Difference between revisions of "Modbus notes"
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| − | These routines are completely different. What does a trace in IAR reveal about which project source files' code is executing during start up? . . . | + | These routines are completely different. What does a trace in IAR reveal about which project source files' code is executing during start up? . . . it is the second source file mentioned here, file <code>system_LPC11Uxx.c</code>. |
Revision as of 21:41, 21 November 2019
Contents
OVERVIEW
This wiki article contains some notes and references on FreeModbus, an opensource C library to support a Modbus protocol stack in stand-alone applications as well as operating system and scheduler based systems. This article also contains a number of links to more general C language references, which discuss function pointers in C, and the type defining of function pointers.
- https://libmodbus.org/ . . . Ubuntu package is 'libmodbus5' and 'libmodbus-dev'
Note: FreeModbus project uses a variable and routine naming scheme where many names begin with one or two lower-case characters. From context in the file ./modbus/mb.c, it looks like 'uc' may stand for 'unsigned char' data type. The starting lower case 'e' stands for 'enumeration':
62 static UCHAR ucMBAddress; 63 static eMBMode eMBCurrentMode;
- 2019-11-08 FRI -
When working with FreeModbus, be sure to pay attention to the versions of protocol available, and likely, we only want to enable one of these. See Modbus/include/mbconfig.h. See also Modbus/include/mb.h for instructions on how to initialize and begin to use an instance of FreeModbus stack in given program. Also mention that eMBPoll() routine may be set up as a task in an RTOS, to realize the periodic polling which is part of the stack's runtime manifestation . . .
Looks like also this function to register callbacks for end-user-device-specific Modbus registers will be important:
eMBErrorCode eMBRegisterCB ( UCHAR ucFunctionCode,
pxMBFunctionHandler pxHandler
)
This function signature part of documentation found at https://www.embedded-solutions.at/en/freemodbus/api-documentation/, which gives Doxygen generated API help in an embedded pane in the browser window on which it is visited.
2019-11-12 Tuesday - trying to figure out how pxMBFunctionHandler is defined . . . from http://www.teamfdi.com/uez/docs/mbproto_8h.html:
Typedefs typedef eMBException(* pxMBFunctionHandler )(UCHAR *pucFrame, USHORT *pusLength)
...from this typedef looks like Modbus routines implemented by the end user/end designer must have parameter lists which match "unsigned char pointer, unsigned integer pointer".
2019-11-13
Further search for FreeModbus callback registering code"
downloads/freemodbus/freemodbus-v1.5.0$ grep -nr pxMBFunctionHandler ./* ./modbus/mb.c:226:eMBRegisterCB( UCHAR ucFunctionCode, pxMBFunctionHandler pxHandler ) ./modbus/include/mbproto.h:72:typedef eMBException( *pxMBFunctionHandler ) ( UCHAR * pucFrame, USHORT * pusLength ); ./modbus/include/mbproto.h:77: pxMBFunctionHandler pxHandler; ./modbus/include/mb.h:266: pxMBFunctionHandler pxHandler )
And the entire section of typedefs from mbproto.h:
/* ----------------------- Type definitions ---------------------------------*/
typedef enum
{
MB_EX_NONE = 0x00,
MB_EX_ILLEGAL_FUNCTION = 0x01,
MB_EX_ILLEGAL_DATA_ADDRESS = 0x02,
MB_EX_ILLEGAL_DATA_VALUE = 0x03,
MB_EX_SLAVE_DEVICE_FAILURE = 0x04,
MB_EX_ACKNOWLEDGE = 0x05,
MB_EX_SLAVE_BUSY = 0x06,
MB_EX_MEMORY_PARITY_ERROR = 0x08,
MB_EX_GATEWAY_PATH_FAILED = 0x0A,
MB_EX_GATEWAY_TGT_FAILED = 0x0B
} eMBException;
typedef eMBException( *pxMBFunctionHandler ) ( UCHAR * pucFrame, USHORT * pusLength );
typedef struct
{
UCHAR ucFunctionCode;
pxMBFunctionHandler pxHandler;
} xMBFunctionHandler;
^ Obscurely defined FreeModbus variables
Where is the following demo/LPC214X/port/port.c variable defined? Does not appear defined in any file of FreeModbus 1.5.0 download. Note however that this may be an LPC microcontroller register name:
