extern crate zmq_sys as zmq; #[cfg(feature = "zmq_has")] fn main() { use std::ffi::CString; for has in ["ipc", "pgm", "tipc", "norm", "curve", "gssapi"].into_iter() { if unsafe { zmq::zmq_has(CString::new(has.as_bytes()).unwrap().as_ptr()) } == 1 { println!("cargo:rustc-cfg=ZMQ_HAS_{}=\"1\"", has.to_uppercase()); } } } #[cfg(not(feature = "zmq_has"))] fn main() { use std::mem::size_of; use std::os::raw::c_int; const ZMQ_CURVE_SERVER: c_int = 47; const ZMQ_GSSAPI_SERVER: c_int = 62; const ZMQ_REQ: c_int = 3; // As long as we support pre-4.1 versions of libzmq, we can't use zmq_has() // here because that would make the build script fail to link. // // Fortunately, the relevant capabilities can be easily probed by setting // socket options. unsafe { let ctx = zmq::zmq_ctx_new(); assert!(!ctx.is_null()); for &(opt, feature) in &[(ZMQ_CURVE_SERVER, "curve"), (ZMQ_GSSAPI_SERVER, "gssapi")] { let sock = zmq::zmq_socket(ctx, ZMQ_REQ); assert!(!sock.is_null()); let mut one: c_int = 1; let rc = zmq::zmq_setsockopt(sock, opt, &mut one as *mut c_int as *mut _, size_of::()); if rc == -1 { assert!(zmq::zmq_errno() == zmq::errno::EINVAL); } else { println!("cargo:rustc-cfg=ZMQ_HAS_{}=\"1\"", feature.to_uppercase()); } } // Determine if we can wrap zmq_has() in the crate. let mut major = 0; let mut minor = 0; let mut _patch = 0; zmq::zmq_version(&mut major, &mut minor, &mut _patch); if major >= 4 && minor >= 1 { println!("cargo:rust-cfg=ZMQ_HAS_ZMQ_HAS=\"1\""); } } }