http://http://diytec.web.fc2.com/mark2r2/

Dependencies:   EthernetNetIf NTPClient_NetServices mbed ConfigFile

Revision:
0:08a4d61cd84c
diff -r 000000000000 -r 08a4d61cd84c MODDMA/MODDMA.h
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/MODDMA/MODDMA.h	Tue Sep 20 12:46:26 2011 +0000
@@ -0,0 +1,693 @@
+/*
+    Copyright (c) 2010 Andy Kirkham
+ 
+    Permission is hereby granted, free of charge, to any person obtaining a copy
+    of this software and associated documentation files (the "Software"), to deal
+    in the Software without restriction, including without limitation the rights
+    to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+    copies of the Software, and to permit persons to whom the Software is
+    furnished to do so, subject to the following conditions:
+ 
+    The above copyright notice and this permission notice shall be included in
+    all copies or substantial portions of the Software.
+ 
+    THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+    IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+    FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+    AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+    LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+    OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+    THE SOFTWARE.
+    
+    @file          MODDMA.h 
+    @purpose       Adds DMA controller and multiple transfer configurations
+    @version       see ChangeLog.c
+    @date          Nov 2010
+    @author        Andy Kirkham    
+*/
+
+#ifndef MODDMA_H
+#define MODDMA_H
+
+/** @defgroup API The MODDMA API */
+/** @defgroup MISC Misc MODSERIAL functions */
+/** @defgroup INTERNALS MODSERIAL Internals */
+
+#include "mbed.h"
+#include "iomacros.h"
+
+namespace AjK {
+
+/**
+ * @brief The MODDMA configuration system
+ * @author Andy Kirkham
+ * @see http://mbed.org/cookbook/MODDMA_Config
+ * @see MODDMA
+ * @see API 
+ *
+ * <b>MODDMA_Config</b> defines a configuration that can be passed to the MODDMA controller
+ * instance to perform a GPDMA data transfer.
+ */
+class  MODDMA_Config {
+protected:
+
+    // *****************************************
+    // From GPDMA by NXP MCU SW Application Team
+    // *****************************************
+    
+    uint32_t ChannelNum;        //!< DMA channel number, should be in range from 0 to 7. 
+    uint32_t TransferSize;      //!< Length/Size of transfer 
+    uint32_t TransferWidth;     //!< Transfer width - used for TransferType is GPDMA_TRANSFERTYPE_m2m only 
+    uint32_t SrcMemAddr;        //!< Physical Src Addr, used in case TransferType is chosen as MODDMA::GPDMA_TRANSFERTYPE::m2m or MODDMA::GPDMA_TRANSFERTYPE::m2p 
+    uint32_t DstMemAddr;        //!< Physical Destination Address, used in case TransferType is chosen as MODDMA::GPDMA_TRANSFERTYPE::m2m or MODDMA::GPDMA_TRANSFERTYPE::p2m 
+    uint32_t TransferType;      //!< Transfer Type
+    uint32_t SrcConn;           //!< Peripheral Source Connection type, used in case TransferType is chosen as
+    uint32_t DstConn;           //!< Peripheral Destination Connection type, used in case TransferType is chosen as
+    uint32_t DMALLI;            //!< Linker List Item structure data address if there's no Linker List, set as '0'
+    uint32_t DMACSync;          //!< DMACSync if required.
+    
+    // Mbed specifics.