VICIntEnable
See http://www.keil.com/dd/vtr/3880/9794.htm for a brief mention of this term. - TMH
^ Modbus frames and framing handling
This search result may not be directly useful to getting a first modbus routine running and testable:
./modbus/include/mbport.h:109:extern BOOL( *pxMBFrameCBByteReceived ) ( void ); Binary file ./modbus/include/.mbport.h.swp matches ./modbus/mb.c:85:BOOL( *pxMBFrameCBByteReceived ) ( void ); ./modbus/mb.c:153: pxMBFrameCBByteReceived = xMBRTUReceiveFSM; ./modbus/mb.c:167: pxMBFrameCBByteReceived = xMBASCIIReceiveFSM;
^ Modbus register input callback routine
Here is a search history, some searches run in the STR71X demo. These variables and routines look more promising in terms of telling us how to implement a routine of our own which properly ties in with FreeModbus library code. What these variables and routines lead us to examine, is how the code developers, us, using FreeModbus can return data from a device to a meaningful place in memory, which FreeModbus then reads and send out along the physical link layer to a given Modbus master.
From the following searches,
1004 grep -nr usRegInputBuf ./* 1005 grep -n pucRegBuffer ./* 1006 # eMBRegInputCB, third token for which to search
We quickly come to the routine named eMBRegInputCB(). It turns out this routine is implemented in various FreeModbus demos, which is to say it is not a FreeModbus library routine. But part of FreeModbus library source calls or needs to call a routine by this name. So it looks like as users of FreeModbus, we are bound to define a routine by this name and with its enumerated return type and parameter list as defined in freemodbus-v1.5.0/modbus/include/mb.h.
Variable usRegInputBuf is in source file simple2.c a static array of bytes, which hold values that a Modbus function returns,
<./simple2.c:42:static unsigned short usRegInputBuf[REG_INPUT_NREGS]; ./simple2.c:76: usRegInputBuf[0]++; ./simple2.c:79: usRegInputBuf[1] = ( unsigned portSHORT )( xLastWakeTime >> 16UL ); ./simple2.c:80: usRegInputBuf[2] = ( unsigned portSHORT )( xLastWakeTime & 0xFFFFUL ); ./simple2.c:82: usRegInputBuf[3] = 33; ./simple2.c:99: ( unsigned char )( usRegInputBuf[iRegIndex] >> 8 ); ./simple2.c:101: ( unsigned char )( usRegInputBuf[iRegIndex] & 0xFF );
We look then at pucRegBuffer because of the following assignments in a callback routine of this demo:
86 eMBErrorCode
87 eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs )
88 {
89 eMBErrorCode eStatus = MB_ENOERR;
90 int iRegIndex;
91
92 if( ( usAddress >= REG_INPUT_START )
93 && ( usAddress + usNRegs <= REG_INPUT_START + REG_INPUT_NREGS ) )
94 {
95 iRegIndex = ( int )( usAddress - usRegInputStart );
96 while( usNRegs > 0 )
97 {
98 *pucRegBuffer++ =
99 ( unsigned char )( usRegInputBuf[iRegIndex] >> 8 );
100 *pucRegBuffer++ =
101 ( unsigned char )( usRegInputBuf[iRegIndex] & 0xFF );
102 iRegIndex++;
103 usNRegs--;
104 }
105 }
106 else
107 {
108 eStatus = MB_ENOREG;
109 }
110
111 return eStatus;
112 }
Now the question is, which code calls the routine eMBErrorCode eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs )? This routine is not called by any code in this specific demo:
$ grep -nr -A 1 eMBRegInputCB ./*
./excoils.c:130:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs )
./excoils.c-131-{
--
./exdisc.c:118:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs )
./exdisc.c-119-{
--
./exholding.c:86:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs )
./exholding.c-87-{
--
./simple2.c:87:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs )
./simple2.c-88-{
--
./simple.c:94:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs )
./simple.c-95-{
Looking now a level or two up and at the FreeModbus library sources . . . there is a longer function in file ./modbus/functions/mbfuncinput.c but worth noting here, as it parses the modbus PDU to figure out what type of PDU read versus write it is, and how many bytes are expected to follow or are being requested. Worth noting the function definition in full here:
