mspdebug/drivers/tilib_api.c

782 lines
21 KiB
C

/* MSPDebug - debugging tool for MSP430 MCUs
* Copyright (C) 2009-2015 Daniel Beer
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <stddef.h>
#include <string.h>
#include "util/output.h"
#include "tilib_api.h"
#include "dynload.h"
static dynload_handle_t lib_handle;
const struct tilib_api_table *tilib_api;
#if defined(__Windows__) || defined(__CYGWIN__)
static const char tilib_filename[] = "MSP430.DLL";
#define TIDLL __stdcall
#else
static const char tilib_filename[] = "libmsp430.so";
#define TIDLL
#endif
static void *get_func(const char *name)
{
void *ret = dynload_sym(lib_handle, name);
if (!ret) {
printc_err("tilib_api: can't find symbol \"%s\": %s\n",
name, dynload_error());
return NULL;
}
return ret;
}
/************************************************************************
* New API (post-SLAC460L)
*/
struct new_messageid {
uint32_t uiMsgIdSingleStep;
uint32_t uiMsgIdBreakpoint;
uint32_t uiMsgIdStorage;
uint32_t uiMsgIdState;
uint32_t uiMsgIdWarning;
uint32_t uiMsgIdCPUStopped;
};
static void o2n_messageid(struct new_messageid *dst,
const MessageID_t *src)
{
dst->uiMsgIdSingleStep = src->uiMsgIdSingleStep;
dst->uiMsgIdBreakpoint = src->uiMsgIdBreakpoint;
dst->uiMsgIdStorage = src->uiMsgIdStorage;
dst->uiMsgIdState = src->uiMsgIdState;
dst->uiMsgIdWarning = src->uiMsgIdWarning;
dst->uiMsgIdCPUStopped = src->uiMsgIdCPUStopped;
}
struct new_breakpoint {
BpMode_t bpMode;
int32_t lAddrVal;
BpType_t bpType;
int32_t lReg;
BpAccess_t bpAccess;
BpAction_t bpAction;
BpOperat_t bpOperat;
int32_t lMask;
int32_t lRangeEndAdVa;
BpRangeAction_t bpRangeAction;
BpCondition_t bpCondition;
uint32_t lCondMdbVal;
BpAccess_t bpCondAccess;
int32_t lCondMask;
BpOperat_t bpCondOperat;
uint16_t wExtCombine;
};
static void o2n_breakpoint(struct new_breakpoint *dst,
const BpParameter_t *src)
{
dst->bpMode = src->bpMode;
dst->lAddrVal = src->lAddrVal;
dst->bpType = src->bpType;
dst->lReg = src->lReg;
dst->bpAccess = src->bpAccess;
dst->bpAction = src->bpAction;
dst->bpOperat = src->bpOperat;
dst->lMask = src->lMask;
dst->lRangeEndAdVa = src->lRangeEndAdVa;
dst->bpRangeAction = src->bpRangeAction;
dst->bpCondition = src->bpCondition;
dst->lCondMdbVal = src->lCondMdbVal;
dst->bpCondAccess = src->bpCondAccess;
dst->lCondMask = src->lCondMask;
dst->bpCondOperat = src->bpCondOperat;
dst->wExtCombine = src->wExtCombine;
}
union new_device {
uint8_t buffer[112];
struct {
uint16_t endian;
uint16_t id;
uint8_t string[32];
uint16_t mainStart;
uint16_t infoStart;
uint16_t ramEnd;
uint16_t nBreakpoints;
uint16_t emulation;
uint16_t clockControl;
uint16_t lcdStart;
uint16_t lcdEnd;
uint16_t vccMinOp;
uint16_t vccMaxOp;
uint16_t hasTestVpp;
uint16_t ramStart;
uint16_t ram2Start;
uint16_t ram2End;
uint16_t infoEnd;
uint32_t mainEnd;
uint16_t bslStart;
uint16_t bslEnd;
uint16_t nRegTrigger;
uint16_t nCombinations;
uint8_t cpuArch;
uint8_t jtagId;
uint16_t coreIpId;
uint32_t deviceIdPtr;
uint16_t eemVersion;
uint16_t nBreakpointsOptions;
uint16_t nBreakpointsReadWrite;
uint16_t nBreakpointsDma;
uint16_t TrigerMask;
uint16_t nRegTriggerOperations;
uint16_t nStateStorage;
uint16_t nCycleCounter;
uint16_t nCycleCounterOperations;
uint16_t nSequencer;
