd: c_int, level: c_int, optname: c_int, optval: *mut c_void, optlen: *mut socklen_t) -> c_int let socket: i32 = socket_varargs.get(instance); let level: i32 = socket_varargs.get(instance); let name: i32 = socket_varargs.get(instance); let value: u32 = socket_varargs.get(instance); let option_len: u32 = socket_varargs.get(instance); let value_addr = instance.memory_offset_addr(0, value as usize) as *mut c_void; let option_len_addr = instance.memory_offset_addr(0, option_len as usize) as *mut socklen_t; unsafe { getsockopt(socket, level, name, value_addr, option_len_addr) } } 16 => { debug!("socket: sendmsg"); // sendmsg (fd: c_int, msg: *const msghdr, flags: c_int) -> ssize_t let socket: i32 = socket_varargs.get(instance); let msg: u32 = socket_varargs.get(instance); let flags: i32 = socket_varargs.get(instance); let msg_addr = instance.memory_offset_addr(0, msg as usize) as *const msghdr; unsafe { sendmsg(socket, msg_addr, flags) as i32 } } 17 => { debug!("socket: recvmsg"); // recvmsg (fd: c_int, msg: *mut msghdr, flags: c_int) -> ssize_t let socket: i32 = socket_varargs.get(instance); let msg: u32 = socket_varargs.get(instance); let flags: i32 = socket_varargs.get(instance); let msg_addr = instance.memory_offset_addr(0, msg as usize) as *mut msghdr; unsafe { recvmsg(socket, msg_addr, flags) as i32 } } _ => { // others -1 } } } /// wait4 #[allow(clippy::cast_ptr_alignment)] pub extern "C" fn ___syscall114( _which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> pid_t { debug!("emscripten::___syscall114 (wait4)"); let pid: pid_t = varargs.get(instance); let status: u32 = varargs.get(instance); let options: c_int = varargs.get(instance); let rusage: u32 = varargs.get(instance); let status_addr = instance.memory_offset_addr(0, status as usize) as *mut c_int; let rusage_addr = instance.memory_offset_addr(0, rusage as usize) as *mut rusage; let res = unsafe { wait4(pid, status_addr, options, rusage_addr) }; debug!( "=> pid: {}, status: {:?}, options: {}, rusage: {:?} = pid: {}", pid, status_addr, options, rusage_addr, res ); res } /// uname // NOTE: Wondering if we should return custom utsname, like Emscripten. pub extern "C" fn ___syscall122( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall122 (uname) {}", which); let buf: u32 = varargs.get(instance); debug!("=> buf: {}", buf); let buf_addr = instance.memory_offset_addr(0, buf as usize) as *mut utsname; unsafe { uname(buf_addr) } } // select #[allow(clippy::cast_ptr_alignment)] pub extern "C" fn ___syscall142( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall142 (newselect) {}", which); let nfds: i32 = varargs.get(instance); let readfds: u32 = varargs.get(instance); let writefds: u32 = varargs.get(instance); let exceptfds: u32 = varargs.get(instance); let _timeout: i32 = varargs.get(instance); assert!(nfds <= 64, "`nfds` must be less than or equal to 64"); assert!(exceptfds == 0, "`exceptfds` is not supporrted"); let readfds_ptr = instance.memory_offset_addr(0, readfds as _) as _; let writefds_ptr = instance.memory_offset_addr(0, writefds as _) as _; unsafe { select(nfds, readfds_ptr, writefds_ptr, 0 as _, 0 as _) } } // mmap2 pub extern "C" fn ___syscall192( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall192 (mmap2) {}", which); let addr: i32 = varargs.get(instance); let len: u32 = varargs.get(instance); let prot: i32 = varargs.get(instance); let flags: i32 = varargs.get(instance); let fd: i32 = varargs.get(instance); let off: i32 = varargs.get(instance); debug!