/**
* test the stream utility, access pos
*/
VOID TEST(KernelStreamTest, StreamPos)
{
    SrsStream s;
    char data[1024];
    
    EXPECT_TRUE(s.pos() == 0);
    EXPECT_TRUE(ERROR_SUCCESS == s.initialize(data, 1024));
    EXPECT_TRUE(s.pos() == 0);
    
    s.read_bytes(data, 1024);
    EXPECT_TRUE(s.pos() == 1024);
}
/**
* test the stream utility, skip bytes
*/
VOID TEST(KernelStreamTest, StreamSkip)
{
    SrsStream s;
    char data[1024];
    
    EXPECT_TRUE(ERROR_SUCCESS == s.initialize(data, 1024));
    EXPECT_EQ(0, s.pos());
    
    s.skip(1);
    EXPECT_EQ(1, s.pos());

    s.skip(-1);
    EXPECT_EQ(0 , s.pos());
}
Exemplo n.º 3
0
srs_amf0_t srs_amf0_parse(char* data, int size, int* nparsed)
{
    int ret = ERROR_SUCCESS;
    
    srs_amf0_t amf0 = NULL;
    
    SrsStream stream;
    if ((ret = stream.initialize(data, size)) != ERROR_SUCCESS) {
        return amf0;
    }
    
    SrsAmf0Any* any = NULL;
    if ((ret = SrsAmf0Any::discovery(&stream, &any)) != ERROR_SUCCESS) {
        return amf0;
    }
    
    stream.reset();
    if ((ret = any->read(&stream)) != ERROR_SUCCESS) {
        srs_freep(any);
        return amf0;
    }
    
    *nparsed = stream.pos();
    amf0 = (srs_amf0_t)any;
    
    return amf0;
}
/**
* test the stream utility, read 8bytes
*/
VOID TEST(KernelStreamTest, StreamRead8Bytes)
{
    SrsStream s;
    char data[1024];
    
    EXPECT_TRUE(ERROR_SUCCESS == s.initialize(data, 1024));
    
    data[0] = 0x01;
    data[1] = 0x02;
    data[2] = 0x03;
    data[3] = 0x04;
    data[4] = 0x05;
    data[5] = 0x06;
    data[6] = 0x07;
    data[7] = 0x08;
    data[8] = 0x09;
    data[9] = 0x0a;
    data[10] = 0x0b;
    data[11] = 0x0c;
    data[12] = 0x0d;
    data[13] = 0x0e;
    data[14] = 0x0f;
    data[15] = 0x10;
    data[16] = 0x11;
    data[17] = 0x12;
    data[18] = 0x13;
    data[19] = 0x14;
    
    EXPECT_EQ(0x0102030405060708, s.read_8bytes());
    EXPECT_EQ(0x090a0b0c0d0e0f10, s.read_8bytes());

    s.skip(-1 * s.pos());
    s.skip(5);
    EXPECT_EQ(0x060708090a0b0c0d, s.read_8bytes());
}
/**
* test the stream utility, read 4bytes
*/
VOID TEST(KernelStreamTest, StreamRead4Bytes)
{
    SrsStream s;
    char data[1024];
    
    EXPECT_TRUE(ERROR_SUCCESS == s.initialize(data, 1024));
    
    data[0] = 0x01;
    data[1] = 0x02;
    data[2] = 0x03;
    data[3] = 0x04;
    data[4] = 0x05;
    data[5] = 0x06;
    data[6] = 0x07;
    data[7] = 0x08;
    data[8] = 0x09;
    data[9] = 0x0a;
    
    EXPECT_EQ(0x01020304, s.read_4bytes());
    EXPECT_EQ(0x05060708, s.read_4bytes());

    s.skip(-1 * s.pos());
    s.skip(5);
    EXPECT_EQ(0x06070809, s.read_4bytes());
}
/**
* test the stream utility, write 8bytes
*/
VOID TEST(KernelStreamTest, StreamWrite8Bytes)
{
    SrsStream s;
    char data[1024];
    