uint16_t HasFramMemroy;
uint16_t mainSegmentSize;
} __attribute__((packed));
};
static void n2o_device(union DEVICE_T *dst, const union new_device *src)
{
dst->endian = src->endian;
dst->id = src->id;
memcpy(dst->string, src->string, sizeof(dst->string));
dst->mainStart = src->mainStart;
dst->infoStart = src->infoStart;
dst->ramEnd = src->ramEnd;
dst->nBreakpoints = src->nBreakpoints;
dst->emulation = src->emulation;
dst->clockControl = src->clockControl;
dst->lcdStart = src->lcdStart;
dst->lcdEnd = src->lcdEnd;
dst->vccMinOp = src->vccMinOp;
dst->vccMaxOp = src->vccMaxOp;
dst->hasTestVpp = src->hasTestVpp;
dst->ramStart = src->ramStart;
dst->ram2Start = src->ram2Start;
dst->ram2End = src->ram2End;
dst->infoEnd = src->infoEnd;
dst->mainEnd = src->mainEnd;
dst->bslStart = src->bslStart;
dst->bslEnd = src->bslEnd;
dst->nRegTrigger = src->nRegTrigger;
dst->nCombinations = src->nCombinations;
dst->cpuArch = src->cpuArch;
dst->jtagId = src->jtagId;
dst->coreIpId = src->coreIpId;
dst->deviceIdPtr = src->deviceIdPtr;
dst->eemVersion = src->eemVersion;
dst->nBreakpointsOptions = src->nBreakpointsOptions;
dst->nBreakpointsReadWrite = src->nBreakpointsReadWrite;
dst->nBreakpointsDma = src->nBreakpointsDma;
dst->TrigerMask = src->TrigerMask;
dst->nRegTriggerOperations = src->nRegTriggerOperations;
dst->nStateStorage = src->nStateStorage;
dst->nCycleCounter = src->nCycleCounter;
dst->nCycleCounterOperations = src->nCycleCounterOperations;
dst->nSequencer = src->nSequencer;
dst->HasFramMemroy = src->HasFramMemroy;
/* dst->mainSegmentSize = src->mainSegmentSize; */
}
typedef void (*new_notify_func_t)
(uint32_t MsgId, uint32_t wParam, uint32_t lParam, int32_t clientHandle);
struct tilib_new_api {
/* MSP430.h */
int32_t TIDLL (*MSP430_Initialize)(char *port, int32_t *version);
int32_t TIDLL (*MSP430_VCC)(int32_t voltage);
int32_t TIDLL (*MSP430_Configure)(int32_t mode, int32_t value);
int32_t TIDLL (*MSP430_OpenDevice)(char *Device, char *Password,
int32_t PwLength, int32_t DeviceCode,
int32_t setId);
int32_t TIDLL (*MSP430_GetFoundDevice)(uint8_t *FoundDevice,
int32_t count);
int32_t TIDLL (*MSP430_Close)(int32_t vccOff);
int32_t TIDLL (*MSP430_Memory)(int32_t address, char *buffer,
int32_t count, int32_t rw);
int32_t TIDLL (*MSP430_Reset)(int32_t method, int32_t execute,
int32_t releaseJTAG);
int32_t TIDLL (*MSP430_Erase)(int32_t type, int32_t address,
int32_t length);
int32_t TIDLL (*MSP430_Secure)(void);
int32_t TIDLL (*MSP430_Error_Number)(void);
const char *TIDLL (*MSP430_Error_String)(int32_t errNumber);
int32_t TIDLL (*MSP430_GetNumberOfUsbIfs)(int32_t* number);
int32_t TIDLL (*MSP430_GetNameOfUsbIf)(int32_t idx, char **name,
int32_t *status);
/* MSP430_Debug.h */
int32_t TIDLL (*MSP430_Registers)(int32_t *registers, int32_t mask,
int32_t rw);
int32_t TIDLL (*MSP430_Run)(int32_t mode, int32_t releaseJTAG);
int32_t TIDLL (*MSP430_State)(int32_t *state, int32_t stop,
int32_t *pCPUCycles);
/* MSP430_EEM.h */
int32_t TIDLL (*MSP430_EEM_Init)(new_notify_func_t callback,
int32_t clientHandle,
struct new_messageid *pMsgIdBuffer);
int32_t TIDLL (*MSP430_EEM_SetBreakpoint)(uint16_t *pwBpHandle,
struct new_breakpoint *pBpBuffer);
/* MSP430_FET.h */
