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[/] [openrisc/] [trunk/] [or_debug_proxy/] [src/] [linux_usb_driver_calls.c] - Blame information for rev 646

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/*$$HEADER*/
/******************************************************************************/
/*                                                                            */
/*                    H E A D E R   I N F O R M A T I O N                     */
/*                                                                            */
/******************************************************************************/
 
// Project Name                   : OpenRISC Debug Proxy
// File Name                      : linux_usb_driver_calls.c
// Prepared By                    : jb
// Project Start                  : 2008-10-01
 
/*$$COPYRIGHT NOTICE*/
/******************************************************************************/
/*                                                                            */
/*                      C O P Y R I G H T   N O T I C E                       */
/*                                                                            */
/******************************************************************************/
/*
  This library is free software; you can redistribute it and/or
  modify it under the terms of the GNU Lesser General Public
  License as published by the Free Software Foundation;
  version 2.1 of the License, a copy of which is available from
  http://www.gnu.org/licenses/old-licenses/lgpl-2.1.txt.
 
  This library 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
  Lesser General Public License for more details.
 
  You should have received a copy of the GNU Lesser General Public
  License along with this library; if not, write to the Free Software
  Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
*/
 
/*$$DESCRIPTION*/
/******************************************************************************/
/*                                                                            */
/*                           D E S C R I P T I O N                            */
/*                                                                            */
/******************************************************************************/
//
// Some generically named functions for interfacing to the JTAG driver 
// functions, making the code calling these platform independant. The correct 
// driver calling file (either Cygwin or Linux driver) is included at compile 
// time.
// Also included in this file is the USB-JTAG chip initialisation function.
//
 
 
/*$$CHANGE HISTORY*/
/******************************************************************************/
/*                                                                            */
/*                         C H A N G E  H I S T O R Y                         */
/*                                                                            */
/******************************************************************************/
 
// Date         Version Description
//------------------------------------------------------------------------
// 081101               First revision                                  jb
 
#include <stdio.h>
 
#include "WinTypes.h"
 
#include "usb_driver_calls.h"
 
#include "usb_functions.h"
#include "or_debug_proxy.h"
 
#include "FT2232cMpsseJtag.h"
 
 
static FT2232cMpsseJtag *pFT2232cMpsseJtag = NULL;
 
// Global USB JTAG device handle
FTC_HANDLE ftHandle;
 
// Write data to external device:
//FTC_STATUS FT2232cMpsseJtag::JTAG_WriteDataToExternalDevice(FTC_HANDLE ftHandle, BOOL bInstructionTestData, DWORD dwNumBitsToWrite,
 
FTC_STATUS
FT2232_USB_JTAG_WriteDataToExternalDevice(
                                          //FTC_HANDLE ftHandle, 
                                          BOOL bInstructionTestData,
                                          DWORD dwNumBitsToWrite,
                                          PWriteDataByteBuffer pWriteDataBuffer,
                                          DWORD dwNumBytesToWrite,
                                          DWORD dwTapControllerState)
{
  // Call the driver from the libary compiled in Linux
  return pFT2232cMpsseJtag->JTAG_WriteDataToExternalDevice(
                                                           ftHandle,
                                                           bInstructionTestData,
                                                           dwNumBitsToWrite,
                                                           pWriteDataBuffer,
                                                           dwNumBytesToWrite,
                                                           dwTapControllerState);
}
 
 
// Read data from external device
FTC_STATUS
FT2232_USB_JTAG_ReadDataFromExternalDevice(
                                           //FTC_HANDLE ftHandle, 
                                            BOOL bInstructionTestData,
                                            DWORD dwNumBitsToRead,
                                            PReadDataByteBuffer pReadDataBuffer,
                                            LPDWORD lpdwNumBytesReturned,
                                            DWORD dwTapControllerState)
 
{
  return pFT2232cMpsseJtag->JTAG_ReadDataFromExternalDevice(
                                                            ftHandle,
                                                            bInstructionTestData,
                                                            dwNumBitsToRead,
                                                            pReadDataBuffer,
                                                            lpdwNumBytesReturned,
                                                            dwTapControllerState);
 
}
 
 
 
 
 
 
// Write Read
FTC_STATUS
FT2232_USB_JTAG_WriteReadDataToFromExternalDevice(
                                                  //FTC_HANDLE ftHandle, 
                                                  BOOL bInstructionTestData,
                                                  DWORD dwNumBitsToWriteRead,
                                                  PWriteDataByteBuffer pWriteDataBuffer,
                                                  DWORD dwNumBytesToWrite,
                                                  PReadDataByteBuffer pReadDataBuffer,
                                                  LPDWORD lpdwNumBytesReturned,
                                                  DWORD dwTapControllerState)
{
 
 return pFT2232cMpsseJtag->JTAG_WriteReadDataToFromExternalDevice(
                                                                  ftHandle,
                                                                  bInstructionTestData,
                                                                  dwNumBitsToWriteRead,
                                                                  pWriteDataBuffer,
                                                                  dwNumBytesToWrite,
                                                                  pReadDataBuffer,
                                                                  lpdwNumBytesReturned,
                                                                  dwTapControllerState);
 