+
+public: 
+   
+    MODDMA_Config() {
+        isrIntTCStat  = new FunctionPointer;
+        isrIntErrStat = new FunctionPointer;
+        ChannelNum    = 0xFFFF;
+        TransferSize  = 0;
+        TransferWidth = 0;
+        SrcMemAddr    = 0;
+        DstMemAddr    = 0;
+        TransferType  = 0;
+        SrcConn       = 0;
+        DstConn       = 0;
+        DMALLI        = 0;
+        DMACSync      = 0;
+    }
+    
+    ~MODDMA_Config() {
+        delete(isrIntTCStat);
+        delete(isrIntErrStat);
+    }
+        
+    class MODDMA_Config * channelNum(uint32_t n)    { ChannelNum = n & 0x7;  return this; }
+    class MODDMA_Config * transferSize(uint32_t n)  { TransferSize = n;      return this; }
+    class MODDMA_Config * transferWidth(uint32_t n) { TransferWidth = n;     return this; }
+    class MODDMA_Config * srcMemAddr(uint32_t n)    { SrcMemAddr = n;        return this; }
+    class MODDMA_Config * dstMemAddr(uint32_t n)    { DstMemAddr = n;        return this; }
+    class MODDMA_Config * transferType(uint32_t n)  { TransferType = n;      return this; }
+    class MODDMA_Config * srcConn(uint32_t n)       { SrcConn = n;           return this; }
+    class MODDMA_Config * dstConn(uint32_t n)       { DstConn = n;           return this; }
+    class MODDMA_Config * dmaLLI(uint32_t n)        { DMALLI = n;            return this; }
+    class MODDMA_Config * dmacSync(uint32_t n)      { DMACSync = n;          return this; }
+    
+    uint32_t channelNum(void)    { return ChannelNum;    }
+    uint32_t transferSize(void)  { return TransferSize;  }
+    uint32_t transferWidth(void) { return TransferWidth; }
+    uint32_t srcMemAddr(void)    { return SrcMemAddr;    }
+    uint32_t dstMemAddr(void)    { return DstMemAddr;    }
+    uint32_t transferType(void)  { return TransferType;  }
+    uint32_t srcConn(void)       { return SrcConn;       }
+    uint32_t dstConn(void)       { return DstConn;       }
+    uint32_t dmaLLI(void)        { return DMALLI;        }
+    uint32_t dmacSync(void)      { return DMACSync; }
+    
+    /**
+     * Attach a callback to the TC IRQ configuration.
+     *
+     * @param fptr A function pointer to call
+     * @return this
+     */
+    class MODDMA_Config * attach_tc(void (*fptr)(void)) {  
+        isrIntTCStat->attach(fptr); 
+        return this;
+    }
+    
+    /**
+     * Attach a callback to the ERR IRQ configuration.
+     *
+     * @param fptr A function pointer to call
+     * @return this
+     */
+    class MODDMA_Config * attach_err(void (*fptr)(void)) {  
+        isrIntErrStat->attach(fptr);         
+        return this;
+    }
+    
+    /**
+     * Attach a callback to the TC IRQ configuration.
+     *
+     * @param tptr A template pointer to the calling object
+     * @param mptr A method pointer within the object to call.
+     * @return this
+     */
+    template<typename T>
+    class MODDMA_Config * attach_tc(T* tptr, void (T::*mptr)(void)) {  
+        if((mptr != NULL) && (tptr != NULL)) {
+            isrIntTCStat->attach(tptr, mptr);
+        }
+        return this;
+    }
+    
+    /**
+     * Attach a callback to the ERR IRQ configuration.
+     *
+     * @param tptr A template pointer to the calling object
+     * @param mptr A method pointer within the object to call.
+     * @return this
+     */
+    template<typename T>
+    class MODDMA_Config * attach_err(T* tptr, void (T::*mptr)(void)) {  
+        if((mptr != NULL) && (tptr != NULL)) {
+            isrIntErrStat->attach(tptr, mptr);
+        }
+        return this;
+    }
+    FunctionPointer *isrIntTCStat;                        
+    FunctionPointer *isrIntErrStat;                        
+};
+
+/**
+ * @brief The MODDMA configuration system (linked list items)
+ * @author Andy Kirkham
+ * @see http://mbed.org/cookbook/MODDMA_Config
+ * @see MODDMA
+ * @see MODDMA_Config
+ * @see API 
+ */
+class MODDMA_LLI {
+public:
+    class MODDMA_LLI *srcAddr(uint32_t n) { SrcAddr = n; return this; }
+    class MODDMA_LLI *dstAddr(uint32_t n) { DstAddr = n; return this; }
+    class MODDMA_LLI *nextLLI(uint32_t n) { NextLLI = n; return this; }
+    class MODDMA_LLI *control(uint32_t n) { Control = n; return this; }
+    uint32_t srcAddr(void) { return SrcAddr; }
+    uint32_t dstAddr(void) { return DstAddr; }
+    uint32_t nextLLI(void) { return NextLLI; }
+    uint32_t control(void) { return Control; }
+
+    uint32_t SrcAddr;    //!< Source Address 
+    uint32_t DstAddr;    //!< Destination address 
+    uint32_t NextLLI;    //!< Next LLI address, otherwise set to '0' 
+    uint32_t Control;    //!< GPDMA Control of this LLI 
+};
+
+
+
+ /**
+ * @brief MODDMA GPDMA Controller
+ * @author Andy Kirkham
+ * @see http://mbed.org/cookbook/MODDMA
+ * @see example1.cpp
+ * @see API 
+ *
+ * <b>MODDMA</b> defines a GPDMA controller and multiple DMA configurations that allow for DMA
+ * transfers from memory to memory, memory to peripheral or peripheral to memory.