    EXPECT_TRUE(ERROR_SUCCESS == s.initialize(data, 1024));
    
    s.write_8bytes(0x1011121314151617);
    s.write_8bytes(0x1819202122232425);

    s.skip(-1 * s.pos());
    EXPECT_EQ(0x10, s.read_1bytes());
    s.skip(2);
    EXPECT_EQ(0x13, s.read_1bytes());
    s.skip(5);
    EXPECT_EQ(0x19, s.read_1bytes());
}
/**
* test the stream utility, write 1bytes
*/
VOID TEST(KernelStreamTest, StreamWrite1Bytes)
{
    SrsStream s;
    char data[1024];
    
    EXPECT_TRUE(ERROR_SUCCESS == s.initialize(data, 1024));
    
    s.write_1bytes(0x10);
    s.write_1bytes(0x11);
    s.write_1bytes(0x12);
    s.write_1bytes(0x13);

    s.skip(-1 * s.pos());
    EXPECT_EQ(0x10, s.read_1bytes());
    s.skip(2);
    EXPECT_EQ(0x13, s.read_1bytes());
}
/**
* test the stream utility, read 1bytes
*/
VOID TEST(KernelStreamTest, StreamRead1Bytes)
{
    SrsStream s;
    char data[1024];
    
    EXPECT_TRUE(ERROR_SUCCESS == s.initialize(data, 1024));
    
    data[0] = 0x12;
    data[99] = 0x13;
    data[100] = 0x14;
    data[101] = 0x15;
    EXPECT_EQ(0x12, s.read_1bytes());
    
    s.skip(-1 * s.pos());
    s.skip(100);
    EXPECT_EQ(0x14, s.read_1bytes());
}
/**
* test the stream utility, write bytes
*/
VOID TEST(KernelStreamTest, StreamWriteBytes)
{
    SrsStream s;
    char data[1024];
    
    EXPECT_TRUE(ERROR_SUCCESS == s.initialize(data, 1024));
    
    char str[] = {
        (char)0x10, (char)0x11, (char)0x12, (char)0x13,
        (char)0x14, (char)0x15, (char)0x16, (char)0x17, 
        (char)0x18, (char)0x19, (char)0x20, (char)0x21
    };
    
    s.write_bytes(str, 12);

    s.skip(-1 * s.pos());
    EXPECT_EQ(0x10, s.read_1bytes());
    s.skip(2);
    EXPECT_EQ(0x13, s.read_1bytes());
    s.skip(5);
    EXPECT_EQ(0x19, s.read_1bytes());
}
Exemplo n.º 10
0
VOID TEST(AMF0Test, ApiAnyAssert) 
{
    SrsStream s;
    SrsAmf0Any* o = NULL;
    
    char buf[1024];
    memset(buf, 0, sizeof(buf));
    EXPECT_EQ(ERROR_SUCCESS, s.initialize(buf, sizeof(buf)));
    
    // read any
    if (true) {
        s.reset();
        s.current()[0] = 0x12;
        EXPECT_NE(ERROR_SUCCESS, srs_amf0_read_any(&s, &o));
        EXPECT_TRUE(NULL == o);
        srs_freep(o);
    }
    
    // any convert
    if (true) {
        o = SrsAmf0Any::str();
        SrsAutoFree(SrsAmf0Any, o);
        EXPECT_TRUE(o->is_string());
    }
    if (true) {
        o = SrsAmf0Any::number();
        SrsAutoFree(SrsAmf0Any, o);
        EXPECT_TRUE(o->is_number());
    }
    if (true) {
        o = SrsAmf0Any::boolean();
        SrsAutoFree(SrsAmf0Any, o);
        EXPECT_TRUE(o->is_boolean());
    }
    if (true) {
        o = SrsAmf0Any::null();
        SrsAutoFree(SrsAmf0Any, o);
        EXPECT_TRUE(o->is_null());
    }
    if (true) {
        o = SrsAmf0Any::undefined();
        SrsAutoFree(SrsAmf0Any, o);
        EXPECT_TRUE(o->is_undefined());
    }
    if (true) {
        o = SrsAmf0Any::object();
        SrsAutoFree(SrsAmf0Any, o);
        EXPECT_TRUE(o->is_object());
    }
    if (true) {
        o = SrsAmf0Any::ecma_array();
        SrsAutoFree(SrsAmf0Any, o);
        EXPECT_TRUE(o->is_ecma_array());
    }
    if (true) {
        o = SrsAmf0Any::strict_array();
        SrsAutoFree(SrsAmf0Any, o);
        EXPECT_TRUE(o->is_strict_array());
    }
    
