/*********************************************************************** * ftermdetection-test.cpp - FTermDetection unit tests * * * * This file is part of the Final Cut widget toolkit * * * * Copyright 2018 Markus Gans * * * * The Final Cut is free software; you can redistribute it and/or * * modify it under the terms of the GNU Lesser General Public License * * as published by the Free Software Foundation; either version 3 of * * the License, or (at your option) any later version. * * * * The Final Cut 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 Lesser General Public License for more details. * * * * You should have received a copy of the GNU Lesser General Public * * License along with this program. If not, see * * . * ***********************************************************************/ #include #include #include #include #include #include #include #include #include #include #define CPPUNIT_ASSERT_CSTRING(expected, actual) \ check_c_string (expected, actual, CPPUNIT_SOURCELINE()) static char* colorname[] = { C_STR("0000/0000/0000"), // 0 C_STR("bbbb/0000/0000"), // 1 C_STR("0000/bbbb/0000"), // 2 C_STR("bbbb/bbbb/0000"), // 3 C_STR("0000/0000/bbbb"), // 4 C_STR("bbbb/0000/bbbb"), // 5 C_STR("0000/bbbb/bbbb"), // 6 C_STR("bbbb/bbbb/bbbb"), // 7 C_STR("5555/5555/5555"), // 8 C_STR("ffff/5555/5555"), // 9 C_STR("5555/ffff/5555"), // 10 C_STR("ffff/ffff/5555"), // 11 C_STR("5555/5555/ffff"), // 12 C_STR("ffff/5555/ffff"), // 13 C_STR("5555/ffff/ffff"), // 14 C_STR("ffff/ffff/ffff"), // 15 C_STR("0000/0000/0000"), // 16 C_STR("0000/0000/5f5f"), // 17 C_STR("0000/0000/8787"), // 18 C_STR("0000/0000/afaf"), // 19 C_STR("0000/0000/d7d7"), // 20 C_STR("0000/0000/ffff"), // 21 C_STR("0000/5f5f/0000"), // 22 C_STR("0000/5f5f/5f5f"), // 23 C_STR("0000/5f5f/8787"), // 24 C_STR("0000/5f5f/afaf"), // 25 C_STR("0000/5f5f/d7d7"), // 26 C_STR("0000/5f5f/ffff"), // 27 C_STR("0000/8787/0000"), // 28 C_STR("0000/8787/5f5f"), // 29 C_STR("0000/8787/8787"), // 30 C_STR("0000/8787/afaf"), // 31 C_STR("0000/8787/d7d7"), // 32 C_STR("0000/8787/ffff"), // 33 C_STR("0000/afaf/0000"), // 34 C_STR("0000/afaf/5f5f"), // 35 C_STR("0000/afaf/8787"), // 36 C_STR("0000/afaf/afaf"), // 37 C_STR("0000/afaf/d7d7"), // 38 C_STR("0000/afaf/ffff"), // 39 C_STR("0000/d7d7/0000"), // 40 C_STR("0000/d7d7/5f5f"), // 41 C_STR("0000/d7d7/8787"), // 42 C_STR("0000/d7d7/afaf"), // 43 C_STR("0000/d7d7/d7d7"), // 44 C_STR("0000/d7d7/ffff"), // 45 C_STR("0000/ffff/0000"), // 46 C_STR("0000/ffff/5f5f"), // 47 C_STR("0000/ffff/8787"), // 48 C_STR("0000/ffff/afaf"), // 49 C_STR("0000/ffff/d7d7"), // 50 C_STR("0000/ffff/ffff"), // 51 C_STR("5f5f/0000/0000"), // 52 C_STR("5f5f/0000/5f5f"), // 53 C_STR("5f5f/0000/8787"), // 54 C_STR("5f5f/0000/afaf"), // 55 C_STR("5f5f/0000/d7d7"), // 56 C_STR("5f5f/0000/ffff"), // 57 C_STR("5f5f/5f5f/0000"), // 58 C_STR("5f5f/5f5f/5f5f"), // 59 C_STR("5f5f/5f5f/8787"), // 60 C_STR("5f5f/5f5f/afaf"), // 61 C_STR("5f5f/5f5f/d7d7"), // 62 C_STR("5f5f/5f5f/ffff"), // 63 C_STR("5f5f/8787/0000"), // 64 C_STR("5f5f/8787/5f5f"), // 65 C_STR("5f5f/8787/8787"), // 66 C_STR("5f5f/8787/afaf"), // 67 C_STR("5f5f/8787/d7d7"), // 68 C_STR("5f5f/8787/ffff"), // 69 C_STR("5f5f/afaf/0000"), // 70 C_STR("5f5f/afaf/5f5f"), // 71 C_STR("5f5f/afaf/8787"), // 72 C_STR("5f5f/afaf/afaf"), // 73 C_STR("5f5f/afaf/d7d7"), // 74 C_STR("5f5f/afaf/ffff"), // 75 C_STR("5f5f/d7d7/0000"), // 76 C_STR("5f5f/d7d7/5f5f"), // 77 C_STR("5f5f/d7d7/8787"), // 78 C_STR("5f5f/d7d7/afaf"), // 79 C_STR("5f5f/d7d7/d7d7"), // 80 C_STR("5f5f/d7d7/ffff"), // 81 C_STR("5f5f/ffff/0000"), // 82 C_STR("5f5f/ffff/5f5f"), // 83 C_STR("5f5f/ffff/8787"), // 84 C_STR("5f5f/ffff/afaf"), // 85 C_STR("5f5f/ffff/d7d7"), // 86 C_STR("5f5f/ffff/ffff"), // 87 C_STR("8787/0000/0000"), // 88 C_STR("8787/0000/5f5f"), // 89 C_STR("8787/0000/8787"), // 90 C_STR("8787/0000/afaf"), // 91 C_STR("8787/0000/d7d7"), // 92 C_STR("8787/0000/ffff"), // 93 C_STR("8787/5f5f/0000"), // 94 C_STR("8787/5f5f/5f5f"), // 95 C_STR("8787/5f5f/8787"), // 96 C_STR("8787/5f5f/afaf"), // 97 C_STR("8787/5f5f/d7d7"), // 98 C_STR("8787/5f5f/ffff"), // 99 C_STR("8787/8787/0000"), // 100 C_STR("8787/8787/5f5f"), // 101 C_STR("8787/8787/8787"), // 102 C_STR("8787/8787/afaf"), // 103 C_STR("8787/8787/d7d7"), // 104 C_STR("8787/8787/ffff"), // 105 C_STR("8787/afaf/0000"), // 106 C_STR("8787/afaf/5f5f"), // 107 C_STR("8787/afaf/8787"), // 108 C_STR("8787/afaf/afaf"), // 109 C_STR("8787/afaf/d7d7"), // 110 C_STR("8787/afaf/ffff"), // 111 C_STR("8787/d7d7/0000"), // 112 C_STR("8787/d7d7/5f5f"), // 113 C_STR("8787/d7d7/8787"), // 114 C_STR("8787/d7d7/afaf"), // 115 C_STR("8787/d7d7/d7d7"), // 116 C_STR("8787/d7d7/ffff"), // 117 C_STR("8787/ffff/0000"), // 118 C_STR("8787/ffff/5f5f"), // 119 C_STR("8787/ffff/8787"), // 120 C_STR("8787/ffff/afaf"), // 