BaseJpegDeocde exampe program

Dependencies:   BaseJpegDecode Terminal BaseUsbHost mbed mbed-rtos

Fork of BaseJpegDecode by Norimasa Okamoto

Revision:
7:3ad9c948bc06
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/UvcCam/UvcCam.cpp	Sun Jan 27 11:15:26 2013 +0000
@@ -0,0 +1,566 @@
+// UvcCam.cpp 2013/1/25
+#include "mbed.h"
+#include "rtos.h"
+#include "BaseUsbHost.h"
+//#define DEBUG
+#include "BaseUsbHostDebug.h"
+#define TEST
+#include "BaseUsbHostTest.h"
+#include "UvcCam.h"
+
+UvcCam::UvcCam(int formatIndex, int frameIndex, uint32_t interval, ControlEp* ctlEp)
+{
+    uint8_t buf[34];
+    int rc;
+    int alt;
+    int cfg2;
+    
+    if (ctlEp == NULL) { // root hub
+        DBG_OHCI(LPC_USB->HcRhPortStatus1);
+        TEST_ASSERT_FALSE(LPC_USB->HcRhPortStatus1 & 0x200);
+        ctlEp = new ControlEp();
+        TEST_ASSERT_TRUE(ctlEp);
+    }
+    bool r = check(ctlEp);
+    TEST_ASSERT(r);
+    m_ctlEp = ctlEp;
+    
+    UvcCfg* cfg = new UvcCfg(formatIndex, frameIndex, ctlEp);
+    TEST_ASSERT(cfg);
+
+    int param_len = 34;
+    TEST_ASSERT(cfg->bcdUVC >= 0x0100);
+    if (cfg->bcdUVC == 0x0100) { // UVC ver. 1.0
+        param_len = 26;
+    }
+    
+    int addr = m_ctlEp->GetAddr();
+    m_isoEp = new IsochronousEp(addr, cfg->bEndpointAddress, cfg->wMaxPacketSize);
+    TEST_ASSERT_TRUE(m_isoEp);
+
+//#define USE_PROBE
+
+#ifdef USE_PROBE
+    rc = Control(GET_INFO, VS_PROBE_CONTROL, 1, buf, 1);
+    TEST_ASSERT(rc == USB_OK);
+    DBG_BYTES("GET_INFO Prob", buf, 1);
+
+    rc = Control(GET_DEF, VS_PROBE_CONTROL, 1, buf, param_len);
+    TEST_ASSERT(rc == USB_OK);
+    DBG_BYTES("GET_DEF Probe", buf, param_len);
+
+    rc = Control(GET_MIN, VS_PROBE_CONTROL, 1, buf, param_len);
+    TEST_ASSERT(rc == USB_OK);
+    DBG_BYTES("GET_MIN Probe", buf, param_len);
+
+    rc = Control(GET_MAX, VS_PROBE_CONTROL, 1, buf, param_len);
+    TEST_ASSERT(rc == USB_OK);
+    DBG_BYTES("GET_MAX Probe", buf, param_len);
+
+    rc = Control(GET_CUR, VS_PROBE_CONTROL, 1, buf, param_len);
+    TEST_ASSERT(rc == USB_OK);
+    DBG_BYTES("GET_CUR Probe", buf, param_len);
+#endif // USE_PROBE
+
+    rc = Control(GET_INFO, VS_COMMIT_CONTROL, 1, buf, 1);
+    TEST_ASSERT(rc == USB_OK);
+    DBG_BYTES("GET_INFO Commit", buf, 1);
+
+    memset(buf, 0, param_len);
+    buf[2] = cfg->FormatIndex;
+    buf[3] = cfg->FrameIndex;
+    *reinterpret_cast<uint32_t*>(buf+4) = interval;
+    
+    DBG_BYTES("SET_CUR Commit", buf, param_len);
+    rc = Control(SET_CUR, VS_COMMIT_CONTROL, 1, buf, param_len);
+    TEST_ASSERT(rc == USB_OK);
+
+    rc = Control(GET_CUR, VS_COMMIT_CONTROL, 1, buf, param_len);
+    TEST_ASSERT(rc == USB_OK);
+    TEST_ASSERT_EQUAL(buf[2], cfg->FormatIndex);
+    TEST_ASSERT_EQUAL(buf[3], cfg->FrameIndex);
+    TEST_ASSERT_EQUAL(*reinterpret_cast<uint32_t*>(buf+4), interval);
+    DBG_BYTES("GET_CUR Commit", buf, param_len);
