Subversion Repositories usb_fpga_2_13

/*!

   Java host software API of ZTEX SDK

   Copyright (C) 2009-2014 ZTEX GmbH.

   http://www.ztex.de

   This program is free software; you can redistribute it and/or modify

   it under the terms of the GNU General Public License version 3 as

   published by the Free Software Foundation.

   This program 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

   General Public License for more details.

   You should have received a copy of the GNU General Public License

   along with this program; if not, see http://www.gnu.org/licenses/.

!*/

package ztex;

import ch.ntb.usb.*;

/**

  * This class represents the configuration data space of ZTEX FPGA Boards that support it.

  * The internal format is

  * <pre>

  * <Address> <Description>

  * 0..2      Signature "CD0"

  * 3         Kind of FPGA Board, see {@link #boardNames}, e.g. 2 for "ZTEX USB-FPGA Module",

  * 4         FPGA Board series, e.g. 2

  * 5         FPGA Board number (number behind the dot), e.g. 16

  * 6..7      FPGA Board variant (letter), e.g. "b"

  * 8..9      FPGA, see {@link #fpgas}, e.g. 12 for X7A200T

  * 10        FPGA package, see {@link #packages}, e.g. 3 for FBG484

  * 11..13    Speed grade + temperature range, e.g. "2C"

  * 14        RAM size, format is ( n & 0xf0 ) << ( (n & 0xf) + 16 ) bytes

  * 15        RAM type, see {@link #ramTypes}

  * 16..25    Serial number, overwrites SN_STRING of the ZTEX descriptor.

  *           If it is equal to "0000000000" (default) it is replaced by the unique MAC address.

  * 26..27    Actual size of Bitstream in 4K sectors; 0 means Bitstream disabled (default)

  * 28..29    Maximum size of Bitstream in 4K sectors; 0 means that either no Flash

  *           is present or that this information is stored in Flash (exchangeable media)

  * 30..79    Reserved

  * 80..127   48 bytes user space

  * </pre>

  */

public class ConfigData {

/**

  * Kinds of FPGA Boards.

  * It's defined as

  * <pre>{@code

public static final String boardNames[] = {

    "(unknown)" ,             // 0

    "ZTEX FPGA Module" ,      // 1

    "ZTEX USB-FPGA Module"    // 2

};}</pre>

  **/

    public static final String boardNames[] = {

        "(unknown)" ,             // 0

        "ZTEX FPGA Module" ,      // 1

        "ZTEX USB-FPGA Module"    // 2

    };

/**

  * FPGA's used on ZTEX FPGA Boards.

  * It's defined as

  * <pre>{@code

public static final String fpgas[] = {

        "(unknown)" ,  // 0

        "XC6SLX9" ,    // 1

        "XC6SLX16" ,   // 2

        "XC6SLX25" ,   // 3

        "XC6SLX45" ,   // 4

        "XC6SLX75" ,   // 5

        "XC6SLX100" ,  // 6

        "XC6SLX150" ,  // 7

        "XC7A35T",     // 8

        "XC7A50T",     // 9

        "XC7A75T",     // 10

        "XC7A100T",    // 11

        "XC7A200T",    // 12

        "Quad-XC6SLX150"  // 13

};}</pre>

  **/

    public static final String fpgas[] = {

        "(unknown)" ,  // 0

        "XC6SLX9" ,    // 1

        "XC6SLX16" ,   // 2

        "XC6SLX25" ,   // 3

        "XC6SLX45" ,   // 4

        "XC6SLX75" ,   // 5

        "XC6SLX100" ,  // 6

        "XC6SLX150" ,  // 7

        "XC7A35T",     // 8

        "XC7A50T",     // 9

        "XC7A75T",     // 10

        "XC7A100T",    // 11

        "XC7A200T",    // 12

        "Quad-XC6SLX150"  // 13

    };

/** * FPGA packages used on ZTEX FPGA boards.

  * It's defined as

  * <pre>{@code

public static final String packages[] = {

        "(unknown)",  // 0

        "FTG256" ,    // 1  256 balls, 1.0mm

        "CSG324" ,    // 2  324 balls, 0.8mm

        "CSG484" ,    // 3  484 balls, 0.8mm

        "FBG484"      // 4  484 balls, 1.0mm

};}</pre>

  **/

    public static final String packages[] = {

        "(unknown)",  // 0

        "FTG256" ,    // 1  256 balls, 1.0mm

        "CSG324" ,    // 2  324 balls, 0.8mm

        "CSG484" ,    // 3  484 balls, 0.8mm

        "FBG484"      // 4  484 balls, 1.0mm

    };

/** * RAM types and speed used on ZTEX FPGA boards.