}
 
 
 
// Close device
FTC_STATUS
FT2232_USB_JTAG_CloseDevice()
{
  return pFT2232cMpsseJtag->JTAG_CloseDevice(ftHandle);
}
 
 
void reinit_usb_jtag(void)
{
  FTC_STATUS Status = FTC_SUCCESS;
  if (DEBUG_USB_DRVR_FUNCS) printf("linux_usb_driver_calls: reset_usb_jtag() - ");
  Status = pFT2232cMpsseJtag->JTAG_InitDevice(ftHandle, 0);
  if (DEBUG_USB_DRVR_FUNCS) printf("return Status: %d\n", (int) Status);
}
 
// Set clock frequency
// Frequency = 12Mhz/((1+divisor)*2), 
// divisor=1000 => Freq=5995Hz~=6kHz, divisor=500=>Freq=12kHz
#define USB_JTAG_CLK_DIVIDER 0
 
int init_usb_jtag()
{
  FTC_STATUS Status = FTC_SUCCESS;
  //char szDeviceName[100];
  //char szDeviceName[] = "Dual RS232 A"; // Original, unmodified FT2232 device name
  // We now open the device by its name
  //char szDeviceName[] = "ORSoC OpenRISC debug cable A\0"; // ORSoC debug cable UART A name
  char* szDeviceName;
  DWORD dwLocationID = 0;
  DWORD dwClockFrequencyHz = 0;
  FTC_INPUT_OUTPUT_PINS LowInputOutputPinsData;
  FTC_INPUT_OUTPUT_PINS HighInputOutputPinsData;
  FTC_LOW_HIGH_PINS LowPinsInputData;
  FTC_LOW_HIGH_PINS HighPinsInputData;
 
  //char szDllVersion[10];
 
  // Has been changed to hardcode load device named "ORSoC OpenRISC debug cable A"; - jb 090301
#define MAX_DEVICES             5
  char *  pcBufRead = NULL;
  char *  pcBufLD[MAX_DEVICES + 1];
  char    cBufLD[MAX_DEVICES][64];
  FT_STATUS       ftStatus;
  int     iNumDevs = 0;
  int     i;
 
  for(i = 0; i < MAX_DEVICES; i++) {
          pcBufLD[i] = cBufLD[i];
  }
  pcBufLD[MAX_DEVICES] = NULL;
 
  ftStatus = FT_ListDevices(pcBufLD, &iNumDevs, FT_LIST_ALL | FT_OPEN_BY_DESCRIPTION);
 
  if(ftStatus != FT_OK) {
          printf("Error: FT_ListDevices(%d)\n", (int) ftStatus);
          return 1;
  }
#if DEBUG_USB_DRVR_FUNCS==1
  for(i = 0; ( (i <MAX_DEVICES) && (i < iNumDevs) ); i++) {
          printf("Device %d Description - %s\n", i, cBufLD[i]);
  }
#endif
 
  if (iNumDevs==2)
    szDeviceName = cBufLD[0]; // Should be first device
  else if (iNumDevs==4)
    szDeviceName = cBufLD[1]; // Should be second device
  else
    {
      printf("Unexpected number of FTDI ports %d\n", iNumDevs);
      return 1;
    }
 
  if (Status == FTC_SUCCESS)
    {
 
            dwLocationID = 0;
 
            if (Status == FTC_SUCCESS)
            {
#if DEBUG_USB_DRVR_FUNCS==1
                    printf("JTAG_OpenSpecifiedDevice %s\n", szDeviceName);
#endif
                    Status = pFT2232cMpsseJtag->JTAG_OpenSpecifiedDevice(szDeviceName,dwLocationID, &ftHandle);
#if DEBUG_USB_DRVR_FUNCS==1
                    printf("JTAG_OpenSpecifiedDevice status: %d (%s)\n",(int)Status, EN_Common_Errors[Status]);
#endif
 
            }
 
 
      // Try initialising and obtaining a handle to a specific device
      if (Status == FTC_SUCCESS)
        {
          printf("Initialising USB JTAG interface\n");
          Status = pFT2232cMpsseJtag->JTAG_InitDevice(ftHandle, 0);
 