+
+    rc = m_ctlEp->GetConfiguration(&cfg2);
+    TEST_ASSERT_EQUAL(rc, USB_OK);
+    DBG("config: %d\n", cfg2);
+
+    rc = m_ctlEp->SetConfiguration(1);
+    TEST_ASSERT_EQUAL(rc, USB_OK);
+
+    rc = m_ctlEp->GetConfiguration(&cfg2);
+    TEST_ASSERT_EQUAL(rc, USB_OK);
+    DBG("config: %d\n", cfg2);
+    TEST_ASSERT_EQUAL(cfg2, 1);
+
+    rc = m_ctlEp->GetInterface(cfg->bInterface, &alt);
+    TEST_ASSERT_EQUAL(rc, USB_OK);
+    DBG("alt: %d\n", alt);
+
+    rc = m_ctlEp->SetInterfaceAlternate(cfg->bInterface, cfg->bAlternate);
+    TEST_ASSERT_EQUAL(rc, USB_OK);
+
+    rc = m_ctlEp->GetInterface(cfg->bInterface, &alt);
+    TEST_ASSERT_EQUAL(rc, USB_OK);
+    DBG("alt: %d\n", alt);
+    TEST_ASSERT_EQUAL(alt, cfg->bAlternate);
+    delete cfg;
+    
+    for(int i = 0; i < 16; i++) {
+        report_cc_count[i] = 0;
+        report_ps_cc_count[i] = 0;
+    }
+  
+    LPC_USB->HcControl |= OR_CONTROL_PLE; // PeriodicListEnable
+    LPC_USB->HcControl |= OR_CONTROL_IE;  // IsochronousEnable
+}
+
+bool UvcCam::check(ControlEp* ctlEp)
+{
+    if (ctlEp == NULL) {
+        return false;
+    }
+    uint8_t buf[18];
+    int r = ctlEp->GetDescriptor(1, 0, buf, 8);
+    if (r != USB_OK) {
+        return false;
+    }
+    DBG_HEX(buf, 8);
+    const uint8_t desc[] = {0x12,0x01,0x00,0x02,0xef,0x02,0x01};
+    if (memcmp(buf, desc, sizeof(desc)) != 0) {
+        return false;
+    }
+    r = ctlEp->GetDescriptor(1, 0, buf, 18);
+    if (r != USB_OK) {
+        return false;
+    }
+    DBG_HEX(buf, 18);
+    return true;
+}
+
+#define  DESCRIPTOR_TYPE_DEVICE        1
+#define  DESCRIPTOR_TYPE_CONFIGURATION 2
+#define  DESCRIPTOR_TYPE_STRING        3
+#define  DESCRIPTOR_TYPE_INTERFACE     4
+#define  DESCRIPTOR_TYPE_ENDPOINT      5
+
+#define DESCRIPTOR_TYPE_INTERFACE_ASSOCIATION 0x0b
+
+#define DESCRIPTOR_TYPE_HID          0x21
+#define DESCRIPTOR_TYPE_REPORT       0x22
+#define DESCRIPTOR_TYPE_PHYSICAL     0x23
+#define DESCRIPTOR_TYPE_CS_INTERFACE 0x24
+#define DESCRIPTOR_TYPE_CS_ENDPOINT  0x25
+#define DESCRIPTOR_TYPE_HUB          0x29
+
+#define CLASS_AUDIO 0x02
+#define CLASS_HUB   0x09
+
+#define IF_EQ_THEN_PRINTF(A,B) if (A == B) {VERBOSE("%s\n", #A);
+#define ENDIF }
+
+#define CC_AUDIO 0x01
+#define SC_AUDIOCONTROL   0x01
+#define SC_AUDIOSTREAMING 0x02
+
+#define AC_HEADER          0x01
+#define AC_INPUT_TERMINAL  0x02
+#define AC_OUTPUT_TERMINAL 0x03
+#define AC_FEATURE_UNIT    0x06
+
+// Input Terminal Types
+#define ITT_CAMERA 0x0201
+
+static int LE16(const uint8_t* d)
+{
+    return d[0] | (d[1] << 8);
+}
+
+static int LE24(const uint8_t* d) {
+    return d[0] | (d[1]<<8) | (d[2] << 16);
+}
+
+static int LE32(const uint8_t* d) {
+    return d[0] |(d[1]<<8) | (d[2] << 16) |(d[3] << 24) ;
+}
+
+UvcCfg::UvcCfg(int formatIndex, int frameIndex, ControlEp* ctlEp):wMaxPacketSize(0)
+{
+    TEST_ASSERT(ctlEp);
+    switch(formatIndex) {
