/* SPDX-License-Identifier: MIT * * Copyright (C) 2017-2022 WireGuard LLC. All Rights Reserved. */ package tun import ( "reflect" "testing" "unsafe" ) func checkAlignment(t *testing.T, name string, offset uintptr) { t.Helper() if offset%8 != 0 { t.Errorf("offset of %q within struct is %d bytes, which does not align to 64-bit word boundaries (missing %d bytes). Atomic operations will crash on 32-bit systems.", name, offset, 8-(offset%8)) } } // TestRateJugglerAlignment checks that atomically-accessed fields are // aligned to 64-bit boundaries, as required by the atomic package. // // Unfortunately, violating this rule on 32-bit platforms results in a // hard segfault at runtime. func TestRateJugglerAlignment(t *testing.T) { var r rateJuggler typ := reflect.TypeOf(&r).Elem() t.Logf("Peer type size: %d, with fields:", typ.Size()) for i := 0; i < typ.NumField(); i++ { field := typ.Field(i) t.Logf("\t%30s\toffset=%3v\t(type size=%3d, align=%d)", field.Name, field.Offset, field.Type.Size(), field.Type.Align(), ) } checkAlignment(t, "rateJuggler.current", unsafe.Offsetof(r.current)) checkAlignment(t, "rateJuggler.nextByteCount", unsafe.Offsetof(r.nextByteCount)) checkAlignment(t, "rateJuggler.nextStartTime", unsafe.Offsetof(r.nextStartTime)) } // TestNativeTunAlignment checks that atomically-accessed fields are // aligned to 64-bit boundaries, as required by the atomic package. // // Unfortunately, violating this rule on 32-bit platforms results in a // hard segfault at runtime. func TestNativeTunAlignment(t *testing.T) { var tun NativeTun typ := reflect.TypeOf(&tun).Elem() t.Logf("Peer type size: %d, with fields:", typ.Size()) for i := 0; i < typ.NumField(); i++ { field := typ.Field(i) t.Logf("\t%30s\toffset=%3v\t(type size=%3d, align=%d)", field.Name, field.Offset, field.Type.Size(), field.Type.Align(), ) } checkAlignment(t, "NativeTun.rate", unsafe.Offsetof(tun.rate)) }