121 C_STR("8787/ffff/d7d7"), // 122 C_STR("8787/ffff/ffff"), // 123 C_STR("afaf/0000/0000"), // 124 C_STR("afaf/0000/5f5f"), // 125 C_STR("afaf/0000/8787"), // 126 C_STR("afaf/0000/afaf"), // 127 C_STR("afaf/0000/d7d7"), // 128 C_STR("afaf/0000/ffff"), // 129 C_STR("afaf/5f5f/0000"), // 130 C_STR("afaf/5f5f/5f5f"), // 131 C_STR("afaf/5f5f/8787"), // 132 C_STR("afaf/5f5f/afaf"), // 133 C_STR("afaf/5f5f/d7d7"), // 134 C_STR("afaf/5f5f/ffff"), // 135 C_STR("afaf/8787/0000"), // 136 C_STR("afaf/8787/5f5f"), // 137 C_STR("afaf/8787/8787"), // 138 C_STR("afaf/8787/afaf"), // 139 C_STR("afaf/8787/d7d7"), // 140 C_STR("afaf/8787/ffff"), // 141 C_STR("afaf/afaf/0000"), // 142 C_STR("afaf/afaf/5f5f"), // 143 C_STR("afaf/afaf/8787"), // 144 C_STR("afaf/afaf/afaf"), // 145 C_STR("afaf/afaf/d7d7"), // 146 C_STR("afaf/afaf/ffff"), // 147 C_STR("afaf/d7d7/0000"), // 148 C_STR("afaf/d7d7/5f5f"), // 149 C_STR("afaf/d7d7/8787"), // 150 C_STR("afaf/d7d7/afaf"), // 151 C_STR("afaf/d7d7/d7d7"), // 152 C_STR("afaf/d7d7/ffff"), // 153 C_STR("afaf/ffff/0000"), // 154 C_STR("afaf/ffff/5f5f"), // 155 C_STR("afaf/ffff/8787"), // 156 C_STR("afaf/ffff/afaf"), // 157 C_STR("afaf/ffff/d7d7"), // 158 C_STR("afaf/ffff/ffff"), // 159 C_STR("d7d7/0000/0000"), // 160 C_STR("d7d7/0000/5f5f"), // 161 C_STR("d7d7/0000/8787"), // 162 C_STR("d7d7/0000/afaf"), // 163 C_STR("d7d7/0000/d7d7"), // 164 C_STR("d7d7/0000/ffff"), // 165 C_STR("d7d7/5f5f/0000"), // 166 C_STR("d7d7/5f5f/5f5f"), // 167 C_STR("d7d7/5f5f/8787"), // 168 C_STR("d7d7/5f5f/afaf"), // 169 C_STR("d7d7/5f5f/d7d7"), // 170 C_STR("d7d7/5f5f/ffff"), // 171 C_STR("d7d7/8787/0000"), // 172 C_STR("d7d7/8787/5f5f"), // 173 C_STR("d7d7/8787/8787"), // 174 C_STR("d7d7/8787/afaf"), // 175 C_STR("d7d7/8787/d7d7"), // 176 C_STR("d7d7/8787/ffff"), // 177 C_STR("d7d7/afaf/0000"), // 178 C_STR("d7d7/afaf/5f5f"), // 179 C_STR("d7d7/afaf/8787"), // 180 C_STR("d7d7/afaf/afaf"), // 181 C_STR("d7d7/afaf/d7d7"), // 182 C_STR("d7d7/afaf/ffff"), // 183 C_STR("d7d7/d7d7/0000"), // 184 C_STR("d7d7/d7d7/5f5f"), // 185 C_STR("d7d7/d7d7/8787"), // 186 C_STR("d7d7/d7d7/afaf"), // 187 C_STR("d7d7/d7d7/d7d7"), // 188 C_STR("d7d7/d7d7/ffff"), // 189 C_STR("d7d7/ffff/0000"), // 190 C_STR("d7d7/ffff/5f5f"), // 191 C_STR("d7d7/ffff/8787"), // 192 C_STR("d7d7/ffff/afaf"), // 193 C_STR("d7d7/ffff/d7d7"), // 194 C_STR("d7d7/ffff/ffff"), // 195 C_STR("ffff/0000/0000"), // 196 C_STR("ffff/0000/5f5f"), // 197 C_STR("ffff/0000/8787"), // 198 C_STR("ffff/0000/afaf"), // 199 C_STR("ffff/0000/d7d7"), // 200 C_STR("ffff/0000/ffff"), // 201 C_STR("ffff/5f5f/0000"), // 202 C_STR("ffff/5f5f/5f5f"), // 203 C_STR("ffff/5f5f/8787"), // 204 C_STR("ffff/5f5f/afaf"), // 205 C_STR("ffff/5f5f/d7d7"), // 206 C_STR("ffff/5f5f/ffff"), // 207 C_STR("ffff/8787/0000"), // 208 C_STR("ffff/8787/5f5f"), // 209 C_STR("ffff/8787/8787"), // 210 C_STR("ffff/8787/afaf"), // 211 C_STR("ffff/8787/d7d7"), // 212 C_STR("ffff/8787/ffff"), // 213 C_STR("ffff/afaf/0000"), // 214 C_STR("ffff/afaf/5f5f"), // 215 C_STR("ffff/afaf/8787"), // 216 C_STR("ffff/afaf/afaf"), // 217 C_STR("ffff/afaf/d7d7"), // 218 C_STR("ffff/afaf/ffff"), // 219 C_STR("ffff/d7d7/0000"), // 220 C_STR("ffff/d7d7/5f5f"), // 221 C_STR("ffff/d7d7/8787"), // 222 C_STR("ffff/d7d7/afaf"), // 223 C_STR("ffff/d7d7/d7d7"), // 224 C_STR("ffff/d7d7/ffff"), // 225 C_STR("ffff/ffff/0000"), // 226 C_STR("ffff/ffff/5f5f"), // 227 C_STR("ffff/ffff/8787"), // 228 C_STR("ffff/ffff/afaf"), // 229 C_STR("ffff/ffff/d7d7"), // 230 C_STR("ffff/ffff/ffff"), // 231 C_STR("0808/0808/0808"), // 232 C_STR("1212/1212/1212"), // 233 C_STR("1c1c/1c1c/1c1c"), // 234 C_STR("2626/2626/2626"), // 235 C_STR("3030/3030/3030"), // 236 C_STR("3a3a/3a3a/3a3a"), // 237 C_STR("4444/4444/4444"), // 238 C_STR("4e4e/4e4e/4e4e"), // 239 C_STR("5858/5858/5858"), // 240 C_STR("6262/6262/6262"), // 241 C_STR("6c6c/6c6c/6c6c"), // 242 C_STR("7676/7676/7676"), // 243 C_STR("8080/8080/8080"), // 244 C_STR("8a8a/8a8a/8a8a"), // 245 C_STR("9494/9494/9494"), // 246 C_STR("9e9e/9e9e/9e9e"), // 247 C_STR("a8a8/a8a8/a8a8"), // 248 C_STR("b2b2/b2b2/b2b2"), // 249 C_STR("bcbc/bcbc/bcbc"), // 250 C_STR("c6c6/c6c6/c6c6"), // 251 C_STR("d0d0/d0d0/d0d0"), // 252 C_STR("dada/dada/dada"), // 253 C_STR("e4e4/e4e4/e4e4"), // 254 C_STR("eeee/eeee/eeee"), // 255 0 }; //---------------------------------------------------------------------- void check_c_string ( const char* s1 , const char* s2 , CppUnit::SourceLine sourceLine ) { if ( s1 == 0 && s2 == 0 ) // Strings are equal return; if ( s1 && s2 && std::strcmp (s1, s2) == 0 ) // Strings are equal return; ::CppUnit::Asserter::fail ("Strings are not equal", sourceLine); } //---------------------------------------------------------------------- // class FTermDetectionTest //---------------------------------------------------------------------- #pragma