+        case UVC_MJPEG: _payload = UVC_MJPEG; break;
+        case UVC_YUY2:  _payload = UVC_YUY2; break;
+        default:        _payload = UVC_MJPEG; break;
+    }
+
+    switch(frameIndex) {
+        case UVC_160x120: _width = 160; _height = 120; break;
+        case UVC_176x144: _width = 176; _height = 144; break;
+        case UVC_320x176: _width = 320; _height = 176; break;
+        case UVC_320x240: _width = 320; _height = 240; break;
+        case UVC_352x288: _width = 352; _height = 288; break;
+        case UVC_432x240: _width = 432; _height = 240; break;
+        case UVC_640x480: _width = 640; _height = 480; break;
+        case UVC_544x288: _width = 544; _height = 288; break;
+        case UVC_640x360: _width = 640; _height = 360; break;
+        case UVC_752x416: _width = 752; _height = 416; break;
+        case UVC_800x448: _width = 800; _height = 448; break;
+        case UVC_800x600: _width = 800; _height = 600; break;
+        default:          _width = 160; _height = 120; break;
+    }
+    int index = 0;
+    uint8_t temp[4];
+    int rc = ctlEp->GetDescriptor(USB_DESCRIPTOR_TYPE_CONFIGURATION, index, temp, sizeof(temp));
+    TEST_ASSERT(rc == USB_OK);
+    DBG_BYTES("Config Descriptor 4bytes", temp, sizeof(temp));
+    TEST_ASSERT(temp[0] == 9);
+    TEST_ASSERT(temp[1] == 0x02);
+    int TotalLength = LE16(temp+2);
+    DBG("TotalLength: %d\n", TotalLength);
+
+    uint8_t* buf = new uint8_t[TotalLength];
+    TEST_ASSERT(buf);
+    rc = ctlEp->GetDescriptor(USB_DESCRIPTOR_TYPE_CONFIGURATION, index, buf, TotalLength);
+    TEST_ASSERT(rc == USB_OK);
+    if (rc != USB_OK) {
+        delete[] buf;
+        return;
+    }
+    _parserConfigurationDescriptor(buf, TotalLength);
+    delete[] buf;
+}
+
+void UvcCfg::_parserAudioControl(uint8_t* buf, int len) {
+    int subtype = buf[2];
+    IF_EQ_THEN_PRINTF(AC_HEADER, subtype)
+    VERBOSE("ADC: %04x\n", LE16(buf+3));
+    VERBOSE("TotalLength: %d\n", LE16(buf+5));
+    VERBOSE("InCollection: %d\n", buf[7]);
+    for (int n = 1; n <= buf[7]; n++) {
+        VERBOSE("aInterfaceNr(%d): %d\n", n, buf[8+n-1]);
+    }
+    ENDIF
+    IF_EQ_THEN_PRINTF(AC_INPUT_TERMINAL, subtype)
+    VERBOSE("TerminalID: %d\n", buf[3]);
+    VERBOSE("TerminalType: %04X\n", LE16(buf+4));
+    VERBOSE("AssocTermianl: %d\n", buf[6]);
+    VERBOSE("NrChannels: %d\n", buf[7]);
+    ENDIF
+    IF_EQ_THEN_PRINTF(AC_OUTPUT_TERMINAL, subtype)
+    VERBOSE("TerminalID: %d\n", buf[3]);
+    VERBOSE("TerminalType: %04X\n", LE16(buf+4));
+    VERBOSE("AssocTermianl: %d\n", buf[6]);
+    ENDIF
+    IF_EQ_THEN_PRINTF(AC_FEATURE_UNIT, subtype)
+    VERBOSE("UnitID: %d\n", buf[3]);
+    VERBOSE("SourceID: %d\n", buf[4]);
+    VERBOSE("ControlSize: %d\n", buf[5]);
+    ENDIF
+}
+
+#define AS_GENERAL     0x01
+#define AS_FORMAT_TYPE 0x02
+
+void UvcCfg::_parserAudioStream(uint8_t* buf, int len) {