int32_t TIDLL (*MSP430_FET_FwUpdate)(char* lpszFileName,
new_notify_func_t callback,
int32_t clientHandle);
/* Callback thunk data */
DLL430_EVENTNOTIFY_FUNC cb_event;
DLL430_FET_NOTIFY_FUNC cb_fw;
};
static struct tilib_new_api napi;
static STATUS_T new_Initialize(char *port, long *version)
{
int32_t nv;
int r;
r = napi.MSP430_Initialize(port, &nv);
if (r < 0)
return r;
*version = nv;
return 0;
}
static STATUS_T new_VCC(long voltage)
{
return napi.MSP430_VCC(voltage);
}
static STATUS_T new_Configure(long mode, long value)
{
return napi.MSP430_Configure(mode, value);
}
static STATUS_T new_OpenDevice(char *Device, char *Password,
long PwLength, long DeviceCode,
long setId)
{
return napi.MSP430_OpenDevice(Device, Password, PwLength,
DeviceCode, setId);
}
static STATUS_T new_GetFoundDevice(char *FoundDevice, long count)
{
union new_device ndev;
union DEVICE_T odev;
int r;
r = napi.MSP430_GetFoundDevice(ndev.buffer, sizeof(ndev.buffer));
if (r < 0)
return r;
memset(&odev, 0, sizeof(odev));
n2o_device(&odev, &ndev);
if (count > sizeof(odev.buffer))
count = sizeof(odev.buffer);
memcpy(FoundDevice, odev.buffer, count);
return 0;
}
static STATUS_T new_Close(long vccOff)
{
return napi.MSP430_Close(vccOff);
}
static STATUS_T new_Memory(long address, char *buffer, long count, long rw)
{
return napi.MSP430_Memory(address, buffer, count, rw);
}
static STATUS_T new_Reset(long method, long execute, long releaseJTAG)
{
return napi.MSP430_Reset(method, execute, releaseJTAG);
}
static STATUS_T new_Erase(long type, long address, long length)
{
return napi.MSP430_Erase(type, address, length);
}
static STATUS_T new_Secure(void)
{
return napi.MSP430_Secure();
}
static STATUS_T new_Error_Number(void)
{
return napi.MSP430_Error_Number();
}
static const char *new_Error_String(long errNumber)
{
return napi.MSP430_Error_String(errNumber);
}
static STATUS_T new_GetNumberOfUsbIfs(long* number)
{
int32_t nn;
int r;
r = napi.MSP430_GetNumberOfUsbIfs(&nn);
if (r < 0)
return r;
*number = nn;
return 0;
}
static STATUS_T new_GetNameOfUsbIf(long idx, char **name, long *status)
{
int32_t ns;
int r;
r = napi.MSP430_GetNameOfUsbIf(idx, name, &ns);
if (r < 0)
return r;
*status = ns;
return 0;
}
static STATUS_T new_Registers(long *registers, long mask, long rw)
{
int32_t nr[16];
int i;
for (i = 0; i < 16; i++)
if (mask & (1 << i))
nr[i] = registers[i];
i = napi.MSP430_Registers(nr, mask, rw);
if (i < 0)
return i;
for (i = 0; i < 16; i++)
if (mask & (1 << i))
registers[i] = nr[i];
return 0;
}
static STATUS_T new_Run(long mode, long releaseJTAG)
{
return napi.MSP430_Run(mode, releaseJTAG);
}
static STATUS_T new_State(long *state, long stop, long *pCPUCycles)
{
int32_t ns;
int32_t nc;
int r;
r = napi.MSP430_State(&ns, stop, &nc);
if (r < 0)
return r;
*state = ns;
*pCPUCycles = nc;
return 0;
}
static void new_event(uint32_t MsgId, uint32_t wParam,
uint32_t lParam, int32_t clientHandle)
{
napi.cb_event(MsgId, wParam, lParam, clientHandle);
}
static STATUS_T new_EEM_Init(DLL430_EVENTNOTIFY_FUNC callback,
long clientHandle, MessageID_t *pMsgIdBuffer)
{
struct new_messageid nm;
napi.cb_event = callback;
o2n_messageid(&nm, pMsgIdBuffer);
return napi.MSP430_EEM_Init(new_event, clientHandle, &nm);
}