pack(push) #pragma pack(1) class FTermDetectionTest : public CPPUNIT_NS::TestFixture { public: // Enumeration enum console { ansi, xterm, rxvt, urxvt, mlterm, putty, kde_konsole, gnome_terminal, kterm, tera_term, cygwin, mintty, linux_con, freebsd_con, netbsd_con, openbsd_con, sun_con, screen, tmux }; FTermDetectionTest(); ~FTermDetectionTest(); protected: void classNameTest(); void ansiTest(); void xtermTest(); void rxvtTest(); void urxvtTest(); void mltermTest(); void puttyTest(); void kdeKonsoleTest(); void gnomeTerminalTest(); void ktermTest(); void teraTermTest(); void cygwinTest(); void minttyTest(); void linuxTest(); void freebsdTest(); void netbsdTest(); void openbsdTest(); void sunTest(); void screenTest(); void tmuxTest(); void ttytypeTest(); private: char* getAnswerback (console); char* getDSR (console); char* getDECID (console); char* getDA (console); char* getDA1 (console); char* getSEC_DA (console); void debugOutput(); bool openMasterPTY(); bool openSlavePTY(); void closeMasterPTY(); void closeSlavePTY(); void closeStandardStreams(); pid_t forkProcess(); bool isChildProcess (pid_t); void terminalSimulation (console); void parseTerminalBuffer (int, console); // Adds code needed to register the test suite CPPUNIT_TEST_SUITE (FTermDetectionTest); // Add a methods to the test suite CPPUNIT_TEST (classNameTest); CPPUNIT_TEST (ansiTest); CPPUNIT_TEST (xtermTest); CPPUNIT_TEST (rxvtTest); CPPUNIT_TEST (urxvtTest); CPPUNIT_TEST (mltermTest); CPPUNIT_TEST (puttyTest); CPPUNIT_TEST (kdeKonsoleTest); CPPUNIT_TEST (gnomeTerminalTest); CPPUNIT_TEST (ktermTest); CPPUNIT_TEST (teraTermTest); CPPUNIT_TEST (cygwinTest); CPPUNIT_TEST (minttyTest); CPPUNIT_TEST (linuxTest); CPPUNIT_TEST (freebsdTest); CPPUNIT_TEST (netbsdTest); CPPUNIT_TEST (openbsdTest); CPPUNIT_TEST (sunTest); CPPUNIT_TEST (screenTest); CPPUNIT_TEST (tmuxTest); CPPUNIT_TEST (ttytypeTest); // End of test suite definition CPPUNIT_TEST_SUITE_END(); // Data Members int fd_stdin; int fd_stdout; int fd_stderr; int fd_master; int fd_slave; bool debug; char buffer[2048]; static bool* shared_state; }; #pragma pack(pop) // static class attributes bool* FTermDetectionTest::shared_state = 0; //---------------------------------------------------------------------- FTermDetectionTest::FTermDetectionTest() : fd_stdin(fileno(stdin)) , fd_stdout(fileno(stdout)) , fd_stderr(fileno(stderr)) , fd_master(-1) , fd_slave(-1) , debug(false) { // Map shared memory void* ptr = mmap ( NULL , sizeof(*shared_state) , PROT_READ | PROT_WRITE , MAP_SHARED | MAP_ANONYMOUS, -1 , 0 ); shared_state = static_cast(ptr); *shared_state = false; } //---------------------------------------------------------------------- FTermDetectionTest::~FTermDetectionTest() { closeMasterPTY(); closeSlavePTY(); // Unmap shared memory munmap (shared_state, sizeof(*shared_state)); } //---------------------------------------------------------------------- void FTermDetectionTest::classNameTest() { FTermDetection d; const char* const classname = d.getClassName(); CPPUNIT_ASSERT ( std::strcmp(classname, "FTermDetection") == 0 ); } //---------------------------------------------------------------------- void FTermDetectionTest::ansiTest() { setenv ("TERM", "ansi", 1); FTermDetection detect; detect.setTermFileName(C_STR("ansi")); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "ansi", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( ! detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("ansi") ); // Test fallback to vt100 without TERM environment variable unsetenv("TERM"); detect.setAnsiTerminal(false); detect.detect(); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (ansi); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::xtermTest() { FTermDetection detect; detect.setTermFileName(C_STR("xterm")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "xterm", 1); setenv ("XTERM_VERSION", "XTerm(312)", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (xterm); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::rxvtTest() { FTermDetection detect; detect.setTermFileName(C_STR("rxvt-cygwin-native")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "rxvt-cygwin-native", 1); setenv ("COLORTERM", "rxvt-xpm", 1); unsetenv("TERMCAP"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (rxvt); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::urxvtTest() { FTermDetection detect; detect.setTermFileName(C_STR("rxvt-unicode-256color")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "rxvt-unicode-256color", 1); setenv ("COLORTERM", "rxvt-xpm", 1); unsetenv("TERMCAP"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (urxvt); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::mltermTest() { FTermDetection detect; detect.setTermFileName(C_STR("mlterm")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "mlterm", 