+    int subtype = buf[2];
+    IF_EQ_THEN_PRINTF(AS_GENERAL, subtype)
+    VERBOSE("TerminalLink: %d\n", buf[3]);
+    VERBOSE("Delay: %d\n", buf[4]);
+    VERBOSE("FormatTag: %04x\n", LE16(buf+5));
+    ENDIF
+    IF_EQ_THEN_PRINTF(AS_FORMAT_TYPE, subtype)
+    VERBOSE("FormatType: %d\n", buf[3]);
+    VERBOSE("NrChannels: %d\n", buf[4]);
+    VERBOSE("SubFrameSize: %d\n", buf[5]);
+    VERBOSE("BitResolution: %d\n", buf[6]);
+    VERBOSE("SamFreqType: %d\n", buf[7]);
+    VERBOSE("SamFreq(1): %d\n", LE24(buf+8));
+    ENDIF
+}
+
+#define CC_VIDEO 0x0e
+
+#define SC_VIDEOCONTROL   0x01
+#define SC_VIDEOSTREAMING 0x02
+
+#define VC_HEADER          0x01
+#define VC_INPUT_TERMINAL  0x02
+#define VC_OUTPUT_TERMINAL 0x03
+#define VC_SELECTOR_UNIT   0x04
+#define VC_PROCESSING_UNIT 0x05
+#define VC_EXTENSION_UNIT  0x06
+
+void UvcCfg::_parserVideoControl(uint8_t* buf, int len) {
+    int subtype = buf[2];
+    IF_EQ_THEN_PRINTF(VC_HEADER, subtype)
+        bcdUVC = LE16(buf+3);
+        VERBOSE("UVC: %04x\n", bcdUVC);
+        VERBOSE("TotalLength: %d\n", LE16(buf+5));
+        VERBOSE("ClockFrequency: %d\n", LE32(buf+7));
+        VERBOSE("InCollection: %d\n", buf[11]);
+        VERBOSE("aInterfaceNr(1): %d\n", buf[12]);
+    ENDIF
+    IF_EQ_THEN_PRINTF(VC_INPUT_TERMINAL, subtype)
+        VERBOSE("TerminalID: %d\n", buf[3]);
+        uint16_t tt = LE16(buf+4);
+        VERBOSE("TerminalType: %04X\n", tt);
+        VERBOSE("AssocTerminal: %d\n", buf[6]);
+        VERBOSE("Terminal: %d\n", buf[7]);
+        if (tt == ITT_CAMERA) { // camera
+            int bControlSize = buf[14];
+            VERBOSE("ControlSize: %d\n", bControlSize);
+            for(int i = 0; i < bControlSize; i++) {
+            uint8_t bControls = buf[15+i];
+                VERBOSE("Controls(%d): %02X\n", i, bControls); 
+            }
+        }
+    ENDIF
+    IF_EQ_THEN_PRINTF(VC_OUTPUT_TERMINAL, subtype)
+        VERBOSE("TerminalID: %d\n", buf[3]);
+        VERBOSE("TerminalType: %04X\n", LE16(buf+4));
+        VERBOSE("AssocTerminal: %d\n", buf[6]);
+        VERBOSE("SourceID: %d\n", buf[7]);
+        VERBOSE("Terminal: %d\n", buf[8]);
+    ENDIF
+    IF_EQ_THEN_PRINTF(VC_SELECTOR_UNIT, subtype)
+        VERBOSE("UnitID: %d\n", buf[3]);
+    ENDIF
+    IF_EQ_THEN_PRINTF(VC_PROCESSING_UNIT, subtype)
+        VERBOSE("UnitID: %d\n", buf[3]);
+        VERBOSE("SourceID: %d\n", buf[4]);
+        VERBOSE("MaxMultiplier: %d\n", LE16(buf+5));
+        VERBOSE("ControlSize: %d\n", buf[7]);
+        int pos = 8;
+        for (int n = 1; n <= buf[7]; n++) {
+            VERBOSE("Controls(%d): %02X\n", n , buf[pos]);
+            pos++;
+        }
+        VERBOSE("Processing: %d\n", buf[pos]);
+        pos++;
+        VERBOSE("VideoStanders: %02X\n", buf[pos]);
+    ENDIF
+    IF_EQ_THEN_PRINTF(VC_EXTENSION_UNIT, subtype)
+        VERBOSE("UnitID: %d\n", buf[3]);