static STATUS_T new_EEM_SetBreakpoint(uint16_t *pwBpHandle,
BpParameter_t *pBpBuffer)
{
struct new_breakpoint np;
o2n_breakpoint(&np, pBpBuffer);
return napi.MSP430_EEM_SetBreakpoint(pwBpHandle, &np);
}
static void new_fw(uint32_t MsgId, uint32_t wParam,
uint32_t lParam, int32_t clientHandle)
{
napi.cb_fw(MsgId, wParam, lParam, clientHandle);
}
static STATUS_T new_FET_FwUpdate(char* lpszFileName,
DLL430_FET_NOTIFY_FUNC callback,
long clientHandle)
{
napi.cb_fw = callback;
return napi.MSP430_FET_FwUpdate(lpszFileName, new_fw, clientHandle);
}
static const struct tilib_api_table new_tab = {
.MSP430_Initialize = new_Initialize,
.MSP430_VCC = new_VCC,
.MSP430_Configure = new_Configure,
.MSP430_OpenDevice = new_OpenDevice,
.MSP430_GetFoundDevice = new_GetFoundDevice,
.MSP430_Close = new_Close,
.MSP430_Memory = new_Memory,
.MSP430_Reset = new_Reset,
.MSP430_Erase = new_Erase,
.MSP430_Secure = new_Secure,
.MSP430_Error_Number = new_Error_Number,
.MSP430_Error_String = new_Error_String,
.MSP430_GetNumberOfUsbIfs = new_GetNumberOfUsbIfs,
.MSP430_GetNameOfUsbIf = new_GetNameOfUsbIf,
.MSP430_Registers = new_Registers,
.MSP430_Run = new_Run,
.MSP430_State = new_State,
.MSP430_EEM_Init = new_EEM_Init,
.MSP430_EEM_SetBreakpoint = new_EEM_SetBreakpoint,
.MSP430_FET_FwUpdate = new_FET_FwUpdate,
};
static int init_new_api(void)
{
if (!(napi.MSP430_Initialize = get_func("MSP430_Initialize")))
return -1;
if (!(napi.MSP430_VCC = get_func("MSP430_VCC")))
return -1;
if (!(napi.MSP430_Configure = get_func("MSP430_Configure")))
return -1;
if (!(napi.MSP430_OpenDevice = get_func("MSP430_OpenDevice")))
return -1;
if (!(napi.MSP430_GetFoundDevice = get_func("MSP430_GetFoundDevice")))
return -1;
if (!(napi.MSP430_Close = get_func("MSP430_Close")))
return -1;
if (!(napi.MSP430_Memory = get_func("MSP430_Memory")))
return -1;
if (!(napi.MSP430_Reset = get_func("MSP430_Reset")))
return -1;
if (!(napi.MSP430_Erase = get_func("MSP430_Erase")))
return -1;
if (!(napi.MSP430_Secure = get_func("MSP430_Secure")))
return -1;
if (!(napi.MSP430_Error_Number = get_func("MSP430_Error_Number")))
return -1;
if (!(napi.MSP430_Error_String = get_func("MSP430_Error_String")))
return -1;
if (!(napi.MSP430_GetNumberOfUsbIfs =
get_func("MSP430_GetNumberOfUsbIfs")))
return -1;
if (!(napi.MSP430_GetNameOfUsbIf = get_func("MSP430_GetNameOfUsbIf")))
return -1;
if (!(napi.MSP430_Registers = get_func("MSP430_Registers")))
return -1;
if (!(napi.MSP430_Run = get_func("MSP430_Run")))
return -1;
if (!(napi.MSP430_State = get_func("MSP430_State")))
return -1;
if (!(napi.MSP430_EEM_Init = get_func("MSP430_EEM_Init")))
return -1;
if (!(napi.MSP430_EEM_SetBreakpoint =
get_func("MSP430_EEM_SetBreakpoint")))
return -1;
if (!(napi.MSP430_FET_FwUpdate = get_func("MSP430_FET_FwUpdate")))
return -1;
tilib_api = &new_tab;
return 0;
}
/************************************************************************
* Old API (pre-SLAC460L)
*/
struct tilib_old_api {
/* MSP430.h */
STATUS_T TIDLL (*MSP430_Initialize)(char *port, long *version);
STATUS_T TIDLL (*MSP430_VCC)(long voltage);
STATUS_T TIDLL (*MSP430_Configure)(long mode, long value);
STATUS_T TIDLL (*MSP430_OpenDevice)(char *Device, char *Password,
long PwLength, long DeviceCode,
long setId);
