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528 lines
14 KiB
C
528 lines
14 KiB
C
/*
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File: I2C_Cyclone.c
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Contains: This is the I2C component main code
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Written by: Dan Hitchens
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Copyright: © 1993 by Apple Computer, Inc., all rights reserved.
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Change History (most recent first):
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<SM3> 6/23/93 CSS Fix to work with ComponentFunctionProcPtr's.
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<SM2> 6/14/93 kc Roll in Ludwig.
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<LW2> 1/21/93 DH Fix so routines will transfer up to 256 bytes at a time until
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all bytes are transfered.
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*/
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#include <Memory.h>
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#include <Components.h>
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#include <QTComponents.h>
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#include "I2C_Cyclone.h"
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#include "EgretEqu.h"
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#include "CycloneDigi.h"
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#include "I2C.h"
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#define FALSE 0
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#define TRUE 1
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/* Uncomment this #define _BreakTime_ to cause a break at the start of every routine */
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//#define _BreakTime_
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/* private prototypes */
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pascal ComponentResult InitI2CComponent(ComponentInstance self);
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pascal ComponentResult ExitI2CComponent(Handle storage,ComponentInstance self);
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pascal ComponentResult CanDoI2CSelector(short selector);
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pascal ComponentResult GetI2CVersion(short *version);
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pascal ComponentResult TargetComponent(Handle storage,ComponentInstance captureInstance);
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unsigned char CudaI2C(unsigned char noBytes, unsigned char slaveAddr, unsigned char subAddr, unsigned char *data);
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pascal ComponentResult SendIIC(Handle storage, unsigned char noBytes, unsigned char slaveAddr, unsigned char subAddr, unsigned char data);
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pascal ComponentResult SendI2C(Handle storage, unsigned char noBytes, unsigned char slaveAddr, unsigned char subAddr, unsigned char *data);
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pascal ComponentResult ReceiveI2C(Handle storage, unsigned char noBytes, unsigned char slaveAddr, unsigned char subAddr, unsigned char *data);
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extern EgretGlu();
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/* Implementation Section */
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#define realComponent
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#ifdef realComponent
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pascal ComponentResult main( ComponentParameters *params, Handle storage )
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#else
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pascal ComponentResult I2CComponent( ComponentParameters *params, Handle storage )
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#endif
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{
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short selector;
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selector = params->what;
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if (selector < 0) {
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switch (selector) {
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case kComponentOpenSelect :
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return CallComponentFunction(params, (ComponentFunctionProcPtr)InitI2CComponent );
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case kComponentCloseSelect :
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return CallComponentFunctionWithStorage(storage, params, (ComponentFunctionProcPtr)ExitI2CComponent);
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case kComponentCanDoSelect :
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return CallComponentFunction(params, (ComponentFunctionProcPtr)CanDoI2CSelector);
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case kComponentVersionSelect :
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return CallComponentFunction(params, (ComponentFunctionProcPtr)GetI2CVersion);
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case kComponentTargetSelect :
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return CallComponentFunctionWithStorage(storage, params, (ComponentFunctionProcPtr)TargetComponent);
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}
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}
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else {
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switch (selector) {
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case kI2CReadSelect :
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return CallComponentFunctionWithStorage(storage, params, (ComponentFunctionProcPtr)tI2CRead);
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case kI2CWriteSelect :
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return CallComponentFunctionWithStorage(storage, params, (ComponentFunctionProcPtr)tI2CWrite);
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case kI2CReadWithSubAddrSelect :
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return CallComponentFunctionWithStorage(storage, params, (ComponentFunctionProcPtr)tI2CReadWithSubAddr);
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case kI2CWriteWithSubAddrSelect :
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return CallComponentFunctionWithStorage(storage, params, (ComponentFunctionProcPtr)tI2CWriteWithSubAddr);
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}
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};
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}
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pascal ComponentResult InitI2CComponent(ComponentInstance self) {
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#pragma unused(self)
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long Inst_Count,A5Value;
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short ErrorNo;
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Handle h,hs;
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I2CGlobals *g;
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//long refCon;
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ComponentInstance t,Search_Inst;
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ComponentDescription i2cThing;
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long defType = 'i2c ';
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long defSubType = 'm3tv';
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long defManu = 'appl';
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#ifdef _BreakTime_
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DebugStr("\pEntered InitI2CComponent ");
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#endif
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/* allocate some private storage and lock it down */
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h = NewHandle(sizeof(I2CGlobals));
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if(h==nil) return(MemError());
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MoveHHi(h);
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HLock(h);
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/* Initialize these fields to someComponent for now */
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g = (I2CGlobals *)(*h);
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g->gSelf = self; /*Save instance of self (incase we want to call ourself)*/
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SetComponentInstanceStorage(self,h);
