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Direktori : /opt/cpanel/ea-ruby27/src/passenger-release-6.0.23/test/cxx/IOTools/ |
Current File : //opt/cpanel/ea-ruby27/src/passenger-release-6.0.23/test/cxx/IOTools/BufferedIOTest.cpp |
#include <TestSupport.h> #include <IOTools/BufferedIO.h> #include <Utils/Timer.h> #include <IOTools/IOUtils.h> #include <algorithm> using namespace Passenger; using namespace std; namespace tut { struct IOTools_BufferedIOTest: public TestBase { FileDescriptor reader, writer; BufferedIO io; string readData; unsigned int counter; char buf[100]; BufferedIO::AcceptFunction a_eof; BufferedIO::AcceptFunction a_twoBytesRead; IOTools_BufferedIOTest() { Pipe p = createPipe(__FILE__, __LINE__); reader = p.first; writer = p.second; io = BufferedIO(reader); counter = 0; memset(buf, 0, sizeof(buf)); a_eof = boost::bind(&IOTools_BufferedIOTest::eof, this, boost::placeholders::_1, boost::placeholders::_2); a_twoBytesRead = boost::bind(&IOTools_BufferedIOTest::twoBytesRead, this, boost::placeholders::_1, boost::placeholders::_2); } void write(const StaticString &data) { ::write(writer, data.c_str(), data.size()); } pair<unsigned int, bool> twoBytesRead(const char *data, unsigned int size) { if (counter == 2) { return make_pair(0, true); } else { unsigned int toRead = min(2u - counter, size); readData.append(data, toRead); counter += toRead; return make_pair(toRead, counter == 2); } } pair<unsigned int, bool> eof(const char *data, unsigned int size) { readData.append(data, size); return make_pair(size, false); } static void writeAfterSomeTime(int fd, int sleepTime, string data) { syscalls::usleep(sleepTime); writeExact(fd, data); } static void closeAfterSomeTime(FileDescriptor fd, int sleepTime) { syscalls::usleep(sleepTime); fd.close(); } }; DEFINE_TEST_GROUP(IOTools_BufferedIOTest); /***** Test readUntil() *****/ TEST_METHOD(1) { // If the connection is already closed and the buffer is empty, then it returns 0. writer.close(); ensure_equals(io.readUntil(a_eof), 0u); ensure_equals(readData, ""); ensure_equals(io.getBuffer(), ""); } TEST_METHOD(2) { // If the connection is already closed and the buffer is non-empty, // then it reads from the buffer. writer.close(); io.unread("hello world"); ensure_equals(io.readUntil(a_twoBytesRead), 2u); ensure_equals(readData, "he"); ensure_equals(io.readUntil(a_eof), 9u); ensure_equals(readData, "hello world"); ensure_equals(io.getBuffer(), ""); } TEST_METHOD(3) { // If the buffer is empty then it reads from the connection. write("hello world"); writer.close(); ensure_equals("(1)", io.readUntil(a_twoBytesRead), 2u); ensure_equals("(2)", readData, "he"); ensure_equals("(5)", io.readUntil(a_eof), 9u); ensure_equals("(6)", readData, "hello world"); ensure_equals("(7)", io.readUntil(a_eof), 0u); ensure_equals("(8)", readData, "hello world"); ensure_equals(io.getBuffer(), ""); } TEST_METHOD(4) { // If the buffer is non-empty then it reads from the // buffer first, then from the connection. io.unread("hel"); write("lo world"); writer.close(); ensure_equals("(1)", io.readUntil(a_twoBytesRead), 2u); ensure_equals("(2)", readData, "he"); counter = 0; ensure_equals("(3)", io.readUntil(a_twoBytesRead), 2u); ensure_equals("(4)", readData, "hell"); ensure_equals("(5)", io.readUntil(a_eof), 7u); ensure_equals("(6)", readData, "hello world"); ensure_equals("(7)", io.readUntil(a_eof), 0u); ensure_equals("(8)", readData, "hello world"); ensure_equals(io.getBuffer(), ""); } TEST_METHOD(5) { // It blocks until the acceptor function says it's done or until EOF. TempThread thr1(boost::bind(writeAfterSomeTime, writer, 20000, "aa")); Timer<> timer1; ensure_equals(io.readUntil(a_twoBytesRead), 