    // empty object
    if (true) {
        o = SrsAmf0Any::object();
        SrsAutoFree(SrsAmf0Any, o);
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(1+3, s.pos());
    }
    
    // empty ecma array
    if (true) {
        o = SrsAmf0Any::ecma_array();
        SrsAutoFree(SrsAmf0Any, o);
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(1+4+3, s.pos());
    }
    
    // strict array
    if (true) {
        o = SrsAmf0Any::strict_array();
        SrsAutoFree(SrsAmf0Any, o);
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(1+4, s.pos());
    }
}
Exemplo n.º 11
0
VOID TEST(AMF0Test, ApiAnyIO) 
{
    SrsStream s;
    SrsAmf0Any* o = NULL;
    
    char buf[1024];
    memset(buf, 0, sizeof(buf));
    EXPECT_EQ(ERROR_SUCCESS, s.initialize(buf, sizeof(buf)));
    
    // object eof
    if (true) {
        s.reset();
        s.current()[2] = 0x09;
        
        o = SrsAmf0Any::object_eof();
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->read(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        EXPECT_EQ(3, s.pos());
        
        s.reset();
        s.current()[0] = 0x01;
        EXPECT_NE(ERROR_SUCCESS, o->read(&s));
    }
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::object_eof();
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        EXPECT_EQ(3, s.pos());
        
        s.skip(-3);
        EXPECT_EQ(0x09, s.read_3bytes());
    }
    
    // string
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::str("winlin");
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        
        s.reset();
        EXPECT_EQ(2, s.read_1bytes());
        EXPECT_EQ(6, s.read_2bytes());
        EXPECT_EQ('w', s.current()[0]);
        EXPECT_EQ('n', s.current()[5]);
        
        s.reset();
        s.current()[3] = 'x';
        EXPECT_EQ(ERROR_SUCCESS, o->read(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        EXPECT_STREQ("xinlin", o->to_str().c_str());
    }
    
    // number
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::number(10);
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        EXPECT_EQ(0, s.read_1bytes());
        
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->read(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        EXPECT_DOUBLE_EQ(10, o->to_number());
    }
    
    // boolean
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::boolean(true);
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        EXPECT_EQ(1, s.read_1bytes());
        
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->read(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        EXPECT_TRUE(o->to_boolean());
    }
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::boolean(false);
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        EXPECT_EQ(1, s.read_1bytes());
        
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->read(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        EXPECT_FALSE(o->to_boolean());
    }
    
    // null
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::null();
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        EXPECT_EQ(5, s.read_1bytes());
        
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->read(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        EXPECT_TRUE(o->is_null());
    }
    
    // undefined
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::undefined();
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        EXPECT_EQ(6, s.read_1bytes());
        
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->read(&s));
        EXPECT_EQ(o->total_size(), s.pos());
        EXPECT_TRUE(o->is_undefined());
    }

    // any: string
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::str("winlin");
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        
        SrsAmf0Any* po = NULL;
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        SrsAutoFree(SrsAmf0Any, po);
        ASSERT_TRUE(po->is_string());
        EXPECT_STREQ("winlin", po->to_str().c_str());
    }

    // any: number
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::number(10);
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        
        SrsAmf0Any* po = NULL;
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        SrsAutoFree(SrsAmf0Any, po);
        ASSERT_TRUE(po->is_number());
        EXPECT_DOUBLE_EQ(10, po->to_number());
    }

    // any: boolean
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::boolean(true);
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        
        SrsAmf0Any* po = NULL;
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        SrsAutoFree(SrsAmf0Any, po);
        ASSERT_TRUE(po->is_boolean());
        EXPECT_TRUE(po->to_boolean());
    }