          // Set clock frequency
          // Frequency = 12Mhz/((1+divisor)*2), 
          // divisor=1000 => Freq=5995Hz~=6kHz, divisor=500=>Freq=12kHz
          if (DEBUG_USB_DRVR_FUNCS)
            printf("Setting JTAG clock frequency.  Divisor = %d, TCK ~= %dkHz.\n", USB_JTAG_CLK_DIVIDER, (12000000/((USB_JTAG_CLK_DIVIDER+1)*2))/1000);
          if (Status == FTC_SUCCESS)
            Status = pFT2232cMpsseJtag->JTAG_SetClock(ftHandle, USB_JTAG_CLK_DIVIDER, &dwClockFrequencyHz);
 
          if (Status == FTC_SUCCESS){
 
            Status = pFT2232cMpsseJtag->JTAG_GetClock(5, &dwClockFrequencyHz);
          }
 
        }
 
      //if (Status == FTC_SUCCESS)
      //  Status = JTAG_SetLoopback(ftHandle, true);        
      if (Status == FTC_SUCCESS)
        {
          if (DEBUG_USB_DRVR_FUNCS) // Let LED blink
            {
              // true=output, false=input
              LowInputOutputPinsData.bPin1InputOutputState = true;  // ADBUS4
              LowInputOutputPinsData.bPin2InputOutputState = true;  // ADBUS5
              LowInputOutputPinsData.bPin3InputOutputState = true;  // ADBUS6
              LowInputOutputPinsData.bPin4InputOutputState = true;  // ADBUS7
              LowInputOutputPinsData.bPin1LowHighState = false;     // ADBUS4
              LowInputOutputPinsData.bPin2LowHighState = false;     // ADBUS5
              LowInputOutputPinsData.bPin3LowHighState = true;      // ADBUS6
              LowInputOutputPinsData.bPin4LowHighState = true;      // ADBUS7
 
              HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0 Output
              HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1 Output
              HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2 Output
              HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3 Output
              HighInputOutputPinsData.bPin1LowHighState = true;     // ACBUS0
              HighInputOutputPinsData.bPin2LowHighState = true;     // ACBUS1
              HighInputOutputPinsData.bPin3LowHighState = true;     // ACBUS2  LED RXLEDA A1 OFF 
              HighInputOutputPinsData.bPin4LowHighState = false;    // ACBUS3  LED TXLEDA A2 ON
 
              Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,
                                                                                true,
                                                                                &LowInputOutputPinsData,
                                                                                true,
                                                                                &HighInputOutputPinsData);
 
              LowInputOutputPinsData.bPin1InputOutputState = true;  // ADBUS4 
              LowInputOutputPinsData.bPin2InputOutputState = true;  // ADBUS5
              LowInputOutputPinsData.bPin3InputOutputState = true;  // ADBUS6
              LowInputOutputPinsData.bPin4InputOutputState = true;  // ADBUS7
              LowInputOutputPinsData.bPin1LowHighState = false;     // ADBUS4
              LowInputOutputPinsData.bPin2LowHighState = false;     // ADBUS5
              LowInputOutputPinsData.bPin3LowHighState = true;      // ADBUS6
              LowInputOutputPinsData.bPin4LowHighState = true;      // ADBUS7
 
              HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0
              HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1
              HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2
              HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3
              HighInputOutputPinsData.bPin1LowHighState = true;     // ACBUS0
              HighInputOutputPinsData.bPin2LowHighState = true;     // ACBUS1
              HighInputOutputPinsData.bPin3LowHighState = false;    // ACBUS2 LED RXLEDA A1 ON
              HighInputOutputPinsData.bPin4LowHighState = true;     // ACBUS3 LED TXLEDA A2 OFF
 
              Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,
                                                                                true,
                                                                                &LowInputOutputPinsData,
                                                                                true,
                                                                                &HighInputOutputPinsData);
 
              LowInputOutputPinsData.bPin1InputOutputState = true;  // ADBUS4 - 
              LowInputOutputPinsData.bPin2InputOutputState = true;  // ADBUS5
              LowInputOutputPinsData.bPin3InputOutputState = true;  // ADBUS6
              LowInputOutputPinsData.bPin4InputOutputState = true;  // ADBUS7
              LowInputOutputPinsData.bPin1LowHighState = false;     // ADBUS4
              LowInputOutputPinsData.bPin2LowHighState = false;     // ADBUS5
              LowInputOutputPinsData.bPin3LowHighState = true;      // ADBUS6
              LowInputOutputPinsData.bPin4LowHighState = true;      // ADBUS7
 
              HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0
              HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1
              HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2
              HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3
              HighInputOutputPinsData.bPin1LowHighState = true;     // ACBUS0
              HighInputOutputPinsData.bPin2LowHighState = true;     // ACBUS1
              HighInputOutputPinsData.bPin3LowHighState = true;     // ACBUS2 LED RXLEDA A1 OFF
              HighInputOutputPinsData.bPin4LowHighState = true;     // ACBUS3 LED TXLEDA A2 OFF
 
              Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,
                                                                                true,
                                                                                &LowInputOutputPinsData,
                                                                                true,
                                                                                &HighInputOutputPinsData);
 
              LowInputOutputPinsData.bPin1InputOutputState = true;  // ADBUS4 - 
              LowInputOutputPinsData.bPin2InputOutputState = true;  // ADBUS5
              LowInputOutputPinsData.bPin3InputOutputState = true;  // ADBUS6
              LowInputOutputPinsData.bPin4InputOutputState = true;  // ADBUS7
              LowInputOutputPinsData.bPin1LowHighState = false;     // ADBUS4
              LowInputOutputPinsData.bPin2LowHighState = false;     // ADBUS5
              LowInputOutputPinsData.bPin3LowHighState = true;      // ADBUS6
              LowInputOutputPinsData.bPin4LowHighState = true;      // ADBUS7
 
              HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0
              HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1
              HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2
              HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3
              HighInputOutputPinsData.bPin1LowHighState = true;     // ACBUS0
              HighInputOutputPinsData.bPin2LowHighState = true;     // ACBUS1
              HighInputOutputPinsData.bPin3LowHighState = false;    // ACBUS2 LED RXLEDA A1 ON
              HighInputOutputPinsData.bPin4LowHighState = false;    // ACBUS3 LED TXLEDA A2 ON
 
              Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,
                                                                                true,
                                                                                &LowInputOutputPinsData,
                                                                                true,
                                                                                &HighInputOutputPinsData);
            }
 
          // Setup GPIO pins for JTAG
          LowInputOutputPinsData.bPin1InputOutputState = true; // ADBUS4 - 
          // set ADBUS4 to output 0 to enable JTAG buffers on Olimex devices
          LowInputOutputPinsData.bPin2InputOutputState = true; //ADBUS5
          LowInputOutputPinsData.bPin3InputOutputState = true;
          LowInputOutputPinsData.bPin4InputOutputState = true;
          //ADBUS4 = 0 (enable JTAG buffers on Olimex devices)
          LowInputOutputPinsData.bPin1LowHighState = false; // ADBUS4
          LowInputOutputPinsData.bPin2LowHighState = false; // ADBUS5
          LowInputOutputPinsData.bPin3LowHighState = true; // ADBUS6
          LowInputOutputPinsData.bPin4LowHighState = true; // ADBUS7
 
          HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0
          HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1
          HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2
          HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3
          HighInputOutputPinsData.bPin1LowHighState = true; // ACBUS0
          HighInputOutputPinsData.bPin2LowHighState = true; // ACBUS1
          HighInputOutputPinsData.bPin3LowHighState = false; // ACBUS2 LED RXLEDA A1 ON
          HighInputOutputPinsData.bPin4LowHighState = true; // ACBUS3
 
          Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,
                                                                            true,
                                                                            &LowInputOutputPinsData,
                                                                            true,
                                                                            &HighInputOutputPinsData);
 
          if (Status == FTC_SUCCESS)
            Status = pFT2232cMpsseJtag->JTAG_GetGeneralPurposeInputOutputPins(ftHandle, true, &LowPinsInputData,
                                    true, &HighPinsInputData);
 
          if (DEBUG_USB_DRVR_FUNCS)
            printf("JTAG low gpio pins values: (ADBUS7-ADBUS4):%x%x%x%x\n",
                   (LowPinsInputData.bPin4LowHighState==true),
                   (LowPinsInputData.bPin3LowHighState==true),
                   (LowPinsInputData.bPin2LowHighState==true),
                   (LowPinsInputData.bPin1LowHighState==true));
 
          if (DEBUG_USB_DRVR_FUNCS)
            printf("JTAG high gpio pins values: (ACBUS3-ACBUS0): %x%x%x%x\n",
                   (HighPinsInputData.bPin4LowHighState==true),
                   (HighPinsInputData.bPin3LowHighState==true),
                   (HighPinsInputData.bPin2LowHighState==true),
                   (HighPinsInputData.bPin1LowHighState==true));
        }
    }
 
 
  if (Status == FTC_SUCCESS)
    return 0;
  else
    return 1;
 
}

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[/] [openrisc/] [trunk/] [or_debug_proxy/] [src/] [linux_usb_driver_calls.c] - Blame information for rev 646