+    ENDIF
+}
+
+#define VS_INPUT_HEADER 0x01
+#define VS_STILL_FRAME  0x03
+#define VS_FORMAT_UNCOMPRESSED 0x04
+#define VS_FRAME_UNCOMPRESSED 0x05
+#define VS_FORMAT_MJPEG 0x06
+#define VS_FRAME_MJPEG  0x07
+#define VS_COLOR_FORMAT 0x0d
+
+void UvcCfg::_parserVideoStream(uint8_t* buf, int len) {
+    int subtype = buf[2];
+    IF_EQ_THEN_PRINTF(VS_INPUT_HEADER, subtype)
+        VERBOSE("NumFormats: %d\n", buf[3]);
+        VERBOSE("TotalLength: %d\n", LE16(buf+4));
+        VERBOSE("EndpointAddress: %02X\n", buf[6]);
+        VERBOSE("Info: %02X\n", buf[7]);
+        VERBOSE("TerminalLink: %d\n", buf[8]);
+        VERBOSE("StillCaptureMethod: %d\n", buf[9]);
+        VERBOSE("TriggerSupport: %d\n", buf[10]);
+        VERBOSE("TriggerUsage: %d\n", buf[11]);
+        VERBOSE("ControlSize: %d\n", buf[12]);
+        int pos = 13;
+        for (int n = 1; n <= buf[12]; n++) {
+            VERBOSE("Controls(%d): %02X\n", n, buf[pos]);
+            pos++;
+        }
+        bEndpointAddress = buf[6];
+    ENDIF
+    IF_EQ_THEN_PRINTF(VS_STILL_FRAME, subtype)
+    VERBOSE("EndpointAdress: %02X\n", buf[3]);
+    VERBOSE("NumImageSizePatterns: %d\n", buf[4]);
+    int ptn = buf[4];
+    int pos = 5;
+    for (int n = 1; n <= ptn; n++) {
+        VERBOSE("Width(%d): %d\n", n, LE16(buf+pos));
+        VERBOSE("Height(%d): %d\n", n, LE16(buf+pos+2));
+        pos += 4;
+    }
+    VERBOSE("NumCompressPtn: %d\n", buf[pos]);
+    ptn = buf[pos++];
+    for (int n = 1; n <= ptn; n++) {
+        VERBOSE("Compress(%d): %d\n", n, buf[pos]);
+        pos++;
+    }
+    ENDIF
+    IF_EQ_THEN_PRINTF(VS_FORMAT_UNCOMPRESSED, subtype)
+        VERBOSE("FormatIndex: %d\n", buf[3]);
+        VERBOSE("NumFrameDescriptors: %d\n", buf[4]);
+        uint32_t guid = LE32(buf+5);
+        if (guid == 0x32595559) {
+            VERBOSE("GUID: YUY2\n");
+        } else if (guid == 0x3231564e) {
+            VERBOSE("GUID: NV12\n");
+        } else {
+            VERBOSE("GUID: %08x\n", guid);
+        }
+        VERBOSE("DefaultFrameIndex: %d\n", buf[22]);
+        if (_payload == UVC_YUY2) {
+            FormatIndex = buf[3];
+        }
+    ENDIF
+    IF_EQ_THEN_PRINTF(VS_FRAME_UNCOMPRESSED, subtype)
+        VERBOSE("FrameIndex: %d\n", buf[3]);
+        VERBOSE("Capabilites: %d\n", buf[4]);
+        VERBOSE("Width: %d\n", LE16(buf+5));
+        VERBOSE("Height: %d\n", LE16(buf+7));
+        VERBOSE("MinBitRate: %d\n", LE32(buf+9));
+        VERBOSE("MaxBitRate: %d\n", LE32(buf+13));
+        VERBOSE("MaxVideoFrameBufferSize: %d\n", LE32(buf+17));
+        VERBOSE("DefaultFrameInterval: %d\n", LE32(buf+21));
+        VERBOSE("FrameIntervalType: %d\n", buf[25]);
+        int it = buf[25];
+        uint32_t max_fi = 333333; // 30.0fps
+        if (it == 0) {
+            VERBOSE("FrameMinInterval: %d\n", buf[26]);
+            VERBOSE("FrameMaxInterval: %d\n", buf[30]);