  * It's defined as

  * <pre>{@code

public static final String ramTypes[] = {

        "(unknown)",        // 0

        "DDR-200 SDRAM",    // 1

        "DDR-266 SDRAM",    // 2

        "DDR-333 SDRAM",    // 3

        "DDR-400 SDRAM",    // 4

        "DDR2-400 SDRAM",   // 5

        "DDR2-533 SDRAM",   // 6

        "DDR2-667 SDRAM",   // 7

        "DDR2-800 SDRAM",   // 8

        "DDR2-1066 SDRAM"   // 9

};}</pre>

  **/

    public static final String ramTypes[] = {

        "(unknown)",        // 0

        "DDR-200 SDRAM",    // 1

        "DDR-266 SDRAM",    // 2

        "DDR-333 SDRAM",    // 3

        "DDR-400 SDRAM",    // 4

        "DDR2-400 SDRAM",   // 5

        "DDR2-533 SDRAM",   // 6

        "DDR2-667 SDRAM",   // 7

        "DDR2-800 SDRAM",   // 8

        "DDR2-1066 SDRAM",  // 9

        "DDR3-800 SDRAM",   // 10

        "DDR3-1066 SDRAM"   // 11

    };

    private byte[] data = new byte[128];  // data buffer

    private Ztex1v1 ztex = null;

/**

 * Constructs an empty instance.

 */

   public ConfigData() {

        data[0] = 67;

        data[1] = 68;

        data[2] = 48;

        for ( int i=3; i<128; i++)

            data[i] = 0;

        for ( int i=16; i<26; i++)

            data[i] = 48;

   }

/**

  * Constructs an instance and connects it with z. Also see {@link #connect(Ztex1v1)}.

  * @param z The ztex device to connect with.

  * @throws InvalidFirmwareException if interface 1 is not supported.

  * @throws UsbException If a communication error occurs.

  * @throws CapabilityException If no MAC-EEPROM support is present.

  */

   public ConfigData( Ztex1v1 z ) throws InvalidFirmwareException, UsbException, CapabilityException {

        this();

        connect(z);

   }

/**

  * Reads the configuration data (if existent) from a device and connects it to this instance.

  * After this user defined settings (e.g. serial number, bitstream size) are

  * stored on device immediately after they are altered.

  * @param z The ztex device to connect with.

  * @return True if configuration data could be read.

  * @throws InvalidFirmwareException If interface 1 is not supported.

  * @throws UsbException If a communication error occurs.

  * @throws CapabilityException If no MAC-EEPROM support is present.

  */

   public boolean connect( Ztex1v1 z ) throws InvalidFirmwareException, UsbException, CapabilityException {

        ztex = z;

        if ( ztex == null ) return false;

        byte[] buf = new byte[128];

        ztex.macEepromRead(0,buf,128);

        if ( buf[0]==67 && buf[1]==68 && buf[2]==48 ) {

            for ( int i=3; i<128; i++)

                data[i] = buf[i];

            return true;

        }

        return false;

   }

/**

  * Disconnects the currently connected device.

  * After this modified settings are not stored on device anymore.

  * @return True if a device was connected.

  */

   public boolean disconnect() {

        if ( ztex == null ) return false;

        ztex = null;

        return true;

    }

/**

  * Returns a copy of the configuration data array.

  * @return A copy of the configuration data array.

  */

   public byte[] data () {

        byte[] buf = new byte[128];

        for ( int i=0; i<128; i++)

            buf[i] = data[i];

        return buf;

   }

/**

  * Returns a string of an array of strings including range check.

  */

   private String stringOfArray (String[] a, int i) {

        if ( i > a.length || i < 0 ) i = 0;

        return a[i];

    }

/**

  * Finds a string from array.

  */

   private int findFromArray ( String[] a, String s) {

        int i = 0;

        while ( i < a.length && !a[i].equals(s) ) i++;

        if ( i >= a.length ) {

            System.err.print("Invalid value: `" + s + "'. Possible values: `" + a[1] + "'");

            for (int j=2; j<a.length; j++ )

                System.out.print(", `" + a[j] + "'");

            System.out.println();

            i = 0;

        }

        return i;

    }

/**

  * Returns a string from data.