Line No.	Rev	Author	Line
1	39	julius	`/$$HEADER/`
2			`/******************************************************************************/`
3			`/* */`
4			`/* H E A D E R I N F O R M A T I O N */`
5			`/* */`
6			`/******************************************************************************/`
7
8			`// Project Name : OpenRISC Debug Proxy`
9			`// File Name : linux_usb_driver_calls.c`
10			`// Prepared By : jb`
11			`// Project Start : 2008-10-01`
12
13			`/$$COPYRIGHT NOTICE/`
14			`/******************************************************************************/`
15			`/* */`
16			`/* C O P Y R I G H T N O T I C E */`
17			`/* */`
18			`/******************************************************************************/`
19			`/*`
20			`This library is free software; you can redistribute it and/or`
21			`modify it under the terms of the GNU Lesser General Public`
22			`License as published by the Free Software Foundation;`
23			`version 2.1 of the License, a copy of which is available from`
24			`http://www.gnu.org/licenses/old-licenses/lgpl-2.1.txt.`
25
26			`This library is distributed in the hope that it will be useful,`
27			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
28			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
29			`Lesser General Public License for more details.`
30
31			`You should have received a copy of the GNU Lesser General Public`
32			`License along with this library; if not, write to the Free Software`
33			`Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA`
34			`*/`
35
36			`/$$DESCRIPTION/`
37			`/******************************************************************************/`
38			`/* */`
39			`/* D E S C R I P T I O N */`
40			`/* */`
41			`/******************************************************************************/`
42			`//`
43			`// Some generically named functions for interfacing to the JTAG driver`
44			`// functions, making the code calling these platform independant. The correct`
45			`// driver calling file (either Cygwin or Linux driver) is included at compile`
46			`// time.`
47			`// Also included in this file is the USB-JTAG chip initialisation function.`
48			`//`
49
50
51			`/$$CHANGE HISTORY/`
52			`/******************************************************************************/`
53			`/* */`
54			`/* C H A N G E H I S T O R Y */`
55			`/* */`
56			`/******************************************************************************/`
57
58			`// Date Version Description`
59			`//------------------------------------------------------------------------`
60			`// 081101 First revision jb`
61
62			`#include <stdio.h>`
63
64			`#include "WinTypes.h"`
65
66			`#include "usb_driver_calls.h"`
67
68			`#include "usb_functions.h"`
69			`#include "or_debug_proxy.h"`
70
71			`#include "FT2232cMpsseJtag.h"`
72
73	47	julius
74	39	julius	`static FT2232cMpsseJtag *pFT2232cMpsseJtag = NULL;`
75
76			`// Global USB JTAG device handle`
77			`FTC_HANDLE ftHandle;`
78
79			`// Write data to external device:`
80			`//FTC_STATUS FT2232cMpsseJtag::JTAG_WriteDataToExternalDevice(FTC_HANDLE ftHandle, BOOL bInstructionTestData, DWORD dwNumBitsToWrite,`
81
82			`FTC_STATUS`
83			`FT2232_USB_JTAG_WriteDataToExternalDevice(`
84			`//FTC_HANDLE ftHandle,`
85			`BOOL bInstructionTestData,`
86			`DWORD dwNumBitsToWrite,`
87			`PWriteDataByteBuffer pWriteDataBuffer,`
88			`DWORD dwNumBytesToWrite,`
89			`DWORD dwTapControllerState)`
90			`{`
91			`// Call the driver from the libary compiled in Linux`
92			`return pFT2232cMpsseJtag->JTAG_WriteDataToExternalDevice(`
93			`ftHandle,`
94			`bInstructionTestData,`
95			`dwNumBitsToWrite,`
96			`pWriteDataBuffer,`
97			`dwNumBytesToWrite,`
98			`dwTapControllerState);`
99			`}`
100
101
102			`// Read data from external device`
103			`FTC_STATUS`
104			`FT2232_USB_JTAG_ReadDataFromExternalDevice(`
105			`//FTC_HANDLE ftHandle,`
106			`BOOL bInstructionTestData,`
107			`DWORD dwNumBitsToRead,`
108			`PReadDataByteBuffer pReadDataBuffer,`
109			`LPDWORD lpdwNumBytesReturned,`
110			`DWORD dwTapControllerState)`
111
112			`{`
113			`return pFT2232cMpsseJtag->JTAG_ReadDataFromExternalDevice(`
114			`ftHandle,`
115			`bInstructionTestData,`
116			`dwNumBitsToRead,`
117			`pReadDataBuffer,`
