public void testDeprecatedUmask() { Configuration conf = new Configuration(); conf.set(FsPermission.DEPRECATED_UMASK_LABEL, "302"); // 302 = 0456 FsPermission umask = FsPermission.getUMask(conf); assertEquals(0456, umask.toShort()); } }
public void testBadUmasks() { Configuration conf = new Configuration(); for(String b : new String [] {"1777", "22", "99", "foo", ""}) { conf.set(FsPermission.UMASK_LABEL, b); try { FsPermission.getUMask(conf); fail("Shouldn't have been able to parse bad umask"); } catch(IllegalArgumentException iae) { assertTrue("Exception should specify parsing error and invalid umask: " + iae.getMessage(), isCorrectExceptionMessage(iae.getMessage(), b)); } } }
public void testFsAction() { //implies for(FsAction a : FsAction.values()) { assertTrue(ALL.implies(a)); } for(FsAction a : FsAction.values()) { assertTrue(a == NONE? NONE.implies(a): !NONE.implies(a)); } for(FsAction a : FsAction.values()) { assertTrue(a == READ_EXECUTE || a == READ || a == EXECUTE || a == NONE? READ_EXECUTE.implies(a): !READ_EXECUTE.implies(a)); } //masks assertEquals(EXECUTE, EXECUTE.and(READ_EXECUTE)); assertEquals(READ, READ.and(READ_EXECUTE)); assertEquals(NONE, WRITE.and(READ_EXECUTE)); assertEquals(READ, READ_EXECUTE.and(READ_WRITE)); assertEquals(NONE, READ_EXECUTE.and(WRITE)); assertEquals(WRITE_EXECUTE, ALL.and(WRITE_EXECUTE)); }
public void testFsAction() { //implies for(FsAction a : FsAction.values()) { assertTrue(ALL.implies(a)); } for(FsAction a : FsAction.values()) { assertTrue(a == NONE? NONE.implies(a): !NONE.implies(a)); } for(FsAction a : FsAction.values()) { assertTrue(a == READ_EXECUTE || a == READ || a == EXECUTE || a == NONE? READ_EXECUTE.implies(a): !READ_EXECUTE.implies(a)); } //masks assertEquals(EXECUTE, EXECUTE.and(READ_EXECUTE)); assertEquals(READ, READ.and(READ_EXECUTE)); assertEquals(NONE, WRITE.and(READ_EXECUTE)); assertEquals(READ, READ_EXECUTE.and(READ_WRITE)); assertEquals(NONE, READ_EXECUTE.and(WRITE)); assertEquals(WRITE_EXECUTE, ALL.and(WRITE_EXECUTE)); }
public void testBadUmasks() { Configuration conf = new Configuration(); for(String b : new String [] {"1777", "22", "99", "foo", ""}) { conf.set(FsPermission.UMASK_LABEL, b); try { FsPermission.getUMask(conf); fail("Shouldn't have been able to parse bad umask"); } catch(IllegalArgumentException iae) { assertTrue("Exception should specify parsing error and invalid umask: " + iae.getMessage(), isCorrectExceptionMessage(iae.getMessage(), b)); } } }
public void testFsPermission() { String symbolic = "-rwxrwxrwx"; StringBuilder b = new StringBuilder("-123456789"); for(int i = 0; i < (1<<9); i++) { for(int j = 1; j < 10; j++) { b.setCharAt(j, '-'); } String binary = Integer.toBinaryString(i); int len = binary.length(); for(int j = 0; j < len; j++) { if (binary.charAt(j) == '1') { int k = 9 - (len - 1 - j); b.setCharAt(k, symbolic.charAt(k)); } } assertEquals(i, FsPermission.valueOf(b.toString()).toShort()); } }
public void testFsAction() { //implies for(FsAction a : FsAction.values()) { assertTrue(ALL.implies(a)); } for(FsAction a : FsAction.values()) { assertTrue(a == NONE? NONE.implies(a): !NONE.implies(a)); } for(FsAction a : FsAction.values()) { assertTrue(a == READ_EXECUTE || a == READ || a == EXECUTE || a == NONE? READ_EXECUTE.implies(a): !READ_EXECUTE.implies(a)); } //masks assertEquals(EXECUTE, EXECUTE.and(READ_EXECUTE)); assertEquals(READ, READ.and(READ_EXECUTE)); assertEquals(NONE, WRITE.and(READ_EXECUTE)); assertEquals(READ, READ_EXECUTE.and(READ_WRITE)); assertEquals(NONE, READ_EXECUTE.and(WRITE)); assertEquals(WRITE_EXECUTE, ALL.and(WRITE_EXECUTE)); }