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Inst_Count = CountComponentInstances((Component)self);
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if(Inst_Count == 1)
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{
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/* Allocate storage for the Shadow Registers */
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hs = NewHandleSys(sizeof(I2CShadow));
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if(hs==nil) {
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ErrorNo = MemError();
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DisposeHandle(h);
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return(ErrorNo);
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}
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MoveHHi(hs);
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HLock(hs);
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g->gShadowHandle = hs;
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g->gShadowPtr = (I2CShadowPtr)*hs;
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SetComponentRefcon((Component)self, (long)hs); /*Set the refcon to the handle to the shadow registers */
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} else {
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/*If there are already instances open, then we need to find the refcon from one that wasn't cloned */
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/* First find an i2c thing and open it */
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i2cThing.componentType = defType;
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i2cThing.componentSubType = defSubType;
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i2cThing.componentManufacturer = defManu;
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i2cThing.componentFlags = 0x00L;
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i2cThing.componentFlagsMask = 0x00L;
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Search_Inst = 0x0L; /*Start by searching all */
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do {
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(Component)t = FindNextComponent((Component)Search_Inst,&i2cThing);
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A5Value = GetComponentInstanceA5((ComponentInstance)t);
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Search_Inst = t;
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}
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while ((A5Value != 0) && (t!=0));
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/*Now suck down the RefCon (This is all for just incase we were cloned) */
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(long)(g->gShadowHandle) = GetComponentRefcon((Component)t);
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g->gShadowPtr = (I2CShadowPtr)*(g->gShadowHandle);
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}
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return (0);
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}
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pascal ComponentResult ExitI2CComponent(Handle storage,ComponentInstance self ) {
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long Inst_Count;
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I2CGlobals *g;
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#pragma unused(self)
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#ifdef _BreakTime_
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DebugStr("\pEntered ExitI2CComponent ");
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#endif
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g = (I2CGlobals *)(*storage);
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Inst_Count = CountComponentInstances((Component)self);
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if(Inst_Count == 1) DisposeHandle(g->gShadowHandle);
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DisposHandle(storage);
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return(0);
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}
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pascal ComponentResult CanDoI2CSelector(short selector) {
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long error = 0;
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switch (selector)
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{
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case kComponentOpenSelect:
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case kComponentCloseSelect:
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case kComponentCanDoSelect:
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case kComponentVersionSelect:
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case kComponentTargetSelect:
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case kI2CReadSelect :
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case kI2CWriteSelect :
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case kI2CReadWithSubAddrSelect :
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case kI2CWriteWithSubAddrSelect :
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error = 1;
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}
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return (error);
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}
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pascal ComponentResult GetI2CVersion(short *version) {
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*version = 0;
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return (0);
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}
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pascal ComponentResult TargetComponent(Handle storage,ComponentInstance captureInstance) {
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long error = 0;
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I2CGlobals *g;
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#ifdef _BreakTime_
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DebugStr("\pEntered I2C TargetComponent");
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#endif
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g = (I2CGlobals *)(*storage);
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g->gSelf = captureInstance;
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return(error);
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}
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MakePString(short length, char *Source, char *Dest){
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int j;
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for (j=0; j<length; ++j) {
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Dest[j] = Source[j];
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}
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return;
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}
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pascal ComponentResult tI2CRead (Handle storage, unsigned short slaveAddr, short byteCount, unsigned char *dataBuf) {
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long error = 0;
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I2CGlobals *g;
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unsigned char *theBuffer;
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short trans,transfered;
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unsigned char myPString[257];
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#ifdef _BreakTime_
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DebugStr("\pEntered tI2CRead ");
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#endif
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g = (I2CGlobals *)(*storage);
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// myPString[0] = 1; /*Set length of p-string to 1*/
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/* NOTE: This will only return a maximum of one byte */
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// error = ReceiveI2C(storage, 1, slaveAddr, 0, &myPString[0]);
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// *dataBuf = myPString[0];
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/*First make a P-string to use for ReceiveI2C call with the first byte equal to the max. no. of bytes to receive */
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// if(byteCount==256) myPString[0] = 0; else myPString[0] = byteCount;
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// error = ReceiveI2C(storage, 1, slaveAddr, 0, &myPString[0]);
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/* Now copy the data out of the p-string back to the dataBuf */