STATUS_T TIDLL (*MSP430_GetFoundDevice)(char *FoundDevice,
long count);
STATUS_T TIDLL (*MSP430_Close)(long vccOff);
STATUS_T TIDLL (*MSP430_Memory)(long address, char *buffer,
long count, long rw);
STATUS_T TIDLL (*MSP430_Reset)(long method, long execute,
long releaseJTAG);
STATUS_T TIDLL (*MSP430_Erase)(long type, long address, long length);
STATUS_T TIDLL (*MSP430_Secure)(void);
STATUS_T TIDLL (*MSP430_Error_Number)(void);
const char *TIDLL (*MSP430_Error_String)(long errNumber);
STATUS_T TIDLL (*MSP430_GetNumberOfUsbIfs)(long* number);
STATUS_T TIDLL (*MSP430_GetNameOfUsbIf)(long idx, char **name,
long *status);
/* MSP430_Debug.h */
STATUS_T TIDLL (*MSP430_Registers)(long *registers, long mask,
long rw);
STATUS_T TIDLL (*MSP430_Run)(long mode, long releaseJTAG);
STATUS_T TIDLL (*MSP430_State)(long *state, long stop,
long *pCPUCycles);
/* MSP430_EEM.h */
STATUS_T TIDLL (*MSP430_EEM_Init)(DLL430_EVENTNOTIFY_FUNC callback,
long clientHandle,
MessageID_t *pMsgIdBuffer);
STATUS_T TIDLL (*MSP430_EEM_SetBreakpoint)(uint16_t *pwBpHandle,
BpParameter_t *pBpBuffer);
/* MSP430_FET.h */
STATUS_T TIDLL (*MSP430_FET_FwUpdate)(char* lpszFileName,
DLL430_FET_NOTIFY_FUNC callback,
long clientHandle);
};
static struct tilib_old_api old;
static STATUS_T old_Initialize(char *port, long *version)
{
return old.MSP430_Initialize(port, version);
}
static STATUS_T old_VCC(long voltage)
{
return old.MSP430_VCC(voltage);
}
static STATUS_T old_Configure(long mode, long value)
{
return old.MSP430_Configure(mode, value);
}
static STATUS_T old_OpenDevice(char *Device, char *Password,
long PwLength, long DeviceCode,
long setId)
{
return old.MSP430_OpenDevice(Device, Password, PwLength,
DeviceCode, setId);
}
static STATUS_T old_GetFoundDevice(char *FoundDevice, long count)
{
return old.MSP430_GetFoundDevice(FoundDevice, count);
}
static STATUS_T old_Close(long vccOff)
{
return old.MSP430_Close(vccOff);
}
static STATUS_T old_Memory(long address, char *buffer, long count, long rw)
{
return old.MSP430_Memory(address, buffer, count, rw);
}
static STATUS_T old_Reset(long method, long execute, long releaseJTAG)
{
return old.MSP430_Reset(method, execute, releaseJTAG);
}
static STATUS_T old_Erase(long type, long address, long length)
{
return old.MSP430_Erase(type, address, length);
}
static STATUS_T old_Secure(void)
{
return old.MSP430_Secure();
}
static STATUS_T old_Error_Number(void)
{
return old.MSP430_Error_Number();
}
static const char *old_Error_String(long errNumber)
{
return old.MSP430_Error_String(errNumber);
}
static STATUS_T old_GetNumberOfUsbIfs(long* number)
{
return old.MSP430_GetNumberOfUsbIfs(number);
}
static STATUS_T old_GetNameOfUsbIf(long idx, char **name, long *status)
{
return old.MSP430_GetNameOfUsbIf(idx, name, status);
}
static STATUS_T old_Registers(long *registers, long mask, long rw)
{
return old.MSP430_Registers(registers, mask, rw);
}
static STATUS_T old_Run(long mode, long releaseJTAG)
{
return old.MSP430_Run(mode, releaseJTAG);
}
static STATUS_T old_State(long *state, long stop, long *pCPUCycles)
{
return old.MSP430_State(state, stop, pCPUCycles);
}
static STATUS_T old_EEM_Init(DLL430_EVENTNOTIFY_FUNC callback,
long clientHandle, MessageID_t *pMsgIdBuffer)
{