1); setenv ("MLTERM", "3.8.4", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (mlterm); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::puttyTest() { FTermDetection detect; detect.setTermFileName(C_STR("xterm")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "xterm", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debug = true; debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (putty); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::kdeKonsoleTest() { FTermDetection detect; detect.setTermFileName(C_STR("xterm-256color")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "xterm-256color", 1); setenv ("COLORTERM", "truecolor", 1); setenv ("KONSOLE_DBUS_SERVICE", "DCOPRef(konsole-11768,konsole)", 1); setenv ("KONSOLE_DCOP", ":1.77", 1); unsetenv("TERMCAP"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (kde_konsole); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::gnomeTerminalTest() { FTermDetection detect; detect.setTermFileName(C_STR("xterm-256color")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "xterm-256color", 1); setenv ("COLORTERM", "truecolor", 1); setenv ("VTE_VERSION", "5202", 1); unsetenv("TERMCAP"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (gnome_terminal); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::ktermTest() { FTermDetection detect; detect.setTermFileName(C_STR("kterm")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "kterm", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( ! detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); // Test fallback to vt100 without TERM environment variable unsetenv("TERM"); detect.setKtermTerminal(false); detect.detect(); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (kterm); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::teraTermTest() { FTermDetection detect; detect.setTermFileName(C_STR("xterm")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "xterm", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (tera_term); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::cygwinTest() { FTermDetection detect; detect.setTermFileName(C_STR("cygwin")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "cygwin", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (cygwin); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::minttyTest() { FTermDetection detect; detect.setTermFileName(C_STR("xterm-256color")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "xterm-256color", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (mintty); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::linuxTest() { FTermDetection detect; detect.setTermFileName(C_STR("linux")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "linux", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); // Test fallback to vt100 without TERM environment variable unsetenv("TERM"); detect.setLinuxTerm(false); detect.detect(); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (linux_con); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::freebsdTest() { FTermDetection detect; detect.setTermFileName(C_STR("xterm")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "xterm", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); detect.setFreeBSDTerm (true); // Fake FreeBSD Console detection CPPUNIT_ASSERT ( detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); // Test fallback to vt100 without TERM environment variable unsetenv("TERM"); detect.setXTerminal (false); detect.setFreeBSDTerm(false); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (freebsd_con); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::netbsdTest() { FTermDetection detect; detect.setTermFileName(C_STR("wsvt25")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "wsvt25", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); detect.setNetBSDTerm (true); // Fake NetBSD Console detection CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); // Test fallback to vt100 without TERM environment variable unsetenv("TERM"); detect.setNetBSDTerm(false); detect.detect(); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (netbsd_con); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::openbsdTest() { FTermDetection detect; detect.setTermFileName(C_STR("vt220")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "vt220", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); detect.setOpenBSDTerm (true); // Fake OpenBSD Console detection CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); // Test fallback to vt100 without TERM environment variable unsetenv("TERM"); detect.setOpenBSDTerm(false); detect.detect(); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (openbsd_con); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::sunTest() { FTermDetection