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#include "RefCode.h"
#include "RefCode_PDTScan.h"
//void buildInterruptMask(U08 funcNum, U08 num);
unsigned short F11_Query_Base = 0;
unsigned short F11_Ctrl_Base = 0;
unsigned short F11_Data_Base = 0;
unsigned short F11_Cmd_Base = 0;
unsigned short F34_Query_Base = 0;
unsigned short F34_Cmd_Base = 0;
unsigned short F34_Ctrl_Base = 0;
unsigned short F34_Data_Base = 0;
unsigned short F01_Query_Base = 0;
unsigned short F01_Ctrl_Base;
unsigned short F01_Data_Base;
unsigned short F01_Cmd_Base;
unsigned short F54_Query_Base;
unsigned short F54_Command_Base;
unsigned short F54_Control_Base;
unsigned short F54_Data_Base;
unsigned short F1A_Query_Base;
unsigned short F1A_Command_Base;
unsigned short F1A_Control_Base;
unsigned short F1A_Data_Base;
unsigned short F54_Data_LowIndex;
unsigned short F54_Data_HighIndex;
unsigned short F54_Data_Buffer;
unsigned short F54_PhysicalTx_Addr;
unsigned short F54_PhysicalRx_Addr;
unsigned short F54_CBCSettings;
unsigned short F11_MaxNumberOfTx_Addr;
unsigned short F11_MaxNumberOfRx_Addr;
unsigned short F1A_Button_Mapping;
unsigned char MaxNumberTx;
unsigned char MaxNumberRx;
unsigned char numberOfTx;
unsigned char numberOfRx;
unsigned char MaxButton;
unsigned char TxChannelUsed[CFG_F54_TXCOUNT];
unsigned char RxChannelUsed[CFG_F54_TXCOUNT];
unsigned char ButtonMapping[16];
unsigned char CheckButton[CFG_F54_TXCOUNT][CFG_F54_RXCOUNT];
unsigned char ButtonTXUsed[CFG_F54_TXCOUNT];
unsigned char ButtonRXUsed[CFG_F54_TXCOUNT];
void SYNA_PDTScan(void)
{
unsigned char j, tmp = 255;
unsigned char FUNC_EXISTS = 0;
unsigned char in[10];
#ifdef F54_Porting
unsigned short i;
char buf[512] = {0};
int ret = 0;
#else
unsigned short i, tmp16, l, m;
#endif
i = 0;
// constructF01F81();
do {
readRMI((i << 8) | PDT_ADDR, &tmp, 1);
if(tmp & 0x40)
{
#ifdef F54_Porting
ret = sprintf(buf, "\nNon-Standard Page Description Table not supported\n");
#else
printk("\nNon-Standard Page Description Table not supported\n");
#endif
cleanExit(1);
}
FUNC_EXISTS = 0; // reset flag
j = 0; // reset func addr info index
while(1)
{
j++;
readRMI((i << 8) | (PDT_ADDR - PDT_SIZE*j), in, 6);
readRMI((i << 8) | 0xFF, &tmp, 1);
if(in[5] == 0x00)
{ // No more functions on this page
if(FUNC_EXISTS == 0)
{
// constructPrivRMI();
#ifdef F54_Porting
write_log(buf);
#endif
return;
}
else
{
i++;
}
break;
}
else if(in[5] == 0x11)
{ // Function11
F11_Query_Base = (i << 8) | in[0];
F11_Cmd_Base = (i << 8) | in[1];
F11_Ctrl_Base = (i << 8) | in[2];
F11_Data_Base = (i << 8) | in[3];
#ifdef F54_Porting
ret += sprintf(buf+ret, "\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#else
printk("\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#endif
}
else if(in[5] == 0x34)
{ // Function34
F34_Query_Base = (i << 8) | in[0];
F34_Cmd_Base = (i << 8) | in[1];
F34_Ctrl_Base = (i << 8) | in[2];
F34_Data_Base = (i << 8) | in[3];
#ifdef F54_Porting
ret += sprintf(buf+ret, "\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#else
printk("\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#endif
}
else if(in[5] == 0x01)