( "=> addr: {}, len: {}, prot: {}, flags: {}, fd: {}, off: {}", addr, len, prot, flags, fd, off ); if fd == -1 { let ptr = env::call_memalign(16384, len, instance); if ptr == 0 { return -1; } env::call_memset(ptr, 0, len, instance); ptr as _ } else { -1 } } /// lseek pub extern "C" fn ___syscall140( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> off_t { debug!("emscripten::___syscall140 (lseek) {}", which); let fd: i32 = varargs.get(instance); let offset: i64 = varargs.get(instance); let whence: i32 = varargs.get(instance); debug!("=> fd: {}, offset: {}, whence = {}", fd, offset, whence); unsafe { lseek(fd, offset, whence) } } /// readv #[allow(clippy::cast_ptr_alignment)] pub extern "C" fn ___syscall145( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> ssize_t { debug!("emscripten::___syscall145 (readv) {}", which); // let fd: i32 = varargs.get(instance); // let iov: u32 = varargs.get(instance); // let iovcnt: i32 = varargs.get(instance); // debug!("=> fd: {}, iov: {}, iovcnt = {}", fd, iov, iovcnt); // let iov_addr = instance.memory_offset_addr(0, iov as usize) as *mut iovec; // unsafe { readv(fd, iov_addr, iovcnt) } let fd: i32 = varargs.get(instance); let iov: i32 = varargs.get(instance); let iovcnt: i32 = varargs.get(instance); #[repr(C)] struct GuestIovec { iov_base: i32, iov_len: i32, } debug!("=> fd: {}, iov: {}, iovcnt = {}", fd, iov, iovcnt); let mut ret = 0; unsafe { for i in 0..iovcnt { let guest_iov_addr = instance.memory_offset_addr(0, (iov + i * 8) as usize) as *mut GuestIovec; let iov_base = instance.memory_offset_addr(0, (*guest_iov_addr).iov_base as usize) as *mut c_void; let iov_len: usize = (*guest_iov_addr).iov_len as _; // debug!("=> iov_addr: {:?}, {:?}", iov_base, iov_len); let curr = read(fd, iov_base, iov_len); if curr < 0 { return -1; } ret += curr; } // debug!(" => ret: {}", ret); ret } } // writev #[allow(clippy::cast_ptr_alignment)] pub extern "C" fn ___syscall146( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> ssize_t { debug!("emscripten::___syscall146 (writev) {}", which); let fd: i32 = varargs.get(instance); let iov: i32 = varargs.get(instance); let iovcnt: i32 = varargs.get(instance); #[repr(C)] struct GuestIovec { iov_base: i32, iov_len: i32, } debug!("=> fd: {}, iov: {}, iovcnt = {}", fd, iov, iovcnt); let mut ret = 0; unsafe { for i in 0..iovcnt { let guest_iov_addr = instance.memory_offset_addr(0, (iov + i * 8) as usize) as *mut GuestIovec; let iov_base = instance.memory_offset_addr(0, (*guest_iov_addr).iov_base as usize) as *const c_void; let iov_len: usize = (*guest_iov_addr).iov_len as _; // debug!("=> iov_addr: {:?}, {:?}", iov_base, iov_len); let curr = write(fd, iov_base, iov_len); if curr < 0 { return -1; } ret += curr; } // debug!(" => ret: {}", ret); ret } } // pread pub extern "C" fn ___syscall180( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall180 (pread) {}", which); let fd: i32 = varargs.get(instance); let buf: u32 = varargs.get(instance); let count: u32 = varargs.get(instance); { let zero: u32 = varargs.get(instance); assert_eq!(zero, 0); } let offset: i64 = varargs.get(instance); let buf_ptr = instance.memory_offset_addr(0, buf as _) as _; unsafe { pread(fd, buf_ptr, count as _, offset) as _ } } // pwrite pub extern "C" fn ___syscall181( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall181 (pwrite) {}", which); let fd: i32 = varargs.get(instance); let buf: u32 = varargs.get(instance); let count: u32 = varargs.get(instance); { let zero: u32 = varargs.get(instance); assert_eq!(zero, 0); } let offset: i64 = varargs.get(instance); let buf_ptr = instance.memory_offset_addr(0, buf as _) as _; let status = unsafe { pwrite(fd, buf_ptr, count as _, offset) as _ }; debug!