  */

   private String stringFromData (int start, int maxlen) {

        int i = 0;

        while ( i < maxlen && data[start+i] != 0 ) i++;

        return new String(data,start,i);

    }

/**

  * send data

  * returns true if data was sent

  */

   private boolean sendData ( int start, int len) throws InvalidFirmwareException, UsbException, CapabilityException {

        if ( ztex == null ) return false;

        if ( start < 0 ) start = 0;

        if ( len > 128-start ) len = 128-start;

        if ( len <= 0 ) return false;

        byte[] buf = new byte[len];

        for ( int i=0; i<len; i++ )

            buf[i] = data[start+i];

        ConfigData c = ztex.config;

        ztex.config = null;

        ztex.macEepromWrite(start,buf,len);

        ztex.config = c;

        return true;

    }

/**

  * Convert string to data.

  */

   private void stringToData (String s, int start, int maxlen) {

        byte buf[] = s.getBytes();

        for ( int i=0; i<maxlen; i++ ) {

            data[start+i] = i<buf.length ? buf[i] : 0;

        }

    }

/**

  * Returns the name of the FPGA Board.

  * @return The name of the FPGA Board.

  */

   public String getName () {

        return stringOfArray(boardNames,data[3]) + " " + data[4] + "." + data[5] + stringFromData(6,2);

   }

/**

  * Sets the name of the FPGA Board.

  * Example: <pre>setName("ZTEX USB-FPGA Module", 2, 16, "b");  // denotes "ZTEX USB-FPGA Module 2.16b"</pre>

  * This setting is not transferred to the FPGA Board because is should not be altered by the user.

  * @param kind Kind of FPGA Board, see {@link #boardNames} for possible values, e.g. "ZTEX USB-FPGA Module"

  * @param series FPGA Board series, e.g. 2

  * @param number FPGA Board number (number behind the dot), e.g. 16

  * @param variant FPGA Board variant (letter), e.g. "b"

 */

   public void setName ( String kind, int series, int number, String variant) {

        data[3] = (byte) findFromArray(boardNames, kind);

        data[4] = (byte) (series & 255);

        data[5] = (byte) (number & 255);

        stringToData(variant,6,2);

   }

/**

  * Returns FPGA information.

  * Notation of the result is <name>-<package>-<speed grade and temperature range>, e.g. XC7A200T-FBG484-2C.

  * @return FPGA Information.

  */

   public String getFpga () {

        return stringOfArray(fpgas, (data[8] & 255) | ((data[9] & 255) << 8)) + "-" + stringOfArray(packages, data[10]) + "-" + stringFromData(11,3);

   }

/**

  * Sets FPGA information.

  * Example: <pre>setFpga("XC7A200T", "FBG484", "2C");   // denotes Xilinx part number XC7A200T-2FBG484C</pre>

  * This setting is not transferred to the FPGA Board because is should not be altered by the user.

  * @param name Name of the FPGA, see {@link #fpgas} for possible values, e.g. "XC7A200T"

  * @param pckg FPGA package, see {@link #packages} for possible values, e.g. "FBG484"

  * @param sg Speed grade and temperature range, e.g. "2C"

 */

   public void setFpga ( String name, String pckg, String sg) {

        int i = findFromArray(fpgas, name);

        data[8] = (byte) (i & 255);

        data[9] = (byte) ((i>>8) & 255);

        data[10] = (byte) findFromArray(packages, pckg);

        stringToData(sg,11,3);

   }

/**

  * Returns RAM type and speed.

  * @return FPGA Information.

  */

   public String getRamType () {

        return stringOfArray(ramTypes, (data[15] & 255));

   }

/**

  * Returns RAM size in bytes.

  * @return RAM size in bytes.

  */

   public int getRamSize () {

        return (data[14] & 0xf0) << ( (data[14] & 0xf) + 16 );

   }

/**

  * Sets RAM information.

  * Example: <pre>setRam(128, "DDR2-800 SDRAM");   // sets RAM info to 128 MB DDR2-800 SDRAM</pre>

  * This setting is not transferred to the FPGA Board because is should not be altered by the user.

  * @param size RAM size in MBytes, e.g. 128

  * @param type RAM type and speed, see {@link #ramTypes} for possible values, e.g. "DDR2-800 SDRAM"

 */

   public void setRam ( int size, String type) {

        if (size<0 || size>480) {

            System.err.println("Warning: Invalid RAM size: `" + size + "'. Possible values are 0 to 480.");

            size = 0;

        }

        int i=0;

        while (size >= 16) {

            i++;

            size = size >> 1;

        }

        data[14] = (byte) ((size << 4) | (i & 15));

        data[15] = (byte) findFromArray(ramTypes, type);

   }

/**

  * Returns maximum size of bitstream in bytes.

  * This is the amount of flash which should be reserved for the bitstream.

  * @return Maximum size of bitstream in bytes sectors.