{ // Function01
F01_Query_Base = (i << 8) | in[0];
F01_Cmd_Base = (i << 8) | in[1];
F01_Ctrl_Base = (i << 8) | in[2];
F01_Data_Base = (i << 8) | in[3];
#ifdef F54_Porting
ret += sprintf(buf+ret, "\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#else
printk("\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#endif
}
else if(in[5] == 0x54)
{
F54_Query_Base = (i << 8) | in[0];
F54_Command_Base = (i << 8) | in[1];
F54_Control_Base = (i << 8) | in[2];
F54_Data_Base = (i << 8) | in[3];
F54_Data_LowIndex = F54_Data_Base + 1;
F54_Data_HighIndex = F54_Data_Base + 2;
F54_Data_Buffer = F54_Data_Base + 3;
F54_CBCSettings = F54_Control_Base + 8;
#ifdef _DS4_3_0_
F54_PhysicalRx_Addr = F54_Control_Base + 18;
#endif
#ifdef F54_Porting
ret += sprintf(buf+ret, "\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#else
printk("\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#endif
}
else if(in[5] == 0x1A)
{
F1A_Query_Base = (i << 8) | in[0];
F1A_Command_Base = (i << 8) | in[1];
F1A_Control_Base = (i << 8) | in[2];
F1A_Data_Base = (i << 8) | in[3];
F1A_Button_Mapping = F1A_Control_Base + 2;
#ifdef F54_Porting
ret += sprintf(buf+ret, "\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#else
printk("\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
#endif
}
else
{
#ifdef F54_Porting
ret += sprintf(buf+ret, "\n-- RMI Function $%02X not supported --\n", in[5]);
#else
printk("\n-- RMI Function $%02X not supported --\n", in[5]);
#endif
}
FUNC_EXISTS = 1;
}
} while(FUNC_EXISTS == 1);
}
void SYNA_PDTScan_BootloaderMode()
{
unsigned char j, tmp = 255;
unsigned char in[10];
unsigned short i;
i = 0;
j = 0; // reset func addr info index
readRMI((i << 8) | PDT_ADDR, &tmp, 1);
if(tmp & 0x40)
{
printk("\nNon-Standard Page Description Table not supported\n");
cleanExit(1);
}
while(1)
{
j++;
readRMI((i << 8) | (PDT_ADDR - PDT_SIZE*j), in, 6);
if(in[5] == 0x00)
{ // No more functions on this page
return;
}
else if(in[5] == 0x34)
{ // Function34
F34_Query_Base = (i << 8) | in[0];
F34_Cmd_Base = (i << 8) | in[1];
F34_Ctrl_Base = (i << 8) | in[2];
F34_Data_Base = (i << 8) | in[3];
printk("\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
}
else if(in[5] == 0x01)
{ // Function01
F01_Query_Base = (i << 8) | in[0];
F01_Cmd_Base = (i << 8) | in[1];
F01_Ctrl_Base = (i << 8) | in[2];
F01_Data_Base = (i << 8) | in[3];
printk("\n-- RMI Function $%02X, Address = 0x%02x --\n", in[5], (PDT_ADDR - PDT_SIZE*j));
}
else
{
printk("\n-- RMI Function $%02X not supported --\n", in[5]);
}
}
}
void SYNA_PrintRMI()
{
printk("F11_Query_Base = 0x%x\n", F11_Query_Base);
printk("F11_Cmd_Base = 0x%x\n", F11_Cmd_Base);
printk("F11_Ctrl_Base = 0x%x\n", F11_Ctrl_Base);
printk("F11_Data_Base = 0x%x\n", F11_Data_Base);
printk("F34_Query_Base = 0x%x\n", F34_Query_Base);
printk("F34_Cmd_Base = 0x%x\n", F34_Cmd_Base);
printk("F34_Ctrl_Base = 0x%x\n", F34_Ctrl_Base);
printk("F34_Data_Base = 0x%x\n", F34_Data_Base);
printk("F01_Query_Base = 0x%x\n", F01_Query_Base);
printk("F01_Cmd_Base = 0x%x\n", F01_Cmd_Base);
printk("F01_Ctrl_Base = 0x%x\n", F01_Ctrl_Base);