public void testBadUmasks() { Configuration conf = new Configuration(); for(String b : new String [] {"1777", "22", "99", "foo", ""}) { conf.set(FsPermission.UMASK_LABEL, b); try { FsPermission.getUMask(conf); fail("Shouldn't have been able to parse bad umask"); } catch(IllegalArgumentException iae) { assertTrue("Exception should specify parsing error and invalid umask: " + iae.getMessage(), isCorrectExceptionMessage(iae.getMessage(), b)); } } }
/** * Ensure that when manually specifying permission modes we get * the expected values back out for all combinations */ public void testConvertingPermissions() { for(short s = 0; s < 01777; s++) { assertEquals(s, new FsPermission(s).toShort()); } short s = 0; for(boolean sb : new boolean [] { false, true }) { for(FsAction u : FsAction.values()) { for(FsAction g : FsAction.values()) { for(FsAction o : FsAction.values()) { FsPermission f = new FsPermission(u, g, o, sb); assertEquals(s, f.toShort()); FsPermission f2 = new FsPermission(f); assertEquals(s, f2.toShort()); s++; } } } } }
public void testUMaskParser() throws IOException { Configuration conf = new Configuration(); // Ensure that we get the right octal values back for all legal values for(FsAction u : FsAction.values()) { for(FsAction g : FsAction.values()) { for(FsAction o : FsAction.values()) { FsPermission f = new FsPermission(u, g, o); String asOctal = String.format("%1$03o", f.toShort()); conf.set(FsPermission.UMASK_LABEL, asOctal); FsPermission fromConf = FsPermission.getUMask(conf); assertEquals(f, fromConf); } } } }
public void testDeprecatedUmask() { Configuration conf = new Configuration(); conf.set(FsPermission.DEPRECATED_UMASK_LABEL, "302"); // 302 = 0456 FsPermission umask = FsPermission.getUMask(conf); assertEquals(0456, umask.toShort()); } }
public void testDeprecatedUmask() { Configuration conf = new Configuration(); conf.set(FsPermission.DEPRECATED_UMASK_LABEL, "302"); // 302 = 0456 FsPermission umask = FsPermission.getUMask(conf); assertEquals(0456, umask.toShort()); } }
public void testStickyBitToString() { // Check that every permission has its sticky bit represented correctly for(boolean sb : new boolean [] { false, true }) { for(FsAction u : FsAction.values()) { for(FsAction g : FsAction.values()) { for(FsAction o : FsAction.values()) { FsPermission f = new FsPermission(u, g, o, sb); if(f.getStickyBit() && f.getOtherAction().implies(EXECUTE)) assertEquals('t', f.toString().charAt(8)); else if(f.getStickyBit() && !f.getOtherAction().implies(EXECUTE)) assertEquals('T', f.toString().charAt(8)); else if(!f.getStickyBit() && f.getOtherAction().implies(EXECUTE)) assertEquals('x', f.toString().charAt(8)); else assertEquals('-', f.toString().charAt(8)); } } } } }
public void testFsPermission() { String symbolic = "-rwxrwxrwx"; for(int i = 0; i < (1 << 10); i++) { StringBuilder b = new StringBuilder("----------"); String binary = String.format("%11s", Integer.toBinaryString(i)); String permBinary = binary.substring(2, binary.length()); int len = permBinary.length(); for(int j = 0; j < len; j++) { if (permBinary.charAt(j) == '1') { int k = 9 - (len - 1 - j); b.setCharAt(k, symbolic.charAt(k)); } } // Check for sticky bit. if (binary.charAt(1) == '1') { char replacement = b.charAt(9) == 'x' ? 't' : 'T'; b.setCharAt(9, replacement); } assertEquals(i, FsPermission.valueOf(b.toString()).toShort()); } }