  */

   public int getMaxBitstreamSize () {

        return ( (data[28] & 255) | ((data[29] & 255) << 8) ) * 4096;

   }

/**

  * Sets the maximum size of bitstream in 4 KByte sectors.

  * This setting is not transferred to the FPGA Board because is should not be altered by the user.

  * @param size4k Maximum size of bitstream in 4 KByte sectors. E.g. a value of 256 reserves 1 MByte for the bitstream.

 */

   public void setMaxBitstreamSize ( int size4k ) {

        data[28] = (byte) (size4k & 255);

        data[29] = (byte) ((size4k>> 8) & 255);

   }

/**

  * Returns actual size of bitstream in bytes sectors.

  * 0 means that no bitstream is stored. The value is rounded up to a multiples of 4096.

  * @return Actual size of bitstream in byte sectors.

  */

   public int getBitstreamSize () {

        return ( (data[26] & 255) | ((data[27] & 255) << 8) ) * 4096;

   }

/**

  * Sets the actual size of bitstream in bytes. The value is rounded up to a multiple of 4096.

  * If a device is connected, this setting is transferred to the FPGA Board.

  * A warning is printed if bitstream size is larger then the reserved size (see {@link #getMaxBitstreamSize()}).

  * @param size Actual size of bitstream in bytes.

  * @return True if a device is connected and setting was send.

  * @throws InvalidFirmwareException If interface 1 is not supported.

  * @throws UsbException If a communication error occurs.

  * @throws CapabilityException If no MAC-EEPROM support is present.

 */

   public boolean setBitstreamSize ( int size ) throws InvalidFirmwareException, UsbException, CapabilityException {

        if ( size < 0 ) size = 0;

        size = (size + 4095) >> 12;

        int i = (data[28] & 255) | ((data[29] & 255) << 8);

        if ( size > i )  System.err.println("Warning: Bitstream size of " + size + " 4K sectors larger than reserved memory of " + i + " 4K sectors");

        data[26] = (byte) (size & 255);

        data[27] = (byte) ((size>> 8) & 255);

        return sendData(26,2);

   }

/**

  * Returns the serial number. This is not necessarily the serial number

  * returned by the FPGA board according to the USB specification, see {@link #setSN(String)}

  * @return Serial number as stored in the configuration data space.

  */

   public String getSN () {

        return stringFromData(16,10);

   }

/**

  * Sets the serial number.

  * During start-up the firmware overwrites SN_STRING from the ZTEX descriptor (see {@link ZtexDevice1}) by this value.

  * If it is equal to "0000000000" (default) it is replaced by the unique MAC address. <p>

  * This setting is transferred to the FPGA Board.

  * Change takes effect after the next restart of the firmware.

  * @param sn Serial number string. Only the first 10 characters are considered.

  * @return True if a device is connected and setting was send.

  * @throws InvalidFirmwareException If interface 1 is not supported.

  * @throws UsbException If a communication error occurs.

  * @throws CapabilityException If no MAC-EEPROM support is present.

 */

   public boolean setSN ( String sn ) throws InvalidFirmwareException, UsbException, CapabilityException {

        stringToData(sn,16,10);

        return sendData(16,10);

   }

/**

  * Returns user data at index i.

  * @param i the index. Valid values are 0 to 47.

  * @return User data.

  * @throws IndexOutOfBoundsException If i is smaller than 0 or greater than 47.

  */

   public byte getUserData (int i) {

        if ( i<0 || i>47 ) throw new IndexOutOfBoundsException ( "Invalid index: " + i + ". Valid range is 0 to 47.");

        return data[80+i];

   }

/**

  * Sets user data at index i to value v. Use the method {@link #getMaxBitstreamSize()}

  * to transfer the data to the FPGA Board.

  * @param i The index. Valid values are 0 to 47.

  * @param v The value.

  * @throws IndexOutOfBoundsException If i is smaller than 0 or greater than 47.

  */

   public void setUserData (int i, byte v) throws IndexOutOfBoundsException {

        if ( i<0 || i>47 ) throw new IndexOutOfBoundsException ( "Invalid index: " + i + ". Valid range is 0 to 47.");

        data[80+i] = v;

   }

/**

  * Sends the user data to the FPGA Board.

  * @return True if a device is connected and data could be send.

  * @throws InvalidFirmwareException If interface 1 is not supported.

  * @throws UsbException If a communication error occurs.

  * @throws CapabilityException If no MAC-EEPROM support is present.

  */

   public boolean sendtUserData () throws InvalidFirmwareException, UsbException, CapabilityException {

        return sendData(80,48);

   }

}