detect; detect.setTermFileName(C_STR("sun-color")); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "sun-color", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( detect.isSunTerminal() ); CPPUNIT_ASSERT ( ! detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( ! detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); // Test fallback to vt100 without TERM environment variable unsetenv("TERM"); detect.setSunTerminal(false); detect.detect(); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (sun_con); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::screenTest() { FTermDetection detect; detect.setTermFileName(C_STR("screen")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "screen", 1); setenv ("TERMCAP", "SC|screen|VT 100/ANSI X3.64 virtual terminal:...", 1); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( detect.isScreenTerm() ); CPPUNIT_ASSERT ( ! detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (screen); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::tmuxTest() { FTermDetection detect; detect.setTermFileName(C_STR("screen")); detect.setTerminalDetection(true); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { setenv ("TERM", "screen", 1); setenv ("TMUX", "/tmp/tmux-1000/default,7844,0", 1); setenv ("TMUX_PANE", "%0", 1); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); detect.detect(); CPPUNIT_ASSERT ( ! detect.isXTerminal() ); CPPUNIT_ASSERT ( ! detect.isAnsiTerminal() ); CPPUNIT_ASSERT ( ! detect.isRxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isUrxvtTerminal() ); CPPUNIT_ASSERT ( ! detect.isMltermTerminal() ); CPPUNIT_ASSERT ( ! detect.isPuttyTerminal() ); CPPUNIT_ASSERT ( ! detect.isKdeTerminal() ); CPPUNIT_ASSERT ( ! detect.isGnomeTerminal() ); CPPUNIT_ASSERT ( ! detect.isKtermTerminal() ); CPPUNIT_ASSERT ( ! detect.isTeraTerm() ); CPPUNIT_ASSERT ( ! detect.isCygwinTerminal() ); CPPUNIT_ASSERT ( ! detect.isMinttyTerm() ); CPPUNIT_ASSERT ( ! detect.isLinuxTerm() ); CPPUNIT_ASSERT ( ! detect.isFreeBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isNetBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isOpenBSDTerm() ); CPPUNIT_ASSERT ( ! detect.isSunTerminal() ); CPPUNIT_ASSERT ( detect.isScreenTerm() ); CPPUNIT_ASSERT ( detect.isTmuxTerm() ); CPPUNIT_ASSERT ( ! detect.canDisplay256Colors() ); CPPUNIT_ASSERT ( detect.hasTerminalDetection() ); CPPUNIT_ASSERT ( ! detect.hasSetCursorStyleSupport() ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (tmux); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } } //---------------------------------------------------------------------- void FTermDetectionTest::ttytypeTest() { struct stat sb = { }; if ( stat("new-root-dir", &sb) == -1 ) if ( mkdir("new-root-dir", 0755) == -1 ) return; if ( stat("new-root-dir/etc", &sb) == -1 ) if ( mkdir("new-root-dir/etc", 0755) == -1 ) return; // Write a own /etc/ttytype file std::ofstream ttytype ("new-root-dir/etc/ttytype"); if ( ! ttytype.is_open() ) { rmdir("new-root-dir/etc"); rmdir("new-root-dir"); return; } ttytype << "linux" << "\t" << "tty1" << std::endl; ttytype << "linux" << "\t" << "tty2" << std::endl; ttytype << "linux" << "\t" << "tty3" << std::endl; ttytype << "linux" << "\t" << "tty4" << std::endl; ttytype << "linux" << "\t" << "tty5" << std::endl; ttytype << "linux" << "\t" << "tty6" << std::endl; ttytype << "vt100" << "\t" << "ttyp0" << std::endl; ttytype << "vt100" << "\t" << "ttyp1" << std::endl; ttytype << "vt100" << "\t" << "ttyp2" << std::endl; ttytype << "vt100" << "\t" << "ttyp3" << std::endl; ttytype << "vt100" << "\t" << "ttyp4" << std::endl; ttytype << "vt100" << "\t" << "ttyp5" << std::endl; ttytype << "vt100" << "\t" << "ttyp6" << std::endl; ttytype.close(); FTermDetection detect; detect.setTerminalDetection(true); detect.setTtyTypeFileName(C_STR("new-root-dir/etc/ttytype")); pid_t pid = forkProcess(); if ( isChildProcess(pid) ) { unsetenv("TERM"); unsetenv("TERMCAP"); unsetenv("COLORTERM"); unsetenv("VTE_VERSION"); unsetenv("XTERM_VERSION"); unsetenv("ROXTERM_ID"); unsetenv("KONSOLE_DBUS_SESSION"); unsetenv("KONSOLE_DCOP"); unsetenv("TMUX"); // Test /dev/tty3 with linux detect.setTermFileName(C_STR("/dev/tty3")); detect.detect(); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("linux") ); // Test /dev/ttyp0 with vt100 detect.setTermFileName(C_STR("/dev/ttyp0")); detect.detect(); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); // Test non-existent /dev/tty8 with fallback to vt100 detect.setTermFileName(C_STR("/dev/tty8")); detect.detect(); CPPUNIT_ASSERT_CSTRING ( detect.getTermType(), C_STR("vt100") ); debugOutput(); closeStandardStreams(); exit(EXIT_SUCCESS); } else // Parent { // Start the terminal simulation terminalSimulation (ansi); if ( waitpid(pid, 0, 0) != pid ) std::cerr << "waitpid error" << std::endl; } unlink("new-root-dir/etc/ttytype"); rmdir("new-root-dir/etc"); rmdir("new-root-dir"); } // private