// tls_test.cc -- test TLS variables for gold // Copyright (C) 2006-2019 Free Software Foundation, Inc. // Written by Ian Lance Taylor . // This file is part of gold. // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 3 of the License, or // (at your option) any later version. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, // MA 02110-1301, USA. // This provides a set of test functions for TLS variables. The // functions are called by a main function in tls_test_main.cc. This // lets us test TLS access from a shared library. We currently don't // bother to test TLS access between two different files, on the // theory that that is no more complicated than ordinary variable // access between files. // We start two threads, and stop the second one. Then we run the // first thread through the following cases. Then we let the second // thread continue, and run it through the same set of cases. All the // actual thread manipulation is in tls_test_main.cc. // 1 Access to an uninitialized global thread variable. // 2 Access to an uninitialized static thread variable. // 3 Access to an initialized global thread variable. // 4 Access to an initialized static thread variable. // 5 Taking the address of a global thread variable. // 6 Taking the address of a static thread variable. // 8 Like test 1, but with the thread variable defined in another file. // 9 Like test 3, but with the thread variable defined in another file. // 10 Like test 5, but with the thread variable defined in another file. // last Verify that the above tests left the variables set correctly. #include "config.h" #include #include "tls_test.h" #define CHECK_EQ_OR_RETURN(var, expected) \ do \ { \ if ((var) != (expected)) \ { \ printf(#var ": expected %d, found %d\n", expected, var); \ return false; \ } \ } \ while (0) __thread int v1; static __thread int v2; // We don't use these pointers, but putting them in tests alignment on // a 64-bit target. __thread char* p1; char dummy; __thread char* p2 = &dummy; __thread int v3 = 3; static __thread int v4 = 4; __thread int v5; static __thread int v6; struct int128 { long long hi; long long lo; }; static __thread struct int128 v12 = { 115, 125 }; bool t1() { CHECK_EQ_OR_RETURN(v1, 0); v1 = 10; return true; } bool t2() { CHECK_EQ_OR_RETURN(v2, 0); v2 = 20; return true; } bool t3() { CHECK_EQ_OR_RETURN(v3, 3); v3 = 30; return true; } bool t4() { CHECK_EQ_OR_RETURN(v4, 4); v4 = 40; return true; } // For test 5 the main function calls f5b(f5a()), then calls t5(). int* f5a() { return &v5; } void f5b(int* p) { *p = 50; } bool t5() { CHECK_EQ_OR_RETURN(v5, 50); return true; } // For test 6 the main function calls f6b(f6a()), then calls t6(). int* f6a() { return &v6; } void f6b(int* p) { *p = 60; } bool t6() { CHECK_EQ_OR_RETURN(v6, 60); return true; } // The slot for t7() is unused. bool t8() { CHECK_EQ_OR_RETURN(o1, 0); o1 = -10; return true; } bool t9() { CHECK_EQ_OR_RETURN(o2, -2); o2 = -20; return true; } // For test 10 the main function calls f10b(f10a()), then calls t10(). int* f10a() { return &o3; } void f10b(int* p) { *p = -30; } bool t10() { CHECK_EQ_OR_RETURN(o3, -30); return true; } bool t12() { struct int128 newval = { 335, 345 }; CHECK_EQ_OR_RETURN((int) v12.hi, 115); CHECK_EQ_OR_RETURN((int) v12.lo, 125); v12 = newval; return true; } bool t_last() { CHECK_EQ_OR_RETURN(v1, 10); CHECK_EQ_OR_RETURN(v2, 20); CHECK_EQ_OR_RETURN(v3, 30); CHECK_EQ_OR_RETURN(v4, 40); CHECK_EQ_OR_RETURN(v5, 50); CHECK_EQ_OR_RETURN(v6, 60); CHECK_EQ_OR_RETURN((int) v12.hi, 335); CHECK_EQ_OR_RETURN((int) v12.lo, 345); CHECK_EQ_OR_RETURN(o1, -10); CHECK_EQ_OR_RETURN(o2, -20); CHECK_EQ_OR_RETURN(o3, -30); int check = t11_last(); CHECK_EQ_OR_RETURN(check, 1); return true; }