return old.MSP430_EEM_Init(callback, clientHandle, pMsgIdBuffer);
}
static STATUS_T old_EEM_SetBreakpoint(uint16_t *pwBpHandle,
BpParameter_t *pBpBuffer)
{
return old.MSP430_EEM_SetBreakpoint(pwBpHandle, pBpBuffer);
}
static STATUS_T old_FET_FwUpdate(char* lpszFileName,
DLL430_FET_NOTIFY_FUNC callback,
long clientHandle)
{
return old.MSP430_FET_FwUpdate(lpszFileName, callback, clientHandle);
}
static const struct tilib_api_table old_tab = {
.MSP430_Initialize = old_Initialize,
.MSP430_VCC = old_VCC,
.MSP430_Configure = old_Configure,
.MSP430_OpenDevice = old_OpenDevice,
.MSP430_GetFoundDevice = old_GetFoundDevice,
.MSP430_Close = old_Close,
.MSP430_Memory = old_Memory,
.MSP430_Reset = old_Reset,
.MSP430_Erase = old_Erase,
.MSP430_Secure = old_Secure,
.MSP430_Error_Number = old_Error_Number,
.MSP430_Error_String = old_Error_String,
.MSP430_GetNumberOfUsbIfs = old_GetNumberOfUsbIfs,
.MSP430_GetNameOfUsbIf = old_GetNameOfUsbIf,
.MSP430_Registers = old_Registers,
.MSP430_Run = old_Run,
.MSP430_State = old_State,
.MSP430_EEM_Init = old_EEM_Init,
.MSP430_EEM_SetBreakpoint = old_EEM_SetBreakpoint,
.MSP430_FET_FwUpdate = old_FET_FwUpdate,
};
static int init_old_api(void)
{
if (!(old.MSP430_Initialize = get_func("MSP430_Initialize")))
return -1;
if (!(old.MSP430_VCC = get_func("MSP430_VCC")))
return -1;
if (!(old.MSP430_Configure = get_func("MSP430_Configure")))
return -1;
if (!(old.MSP430_OpenDevice = get_func("MSP430_OpenDevice")))
return -1;
if (!(old.MSP430_GetFoundDevice = get_func("MSP430_GetFoundDevice")))
return -1;
if (!(old.MSP430_Close = get_func("MSP430_Close")))
return -1;
if (!(old.MSP430_Memory = get_func("MSP430_Memory")))
return -1;
if (!(old.MSP430_Reset = get_func("MSP430_Reset")))
return -1;
if (!(old.MSP430_Erase = get_func("MSP430_Erase")))
return -1;
if (!(old.MSP430_Secure = get_func("MSP430_Secure")))
return -1;
if (!(old.MSP430_Error_Number = get_func("MSP430_Error_Number")))
return -1;
if (!(old.MSP430_Error_String = get_func("MSP430_Error_String")))
return -1;
if (!(old.MSP430_GetNumberOfUsbIfs =
get_func("MSP430_GetNumberOfUsbIfs")))
return -1;
if (!(old.MSP430_GetNameOfUsbIf = get_func("MSP430_GetNameOfUsbIf")))
return -1;
if (!(old.MSP430_Registers = get_func("MSP430_Registers")))
return -1;
if (!(old.MSP430_Run = get_func("MSP430_Run")))
return -1;
if (!(old.MSP430_State = get_func("MSP430_State")))
return -1;
if (!(old.MSP430_EEM_Init = get_func("MSP430_EEM_Init")))
return -1;
if (!(old.MSP430_EEM_SetBreakpoint =
get_func("MSP430_EEM_SetBreakpoint")))
return -1;
if (!(old.MSP430_FET_FwUpdate = get_func("MSP430_FET_FwUpdate")))
return -1;
tilib_api = &old_tab;
return 0;
}
/************************************************************************
* Top-level init
*/
int tilib_api_init(void)
{
int ret;
lib_handle = dynload_open(tilib_filename);
if (!lib_handle) {
printc_err("tilib_api: can't find %s: %s\n",
tilib_filename, dynload_error());
return -1;
}
if (dynload_sym(lib_handle, "MSP430_HIL_MEMAP")) {
printc_dbg("Using new (SLAC460L+) API\n");
ret = init_new_api();
} else {
printc_dbg("Using old API\n");
ret = init_old_api();
}
if (ret < 0) {
dynload_close(lib_handle);
return -1;
}
return 0;
}
void tilib_api_exit(void)
{
dynload_close(lib_handle);
}