methods of FOptiMoveTest //---------------------------------------------------------------------- char* FTermDetectionTest::getAnswerback (console con) { static char* Answerback[] = { 0, // Ansi, 0, // XTerm 0, // Rxvt 0, // Urxvt 0, // mlterm - Multi Lingual TERMinal C_STR("PuTTY"), // PuTTY 0, // KDE Konsole 0, // GNOME Terminal 0, // kterm, 0, // Tera Term 0, // Cygwin 0, // Mintty 0, // Linux console 0, // FreeBSD console 0, // NetBSD console 0, // OpenBSD console 0, // Sun console 0, // screen 0 // tmux }; return Answerback[con]; } //---------------------------------------------------------------------- char* FTermDetectionTest::getDSR (console con) { static char* DSR[] = { 0, // Ansi, C_STR("\033[0n"), // XTerm C_STR("\033[0n"), // Rxvt C_STR("\033[0n"), // Urxvt C_STR("\033[0n"), // mlterm - Multi Lingual TERMinal C_STR("\033[0n"), // PuTTY C_STR("\033[0n"), // KDE Konsole C_STR("\033[0n"), // GNOME Terminal C_STR("\033[0n"), // kterm, C_STR("\033[0n"), // Tera Term 0, // Cygwin C_STR("\033[0n"), // Mintty C_STR("\033[0n"), // Linux console C_STR("\033[0n"), // FreeBSD console C_STR("\033[0n"), // NetBSD console C_STR("\033[0n"), // OpenBSD console 0, // Sun console C_STR("\033[0n"), // screen C_STR("\033[0n") // tmux }; return DSR[con]; } //---------------------------------------------------------------------- char* FTermDetectionTest::getDECID (console con) { static char* DECID[] = { 0, // Ansi, C_STR("\033[?63;1;2;6;4;6;9;15;22c"), // XTerm C_STR("\033[?1;2c"), // Rxvt C_STR("\033[?1;2c"), // Urxvt C_STR("\033[?63;1;2;3;4;7;29c"), // mlterm - Multi Lingual TERMinal C_STR("\033[?6c"), // PuTTY C_STR("\033[?1;2c"), // KDE Konsole C_STR("\033[?62;c"), // GNOME Terminal C_STR("\033[?1;2c"), // kterm, C_STR("\033[?1;2c"), // Tera Term 0, // Cygwin C_STR("\033[?1;2;6;22c"), // Mintty C_STR("\033[?6c"), // Linux console 0, // FreeBSD console 0, // NetBSD console 0, // OpenBSD console 0, // Sun console C_STR("\033[?1;2c"), // screen 0 // tmux }; return DECID[con]; } //---------------------------------------------------------------------- char* FTermDetectionTest::getDA (console con) { static char* DA[] = { 0, // Ansi, C_STR("\033[?63;1;2;6;4;6;9;15;22c"), // XTerm C_STR("\033[?1;2c"), // Rxvt C_STR("\033[?1;2c"), // Urxvt C_STR("\033[?63;1;2;3;4;7;29c"), // mlterm - Multi Lingual TERMinal C_STR("\033[?6c"), // PuTTY C_STR("\033[?1;2c"), // KDE Konsole C_STR("\033[?62;c"), // GNOME Terminal C_STR("\033[?1;2c"), // kterm, C_STR("\033[?1;2c"), // Tera Term C_STR("\033[?6c"), // Cygwin C_STR("\033[?1;2;6;22c"), // Mintty C_STR("\033[?6c"), // Linux console C_STR("\033[?1;2c"), // FreeBSD console C_STR("\033[?62;6c"), // NetBSD console C_STR("\033[?62;6c"), // OpenBSD console 0, // Sun console C_STR("\033[?1;2c"), // screen C_STR("\033[?1;2c") // tmux }; return DA[con]; } //---------------------------------------------------------------------- char* FTermDetectionTest::getDA1 (console con) { static char* DA1[] = { 0, // Ansi, 0, // XTerm C_STR("\033[?1;2c"), // Rxvt C_STR("\033[?1;2c"), // Urxvt C_STR("\033[?63;1;2;3;4;7;29c"), // mlterm - Multi Lingual TERMinal C_STR("\033[?6c"), // PuTTY C_STR("\033[?1;2c"), // KDE Konsole C_STR("\033[?62;c"), // GNOME Terminal 0, // kterm, C_STR("\033[?1;2c"), // Tera Term C_STR("\033[?6c"), // Cygwin C_STR("\033[?1;2;6;22c"), // Mintty 0, // Linux console 0, // FreeBSD console 0, // NetBSD console 0, // OpenBSD console 0, // Sun console 0, // screen 0 // tmux }; return DA1[con]; } //---------------------------------------------------------------------- char* FTermDetectionTest::getSEC_DA (console con) { static char* SEC_DA[] = { 0, // Ansi, C_STR("\033[>19;312;0c"), // XTerm C_STR("\033[>82;20710;0c"), // Rxvt C_STR("\033[>85;95;0c"), // Urxvt C_STR("\033[>24;279;0c"), // mlterm - Multi Lingual TERMinal C_STR("\033[>0;136;0c"), // PuTTY C_STR("\033[>0;115;0c"), // KDE Konsole C_STR("\033[>1;5202;0c"), // GNOME Terminal C_STR("\033[?1;2c"), // kterm, C_STR("\033[>32;278;0c"), // Tera Term C_STR("\033[>67;200502;0c"), // Cygwin C_STR("\033[>77;20402;0c"), // Mintty 0, // Linux console 0, // FreeBSD console 0, // NetBSD console 0, // OpenBSD console 0, // Sun console C_STR("\033[>83;40201;0c"), // screen C_STR("\033[>84;0;0c") // tmux }; return SEC_DA[con]; } //---------------------------------------------------------------------- void FTermDetectionTest::debugOutput() { if ( ! debug ) return; setenv ("DSR", "\\033[5n", 1); setenv ("CURSOR_POS", "\\033[6n", 1); setenv ("DECID", "\\033Z", 1); setenv ("DA", "\\033[c", 1); setenv ("DA1", "\\033[1c", 1); setenv ("SEC_DA", "\\033[>c", 1); setenv ("ANSWERBACK", "\\005", 1); setenv ("TITLE", "\\033[21t", 1); setenv ("COLOR16", "\\033]4;15;?\\a", 1); setenv ("COLOR88", "\\033]4;87;?\\a", 1); setenv ("COLOR256", "\\033]4;254;?