+ *
+ * At the heart of the library is the MODDMA class that defines a single instance controller that
+ * manages all the GPDMA hardware registers and interrupts. The controller can accept multiple
+ * configurations that define the channel transfers. Each configuration specifies the source and 
+ * destination information and other associated parts to maintain the transfer process.
+ *
+ * Standard example:
+ * @code
+ * #include "mbed.h"
+ * #include "MODDMA.h"
+ *
+ * DigitalOut led1(LED1);
+ * Serial pc(USBTX, USBRX); // tx, rx
+ * MODDMA dma;
+ *
+ * int main() {
+ *
+ *     // Create a string buffer to send directly to a Uart/Serial
+ *     char s[] = "***DMA*** ABCDEFGHIJKLMNOPQRSTUVWXYZ ***DMA***";
+ *
+ *     // Create a transfer configuarion
+ *     MODDMA_Config *config = new MODDMA_Config;
+ *
+ *     // Provide a "minimal" setup for demo purposes.
+ *     config
+ *      ->channelNum    ( MODDMA::Channel_0 )   // The DMA channel to use.
+ *      ->srcMemAddr    ( (uint32_t) &s )       // A pointer to the buffer to send.
+ *      ->transferSize  ( sizeof(s) )           // The size of that buffer.
+ *      ->transferType  ( MODDMA::m2p )         // Source is memory, destination is peripheral
+ *      ->dstConn       ( MODDMA::UART0_Tx )    // Specifically, peripheral is Uart0 TX (USBTX, USBRX)
+ *    ; // config end.
+ *
+ *    // Pass the configuration to the MODDMA controller.
+ *    dma.Setup( config );
+ *
+ *    // Enable the channel and begin transfer.
+ *    dma.Enable( config->channelNum() );
+ *
+ *    while(1) {
+ *         led1 = !led1;
+ *         wait(0.25);
+ *     }
+ * }
+ * @endcode
+ */
+class MODDMA
+{
+public:
+
+    //! Channel definitions.
+    enum CHANNELS {
+          Channel_0 = 0     /*!< Channel 0 */ 
+        , Channel_1         /*!< Channel 1 */ 
+        , Channel_2         /*!< Channel 2 */ 
+        , Channel_3         /*!< Channel 3 */ 
+        , Channel_4         /*!< Channel 4 */ 
+        , Channel_5         /*!< Channel 5 */ 
+        , Channel_6         /*!< Channel 6 */ 
+        , Channel_7         /*!< Channel 7 */ 
+    };
+    
+    //! Interrupt callback types.
+    enum IrqType_t {
+          TcIrq = 0     /*!< Terminal Count interrupt */
+        , ErrIrq        /*!< Error interrupt */
+    };
+    
+    //! Return status codes.