printk("F01_Data_Base = 0x%x\n", F01_Data_Base);
printk("F54_Query_Base = 0x%x\n", F54_Query_Base);
printk("F54_Command_Base = 0x%x\n", F54_Command_Base);
printk("F54_Control_Base = 0x%x\n", F54_Control_Base);
printk("F54_Data_Base = 0x%x\n", F54_Data_Base);
printk("F54_Data_LowIndex = 0x%x\n", F54_Data_LowIndex);
printk("F54_Data_HighIndex = 0x%x\n", F54_Data_HighIndex);
printk("F54_Data_Buffer = 0x%x\n", F54_Data_Buffer);
printk("F54_CBCSettings = 0x%x\n", F54_CBCSettings);
#ifdef _DS4_3_0_
printk("F54_PhysicalRx_Addr = 0x%x\n", F54_PhysicalRx_Addr);
#endif
printk("F1A_Query_Base = 0x%x\n", F1A_Query_Base);
printk("F1A_Command_Base = 0x%x\n", F1A_Command_Base);
printk("F1A_Control_Base = 0x%x\n", F1A_Control_Base);
printk("F1A_Data_Base = 0x%x\n", F1A_Data_Base);
}
void SYNA_ConstructRMI_F54(void)
{
#ifdef F54_Porting
#else
unsigned char command;
#endif
int i;
numberOfRx = 0;
numberOfTx = 0;
MaxButton = 0;
for (i = 0 ; i < CFG_F54_TXCOUNT; i++)
{
ButtonRXUsed[i] = 0;
ButtonTXUsed[i] = 0;
}
F11_MaxNumberOfTx_Addr = F11_Query_Base + 2;
F11_MaxNumberOfRx_Addr = F11_Query_Base + 3;
//Check Used Rx channels
readRMI(F11_MaxNumberOfRx_Addr, &MaxNumberRx, 1);
#ifdef _DS4_3_0_
F54_PhysicalTx_Addr= F54_PhysicalRx_Addr + MaxNumberRx;
readRMI(F54_PhysicalRx_Addr, &RxChannelUsed[0], MaxNumberRx);
readRMI(F11_MaxNumberOfTx_Addr, &MaxNumberTx, 1);
readRMI(F54_PhysicalTx_Addr, &TxChannelUsed[0], MaxNumberTx);
#else
#ifdef _DS4_3_2_
readRMI(F55_PhysicalRx_Addr, &RxChannelUsed[0], MaxNumberRx);
readRMI(F11_MaxNumberOfTx_Addr, &MaxNumberTx, 1);
readRMI(F55_PhysicalRx_Addr + 1, &TxChannelUsed[0], MaxNumberTx);
#endif
#endif
//Check used number of Rx
for(i=0; i<MaxNumberRx; i++)
{
if(RxChannelUsed[i] == 0xff) break;
numberOfRx++;
}
//Check used number of Tx
for(i=0; i<MaxNumberTx; i++)
{
if(TxChannelUsed[i] == 0xff) break;
numberOfTx++;
}
}
void SYNA_ConstructRMI_F1A(void)
{
#ifdef F54_Porting
#else
unsigned char command;
#endif
int i, j, k;
unsigned char temp;
readRMI(F1A_Button_Mapping, ButtonMapping, 16);
for(j=0; j<numberOfTx; j++)
for(i=0; i<numberOfRx; i++)
CheckButton[j][i] = 0;
for(k=0; k<8; k++)
{
if((temp = ButtonMapping[k*2+1]) == 0xFF) break;
else
{
for(i=0; i<numberOfRx; i++)
if(RxChannelUsed[i] == temp) break;
if(CheckButton[0][i] == 0)
{
for(j=0; j<numberOfTx; j++)
CheckButton[j][i] = 1;
for(j=0; j<numberOfTx; j++)
if(TxChannelUsed[j] == ButtonMapping[k*2]) break;
CheckButton[j][i] = 2;
}
else
{
for(j=0; j<numberOfTx; j++)
if(TxChannelUsed[j] == ButtonMapping[k*2]) break;
CheckButton[j][i] = 2;
}
}
/////////////////////////////////////////////////////////////////////////////
// For Button Delta Image Display
if((temp = ButtonMapping[k*2+1]) == 0xFF) break; // Button RX
else
{
for(i=0; i<MaxNumberRx; i++)
{
if(RxChannelUsed[i] == temp) break;
ButtonRXUsed[k]++;
}
MaxButton++;
}
if((temp = ButtonMapping[k*2]) == 0xFF) break; // Button TX
else
{
for(i=0; i<MaxNumberTx; i++)
{
if(TxChannelUsed[i] == temp) break;
ButtonTXUsed[k]++;
}
}
////////////////////////////////////////////////////////////////////////////////
}
}
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