/* ----------------------- Start implementation -----------------------------*/
#if MB_FUNC_READ_INPUT_ENABLED > 0
eMBException
eMBFuncReadInputRegister( UCHAR * pucFrame, USHORT * usLen )
{
USHORT usRegAddress;
USHORT usRegCount;
UCHAR *pucFrameCur;
eMBException eStatus = MB_EX_NONE;
eMBErrorCode eRegStatus;
if( *usLen == ( MB_PDU_FUNC_READ_SIZE + MB_PDU_SIZE_MIN ) )
{
usRegAddress = ( USHORT )( pucFrame[MB_PDU_FUNC_READ_ADDR_OFF] << 8 );
usRegAddress |= ( USHORT )( pucFrame[MB_PDU_FUNC_READ_ADDR_OFF + 1] );
usRegAddress++;
usRegCount = ( USHORT )( pucFrame[MB_PDU_FUNC_READ_REGCNT_OFF] << 8 );
usRegCount |= ( USHORT )( pucFrame[MB_PDU_FUNC_READ_REGCNT_OFF + 1] );
/* Check if the number of registers to read is valid. If not
* return Modbus illegal data value exception.
*/
if( ( usRegCount >= 1 )
&& ( usRegCount < MB_PDU_FUNC_READ_REGCNT_MAX ) )
{
/* Set the current PDU data pointer to the beginning. */
pucFrameCur = &pucFrame[MB_PDU_FUNC_OFF];
*usLen = MB_PDU_FUNC_OFF;
/* First byte contains the function code. */
*pucFrameCur++ = MB_FUNC_READ_INPUT_REGISTER;
*usLen += 1;
/* Second byte in the response contain the number of bytes. */
*pucFrameCur++ = ( UCHAR )( usRegCount * 2 );
*usLen += 1;
eRegStatus =
eMBRegInputCB( pucFrameCur, usRegAddress, usRegCount );
/* If an error occured convert it into a Modbus exception. */
if( eRegStatus != MB_ENOERR )
{
eStatus = prveMBError2Exception( eRegStatus );
}
else
{
*usLen += usRegCount * 2;
}
}
else
{
eStatus = MB_EX_ILLEGAL_DATA_VALUE;
}
}
else
{
/* Can't be a valid read input register request because the length
* is incorrect. */
eStatus = MB_EX_ILLEGAL_DATA_VALUE;
}
return eStatus;
}
#endif
user@~/projects/freemodbus-v1.5.0$ grep -nr eMBRegInputCB ./* ./demo/WIN32/demo.cpp:221:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71XGCC/demo.c:101:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/ATSAM3S_FREERTOS/demo.c:168:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/BARE/demo.c:55:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71X/exdisc.c:118:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71X/excoils.c:130:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71X/simple2.c:87:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) Binary file ./demo/STR71X/.simple2.c.swp matches ./demo/STR71X/exholding.c:86:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71X/simple.c:94:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/LPC214X/demo.c:55:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/LINUX/demo.c:264:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/LINUXTCP/demo.c:219:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/MSP430/demo.c:81:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/HCS08/demo.c:149:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/MCF5235TCP/demo.c:129:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/WIN32TCP/demo.cpp:214:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/AVR/demo.c:63:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/AVR/excoils.c:101:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/MCF5235CW/demo.c:92:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/MCF5235/demo.c:71:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71XTCP/demo.c:243:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/ATSAM3S/demo.c:111:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/Z8ENCORE/demo.c:55:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/AT91SAM7X_ROWLEY/demo.c:98:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./modbus/include/mb.h:101: * eMBRegInputCB( ). ./modbus/include/mb.h:312:eMBErrorCode eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, ./modbus/functions/mbfuncinput.c:96: eMBRegInputCB( pucFrameCur, usRegAddress, usRegCount ); user@~/projects/freemodbus-v1.5.0$
^ C function pointers and further references
What do we need to pass to eMBRegisterCB()? . . .