118			`lpdwNumBytesReturned,`
119			`dwTapControllerState);`
120
121			`}`
122
123
124
125
126
127
128			`// Write Read`
129			`FTC_STATUS`
130			`FT2232_USB_JTAG_WriteReadDataToFromExternalDevice(`
131			`//FTC_HANDLE ftHandle,`
132			`BOOL bInstructionTestData,`
133			`DWORD dwNumBitsToWriteRead,`
134			`PWriteDataByteBuffer pWriteDataBuffer,`
135			`DWORD dwNumBytesToWrite,`
136			`PReadDataByteBuffer pReadDataBuffer,`
137			`LPDWORD lpdwNumBytesReturned,`
138			`DWORD dwTapControllerState)`
139			`{`
140
141			`return pFT2232cMpsseJtag->JTAG_WriteReadDataToFromExternalDevice(`
142			`ftHandle,`
143			`bInstructionTestData,`
144			`dwNumBitsToWriteRead,`
145			`pWriteDataBuffer,`
146			`dwNumBytesToWrite,`
147			`pReadDataBuffer,`
148			`lpdwNumBytesReturned,`
149			`dwTapControllerState);`
150
151			`}`
152
153
154
155			`// Close device`
156			`FTC_STATUS`
157			`FT2232_USB_JTAG_CloseDevice()`
158			`{`
159			`return pFT2232cMpsseJtag->JTAG_CloseDevice(ftHandle);`
160			`}`
161
162
163	47	julius	`void reinit_usb_jtag(void)`
164			`{`
165			`FTC_STATUS Status = FTC_SUCCESS;`
166			`if (DEBUG_USB_DRVR_FUNCS) printf("linux_usb_driver_calls: reset_usb_jtag() - ");`
167			`Status = pFT2232cMpsseJtag->JTAG_InitDevice(ftHandle, 0);`
168			`if (DEBUG_USB_DRVR_FUNCS) printf("return Status: %d\n", (int) Status);`
169			`}`
170	39	julius
171			`// Set clock frequency`
172			`// Frequency = 12Mhz/((1+divisor)*2),`
173			`// divisor=1000 => Freq=5995Hz~=6kHz, divisor=500=>Freq=12kHz`
174			`#define USB_JTAG_CLK_DIVIDER 0`
175
176			`int init_usb_jtag()`
177			`{`
178			`FTC_STATUS Status = FTC_SUCCESS;`
179			`//char szDeviceName[100];`
180			`//char szDeviceName[] = "Dual RS232 A"; // Original, unmodified FT2232 device name`
181			`// We now open the device by its name`
182	529	julius	`//char szDeviceName[] = "ORSoC OpenRISC debug cable A\0"; // ORSoC debug cable UART A name`
183			`char* szDeviceName;`
184	39	julius	`DWORD dwLocationID = 0;`
185			`DWORD dwClockFrequencyHz = 0;`
186			`FTC_INPUT_OUTPUT_PINS LowInputOutputPinsData;`
187			`FTC_INPUT_OUTPUT_PINS HighInputOutputPinsData;`
188			`FTC_LOW_HIGH_PINS LowPinsInputData;`
189			`FTC_LOW_HIGH_PINS HighPinsInputData;`
190
191			`//char szDllVersion[10];`
192
193			`// Has been changed to hardcode load device named "ORSoC OpenRISC debug cable A"; - jb 090301`
194	529	julius	`#define MAX_DEVICES 5`
195			`char * pcBufRead = NULL;`
196			`char * pcBufLD[MAX_DEVICES + 1];`
197			`char cBufLD[MAX_DEVICES][64];`
198			`FT_STATUS ftStatus;`
199			`int iNumDevs = 0;`
200			`int i;`
201
202			`for(i = 0; i < MAX_DEVICES; i++) {`
203			`pcBufLD[i] = cBufLD[i];`
204			`}`
205			`pcBufLD[MAX_DEVICES] = NULL;`
206
207			`ftStatus = FT_ListDevices(pcBufLD, &iNumDevs, FT_LIST_ALL \| FT_OPEN_BY_DESCRIPTION);`
208	39	julius
209	529	julius	`if(ftStatus != FT_OK) {`
210			`printf("Error: FT_ListDevices(%d)\n", (int) ftStatus);`
211			`return 1;`
212			`}`
213			`#if DEBUG_USB_DRVR_FUNCS==1`
214			`for(i = 0; ( (i <MAX_DEVICES) && (i < iNumDevs) ); i++) {`
215			`printf("Device %d Description - %s\n", i, cBufLD[i]);`
216			`}`
217			`#endif`
218	39	julius
219	646	yannv	`if (iNumDevs==2)`
220			`szDeviceName = cBufLD[0]; // Should be first device`
221			`else if (iNumDevs==4)`
222			`szDeviceName = cBufLD[1]; // Should be second device`
223			`else`
224			`{`
225			`printf("Unexpected number of FTDI ports %d\n", iNumDevs);`
226			`return 1;`
227			`}`
228	39	julius
229			`if (Status == FTC_SUCCESS)`
230			`{`
231
232	529	julius	`dwLocationID = 0;`
233
234			`if (Status == FTC_SUCCESS)`
235	39	julius	`{`
236	529	julius	`#if DEBUG_USB_DRVR_FUNCS==1`
237			`printf("JTAG_OpenSpecifiedDevice %s\n", szDeviceName);`
238			`#endif`
239			`Status = pFT2232cMpsseJtag->JTAG_OpenSpecifiedDevice(szDeviceName,dwLocationID, &ftHandle);`
240			`#if DEBUG_USB_DRVR_FUNCS==1`
241			`printf("JTAG_OpenSpecifiedDevice status: %d (%s)\n",(int)Status, EN_Common_Errors[Status]);`
242			`#endif`
243
244	39	julius	`}`
245	529	julius
246
247	39	julius	`// Try initialising and obtaining a handle to a specific device`
248			`if (Status == FTC_SUCCESS)`
249			`{`
250			`printf("Initialising USB JTAG interface\n");`
251			`Status = pFT2232cMpsseJtag->JTAG_InitDevice(ftHandle, 0);`