+    enum Status {
+          Ok            = 0     /*!< Ok, suceeded */
+        , Error         = -1    /*!< General error */
+        , ErrChInUse    = -2    /*!< Specific error, channel in use */
+    };
+    
+    //! DMA Connection number definitions 
+    enum GPDMA_CONNECTION {
+          SSP0_Tx       = 0UL   /*!< SSP0 Tx */
+        , SSP0_Rx       = 1UL   /*!< SSP0 Rx */
+        , SSP1_Tx       = 2UL   /*!< SSP1 Tx */
+        , SSP1_Rx       = 3UL   /*!< SSP1 Rx */
+        , ADC           = 4UL   /*!< ADC */
+        , I2S_Channel_0 = 5UL   /*!< I2S channel 0 */
+        , I2S_Channel_1 = 6UL   /*!< I2S channel 1 */
+        , DAC           = 7UL   /*!< DAC */
+        , UART0_Tx      = 8UL   /*!< UART0 Tx */
+        , UART0_Rx      = 9UL   /*!< UART0 Rx */
+        , UART1_Tx      = 10UL  /*!< UART1 Tx */
+        , UART1_Rx      = 11UL  /*!< UART1 Rx */
+        , UART2_Tx      = 12UL  /*!< UART2 Tx */
+        , UART2_Rx      = 13UL  /*!< UART2 Rx */
+        , UART3_Tx      = 14UL  /*!< UART3 Tx */
+        , UART3_Rx      = 15UL  /*!< UART3 Rx */
+        , MAT0_0        = 16UL  /*!< MAT0.0 */
+        , MAT0_1        = 17UL  /*!< MAT0.1 */
+        , MAT1_0        = 18UL  /*!< MAT1.0 */
+        , MAT1_1        = 19UL  /*!< MAT1.1 */
+        , MAT2_0        = 20UL  /**< MAT2.0 */
+        , MAT2_1        = 21UL  /*!< MAT2.1 */
+        , MAT3_0        = 22UL  /*!< MAT3.0 */
+        , MAT3_1        = 23UL  /*!< MAT3.1 */
+    };
+
+    //! GPDMA Transfer type definitions 
+    enum  GPDMA_TRANSFERTYPE {
+          m2m = 0UL     /*!< Memory to memory - DMA control */
+        , m2p = 1UL     /*!< Memory to peripheral - DMA control */
+        , p2m = 2UL     /*!< Peripheral to memory - DMA control */
+        , p2p = 3UL     /*!< Src peripheral to dest peripheral - DMA control */         
+        , g2m = 4UL     /*!< Psuedo special case for reading "peripheral GPIO" that's memory mapped. */
+        , m2g = 5UL     /*!< Psuedo Special case for writing "peripheral GPIO" that's memory mapped. */        
+    };   
+
+    //! Burst size in Source and Destination definitions */
+    enum GPDMA_BSIZE {
+          _1    = 0UL   /*!< Burst size = 1 */
+        , _4    = 1UL   /*!< Burst size = 4 */
+        , _8    = 2UL   /*!< Burst size = 8 */
+        , _16   = 3UL   /*!< Burst size = 16 */
+        , _32   = 4UL   /*!< Burst size = 32 */
+        , _64   = 5UL   /*!< Burst size = 64 */
+        , _128  = 6UL   /*!< Burst size = 128 */
+        , _256  = 7UL   /*!< Burst size = 256 */
+    };
+    
+    //! Width in Src transfer width and Dest transfer width definitions */
+    enum GPDMA_WIDTH {
+          byte     = 0UL    /*!< Width = 1 byte */
+        , halfword = 1UL    /*!< Width = 2 bytes */
+        , word     = 2UL    /*!< Width = 4 bytes */
+    };
+    
+    //! DMA Request Select Mode definitions. */
+    enum GPDMA_REQSEL {
+          uart  = 0UL   /*!< UART TX/RX is selected */
+        , timer = 1UL   /*!< Timer match is selected */
+    };
+
+    //! GPDMA Control register bits.
+    enum Config {
+          _E = 1        /*!< DMA Controller enable */
+        , _M = 2        /*!< AHB Master endianness configuration */
+    };    
+
+    //! GPDMA Channel config register bits.
+    enum CConfig {
+          _CE  = (1UL << 0)     /*!< Channel enable */
+        , _IE  = (1UL << 14)    /*!< Interrupt error mask */
+        , _ITC = (1UL << 15)    /*!< Terminal count interrupt mask */
+        , _L   = (1UL << 16)    /*!< Lock */
+        , _A   = (1UL << 17)    /*!< Active */
+        , _H   = (1UL << 18)    /*!< Halt */
+    };
+    
+    /**
+     * The MODDMA constructor is used to initialise the DMA controller object.
+     */    
+    MODDMA() { init(true); }
+    
+    /**
+     * The MODDMA destructor.
+     */    
+    ~MODDMA() {}
+    
+    /**
+     * Used to setup the DMA controller to prepare for a data transfer.
+     *
+     * @ingroup API
+     * @param isConstructorCalling Set true when called from teh constructor
+     * @param 
+     */
+    void init(bool isConstructorCalling, int Channels = 0xFF, int Tc = 0xFF, int Err = 0xFF);
+    
+    /**
+     * Used to setup and enable the DMA controller.