-
C function pointer syntax:
2019-11-14 Thursday:
A highlighting test . . .
ted@kalaru:/var/local/ted/projects/lsa/freemodbus-v1.5.0$ grep -nr eMBRegInputCB ./*
./demo/WIN32/demo.cpp:221:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71XGCC/demo.c:101:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/ATSAM3S_FREERTOS/demo.c:168:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/BARE/demo.c:55:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71X/exdisc.c:118:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71X/excoils.c:130:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71X/simple2.c:87:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) Binary file ./demo/STR71X/.simple2.c.swp matches
./demo/STR71X/exholding.c:86:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs )
./demo/STR71X/simple.c:94:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/LPC214X/demo.c:55:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/LINUX/demo.c:264:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/LINUXTCP/demo.c:219:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/MSP430/demo.c:81:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/HCS08/demo.c:149:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/MCF5235TCP/demo.c:129:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/WIN32TCP/demo.cpp:214:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/AVR/demo.c:63:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/AVR/excoils.c:101:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/MCF5235CW/demo.c:92:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/MCF5235/demo.c:71:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/STR71XTCP/demo.c:243:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/ATSAM3S/demo.c:111:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/Z8ENCORE/demo.c:55:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./demo/AT91SAM7X_ROWLEY/demo.c:98:eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, USHORT usNRegs ) ./modbus/include/mb.h:101: * eMBRegInputCB( ). ./modbus/include/mb.h:312:eMBErrorCode eMBRegInputCB( UCHAR * pucRegBuffer, USHORT usAddress, ./modbus/functions/mbfuncinput.c:96: eMBRegInputCB( pucFrameCur, usRegAddress, usRegCount );
^ xFunctionHandlers
This looks important:
./modbus/mb.c:95:static xMBFunctionHandler xFuncHandlers[MB_FUNC_HANDLERS_MAX] = {
The full declaration is:
static xMBFunctionHandler xFuncHandlers[MB_FUNC_HANDLERS_MAX] = {
#if MB_FUNC_OTHER_REP_SLAVEID_ENABLED > 0
{MB_FUNC_OTHER_REPORT_SLAVEID, eMBFuncReportSlaveID},
#endif
#if MB_FUNC_READ_INPUT_ENABLED > 0
{MB_FUNC_READ_INPUT_REGISTER, eMBFuncReadInputRegister},
#endif
#if MB_FUNC_READ_HOLDING_ENABLED > 0
{MB_FUNC_READ_HOLDING_REGISTER, eMBFuncReadHoldingRegister},
#endif
#if MB_FUNC_WRITE_MULTIPLE_HOLDING_ENABLED > 0
{MB_FUNC_WRITE_MULTIPLE_REGISTERS, eMBFuncWriteMultipleHoldingRegister},
#endif
#if MB_FUNC_WRITE_HOLDING_ENABLED > 0
{MB_FUNC_WRITE_REGISTER, eMBFuncWriteHoldingRegister},
#endif
#if MB_FUNC_READWRITE_HOLDING_ENABLED > 0
{MB_FUNC_READWRITE_MULTIPLE_REGISTERS, eMBFuncReadWriteMultipleHoldingRegister},
#endif
#if MB_FUNC_READ_COILS_ENABLED > 0
{MB_FUNC_READ_COILS, eMBFuncReadCoils},
#endif
#if MB_FUNC_WRITE_COIL_ENABLED > 0
{MB_FUNC_WRITE_SINGLE_COIL, eMBFuncWriteCoil},
#endif
#if MB_FUNC_WRITE_MULTIPLE_COILS_ENABLED > 0
{MB_FUNC_WRITE_MULTIPLE_COILS, eMBFuncWriteMultipleCoils},
#endif
#if MB_FUNC_READ_DISCRETE_INPUTS_ENABLED > 0
{MB_FUNC_READ_DISCRETE_INPUTS, eMBFuncReadDiscreteInputs},
#endif
};
FreeModbus presently supports sixteen function handlers in this array:
./include/mbconfig.h:86:#define MB_FUNC_HANDLERS_MAX ( 16 )
^ Modbus RTU
2019-11-20 Question: how does FreeModbus RTU protocol version get to the state of "received frame"?