252
253			`// Set clock frequency`
254			`// Frequency = 12Mhz/((1+divisor)*2),`
255			`// divisor=1000 => Freq=5995Hz~=6kHz, divisor=500=>Freq=12kHz`
256			`if (DEBUG_USB_DRVR_FUNCS)`
257			`printf("Setting JTAG clock frequency. Divisor = %d, TCK ~= %dkHz.\n", USB_JTAG_CLK_DIVIDER, (12000000/((USB_JTAG_CLK_DIVIDER+1)*2))/1000);`
258			`if (Status == FTC_SUCCESS)`
259			`Status = pFT2232cMpsseJtag->JTAG_SetClock(ftHandle, USB_JTAG_CLK_DIVIDER, &dwClockFrequencyHz);`
260
261			`if (Status == FTC_SUCCESS){`
262
263			`Status = pFT2232cMpsseJtag->JTAG_GetClock(5, &dwClockFrequencyHz);`
264			`}`
265
266			`}`
267
268			`//if (Status == FTC_SUCCESS)`
269			`// Status = JTAG_SetLoopback(ftHandle, true);`
270			`if (Status == FTC_SUCCESS)`
271			`{`
272			`if (DEBUG_USB_DRVR_FUNCS) // Let LED blink`
273			`{`
274			`// true=output, false=input`
275			`LowInputOutputPinsData.bPin1InputOutputState = true; // ADBUS4`
276			`LowInputOutputPinsData.bPin2InputOutputState = true; // ADBUS5`
277			`LowInputOutputPinsData.bPin3InputOutputState = true; // ADBUS6`
278			`LowInputOutputPinsData.bPin4InputOutputState = true; // ADBUS7`
279			`LowInputOutputPinsData.bPin1LowHighState = false; // ADBUS4`
280			`LowInputOutputPinsData.bPin2LowHighState = false; // ADBUS5`
281			`LowInputOutputPinsData.bPin3LowHighState = true; // ADBUS6`
282			`LowInputOutputPinsData.bPin4LowHighState = true; // ADBUS7`
283
284			`HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0 Output`
285			`HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1 Output`
286			`HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2 Output`
287			`HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3 Output`
288			`HighInputOutputPinsData.bPin1LowHighState = true; // ACBUS0`
289			`HighInputOutputPinsData.bPin2LowHighState = true; // ACBUS1`
290			`HighInputOutputPinsData.bPin3LowHighState = true; // ACBUS2 LED RXLEDA A1 OFF`
291			`HighInputOutputPinsData.bPin4LowHighState = false; // ACBUS3 LED TXLEDA A2 ON`
292
293			`Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,`
294			`true,`
295			`&LowInputOutputPinsData,`
296			`true,`
297			`&HighInputOutputPinsData);`
298
299			`LowInputOutputPinsData.bPin1InputOutputState = true; // ADBUS4`
300			`LowInputOutputPinsData.bPin2InputOutputState = true; // ADBUS5`
301			`LowInputOutputPinsData.bPin3InputOutputState = true; // ADBUS6`
302			`LowInputOutputPinsData.bPin4InputOutputState = true; // ADBUS7`
303			`LowInputOutputPinsData.bPin1LowHighState = false; // ADBUS4`
304			`LowInputOutputPinsData.bPin2LowHighState = false; // ADBUS5`
305			`LowInputOutputPinsData.bPin3LowHighState = true; // ADBUS6`
306			`LowInputOutputPinsData.bPin4LowHighState = true; // ADBUS7`
307
308			`HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0`
309			`HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1`
310			`HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2`
311			`HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3`
312			`HighInputOutputPinsData.bPin1LowHighState = true; // ACBUS0`
313			`HighInputOutputPinsData.bPin2LowHighState = true; // ACBUS1`
314			`HighInputOutputPinsData.bPin3LowHighState = false; // ACBUS2 LED RXLEDA A1 ON`
315			`HighInputOutputPinsData.bPin4LowHighState = true; // ACBUS3 LED TXLEDA A2 OFF`
316
317			`Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,`
318			`true,`
319			`&LowInputOutputPinsData,`
320			`true,`
321			`&HighInputOutputPinsData);`
322
323			`LowInputOutputPinsData.bPin1InputOutputState = true; // ADBUS4 -`
324			`LowInputOutputPinsData.bPin2InputOutputState = true; // ADBUS5`
325			`LowInputOutputPinsData.bPin3InputOutputState = true; // ADBUS6`
326			`LowInputOutputPinsData.bPin4InputOutputState = true; // ADBUS7`
327			`LowInputOutputPinsData.bPin1LowHighState = false; // ADBUS4`
328			`LowInputOutputPinsData.bPin2LowHighState = false; // ADBUS5`
329			`LowInputOutputPinsData.bPin3LowHighState = true; // ADBUS6`
330			`LowInputOutputPinsData.bPin4LowHighState = true; // ADBUS7`
331
332			`HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0`
333			`HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1`
334			`HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2`