+     *
+     * @see Setup
+     * @see Enable
+     * @ingroup API
+     * @param c A pointer to an instance of MODDMA_Config to setup.
+     */
+    uint32_t Prepare(MODDMA_Config *c) {
+        uint32_t u = Setup(c);
+        if (u) Enable(c);
+        return u;
+    }
+    
+    /**
+     * Used to setup the DMA controller to prepare for a data transfer.
+     *
+     * @ingroup API
+     * @param c A pointer to an instance of MODDMA_Config to setup.
+     */
+    uint32_t Setup(MODDMA_Config *c);
+    
+    /**
+     * Enable and begin data transfer.
+     *
+     * @ingroup API
+     * @param ChannelNumber Type CHANNELS, the channel number to enable
+     */
+    void Enable(CHANNELS ChannelNumber);
+    
+    /**
+     * Enable and begin data transfer (overloaded function)
+     *
+     * @ingroup API
+     * @param ChannelNumber Type uin32_t, the channel number to enable
+     */
+    void Enable(uint32_t ChannelNumber) { Enable((CHANNELS)(ChannelNumber & 0x7)); }
+    
+    /**
+     * Enable and begin data transfer (overloaded function)
+     *
+     * @ingroup API
+     * @param config A pointer to teh configuration
+     */
+    void Enable(MODDMA_Config *config) { Enable( config->channelNum() ); }
+        
+    
+    /**
+     * Disable a channel and end data transfer.
+     *
+     * @ingroup API
+     * @param ChannelNumber Type CHANNELS, the channel number to enable
+     */
+    void Disable(CHANNELS ChannelNumber);
+    
+    /**
+     * Disable a channel and end data transfer (overloaded function)
+     *
+     * @ingroup API
+     * @param ChannelNumber Type uin32_t, the channel number to disable
+     */
+    void Disable(uint32_t ChannelNumber) { Disable((CHANNELS)(ChannelNumber & 0x7)); }
+    
+    /**
+     * Is the specified channel enabled?
+     *
+     * @ingroup API
+     * @param ChannelNumber Type CHANNELS, the channel number to test
+     * @return bool true if enabled, false otherwise.
+     */
+    bool Enabled(CHANNELS ChannelNumber);
+    
+    /**
+     * Is the specified channel enabled? (overloaded function)
+     *
+     * @ingroup API
+     * @param ChannelNumber Type uin32_t, the channel number to test
+     * @return bool true if enabled, false otherwise.
+     */
+    bool Enabled(uint32_t ChannelNumber) { return Enabled((CHANNELS)(ChannelNumber & 0x7)); }
+    
+    __INLINE uint32_t IntStat(uint32_t n)            { return (1UL << n) & 0xFF; }
+    __INLINE uint32_t IntTCStat_Ch(uint32_t n)       { return (1UL << n) & 0xFF; }
+    __INLINE uint32_t IntTCClear_Ch(uint32_t n)      { return (1UL << n) & 0xFF; }
+    __INLINE uint32_t IntErrStat_Ch(uint32_t n)      { return (1UL << n) & 0xFF; }
+    __INLINE uint32_t IntErrClr_Ch(uint32_t n)       { return (1UL << n) & 0xFF; }
+    __INLINE uint32_t RawIntErrStat_Ch(uint32_t n)   { return (1UL << n) & 0xFF; }
+    __INLINE uint32_t EnbldChns_Ch(uint32_t n)       { return (1UL << n) & 0xFF; }
+    __INLINE uint32_t SoftBReq_Src(uint32_t n)       { return (1UL << n) & 0xFFFF; }
+    __INLINE uint32_t SoftSReq_Src(uint32_t n)       { return (1UL << n) & 0xFFFF; }
+    __INLINE uint32_t SoftLBReq_Src(uint32_t n)      { return (1UL << n) & 0xFFFF; }
+    __INLINE uint32_t SoftLSReq_Src(uint32_t n)      { return (1UL << n) & 0xFFFF; }
+    __INLINE uint32_t Sync_Src(uint32_t n)           { return (1UL << n) & 0xFFFF; }
+    __INLINE uint32_t ReqSel_Input(uint32_t n)       { return (1UL << (n - 8)) & 0xFF; }
+    
+
+    __INLINE uint32_t CxControl_TransferSize(uint32_t n)     { return (n & 0xFFF) << 0; }