2u); ensure_equals(readData, "aa"); ensure("At least 18 msec elapsed", timer1.elapsed() >= 18); ensure("At most 90 msec elapsed", timer1.elapsed() <= 90); TempThread thr2(boost::bind(closeAfterSomeTime, writer, 20000)); Timer<> timer2; ensure_equals(io.readUntil(a_twoBytesRead), 0u); ensure_equals(readData, "aa"); ensure("At least 18 msec elapsed", timer2.elapsed() >= 18); ensure("At most 90 msec elapsed", timer2.elapsed() <= 90); } TEST_METHOD(6) { // It throws TimeoutException if it cannot read enough data // within the specified timeout. unsigned long long timeout = 50000; io.unread("he"); write("llo"); Timer<> timer; try { io.readUntil(a_eof, &timeout); fail("TimeoutException expected"); } catch (const TimeoutException &) { ensure("At least 45 msec elapsed", timer.elapsed() >= 45); ensure("At most 90 msec elapsed", timer.elapsed() < 90); ensure("It deducts the waited time from the timeout", timeout < 5000); ensure_equals(readData, "hello"); ensure_equals(io.getBuffer(), ""); } } /***** Test read() *****/ TEST_METHOD(10) { // If the connection is already closed and the buffer is empty, then it returns 0. writer.close(); ensure_equals(io.read(buf, sizeof(buf)), 0u); ensure_equals(io.getBuffer(), ""); } TEST_METHOD(11) { // If the connection is already closed and the buffer is non-empty // and >= N bytes, then it reads everything from the buffer. io.unread("hel"); write("lo world"); writer.close(); ensure_equals(io.read(buf, 5), 5u); ensure_equals(StaticString(buf), "hello"); ensure_equals(io.getBuffer(), " world"); } TEST_METHOD(12) { // If the connection is already closed and the buffer is non-empty // and < N bytes, then it reads N bytes from the buffer and the rest // from the connection. io.unread("hel"); write("lo world"); writer.close(); ensure_equals(io.read(buf, sizeof(buf)), 11u); ensure_equals(StaticString(buf), "hello world"); ensure_equals(io.getBuffer(), ""); } TEST_METHOD(13) { // If the buffer is empty then it reads from the connection. write("hello world"); ensure_equals(io.read(buf, 5), 5u); ensure_equals(StaticString(buf), "hello"); ensure_equals(io.getBuffer(), " world"); } TEST_METHOD(14) { // If the buffer is non-empty then it reads from the // buffer first, then from the connection. write("hello world"); ensure_equals(io.read(buf, 2), 2u); ensure_equals(StaticString(buf), "he"); ensure_equals(io.getBuffer(), "llo world"); ensure_equals(io.read(buf, 7), 7u); ensure_equals(StaticString(buf), "llo wor"); ensure_equals(io.getBuffer(), "ld"); } TEST_METHOD(15) { // It blocks until the given number of bytes are read or until EOF. TempThread thr1(boost::bind(writeAfterSomeTime, writer, 20000, "aa")); Timer<> timer1; ensure_equals(io.read(buf, 2), 2u); ensure_equals(StaticString(buf), "aa"); ensure("At least 18 msec elapsed", timer1.elapsed() >= 18); ensure("At most 90 msec elapsed", timer1.elapsed() <= 90); TempThread thr2(boost::bind(closeAfterSomeTime, writer, 20000)); Timer<> timer2; ensure_equals(io.read(buf, sizeof(buf)), 0u); ensure_equals(StaticString(buf), "aa"); ensure("At least 18 msec elapsed", timer2.elapsed() >= 18); ensure("At most 90 msec elapsed", timer2.elapsed() <= 90); } TEST_METHOD(16) { // It throws TimeoutException if it cannot read enough data // within the specified timeout. unsigned long long timeout = 50000; io.unread("he"); write("llo"); Timer<> timer; try { io.read(buf, sizeof(buf), &timeout); fail("TimeoutException expected"); } catch (const TimeoutException &) { ensure("At least 45 msec elapsed", timer.elapsed() >= 45); ensure("At most 95 msec elapsed", timer.elapsed() < 95); ensure("It deducts the waited time from the timeout", timeout < 5000); ensure_equals(io.getBuffer(), ""); } } /***** Test readAll() *****/ TEST_METHOD(20) { // It reads everything until EOF. TempThread thr1(boost::bind(writeAfterSomeTime, writer, 20000, "aa")); TempThread thr2(boost::bind(closeAfterSomeTime, writer, 40000)); Timer<> timer; ensure_equals(io.readAll(), "aa"); ensure_equals(io.getBuffer(), ""); ensure("At least 38 msec elapsed", timer.elapsed() >= 38); ensure("At most 150 msec elapsed", timer.elapsed() <= 150); } TEST_METHOD(21) { // It throws TimeoutException if it cannot read enough data // within the specified timeout. unsigned long long timeout = 50000; io.unread("he"); write("llo"); Timer<> timer; try { io.readAll(&timeout); fail("TimeoutException expected"); } catch (const TimeoutException &) { ensure("At least 45 msec elapsed", timer.elapsed() >= 45); ensure("At most 95 msec elapsed", timer.elapsed() < 95); ensure("It deducts the waited time from the timeout", timeout < 5000); ensure_equals(io.getBuffer(), ""); } } /***** Test readLine() *****/ TEST_METHOD(25) { // If the connection is already closed and the buffer is empty, // then it returns the empty string. writer.close(); ensure_equals(io.readLine(), ""); ensure_equals(io.getBuffer(), ""); } TEST_METHOD(26) { // If the connection is already closed and the buffer is non-empty, // then it returns the first line in the buffer. writer.close(); io.unread("hello\nworld\n."); ensure_equals(io.readLine(), "hello\n"); ensure_equals(io.getBuffer(), "world\n."); ensure_equals(io.readLine(), "world\n"); ensure_equals(io.getBuffer(), "."); ensure_equals(io.readLine(), "."); ensure_equals(io.getBuffer(), ""); } TEST_METHOD(27) { // If the buffer is empty then it reads from the connection. write("hello\nworld\n."); ensure_equals(io.readLine(), "hello\n"); ensure_equals(io.getBuffer(), "world\n."); } TEST_METHOD(28) { // If the buffer is non-empty then it reads from the // buffer first, then from the connection. io.unread("hello"); write("\nworld\n."); ensure_equals(io.readLine(), "hello\n"); ensure_equals(io.getBuffer(), "world\n."); ensure_equals(io.readLine(), "world\n"); ensure_equals(io.getBuffer(), "."); } TEST_METHOD(29) { // If the line is too long then it throws a SecurityException. write("abcd"); try { io.readLine(3); fail("SecurityException expected"); } catch (const SecurityException &) { // Pass. } } TEST_METHOD(30) { // It blocks until a line can be read or until EOF. TempThread thr1(boost::bind(writeAfterSomeTime, writer, 20000, "hello")); TempThread thr2(boost::bind(writeAfterSomeTime, writer, 35000, "\nworld\n.")); Timer<> timer1; ensure_equals(io.readLine(), "hello\n"); ensure_equals(io.getBuffer(), "world\n."); ensure("At least 33 msec elapsed", timer1.elapsed() >= 33); ensure("At most 95 msec elapsed", timer1.elapsed() <= 90); TempThread thr3(boost::bind(closeAfterSomeTime, writer, 20000)); Timer<> timer2; ensure_equals(io.readLine(), "world\n"); ensure_equals(io.getBuffer(), "."); ensure_equals(io.readLine(), "."); ensure_equals(io.getBuffer(), ""); ensure("At least 18 msec elapsed", timer2.elapsed() >= 18); ensure("At most 95 msec elapsed", timer2.elapsed() <= 95); } TEST_METHOD(31) { // It throws TimeoutException if it cannot read enough data // within the specified timeout. unsigned long long timeout = 30000; io.unread("he"); write("llo"); Timer<> timer; try { io.readLine(1024, &timeout); fail("TimeoutException expected"); } catch (const TimeoutException &) { ensure("At least 25 msec elapsed", timer.elapsed() >= 25); ensure("At most 90 msec elapsed", timer.elapsed() < 90); ensure("It deducts the waited time from the timeout", timeout < 5000); ensure_equals(io.getBuffer(), ""); } } }