    // any: null
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::null();
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        
        SrsAmf0Any* po = NULL;
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        SrsAutoFree(SrsAmf0Any, po);
        ASSERT_TRUE(po->is_null());
    }

    // any: undefined
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::undefined();
        SrsAutoFree(SrsAmf0Any, o);
        
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(o->total_size(), s.pos());

        s.reset();
        
        SrsAmf0Any* po = NULL;
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        SrsAutoFree(SrsAmf0Any, po);
        ASSERT_TRUE(po->is_undefined());
    }
    
    // mixed any
    if (true) {
        s.reset();
        
        o = SrsAmf0Any::str("winlin");
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        srs_freep(o);
        
        o = SrsAmf0Any::number(10);
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        srs_freep(o);
        
        o = SrsAmf0Any::boolean(true);
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        srs_freep(o);
        
        o = SrsAmf0Any::null();
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        srs_freep(o);
        
        o = SrsAmf0Any::undefined();
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        srs_freep(o);
        
        s.reset();
        SrsAmf0Any* po = NULL;
        
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        ASSERT_TRUE(po->is_string());
        EXPECT_STREQ("winlin", po->to_str().c_str());
        srs_freep(po);
        
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        ASSERT_TRUE(po->is_number());
        EXPECT_DOUBLE_EQ(10, po->to_number());
        srs_freep(po);
        
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        ASSERT_TRUE(po->is_boolean());
        EXPECT_TRUE(po->to_boolean());
        srs_freep(po);
        
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        ASSERT_TRUE(po->is_null());
        srs_freep(po);
        
        EXPECT_EQ(ERROR_SUCCESS, srs_amf0_read_any(&s, &po));
        ASSERT_TRUE(NULL != po);
        ASSERT_TRUE(po->is_undefined());
        srs_freep(po);
    }
}
Exemplo n.º 12
0
VOID TEST(AMF0Test, ApiStrictArray)
{
    SrsStream s;
    
    char buf[1024];
    memset(buf, 0, sizeof(buf));
    EXPECT_EQ(ERROR_SUCCESS, s.initialize(buf, sizeof(buf)));
    
    SrsAmf0StrictArray* o = NULL;
    
    // append property
    if (true) {
        o = SrsAmf0Any::strict_array();
        SrsAutoFree(SrsAmf0StrictArray, o);
        
        o->append(SrsAmf0Any::number(100));
        EXPECT_DOUBLE_EQ(100, o->at(0)->to_number());
        
        o->append(SrsAmf0Any::number(101));
        EXPECT_DOUBLE_EQ(101, o->at(1)->to_number());
        
        o->append(SrsAmf0Any::str("winlin"));
        EXPECT_STREQ("winlin", o->at(2)->to_str().c_str());
    }
    
    // count
    if (true) {
        o = SrsAmf0Any::strict_array();
        SrsAutoFree(SrsAmf0StrictArray, o);
        
        EXPECT_EQ(0, o->count());
        
        o->append(SrsAmf0Any::boolean());
        EXPECT_EQ(1, o->count());
        
        o->append(SrsAmf0Any::boolean());
        EXPECT_EQ(2, o->count());

        o->clear();
        EXPECT_EQ(0, o->count());
    }
    
    // io
    if (true) {
        o = SrsAmf0Any::strict_array();
        SrsAutoFree(SrsAmf0StrictArray, o);
        
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(5, s.pos());
        
        s.reset();
        EXPECT_EQ(0x0a, s.read_1bytes());
        EXPECT_EQ(0x00, s.read_4bytes());
    }
    
    if (true) {
        o = SrsAmf0Any::strict_array();
        SrsAutoFree(SrsAmf0StrictArray, o);
        
        o->append(SrsAmf0Any::number(0));
        
        s.reset();
        EXPECT_EQ(ERROR_SUCCESS, o->write(&s));
        EXPECT_EQ(5 + SrsAmf0Size::number(), s.pos());
    }
}