( "=> fd: {}, buf: {}, count: {}, offset: {} = status:{}", fd, buf, count, offset, status ); status } // stat64 pub extern "C" fn ___syscall195( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall195 (stat64) {}", which); let pathname: u32 = varargs.get(instance); let buf: u32 = varargs.get(instance); let pathname_addr = instance.memory_offset_addr(0, pathname as usize) as *const i8; unsafe { let mut _stat: stat = std::mem::zeroed(); let ret = stat(pathname_addr, &mut _stat); debug!("ret: {}", ret); if ret != 0 { return ret; } copy_stat_into_wasm(instance, buf, &_stat); } 0 } // fstat64 pub extern "C" fn ___syscall197( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall197 (fstat64) {}", which); let fd: c_int = varargs.get(instance); let buf: u32 = varargs.get(instance); unsafe { let mut stat = std::mem::zeroed(); let ret = fstat(fd, &mut stat); debug!("ret: {}", ret); if ret != 0 { return ret; } copy_stat_into_wasm(instance, buf, &stat); } 0 } // getgid pub extern "C" fn ___syscall201() -> gid_t { debug!("emscripten::___syscall201 (getgid)"); unsafe { // Maybe fix: Emscripten returns 0 always getgid() } } // getgid32 pub extern "C" fn ___syscall202() -> gid_t { debug!("emscripten::___syscall202 (getgid32)"); unsafe { // Maybe fix: Emscripten returns 0 always getgid() } } // chown pub extern "C" fn ___syscall212( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall212 (chown) {}", which); let pathname: u32 = varargs.get(instance); let owner: u32 = varargs.get(instance); let group: u32 = varargs.get(instance); let pathname_addr = instance.memory_offset_addr(0, pathname as usize) as *const i8; unsafe { chown(pathname_addr, owner, group) } } // fcntl64 pub extern "C" fn ___syscall221( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall221 (fcntl64) {}", which); // fcntl64 let _fd: i32 = varargs.get(instance); let cmd: u32 = varargs.get(instance); match cmd { 2 => 0, _ => -1, } } /// dup3 pub extern "C" fn ___syscall330( _which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> pid_t { // Implementation based on description at https://linux.die.net/man/2/dup3 debug!("emscripten::___syscall330 (dup3)"); let oldfd: c_int = varargs.get(instance); let newfd: c_int = varargs.get(instance); let flags: c_int = varargs.get(instance); if oldfd == newfd { return EINVAL; } let res = unsafe { dup2(oldfd, newfd) }; // Set flags on newfd (https://www.gnu.org/software/libc/manual/html_node/Descriptor-Flags.html) let mut old_flags = unsafe { fcntl(newfd, F_GETFD, 0) }; if old_flags > 0 { old_flags |= flags; } else if old_flags == 0 { old_flags &= !flags; } unsafe { fcntl(newfd, F_SETFD, old_flags); } debug!( "=> oldfd: {}, newfd: {}, flags: {} = pid: {}", oldfd, newfd, flags, res ); res } // prlimit64 pub extern "C" fn ___syscall340( which: c_int, mut varargs: VarArgs, instance: &mut Instance, ) -> c_int { debug!("emscripten::___syscall340 (prlimit64), {}", which); // NOTE: Doesn't really matter. Wasm modules cannot exceed WASM_PAGE_SIZE anyway. let _pid: i32 = varargs.get(instance); let _resource: i32 = varargs.get(instance); let _new_limit: u32 = varargs.get(instance); let old_limit: u32 = varargs.get(instance); if old_limit != 0 { // just report no limits let buf_ptr = instance.memory_offset_addr(0, old_limit as _) as *mut u8; let buf = unsafe { slice::from_raw_parts_mut(buf_ptr, 16) }; LittleEndian::write_i32(&mut buf[..], -1); // RLIM_INFINITY LittleEndian::write_i32(&mut buf[4..], -1); // RLIM_INFINITY LittleEndian::write_i32(&mut buf[8..], -1); // RLIM_INFINITY LittleEndian::write_i32(&mut buf[12..], -1); // RLIM_INFINITY } 0 }