$ grep -nr STATE_RX_RCV ./* | grep -v '^Binary' ./Modbus/ascii/mbascii.c:61: STATE_RX_RCV, /*!< Frame is beeing received. */ ./Modbus/ascii/mbascii.c:237: case STATE_RX_RCV: ./Modbus/ascii/mbascii.c:301: eRcvState = STATE_RX_RCV; ./Modbus/ascii/mbascii.c:321: eRcvState = STATE_RX_RCV; ./Modbus/ascii/mbascii.c:417: case STATE_RX_RCV: ./Modbus/ascii/mbascii.c:423: assert( ( eRcvState == STATE_RX_RCV ) || ( eRcvState == STATE_RX_WAIT_EOF ) ); ./Modbus/rtu/mbrtu.c:58: STATE_RX_RCV, /*!< Frame is beeing received. */ ./Modbus/rtu/mbrtu.c:261: eRcvState = STATE_RX_RCV; ./Modbus/rtu/mbrtu.c:272: case STATE_RX_RCV: ./Modbus/rtu/mbrtu.c:339: case STATE_RX_RCV: ./Modbus/rtu/mbrtu.c:350: ( eRcvState == STATE_RX_RCV ) || ( eRcvState == STATE_RX_ERROR ) );
In following paragraph, FreeModbus source files are ./mb.c, ./rtu/mbrtu.c, and ./port/mv_portserial.c.
In our case, FreeModbus routine eMBInit() calls routine eMBRTUInit(). Routine eMBRTUInit() seems to ignore the caller's passed Modbus slave device address . . . strange. This routine in turn calls xMBPortSerialInit() with parameters: ucPort, ulBaudRate, 8, eParity. . . .
Aside question: in the Kargs BACNet stack what does the following line of code carry out?
# ./BACnet/src/mstp.c:307: mstp_port->SilenceTimerReset((void *) mstp_port);
^ LPC Stuff
How is an LPC11u6x software project able to specify system clock source, and clock speed?
In one project there is, in int main() a first line which calls routine SystemCoreClockUpdate(). There are two files in [project dir | parent to project dir]/Common/lpc_chip/chip_11u6x/ which define this routine. In file [project]/Common/lpc_chip/chip_11u6x/chip_11u6x.c:
288 /* Return main clock rate */
289 uint32_t Chip_Clock_GetMainClockRate(void)
290 {
291 uint32_t clkRate = 0;
292
293 switch ((CHIP_SYSCTL_MAINCLKSRC_T) (LPC_SYSCTL->MAINCLKSEL & 0x3)) {
294 case SYSCTL_MAINCLKSRC_IRC:
295 clkRate = Chip_Clock_GetIntOscRate();
296 break;
297
298 case SYSCTL_MAINCLKSRC_PLLIN:
299 clkRate = Chip_Clock_GetSystemPLLInClockRate();
300 break;
301
302 case SYSCTL_MAINCLKSRC_WDTOSC:
303 clkRate = Chip_Clock_GetWDTOSCRate();
304 break;
305
306 case SYSCTL_MAINCLKSRC_PLLOUT:
307 clkRate = Chip_Clock_GetSystemPLLOutClockRate();
308 break;
309 }
310
311 return clkRate;
312 }
313
314 /* Return system clock rate */
315 uint32_t Chip_Clock_GetSystemClockRate(void)
316 {
317 /* No point in checking for divide by 0 */
318 return Chip_Clock_GetMainClockRate() / LPC_SYSCTL->SYSAHBCLKDIV;
319 }
clock_11u6x.c [dos] (09:59 30/10/2019)
In file [project]/Common/lpc_chip/chip_11u6x/system_LPC11Uxx.c:
296
297 /*----------------------------------------------------------------------------
298 Clock Variable definitions
299 *----------------------------------------------------------------------------*/