+    __INLINE uint32_t CxControl_SBSize(uint32_t n)           { return (n & 0x7) << 12; }
+    __INLINE uint32_t CxControl_DBSize(uint32_t n)           { return (n & 0x7) << 15; }
+    __INLINE uint32_t CxControl_SWidth(uint32_t n)           { return (n & 0x7) << 18; }
+    __INLINE uint32_t CxControl_DWidth(uint32_t n)           { return (n & 0x7) << 21; }
+    __INLINE uint32_t CxControl_SI()                         { return (1UL << 26); }
+    __INLINE uint32_t CxControl_DI()                         { return (1UL << 27); }
+    __INLINE uint32_t CxControl_Prot1()                      { return (1UL << 28); }
+    __INLINE uint32_t CxControl_Prot2()                      { return (1UL << 29); }
+    __INLINE uint32_t CxControl_Prot3()                      { return (1UL << 30); }
+    __INLINE uint32_t CxControl_I()                          { return (1UL << 31); }
+    __INLINE uint32_t CxControl_E()                          { return (1UL << 0); }
+    __INLINE uint32_t CxConfig_SrcPeripheral(uint32_t n)     { return (n & 0x1F) << 1; }
+    __INLINE uint32_t CxConfig_DestPeripheral(uint32_t n)    { return (n & 0x1F) << 6; }
+    __INLINE uint32_t CxConfig_TransferType(uint32_t n)      { return (n & 0x7) << 11; }
+    __INLINE uint32_t CxConfig_IE()                          { return (1UL << 14); }
+    __INLINE uint32_t CxConfig_ITC()                         { return (1UL << 15); }
+    __INLINE uint32_t CxConfig_L()                           { return (1UL << 16); }
+    __INLINE uint32_t CxConfig_A()                           { return (1UL << 17); }
+    __INLINE uint32_t CxConfig_H()                           { return (1UL << 18); }
+    
+    /**
+     * A store for up to 8 (8 channels) of configurations.
+     * @see MODDMA_Config
+     */
+    MODDMA_Config *setups[8];
+    
+    /**
+     * Get a pointer to the current configuration the ISR is servicing.
+     *
+     * @ingroup API
+     * @return MODDMA_Config * A pointer to the setup the ISR is currently servicing.
+     */
+    MODDMA_Config *getConfig(void) { return setups[IrqProcessingChannel]; }
+    
+    /**
+     * Set which channel the ISR is currently servicing.
+     *
+     * *** USED INTERNALLY. DO NOT CALL FROM USER PROGRAMS ***
+     *
+     * Must be public so the extern "C" ISR can use it.
+     */
+    void setIrqProcessingChannel(CHANNELS n) { IrqProcessingChannel = n; }
+    
+    /**
+     * Gets which channel the ISR is currently servicing.
+     *
+     * @ingroup API
+     * @return CHANNELS The current channel the ISR is servicing.
+     */
+    CHANNELS irqProcessingChannel(void) { return IrqProcessingChannel; }
+    
+    /**
+     * Sets which type of IRQ the ISR is making a callback for.
+     *
+     * *** USED INTERNALLY. DO NOT CALL FROM USER PROGRAMS ***
+     *
+     * Must be public so the extern "C" ISR can use it.
+     */ 
+    void setIrqType(IrqType_t n) { IrqType = n; }
+    
+    /**
+     * Get which type of IRQ the ISR is calling you about,
+     * terminal count or error.
+     */
+    IrqType_t irqType(void) { return IrqType; }
+    
+    /**
+     * Clear the interrupt after handling.
+     *
+     * @param CHANNELS The channel the IQR occured on.
+     */
+    void clearTcIrq(CHANNELS n) { LPC_GPDMA->DMACIntTCClear = (uint32_t)(1UL << n); } 
+    
+    /**
+     * Clear the interrupt the ISR is currently handing..
+     */
+    void clearTcIrq(void) { clearTcIrq( IrqProcessingChannel ); }
+    
+    /**
+     * Clear the error interrupt after handling.
+     *
+     * @ingroup API
+     * @param CHANNELS The channel the IQR occured on.