+            VERBOSE("FrameIntervalStep: %d\n", buf[34]);
+        } else {
+            int pos = 26;
+            for (int n = 1; n <= it; n++) {
+                uint32_t fi = LE32(buf+pos);
+                if (fi >= max_fi) {
+                    max_fi = fi;
+                }
+                float fps = 1e+7 / fi;
+                VERBOSE("FrameInterval(%u): %d (%.1f fps)\n", n, fi, fps);
+                pos += 4;
+            }
+        }
+        if (_payload == UVC_YUY2) {
+            if (_width == LE16(buf+5) && _height == LE16(buf+7)) {
+                FrameIndex = buf[3];
+            }
+            if (dwFrameInterval == 0) {
+                dwFrameInterval = max_fi;
+            }
+        }
+    ENDIF
+    IF_EQ_THEN_PRINTF(VS_FORMAT_MJPEG, subtype)
+        VERBOSE("FormatIndex: %d\n", buf[3]);
+        VERBOSE("NumFrameDescriptors: %d\n", buf[4]);
+        VERBOSE("Flags: %d\n", buf[5]);
+        VERBOSE("DefaultFrameIndex: %d\n", buf[6]);
+        if (_payload == UVC_MJPEG) {
+            FormatIndex = buf[3];
+        }
+    ENDIF
+    IF_EQ_THEN_PRINTF(VS_FRAME_MJPEG, subtype)
+        VERBOSE("FrameIndex: %d\n", buf[3]);
+        VERBOSE("Capabilites: %d\n", buf[4]);
+        VERBOSE("Width: %d\n", LE16(buf+5));
+        VERBOSE("Height: %d\n", LE16(buf+7));
+        VERBOSE("MinBitRate: %d\n", LE32(buf+9));
+        VERBOSE("MaxBitRate: %d\n", LE32(buf+13));
+        VERBOSE("MaxVideoFrameBufferSize: %d\n", LE32(buf+17));
+        VERBOSE("DefaultFrameInterval: %d\n", LE32(buf+21));
+        VERBOSE("FrameIntervalType: %d\n", buf[25]);
+        int it = buf[25];
+        uint32_t max_fi = 333333; // 30.0fps
+        if (it == 0) {
+            VERBOSE("FrameMinInterval: %d\n", buf[26]);
+            VERBOSE("FrameMaxInterval: %d\n", buf[30]);
+            VERBOSE("FrameIntervalStep: %d\n", buf[34]);
+        } else {
+            int pos = 26;
+            for (int n = 1; n <= it; n++) {
+                uint32_t fi = LE32(buf+pos);
+                if (fi >= max_fi) {
+                    max_fi = fi;
+                }
+                float fps = 1e+7 / fi;
+                VERBOSE("FrameInterval(%u): %d (%.1f fps)\n", n, fi, fps);
+                pos += 4;
+            }
+        }
+        if (_payload == UVC_MJPEG) {
+            if (_width == LE16(buf+5) && _height == LE16(buf+7)) {
+                FrameIndex = buf[3];
+            }
+            if (dwFrameInterval == 0) {
+                dwFrameInterval = max_fi;
+            }
+        }
+    ENDIF
+    IF_EQ_THEN_PRINTF(VS_COLOR_FORMAT, subtype)
+    ENDIF
+}
+
+void UvcCfg::_parserConfigurationDescriptor(uint8_t* buf, int len) {
+    int pos = 0;
+    _IfClass = 0;
+    _IfSubClass = 0;
+    while (pos < len) {
+        int type = buf[pos+1];
+        //DBG_BYTES(TYPE_Str(type), buf+pos, buf[pos]);
+        IF_EQ_THEN_PRINTF(DESCRIPTOR_TYPE_CONFIGURATION, type)