335			`HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3`
336			`HighInputOutputPinsData.bPin1LowHighState = true; // ACBUS0`
337			`HighInputOutputPinsData.bPin2LowHighState = true; // ACBUS1`
338			`HighInputOutputPinsData.bPin3LowHighState = true; // ACBUS2 LED RXLEDA A1 OFF`
339			`HighInputOutputPinsData.bPin4LowHighState = true; // ACBUS3 LED TXLEDA A2 OFF`
340
341			`Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,`
342			`true,`
343			`&LowInputOutputPinsData,`
344			`true,`
345			`&HighInputOutputPinsData);`
346
347			`LowInputOutputPinsData.bPin1InputOutputState = true; // ADBUS4 -`
348			`LowInputOutputPinsData.bPin2InputOutputState = true; // ADBUS5`
349			`LowInputOutputPinsData.bPin3InputOutputState = true; // ADBUS6`
350			`LowInputOutputPinsData.bPin4InputOutputState = true; // ADBUS7`
351			`LowInputOutputPinsData.bPin1LowHighState = false; // ADBUS4`
352			`LowInputOutputPinsData.bPin2LowHighState = false; // ADBUS5`
353			`LowInputOutputPinsData.bPin3LowHighState = true; // ADBUS6`
354			`LowInputOutputPinsData.bPin4LowHighState = true; // ADBUS7`
355
356			`HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0`
357			`HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1`
358			`HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2`
359			`HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3`
360			`HighInputOutputPinsData.bPin1LowHighState = true; // ACBUS0`
361			`HighInputOutputPinsData.bPin2LowHighState = true; // ACBUS1`
362			`HighInputOutputPinsData.bPin3LowHighState = false; // ACBUS2 LED RXLEDA A1 ON`
363			`HighInputOutputPinsData.bPin4LowHighState = false; // ACBUS3 LED TXLEDA A2 ON`
364
365			`Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,`
366			`true,`
367			`&LowInputOutputPinsData,`
368			`true,`
369			`&HighInputOutputPinsData);`
370			`}`
371
372			`// Setup GPIO pins for JTAG`
373			`LowInputOutputPinsData.bPin1InputOutputState = true; // ADBUS4 -`
374			`// set ADBUS4 to output 0 to enable JTAG buffers on Olimex devices`
375			`LowInputOutputPinsData.bPin2InputOutputState = true; //ADBUS5`
376			`LowInputOutputPinsData.bPin3InputOutputState = true;`
377			`LowInputOutputPinsData.bPin4InputOutputState = true;`
378			`//ADBUS4 = 0 (enable JTAG buffers on Olimex devices)`
379			`LowInputOutputPinsData.bPin1LowHighState = false; // ADBUS4`
380			`LowInputOutputPinsData.bPin2LowHighState = false; // ADBUS5`
381			`LowInputOutputPinsData.bPin3LowHighState = true; // ADBUS6`
382			`LowInputOutputPinsData.bPin4LowHighState = true; // ADBUS7`
383
384			`HighInputOutputPinsData.bPin1InputOutputState = true; // ACBUS0`
385			`HighInputOutputPinsData.bPin2InputOutputState = true; // ACBUS1`
386			`HighInputOutputPinsData.bPin3InputOutputState = true; // ACBUS2`
387			`HighInputOutputPinsData.bPin4InputOutputState = true; // ACBUS3`
388			`HighInputOutputPinsData.bPin1LowHighState = true; // ACBUS0`
389			`HighInputOutputPinsData.bPin2LowHighState = true; // ACBUS1`
390			`HighInputOutputPinsData.bPin3LowHighState = false; // ACBUS2 LED RXLEDA A1 ON`
391			`HighInputOutputPinsData.bPin4LowHighState = true; // ACBUS3`
392
393			`Status = pFT2232cMpsseJtag->JTAG_SetGeneralPurposeInputOutputPins(ftHandle,`
394			`true,`
395			`&LowInputOutputPinsData,`
396			`true,`
397			`&HighInputOutputPinsData);`
398
399			`if (Status == FTC_SUCCESS)`
400			`Status = pFT2232cMpsseJtag->JTAG_GetGeneralPurposeInputOutputPins(ftHandle, true, &LowPinsInputData,`
401			`true, &HighPinsInputData);`
402
403			`if (DEBUG_USB_DRVR_FUNCS)`
404			`printf("JTAG low gpio pins values: (ADBUS7-ADBUS4):%x%x%x%x\n",`
405			`(LowPinsInputData.bPin4LowHighState==true),`
406			`(LowPinsInputData.bPin3LowHighState==true),`
407			`(LowPinsInputData.bPin2LowHighState==true),`
408			`(LowPinsInputData.bPin1LowHighState==true));`
409
410			`if (DEBUG_USB_DRVR_FUNCS)`
411			`printf("JTAG high gpio pins values: (ACBUS3-ACBUS0): %x%x%x%x\n",`
412			`(HighPinsInputData.bPin4LowHighState==true),`
413			`(HighPinsInputData.bPin3LowHighState==true),`
414			`(HighPinsInputData.bPin2LowHighState==true),`
415			`(HighPinsInputData.bPin1LowHighState==true));`
416			`}`
417			`}`
418
419
420			`if (Status == FTC_SUCCESS)`
421			`return 0;`
422			`else`
423			`return 1;`
424
425			`}`