+     */
+    void clearErrIrq(CHANNELS n) { LPC_GPDMA->DMACIntTCClear = (uint32_t)(1UL << n); } 
+    
+    /**
+     * Clear the error interrupt the ISR is currently handing.
+     * @ingroup API
+     */
+    void clearErrIrq(void) { clearErrIrq( IrqProcessingChannel ); }
+   
+    /**
+     * Is the supplied channel currently active?
+     *
+     * @ingroup API
+     * @param CHANNELS The channel to inquire about.
+     * @return bool true if active, false otherwise.
+     */     
+    bool isActive(CHANNELS ChannelNumber);
+    
+    /**
+     * Halt the supplied channel. 
+     *
+     * @ingroup API
+     * @param CHANNELS The channel to halt.
+     */
+    void haltChannel(CHANNELS ChannelNumber);
+    
+    /**
+     * get a channels control register. 
+     *
+     * @ingroup API
+     * @param CHANNELS The channel to get the control register for.
+     */
+    uint32_t getControl(CHANNELS ChannelNumber);
+    
+    /**
+     * Wait for channel transfer to complete and then halt.
+     *
+     * @ingroup API
+     * @param CHANNELS The channel to wait for then halt.
+     */
+    void haltAndWaitChannelComplete(CHANNELS n) { haltChannel(n); while (isActive(n)); }
+    
+    /**
+     * Attach a callback to the TC IRQ controller.
+     *
+     * @ingroup API
+     * @param fptr A function pointer to call
+     * @return this
+     */
+    void attach_tc(void (*fptr)(void)) {  
+        isrIntTCStat.attach(fptr);         
+    }
+    
+    /**
+     * Attach a callback to the TC IRQ controller.
+     *
+     * @ingroup API
+     * @param tptr A template pointer to the calling object
+     * @param mptr A method pointer within the object to call.
+     * @return this
+     */
+    template<typename T>
+    void attach_tc(T* tptr, void (T::*mptr)(void)) {  
+        if((mptr != NULL) && (tptr != NULL)) {
+            isrIntTCStat.attach(tptr, mptr);         
+        }        
+    }
+       
+    /**
+     * The MODDMA controllers terminal count interrupt callback.
+     */
+    FunctionPointer isrIntTCStat;                        
+    
+    /**
+     * Attach a callback to the ERR IRQ controller.
+     *
+     * @ingroup API
+     * @param fptr A function pointer to call
+     * @return this
+     */
+    void attach_err(void (*fptr)(void)) {  
+        isrIntErrStat.attach(fptr);                 
+    }
+    
+    /**
+     * Attach a callback to the ERR IRQ controller.
+     *
+     * @ingroup API
+     * @param tptr A template pointer to the calling object
+     * @param mptr A method pointer within the object to call.
+     * @return this
+     */
+    template<typename T>
+    void attach_err(T* tptr, void (T::*mptr)(void)) {  
+        if((mptr != NULL) && (tptr != NULL)) {
+            isrIntErrStat.attach(tptr, mptr);         
+        }
+    }
+    
+    /**
+     * Get the Linked List index regsiter for the requested channel.
+     *
+     * @param channelNum The channel number.
+     * @return uint32_t The value of the DMACCLLI register
+     */
+    uint32_t lli(CHANNELS ChannelNumber, MODDMA_LLI *set = 0) { 
+        LPC_GPDMACH_TypeDef *pChannel = (LPC_GPDMACH_TypeDef *)Channel_p( ChannelNumber & 0x7 );
+        if (set) pChannel->DMACCLLI = (uint32_t)set;
+        return pChannel->DMACCLLI; 
+    }
+    
+    /**
+     * The MODDMA controllers error interrupt callback.
+     */
+    FunctionPointer isrIntErrStat;                        
+    
+    uint32_t Channel_p(int channel);
+    
+protected:
+   
+    // Data LUTs.
+    uint32_t LUTPerAddr(int n);
+    uint8_t  LUTPerBurst(int n);
+    uint8_t  LUTPerWid(int n);    
+    //uint32_t Channel_p(int channel);
+    
+    CHANNELS IrqProcessingChannel;
+    
+    IrqType_t IrqType;
+};
+
+}; // namespace AjK ends.
+
+using namespace AjK;
+
+#endif