public void testFsPermission() { String symbolic = "-rwxrwxrwx"; for(int i = 0; i < (1 << 10); i++) { StringBuilder b = new StringBuilder("----------"); String binary = String.format("%11s", Integer.toBinaryString(i)); String permBinary = binary.substring(2, binary.length()); int len = permBinary.length(); for(int j = 0; j < len; j++) { if (permBinary.charAt(j) == '1') { int k = 9 - (len - 1 - j); b.setCharAt(k, symbolic.charAt(k)); } } // Check for sticky bit. if (binary.charAt(1) == '1') { char replacement = b.charAt(9) == 'x' ? 't' : 'T'; b.setCharAt(9, replacement); } assertEquals(i, FsPermission.valueOf(b.toString()).toShort()); } }
/** * Ensure that when manually specifying permission modes we get * the expected values back out for all combinations */ public void testConvertingPermissions() { for(short s = 0; s <= 01777; s++) { assertEquals(s, new FsPermission(s).toShort()); } short s = 0; for(boolean sb : new boolean [] { false, true }) { for(FsAction u : FsAction.values()) { for(FsAction g : FsAction.values()) { for(FsAction o : FsAction.values()) { // Cover constructor with sticky bit. FsPermission f = new FsPermission(u, g, o, sb); assertEquals(s, f.toShort()); FsPermission f2 = new FsPermission(f); assertEquals(s, f2.toShort()); s++; } } } } }
conf.set(FsPermission.UMASK_LABEL, symbolic[i][0]); short val = Short.valueOf(symbolic[i][1], 8); assertEquals(val, FsPermission.getUMask(conf).toShort());
public void testUMaskParser() throws IOException { Configuration conf = new Configuration(); // Ensure that we get the right octal values back for all legal values for(FsAction u : FsAction.values()) { for(FsAction g : FsAction.values()) { for(FsAction o : FsAction.values()) { FsPermission f = new FsPermission(u, g, o); String asOctal = String.format("%1$03o", f.toShort()); conf.set(FsPermission.UMASK_LABEL, asOctal); FsPermission fromConf = FsPermission.getUMask(conf); assertEquals(f, fromConf); } } } }
/** * Ensure that when manually specifying permission modes we get * the expected values back out for all combinations */ public void testConvertingPermissions() { for(short s = 0; s <= 01777; s++) { assertEquals(s, new FsPermission(s).toShort()); } short s = 0; for(boolean sb : new boolean [] { false, true }) { for(FsAction u : FsAction.values()) { for(FsAction g : FsAction.values()) { for(FsAction o : FsAction.values()) { // Cover constructor with sticky bit. FsPermission f = new FsPermission(u, g, o, sb); assertEquals(s, f.toShort()); FsPermission f2 = new FsPermission(f); assertEquals(s, f2.toShort()); s++; } } } } }
public void testSpecialBitsToString() { for (boolean sb : new boolean[] { false, true }) { for (FsAction u : FsAction.values()) { for (FsAction g : FsAction.values()) { for (FsAction o : FsAction.values()) { FsPermission f = new FsPermission(u, g, o, sb); String fString = f.toString(); // Check that sticky bit is represented correctly. if (f.getStickyBit() && f.getOtherAction().implies(EXECUTE)) assertEquals('t', fString.charAt(8)); else if (f.getStickyBit() && !f.getOtherAction().implies(EXECUTE)) assertEquals('T', fString.charAt(8)); else if (!f.getStickyBit() && f.getOtherAction().implies(EXECUTE)) assertEquals('x', fString.charAt(8)); else assertEquals('-', fString.charAt(8)); assertEquals(9, fString.length()); } } } } }