+            VERBOSE("NumInterfaces: %d\n", buf[pos+4]);
+        ENDIF
+        IF_EQ_THEN_PRINTF(DESCRIPTOR_TYPE_INTERFACE_ASSOCIATION, type)
+            VERBOSE("FirstInterface: %d\n", buf[pos+2]);
+            VERBOSE("InterfaceCount: %d\n", buf[pos+3]);
+            VERBOSE("FunctionClass: %02X\n", buf[pos+4]);
+            VERBOSE("FunctionSubClass: %02X\n", buf[pos+5]);
+            VERBOSE("FunctionProtocol: %02X\n", buf[pos+6]);
+            VERBOSE("Function: %d\n", buf[pos+7]);
+        ENDIF
+        IF_EQ_THEN_PRINTF(DESCRIPTOR_TYPE_INTERFACE,type)
+            VERBOSE("InterfaceNumber: %d\n", buf[pos+2]);
+            VERBOSE("AlternateSetting: %d\n", buf[pos+3]);
+            VERBOSE("NumEndpoint: %d\n", buf[pos+4]);
+            VERBOSE("InterfaceClass: %02X\n", buf[pos+5]);
+            VERBOSE("InterfaceSubClass: %02X\n", buf[pos+6]);
+            VERBOSE("InterfaceProtocol: %02X\n", buf[pos+7]);
+            VERBOSE("Interface: %d\n", buf[pos+8]);
+            _If         = buf[pos+2];
+            _Ifalt      = buf[pos+3];
+            _IfClass    = buf[pos+5];
+            _IfSubClass = buf[pos+6];
+        ENDIF
+        IF_EQ_THEN_PRINTF(DESCRIPTOR_TYPE_ENDPOINT, type)
+            VERBOSE("EndpointAddress: %02X\n", buf[pos+2]);
+            VERBOSE("Attributes: %02X\n", buf[pos+3]);
+            VERBOSE("MaxPacketSize: %d\n", LE16(buf+pos+4));
+            VERBOSE("Interval: %d\n", buf[pos+6]);
+            if (_IfClass == CC_VIDEO && _IfSubClass == SC_VIDEOSTREAMING) {
+                if (bEndpointAddress == buf[pos+2]) {
+                    if (wMaxPacketSize == 0) {
+                        wMaxPacketSize = LE16(buf+pos+4);
+                    }    
+                    if (wMaxPacketSize == LE16(buf+pos+4)) {
+                        bInterface = _If;
+                        bAlternate = _Ifalt;
+                    }
+                }
+            }
+        ENDIF
+        IF_EQ_THEN_PRINTF(DESCRIPTOR_TYPE_CS_INTERFACE, type)
+            IF_EQ_THEN_PRINTF(CC_VIDEO, _IfClass)
+                IF_EQ_THEN_PRINTF(SC_VIDEOCONTROL, _IfSubClass)
+                    _parserVideoControl(buf+pos, buf[pos]);
+                ENDIF
+                IF_EQ_THEN_PRINTF(SC_VIDEOSTREAMING, _IfSubClass)
+                    _parserVideoStream(buf+pos, buf[pos]);
+                ENDIF
+            ENDIF
+            IF_EQ_THEN_PRINTF(CC_AUDIO, _IfClass)
+                IF_EQ_THEN_PRINTF(SC_AUDIOCONTROL, _IfSubClass)
+                    _parserAudioControl(buf+pos, buf[pos]);
+                ENDIF 
+                IF_EQ_THEN_PRINTF(SC_AUDIOSTREAMING, _IfSubClass)
+                    _parserAudioStream(buf+pos, buf[pos]);
+                ENDIF
+            ENDIF
+        ENDIF
+        IF_EQ_THEN_PRINTF(DESCRIPTOR_TYPE_HUB, type)
+        ENDIF
+        pos += buf[pos];
+    }
+}
+