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// MakePString(byteCount,&myPString[1],dataBuf);
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theBuffer = dataBuf;
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transfered = byteCount;
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do {
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if(transfered >= 256) {
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myPString[0] = 0; /*transfer 256 bytes*/
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trans = 256;
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}
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else {
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myPString[0] = transfered;
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trans = transfered;
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}
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transfered -= 256;
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error = ReceiveI2C(storage, 1, slaveAddr, 0, &myPString[0]);
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MakePString(trans, &myPString[1], theBuffer);
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theBuffer +=256;
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} while ((error==0) && (transfered>0)); /*Do until an error occurs or weve transferred all the data 256 bytes at a time*/
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return(error);
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}
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pascal ComponentResult tI2CWrite (Handle storage, unsigned short slaveAddr, short byteCount, unsigned char *dataBuf){
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long error = 0;
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I2CGlobals *g;
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unsigned char *theBuffer;
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short trans,transfered;
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unsigned char myPString[257];
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#ifdef _BreakTime_
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DebugStr("\pEntered tI2CWrite ");
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#endif
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g = (I2CGlobals *)(*storage);
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theBuffer = dataBuf;
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transfered = byteCount;
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do {
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if(transfered >= 256) {
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myPString[0] = 0; /*transfer 256 bytes*/
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trans = 256;
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}
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else {
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myPString[0] = transfered;
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trans = transfered;
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}
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transfered -= 256;
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MakePString(trans, theBuffer, &myPString[1]);
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error = SendI2C(storage, 1, slaveAddr, 0, &myPString);
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theBuffer +=256;
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} while ((error==0) && (transfered>0)); /*Do until an error occurs or weve transferred all the data 256 bytes at a time*/
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return(error);
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}
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pascal ComponentResult tI2CReadWithSubAddr (Handle storage, unsigned short slaveAddr, unsigned short subAddr, short byteCount, unsigned char *dataBuf) {
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long error = 0;
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I2CGlobals *g;
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unsigned char *theBuffer;
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short trans,transfered;
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unsigned short XSubAddr;
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unsigned char myPString[257];
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#ifdef _BreakTime_
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DebugStr("\pEntered tI2CReadWithSubAddr ");
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#endif
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g = (I2CGlobals *)(*storage);
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/*First make a P-string to use for ReceiveI2C call with the first byte equal to the max. no. of bytes to receive */
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// if(byteCount==256) myPString[0] = 0; else myPString[0] = byteCount;
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// error = ReceiveI2C(storage, 2, slaveAddr, subAddr, &myPString[0]);
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/* Now copy the data out of the p-string back to the dataBuf */
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// MakePString(byteCount,&myPString[1],dataBuf);
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theBuffer = dataBuf;
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transfered = byteCount;
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XSubAddr = subAddr;
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do {
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if(transfered >= 256) {
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myPString[0] = 0; /*transfer 256 bytes*/
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trans = 256;
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}
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else {
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myPString[0] = transfered;
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trans = transfered;
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}
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transfered -= 256;
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error = ReceiveI2C(storage, 2, slaveAddr, XSubAddr, &myPString[0]);
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MakePString(trans, &myPString[1], theBuffer);
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theBuffer +=256;
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XSubAddr +=256;
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} while ((error==0) && (transfered>0)); /*Do until an error occurs or weve transferred all the data 256 bytes at a time*/
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return(error);
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}
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pascal ComponentResult tI2CWriteWithSubAddr (Handle storage, unsigned short slaveAddr, unsigned short subAddr, short byteCount, unsigned char *dataBuf) {
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long error = 0;
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I2CGlobals *g;
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unsigned char *theBuffer;
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short trans,transfered;
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unsigned short XSubAddr;
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unsigned char myPString[257];
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#ifdef _BreakTime_
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DebugStr("\pEntered tI2CWriteWithSubAddr ");
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#endif
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g = (I2CGlobals *)(*storage);
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theBuffer = dataBuf;
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transfered = byteCount;
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XSubAddr = subAddr;
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do {
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if(transfered >= 256) {
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myPString[0] = 0; /*transfer 256 bytes*/
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trans = 256;
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}
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else {
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myPString[0] = transfered;
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trans = transfered;
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}
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transfered -= 256;