\\a", 1); setenv ("GO_MIDDLE", "\\033[80D\\033[15C", 1); setenv ("GO_RIGHT", "\\033[79D\\033[40C", 1); FString line (69, '-'); std::cout << std::endl << line << std::endl; std::cout << "Probe Escape sequence Reply"; std::cout << std::endl << line << std::endl; // Command line char* child_av[] = { C_STR("/bin/bash"), C_STR("-c"), C_STR("for i in DSR CURSOR_POS DECID DA DA1 SEC_DA ANSWERBACK \ TITLE COLOR16 COLOR88 COLOR256; \ do \ eval \"echo -en \\\"$i${GO_MIDDLE}\\\"; \ echo -n \\\"\\${$i}\\\"; \ echo -en \\\"${GO_RIGHT}\\${$i}\\\"\"; \ sleep 0.5; \ echo -e \"\\r\"; \ done"), 0 }; execvp(child_av[0], child_av); } //---------------------------------------------------------------------- bool FTermDetectionTest::openMasterPTY() { int result; // Open a pseudoterminal device fd_master = posix_openpt(O_RDWR); if ( fd_master < 0 ) return false; // Change the slave pseudoterminal access rights result = grantpt(fd_master); if ( result != 0 ) return false; // Unlock the pseudoterminal master/slave pair result = unlockpt(fd_master); if ( result != 0 ) return false; return true; } //---------------------------------------------------------------------- bool FTermDetectionTest::openSlavePTY() { closeSlavePTY(); // Get PTY filename const char* pty_name = ptsname(fd_master); if ( pty_name == 0 ) return false; // Open the slave PTY fd_slave = open(pty_name, O_RDWR); if ( fd_slave < 0 ) return false; return true; } //---------------------------------------------------------------------- void FTermDetectionTest::closeMasterPTY() { if ( fd_master <= 0 ) return; close (fd_master); fd_master = -1; } //---------------------------------------------------------------------- void FTermDetectionTest::closeSlavePTY() { if ( fd_slave <= 0 ) return; close (fd_slave); fd_slave = -1; } //---------------------------------------------------------------------- void FTermDetectionTest::closeStandardStreams() { close(fd_stdin); // stdin close(fd_stdout); // stdout close(fd_stderr); // stderr } //---------------------------------------------------------------------- pid_t FTermDetectionTest::forkProcess() { // Initialize buffer with '\0' std::fill_n (buffer, sizeof(buffer), '\0'); bool result = openMasterPTY(); if ( ! result ) return -1; result = openSlavePTY(); if ( ! result ) return -1; pid_t pid = fork(); // Create a child process if ( pid < 0) // Fork failed return -1; if ( isChildProcess(pid) ) // Child process { struct termios term_settings; closeMasterPTY(); // Creates a session and makes the current process to the leader setsid(); #ifdef TIOCSCTTY // Set controlling tty if ( ioctl(fd_slave, TIOCSCTTY, 0) == -1 ) { *shared_state = true; return -1; } #endif // Get current terminal settings result = tcgetattr(fd_slave, &term_settings); // Set raw mode on the slave side of the PTY cfmakeraw (&term_settings); tcsetattr (fd_slave, TCSANOW, &term_settings); #ifdef TIOCSWINSZ // Set slave tty window size struct winsize size; size.ws_row = 25; size.ws_col = 80; if ( ioctl(fd_slave, TIOCSWINSZ, &size) == -1) { *shared_state = true; return -1; } #endif closeStandardStreams(); fd_stdin = dup(fd_slave); // PTY becomes stdin (0) fd_stdout = dup(fd_slave); // PTY becomes stdout (1) fd_stderr = dup(fd_slave); // PTY becomes stderr (2) closeSlavePTY(); // The child process is now ready for input *shared_state = true; } else { const int timeout = 150; // 1.5 seconds int i = 0; // Wait until the child process is ready for input while ( ! *shared_state && i < timeout ) { usleep(10000); // wait 10 ms i++; } *shared_state = false; } return pid; } //---------------------------------------------------------------------- inline bool FTermDetectionTest::isChildProcess (pid_t pid) { return bool( pid == 0 ); } //---------------------------------------------------------------------- void FTermDetectionTest::terminalSimulation (console con) { closeSlavePTY(); while ( 1 ) { fd_set ifds; struct timeval tv; int len; FD_ZERO(&ifds); FD_SET(fd_stdin, &ifds); FD_SET(fd_master, &ifds); tv.tv_sec = 0; tv.tv_usec = 750000; // 750 ms // Wait for data from stdin or the master side of PTY if ( select(fd_master + 1, &ifds, 0, 0, &tv) < 0 ) break; // Data on standard input if ( FD_ISSET(fd_stdin, &ifds) ) { len = read (fd_stdin, buffer, sizeof(buffer)); if ( len > 0 ) write (fd_master, buffer, len); // Send data to the master side } // Data on the master side of PTY if ( FD_ISSET(fd_master, &ifds) ) { len = read (fd_master, buffer, sizeof(buffer)); if ( len < 0 ) break; else if ( len > 0 ) parseTerminalBuffer (len, con); } } } //---------------------------------------------------------------------- void FTermDetectionTest::parseTerminalBuffer (int length, console con) { for (int i = 0; i < length; i++) { if ( buffer[i] == ENQ[0] ) // Enquiry character { char* answer = getAnswerback(con); if ( answer ) write(fd_master, answer, std::strlen(answer)); } else if ( i < length - 1 // Terminal ID (DECID) && buffer[i] == '\033' && buffer[i + 1] == 'Z' ) { char* DECID = getDECID(con); if ( DECID ) write (fd_master, DECID, std::strlen(DECID)); i += 2; } else if ( i < length - 3 // Device status report (DSR) && buffer[i] == '\033' && buffer[i + 1] == '[' && buffer[i + 2] == '5' && buffer[i + 3] == 'n' ) { char* DSR = getDSR(con); if ( DSR ) write (fd_master, DSR, std::strlen(DSR)); i += 4; } else if ( i < length - 3 // Report cursor position (CPR) && buffer[i] == '\033' && buffer[i + 1] == '[' && buffer[i + 2] == '6' && buffer[i + 3] == 'n' ) { write (fd_master, "\033[25;80R", 8); // row 25 ; column 80 i += 4; } else if ( i < length - 2 // Device attributes (DA) && buffer[i] == '\033' && buffer[i + 1] == '[' && buffer[i + 2] == 'c' ) { char* DA = getDA(con); if ( DA ) write (fd_master, DA, std::strlen(DA)); i += 3; } else if ( i < length - 3 // Device attributes (DA1) && buffer[i] == '\033' && buffer[i + 1] == '[' && buffer[i + 2] == '1' && buffer[i + 3] == 'c' ) { char* DA1 = getDA1(con); if ( DA1 ) write (fd_master, DA1, std::strlen(DA1)); i += 4; } else if ( i < length - 3 // Secondary device attributes (SEC_DA) && buffer[i] == '\033' && buffer[i + 1] == '[' && buffer[i + 2] == '>' && buffer[i + 3] == 'c' ) { char* SEC_DA = getSEC_DA(con); if ( SEC_DA ) write (fd_master, SEC_DA, std::strlen(SEC_DA)); i += 4; } else if ( i < length - 4 // Report xterm window's title && buffer[i] == '\033' && buffer[i + 1] == '[' && buffer[i + 2] == '2' && buffer[i + 3] == '1' && buffer[i + 4] == 't' ) { if ( con == urxvt ) write (fd_master, "\033]l", 3); else if ( con == tera_term ) write (fd_master, "\033]l\033\\", 5); else if ( con == screen ) write (fd_master, "\033]lbash\033\\", 9); else if ( con != ansi && con != rxvt && con != mlterm && con != kde_konsole && con != kterm && con != cygwin && con != mintty && con != linux_con && con != freebsd_con && con != netbsd_con && con != openbsd_con && con != sun_con && con != tmux ) write (fd_master, "\033]lTITLE\033\\", 10); i += 5; } else if ( i < length - 7 // Get xterm color name 0-9 && buffer[i] == '\033' && buffer[i + 1] == ']' && buffer[i + 2] == '4' && buffer[i + 3] == ';' && buffer[i + 4] >= '0' && buffer[i + 4] <= '9' && buffer[i + 5] == ';' && buffer[i + 6] == '?' && buffer[i + 7] == '\a' ) { if ( con != ansi && con != rxvt && con != kde_konsole && con != kterm && con != cygwin && con != mintty && con != linux_con && con != freebsd_con && con != netbsd_con && con != openbsd_con && con != sun_con && con != screen && con != tmux ) { int n = buffer[i + 4] - '0'; write (fd_master, "\033]4;", 4); write (fd_master, &buffer[i + 4], 1); write (fd_master, ";rgb:", 5); write (fd_master, colorname[n], 14); write (fd_master, "\a", 1); } i += 8; } else if ( i < length - 8 // Get xterm color name 0-9 && buffer[i] == '\033' && buffer[i + 1] == ']' && buffer[i + 2] == '4' && buffer[i + 3] == ';' && buffer[i + 4] >= '0' && buffer[i + 4] <= '9' && buffer[i + 5] >= '0' && buffer[i + 5] <= '9' && buffer[i + 6] == ';' && buffer[i + 7] == '?' && buffer[i + 8] == '\a' ) { if ( con != ansi && con != rxvt && con != kde_konsole && con != kterm && con != cygwin && con != mintty && con != linux_con && con != freebsd_con && con != netbsd_con && con != openbsd_con && con != sun_con && con != screen && con != tmux ) { int n = (buffer[i + 4] - '0') * 10 + (buffer[i + 5] - '0'); write (fd_master, "\033]4;", 4); write (fd_master, &buffer[i + 4], 1); write (fd_master, &buffer[i + 5], 1); write (fd_master, ";rgb:", 5); write (fd_master, colorname[n], 14); write (fd_master, "\a", 1); } i += 9; } else if ( i < length - 9 // Get xterm color name 0-9 && buffer[i] == '\033' && buffer[i + 1] == ']' && buffer[i + 2] == '4' && buffer[i + 3] == ';' && buffer[i + 4] >= '0' && buffer[i + 4] <= '9' && buffer[i + 5] >= '0' && buffer[i + 5] <= '9' && buffer[i + 6] >= '0' && buffer[i + 6] <= '9' && buffer[i + 7] == ';' && buffer[i + 8] == '?' && buffer[i + 9] == '\a' ) { if ( con != ansi && con != rxvt && con != kde_konsole && con != kterm && con != cygwin && con != mintty && con != linux_con && con != freebsd_con && con != netbsd_con && con != openbsd_con && con != sun_con && con != screen && con != tmux ) { int n = (buffer[i + 4] - '0') * 100 + (buffer[i + 5] - '0') * 10 + (buffer[i + 6] - '0'); if ( n < 256 ) { write (fd_master, "\033]4;", 4); write (fd_master, &buffer[i + 4], 1); write (fd_master, &buffer[i + 5], 1); write (fd_master, &buffer[i + 6], 1); write (fd_master, ";rgb:", 5); write (fd_master, colorname[n], 14); write (fd_master, "\a", 1); } } i += 10; } else { write (fd_stdout, &buffer[i], 1); // Send data to stdout } } } // Put the test suite in the registry CPPUNIT_TEST_SUITE_REGISTRATION (FTermDetectionTest); // The general unit test main part #include