300 uint32_t SystemCoreClock = __SYSTEM_CLOCK;/*!< System Clock Frequency (Core Clock)*/
301
302
303 /*----------------------------------------------------------------------------
304 Clock functions
305 *----------------------------------------------------------------------------*/
306 void SystemCoreClockUpdate (void) /* Get Core Clock Frequency */
307 {
308 uint32_t wdt_osc = 0;
309
310 /* Determine clock frequency according to clock register values */
311 switch ((LPC_SYSCTL->WDTOSCCTRL >> 5) & 0x0F) {
312 case 0: wdt_osc = 0; break;
313 case 1: wdt_osc = 500000; break;
314 case 2: wdt_osc = 800000; break;
315 case 3: wdt_osc = 1100000; break;
316 case 4: wdt_osc = 1400000; break;
317 case 5: wdt_osc = 1600000; break;
318 case 6: wdt_osc = 1800000; break;
319 case 7: wdt_osc = 2000000; break;
320 case 8: wdt_osc = 2200000; break;
321 case 9: wdt_osc = 2400000; break;
322 case 10: wdt_osc = 2600000; break;
323 case 11: wdt_osc = 2700000; break;
324 case 12: wdt_osc = 2900000; break;
325 case 13: wdt_osc = 3100000; break;
326 case 14: wdt_osc = 3200000; break;
327 case 15: wdt_osc = 3400000; break;
328 }
329 wdt_osc /= ((LPC_SYSCTL->WDTOSCCTRL & 0x1F) << 1) + 2;
330
331 switch (LPC_SYSCTL->MAINCLKSEL & 0x03) {
332 case 0: /* Internal RC oscillator */
333 SystemCoreClock = __IRC_OSC_CLK;
334 break;
335 case 1: /* Input Clock to System PLL */
336 switch (LPC_SYSCTL->SYSPLLCLKSEL & 0x03) {
337 case 0: /* Internal RC oscillator */
338 SystemCoreClock = __IRC_OSC_CLK;
339 break;
340 case 1: /* System oscillator */
341 SystemCoreClock = __SYS_OSC_CLK;
342 break;
343 case 2: /* Reserved */
344 case 3: /* Reserved */
345 SystemCoreClock = 0;
346 break;
347 }
348 break;
349 case 2: /* WDT Oscillator */
350 SystemCoreClock = wdt_osc;
351 break;
352 case 3: /* System PLL Clock Out */
353 switch (LPC_SYSCTL->SYSPLLCLKSEL & 0x03) {
354 case 0: /* Internal RC oscillator */
355 if (LPC_SYSCTL->SYSPLLCTRL & 0x180) {
356 SystemCoreClock = __IRC_OSC_CLK;
357 } else {
358 SystemCoreClock = __IRC_OSC_CLK * ((LPC_SYSCTL->SYSPLLCTRL & 0x01F) + 1);
359 }
360 break;
361 case 1: /* System oscillator */
362 if (LPC_SYSCTL->SYSPLLCTRL & 0x180) {
363 SystemCoreClock = __SYS_OSC_CLK;
364 } else {
365 SystemCoreClock = __SYS_OSC_CLK * ((LPC_SYSCTL->SYSPLLCTRL & 0x01F) + 1);
366 }
367 break;
368 case 2: /* Reserved */
369 case 3: /* Reserved */
370 SystemCoreClock = 0;
371 break;
372 }
373 break;
374 }
375
376 SystemCoreClock /= LPC_SYSCTL->SYSAHBCLKDIV;
377
378 }
These routines are completely different. What does a trace in IAR reveal about which project source files' code is executing during start up? . . . it is the second source file mentioned here, file system_LPC11Uxx.c.
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