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MakePString(trans, theBuffer, &myPString[1]);
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error = SendI2C(storage, 2, slaveAddr, XSubAddr, &myPString);
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theBuffer +=256;
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XSubAddr +=256;
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} while ((error==0) && (transfered>0)); /*Do until an error occurs or weve transferred all the data 256 bytes at a time*/
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return(error);
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}
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pascal ComponentResult SendIIC(Handle storage, unsigned char noBytes, unsigned char slaveAddr, unsigned char subAddr, unsigned char data){
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I2CGlobals *g;
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Str255 myPString;
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long error;
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g = (I2CGlobals *)(*storage);
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myPString[0] = 1;
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myPString[1] = data;
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error = SendI2C(storage, noBytes, slaveAddr, subAddr, &myPString);
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return(error);
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}
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pascal ComponentResult SendI2C(Handle storage, unsigned char noBytes, unsigned char slaveAddr, unsigned char subAddr, unsigned char *data){
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I2CGlobals *g;
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short i,sub;
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short len;
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g = (I2CGlobals *)(*storage);
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CudaI2C(noBytes, slaveAddr, subAddr, data); /* Call cuda to actually send the data */
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len = data[0]; /*gets the length*/
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if (len == 0) len = 256;
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sub = subAddr;
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/*Now shadow the value */
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if ((slaveAddr == kDMSD_Chip)&&(subAddr <= 0x18)) {
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for (i=1; i<len+1; ++i) {
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g->gShadowPtr->gDMSDRec[sub] = data[i];
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++sub;
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}
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}
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if ((slaveAddr == kVDC_Chip) && (subAddr <= 0x10)) {
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for (i=1; i<len+1; ++i) {
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g->gShadowPtr->gVDCRec[sub] = data[i];
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++sub;
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}
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}
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return(0);
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}
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pascal ComponentResult ReceiveI2C(Handle storage, unsigned char noBytes, unsigned char slaveAddr, unsigned char subAddr, unsigned char *data){
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I2CGlobals *g;
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short i,sub;
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short len;
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g = (I2CGlobals *)(*storage);
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#ifdef _BreakTime_
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DebugStr("\pEntered ReceiveI2c Routine, LOOK OuTTTTTTTTT ;hc ");
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#endif
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len = data[0]; /*gets the length*/
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if (len == 0) len = 256;
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sub = subAddr;
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/*Now see if its one of our shadowed the value */
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if ((slaveAddr == kDMSD_Chip) && (noBytes ==2) && (subAddr <= 0x18)) {
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if(len>0x19) len = 0x19;
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for (i=1; i<len+1; ++i) {
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data[i] = g->gShadowPtr->gDMSDRec[sub];
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++sub;
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}
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data[0]=len;
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return(0);
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}
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if ((slaveAddr == kVDC_Chip) && (noBytes ==2) && (subAddr <= 0x0f)) {
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if(len>0x10) len = 0x10;
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for (i=1; i<len+1; ++i) {
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data[i] = g->gShadowPtr->gVDCRec[sub];
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++sub;
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}
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data[0]=len;
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return(0);
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}
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CudaI2C(noBytes,slaveAddr, subAddr, data); /* Receive i2c block */
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return(0);
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}
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//*****************************************************************************************
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// CudaI2C
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//
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// Send Cmd to Cuda FW to begin to send/receive I2C Data to/from Slave
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//*****************************************************************************************
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//
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unsigned char CudaI2C(unsigned char noBytes, unsigned char slaveAddr, unsigned char subAddr, unsigned char *data)
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{
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EgretPB myCudaPB; /* Cuda parameter block */
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myCudaPB.pbCmdType = pseudoPkt; // CmdType
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myCudaPB.pbCmd = 0x22; // Cmd -> Write IIC data (was WrIIc ddh)
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myCudaPB.pbParm.pbbyte[0] = slaveAddr; // Slave Addr -> IIC (send I2c if even, receive if odd)
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myCudaPB.pbParm.pbbyte[1] = subAddr; // Slave Reg -> IIC
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myCudaPB.pbParm.pbbyte[2] = 0; // Data -> IIC (was data ddh)
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myCudaPB.pbParm.pbbyte[3] = 0; // clr
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myCudaPB.pbByteCnt = noBytes; // Number of bytes to send
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myCudaPB.pbBufPtr = data; // (Was zero, DDH)
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/* Make sure these are all zero */
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myCudaPB.pbFlags = 0;
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myCudaPB.pbSpareFlags = 0;
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myCudaPB.pbResult = 0;
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myCudaPB.pbCompletion = 0;
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/* Debugger();*/
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EgretGlu(&myCudaPB);
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// NOTE: data is now returned in the passed p-string area, not as a returned parameter. DDH
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return(myCudaPB.pbResult); /* return error if any*/
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}
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